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WO2008116393A1 - Appareil pour produire un mélange de susbtances sélectionnées et système d'application pour des informations électroniques - Google Patents

Appareil pour produire un mélange de susbtances sélectionnées et système d'application pour des informations électroniques Download PDF

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Publication number
WO2008116393A1
WO2008116393A1 PCT/CN2008/000603 CN2008000603W WO2008116393A1 WO 2008116393 A1 WO2008116393 A1 WO 2008116393A1 CN 2008000603 W CN2008000603 W CN 2008000603W WO 2008116393 A1 WO2008116393 A1 WO 2008116393A1
Authority
WO
WIPO (PCT)
Prior art keywords
raw material
mixing
spray
data
chamber
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/CN2008/000603
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English (en)
Chinese (zh)
Inventor
Fong-Chyi Chang
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from CNA2007100915072A external-priority patent/CN101274239A/zh
Priority claimed from CNA2007101284250A external-priority patent/CN101332417A/zh
Priority claimed from CNA2007101459679A external-priority patent/CN101376087A/zh
Priority claimed from CN200810007776A external-priority patent/CN101531095A/zh
Application filed by Individual filed Critical Individual
Publication of WO2008116393A1 publication Critical patent/WO2008116393A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • AHUMAN NECESSITIES
    • A45HAND OR TRAVELLING ARTICLES
    • A45DHAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
    • A45D34/00Containers or accessories specially adapted for handling liquid toiletry or cosmetic substances, e.g. perfumes
    • A45D34/04Appliances specially adapted for applying liquid, e.g. using roller or ball
    • AHUMAN NECESSITIES
    • A45HAND OR TRAVELLING ARTICLES
    • A45DHAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
    • A45D40/00Casings or accessories specially adapted for storing or handling solid or pasty toiletry or cosmetic substances, e.g. shaving soaps or lipsticks
    • A45D40/24Casings for two or more cosmetics
    • AHUMAN NECESSITIES
    • A45HAND OR TRAVELLING ARTICLES
    • A45DHAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
    • A45D2200/00Details not otherwise provided for in A45D
    • A45D2200/05Details of containers
    • A45D2200/058Means for mixing different substances prior to application

Definitions

  • the invention relates to an on-demand raw material output mixing device and an electronic information application system, in particular to a method which can conveniently hold the user independently, and can smoothly control the setting of the required mixing ratio of the raw materials and the spraying.
  • the existing electronic color inkjet printing technology is a large-volume inkjet printer that uses an external transmission line to connect to a computer aid.
  • the user builds a micro processing unit and drawing software in the computer to edit the pattern on the object to be printed.
  • the general inkjet printer will follow the computer instructions under the program conveyed by the computer setting.
  • the device is made of green (CYAN), red (MAGENTA), yellow (YELLOW), black (BLACK) and other raw materials, and the piezoelectric inkjet head is sprayed to an overlapping color mixture. After the color spray layers are overlapped and mixed, the inkjet effect of the desired color is obtained.
  • the inkjet technology described above must be edited by an external computer to be output to the inkjet printer. Therefore, the user must acquire the skills of operating computer aids and be skilled in computer skills.
  • the color pattern of the inkjet object is expressed by the output of the inkjet printer to obtain the color inkjet effect.
  • the effect of the inkjet printing is directly edited by the computer, even if the color of the inkjet output can be vivid, it is not as unique and natural as manual manual painting. The vivid effect makes the existing computer inkjet technology always stay in the traditional nesting of rigid mechanization, and can not show the humanized inkjet technology.
  • the present invention develops a combination of humanized operation function and electronic inkjet technology, which uses manual manual independent operation and on-demand control of the travel path of each spray material to meet in a specific space.
  • the structural design of the stack that is, the natural inkjet effect of the on-demand mixed color can be successfully completed.
  • the main object of the present invention is to provide an on-demand raw material output mixing device and an electronic information application system, which has the practical features of convenient user holding and self-operating inkjet operation, and the unique design of the spray space angle can be adjusted, and
  • the built-in power supply and the micro-control unit of the microcomputer can be controlled by the user's hand to control the opening and closing of the switch, and to change the structure of the spray to output mixed colors, thereby achieving a humanized and smoothly completing the on-demand mixed color. Natural inkjet effect.
  • the present invention is an optional raw material output mixing device for the above purposes, and the designed embodiment is as follows:
  • the present invention provides an on-demand raw material output mixing device comprising: a housing structure, the housing structure is provided with a housing, and the front end surface of the housing is a closed housing and a front end Forming a head portion, forming more than one mixing chamber in a front portion of the head portion, and forming a battery material chamber behind the housing corresponding to each mixing chamber, where the front end faces of the housing are respectively Forming more than one discharge port corresponding to one end of each mixing chamber;
  • the spraying device spacing ring is arranged around each mixing chamber and each has a spray port at the front end, and the rear end of each spraying device extends to the battery material chamber and each forms a raw material connection a control circuit board, the control circuit board is fixed in the battery material room and electrically connected to control each of the spraying devices;
  • a power supply unit the power supply unit is disposed in the battery material chamber and electrically connected to the control circuit board to provide power.
  • the present invention provides a rotating cylinder type of an optional material output mixing device, characterized in that it comprises: an outer casing structure, the outer casing structure is provided with a casing, the casing Forming a mixing chamber at one end; a raw material mixing device, the raw material mixing device comprising a motor fixed around the mixing chamber, a rotating structure pivoted in the mixing chamber and being subjected to the motor a rotating shaft, a set of mixing columns disposed on the rotating shaft, and a raw material mixing surface formed on the surface of the mixing column; and a spraying device, wherein a spacing ring is disposed around the mixing chamber And each of the raw materials is provided with a conduit, and one end of each conduit is connected with the raw material mixing surface to be connected with at least one spraying device on the peripheral wall of the mixing chamber, and each spraying device is provided with at least one spraying material.
  • the present invention provides a reciprocating type on-demand raw material mixing device, comprising: a machine table having a raw material cassette chamber formed on the top thereof, and a raw material cassette is disposed in the raw material card cassette; And an extension portion is disposed on one side of the material cassette chamber and communicates with the material cassette chamber; a driving device is disposed under the extension portion of the machine, and includes a reciprocating driving wheel and a screw that is pivotally disposed under an inlet and a retreat.
  • the reciprocating drive wheel is coupled to a reciprocating motor, and the screw is coupled to a screw motor; a spray structure is disposed in the extension of the machine, and has a material conveying pipe, a spray booth and a plurality of nozzles therein.
  • the raw material supply pipe communicates with the raw material cassette and the spray booth, and the nozzle is formed at the bottom of the spray booth; a power supply device is disposed in the casing;
  • the disc device is provided with a joint assembly, a raw material mixing disc with a mixing tank, and a reciprocating drive wheel, and the joint assembly combines the raw material mixing disc in a reciprocating manner.
  • the raw material mixing disc is connected to the reciprocating driving wheel; a micro control unit, the micro control unit is fixed in the casing and electrically connected to the power supply device, the screw motor, and the The reciprocating motor and the spray actuator in each nozzle.
  • raw material mixing tray device of the present invention may be any one of the following three specific embodiments:
  • the bottom of the joint assembly is provided with a nut slider, and the joint assembly is screwed onto the screw with a nut slider, and a vertical shaft is formed on the top of the nut slider.
  • the mixing disc is a disc body and is sleeved on the shaft in a reciprocable manner, and is provided with a ring driving gear around the driving gear, and the mixing groove is engaged in the reciprocating driving wheel.
  • a plurality of the tops of the raw material mixing trays are arranged around the top of the spray booth.
  • a bottom of the joint assembly is provided with a nut slider, and the joint assembly is screwed onto the screw with a nut slider, and a vertical shaft is formed on the top of the nut slider, and a sleeve is arranged.
  • a bracket extending in a left-right direction on the top surface of the bracket, the raw material mixing disc is disposed on the rail in a reciprocating manner, and the raw material mixing disc is a rectangular basin
  • a driving tooth is respectively arranged at the front and rear end edges of the top, and the reciprocating driving wheel is engaged with the driving teeth on the side.
  • a bottom of the joint assembly is provided with a nut slider, and the joint assembly is screwed onto the screw with a nut slider, and a vertical shaft is formed on the top of the nut slider, and a sleeve is arranged.
  • a pivoting groove on a top surface of the bracket corresponding to the lower portion of the spray booth wherein the raw material mixing disc is a circular basin, and the reciprocating rotating shape is placed at the pivoting a groove, the raw material mixing disc protrudes at a periphery of the top portion to form a ring driving tooth, and the side of the driving tooth engages the reciprocating driving wheel.
  • the side-by-side optional raw material output mixing device is constructed by a body of a storage area and a printing area, and a bendable device (such as a hinge mechanism or between the storage area and the inkjet area)
  • a bendable device such as a hinge mechanism or between the storage area and the inkjet area
  • the connection of the snake tube mechanism enables the printing area to be adjusted by the bendable device as described above; and the storage area forms a shape that can be conveniently held, and is provided with an array of raw material cassettes, a power supply unit, and a micro control.
  • the unit, the liquid crystal display unit with the touch pressure sensor, the air pressure adjusting unit, the camera unit and the power switch, and the printing area is provided for the number of the spray mixing device and the positioning device, and the predetermined number of raw materials are formed in the range of the positioning device.
  • the material bundles are mixed and mixed, and the inkjet area is provided with motor control and signal contacts.
  • the other driving roller kit group can be externally used for auxiliary flattening of the printed objects according to the printing requirements; For example, green (CYAN), red (MAGENTA), yellow (YELLOW), black (BLACK), each material cartridge has a external refill, and
  • the spray mixing device located in the printing area is connected by a power supply unit with a power switch, a spray actuator connected to each spray mixing device, a gas pressure adjusting unit of a plurality of raw materials, and a touch pressure sensor.
  • the micro control unit of the liquid crystal display unit, the camera unit, and the motor control signal contact of the external drive roller kit group is electrically connected to provide the user with the operation of setting the required inkjet color and performing the inkjet printing;
  • the spray material of each raw material jam can be brought into the spray mixing device according to the volume ratio of the appropriate spray output according to the optional mixing ratio and the appropriate time interval, and the micro droplet spray beam is formed when the spray hole is output.
  • the number of spray mixing devices can randomly adjust the angular position of the connecting pipe connected with the raw material card, and mark the intersection of the beam source and the printed object through the center point of the jet beam intersection on both sides of the multiple spray mixing device.
  • the spot mode the droplets of the micro-droplet output from each of the spray holes are concentrated and mixed in the predetermined space to be mixed on the surface of the object to be printed.
  • a driving roller kit group composed of a base frame, a motor and a plurality of driving wheels can be externally connected to the space of the printing area, and the motor and the motor control signal contact point of the printing area can be used.
  • the electric power supply unit and the micro processing unit are electrically connected, so that the opening and closing of the motor can be controlled by the main body, and the driving range of the printed object is flattened by the driving wheel on the base frame, and the driving wheel is rotated by the motor, that is, When traveling on the object to be printed, the number of the jets can be hooked and completely concentrated on the object to be printed, and the better inkjet effect is achieved.
  • the user wants to make the printed object still flattened to facilitate the inkjet printing action and the inkjet printing effect, it can be connected under the above-mentioned driving roller kit group, that is, under the object to be printed, by the bracket and the number of rollers.
  • the lower layer of the pinch wheel sub-assembly is configured to support the roller corresponding to the driving wheel by means of the bracket for the two-way clamping of the object to be printed, so that the jet intersection has a flat and stable printing space.
  • the upper and lower sides of the body are connected by two parallel lines of the same side-by-side type raw material output mixing device, which can realize the inkjet effect of achieving the two-way spray beam intersection.
  • the output device is a ring-shaped optional raw material output, and the structure is a circular upright type and can be conveniently held, and the inside thereof has an array of ring-shaped raw materials and electrically connected.
  • the power supply unit and the micro control unit each have a spray mixing device connected to each of the raw material cards, and the spray hole of the spray mixing device outputs a micro droplet spray bundle, and the spray mixing device can be connected between the raw material cassettes
  • the connecting tube for adjusting the bending angle is connected, the main body is provided with a coloring knob capable of rotating to select a desired color, the coloring knob forms a transparent disc cover sheet, and the rotating paddle for facilitating the user's hand to rotate is provided thereon
  • the color correction knob has a color selection magnifying glass, and the other side is printed with a radial full chromatogram pattern, and the position sensor is electrically connected to the micro control unit, so that the color adjustment knob selects a predetermined color position by the user viewing the radial full chromatogram pattern through the color selection magnifying glass
  • the position sensor When contacting the position sensor, it conveys the micro-droplet spray bundle that the micro-control unit edits the number of raw material cards to mix and output the intersection, and the external body
  • the spray stock warning light, the power switch and the output spray start switch are convenient for the user to visually and fingerly operate to open and close the spraying action;
  • the spray beam width sliding control button is also provided outside the body, which can be conveniently used.
  • the index finger sliding operation is used to adjust the width of the spray beam;
  • the body is provided with a positioning device on the outer side of the opening direction of the spray mixing device, and a predetermined number of raw materials are formed in the range of the opening region and the positioning device.
  • the spray bundles co-mix the space of the intersection so that the printed object can smoothly obtain the mixed color of the spray intersection under the restriction of the positioning device, and the range of the opening area and the positioning device thereof can also cooperate with a nozzle cover Set, or perform a test that overlaps and completes the mixing; in addition,
  • the surrounding type raw material output mixing device of the invention can specially design a bending connecting pipe at the outer part of the spray mixing device for the above-mentioned body, so that the body and the spraying material mixing device thereof can be provided for the user to According to the convenience of the holding posture and the coloring direction, the angle of holding and positioning is changed with the nature.
  • Figure 1 is a perspective view of a preferred embodiment of the present invention
  • Figure 2 is a schematic cross-sectional view of a preferred embodiment of the present invention.
  • Figure 3 is a schematic cross-sectional view of a preferred embodiment of the present invention.
  • Figure 4 is a schematic view of a spray device of a preferred embodiment of the present invention.
  • FIG. 5 is a schematic diagram of a control circuit board in accordance with a preferred embodiment of the present invention.
  • Figure 6 is a block diagram of a preferred embodiment of the present invention.
  • Figure 7 is a schematic view showing the implementation of the replacement of the raw material cassette in the preferred embodiment of the present invention
  • Figure 8 is a perspective view of a second preferred embodiment of the present invention
  • Figure 9 is a cross-sectional view showing a second preferred embodiment of the present invention.
  • Figure 10 is a cross-sectional view showing a second preferred embodiment of the present invention.
  • Figure 1 is a schematic cross-sectional view showing a second preferred embodiment of the present invention.
  • Figure 12 is a bottom plan view of a mixing column of a second preferred embodiment of the present invention.
  • Figure 13 is a cross-sectional view showing a second preferred embodiment of the present invention.
  • Figure 14 is a schematic view showing a material cartridge of a second preferred embodiment of the present invention.
  • Figure 15 is a block diagram of a second preferred embodiment of the present invention, in conjunction with a rotational displacement optical sensor;
  • Figure 16 is a block diagram of a second preferred embodiment of the present invention.
  • Figure 17 is a cross-sectional view showing a third preferred embodiment of the present invention.
  • Figure 18 is a perspective view of an electromagnetic brake according to a third preferred embodiment of the present invention.
  • 19 to 21 are schematic views showing the implementation of a second preferred embodiment of the present invention.
  • Figure 22 is a schematic view showing the distribution of the raw materials on the mixing surface of the raw material in the second preferred embodiment of the present invention.
  • 23 to 25 are schematic views showing the implementation of a third preferred embodiment of the present invention.
  • Figure 26 is a schematic view showing the distribution of the raw materials on the mixed surface of the raw material in the third preferred embodiment of the present invention.
  • FIG. 27 and 28 are schematic views showing an operation of a pneumatic pressure pump according to a second preferred embodiment of the present invention.
  • FIG. 29 is a cross-sectional view showing a fourth preferred embodiment of the present invention.
  • Figure 30 is a perspective view of a built-in nozzle slider ring according to a fourth preferred embodiment of the present invention.
  • Figure 31 is a schematic view showing the operation of the built-in nozzle slider ring according to the fourth preferred embodiment of the present invention.
  • Figure 32 is a cross-sectional view showing the fifth preferred embodiment of the present invention.
  • Figure 33 is a cross-sectional view showing a sixth preferred embodiment of the present invention.
  • Figure 34 is a bottom plan view showing a seventh preferred embodiment of the present invention.
  • Figure 35 is a cross-sectional view showing a seventh preferred embodiment of the present invention.
  • Figure 36 is a cross-sectional view showing the seventh preferred embodiment of the present invention.
  • Figure 37 is a perspective view of an eighth preferred embodiment of the present invention.
  • Figure 38 is an exploded view of an eighth preferred embodiment of the present invention.
  • Figure 39 is a cross-sectional view showing an eighth preferred embodiment of the present invention.
  • Figure 40 is a cross-sectional view showing an eighth preferred embodiment of the present invention.
  • Figure 41 is a bottom plan view of a spray booth according to an eighth preferred embodiment of the present invention.
  • Figure 42 is a schematic view showing the arrangement of nozzles of the spray booth according to the eighth preferred embodiment of the present invention
  • Figure 43 is a cross-sectional view showing a nozzle of an eighth preferred embodiment of the present invention
  • Figure 44 is a block diagram showing the electrical connection of the eighth preferred embodiment of the present invention.
  • FIG. 45 and FIG. 46 are schematic views showing the action of nozzle spraying according to the eighth preferred embodiment of the present invention.
  • Figure 47 is a perspective view of a ninth and tenth preferred embodiment of the present invention.
  • Figure 48 is a cross-sectional view showing a ninth preferred embodiment of the present invention.
  • Figure 49 is a schematic view showing the operation of the raw material mixing tray of the ninth preferred embodiment of the present invention.
  • Figure 50 is a perspective view of a tenth preferred embodiment of the present invention.
  • Figure 51 is a cross-sectional view showing a tenth preferred embodiment of the present invention.
  • Figure 52 is a schematic view showing the operation of the raw material mixing tray of the tenth preferred embodiment of the present invention.
  • Figure 53 is a schematic view showing the arrangement of nozzles of the spray booth according to the tenth preferred embodiment of the present invention.
  • Figure 54 is a schematic view showing the position of a barcode of a raw material mixing tray according to an eighth preferred embodiment of the present invention.
  • Figure 55 is a schematic diagram of a head makeup maintenance job guiding learning method for comparing real-time simulated images with solid images.
  • Figure 56 is a perspective view showing the eleventh form of the ink jet device of the present invention.
  • Figure 57 is a cross-sectional view showing the eleventh form of the ink jet device of the present invention.
  • Figure 58 is a schematic view showing the twelve forms of the ink jet device of the present invention.
  • FIG. 59 is a twelve-form and adjustment angle action diagram of the inkjet device of the present invention.
  • Figure 60 is a schematic cross-sectional view of the form of Fig. 58 and the adjusted angle of the action;
  • Figure 61 is a perspective view showing the end face of the storage area of the eleventh and twelfth forms of the A-A section of Figure 60;
  • Figure 62 is an end view showing the structure of the inkjet region of the B-B section of Figure 60;
  • Figure 63 is a schematic view showing the direction of adjusting the spray hole of the spray mixing device of the ink jet printing device of the present invention
  • Figure 64 is a schematic view showing the two directions of the spray mixing device of the ink jet printing device of the present invention for adjusting the spray hole
  • Figure 65 (C) is a schematic view of a spray mixing device according to another embodiment of the present invention
  • Figure 66 is a side elevational cross-sectional view of the twelve-way engagement drive roller kit of the present invention
  • Figure 67 is a cross-sectional view of the CC drive profile of the assembly of the drive roller assembly of Figure 66
  • Figure 68 is a connection of the form of Figure 66
  • FIG. 69 is a schematic cross-sectional view showing the end of the drive roller transfer kit of FIG. 66;
  • Figure 70 is a side elevational cross-sectional view of another embodiment of the articulated drive non-circulating belt transfer assembly of Figure 66;
  • Figure 71 is a side cross-sectional view showing the thirteen-type adapter screw driving printing kit of the present invention;
  • Figure 72 is a schematic cross-sectional view showing the DD cross-section of the connecting screw driving printing kit of Figure 71; EE section of the joint screw drive printing kit set of the end view of a partial enlarged view;
  • Figure 74 is a side cross-sectional view showing the fourteenth type of interlaced printing kit of the present invention.
  • Figure 75 is a side elevation, partially enlarged view of the X-X section of Figure 74, showing the set of the screw drive printing printing kit;
  • Figure 76 is a schematic view showing the raw material of the ink jet printing device of the present invention is not combined with the external supplementary spray material;
  • Figure 77 is a schematic view showing the external supplementary material of the raw material of the ink jet printing device of the present invention;
  • Figure 78 is a partial enlarged view of Figure 77;
  • Figure 79 is a schematic view showing the externally replenished raw material of the raw material card of the inkjet device of the second embodiment
  • Figure 80 is a schematic view showing a new type of the mixing device of the optional raw material
  • Figure 81 is an enlarged side elevational cross-sectional view of the second sub-assembly of the lower-layer pinch wheel of the above-mentioned second form;
  • Figure 82 is a side elevational cross-sectional view of the sub-assembly of the lower-layer pinch wheel of the FF section of Figure 81;
  • Figure 83 is a connection of the lower layer of the clamping wheel a secondary kit, which displays a sheet reel mechanism pre-wound on a reel, which can be rolled out to provide a continuous thin profile of the mixed surface of the printed object;
  • Figure 84 is an enlarged cross-sectional side elevational view of the GG section of Figure 81 coupled to the lower set of pinch wheel sub-sets;
  • Figure 85 is an enlarged cross-sectional view of the HH section of Figure 81 connected to the drive roller set;
  • Figure 86 is the second form An enlarged side view of a side view of another identical form for two-way printing;
  • Figure 87 is an enlarged side elevational cross-sectional view of the two sets of two-way synchronous inkjet printing of the J-J section of Figure 36;
  • Figure 88 is a block flow diagram of the two-way synchronous inkjet device;
  • Figure 89 is a schematic view showing the structure of the digital makeup maintenance inkjet automatic vending and service device system of the present invention
  • Figure 91 is a view showing a single-size linear array of the spray holes of the first and second forms
  • Figure 92 is a second diagram of a plurality of size linear arrays of the spray holes of the first and second forms
  • Figure 93 is a schematic view showing the appearance of the thirteenth form of the ink jet device of the present invention.
  • Figure 94 is a cross-sectional view showing the thirteenth form of the ink jet device of the present invention.
  • Figure 95 is a schematic view showing the appearance of the fourteenth form of the ink jet device of the present invention.
  • Figure 96 is a cross-sectional view showing the fourteenth form of the ink jet device of the present invention.
  • 97 is a top plan view of the adjustment knob of the KK section of FIG. 94.
  • Figure 98 is a schematic sectional view showing the arrangement of the raw material cassette of the L-L section of Figure 94;
  • Figure 99 is an enlarged plan view of the MM section of Figure 94, showing the spray hole as a single-size rectangular array;
  • Figure 100 is an enlarged view of the NN section of Figure 94, showing the mixing of the spray beam intersections on the surface of the printed object Schematic diagram of the shape of a rectangular colored ink product;
  • Figure 101 is a view showing the M-M profile sub-type of Figure 94, which shows a schematic view of the spray holes in a plurality of linear arrays;
  • Figure 102 is a view showing the N-N profile sub-type of Figure 94, which shows a schematic view of the shape of the finished line of color inks mixed by the intersection of the spray beams on the surface of the printed object;
  • Figure 103 is a further view of the M-M section of Figure 94, showing a schematic view of the spray orifice being a single-sized circular array;
  • Figure 104 is a view showing the N-N profile sub-type of Figure 94, which shows a schematic view of the shape of the finished circular ink finished by the intersection of the spray beams on the surface of the printed object;
  • Figure 105 is another view of the M-M section of Figure 94, showing a circular array of various sizes of the spray holes;
  • Fig. 106 is another view of the N-N section of Fig. 94 showing a schematic view of the shape of a plurality of sizes of circular color inks which have been mixed by the intersection of the spray beams on the surface of the printed object.
  • An optional material output mixing device of the present invention includes:
  • An outer casing structure 10 the outer casing structure 10 is provided with a casing 11, a front end surface of the casing 11 is a circular straight casing having a closed surface, and a front end portion is formed with a head portion 111, and a circular groove-shaped mixing chamber is formed in the head portion 111. 112, a large diameter battery material chamber 114 is formed behind the mixing chamber 112, and a discharge port 115 is formed at the front end surface of the housing 11 corresponding to the mixing chamber 112-end;
  • a rear cover 12 for closing the rear end of the battery material chamber 114 is screwed into the rear end of the casing 11, and a front cover 13 for shielding the discharge port 115 is screwed at the front end.
  • a vent hole 121 is formed around the rear cover 12, and the casing 11 is provided.
  • a power switch 14 and an output color ink switch 15 are respectively disposed on the front side of the outer peripheral surface of the portion 111.
  • a position sensor 16 is disposed on the rear side of the outer peripheral surface of the head portion 111, and a rotatable color is disposed on the outer periphery of the position sensor 16.
  • the color selection ring 161 forms a color indication on the outer peripheral surface, and contacts the sensing side with a linear film varistor
  • the position sensor 16 is configured to sense the position at which the color selection ring 161 rotates, and a power warning lamp 17 and four material stock warning lamps 18 are provided on the rear side of the outer peripheral surface of the casing 11.
  • the spraying device 30 is respectively provided with at least one spraying port 31 and a spraying actuator 32, and is combined with a deforming plate and a pillar to generate deformation and compression extrusion, so that the raw material faces the mixing chamber.
  • the chambers 1 12 are sprayed, and the rear end of each of the spray devices 30 extends to the periphery of the front end of the battery material chamber 1 14 and each forms a raw material lead end 33.
  • control circuit board 40 the control circuit board 40 is fixed at the front end of the middle of the battery material chamber 14 and located between the raw material lead ends 33, and an electromagnetic plug is arranged on the front side of the control circuit board 40 corresponding to each raw material lead end 33.
  • Each of the raw material cassettes 50 is provided with a hard shell 51, and the outer shells of the hard shells 51 extend in the front-rear direction and are respectively surrounded by the battery material chambers 14 and 14 respectively.
  • An insertion portion 51 1 is formed at the front end corresponding to each of the raw material leading ends 33.
  • Each of the insertion portions 51 1 forms an outlet sealing film 512 at the front end, and each of the outlet sealing films 512 is pierced by the corresponding raw material leading ends 33, and thus connected.
  • a storage chip 513 is coupled to the intubating portion 51 1 and on the side facing the control circuit board 40. Each of the storage chips 513 contacts the second storage chip reading head 42 and is used in the label, type, model, and manufacturing of the raw materials. Batch number, expiration date, color data, component data, viscosity data, mixed program data, mixed compatibility data, logistics transaction data, filling date and time, filling capacity, confidentiality data, check code, etc.
  • the controller restores the remaining capacity value of the new material at any time after each mixing, and forms an L-shaped safety air inlet 514 on the wall surface of the rear end portion of the hard shell 51, and a packaging film 52 is disposed in the hard shell 51, each of which The packaging film 52 contains raw materials and the front end is connected to the cannula portion 51 1.
  • the atmospheric pressure inside and outside the hard shell 51 is balanced by the arrangement of the safety air inlet 514, and when the spraying device 30 faces the mixing chamber
  • the four raw material cassettes 50 of the present invention respectively contain raw materials of four colors of yellow green, red and black in the packaging film 52 for the ink jetting device 30 to spray and mix colors into the mixing chamber 1 12 .
  • a power supply unit 60, the power supply unit 60 is disposed in the middle of the battery material chamber 14 and located between the respective material cassettes 50.
  • the power supply unit 60 is electrically connected to the control circuit board 40 to provide power.
  • the spraying device 30 of the present invention may be used in combination with the four raw material cards 50 in combination with the four spraying devices 30, or may be used in combination with the same amount of raw material cassettes 50 in two or five different types of spraying devices 30.
  • the spray port 31 of each of the spraying devices 30 can also be set in other numbers, and the invention is not limited herein.
  • the present invention can form a plurality of mixing chambers of different sizes or uniforms in the head, and one or more of the mixing chambers are respectively formed on the front end surface of the housing.
  • the discharge port is arranged, and the respective spraying devices are respectively disposed in groups around the mixing chambers.
  • the change of the number of settings is not limited herein.
  • the power switch 14 When the present invention is used, the power switch 14 is pressed to start the power supply and simultaneously adjust the color selection ring 161 to the desired color, so that the position sensor 16 detects the adjusted position of the color selection ring 161 and transmits it to the control circuit board 40.
  • the color scanning device to obtain the physical color, then pressing the output color ink switch 15 and performing the following color mixing and discharging steps with the integrated microcontroller of the control circuit board 40:
  • the control circuit board 40 needs to mix the raw materials of the various color material cartridges 50 toward the mixing chamber 1 according to the mixing ratio of the desired color output.
  • the inside of the 12 is ejected, so that the overlap and the collision are mixed, and the mixing can be enhanced by shaking.
  • a vibration device, a temperature adjusting device and a specific spectral energy supply device may be added around the spraying device and the mixing chamber, or a stirring device and a reaction catalytic device may be added in the mixing chamber to assist in achieving Mixed effect.
  • the power warning light 17 will light up to alert the user to change.
  • the corresponding stock quantity warning is The light 18 is illuminated to alert the user to change.
  • the electromagnetic bolt actuator 41 protrudes toward the insertion portion 51 1 and assumes a state in which it is prohibited from being inserted into the raw material receiving end 33.
  • the plug of the electromagnetic plug actuator 41 is immediately controlled by an electrical signal.
  • the indentation is in a state in which the open insertion portion 51 1 is inserted into the raw material leading end 33, and the corresponding raw material stock warning lamp 18 is illuminated to inform the user that the insertion of the cassette can be started, and the intubation portion of the front end of the raw material cassette 50 can be obtained.
  • 51 1 Fully inserted into the raw material lead end 33.
  • the present invention is a rotary cylinder type of optional material output mixing device. Referring to the second preferred embodiment of FIGS. 8 to 14, it includes:
  • the outer casing structure 10 is provided with a casing 11 which is a square straight rod body and has a head portion 111 formed at a front end portion thereof, and a cylindrical portion is formed at one end of the head portion 111.
  • the mixing chamber 112 forms a battery material chamber 113 behind the mixing chamber 112 in the casing 11.
  • the battery material chamber 113 has a large diameter and is provided with an opening at the rear, and is embedded in the rear end of the housing 11.
  • the cover 12, the rear cover 12 closes the rear end of the battery material chamber 113, and an air compression chamber 121 is formed at the rear end portion of the rear cover 12, and an air outlet 1211 is respectively disposed in the middle of the front and rear of the air compression chamber 121.
  • An air inlet hole 1212 is provided with a one-way outer air valve 1213 in the air inlet hole 1212. The outer air valve 1213 can only flow the air from the outside into the air compression chamber 121.
  • a power switch 13 and an imaging device 14 are respectively disposed on the outer peripheral surface of the head portion 111 of the housing 11.
  • a liquid crystal display device 19 including a touch pressure sensor is disposed on the peripheral surface of the housing 11 at the front end of the peripheral wall of the mixing chamber 112.
  • a proximity sensor switch 15 is provided, and a partition 16 is coupled to the rear end of the mixing chamber 112.
  • a through hole 161 is formed in the middle of the partition plate 16, and a limit switch 17 and a bar code reader 18 are coupled to one side.
  • a raw material mixing device 20 referring to FIG. 10, FIG. 12 and FIG. 15, the raw material mixing device 20 is provided with an ultrasonic motor 21, and the ultrasonic motor 21 is embedded at the rear end of the mixing chamber 112 and abuts against the partition plate 16.
  • a rotational displacement amount photosensor 211 is provided in the ultrasonic motor 21, and the rotational displacement amount photosensor 211 senses the rotation of the ultrasonic motor 21 by using a photosensor to sense a black and white marking provided around the rotor of the ultrasonic motor 21.
  • the displacement amount is at the axial center position of the ultrasonic motor 21 and combined with a rotating shaft 22, the rotating shaft 22 is pierced with a high magnetic permeability metal rod of the through hole 161, and is disposed in the mixing chamber 112 in a front and rear extension manner;
  • the material mixing device 20 is further provided with a mixing column 23, which is disposed in the mixing chamber 112 and forms a shaft hole 231 with the rotating shaft 22, and a magnetic material layer 232 is formed around the shaft hole 231, and the magnetic material layer 232 is The axial sliding form is sleeved outside the rotating shaft 22, and a raw material mixing surface 233 is formed on the front surface of the mixing column 23.
  • the surface of the raw material mixing surface 233 is provided with at least one concave portion or a convex portion to provide mixing.
  • the finished product also has a large attachment area and a stacking space.
  • a large diameter screwing portion 234 is formed around the rear portion of the mixing column 23, and a peripheral edge of the screwing portion 234 is protruded forward to form a ring detecting flange 235.
  • An annular thread 236 is formed on the circumferential surface of the screwing portion 234, and a circle identification barcode 237 is formed corresponding to the barcode reader 18 after the screwing portion 234;
  • the material mixing device 20 is further provided with four tooth rows 25 and at least one photothermal radiation device 26, four tooth rows 25 are equally spaced around the peripheral wall of the mixing chamber 12 and projecting inside into the mixing chamber, each The rows of teeth 25 are respectively engaged with the threads of the mixing column 23, while the photothermal radiation device 26 is disposed on the peripheral wall of the mixing chamber 112 and on the inside toward the mixing chamber 112.
  • the ultrasonic motor 21 of the above-described raw material mixing device 20 can also be replaced by a general motor and achieve the same effect, and the selection of the motor is not limited to the limit of the preferred embodiment.
  • the four spraying devices 30 are respectively disposed at equal intervals around the head portion 11 and are located between the electromagnetic brakes 24, respectively, and the spraying device 30 respectively
  • a duct 31 extending along the front and rear is provided.
  • Each duct 31 is respectively provided with six and one front and rear spray nozzles 32 at the front end and the front end of the peripheral wall of the mixing chamber 112, and the outer ends of the spray ports 32 are respectively provided.
  • a spray actuator 321 is provided for extruding the raw material by a piezoelectric effect.
  • each of the conduits 31 extends to the periphery of the front end of the battery material chamber 1 13 and each forms a raw material lead end 33, and the head 1 1 1 is mixed.
  • Each of the spray ports 32 in the chamber 1 12 is provided with an upper cover 1 14 .
  • the upper cover 14 14 is sleeved on the head 11 1 in a detachable manner, and is inserted into the peripheral wall of the mixing chamber 112 to form a plug and Abutting on the nozzle sliding ring 1 141 of the mixing chamber 1 12 (see FIG.
  • the bottom edge of the nozzle sliding ring 1 141 is correspondingly recessed with four tooth rows notches 1 142 respectively for the respective tooth rows 25, so that the nozzle is slippery
  • the cover ring 1 141 accommodates the tooth rows 25 with the tooth row notches 1 142 and simultaneously closes the respective spray materials Port 32 is used to achieve the effect of contacting the raw material with air and stopping the leak.
  • control circuit board 40 the control circuit board 40 is fixed in the middle of the front end of the battery material chamber 1 13 , the control circuit board 40 has an integrated microcontroller, air pressure sensor and is electrically connected to the power switch 13 , the camera device 14 respectively, including touch pressure
  • the four raw material cassettes 50 are respectively strips of inks of four colors of yellow, green, red and black, which are respectively arranged around the battery material chamber 113, each of which is surrounded by The raw material cassette 50 forms a cannula portion 51 corresponding to each raw material leading end 33 at the front end, and the front end of each of the insertion tube portions 51 is pierced by the corresponding raw material leading end 33, thereby connecting the respective spraying devices 30.
  • a packaging film 52 is disposed inside each of the four material cassettes 50 of the present invention, and each of the packaging films 52 contains a raw material and the front end is connected to the insertion tube portion 51, and the air pressure inside and outside the material cassette 50 is made by the arrangement of the safety air inlet 53. Balancing, and when the spraying device 30 ejects the material into the mixing chamber 12, the air pressure entering the inside of the material cartridge 50 from the safety inlet 53 will begin to squeeze the packaging film 52 from the rear end until the material is intubated The department 51 is exhausted.
  • a power supply unit 60 referring to FIG. 9, the power supply unit 60 is disposed in the battery material room 1 13 The middle portion is located between the respective material cassettes 50, and the power supply unit 60 is electrically connected to the control circuit board 40 to provide power.
  • a pneumatic pressure pump 70 referring to FIG. 8 and FIG. 9, the pneumatic pressure pump 70 is incorporated in the air compression chamber 121 of the rear cover 12, the pneumatic pressure pump 70 is provided with a piston 71, and the piston 71 is located in the air compression chamber.
  • An air outlet hole 71 is disposed in the middle of 121, and a one-way inner air valve 712 is provided in the air outlet hole 711.
  • the inner air valve 712 can only flow the airflow from the rear to the front, and the piston 71 and the air compression chamber 121
  • a piston return spring 72 is disposed between the rear end wall surfaces, and a pneumatic pump excitation coil 73 is provided around the air compression chamber 121 to cooperate with the suction piston 71 to retreat.
  • the spraying device 30 of the present invention may be used in combination with the four raw material cassettes 50 in combination with the above four materials, or two or three equal number of spraying devices 30 may be used in combination with the same amount of the raw material cassette 50, and
  • the spray port 32 of each of the spray devices 30 can also be provided in other numbers, and the invention is not limited thereto.
  • the electromagnetic brake 24 and the screw clutch slider 242 are used to replace the tooth row 25 in the second preferred embodiment.
  • There are four electromagnetic brakes 24, and four electromagnetic brakes 24 are respectively provided with a bottom block 241 having a magnetizing coil 241.
  • the four bottom blocks 241 are equally spaced around the peripheral wall of the mixing chamber 112, and are interposed in the middle of each bottom block 241.
  • a screw clutch slider 242 the screw clutch slider 242 is a block that protrudes into the mixing chamber 1 12 and forms a clutch thread 2421 on the inner surface, and the clutch thread 2421 engages the thread 236 of the mixing column 23 .
  • An elastic body 243 is disposed between each of the screw clutch sliders 242 and the corresponding bottom block 241, and each of the screw clutch sliders 242 can be contracted into the bottom blocks 241 by the attraction of the base wires 241. .
  • the power switch 13 is activated and the image of the physical color is taken by the camera 14 and output to the liquid crystal display device 19 including the touch pressure sensor, or the display device directly outputs the built-in
  • the color menu is then pressed to press the liquid crystal display device 19 including the touch pressure sensor to select a desired color to match the selected color to perform the color mixing process, and the barcode reader 18 reads the identification barcode 237 data on the bottom surface of the mixing column 23. , in order to execute the procedure in accordance with the described mixing column 23.
  • the procedure for color mixing according to the second preferred embodiment of the present invention is to drive the mixing column 23 to spirally rise by the ultrasonic motor 21 while spraying the raw material toward the raw material mixing surface 233 by the respective spray ports 32 of the spray device 30.
  • the color mixing procedure of the second preferred embodiment is to first activate the ultrasonic motor 21 and simultaneously detect the stroke of the ultrasonic motor 21 by using the rotational displacement optical sensor 21 1 to control the rotation of the rotating shaft 22
  • the number of moving turns is such that the rotating shaft 22 is rotated by the ultrasonic motor 21, so that the mixing column 23 is spirally raised along each of the rows of teeth 25, and the raw material mixing surface 233 is ejected by the respective spraying ports 32 during the spiraling of the mixing column 23.
  • various raw materials are stacked in a spiral manner on the raw material mixing surface 233, as shown in Fig. 22, so that the finished product of the selected color is blended.
  • the procedure for color mixing according to the third preferred embodiment of the present invention is to drive the mixing column 23 in stages by the ultrasonic motor 21, and at the same time, the raw materials are sprayed toward the raw material mixing surface 233 by the respective spray ports 32 of the spraying device 30 at each stage.
  • the photothermal radiation device 26 is based on the mixing and reaction requirements of different raw material characteristics to enhance the mixing reaction effect or accelerate the drying speed.
  • the color mixing procedure of the third preferred embodiment is to first activate the electromagnetic brake 24 to retract the screw clutch slider 242, and rotate the rotating shaft 22 with the ultrasonic motor, thus driving the mixing column 23 in the original At the same time, the raw materials are sprayed to the raw material mixing surface 233 by the respective spray ports 32, and the various raw materials are stacked on the raw material mixing surface 233, and then the electromagnetic brake 24 is disabled to make the screw clutch slider 242 convex.
  • the thread 236 of the mixing column 23 is engaged with the clutch threads 2421, and the ultrasonic motor 21 is activated to drive the mixing column 23 to spiral up along the clutch threads 2421 to a position where the raw material mixing surface 233 is not sprayed with the raw material, and the electromagnetic brake 24 is activated again.
  • the screw clutch 242 is retracted, and the mixing column 23 is rotated by the ultrasonic motor 21 in the home position.
  • the raw material mixing surface 233 is sprayed with the raw materials, and various raw materials are stacked in layers.
  • the raw material mixing surface 233 is thus stacked in a looping manner on the raw material mixing surface 233, as shown in Fig. 26, so that the finished product of the selected color is blended.
  • the screw clutch 242 of the electromagnetic brake 24 is disengaged, and the thread 236 of the mixing column 23 is engaged with the clutch threads 2421.
  • the ultrasonic motor 21 is activated to drive the mixing column 23 to spiral up along the clutch threads 2421.
  • the measuring flange 235 corresponds to the position of the proximity sensor switch 15. At this time, the operation of the ultrasonic motor 21 is stopped and the user can use the finished product on the mixing column 23. After the use, the ultrasonic motor 21 is rotated in the reverse direction to mix the column. 23 is reset to the bottom, and when the bottom surface of the mixing column 23 abuts against the limit switch 17, the operation of the ultrasonic motor 21 is stopped.
  • the air pressure sensor in the control circuit board 40 is detected, please refer to FIG. 9, FIG. 27 and FIG.
  • the pneumatic pressure pump 70 When the pneumatic pressure pump 70 is activated, the piston 71 is attracted to move backward by the pneumatic ⁇ exciting wire ⁇ 73, and then the live release is released. The plug 71, at this time, the piston 71 is pushed forward by the piston return spring 72 and blows air from the inside of the air compression chamber 121 through the air outlet 121 1 into the battery material chamber 113, and the battery material chamber 1 13 is increased by repeating the above operation.
  • the air pressure inside is used to smoothly feed the raw material cassette 50 toward the raw material lead end 33.
  • the outer air valve 1213 and the inner air valve 712 of the air pressure pump 70 can be disposed in opposite directions, and the outer air valve 1213 can only make the air flow from the air compression chamber 121 Flowing outside, the internal air valve 712 can only flow the airflow from front to back, so that when the pneumatic pressure pump 70 operates, a negative pressure is generated in the battery material chamber 13 to prevent the raw material from being excessively output due to gravity.
  • FIG. 29 Another embodiment of the present invention, please refer to the fourth preferred embodiment of FIG. 29 to FIG. 30, which mainly changes the form of the mixing column 23 and the spray port 32 in the second preferred embodiment and adds a built-in type.
  • Nozzle slider ring 1 141A Nozzle slider ring 1 141A.
  • the fourth preferred embodiment is provided with the tooth row 25 and the proximity sensor switch 15 which are not described in the second preferred embodiment. Further, a plurality of spray ports 32A of the respective spray devices 30A are provided, and the respective spray ports 32A of the respective spray devices 30A are arranged in front and rear on the peripheral wall of the mixing chamber 112, and the changed mixing column 23A is provided with a plug.
  • the column 231 A, the insertion column 231 A is a circular cylinder and forms a shaft hole 232A corresponding to the rotation shaft 22 at the rear, and a magnetic material layer 233A is formed around the shaft hole 232A, and the magnetic material layer 233A is sleeved in an axially slidable manner. Outside the rotating shaft 22, a raw material mixing surface 234A is formed on the circumferential surface of the insertion column 231 A, and a lifting rod 235A is disposed at the front end of the insertion column 231 A;
  • a recessed portion 1121 is recessed in the peripheral wall of the mixing chamber 112, and an electromagnetic actuator 1122 is provided in the recessed portion, and a circular tubular built-in wall is slidably arranged on the peripheral wall of the mixing chamber 112.
  • the nozzle slide ring 1 141A, the nozzle slide ring 1141A corresponding to the spray port 32A of each spray device 30A respectively form four elongated openings 1142A extending in the front-rear direction, on the circumferential side of the built-in nozzle slide ring 1 141A
  • a pull rod 1143A is provided, and the pull rod 1143A is pivotally connected to the outer end of the electromagnetic actuator 1122.
  • the rotating shaft 22 is driven by the ultrasonic motor 21 to rotate the mixing column 23A, and the raw materials are sprayed toward the raw material mixing surface 234A by the respective spraying ports 32A, so that the raw material layers are stacked in the raw material.
  • Face 234A after the color mixing is completed, the user can pull out the mixing column 23A from the mixing chamber 1 12 by using the lifting rod 235A and take the finished product by color mixing, and can start the electromagnetic when the spraying ports 32A are not used for inkjetting.
  • the actuator 1 122 pushes the built-in nozzle slide ring 1 141A along the peripheral wall of the electromagnetic actuator 1 122, so that the built-in nozzle slide ring 1 141A covers the respective spray ports 32A, thus achieving the function of covering and preventing leakage.
  • Fig. 32 it is mainly to change the configuration of the ultrasonic motor 21 for driving the mixing column 23 and the configuration of the mixing column 23 and the spraying device 30 in the second preferred embodiment.
  • the fifth preferred embodiment is provided with the tooth row 25, the proximity sensor switch 15, the limit switch 17, the bar code reader 18, and the rotary shaft 22 which are not described in the second preferred embodiment.
  • a plurality of spray ports 32B of each spray device 30B are provided, and each spray port 32A of each spray device 30A is arranged in front and rear on the peripheral wall of the mixing chamber 112B and the bottom surface of the mixing chamber 112B in the mixing chamber.
  • a center post 1121B is fixed in the middle of the bottom surface of the chamber 112B, and an extension sleeve 1122B is screwed to the periphery of the front end of the mixing chamber 112B.
  • a proximity sensor switch 1123B is coupled to the extension sleeve 1122B, and an extension sleeve is arranged on the front end surface of the head portion 111.
  • the outer circumference of the cylinder 1122B is fixed with a modified ultrasonic motor 21B, and a circular rotating shaft 211B extending forward is formed around the ultrasonic motor 21B;
  • the modified mixing column 23B is provided with an insertion post 231B, the insertion post 231B is a circular cylinder and a raw material mixing surface 232B is formed on the circumferential surface and the rear surface, and a receiving hole 233B is recessed in the center of the rear end of the insertion post 231B.
  • the socket 233B is sleeved on the center pile 1121B, and a coupling disk 234B is disposed at the rear end of the insertion column 231B.
  • the circumference of the coupling disk 234B is nested on the inner surface of the annular rotating shaft 211B, and is extended behind the combining disk 234B. There is a grip 235B.
  • the ultrasonic column 21B drives the mixing column 23B to rotate, and at the same time, the raw materials are sprayed toward the raw material mixing surface 232B by the respective spray ports 32B, so that the raw material layers are stacked on the raw material mixing surface 232B.
  • the user can pull out the mixing column 23B from the mixing chamber 112B by using the grip bar 235B and take the finished product by color mixing.
  • Fig. 33 it is mainly to change the configuration of the ultrasonic motor 21 drive mixing column 23 in the second preferred embodiment and the configuration in which the mixing column 23 and the spraying device 30 are disposed.
  • the sixth preferred embodiment is provided with the tooth row 25, the proximity sensor switch 15, the limit switch 17, the bar code reader 18, and the rotary shaft 22 which are not described in the second preferred embodiment. Further, a plurality of the spray ports 32C of the respective spray devices 30C are provided, and the respective spray ports 32C of the respective spray devices 30C are disposed on the bottom surface of the mixing chamber 112C, and the periphery of the front end of the mixing chamber 112C is screwed and extended.
  • the sleeve 1121C, the front end surface of the head portion 111 corresponding to the outer circumference of the extension sleeve 1121C fixed ultrasonic motor 21C, forming an annular shaft 211C around the ultrasonic motor 21C;
  • the changed rotating shaft 22C is laterally pivoted between opposite sides of the front end portion of the extending sleeve 1121C, and a side wheel 221C is formed at the outer end of the rotating shaft 22C, and the side wheel 221C abuts against the leading edge of the annular rotating shaft 211C.
  • the changed mixing column 23C is a cylindrical body disposed laterally and is coupled to the rotating shaft 22C at the axial center position, and a raw material mixing surface 231C is formed on the circumferential surface of the mixing column 23C.
  • the rotating shaft 22C is driven by the ultrasonic motor 21C to drive the mixing column 23C to rotate, and the raw materials are sprayed toward the raw material mixing surface 231C by the respective spraying ports 32C, so that the raw material layers are stacked in the raw material. Face 231C, to provide the user with the finished product after the color mixing is completed.
  • a seventh preferred embodiment of the present invention is a configuration for changing the fitting form of the mixing column 23 and the rotating shaft 22 in the second preferred embodiment and the forward and backward movement of the mixing column 23.
  • a guide groove 80 is recessed in the vicinity of the mixing chamber 1 12, and the changed rotating shaft 22D is formed with an external thread 222D.
  • the modified mixing column 23D is formed with the external thread 222D.
  • An inner screw hole 236D is screwed to the outer thread 222D, and a corresponding convex portion 81 is formed in the corresponding guide groove 80 around the mixing column 23D.
  • the convex portion 81 is slidably embedded in the guide groove 80. In this way, when the rotating shaft 22D is rotated, the mixing column 23D is driven to move up and down, and the mixing and mixing of the raw materials is performed in cooperation with the respective spray ports 32D provided around.
  • the external thread 222D can be moved in a columnar shape (the columnar bottom is provided with a pair of lugs) or a plate shape (at least one side of the screw thread can be combined with the external thread 222D).
  • the embossed tooth row of the object to be sprayed (raw material mixing surface); or the external thread 222D driving wheel in combination with the circulating belt to drive a circulating belt-shaped object to be sprayed; or external thread 222D Driving the scrolling wheel in combination with the non-circulating belt and the guiding mechanism to roll a non-circulating belt-shaped object to be sprayed to provide a disposable mixing surface; or by means of a reel combined with a sheet and a guiding mechanism To roll at least one sheet-like object to be sprayed from the outside or the inside, after the sheet-like object to be sprayed is finished, the coated portion is first wound by the reel And exiting at the opening of the spray booth for the user to use the sprayed material, and then using the rear reel to completely roll out the sheet-
  • the present invention is a reciprocating type of optional material mixing device. Referring to Figures 38 to 44 and the eighth preferred embodiment of Figure 54, it comprises:
  • a machine table 10 please refer to FIG. 37 to FIG. 41, the top part of which forms a raw material cassette chamber 1 1 1 , raw material
  • the cassette interior is also provided with a material cassette 32, and an extension portion 1 15 is fixed on one side to communicate with the material cassette chamber 1 1 1; on the side of the bottom portion of the housing 1 1 is connected to a base 12, which is rectangular.
  • the flat housing extends forwardly from the front surface of the base 12, and the extending portion 115 is located above the rear side of the base 12, and a forward and backward opening 121 is formed in the middle of the top of the base 12;
  • a touch-type liquid crystal panel 13 that can be facing forward is pivotally connected to the rear side of the top surface of the chassis, and an imaging device 131 is disposed on the top of the touch-type liquid crystal panel 13; on the top surface of the chassis 1 1 , a touch-type liquid crystal panel is matched
  • a panel folding state sensing switch 14 is fixed, and a raw material mixing tray device advancing and retracting switch 15 is coupled in front of the extending portion 115, and a raw material mixing disc is combined in a portion between the extending portion 115 and the base 12 in front of the chassis 11.
  • the positioning mark light sensing switch 16 and a raw material mixing plate home limit switch 17 are positioned.
  • a set of driving devices 20 are disposed below the extension 155 of the machine table 10, including a reciprocating drive wheel
  • a spray structure 30, see FIG. 39 to FIG. 43, is an extension portion 115 of the machine table 10, and has a material supply pipe 31, a spray booth 33 and a plurality of nozzles 332. 31 is connected to the raw material cassette 32 and the spray booth 33, and the nozzle 332 is formed at the bottom of the spray booth 33, and is respectively detachably arranged in the raw material cassette chamber 11 1 respectively.
  • a spray booth 33 is fixed at the bottom of the spray booth 33.
  • a spray conduit 331 is disposed in the spray booth 33. The top ends of the feed conduits 331 are respectively concentrated at an introduction interface and are respectively connected at one end of each raw material delivery pipe 31.
  • the bottom of the seat 33 is provided with a plurality of nozzles 332 connected to the bottom end of the delivery pipe 331. Each of the nozzles 332 is provided with a spray actuator 334.
  • the plurality of nozzles 332 are arranged in three rows of fan-shaped arrangement, and the spray booth 33 is arranged.
  • a photothermal radiation device is disposed at a predetermined distance from the bottom of the nozzle 332 34.
  • a power supply unit 40 is disposed in the chassis 1 1 as described.
  • micro control unit 50 is fixed in the chassis 1 1 and electrically connected to the power supply device 40, the screw motor 22, the reciprocating motor 23, and the spray 332 of each nozzle Actuator 334.
  • a raw material mixing tray device 60 please refer to FIG. 38.
  • the raw material mixing tray device 60 is provided with a joint assembly 61.
  • the bottom of the joint assembly 61 is provided with a nut slider 611, and the nut slider 61 1 is screwed to the screw 21 Forming a vertically disposed shaft 612 on the top of the joint assembly 61;
  • a raw material mixing disc 62 is disposed on the shaft 612 in a reciprocable manner.
  • the raw material mixing disc 62 is a disc body having at least one convex portion and at least one concave portion on the upper surface thereof to increase the contact friction force and the side thereof. side
  • the top end of the raw material mixing tray 62 is provided with six mixing grooves around the top of the raw material mixing tray 62. 622, at the mixing tank 622 around the raw material mixing tray 62, the raw material mixing disc positioning mark light sensing switch 16 is respectively provided with six positioning marks 623, and the positioning and displacement of the raw material mixing disc 62 can also be applied by the barcode matching sensor switch.
  • the combination of the raw material cassette 32 and the raw material delivery tube 31 of the present invention may also add a set of raw material cassettes 32 containing black raw materials and a raw material delivery tube 31 for conveying black raw materials.
  • the nozzles 332 of the spray booth 33 can also be arranged in other forms.
  • the nozzles 332 can be arranged in a plurality of groups, arranged in at least one straight line, and the direction formed by each linear arrangement is mutually opposite to the reciprocating direction of the raw material mixing disc 62.
  • Vertically orthogonal; or the nozzle 332 of the spray booth 33 may be provided with at least one row of mutually parallel nozzles 332 and a radially arranged nozzle 332 arranged at the center of the center; the number of mixing slots 622 of the raw material mixing tray 62 may also be Further, the present invention is not limited thereto.
  • the desired color is selected by the touch liquid crystal panel 13, or the desired color is selected by the image capturing device 131, and then the spray structure 30 is activated, so that the raw material cassettes 32 of the spray booth 33 will be
  • the raw material of the desired color is sprayed through the nozzle 332 into the mixing tank 622 of the raw material mixing tray 62, while the reciprocating motor 23 drives the raw material mixing tray 62 to reciprocally rotate within the same mixing tank 622, as shown in Figs. 45 and 46.
  • the raw materials are superimposed and mixed to obtain the desired finished product for the consumer to use (for example, the liquid foundation and the eyeshadow of different colors required for mixing are outputted in different mixing tanks of the raw material mixing tray 62, or the connection can be made.
  • Ten pieces of fake nails together are placed on the raw material mixing tray 62 for the coloring function.
  • the positioning indicator mark 623 is positioned by the raw material mixing tray positioning mark light sensing switch 16 in cooperation with the raw material mixing tray 62, and the positioning mark in the form of a barcode can further provide the barcode corresponding mixing.
  • the data of different shapes and sizes of the grooves causes the reciprocating motor 23 to rotate the raw material mixing tray 62, and respectively moves the mixing tanks 622 to the lower side of the spray booth 33 to perform the above-mentioned raw material superposition process, so that the mixing tanks 622 of the spray booths 33 are The finished product of the desired color is finally pressed, and the screw motor 22 is driven to rotate the screw 21 to drive the coupling assembly 61 and the raw material mixing tray 62 to move forward at the same time, so that the raw material mixing tray 62 can be removed by the shaft 612.
  • the raw materials in the respective mixing tanks 622 are taken out in this manner.
  • the raw material mixing tray 62 is sleeved back to the shaft 612 of the joint assembly 61, and then the forward/back switch 15 is pressed to rotate the screw motor 22 to drive the screw 21 to drive the joint assembly 61 and the raw material mixing.
  • the disc 62 moves forward at the same time, and stops when the raw material mixing tray 62 touches the raw material mixing tray home limit switch 17, and can be closed toward the front when the touch liquid crystal panel 13 is not in use, when the touch liquid crystal panel 13 touches When the panel folding state sensing switch 14 is touched, the power-off is stopped.
  • a ninth preferred embodiment of the present invention is a modification of the configuration of the raw material mixing tray unit 60 of the eighth preferred embodiment.
  • the raw material mixing tray device 60A of the ninth preferred embodiment is provided with a coupling seat assembly 61A.
  • the bottom of the coupling seat assembly 61A is provided with a nut slider 611A, and the nut slider 611A is screwed to the screw 21, in the nut
  • the top of the slider 611A is sleeved with a bracket 612A, and a top surface of the bracket 612A is recessed with a rail 6121A extending in the left-right direction;
  • a raw material mixing tray 62A is arranged in a reciprocating manner.
  • 62A is a rectangular basin body, which is respectively provided with a driving tooth 621A at the front and rear end edges of the top, and the reciprocating driving wheel 231 is engaged with the driving teeth 621A of the side, corresponding to the spraying seat 33 at the top of the raw material mixing tray 62A.
  • a mixing tank 622 A is provided.
  • the reciprocating driving wheel 231 drives the raw material mixing tray 62A to reciprocate in the forward and reverse directions, and at the same time, the raw material is sprayed into the mixing tank 622A by the spray booth 33.
  • the reciprocating stack mixes the raw material into a finished product for use by the user (e.g., 10 pieces of dummy fingers that are joined together are disposed on the raw material mixing tray 62 for the painted nail function).
  • Figs. 47 and Figs. 50 to 53 are illustrative of changes in the configuration of the raw material mixing tray unit 60 of the eighth preferred embodiment.
  • the raw material mixing tray device 60B of the tenth preferred embodiment is provided with a coupling seat assembly 61B, and a nut slider 611B is disposed at the bottom of the coupling seat assembly 61B, and the screw cap 611B is screwed to the screw 21 at the nut
  • the top of the slider 61 IB is sleeved with a bracket 612B, and a circular pivoting groove 6121B is recessed on the top surface of the bracket 612B corresponding to the spray booth 33;
  • a raw material mixing tray 62B is disposed in a reversible reciprocating rotation manner.
  • the raw material mixing tray 62B is a circular basin body which protrudes from the periphery of the top portion to form a ring driving tooth 621B for driving the tooth 621B to have a mixture.
  • Slot 622B is a circular basin body which protrudes from the periphery of the top portion to form a ring driving tooth 621B for driving the tooth 621B to have a mixture.
  • the reciprocating driving wheel 231 drives the raw material mixing tray 62B to rotate counterclockwise, and at the same time, the raw material is sprayed into the mixing tank 622B by the spray booth 33, so that the stack is reciprocally stacked.
  • the mixed raw materials become finished products for the user to utilize.
  • a typical make-up simulation method and apparatus thereof includes: (A) capturing image parameters and contour parameters of a target image; (B) analyzing the image parameters and contour parameters to obtain stereoscopic image and texture information of the target image; (C) receiving an input command, Is used to combine a makeup parameter with the target image, the makeup parameter is to define a use effect of the cosmetic; (D) to retrieve the set value of the makeup parameter; (E) Stereoscopic image and the texture information, and image integration operation with the makeup parameter to obtain a makeup image; and (F) displaying the makeup image; the main disadvantages of the composition are: Only trial and simulation are available, and the user's desired makeup cannot be directly output.
  • the present invention provides a head makeup maintenance instruction guiding learning method for comparing real-time simulated images with physical images, and referring to the block diagram of FIG. 44, the steps are as follows:
  • the process 10 starts starting the micro control unit 50 and/or other external electronic information device connected through the wired/wireless external connection communication module, and is the starting point of the software program;
  • the camera device 131 inputs a user's head image screen
  • the head makeup maintenance job type selection screen is displayed on the touch type liquid crystal panel 13 by the micro control unit 50 and/or the external electronic information device, and the user selects the desired head makeup maintenance job type;
  • the touch type liquid crystal panel 13 selects a desired type of head makeup maintenance work;
  • the micro control unit 50 and/or the external electronic information device extracts the characteristic parameter data of the class operation from the existing job sample database according to the type of the head makeup maintenance job selected by the user, and then The characteristic parameter data is combined with the user's head image image to perform simulation image processing, to obtain a simulation image after the completion of the item operation, and displayed on the touch liquid crystal panel 13 for the user to preview;
  • the process 14 the user confirms the satisfaction of the simulation screen, and after determining the satisfaction, and continues to execute the process 15 , if the determination result is no, the process 12 is continued;
  • the micro control unit 50 and/or the external electronic information device sequentially perform each step of guiding work according to the characteristic parameter data of the type of makeup maintenance work and the predetermined guiding step sequence, and in each guiding step,
  • the touch-type liquid crystal panel 13 displays the makeup maintenance operation instruction screen of the step and the user simulation head image after the step is completed, and the spray structure 30 mixes and outputs all the paints required for the step;
  • the user follows each step guiding screen, and uses the spray material structure 3 to mix and output the paint in real time, and each step is completed step by step.
  • the camera device 131 also captures the latest image of the user's head at any time and outputs the image to the display device ( Display device )
  • process 17 the user confirms that all the guiding steps have been completed, and the determination is and continues to execute the process 18, If the determination result is no, then the process 15 is continued;
  • the process 18, the micro control unit 50 and/or the external electronic information device and the software program end the workflow.
  • the micro control unit 50 and/or the external electronic information device extracts the feature parameter data contained in the class job from the existing job sample database, wherein the type of the feature parameter data may include the following Associated data items and collections:
  • Workspace model A point, line, trajectory, face, shape, or region that is related to the paint handwriting and may be defined by the industry's existing 2D or 3D and/or other applicable coordinate models, and may be composed of Any collection of.
  • the work space model may include different types of head shapes and feature points that may exist on the head shape (eg, pupil center of both eyes), feature lines (eg, eyebrow lines, lip lines), two-dimensional view (eg front view) and 3D model;
  • Paint track group data A collection containing at least one paint track data
  • Paint trace data First, the column or set of records containing at least paint properties and / or handwriting properties, and may be composed of different forms of data with spatial model patterns, time series patterns and / or paint information patterns. .
  • the first one is that the column data may be sorted according to the chronological order of input and/or output or according to the position appearing in the work space, or may be ordered by other methods or attributes; in an exemplary embodiment, the parameter data of the paint may include Name, model, main formula, color data, solvent data, mixed processing program data, usage, special considerations, etc.;
  • Handwriting At least the material of the nib, the thickness of the nib, the shape of the nib, the gesture of the pen, the angle of the pen, the speed of the pen, the pressure of the pen, the position of the pen in the direction of travel of any continuous line or curve, and the change of the pen method, and the like.
  • the micro control unit 50 and/or the external electronic information device perform the simulated image processing by using the feature parameter data in combination with the user's head image frame, wherein the simulated image processing method is the camera device 131 capturing the user.
  • the simulated image processing method is the camera device 131 capturing the user.
  • the micro control unit 50 and/or the external electronic information device further extracts the work space model data and the paint trajectory group data from the sample database pre-built by the system according to the type of makeup maintenance work selected by the user, and then The user's head makeup maintenance work space model data is subjected to the industry's existing data normalization and mapping I morphing I rendering to complete real-time simulation image processing, and Displaying the real time on the touch liquid crystal panel 13
  • the image of the simulated makeup maintenance work result of the user's head is displayed for the user to preview.
  • the real-time simulation completion image screen of this step is displayed in each guiding step, and the main guiding steps are implemented as follows:
  • Steps 1 Apply a sponge to the cream and apply the face thoroughly. (This cream application process may be subdivided into several detailed actions according to the main area of the human face);
  • Step 2 Dip the foundation with the foundation, and then thoroughly apply the face to the face. (This foundation application process may be subdivided into several detailed actions according to several main areas of the human face);
  • Step 3 Dip the eye shadow color on the eye shadow pen, and then correct the eye shadow area in sequence (this eye shadow process may be subdivided into several detailed actions according to several main sections of the human eye shadow area);
  • Step 4 Dip the eyebrow pencil with the eyebrow pencil and correct the eyebrow line in sequence (this one eyebrow process may be subdivided into several detailed actions according to several main sections of the human eyebrow);
  • Step 5 Dip the eyeliner with the eyeliner and correct the eyeliner area in sequence. (This process of drawing the eyeliner may be subdivided into several detailed actions according to several main sections of the human eyeliner);
  • Step 6 Dip the powdered enamel color with a white enamel pen, and smear the enamel in the order of the sputum. (This enamel finishing process may be subdivided into several detailed movements according to several main areas of the human body sac;)
  • Step 7 Apply the lip balm to the lip pencil and modify the lip in sequence (this process of lip painting may be subdivided into several detailed actions according to several major areas of the human lip).
  • the user follows the instruction screen of each step, and uses the spray structure 3 to mix and output the paint in real time, and steps are completed step by step.
  • the camera 131 also captures the latest image of the user's head at any time, and outputs the touch to the touch.
  • the user can clearly view from the display device in each guiding step, and compare the difference between the simulated head picture after the completion of the step and the currently completed head picture. .
  • the two images can provide a parallel display mode or an overlay display mode
  • any user can conveniently and quickly perform this.
  • An innovative real-time image contrast guiding learning method in each guiding step, can fully understand the guiding steps through the contrast image of the simulated image and the solid image, and can confirm whether each step has been correctly and perfectly completed. In turn, it is guaranteed that the original preview of the headwork completed by the simulation can be truly realized.
  • the invention uses the nozzles of the spray booth to spray the raw materials of the raw material jam into the mixing tank of the raw material mixing disc, supplemented by the reciprocating motor.
  • the raw material mixing disc is reciprocated to allow the raw materials to be sufficiently mixed and superimposed on the mixing tank. It is the biggest advantage of the invention that the raw materials are fully superimposed by the reciprocating motion in the mixing tank of the mixing raw material mixing tray device, so that the finished product with sufficient mixing and color can be obtained, and the user can also utilize the pigment.
  • the on-demand raw material output mixing device and the electronic information application system designed by the present invention comprises:
  • the body 10 is divided into a storage area 11 and a printing area 12, and the storage area 11 and the inkjet area 12 can be defined by a fixed angle (as shown in FIG. 56 and FIG. 57), or the storage area 11 and the inkjet area. 12 is connected by a bendable device (such as a shaft mechanism or a coil mechanism) (as shown in Fig. 58, Fig. 59), so that the inkjet region 12 can be adjusted by the bendable device at a desired angle.
  • a bendable device such as a shaft mechanism or a coil mechanism
  • the storage area 11 forms a shape that can be easily held, and is provided with an array material card 20, a power supply unit 31, a micro control unit 32, and a liquid crystal display with a touch pressure sensor.
  • the unit 33, the air pressure adjusting unit 34, the image capturing unit 35 and the power switch 36 (shown in Fig. 56), and the inkjet printing area 12 are provided with a positioning device 121 and at least one spray mixing device 4 (shown in Fig. 62).
  • the positioning device 121 can be a roller shape, a straight tubular shape, a round push tube shape, a square tubular shape, or the like. Other single forms or various combinations are implemented;
  • the inkjet area 12 of the present invention is provided with a primary auxiliary kit interface 122 for coupling an auxiliary function kit for externally driving another drive roller kit set 5.
  • Figure 68 is an end elevational cross-sectional view of the prior art auxiliary assembly interface 122 of Fig. 66 for coupling the sub-type of the auxiliary drive roller transfer kit.
  • Figure 69 is an end elevational cross-sectional view of the prior art auxiliary kit interface 122 of Fig. 66 for coupling the auxiliary drive kit to another form of the articulation drive endless belt transfer kit.
  • Figure 70 is an end cross-sectional schematic view of the prior art auxiliary assembly interface 122 of Figure 66 coupled to another form of adapter-driven non-circulating belt transfer assembly set with an auxiliary function.
  • the material cartridge 20 is placed in the storage area of the body 10
  • each raw material cassette 20 has at least one raw material container and at least one spray mixing device 4, wherein the raw material container is a film bag type raw material container filled with a spray material, and the film bag type raw material container can be set.
  • At least one closure 22 similar to rubber material characteristics each of the spray mixing devices 4 is provided with at least one spray hole 42 and at least one spray actuator 41, and each raw material container is connected with a corresponding spray mixing device to form a common
  • the raw material guiding path is respectively used to hold the required spraying materials, such as cyan, MAGENTA, yellow (YELLOW), black (BLACK), and each of the raw materials of the sprayed material is 20 Have resistance
  • the bubble buffer 21 is connected to the spray mixing device 4 of the printing area 12; the spray of each raw material cassette 20 can be repeatedly filled with the packing of the raw material cassette 20 by the external filling material injector 28 with its injection tube 281
  • the plug 22 shown in Figures 76 to 78
  • the curved safety vent hole 23 of the material cartridge 20 can carry air to
  • the raw material cassette 20 can be internally provided with four sets of raw material film bags, which are separated from each other by a partition plate, and the corresponding spray holes 42 of each raw material are collectively disposed on a single spray actuator 41; Between the spray head and the four raw material film bags, they can be connected by four connecting pipes or by a set of four-in-one connecting pipes.
  • the injection tube 281 of the filling material injector 28 containing different raw materials has the ferrule sleeve 282 of a specific cross-sectional shape unique to the seed material, and the material of the material cartridge 7 corresponds to the material inside itself.
  • the opening 221 having the same cross-sectional shape as the injection tube 281 of the filling material injector 28 loaded with the compatible material, the opening 221 only allowing the injection tube 28 loaded with the compatible material to enter the chamber
  • the opening 221 described above is filled with a filler, so that an error condition in which the incompatible material is not filled during the filling is ensured.
  • Figure 79 is a schematic view showing the raw material of the 77th-in-one type of inkjet device, which is externally replenished, showing two mutually corresponding spray mixing devices 4, each of which has at least one bendable neck
  • the portion 29 and the foreign matter filter 26 are so as to simultaneously spray the output of the double-sided or the same surface of the object to be sprayed.
  • the power supply unit 31 is disposed in the storage area 11 of the body 10 as the power required for performing the inkjet printing.
  • the present invention is exemplified herein by a battery.
  • the micro control unit 32 is electrically connected to the power supply unit 81 in the storage area 1 1 of the body 10, and electrically connects the power supply unit 31, the respective spray actuators 41, and the primary auxiliary assembly interface 122.
  • the micro control unit 32 is further connected to the body 10, and the body 10 is internally provided with at least one housing attitude sensing device (for example, a micro electromechanical process type triaxial acceleration sensor), and is electrically connected to the micro control unit 32, which provides the body. If the gesture is already in a range that hinders the operation function and/or detracts from the performance of the operation, the micro control unit 32 determines whether or not to stop the ejection operation, issue a warning, or immediately perform a shutdown procedure or the like according to its posture.
  • the micro control unit 32 is electrically connected to at least one target specific state sensing input unit disposed inside the body 10, which provides a specific state of sensing the input and memorizing a specific target at any time, and then providing a specific action according to the comparison data.
  • the bundle, the target specific state includes at least a specific physical property combination of various types of objects, a specific chemical property combination and/or a specific biological property combination, and the like.
  • the liquid crystal display unit 33 includes a touch pressure sensor disposed thereon.
  • the storage area 11 of the body 10 is electrically connected to the micro control unit 32.
  • the liquid crystal display unit 33 provides an inkjet pattern mode menu, and provides a user with a scrolling key to provide a pattern for the user to draw. Selection and display to provide a variety of graphic choices; in addition, a spray width selection map or a spray shading selection map is provided to provide a user with a choice of drawing graphics;
  • the air pressure adjusting unit 34 (for example, an electromagnetically driven piston type air pressure adjusting device) is disposed in the storage area 1 1 of the body 10 and electrically connected to the micro control unit 32, and the air pressure adjusting unit 34 can also be configured. In the bottom cover 13, the bottom cover 13 is combined with the storage area 1 1 .
  • the image capturing unit 35 is disposed in the storage area 1 1 of the body 10, and is electrically connected to the micro control unit 32 for color required for photographing and recording; the power switch 36 is disposed above.
  • the storage area 11 of the body 10 is electrically coupled to the micro control unit 32 to provide on or off of the optional material output mixing device.
  • the plurality of spray mixing devices 4 take a piezoelectric inkjet head as an example, and each of the spray mixing devices 4 is connected with a spray actuator 41, and the spray actuator 41 is
  • the driving control controls the spraying of each raw material cassette 20, and the micro control unit 32 appropriately controls the volume ratio of each raw material spraying output and the appropriate time interval ratio according to the required final mixing ratio of each raw material, and the respective raw materials are sprayed correspondingly.
  • the spray hole 42 of the material mixing device 4 outputs a micro-droplet spray beam 40; at least one raw material pressure sensing device (such as a pressure transistor or a tension gauge) is disposed around the inner material of the spray mixing device 4, and the micro-control is electrically connected.
  • the unit 82, the micro control unit 82 can control the air pressure adjusting unit 32 to perform an appropriate air pressure adjusting operation according to the internal material pressure value of the spray mixing device 4 from the raw material pressure sensing device, so that the spray mixing device 4 can be controlled and maintained.
  • the pressure value of the internal material is in an appropriate range to enhance the mixing effect of the spray.
  • the spray mixing device 4 is provided with at least two spray holes 42 and a single set of spray materials. And a semi-closed extruding region having a material flow passage 49, wherein the spray actuator 41 (for example, a pressure transistor) has a function and/or an effect of converting electrical energy into mechanical energy, And when the spray actuator 41 receives an electrical drive signal to cause a change in shape, size and/or movement position, it can be simultaneously simultaneously via direct extrusion or indirectly (eg via a squeeze block 48).
  • the spray actuator 41 for example, a pressure transistor
  • the raw material located in the semi-closed extrusion zone exerts an extrusion force, so that the raw material in the extrusion zone can be simultaneously ejected from all the spray holes, and the extrusion block forms a spray-facing material on the side facing the spray hole.
  • the contact slope of the inside of the hole is inclined in the direction of the inlet to effectively increase the force of the extruded material.
  • Figure 65 (B) shows the deformation displacement of the spray actuator 41 itself and/or the direction of the moving squeeze block 48 and the axis of the spray orifice 42 in an orthogonal relationship with each other, the squeeze block 48 being along Entering the semi-closed extrusion zone in a horizontal direction orthogonal to the internal opening of the spray hole 42 and passing through the semi-closed portion
  • the tightness formed by the closed extrusion zone produces a sufficient pressing force to eject the raw material to form microdroplets;
  • the spray actuator can be further set when the spray actuator 41 has not yet input electrical energy 41 and/or the original position of the extruding block 48 is located at a position capable of simultaneously blocking the internal openings of all the spray holes 42 so as to block the opportunity for the raw material to contact with the outside air from the inside of the spray hole 42, thereby effectively preventing the raw material.
  • the spray hole 42 is dry and clogged.
  • Fig. 65(C) shows another embodiment in which the spray actuator 41 itself deforms and/or moves the ex
  • the number of the spray mixing device 4 is connected to the bubble trap 21 of the plurality of material cartridges 20, and is connected by the connecting pipe 43, and the spray of the spray mixing device 4 is randomly adjusted.
  • the fixing base 44 is disposed in the printing area 12 of the body 10 through the spray mixing device; and is electrically connected to the micro control unit 32 at both sides of the plurality of spray mixing devices 4
  • the jet beam intersection indicates that the beam source 45 can control the beam source generated by the two indicator beam sources 47 to meet at the printed object 90 to form a jet beam intersection spot 46 for the number of jet mixing devices 4.
  • the spray hole 42 forms a concentrated intersection of the spray jets on the printed object 90 when the micro-droplet spray beam 40 is outputted, and the number of light sources indicating the beam light source 45 at the intersection of the sprayed paint beams can also be a row of light sources.
  • the vertical line is marked; at least one liquid output device (for example, a barrier emulsion for makeup), and a powder output device (for example, makeup) can be disposed around the inkjet region 12.
  • Brightening color brightening powder
  • gas output devices such as sterilizable deodorizing ozone
  • thermal energy output devices such as heating rods that promote skin capillary pore enlargement
  • electrical energy for example, micro-enrichment of skin absorption and maintenance fluids
  • Current pulse train output device
  • magnetic energy output device for example, an electromagnetic field that can attract iron in blood to increase the concentration of subcutaneous red blood cells
  • a light energy output device for example, low-energy laser pulse light that promotes skin cell activation
  • a microwave output device for example
  • An output device that promotes skin-tight, low-energy microwaves and/or mechanical kinetic energy eg, a shock pressure that increases blood circulation in the skin's surface
  • the output device that enhances the mixing effect of the spray bundle 40, or enhances the spray pair The attachment and utility of the object being sprayed.
  • the raw material cassette, the raw material cassette is connected to the spray mixing device 4, or the inside of the spray mixing device 4 can be provided with at least one non-return device (for example, it is generally The anti-reverse ball valve used, not shown in the figure), when the attitude of the spray mixing device 4 is in the range that would cause the material to flow back and impede the operational function and/or detract from the operational performance, the non-return device will immediately shut down the The raw material cassette, the raw material cassette, and the raw material channel of the spray mixing device 4 or the spray mixing device 4 prevent the internal raw material from flowing back in reverse.
  • the non-return device for example, it is generally The anti-reverse ball valve used, not shown in the figure
  • Figure 68 is an end cross-sectional view showing the assembled drive roller transfer kit of the form of Fig. 66, which can provide the position of the printed wheel 53 at the intersection of the spray beam 40 just at the intersection of the spray beam 40. Or The position at which the jetted tread is in contact with each of the spray bundles 40 is disposed at a position where the sprayed bundles 40 have not intersected, and the spray holes 42 of the plurality of spray mixing devices 4 form a spray when the microdroplet spray bundles 40 are outputted. a schematic view of the bundle being sprayed on the driven wheel 53 and then transferred onto the object 90 to be printed;
  • Figure 69 is an end elevational cross-sectional view of another embodiment of the articulated drive endless belt transfer assembly of Figure 66, which provides the point at which the printed surface of the printed object 90 is just at the intersection of the spray beam 40. Or, the position at which the printed object 90 is contacted with the respective spray bundles 40 at the printing surface is disposed at a position where the spray bundle 40 has not intersected, and the spray orifice 42 of the plurality of spray mixing devices 4 is displayed at the output microfluid When the spray bundle 40 is dropped, a schematic diagram is formed on the circulating belt 55 driven by the driving wheel 53 and then transferred onto the printed object 90;
  • Figure 70 is an end elevational cross-sectional view of another embodiment of the articulated drive non-circulating belt transfer assembly of Figure 66, which provides the position of the printed surface of the printed object 90 at the intersection of the spray bundle 40. Further, or the position at which the printed object 90 is in contact with each of the spray beams 40 at the printing surface is disposed at a position where the spray bundle 40 has not intersected, and the spray hole 42 of the plurality of spray mixing devices 4 is displayed at the output micro When the droplets are sprayed, the spray jets are concentrated on the non-circulating belt 55 driven by the drive wheel 53, and then transferred onto the printed object 90, and the drive wheels 53 are The circulating belt 55 is disposed in the accommodating space 56 for storage and storage;
  • the positioning device 121 is disposed under the inkjet printing area 12, and is configured to provide a certain distance between the spray mixing device 4 and the object to be printed 90, and can also be combined with the other driving roller kit group 5 (as shown in the figure). 66 to 70); secondly, the other driving roller kit set 5 is composed of a base frame 51, a motor 52 and at least one driving wheel 53, and the base frame 51 is provided corresponding to the intersection of the spray beams. Ink slot 51 1 .
  • the motor 52 is mounted on the base frame 51 and is located at a corresponding position of the primary auxiliary assembly interface 122 of the printing area 12, and is connected to the primary auxiliary assembly interface 122.
  • the driving wheel 53 is also mounted on the base.
  • the object 90 can be flattened correspondingly, and the driving wheel 53 is driven by the motor 52, so that the driving roller set 5 can be flattened at the printing range of the predetermined object 90 to be printed.
  • the spray beam can be hooked and completely concentrated on the printed object 90 to achieve a better inkjet effect.
  • Figure 71 is a side cross-sectional view showing the three-part adapter screw driving printing kit of the present invention, the screw driving printing kit shown in Figures 71 to 73 is provided by the base frame 51, the motor 52, at least one screw 57 and at least one
  • the substrate 51 is configured to be connected to the primary auxiliary assembly interface 122.
  • the motor 52 is mounted on the base 51 and passes through the primary auxiliary assembly interface 122 and the micro.
  • the control unit 32 is electrically connected, and the screw 57 is mounted on the side of the base frame 51 and is carried by the motor 52.
  • At least one side of the printed object 90 forms at least one convex shape and/or at least one concave shape
  • the protruding and/or concave shape and the screw of the screw 57 can be Forming a nesting relationship, which can provide the position of the sprayed surface of the printed object 90 just at the intersection of the spray bundles 40, or the position at which the printed object 90 is contacted with the respective spray bundles 40 by the sprayed surface.
  • the screw 57 is rotationally driven to drive the printed object 90 at a predetermined traveling printing path for performing an action of overlapping mixing of the spray on the surface of the printed object 90.
  • Figure 74 is a side cross-sectional view of the four-piece squeegee printing kit of the present invention, as shown in Figures 74 and 75, which provides the surface to be sprayed of the object 90 to be placed just at the intersection of the spray beams 40. Outside the position, or the position at which the printed object 90 is contacted with the respective spray bundles 40 by the spray surface is disposed at a position where the spray bundle 40 has not intersected, and the output wheel 581 and the drive clamp connected by the motor 52 are The wheel 582 is tightly coupled, and the two driving pinch wheels 582 clamp the printed object 90, causing the output wheel 58 to rotationally drive the printed object 90 on the predetermined traveling printing path for execution on the surface of the object 90 to be printed. The action of overlapping the spray on the upper spray.
  • a follow-up material output mixing device is a new type of embodiment, which is a straight tubular hair-spraying device.
  • the front-end spray area 12 presents an open space 14, and the open space 14 is open for hair.
  • the sprayed object enters the receiving spray, and at least one set of the spray mixing device 4 is disposed in each of the two spray areas 12 separated by the opening of the open space 14, and the open space 14 is provided around the opening.
  • At least one hairline finishing device having a suitable opening distance ....
  • each hair can be sprayed to get the best overall hairspray effect.
  • the base frame 51 is provided with a socket 512 for at least one set of secondary auxiliary kit interface plug group setting bits, and the secondary auxiliary kit interface passes through the above-mentioned primary level.
  • the auxiliary kit interface 122 is electrically coupled to the micro control unit 32 for a secondary auxiliary kit that includes at least one structural and/or signal connection to the secondary auxiliary kit interface and has an auxiliary function, while the secondary of FIG.
  • An auxiliary kit interface which can provide the position of the sprayed surface of the printed object 90 just at the intersection of the spray bundles 40, or the position at which the printed object 90 is contacted with the respective spray bundles 40 by the sprayed surface.
  • the spray bundle 40 exhibits a sheet reel mechanism that pre-wraps the sheet around a receiving reel so as to be able to roll out a continuous thin printed surface of the printed object 90;
  • the secondary auxiliary kit can be placed between the at least one lower deck pin secondary assembly 54 and the above-described drive roller kit set 5 for the printed object 90 to be laid flat, as shown in FIG. 82, FIG. 83, FIG.
  • the lower pinch wheel sub-assembly 54 is supported by a bracket 541, Roller 542 is composed, the stent 541 can correspond to the base frame fixed plug insertion hole 51251, and supporting and positioning at least one roller 542, the roller 542 the number of atoms in the position directly drive the drive roller group 5 Kits
  • the movable wheel 53 corresponds to the upper and lower sides of the driving roller set 5 to be printed with the printed object 90, and the thinned printed object 90 is clamped together with the driving roller set 5 in a Chinese-faced manner.
  • the spray junction also has a flat and stable inkjet space;
  • the secondary auxiliary kit can connect the secondary kit to at least one set of cooperative working interfaces, and the cooperative working interface connecting secondary kit is composed of at least one cable (Hamess) 513, the signal cable 513 Having at least two sets of ends, each end is provided with at least one interface capable of cooperating with the compatible interface for transmitting signals, and the signal cable 513 is provided with a signal transmission medium corresponding to the interface of each end,
  • at least two sets of the spray mixing device 5 with compatible interfaces are connected to complete the collaborative operation interface connection between the array compatible devices, and the array compatible device performs various cooperative operation printing operations, and the collaborative operation printing action includes at least an array.
  • the compatible device simultaneously injects a plurality of different surfaces on a printed object 90 and/or simultaneously injects a plurality of different printed objects 90 surfaces.
  • the optional material output mixing device designed by the present invention can hold the storage area 1 1 of the body 10 in actual use, and then set through a fixed angle between the storage area 1 1 and the inkjet area 12, or
  • the function of the bending device (such as the rotating shaft mechanism or the coil mechanism) adjusts the printing area 12 to the required printing angle in advance; after the storage area 1 1 of the body 10 and the printing area 12 are in place, the power switch 36 can be controlled.
  • the operation of turning on the power supply unit 31 is performed, and by electrically connecting the liquid crystal display unit 33 of the micro control unit 32, the color of the desired inkjet is operated in a touch-pressing manner, or the desired color is captured by the image capturing unit 35, and the ink is sprayed.
  • the beam intersection indicates whether the beam source 45 forms the setting of the spot 46 of the jet beam intersection, and adjusts the angular position of the spray hole 42 of the spray mixing device 4, and then according to the internal pressure of the spray mixing device 4.
  • the pressure value controlled by the sensing device controls the air pressure adjusting unit 34 to regulate the internal material pressure value, and the carding degree of each raw material is 20
  • the spray of the desired color is controlled by the spray actuator 41 to control the spray of each raw material cartridge 20 through the spray hole 42 of the spray mixing device 4 to supply a microfluid of a suitable microdroplet volume ratio to an appropriate time interval ratio.
  • the droplets of the sprayed bundles 40 are all concentrated to the spot 46 where the jets are set at the intersection of the jets of the printed object 90, so that the traveling paths of the respective droplets 40 are formed at a specific spatial position in the inkjet region 12.
  • the optional raw material output mixing device designed by the invention forms a separate inkjet tool for hand grip and operation, and can not only set the desired color by the micro control unit 32, but also assists the shooting memory through the camera unit 35.
  • the color to be output can also be adjusted by the setting of the beam source 45 at the intersection of the spray beam electrically connected to the micro control unit 32 to form the position of the spot 46 at the intersection of the spray beam, and the spray of the number of the spray mixing device 4 is adjusted.
  • the traveling path of the droplets 42 to be discharged from the droplets 40 to be merged The micro-droplet sprayed bundles 40 flowing out of the respective spray holes 42 are concentrated and merged on the printed object 90 according to a previously set travel path, and at the same time, under the manipulation of the human hand, the color of the sprayed ink is printed. It is natural and vivid, breaking through the traditional nesting of printing technology, and enhancing the competitiveness and value of inkjet products.
  • the optional raw material output mixing device designed by the invention can be used as a single spraying direction, and can also use two sets of the same optional raw material output mixing device and the electronic information application system in parallel for the upper and lower two.
  • the application of the spray direction of the road is as shown in Fig. 66, Fig. 86 and Fig. 87, that is, the other group of sprays is paralleled under the object to be printed 90 to be sprayed by the spray intersection type electronic spray mixing device.
  • the intersection type electronic spray mixing device utilizes two sets of optional raw material output mixing devices and electronic information application systems each having a socket 512 for simultaneous plugging of a signal cable 513 for multi-machine parallel use, as shown in FIG. 86.
  • the parallel mode is formed to perform the inkjet printing operation of the Chinese surface synchronization, so that the inkjet effect of the intersection of the spray beams can be simultaneously synchronized on both sides of the printed object 90.
  • Figure 89 is a data system architecture diagram of the digital makeup maintenance inkjet automatic vending and service device of the present invention.
  • Figure 90 is an electronic data system architecture diagram of the digital makeup maintenance inkjet product of the present invention.
  • the manufacturing and sales service organization for cosmetic maintenance inkjet products refers to an operation organization for manufacturing and selling cosmetic products, maintenance products and inkjet products, and/or providing various related services for the above-mentioned product manufacturers and consumers;
  • the digital cosmetic maintenance printing product is a spray mixing method for performing any proportion of raw materials in a specific space by using the present invention, and is directly or indirectly sprayed on the surface of the object to be sprayed to provide various products in accordance with the requirements of the makeup, maintenance and inkjet products.
  • a signal transmission relay device that provides a user device to transmit information data via the relay device and other electronic information devices in a wired and/or wireless manner, for example: a wireless signal transmission base station (Wi -Fi Base Station), or wired signal transmission splitter (Ethernet HUB);
  • Related service organization refers to a management operation agency that manages the user through at least one service delivery method, or provides makeup, maintenance and inkjet products, or content that serves the specific needs of the user (such as makeup maintenance skills teaching service);
  • An electronic information device an electronic device capable of managing, searching, receiving, and/or transmitting information data signals, and capable of storing, reading, converting, and/or utilizing information data, such as: an Internet server; a vending and service device, capable of The user automatically completes the consumption of makeup, maintenance and inkjet products by himself, and/or sells the price of the makeup, maintenance and inkjet products by the vending machine, and provides the user with the automatic purchase of makeup by himself. , maintenance and related products such as inkjet related products or service items.
  • vending machine, maintenance and printing products vending machine and / or skin skin automatic scanner product storage sensing device, is used in storage and storage, storage, logistics storage and storage operations Information on product change data, etc., and can further organize, accommodate or sense the inventory of products in a specific processing state, and/or devices that ensure the integrity and consistency of product data;
  • Product mobile transfer device means a device capable of transferring an existing stored product to be released and/or delivering a processed product of a specific processing state to a user;
  • the spray mixing and packaging device refers to the ability to perform the spray mixing function of any proportion of raw materials and/or perform other specific mixing processing procedures, and set the material information required in the process of producing each type of product to perform the corresponding mixed product packaging.
  • a data input device for sensing and/or reading data and/or signals that can be input to an electronic information device for example: a button, a switch, a pressure sensor, a microphone, a mouse, a camera unit, a skin sensor And a device for emitting and/or presenting data and/or signals in the electronic information device, such as: a light-emitting lamp, a pixel display, a heater, a speaker, a printer, etc.;
  • a data signal transmission device an electronic device capable of performing data signal transmission and/or reception functions in a wired manner and/or a wireless manner, for example, a data signal transmission device of a wireless signal transmission system such as Bluetooth, Wi-Fi, WiMAX, or a data signal transmission device for a wired signal transmission system such as USB or Ethernet;
  • a data signal transmission device of a wireless signal transmission system such as Bluetooth, Wi-Fi, WiMAX, or a data signal transmission device for a wired signal transmission system such as USB or Ethernet;
  • the control unit can read or receive instructions and/or data input by the data input device, and can perform corresponding functions such as arithmetic processing and logic control;
  • the power supply unit is configured to supply the working power of the device, or the input end thereof is connected to the external power supply unit, and the output end is respectively connected to each device to supply the working power of the device, which can be a battery form, a transformer form, a mechanical power Converter form and / or other power supply form;
  • Data output to a memory device a device for storing, outputting, storing data and/or inputting a memory data function, such as: a rewritable memory chip module, a disk module, a writable optical disk module, etc.; a material cartridge having at least a raw material container and a data input and output device, the raw material container can store the cosmetic maintenance inkjet product, and the data is input into the memory device for storing, outputting, storing data and/or inputting the memory data function to provide the above digital type a device for the maintenance of inkjet products and the materials required for the vending and service devices;
  • a memory data function such as: a rewritable memory chip module, a disk module, a writable optical disk module, etc.
  • a material cartridge having at least a raw material container and a data input and output device, the raw material container can store the cosmetic maintenance inkjet product, and the data is input into the memory device for storing, outputting, storing data and
  • the spray mixing device refers to a device that can perform the spray mixing function of any proportion of raw materials to provide makeup, maintenance and inkjet printing requirements.
  • the digital cosmetic maintenance printing product sets at least one data input and output memory device, and the data input/output memory device includes at least a part or all of the following data: name, brand, model, serial number, manufacturer data, manufacturing date and Batch number, software and hardware version, usage statement data, logistics and transaction data, compatibility data, user preference data, security and confidential data, check code, software program code, etc.;
  • the above logistics and transaction data can store the logistics process, Product recovery records, sales transaction records and other data, compatibility data can store the conditions of the card, raw materials, power supply and other devices compatible with the product itself, user preferences data can be set by the user to store the personal use selection conditions, security And confidential data are storage safety and health warning and inspection procedures, safety and health incident handling methods, personal confidential data, etc.;
  • the raw material card is provided with at least one data input and output memory device, and the data input/output memory device includes at least part or all of the following card data and material data; (1) card data - name, brand, model, Serial number, manufacturer data, manufacturing date and batch number, software and hardware version, usage instruction data, logistics and transaction data, compatibility data, security and confidential data, check code, etc.; (2) Raw material information - name, label, Model, capacity data, manufacturer data, manufacturing date and lot number, lifespan, physical property data, chemical composition data, usage statement data, mixed compatibility data, mixing and processing method data, logistics and transaction data, safety and confidential data, Check code, software program code and other data.
  • the above physical property data stores the physical properties such as density, viscosity, and surface tension of the raw material itself
  • the chemical component data stores the chemical composition of the matrix component and ratio of the raw material itself, the solvent component and ratio, the additive component and the ratio, and the compatibility compatibility data.
  • the storage is compatible with the raw materials themselves when the spray is mixed;
  • the control unit of the digital cosmetic maintenance inkjet product can read, add, modify and/or delete the data of the product itself and its internal material jams into the memory device (the following two memory devices are collectively referred to as "product data output"
  • the data in the memory device ") is, for example, after the color data selected by the user is read via the data input device, and the spray mixing operation of the mixing ratio corresponding to the color data is performed.
  • the control unit can transmit instructions and/or data to the data output device, and can perform corresponding functions, for example: reading the instruction data of the product data output into the memory device, and transmitting the data to the data output.
  • the device is for viewing and/or listening.
  • control unit can perform data transmission operations and related processing operations with the external device through the data signal transmission device, for example: (1) performing the spray ratio corresponding to the mixing ratio of the color data according to the color data transmitted from the external device.
  • Material mixing action (2) Transfer the instruction data transmitted by the external device to the data output device or store the product data into the memory device (3) according to the command data transmitted from the external device, and output the product data into the memory device.
  • Logistics and transaction data, user hi Good data is transferred to a specific external device.
  • the digital makeup maintenance inkjet vending and service device is provided with at least one data input/output device, and the data input/output device includes at least part or all of the following data: name, brand, model, serial number, manufacturer data. , manufacturing date and lot number, software and hardware version, usage instructions data, maintainer data, installation and maintenance records, compatibility data, sales and service records, security and confidential data, check codes, software program code, etc.;
  • the maintenance record can store data such as installation location, fault abnormality record and maintenance record.
  • the sales and service record is the consumption content record of the storage and service; and the vending and service device can implement the following functional items:
  • Electronic information application products that can provide automatic wireless identification of exchangeable electronic data at close range (for example, automatic identification of an A-brand 009 model electronic color lipstick product in close range and installation of B factory in this electronic color lipstick) Brand 888 model raw material card product);
  • the raw material card is provided with at least one data input and output memory device, and the data input/output memory device includes at least one of the following card data and material data; or (1) card data-name, brand, model , serial number, manufacturer data, manufacturing date and batch number, software and hardware version, instructions for use data, logistics and transaction data, compatibility data, safety and confidential data, check code, etc.; (2) Raw material information - name, label , model, capacity data, manufacturer data, manufacturing date and lot number, lifespan, physical property data, chemical composition data, usage statement data, mixed compatibility data, mixing and processing method data, logistics and transaction data, safety and confidential data Data such as inspection code and software program code; the physical property data stores the physical properties such as density, viscosity, and surface tension of the raw material itself, and the chemical component data stores the matrix component and ratio of the raw material itself, the solvent component and ratio, and the additive component. Mixed with chemical properties such as ratio The data is stored in an incompatible condition when mixed with the material itself;
  • the control unit of the digital makeup maintenance inkjet vending and service device can read, add, modify and/or delete the data of the device itself and its internal material jams into the memory device (the two are called "inside"
  • the data is output to the data in the memory device.
  • the control unit can read or receive the instructions and/or data input by the data input device, and can perform corresponding functions, for example: reading the user via the data input device After the selected product data, the product mobile transfer device is instructed to perform the movement and transfer action of the product corresponding to the product data.
  • the control unit can transmit the command and/or data to the data output device, and can perform corresponding functions, for example: reading Taking the internal data into the usage instruction data in the memory device, and transmitting the data to the data output device for viewing and/or listening.
  • the control unit can perform data transmission operations and related processing operations with the external device through the data signal transmission device. For example: (1) according to the color data transmitted by the external device, performing the mixing, packaging and moving transmission actions of the mixing ratio corresponding to the color data; (2) transmitting the instruction data of the external device, transmitting To the data output device or stored in the internal data input and output memory device; (3) According to the external device The instruction memory into the internal data output means to transmit traffic in the service record of the particular external device Moreover, the present invention is designed with material selected from the output of the mixing device, the main aspect of the embodiment there are two kinds:
  • the first type is a side-by-side type raw material output mixing device, and the body is mainly arranged side by side by the number of spray mixing devices 4, and the spray hole 42 of the side-by-side spray mixing device 4 can be in the form of a line type.
  • the traveling paths of the spray bundles 40 are collectively overlapped at a certain spatial position, so that the on-demand mixing effect can be completed;
  • the second type is a ring-type optional raw material output mixing device.
  • the shape is mainly distributed by a plurality of spray mixing devices 4 in a circumferential center of a common center, as shown in Fig. 93 to Fig. 96, that is,
  • the spray mixing device is designed in the manner of a circumferential spray mixing device 4, and in each of the spray mixing devices 4, the spray holes 42 are applied in the form of sprays of a single size or a plurality of sizes.
  • the bundle is concentrated into a basic geometry of a rectangular or linear array (as shown in a single-size rectangular array as shown in FIG. 99 and FIG. 100, as shown by various linear arrays shown in FIG. 101 and FIG.
  • FIG. 103 the circular array of a single size of FIG. 104, as shown in FIG. 105 and the circular array of different sizes of FIG. 106, for the spray beam on the surface of the object 90 to be printed.
  • the circular inkjet effect mixed by the interchange without The rectangular or circular array enables the respective sprays to pass through the spray holes 42 of the surrounding spray mixing device 4, and the travel paths of the micro-droplet spray bundles 40' are collectively overlapped at a specific spatial position. This completes the on-demand mix Effect.
  • the micro control unit 82 can additionally have a time splitter function, and the micro control unit 82 sequentially controls the spray mixing devices 4 of the respective materials to be in different split time zones in a chronological order by continuous cycle alternate spraying. By spraying, it is possible to effectively solve the problem that the micro droplets of each of the spray bundles 40 may collide with each other in advance without reaching the intersection of the spray beams.
  • the applied structure can be adopted in the shape of a column and can be easily grasped.
  • the main body 6 has an array of raw material cassettes 7 arranged in an annular shape.
  • a power supply unit 82 and a micro control unit 82 are disposed between the plurality of raw material cassettes 7 and electrically connected thereto.
  • each of the raw material cassettes 7 is connected with a spray mixing device 84, so that the sprayed material output from the spray holes 842 of the spray mixing device 84 forms a micro-droplet spray bundle 841, and the spray mixing device 84 is
  • the material cassettes 7 are connected by a connecting tube 843 capable of adjusting the bending angle, and the body 6 is provided with a coloring knob 62 capable of rotating and selecting a desired color in the orientation of the corresponding material cassette 7, and the coloring knob 62 can be formed.
  • a transparent disc cover sheet, and a rotary paddle 621 is disposed on the color adjustment knob 62 to facilitate the user to control the rotation of the color adjustment knob 62 by the hand;
  • the color adjustment knob 62 also has a color selection magnifier 622, and the color adjustment knob 62 is provided with a radial full chromatogram pattern 623 corresponding to the number of raw material cassettes 7, and a knob position sensor 624 electrically connected to the micro control unit 82.
  • the color adjustment knob 62 (for example, a rotary film type variable resistance device) for the user to set the rotational position of the color adjustment knob 62 according to the desired color color, and the color adjustment knob 62 is electrically connected to the micro control unit 82 by the knob position sensor 624 to When the color adjustment knob 62 is selected by the user to select a predetermined color position and contact the knob position sensor 624 of the color, the communication micro control unit 82 sets the control number of the raw material cassette 7 to output the spray to the spray mixing device 84.
  • a rotary film type variable resistance device for the user to set the rotational position of the color adjustment knob 62 according to the desired color color
  • the color adjustment knob 62 is electrically connected to the micro control unit 82 by the knob position sensor 624 to When the color adjustment knob 62 is selected by the user to select a predetermined color position and contact the knob position sensor 624 of the color, the communication micro control unit 82 sets the control number of the raw material cassette 7 to output the spray to the spray mixing device 84.
  • the droplet spraying bundle 841, the body 6 is provided with a raw material inventory warning lamp 63, a power switch 83, and an output spray starting switch 64 corresponding to the plurality of raw material cartridges 7, all of which are electrically connected to the micro control unit 82, and the raw material inventory warning lamp 63 is a spray for alerting the user to replenish the raw material cassette 7, and the above-mentioned power switch 83 is for the convenience of the user to start the surround type of the raw material output mixing device.
  • the overall electric power, said output feed discharge start switch 64 for the user-friendly compared to the thumb-operated starting material for operation of the paste ejection apparatus 84 of the hybrid;
  • the body 6 is provided with a spray beam width sliding control button 65 on the outside of the corresponding spray mixing device 84 for adjusting the width of the spray beam for the user to slide the index finger; the body 6 is facing the spray mixing device 4
  • the spray direction is formed to form a spray beam path opening area 66.
  • the outer side of the spray beam path open area 66 is provided with a positioning device 61 for forming a range of the spray beam path opening area 66 and its positioning device 61.
  • the plurality of material cassettes 7 are predetermined to have a space in which the spray beams are mixed and mixed, so that the printed object 90 can smoothly obtain the micro-droplet spray bundle 841 under the restriction of the positioning device 61.
  • the spray beam path opening region 66 In the range of the positioning device 61 and the positioning device 61, a nozzle cover 67 can be disposed, and a mixing groove 671 and a mixing bead 671 are disposed in the nozzle cover 67 corresponding to the droplets 841 to be obtained for the cover.
  • each of the micro-droplet spray beams 841 can be overlapped in the mixing tank 671 in the head cover 67 to complete the mixing test.
  • At least one contact force sensing device may be disposed on the positioning device 61 of the spray region 12, or at least one positioning device 61 is the contact force sensing device. It can be electrically connected to the micro control unit 32.
  • the contact force sensing device transmits at least one signal indicating the untouched state to the micro control unit 32, so that the micro control unit 32 can be disabled according to the signal. Perform any spray action.
  • the contact force sensing device transmits at least one signal indicating the "contacted state" to the micro control unit 32, so that the micro control unit 32 can perform Spraying action
  • the micro control unit 32 can proportionally control the width of the spray beam according to the contact force value. size.
  • at least one signal transmitting source can be mounted on the positioning device 61, and the signal transmitting source can be pointed by at least one regional position to the sensing device (for example, the regional position pointing sensing device of the model of the Polhemus company PATRIOTWIRELESS has 0.006 inches. The highest position sensing resolution and the highest pointing sensing resolution of 0.021 degrees are sensed, and the regional position pointing control unit can control the signal of the sensing device 61 that is obtained by the sensing device by wired or wireless communication connection.
  • the micro-control unit 32 which transmits the actual position of the source and the pointing data to the on-demand material output mixing device, can perform an innovative function of an arbitrary object surface color pattern spraying machine, that is, holding the hand or the auxiliary mobile device.
  • the on-demand raw material output mixing device continuously moves in a region covering the effective coverage area of the sensing device, and the micro control unit can output the latest position and pointing data of the mixing device according to the received optional raw material at any time. Number with internal memory
  • the word pattern data is compared, and the corresponding inkjet coating operation is performed according to the comparison result, and the pattern stored in the internal memory of the optional material output mixing device can be gradually printed or coated on any object in the area. surface.
  • the surrounding type raw material output mixing device of the utility model can be specially designed for the outer body of the above-mentioned body 6 in the spray mixing device 84 and the connecting pipe 843 capable of adjusting the bending angle.
  • the bending angle of the bending joint pipe 68 as shown in Figs. 95 and 96, allows the user to change the angle of holding and positioning according to the convenience of the holding posture and the coloring direction.
  • the on-demand raw material output mixing device designed by the present invention whether it is a side-by-side optional raw material output mixing device or a ring-type optional raw material output mixing device, even if the structure is differently combined or installed.
  • Changes, in order to achieve the structural production team is also streamlined and grip control in addition to the humanized substantive benefits, in the implementation of inkjet, can be adjusted with the user's convenience to shape angle, using the body 10 (6)
  • the frame (encirclement) setting device 121 (61) forms a specific inkjet space, and the spray nozzle hole 42 can be adjusted to correspond to the intersection of the spray beam and the beam source 45 (85) to form a spray spot intersection spot 46.
  • the orientation of (86) enables the respective spray holes 42 to be adjusted according to the ratio of the appropriate micro-droplet spray bundle volume and the appropriate time interval ratio to output the micro-droplet spray bundle 40 (841).
  • the relative angles of the spray directions of the spray holes 42 are such that when the spray holes 42 output the travel paths of the respective micro-droplet spray beams 40 (841), they can collectively overlap at a specific spatial position, thus completing Mixed election results.
  • the present invention designs an on-demand raw material output mixing device and an electronic information application system, which is not only innovative in the current industrial form, but also fully meets the novelty and progressive statutory invention patent requirements. , apply in accordance with the law.

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Abstract

La présente invention concerne un appareil pour produire un mélange de substances sélectionnées, et un système d'application pour des informations électroniques. L'appareil comprend un corps d'éjection non fixé qui peut être facilement tenu par l'utilisateur. Des susbtances, dans des proportions à discrétion, peuvent être mélangées dans le corps et sont ensuite injectées sur la surface de l'objet, directement ou indirectement, ce qui permet de fabriquer numériquement un nouveau cosmétique en fonction de la demande de l'utilisateur. Ce système d'application comprend une architecture système. En appliquant ce procédé à l'architecture, l'utilisateur peut obtenir le cosmétique de manière efficace et bénéficier également d'un très bon service.
PCT/CN2008/000603 2007-03-26 2008-03-26 Appareil pour produire un mélange de susbtances sélectionnées et système d'application pour des informations électroniques Ceased WO2008116393A1 (fr)

Applications Claiming Priority (8)

Application Number Priority Date Filing Date Title
CNA2007100915072A CN101274239A (zh) 2007-03-26 2007-03-26 随选原料输出混合装置
CN200710091507.2 2007-03-26
CN200710128425.0 2007-07-10
CNA2007101284250A CN101332417A (zh) 2007-06-27 2007-07-10 旋转柱体型式的随选原料输出混合装置
CNA2007101459679A CN101376087A (zh) 2007-08-30 2007-08-30 往复运动型式随选原料混合装置
CN200710145967.9 2007-08-30
CN200810007776A CN101531095A (zh) 2008-03-12 2008-03-12 一种随选原料输出混合装置与电子信息应用系统
CN200810007776.0 2008-03-12

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Publication Number Publication Date
WO2008116393A1 true WO2008116393A1 (fr) 2008-10-02

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WO (1) WO2008116393A1 (fr)

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CN102941738A (zh) * 2012-11-28 2013-02-27 珠海天威飞马打印耗材有限公司 打印头
CN106448920A (zh) * 2016-08-31 2017-02-22 惠州市亚创域科技有限公司 一种用于输送三层绝缘线的高温pa材料的挤料螺杆
WO2025080899A1 (fr) * 2023-10-12 2025-04-17 Beat The Bomb Salle de jeux interactifs à cabine photographique intégrée et dispositif d'éjection auto-rechargeable

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JP2000177117A (ja) * 1998-12-11 2000-06-27 Canon Inc ペン型液体吐出装置
JP2001216386A (ja) * 2000-02-02 2001-08-10 Nippon Telegr & Teleph Corp <Ntt> 化粧支援装置
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* Cited by examiner, † Cited by third party
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CN102941738A (zh) * 2012-11-28 2013-02-27 珠海天威飞马打印耗材有限公司 打印头
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WO2025080899A1 (fr) * 2023-10-12 2025-04-17 Beat The Bomb Salle de jeux interactifs à cabine photographique intégrée et dispositif d'éjection auto-rechargeable

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