CN111397435A - Colorful toy water gun - Google Patents

Abstract

The invention belongs to the technical field of children toys. The colorful toy water gun provided uses the colorful light source to match with the traditional toy water gun, and the adjustable spray head is additionally arranged at the water outlet of the water gun, so that the colorful light source can irradiate the water mist sent by the water gun to generate colorful effect when the water gun sprays water. The requirement of children is satisfied, thereby produce the gorgeous effect of similar handheld fireworks and reduce the setting off of fireworks to a certain extent, reduce the pollution to the environment and avoid the potential safety hazard that children set off fireworks and bring.

Description

Colorful toy water gun

The technical field is as follows:

the invention discloses a colorful toy water gun which can enable water mist sprayed out of the toy water gun to generate gorgeous and bright colors. The colored light source is used in combination with a traditional toy water gun, the spray head is additionally arranged at the water outlet of the water gun, and the colored light source synchronously irradiates water mist sent by the water gun when the water gun sprays water, so that a colorful effect is achieved. Belongs to the technical field of children toys.

Background art:

at present, the traditional toy water gun can only send out straight line water column mostly, just can not see the effect of transmission at night, and traditional toy water gun is difficult to satisfy children's demand. The colorful toy water gun provided by the invention uses the colorful light source to match with the traditional toy water gun, and the spray head is additionally arranged at the water outlet of the water gun, so that the colorful light source synchronously irradiates the water mist emitted by the water gun when the water gun sprays water, thereby generating a colorful effect.

The invention content is as follows:

the content of the invention is as follows: the toy water gun is safe and environment-friendly and can produce firework effect. Under the condition that the trigger (20 in the figure 7) is not operated, the thrust head on the trigger can push against the contact end (11 in the figure 7) of the metal spring piece to deform and bend, so that the contact end (17 in the figure 7) of the contact piece and the contact block is in a separated state, the light-emitting disc or the light beam generator stops emitting light when the light-emitting disc or the light beam generator is powered off, when the trigger is pulled to carry out water spraying operation, the thrust head (19 in the figure 6) is separated from the contact end (11 in the figure 7) of the metal spring piece, and the contact end of the metal spring piece rebounds and contacts with the contact end (17 in the figure 7) of the contact block, so that the. The colorful toy water gun emits light beams to irradiate water mist during spraying operation, so that a gorgeous effect is achieved, and the colorful light beam generator stops emitting light when the spraying operation is stopped. Has the function of synchronizing the spraying and the color beam irradiation.

The distributor box mainly comprises a distributor box shell (figure 1A), a distributor gear (figure 1C), a distributor plate (figure 1F), a spring piece (89 in figure 3), a positive power supply wire 1 (74 in figure 1A) and a wiring harness (22 in figure 7), and the distributor box is connected with a light-emitting disk through the wiring harness. When the water gun trigger is pulled to spray water, the trigger and the guide rod are linked to push the electric distribution gear to rotate through the spring piece, and the metal spring piece (71 in figure 1C) rubs the electric distribution metal pieces 1-8 (45 and 46 and 47 and 48 and 49 and 50 and 51 and 52 in figure 1D) respectively along with the rotation of the electric distribution gear. Due to the presence of a leaf spring check (89 in fig. 3), the gear can only rotate in one direction against the gear teeth (64 in fig. 3) of the partial gear.

When the trigger is pulled to spray water, the thrust head (19 in figure 6) is separated from the contact end (11 in figure 7) of the metal spring piece, the contact end of the metal spring piece rebounds and contacts with the contact end (17 in figure 7) of the contact block, the contact block is electrified, and current passes through the positive power wire 2 (74 in figure 1C), the metal shaft sleeve (72 in figure 1A), the shaft head A (66 in figure 1B), the metal gear shaft B end (67 in figure 2A), the connecting wire (69 in figure 2A), the metal spring piece, the electric distribution metal piece (45 or 46 or 47 or 48 or 49 or 50 or 51 or 52 in figure 1D), the electric conduction fixing head (63 in figure 1E), the branching wire (81 or 82 or 83 or 84 or 85 or 86 or 87 or 88 in figure 3) in the wire harness (22 in figure 7), and is conducted to the positive pole (105 or 106 or 107 or 108 or 109 in figure 5) of the diode in the light-emitting disc (23 in figure 7) Or 110 or 111 or 112) to energize a corresponding one of the light emitting panels to emit light. When the water gun trigger is pulled to spray water, the trigger and the guide rod are linked to push the electric distribution gear to rotate through the spring piece, and the metal spring piece (71 in figure 1C) rubs the electric distribution metal pieces 1-8 (45 and 46 and 47 and 48 and 49 and 50 and 51 and 52 in figure 1D) respectively along with the rotation of the electric distribution gear. When the metal spring piece contacts the distribution metal piece 1 (45 in figure 1D), the diode emits light through the distribution metal piece 1 (81 in figure 3) and the diode anode 1 (105 in figure 5), the distribution gear rotates for a certain angle when the trigger is pulled once, and the metal spring piece sequentially contacts the eight distribution metal pieces along with the rotation of the distribution gear so as to sequentially electrify the eight diodes, so that the eight diodes with different light-emitting colors sequentially emit light to generate a sequential color-changing effect.

The beneficial effects of the implementation of the invention are as follows:

the colorful water gun provided by the invention uses the colorful light source to match with the traditional toy water gun, and the spray head is additionally arranged at the water outlet of the water gun, and the colorful light source irradiates the water mist emitted by the water gun while the water gun sprays water, thereby generating a colorful effect. The firework display device meets the requirements of children on colorful effects, produces gorgeous effects similar to handheld fireworks, reduces the setting off of the fireworks to a certain extent, reduces the pollution to the environment and avoids the potential safety hazard caused by setting off the fireworks by the children, and therefore, better economic and social benefits can be brought by the implementation of the firework display device.

Description of the drawings:

fig. 1A is the distributor box casing, fig. 1B is the distributor gear facade, fig. 1C is the distributor gear plane, fig. 1D is the distributor plate internal plane, fig. 1E is the distributor metal sheet, fig. 1F is the distributor plate insulating carrier internal plane, fig. 2A is the distributor box assembly diagram, fig. 2B is the distributor plate external plane, fig. 3 is the distributor box assembly, fig. 4 is the connection diagram of distributor box and luminous dish, fig. 5 is the luminous dish exploded view, fig. 6 is the assembly diagram of dazzling water gun, fig. 7 is the whole assembly illustration of dazzling water gun.

10 metal spring leaf fixing end, 11 metal spring leaf contact end, 12 positive power line 1, 13 battery, 14 battery box, 15 negative power line, 16 adjustable spray head, 17 contact end of contact block, 18 contact block, 19 thrust head, 20 trigger, 22 wire harness, 31 distribution plate shaft sleeve, 32 butt joint hole 1, 33 butt joint hole 2, 34 butt joint hole 3, 35 fixing hole 1, 36 fixing hole 2, 37 fixing hole 3, 38 fixing hole 4, 39 fixing hole 5, 40 fixing hole 6, 41 fixing hole 7, 42 fixing hole 8, 45 distribution metal sheet 1, 46 distribution metal sheet 2, 47 distribution metal sheet 3, 48 distribution metal sheet 4, 49 distribution metal sheet 5, 50 distribution metal sheet 6, 51 distribution metal sheet 7, 52 distribution metal sheet 8, 54 conductive fixing head 1, 55 conductive fixing head 2, 56 conductive fixing head 3, 57 conductive fixing head 4, 58 conductive fixing head 5, 59 conductive fixing head 6, 60 conductive fixing head 7, 61 conductive fixing head 8, 62 fan-shaped metal sheet, 63 conductive fixing head, 64 gear ring, 65 gear shaft A end, 66 shaft head A, 67 gear shaft B end, 68 shaft head B, 69 connecting line, 70 fastening bolt, 71 metal spring sheet, 72 metal shaft sleeve, 73 shaft sleeve hole, 74 anode power line 2.75 support 1, 76 support 1 butt joint hole, 77 support 2, 78 support 2 butt joint hole, 79 support 3, 80 support 3 butt joint hole, 81 branching 1, 82 branching 2, 83 branching 3, 84 branching 4, 85 branching 5, 86 branching 6, 87 branching 7, 88 branching 8, 89 return spring sheet, 90 luminous panel luminous surface, 91 luminous panel wiring surface, 92 diode, 93 metal conductive ring, 94 round hole, 95 anode, 96 cathode, 97 anode mounting hole 1, 98 anode mounting hole 2, 99 anode mounting hole 3, 100 anode mounting hole, 4,101 positive mounting hole 5, 102 positive mounting hole 6, 103 positive mounting hole 7, 104 positive mounting hole 8, 105 diode 1 positive, 106 diode 2 positive, 107 diode 3 positive, 108 diode 4 positive, 109 diode 5 positive, 110 diode 6 positive, 111 diode 7 positive, 112 diode 8 positive, 113 guide bar, 114 guide tube, 115 leaf spring, 116 spring,

the specific implementation mode is as follows:

a thrust head (19 in figure 6) is fixedly arranged at one end of a water gun trigger (20 in figure 6), the thrust head can be made of metal or plastic, is welded by hot melt adhesive or fixed on the trigger by bolts or is formed into a whole with the trigger in an injection molding mode, the thrust head does not need to be in a special shape, and can be cylindrical or cuboid, a guide pipe (114 in figure 6) is fixed on the water gun shell, a guide rod (113 in figure 6) is inserted from the rear end of the guide pipe, a spring (116 in figure 6) is mounted on the guide rod (113 in figure 6) at a position between the guide tube (114 in figure 6) and the thrust collar and then one end of the guide rod (113 in figure 6) is fixed on the thrust collar (19 in figure 6), the fixing device can be fixed by welding or screwing, or the fixing device and the trigger thrust head are made into an integral structure. A spring plate is arranged and fixed at one end of the guide rod (113 in figure 6) which is positioned at the rear part of the water gun shell, and the plane of the spring plate is at an angle of ninety degrees with the side plane of the water gun shell. A battery compartment (14 in fig. 6) is provided in the outer housing of the monitor. A copper block with a proper size is used as a contact block (18 in the attached drawing 6), an elongated elastic metal sheet is used as the metal spring sheet, the fixed end (10 in the attached drawing 1) of the metal spring sheet is fixed above a thrust head (19 in the attached drawing 6) on a trigger (20 in the attached drawing 6) on a water gun shell, the thrust head on the trigger can bend the deformation of the top of the water gun shell under the thrust action of a spring (116 in the attached drawing 6) in the state that the trigger is not operated, and the contact block (18 in the attached drawing 6) is fixed on the water gun shell, wherein the fixed position requirement is as follows: 1 when the trigger (6 in figure 6) is not operated, the thrust head is pressed against the contact end (11 in figure 6) of the metal spring piece to deform and bend the contact end (11 in figure 6) and the contact surface (17 in figure 6) of the contact block, so that the contact end (11 in figure 6) and the contact surface (17 in figure 6) are in a separated state, and when the trigger is actuated to carry out water spraying operation, the thrust head (19 in figure 6) is separated from the contact end (11 in figure 6) of the metal spring piece, and the contact end of the metal spring piece rebounds and contacts with the contact surface (17 in figure 6) of the contact block. "C (B)

The distribution box is made of a distribution box shell (figure 1A), the distribution box shell can be square or round, for convenience of description, the distribution box shell is square, a metal shaft sleeve (72 in figure 1A) is arranged in the middle of the distribution box shell, a shaft sleeve hole (73 in figure 1A) is arranged in the middle of the shaft sleeve, a positive power wire 2 (74 in figure 1A) is fixedly connected to the outer edge of the metal shaft sleeve (72 in figure 1A) and is attached to the distribution box shell, and a support (75, 77 and 79 in figure 1A) is arranged at each of three corners of the distribution box shell, and a butt joint hole (76, 78 and 80 in figure 1A) is arranged on each of the three supports. The power distribution gear is manufactured and is a planar spur gear (figure 1C), a gear shaft made of metal materials with good electric conductivity is arranged in the center of the plane of the power distribution gear, the metal gear shaft and the gear are integrated, namely the gear rotates, the metal shaft must rotate synchronously, a metal spring piece (71 in figure 1C) is fixedly arranged on one side of the power distribution gear, which is positioned at the end B (67 in figure 1B) of the gear shaft, one end of the metal spring piece is fixed on the plane of the power distribution gear through a bolt, and the other end of the metal spring piece tilts and tilts at a certain angle. The head of the end A of the gear shaft (67 in figure 1B) is made into a shaft head A (66 in figure 1B) matched with a shaft sleeve hole (73 in figure 1A), and the end B of the gear shaft is made into a shaft head B (68 in figure 1B) matched with a distributor plate shaft sleeve (31 in figure 1F). And (3) manufacturing a distributor plate and distributor plate insulating carrier with the same size as the distributor box shell (shown in figure 1F). The three corners of the distributor insulating carrier are respectively provided with butt-joint holes (32, 33 and 34 in figure 1F) corresponding to the butt-joint holes of the three brackets on the distributor shell, the middle of the distributor insulating carrier is provided with a distributor shaft sleeve (31 in figure 1F), eight fixing holes (35, 36, 37, 38, 39, 40, 41 and 42 in figure 1F) are equidistantly made by taking the distributor shaft sleeve as the center of a circle, eight distributor metal sheets (figure 1E) with the same size are made, each distributor metal sheet consists of a fan-shaped metal sheet (62 in figure 1E) and a conductive fixing head (63 in figure 1E), metal sheets with the same size and shape as that of the distributor gear (figure 1C) are used as raw materials, the center of the circular metal sheet is made into a hole with a diameter larger than that of the end B (67 in figure 1B), and then the circular metal sheets are averagely divided into eight parts to be made into the fan-shaped metal sheets (62 in figure 1E), and a proper metal strand is selected as a conductive fixing head, and the conductive fixing head is welded on the fan-shaped metal sheet. The conductive fixing heads on eight sub-electric metal sheets (figure 1E) are respectively inserted into eight fixing holes (35 and 36 and 37 and 38 and 39 and 40 and 41 and 42 in figure 1F), the eight fan-shaped sub-electric metal sheets (45 and 46 and 47 and 48 and 49 and 50 and 51 and 52 in figure 1D) are uniformly distributed and enclosed into a circle by taking a sub-electric plate shaft sleeve (31 in figure 1F) as a circle center, certain gaps are required to be left among the sub-electric metal sheets and filled with insulating glue, the sub-electric metal sheets can be fixed on a sub-electric plate insulating carrier in an adhesive mode or a threaded mode, the sub-electric metal sheets can also be formed at one time by using an injection molding technology, and the gaps between the conductive fixing heads and the fixing holes need to be filled with glue by using the adhesive mode. The shaft head A on the distribution gear (figure 1B) is inserted into a shaft sleeve hole (73 in figure 1A) on the distribution box shell, the shaft head B (68 in figure 1B) is inserted into a shaft sleeve (31 in figure D) on the distribution plate (figure 1D), three butt joint holes (32, 33 and 34 in figure 2B) on the distribution plate are distributed and aligned with three butt joint holes (76, 78 and 80 in figure 2A) on the distribution box shell bracket and are screwed and fixed by screws, a spring piece (89 in figure 3) is fixed on the bracket 2 (77 in figure 1A), the plane of the spring piece (89 in figure 3) is at an angle of ninety degrees with the plane of the distribution gear, one end of the spring piece (89 in figure 3) is pressed against the gear (64 in figure) of the distribution gear, and the complete distribution box assembly (figure 3) is completed.

The method comprises the following steps of manufacturing a light-emitting disc (23 in the attached drawing 7), firstly manufacturing an insulating shell, wherein the shell can be in a cylindrical shape by adopting an injection molding mode, arranging a circular base plate at one end of a circle to be used as a carrier for fixing a light-emitting body, manufacturing a round hole (94 in the attached drawing 5) in the middle of the circular base plate, manufacturing a metal conductive ring (93 in the attached drawing 5) at a position close to the round hole, manufacturing eight anode mounting holes (97, 98, 99, 100, 101, 012, 103 and 104 in the attached drawing 5) on the periphery of the metal conductive ring, and distributing the anode mounting holes at equal intervals by taking the round hole (94 in the attached drawing 5) as the circle center. Eight anodes (105 and 106 and 107 and 108 and 109 and 110 and 111 and 112 in the figure 5) of diodes with different light-emitting colors are respectively inserted into eight anode mounting holes, the cathodes (96 in the figure 5) are all fixed at corresponding positions on a metal conductive ring (93 in the figure 5), eight power wires are used for forming a wire harness (22 in the figure 4), and eight branch wires (81 and 82 and 83 and 84 and 85 and 86 and 87 and 88 in the figure 3) at one end of the wire harness are respectively connected with eight conductive fixing patterns (54 and 55 and 56 and 57 and 58 and 59 and 60 and 61 in the figure 2B) on a distributor box (figure 3). The other end of the wire harness (22 in fig. 4) is connected with eight branch wires which are respectively connected with eight diode anodes (105 and 106 and 107 and 108 and 109 and 110 and 111 and 112 in fig. 5) on the light-emitting panel (22 in fig. 7).

The circular hole (94 in the figure 5) of the luminous disc (13 in the figure 7) is sleeved on the periphery of the spray head (16 in the figure 6) and the luminous disc is fixed on the front end shell of the water gun, the branch box assembly (figure 3) is fixed behind the water gun, and the position of the branch box assembly is based on that when a trigger (20 in the figure 7) is triggered, a spring piece (115 in the figure 7) pushes the gear teeth (64 in the figure 1C) of the branch electric gear through linkage of a guide rod (113 in the figure 7) so that the branch electric gear rotates. The wiring harness (22 in fig. 7) is secured in place above the monitor housing.

The water outlet of the water gun is made into a butt joint port which can be in butt joint with a spray head (16 in the attached drawing 1), the spray head with adjustable atomization degree is used, and the spray head (16 in the attached drawing 1) is arranged on the water outlet of the water gun. A colored beam generator (17 in fig. 1) is mounted above the water outlet of the water gun. Adopt toper colorbeam generator, the light beam that makes to send can match with squirt spun water smoke size, adopts the adjustable toper beam generator of similar flashlight, and the size of the degree of atomization of adjustment atomising head adjustment light beam simultaneously makes the better matching of light beam and water smoke.

The distributor box can be replaced by an electronic board, the description is not repeated for brevity, the diodes used on the light-emitting disk can be replaced by common small bulbs, the optical disk can also be composed of one or more light beam generators, and the invention can also be used on a toy water gun which sprays water by gas pressure or a push-pull toy water gun. The diodes, the distribution metal sheets, the distribution fixing holes and the brackets can be in different numbers according to requirements. The circuits may also be connected in different ways according to known and well-known techniques. When a plurality of diodes are required to emit light simultaneously, a method of connecting the anodes of the plurality of diodes at the same root line may be used.

Claims (9)

1. This is a dazzling various toy water gun, its characterized in that: by the squirt, a power supply, the power cord, the atomising head, switch, dazzle various illuminator and constitute, the delivery port at the squirt is installed to the atomising head, dazzle the luminous dish dress among the various illuminator around the atomising head, the negative pole of power dazzles various illuminator's negative pole through the power cord connection, switch is connected through the power cord to the positive pole of power, dazzle various illuminator through the power cord connection, switch and dazzle various illuminator are connected to the trigger, illuminator sends the light beam of different colors and shines bright and colorful effect to the water smoke real-time irradiation production when the squirt sprays, the operation of stopping the trigger then illuminator and atomizer stop the acting in step, dazzle various illuminator when pulling the trigger repeatedly and can alternate different colors and make squirt spun water smoke present different colors.

2. The dazzle toy water gun of claim 1, wherein; the power switch is controlled by the synchronizer, the contact block and the contact piece of the power switch are switched on by the synchronizer when the trigger is pulled to enable the spray head of the water gun to spray water mist, and the contact block and the contact piece of the power switch are separated and powered off when the trigger of the water gun is loosened.

3. The dazzle toy water gun of claim 2, wherein; the atomizing spray head capable of adjusting the atomizing degree is arranged, the range of the water gun and the size of a fog group can be adjusted by adjusting the atomizing spray head, and the water spraying range and the atomizing state of the colorful toy water gun can be adjusted.

4. The dazzle toy water gun of claim 2, wherein: the toy water gun is characterized by comprising a synchronous control device, wherein the synchronous control device is composed of a thrust head, a guide rod, a guide pipe, a spring piece and a spring piece, the thrust head is fixed on a trigger, the guide pipe is fixed on a shell of the toy water gun, the guide rod is inserted into the guide pipe, one end of the guide rod is fixed on the thrust head, the other end of the guide rod is provided with the spring piece, the spring is arranged on the guide rod and positioned between the guide pipe and the thrust head, the thrust head controls a power switch, and the spring piece controls the colorful light-.

5. The dazzle toy water gun of claim 4, wherein: the colorful luminous device comprises a distribution box, a power line and a luminous disc, wherein the distribution box is connected with the luminous disc through the power line, a spring piece in the control device pushes the distribution box to do work to sequentially supply electricity to different luminous devices in the luminous disc, and one luminous device or a plurality of luminous devices can emit light at the same time.

6. The dazzle toy water gun of claim 5, wherein; the distribution box is composed of a distribution box shell, a distribution gear, a distribution plate and a power line, wherein the power line is connected with a power switch and the distribution box, the distribution gear is controlled by a spring leaf in a device to rotate, and different diodes in the light-emitting box are sequentially electrified through a wire harness while the distribution gear rotates.

7. The dazzle toy water gun of claim 6, wherein: the distribution box is provided with a metal spring piece which is communicated with the power switch at any time in a communicating state, and the metal spring piece is contacted with the distribution metal pieces on the distribution plate in sequence along with the rotation of the distribution gear.

8. The dazzle toy water gun of claim 7, wherein; the distribution board is composed of a plurality of distribution metal sheets and an insulating plate, the distribution metal sheets are arranged on the insulating plate to form a circle corresponding to the distribution gear, a certain gap is formed between every two distribution metal sheets, the gaps are filled with insulating glue, each distribution metal sheet is connected with a wire distributing in one wire harness, and the other end of each wire distributing is connected with a corresponding diode or a common small bulb in the light-emitting box or connected with a plurality of diodes or a plurality of bulbs through one wire distributing.

9. The dazzle toy water gun of claim 8, wherein; the water gun is characterized by comprising a light-emitting box, wherein the light-emitting box is composed of an insulating shell and a plurality of diodes or common bulbs capable of emitting different colors, a round hole is formed in the middle of the light-emitting box and can be sleeved on the periphery of a spray head, and water mist of the water gun is sprayed out from the centers of circles of the diodes.

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