KR20160112270A - Injection device of washing raw material for washing device of processed product surface - Google Patents

Abstract

The present invention relates to a process for cleaning a surface of a workpiece by uniformly spraying cleaning material such as washing water, compressed air and high temperature onto the surface of a workpiece produced and assembled by machining, .
That is, the upper part of the injection tube 20, which passes through the center of the upper surface of the chamber 120 and is vertically transferred by the operation of the transfer cylinder 1S fixed to the upper end of the chamber 120, And the injection port 10 having a plurality of nozzles N is connected to an end of the fixing block 42 so that the lower end of the injection pipe 20 is held in the cleaning space 131. In this case, The moving means 20 is fixed to the outer diameter of the spray pipe 20 at the lower end of the bearing B so that the spray pipe 20 is fixed to the inner diameter of the bearing B provided at the center of the bearing B, The driving means M is fixed to the upper end of the fixing piece 70 formed on the upper end of the fixed shaft 70 and the driving means 52 is fixed to the motor shaft Ma protruding to the lower end to transmit the power transmission means 53 to the driven means 51 To constitute a power transmission means (53) to rotate the spraying tube (20) through the power transmission means (53) And a rotating device 50 constituting a rotary joint MJ at the upper end of the spray tube 20 so as to rotate the spray port 10 to be held in the chuck space 131 .

Description

Technical Field [0001] The present invention relates to a washing apparatus for washing a workpiece surface,

The present invention relates to a cleaning material spraying apparatus for a surface cleaning apparatus for a workpiece, and more particularly, to a cleaning material spray apparatus for cleaning a surface of a workpiece produced and assembled by machining, Thereby allowing the surface of the workpiece to be cleaned.

In general, a large part of the metal machine parts are manufactured by machining, casting, welding or the like. Particularly, the machining methods for manufacturing the metal machine parts are roughly divided into plastic working and cutting.

The plastic working is a method of changing the shape of a part through various processes such as forging, rolling, extruding, drawing, pipe making, rolling, pressing, etc. The cutting process is a lathe, boring machine, drilling machine, It is a machining method in which a part of a part is cut and removed by using a milling machine or the like.

Recently, NC cutting is applied by numerical control according to the development of cutting technology. As described above, NC machining improves the productivity by correcting the numerical values of the products, reducing the safety accidents of the workers, and enabling the mass production of the products, compared with the manual machining.

As described above, most of the mechanical parts are manufactured by the above-described processing method or the like. In the process of manufacturing parts through cutting, a large amount of chips are generated. In this process, a considerable amount of friction heat is generated between the tool and the workpiece. In order to prevent deformation of the workpiece due to frictional heat and damage of the tool, .

Therefore, foreign parts such as flour, chips of various sizes, and processing oil are attached to the parts of the processing step. However, the foreign matter attached to the parts must be removed in time for more accurate machining, and the foreign matter adhered to the product must be removed even after the machining is finished.

Particularly, as for automobile parts, the parts that are produced through machining such as welding or cutting are subjected to a washing process and then to an assembly process. In this case, the more precisely processed parts are, the more necessary the cleaning process is to remain on the surface or processing part It is desirable to remove the cutting oil or chips to improve the quality of the workpiece and to facilitate the post-processing such as assembly.

Conventionally, in order to facilitate the cleaning process as described above, an example has been proposed as in the "apparatus for cleaning foreign materials of machined parts" in Japanese Patent Laid-Open No. 10-2004-0001109. A main body having a hopper and a housing for storing a part of which the foreign material is removed at a position lower than the hopper on the other side; A moving rail having a plurality of wires sloped in the longitudinal direction at predetermined intervals so that the parts supplied from the hopper can be slid to the receptacle; A water pump disposed at an upper side of the moving rail for applying water pressure to remove foreign substances attached to the parts moved along the moving rail and configured to be sprayed to parts to which the high- An injection nozzle; An air injection nozzle disposed below the movable rail for removing moisture from the wet part by the cleaning liquid injected from the water injection nozzle; A vibration motor formed on the upper side of the movable rail to provide vibration to parts moving from the upper side to the lower side along the moving rail; A coil spring which elastically supports the movable rail from below and is formed at a lower portion of the movable rail to buffer vibrations caused by operation of the vibration motor; A water spray device for providing a strong water pressure to a moving part and a vibration device for applying vibration are formed so as to effectively separate foreign matters from each other and to apply a strong air pressure to a wet part by a cleaning liquid, There is a problem that the chip and the cutting oil are not effectively removed from the curved portion and the deep hole portion of the workpiece while the workpiece can not be structurally applied to the heavy workpiece and there is a problem that the machined workpiece It is difficult to remove chips and other fine impurities completely and it is a device which is insufficient for cleaning standards of finished products in a situation where precision processing and micro-assembly are required in order to improve the quality of automobiles such as modern ones.

Recently, as shown in "Combined cleaning and air blowing device" of Patent No. 10-1178291, an automatic opening / closing device for automatically controlling the inlet and outlet when the cylinder head is fed and inserted, an air surge tank for supplying air into the inside, An air pipe nozzle having a structure in which air supplied from the air surge tank is sprayed to the lower portion of the cylinder head and is fixed to the air transfer pipe, a first fluid discharge nozzle for spraying air to the left and right sides of the cylinder head, An air swing clamp for moving the discharge nozzle to the left and right so as to control access to the cylinder head at a distance of 5 to 10 cm away from the cylinder head or to be inserted into the hole of the cylinder head and air supplied from the air surge tank to the air pipe nozzle A flushing type material capable of transferring air to the first fluid discharge nozzle and washing the needle It made of a strange songgwan, structure of the air chamber of the blow chamber type that injects compressed air from the upper and lower side removes a foreign material to the cylinder head;

An L-shaped fluid pipe nozzle which is fixed from the coolant feed pipe and is capable of injecting the coolant in the left and upper directions, and is driven in the upper or lower direction, And a second fluid discharge nozzle interlocked with the fluid swing clamp and spraying a coolant onto the right side of the cylinder head; A component swing clamp for tilting the cylinder head laterally transferred from the air blow chamber to the coolant chamber; A boundary having a porous structure and a steel plate structure divided into the air blow chamber and the coolant chamber and not interfered with the operation path during the component swing clamp operation; A sound absorbing material made of a porous fiber material on an outer surface of the air blow chamber and the coolant chamber; An inspection unit for visually identifying a process in the air blow chamber and the coolant chamber; And a foreign matter discharge port for discharging the foreign substances removed in the process or the process in the air blow chamber and the coolant chamber, so that not only chips and cutting oil on the inside and the outside of the machined parts but also the deep holes of the cylinder head Since the chip and the cutting oil loaded in the hole and the plug hole are all removed, and the air blow process and the coolant washing process are performed in one process, the process time is shortened, It is possible to improve the working environment by filtering recycled contaminated cutting oil as clean cutting oil while securing the cleanliness of the product by preventing secondary contamination caused by chips that have been separated from the chips. The collected polluted cutting oil is filtered and recycled as clean cutting oil There is also an eco-friendly effect, but this also applies to certain workpieces called cylinder blocks And it is difficult to effectively remove foreign substances such as flour, chips, and processing oil remaining on the processed parts, thereby deteriorating the cleaning quality. As a result, If the quality of the finished product is poor and subsequent processing such as painting is performed, there is a problem that the efficiency of the processing is lowered and the completeness of the product is lowered. However, until now, each foreign material on the workpiece is individually separated And the efficiency of the cleaning operation is poor. However, there is a problem that the manufacturer who manufactures the product cleaning apparatus and the fundamental problem to solve it are not able to be solved.

KR Patent Publication No. 10-2004-0001109 KR Patent No. 10-1194110

The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a chamber for holding one or a plurality of cleaning spaces on an upper part of a main body frame, The apparatus according to any one of claims 1 to 3, wherein the cleaning device is configured to operate as a drive means. To efficiently spray evenly the required cleaning material on the surface of the workpiece of the size, it is possible to carry out cleaning work which is divided into washing process, air blow process, hot blow process, cooling process, rust prevention process etc. To provide a cleaning material sprayer for the surface cleaner of the finished product, Would you want to connect.

A nozzle is provided inside a cleaning space of a cleaning apparatus constituting a chamber for maintaining a cleaning space on the upper part of a frame constituting the supply device and is configured outside the chamber so as to spray the cleaning material to the nozzle through a supply means for supplying the cleaning material CLAIMS 1. A cleaning material spraying apparatus comprising:

The upper part of the injection pipe 20 which penetrates the upper end surface of the chamber 120 by the operation of the transfer cylinder 1S fixed to the upper end of the chamber 120 and vertically transfers the upper part of the chamber 120 is protruded outside the upper part of the chamber 120 And a nozzle hole 10 having a plurality of nozzles N at the end thereof is connected to a supply means and the lower portion of the spray tube 20 is held in the cleaning space 131. [ ≪ / RTI >

That is, a pipe guide 30 for holding the guide hole 31 at the upper end of the chamber 120 to one side of the transfer cylinder 1S fixed to the upper end of the chamber 120 so that the rod R faces upward, A guide hole 31 is formed in the guide hole 31 so as to allow the outside of the chamber 120 to communicate with the cleaning space 131 and to allow the outside of the chamber 120 to flow into the inside diameter 21 passing through the raw material for cleaning, The upper part of the spray tube 20 is fixed to one side of the connecting means 40 fixed to the end of the rod R and a plurality of nozzles N for dividing and spraying the washing raw material to the lower end of the washing tube are provided It may be preferable to provide one jetting port 10.

The injection pipe 20 is fixed to the inner diameter of the bearing B provided at the center of the fixing block 42 formed at one side of the connecting means 40. The injection pipe 20 at the lower end of the bearing B, The drive means 52 is attached to the motor shaft Ma protruding to the lower end by fixing the drive motor M to the upper end of the fixing piece 70 formed at one side of the connecting means 40, And the power transmission means 53 is connected to the driven means 51 to constitute the power transmission means 53 so that the rotational force of the drive motor M is transmitted to the injection pipe 20 through the power transmission means 53 And a rotary device 50 constituting a rotary joint MJ is formed at the upper end of the injection pipe 20 so as to rotate the injection port 10 held in the cleaning space 131 .

As described above, the cleaning material spraying apparatus for a surface cleaner according to the present invention operates as follows. The cleaning material spraying apparatus for a surface cleaner according to the present invention has a configuration in which a workpiece is supplied to a cleaning space constituted by a chamber, And various kinds of workpieces of different shapes and sizes can be applied, thereby making it possible to quickly and finely clean the workpieces.

In addition, since nozzles are sprayed in a state in which the workpiece is embedded in the injection space of the nozzle, the cleaning material can be directly sprayed from a short distance on the surface of the workpiece with a small pressure to minimize consumption and cleaning time of the cleaning material. So that it is possible to uniformly spray the surface of the workpieces having various complex shapes and shapes, thereby making it possible to constitute a cleaning device that can more efficiently clean the foreign matter, thereby protecting the external environment and improving the cleaning work environment. As shown in FIG.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a configuration diagram showing a state in which a jetting port according to an embodiment of the present invention is lowered. Fig.
FIG. 2 is a configuration diagram showing a state in which a jetting port is elevated, according to a preferred embodiment of the present invention. FIG.
FIG. 3 (a), (b), (c) and (d) are cross-sectional views of various jetting ports showing a preferred embodiment.
4 is a block diagram showing a state in which a rotating device is constituted as another embodiment of the present invention.
Fig. 5 is a configuration diagram showing a state of a preferred rotating electrical machine according to the present invention; Fig.
6 is an exploded perspective view showing a main part of a machining component of a preferred rotating device of the present invention.
7 (a) and 7 (b) are diagrams showing a preferred state of the rotating device according to the present invention.
Fig. 8 is a structural view of an inner diameter nozzle showing a preferred embodiment of the present invention. Fig. 8A is a front view and Fig. 8B is a side sectional view.
Fig. 9 is a state diagram showing a preferred embodiment of the present invention. Fig. 9 (A) is a state in which the injection port is elevated, and Fig. 9 (B) is a state in which the injection port is in a descending state.
10 is a layout diagram showing a simplified structure of an easy multi-process washer for applying the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

First, the cleaning material spraying apparatus 1 of the present invention is a device for directly spraying a necessary cleaning material on the surface of a workpiece to be cleaned. Since the cleaning material spraying apparatus 1 is applied to a conventional washing machine rather than being used alone, The structure and operation of the washing machine will be briefly described below in order to explain the invention in detail.

That is, a workpiece produced by cutting or welding has an impurity such as a cutting oil or a chip on its surface immediately after machining, and a conventional well-known dishwasher 700 configured to efficiently remove the impurity exists on the surface of the workpiece A loading device 400 for carrying workpieces to a loading port is configured on one side and a unloading device 500 is provided on the other side of the loading device 300 for facilitating the supply of workpieces by loading workpieces, A cleaning device 100 for discharging the processed product to the discharge stand 600 through the unloading device 500 is constructed, and a washing water tank or washing tank for storing the washing water for completing the washing operation is provided at the rear side thereof Rinse tanks containing rinsing liquids containing effluent tanks or rust inhibitors containing the following impurities, and pumps and motors including air compressors that generate high pressure compressed air And a cleaning operation device 200 for allowing a cleaning operation to be carried out so that the unloading device 500 can supply the workpieces requiring cleaning to the cleaning device 100 To finish the process of washing the workpiece while advancing to the work traveling direction, and then to discharge the workpiece that has been cleaned by the unloading apparatus 500 to the discharge stand 600 It is a preferred configuration and method.

In addition, the cleaning device 100 for performing the cleaning operation to improve the cleaning efficiency of the cleaning device 700 configured as described above will be described. In the configuration of the cleaning device 100, The opening and closing door 141 which moves up and down due to the opening and closing cylinder 142 is provided at both ends in the communication direction of the chamber 120 in which the communication space 130 in which the lower end portion and the longitudinal direction side surfaces are formed, A communication space opening and closing means 140 for opening and closing the end portion of the space 130 and an opening / A communication space dividing means 150 composed of a shutoff door 151 for dividing the communication space 130 of the chamber 120 by the shutoff door 151 of the communication space dividing means 150, A cleaning space 131 of the washing space 131, (1) constituted by a jetting port (10) constituting an end of a jetting tube (20) which vertically feeds the jetting device (1S) through the jetting device (1). In the present invention, It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. It will be apparent to those skilled in the art that the present invention can be applied to various cleaning apparatuses that can be substituted, modified, and changed.

The injection device 1 for spraying various cleaning materials to be applied to the cleaning device 100 includes a chamber 120 for holding the cleaning space 131 on the upper part of the frame 110 constituting the supply device 111, The cleaning material supply device of the cleaning operation equipment 200 that is provided outside the chamber 120 with the nozzles N in the cleaning space 131 of the cleaning device 100 constituting the cleaning device 100, To the nozzle (N), characterized in that the cleaning material spraying device (1)

The upper part of the injection pipe 20 which penetrates the upper end surface of the chamber 120 by the operation of the transfer cylinder 1S fixed to the upper end of the chamber 120 and vertically transfers the upper part of the chamber 120 is protruded outside the upper part of the chamber 120 And a nozzle hole 10 having a plurality of nozzles N at the end thereof is connected to a supply means and the lower portion of the spray tube 20 is held in the cleaning space 131. [ ≪ / RTI >

That is, a pipe guide 30 for holding the guide hole 31 at the upper end of the chamber 120 to one side of the transfer cylinder 1S fixed to the upper end of the chamber 120 so that the rod R faces upward, A guide hole 31 is formed in the guide hole 31 so as to allow the outside of the chamber 120 to communicate with the cleaning space 131 and to allow the inside of the chamber 120 to flow into the inside diameter 21, The upper part of the spray tube 20 is fixed to one side of the connecting means 40 fixed to the end of the rod R and a plurality of nozzles N for dividing and spraying the washing raw material to the lower end of the washing tube are provided And the nozzle 10 is moved up and down by the operation of the transfer cylinder 1S so that the cleaning material is sprayed onto the surface of the work A to be cleaned by the nozzle N .

More specifically, as shown in FIG. 1, a fastening hole 61 is formed at the upper end of the chamber 120 in which the cleaning space 131 is formed, And a part of the pipe guide 30 is inserted and fixed in the fastening hole 61 and the through hole 121 so that the upper end of the injection plate 60 A transfer cylinder 1S is fixed to one side of the pipe guide 30 so as to hold the rod R at an upper portion thereof while a central block 41 is formed at the end of the rod R, The connecting block 40 constituting the fixing block 42 for fixing the outer diameter and connecting the fixing block 42 to one side of the connecting piece 44 symmetrically fastened to the front and rear surfaces of the central block 41 And the rod R of the transfer cylinder 1S and the upper portion of the injection tube 20 are connected and fixed.

At this time, the fixture 46 is fixed to the upper end of the pipe guide 30 and the other injection plate 60 about the transfer cylinder 1S to seat the lower end of the guide rod 45, And a sliding hole 43a into which the outer diameter of the guide rod 45 is inserted is formed on the other side surface of the guide rod 45. The upper end of the guide rod 45, The center block 41 is raised and the center block 41 and the connecting piece 44 are moved upward by operating the transfer cylinder 1S to raise the rod R as shown in FIG. The sliding block 43 moves up alone while being guided by the outer diameter of the guide rod 45 and the fixing block 42 is fixed to the spraying pipe 42 20 are raised together to raise the injection port 10 formed at the lower end of the injection pipe 20, The sliding block 43 is lowered while being guided by the guide rod 45 and the fixing block 42 is lowered while the rod R is lowered as shown in FIG. The injection port 10 held in the cleaning space 131 is moved up and down in accordance with the operation of the transfer cylinder 1S constituting the outside of the chamber 120, A sliding bearing B is formed in the sliding hole 43a of the slide block 43 and the guide hole 31 of the slide block 30 to minimize the frictional force generated in the injection pipe 20 and the guide rod 45, It is preferable that the bellows pipe 22 is installed at the upper end of the capillary 20 and connected to a cleaning material supply device (not shown) constituted in the cleaning operation equipment 200 provided outside the cleaning device 100 .

The spray tube 20 is vertically moved on the guide hole 31 of the pipe guide 30 so as not to be rotated or shaken by the guide rod 45 and is supplied from an external cleaning material supply device The cleaning material is supplied to the spraying tube 20 moving upward and downward through the bellows tube 22 so that it can be easily supplied regardless of the position of the spraying tube 20 due to the bellows tube 22. [

At this time, the cleaning material supply device must be configured differently according to the cleaning material supplied to the injection port 10, for example, as shown in Table 1 below, each of the cleaning material supply devices can be configured according to the cleaning material .

Cleaning raw material Cleaning material feeder Washing water Pump or high pressure pump Compressed air Air compressors, etc. Hot air Hot air or high pressure hot air Antirust solution Pump

As shown in Table 1, each of the cleaning material feeders, which should be applied according to the respective cleaning materials and their capacities and frequency of use, are components that are easily purchased and applied in the market. The detailed description of each of the cleaning material supplying devices Is omitted.

The injection port 10 formed in the cleaning space 131 formed in the chamber 120 may have various configurations depending on the shape and the shape of the workpiece A to be supplied, 3 (a), the lower end surface is connected to the communication path 12, which is configured to be evenly distributed over the entire inner surface of the injection block 11 maintaining a constant area, A plurality of nozzles N are provided on the lower end surface of the injection block 11 so as to be communicated with the communication path 12 so that the spraying pipe 20 is fastened to the upper part of the injection port 10, As shown in Fig. 3 (B), the inner surface 21 of the injection block 20 communicates with the inner surface of the injection block 11, and the lower end surface thereof is uniformly distributed over the entire inner surface of the injection block 11, 12 on the lower surface thereof, So that the communication path 12 is communicated with the inner diameter 21 of the spray tube 20 by connecting the spray tube 20 to the upper part of the injection port 10 so that the inner diameter 21 of the communication path 12 is in communication with the communication path 12, And a separate inner diameter nozzle (15) is fastened to the center of the injection block (11).

3, the lower end of the injection block 11 is communicated with the upper end of the injection block 11 having the injection space 13, And a plurality of nozzles N connected to the communication path 12 so as to be evenly distributed in the injection block 10 and fastened to the inner wall of the injection block 11 of the nozzle N, As shown in FIG. 3 (D), the lower end of the cylinder 12 communicates with the inner diameter 21 of the injection tube 20, A plurality of nozzles N communicating with the upper end of the injection block 11 and communicating with the communication passage 12 configured to be evenly distributed on the entire inner surface of the injection block 11 are fastened to the inner wall of the injection block 11 And the spraying tube 20 is fastened to the upper part of the injection port 10, And an inner diameter nozzle 15 is connected to the lower end surface of the injection block 11 at the center upper end portion of the injection space 13 as necessary.

The inner diameter nozzle 15 has a plurality of injection holes 18 communicating with the communication hole 17 in the direction of the cross section of the cylindrical nozzle body 16 in which the lower end of the communication hole 17 is sealed, It is preferable that the outer diameter side of the injection hole 18 is inclined downward and the coupling part 19 is formed at the upper end.

4, the spray tube 20 is fixed to the inner diameter of the bearing B provided at the center of the fixing block 42 formed on one side of the connecting means 40, And a driving motor M is fixed to an upper end of a fixing piece 70 formed at one side of the connecting means 40 to project the lower end of the motor shaft Ma to connect the power transmission means 53 to the driven means 51 to constitute the power transmission means 53 to transmit the rotational force of the drive motor M to the power transmission means 53, And a rotary joint 50 provided at an upper end of the spray tube 20 to rotate the spray nozzle 10 for rotating the spray tube 20 in the cleaning space 131 To a cleaning material spraying device for a workpiece surface cleaner.

More specifically, as shown in FIG. 5, a fixing hole 42a for inserting the spray tube 20 is formed at the center of the fixed block 42 to fix the bearing B, A rotary joint MJ fastened to the upper end of the injection pipe 20 fixedly inserted into the rotary joint;

A driven means 51 for fixing the bearing B to a lower outer diameter of the spray tube 20 to which the bearing B is fixed,

A seating groove 72 having a fastening plate 71 formed at one side thereof at right angles and communicating with the other side is formed at a central portion and a reference groove 74 opened upward at a central portion is formed, A fixing plate (70) constituted by a reference plate (73) for screwing and tightening an end of the fixing plate (70);

An adjusting screw 90 having a male screw 91 on one side in the longitudinal direction and a fixing groove 92 formed by a plurality of enlarged circles 93 at the center and having the other connecting shank 94;

A driving motor M having a motor shaft Ma protruding downward is fixed to the center of the upper surface and an actuating piece 81 having a screw groove 82 on its side is protruded to the lower end and a long hole 83 is formed on the corner, (80) formed on the lower surface thereof;

Driving means (52) fastened and fixed to the motor shaft (Ma);

And a power transmitting means 53 for connecting the driving means 52 and the driven means 51 to each other.

The rotating device 50 configured as described above is configured such that the driving motor M is fastened to the upper surface of the fixing piece 70 with the fastening plate 71 of the fastening piece 70 fixed to the side surface of the connecting means 40 The fixing grooves 92 are fitted in the reference grooves 74 in a state in which the fixing pieces 70 are seated and the motor shaft Ma of the driving motor M and the operating pieces 81 are inserted into the seating spaces 72 The adjustment screw 90 is rotated so that the male screw 91 of the adjustment screw 90 is inserted into the screw groove 82 and the fixing screw 90 is rotated so that the position of the seating plate 80 is shifted from the upper portion of the fixing piece 70 It is possible to easily set the tension of the power transmitting means 53 while minimizing the distance between the driving means 52 and the driven means 51 while preventing the moving means 52 from moving arbitrarily.

That is, as shown in FIG. 7, the adjustment screw 90 is rotated to move the seating plate 80, which is seated on the upper end of the fixing piece 70, to the left and right. The adjusting screw 90 is rotated to move the seat plate 80 to the left in order to easily connect the power transmitting means 53 for connecting the driven means 51 to the power transmitting means 53, The driving motor M fixed to the seating plate 80 is moved to the right together with the driving plate 90 by moving the adjusting plate 90 to the right by rotating the adjusting screw 90 as shown in (b) (52) is moved away from the driven means (51), tension is generated in the power transmitting means (53), so that the power transmission is stably performed.

The lower end of the rotary joint (MJ) is fixed to the upper end of the spray tube (20) fixed to the bearing block (B) constituting the fixed block (42) and fixed with the upper end outer diameter inserted into the inner diameter of the bearing The upper end of the injection port MJ is connected and fixed to the bellows pipe 22 communicating with the cleaning material supply device constituted in the cleaning operation equipment 200. The injection pipe 20 and the injection port 10, (MJ), which smoothly rotates due to the bearing (B), but is divided into upper and lower parts of itself, so that only the liquid or gas flowing into the inside is communicated to the set inlet and outlet without leaking to the outside It is possible to supply the cleaning material flowing from the outside to the injection pipe 20 and the injection port 10 which can rotate at a high speed.

At this time, the drive means 52 and the driven means 51 can be constituted by sprockets or belt pulleys or gears as necessary, and when the gears are constituted, there is no need for separate power transmission means, The driving means 52 and the driven means 51 are rotated at a high speed. Therefore, it is desirable to construct a separate cover 54 for foreign matter from the outside or safety problems when rotating at high speed.

In order to fix the spray tube 20 securely and securely to the bearing B of the fixed block 42, the outer diameter of the lower side of the spray tube 20 is designed to be larger than the inner diameter of the bearing B by a conventional method, And the upper portion of the bearing B is fixed to the upper portion of the bearing B by the detent ring 55 and the detent screw 56. [ So that the spray tube 20 is firmly fixed to the inside diameter of the bearing B.

The guide rod 45 constituting the side surface of the transfer cylinder 1S which maintains a certain distance is shaken due to the vertical movement of the transfer cylinder 1S, A connecting means 40 for directly or indirectly constituting the sensing region 48 and constituting a sensor guide 47 having sensors S on its upper and lower sides and transporting it along the guide rods 45, It is possible to stop the operation of the cylinder or operate it in the opposite direction so that the stroke distance of the cylinder can be determined or the sliding block 43 can be operated when the sensing region 48 provided on one side of the means 40 is close to the sensor S configured up and down, The stroke distance of the transfer cylinder 1S is finely adjusted so that the injection port 10 can be brought closer to the work A more safely and quickly so that the cleaning time Can be shortened and the cleaning effect enhanced. Lock configuration.

In addition, the electric device for driving the transfer cylinder 1S and the driving motor M, and signals of various valves, sensors, and switches can be automatically and continuously operated through an electric / electronic control system. This is because a separate control device is provided by applying a control method that can be commonly used in an automation system or the like, and a detailed description thereof will be omitted. (Not shown)

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be clear to those who have knowledge of.

In addition, the cleaning raw material spraying device 1 for the surface cleaner of the present invention, which operates in the above-described manner, is applied to a multi-process cleaner requiring various cleaning operations in one equipment, It can be seen that not only the necessary cleaning operation is performed quickly through the injection port 10 constituting each washing space 131 while being fixedly transported in the apparatus 111, and also the washing raw material can be used efficiently.

That is, since the nozzles are sprayed in a state in which the workpiece is embedded in the injection space of the nozzle, the cleaning material can be sprayed directly on the surface of the workpiece with a small pressure, thereby minimizing consumption of cleaning materials and cleaning time. So that it is possible to uniformly spray the surface of the workpieces having various shapes and shapes, thereby making it possible to construct a cleaning device that can more efficiently clean the foreign matter, thereby protecting the external environment and improving the cleaning work environment. It can be seen that the invention is provided.

1: Injection device 1s: Feed cylinder
10: jetting port 11: jetting block
12: communication passage 13: injection space
15: inner diameter nozzle 16: nozzle body
17: communication hole 18: injection hole
19: fastening part 20:
21: inner diameter 22:
30: pipe guide 31: guide hole
40: connecting means 41: central block
42: Fixing block 42a: Fixing hole
43: Sliding block 43a: Sliding hole
44: connecting piece 45: guide rod
46: fixture 47: sensor guide
48: Sensing area 50: Rotating device
51: driving means 52: driving means
53: Power transmission means 54: Cover
60: injection component plate 61: fastening hole
70: fastening piece 71: fastening plate
72: seating space 73: reference plate
74: reference groove 80: seating plate
81: OPERATIONAL SECTION 82:
83: Slot 90: Adjusting screw
91: male screw 92: fixing groove
83: expansion ring 94: engagement shank
100: cleaning device 110: frame
120: chamber 130: communication space
131: Cleaning space 200: Cleaning operation equipment
300: Feed stack 400: Loading device
500: unloading device 600: discharge stack
700: Washer A: Finished product
B: Bearing M: Drive motor
Ma: motor shaft R: rod
RJ: Rotary joint

Claims (6)

A cleaning device comprising: a nozzle having a nozzle inside a cleaning space and configured to jet outside a chamber to a nozzle through a supply means for supplying a cleaning material;

The upper part of the injection pipe 20 which penetrates the upper end surface of the chamber 120 by the operation of the transfer cylinder 1S fixed to the upper end of the chamber 120 and vertically transfers the upper part of the chamber 120 is protruded outside the upper part of the chamber 120 And a jetting port (10) provided with a plurality of nozzles (N) is connected to a bottom of the jetting tube (20) in the cleaning space (131) Washing material spraying device.
The method of claim 1, further comprising:

A pipe guide 30 for holding the guide hole 31 is fixed to the upper end of the chamber 120 by one side of the transfer cylinder 1S fixed to the upper end of the chamber 120 with the rod R facing upward The spraying tube 20 is inserted into the guide hole 31 so that the outside of the chamber 120 communicates with the washing space 131 by the guide hole 31 and flows into the inside diameter 21 passing through the external washing raw material. Characterized in that the upper part of the spray tube (20) comprises connecting means (40) fixed to the end of the rod (R).
The method according to claim 1 or 2,

The injection port 10 is formed in a cylindrical shape having a lower end communicating with the injection block 11 so as to communicate with the upper end of the injection block 11 having the injection space 13 and to be evenly distributed on the entire inner surface of the injection block 11. [ Is fastened to an inner wall of the injection block (11) of a plurality of nozzles (N) which are connected to the nozzle block (12).
4. The method of claim 3, further comprising:

The inner diameter nozzle 15 has a plurality of nozzles 18 arranged in the circumferential direction and vertically arranged in the direction of the cross section of the cylindrical nozzle body 16 in which the lower end of the communication hole 17 is sealed, And an inner diameter nozzle (15) constituting a fastening part (19) at the upper end part is formed separately on the lower end face of the injection block (11) at the upper center of the injection space (13) formed in the injection port (10) Cleaning material spraying device for surface cleaner.
The method according to claim 1 or 2,

The inner diameter of the bearing B provided at the central portion of the fixing block 42 formed at one side of the connecting means 40 is fixed so as to pass through the spray tube 20, The driving means M is fixed to the upper end of the fixing piece 70 formed at one side of the connecting means 40 and the driving means 52 is fixed to the motor shaft Ma projected to the lower end The power transmitting means 53 is connected to the driven means 51 to constitute the power transmitting means 53 to rotate the spraying tube 20 through the power transmitting means 53 And a rotary device (50) for rotating the injection port (10) held in the cleaning space (131) and constituting a rotary joint (MJ) at the upper end of the injection pipe (20) Device.
The method of claim 5, further comprising:

A fixing hole 42a for inserting the spray tube 20 into the center of the fixing block 42 is formed in the rotating device 50 to fix the bearing B and insert the upper end outer diameter into the inner diameter of the bearing B A rotary joint MJ fastened to the upper end of the fixed injection tube 20;
A driven means 51 for fixing the bearing B to a lower outer diameter of the spray tube 20 to which the bearing B is fixed,
A seating groove 72 having a fastening plate 71 formed at one side thereof at right angles and communicating with the other side is formed at a central portion and a reference groove 74 opened upward at a central portion is formed, A fixing plate (70) constituted by a reference plate (73) for screwing and tightening an end of the fixing plate (70);
An adjusting screw 90 having a male screw 91 on one side in the longitudinal direction and a fixing groove 92 formed by a plurality of enlarged circles 93 at the center and having the other connecting shank 94;
A driving motor M having a motor shaft Ma protruding downward is fixed to the center of the upper surface and an actuating piece 81 having a screw groove 82 on its side is protruded to the lower end and a long hole 83 is formed on the corner, (80) formed on the lower surface thereof;
Driving means (52) fastened and fixed to the motor shaft (Ma);
And a power transmission means (53) for connecting the drive means (52) and the driven means (51).

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