阅读说明：本技术 一种仿真动物的染料喷涂装置及其制造方法 (Dye spraying device for simulated animals and manufacturing method thereof ) 是由 吴志芳 于 2020-06-02 设计创作，主要内容包括：本发明涉及仿真动物染料喷涂技术领域,尤其为一种仿真动物的染料喷涂装置及其制造方法,包括底箱体和箱门,所述底箱体的侧壁上铰链连接有箱门,所述底箱体远离地面的一端螺钉连接有安装平台,所述安装平台远离底箱体的一端螺钉连接有轴承安装座,所述轴承安装座的内壁上轴承连接有转块,所述转块的中心位置设有方形转孔,所述方形转孔的内壁上套接有方形塞块,所述转块远离方形塞块的一端一体成型设有从动带轮,所述方形塞块远离转块的一端一体成型设有仿真动物注模成型连接杆,所述仿真动物注模成型连接杆远离方形塞块的一端一体成型设有手柄,整体设备喷涂效率高,操作简单,且稳定性和实用性较高,具有一定的推广价值。(The invention relates to the technical field of dye spraying of simulated animals, in particular to a dye spraying device of simulated animals and a manufacturing method thereof, the dye spraying device comprises a bottom box body and a box door, the side wall of the bottom box body is hinged with the box door, one end of the bottom box body, which is far away from the ground, is connected with an installation platform through a screw, one end of the installation platform, which is far away from the bottom box body, is connected with a bearing installation seat through a screw, the inner wall of the bearing installation seat is in bearing connection with a rotating block, the center position of the rotating block is provided with a square rotating hole, the inner wall of the square rotating hole is sleeved with a square plunger, one end of the rotating block, which is far away from the square plunger, is integrally formed with a driven belt pulley, one end of the square plunger, which is far away from the rotating block, is integrally formed with a simulated animal injection molding connecting rod, the operation is simple, the stability and the practicability are higher, and certain popularization value is achieved.)

1. The utility model provides a dyestuff spraying device of emulation animal and manufacturing method thereof, includes end box (1) and chamber door (2), its characterized in that: the side wall of the bottom box body (1) is hinged with a box door (2), one end of the bottom box body (1) far away from the ground is in screwed connection with a mounting platform (3), one end of the mounting platform (3) far away from the bottom box body (1) is in screwed connection with a bearing mounting seat (4), the inner wall of the bearing mounting seat (4) is in bearing connection with a rotating block (5), the central position of the rotating block (5) is provided with a square rotating hole (6), the inner wall of the square rotating hole (6) is sleeved with a square plug block (8), one end of the rotating block (5) far away from the square plug block (8) is integrally formed with a driven pulley (7), one end of the square plug block (8) far away from the rotating block (5) is integrally formed with a simulation animal injection molding connecting rod (9), one end of the simulation animal injection molding connecting rod (9) far away from the square plug block (8) is integrally formed with a handle, the injection molding device is characterized in that an artificial animal (11) is integrally formed on the outer wall of the artificial animal injection molding connecting rod (9), one end, close to the mounting platform (3), of the artificial animal injection molding connecting rod (9) is connected with a bottom supporting block (12), one end, far away from the artificial animal injection molding connecting rod (9), of the bearing mounting seat (4) is connected with a bearing sealing plate (13) through a screw, a belt (14) is sleeved on the outer wall of the driven pulley (7), a motor pulley (15) is sleeved on the inner wall of one end, far away from the driven pulley (7), of the belt (14), a speed reducing motor (16) is fixedly connected onto the inner wall of the motor pulley (15), one end, close to the motor pulley (15), of the speed reducing motor (16) is connected with a motor mounting plate (17) through a screw, one end, close to the ground, of the mounting platform (3) is connected with, the one end screw connection that cylinder installation piece (18) is close to ground has micro cylinder (20), the one end threaded connection of micro cylinder (20) has rack (21), the one end screw connection that rack (21) is close to mounting platform (3) has slip table (27), the one end sliding connection that slip table (27) is close to mounting platform (3) has slide rail (28), the one end profile of tooth that rack (21) is close to ground is connected with gear (22), cup joint and screw connection has nozzle connecting axle (23) on the inner wall of gear (22), cup joint and screw connection has nozzle installation fixed block (24) on the outer wall of nozzle connecting axle (23), screw connection has nozzle (25) on the outer wall of nozzle installation fixed block (24), dye connecting pipe (26) has been cup jointed to the one end of nozzle (25), dye connecting pipe (26) keep away from the one end fixed connection of nozzle (25) has dye tank (34), the one end screw connection that nozzle (25) were kept away from in gear (22) has detection piece (29), the one end screw connection that nozzle connecting axle installation piece (19) is close to detection piece (29) has first travel switch installation piece (30) and second travel switch installation piece (32), the screw connection has first travel switch (31) on the inner wall of first travel switch installation piece (30), the screw connection has second travel switch (33) on the inner wall of second travel switch installation piece (32).

2. The dye spraying device for simulating animals and the manufacturing method thereof according to claim 1 are characterized in that: the simulation animals (11) are provided with a plurality of groups.

3. The dye spraying device for simulating animals and the manufacturing method thereof according to claim 1 are characterized in that: the bottom support blocks (12) are connected with the mounting platform (3) through screws, and two groups of the bottom support blocks (12) are arranged.

4. The dye spraying device for simulating animals and the manufacturing method thereof according to claim 1 are characterized in that: the type of the speed reducing motor (16) is 3RK15GN-CM-3GN 250-250K K, the type of the micro cylinder (20) is CG1LN20-75Z, the type of the nozzle (25) is WA-101, and the types of the first travel switch (31) and the second travel switch (33) are MAKS 0604B.

5. The dye spraying device for simulating animals and the manufacturing method thereof according to claim 1 are characterized in that: the motor mounting plate (17) is connected with the mounting platform (3) through screws, and the sliding rail (28) is connected with the cylinder mounting block (18) through screws.

6. The dye spraying device for simulating animals and the manufacturing method thereof according to claim 1 are characterized in that: two groups of nozzle connecting shaft mounting blocks (19) are symmetrically arranged.

7. The dye spraying device for simulating animals and the manufacturing method thereof according to claim 1 are characterized in that: the nozzle connecting shaft (23) is connected with the nozzle connecting shaft mounting block (19) through a bearing.

8. The dye spraying device for simulating animals and the manufacturing method thereof according to claim 1 are characterized in that: the method comprises the following steps:

s1: the square chock block (8), the simulated animal injection molding connecting rod (9), the handle (10) and the simulated animal (11) are integrally molded through an injection molding machine;

s2: holding the handle (10) by hand, placing the simulated animal injection molding connecting rod (9) on the bottom support block (12), and simultaneously plugging the square plug block (8) into the square rotating hole (6);

s3: then, a power supply of the speed reducing motor (16) is turned on, the speed reducing motor (16) rotates slowly to drive the motor belt wheel (15) to rotate, the motor belt wheel (15) drives the driven belt wheel (7) to rotate through the belt (14), and the driven belt wheel (7) and the rotating block (5) are integrally formed, so that the rotating block (5) rotates slowly along with the driving of the simulated animal (11) to rotate slowly;

s4: simultaneously, the nozzle (25) sprays the dye from the dye tank (34) to the direction of the simulated animal (11);

s5: meanwhile, the micro cylinder (20) drives the rack (21) to push forwards, the rack (21) drives the gear (22) to rotate slowly, and meanwhile, the nozzle connecting shaft (23) is driven to rotate, so that the nozzle (25) is driven to rotate through the nozzle mounting fixing block (24), and the detection block (29) deflects along with the rotation;

s6: when the detection block (29) deflects to touch the first travel switch (31), the first travel switch (31) transmits a signal to control the micro cylinder (20) to pull back the rack (21), so that the nozzle (25) deflects in the opposite direction;

s7: when the detection block (29) reversely touches the second travel switch mounting block (32), the second travel switch mounting block (32) transmits a signal to control the micro cylinder (20) to continuously extend the rack (21), and in this way, the nozzle (25) swings back and forth while the simulation animal (11) rotates;

s8: when the surfaces of the simulated animals (11) are completely sprayed, the simulated animals can be carried out the next process by wearing gloves and holding the handles (11) with hands and taking down the simulated animals.

Technical Field

The invention relates to the technical field of dye spraying of simulated animals, in particular to a dye spraying device of a simulated animal and a manufacturing method thereof.

Background

The animal toy is an injection-molded integrally formed animal toy, the animal toy is various and lifelike in shape according to the ordinary expression and action of the animal, and as more and more people like pets, pet supply stores and pet hospitals are gradually prosperous, however, due to various reasons, many people who like pets cannot or are not suitable for raising pets, such as pregnant women, the appearance of the simulated pets greatly makes up for the requirements of the people.

The surface of the simulated animal needs to be beautified and sprayed when the simulated animal is processed and formed, so that the simulated animal is more vivid, the existing spraying technology is not uniform and comprehensive enough in spraying, and the process of taking and placing the simulated animal is not very convenient, so that the problem is improved by the dye spraying device for the simulated animal and the manufacturing method thereof.

Disclosure of Invention

The present invention is directed to a dye spraying apparatus for simulating animals and a method for manufacturing the same, which solves the above problems of the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

a dye spraying device for simulation animals and a manufacturing method thereof comprise a bottom box body and a box door, wherein the box door is hinged on the side wall of the bottom box body, a mounting platform is connected with one end of the bottom box body, which is far away from the ground, a bearing mounting seat is connected with one end of the mounting platform, which is far away from the bottom box body, a rotating block is in bearing connection with the inner wall of the bearing mounting seat, a square rotating hole is formed in the center position of the rotating block, a square plunger plug is sleeved on the inner wall of the square rotating hole, a driven belt wheel is integrally formed at one end, which is far away from the square plunger plug, of the rotating block, a simulation animal injection molding connecting rod is integrally formed at one end, which is far away from the square plunger plug, of the simulation animal injection molding connecting rod, a handle is integrally formed at one end, which is far away from the square plunger plug, one end of the simulation animal injection molding connecting rod, which is close to the mounting platform, is blocked and connected with a bottom supporting block, one end of the bearing mounting seat, which is far away from the simulation animal injection molding connecting rod, is in screwed connection with a bearing sealing plate, the outer wall of the driven pulley is sleeved with a belt, the inner wall of one end of the belt, which is far away from the driven pulley, is sleeved with a motor pulley, the inner wall of the motor pulley is fixedly connected with a speed reducing motor, one end of the speed reducing motor, which is close to the motor pulley, is in screwed connection with a motor mounting plate, one end of the mounting platform, which is close to the ground, is in screwed connection with a cylinder mounting block and a nozzle connecting shaft mounting block, one end of the cylinder mounting block, which is close to the ground, is in screwed connection with a micro cylinder, one, the rack is close to the one end profile of tooth on ground and is connected with the gear, cup joint and the screw connection has the nozzle connecting axle on the inner wall of gear, cup joint and the screw connection has nozzle installation fixed block on the outer wall of nozzle connecting axle, the screw connection has the nozzle on the outer wall of nozzle installation fixed block, the dyestuff connecting pipe has been cup jointed to the one end of nozzle, the one end fixed connection that the nozzle was kept away from to the dyestuff connecting pipe has the dye jar, the one end screw connection that the nozzle was kept away from to the gear has the detection piece, the one end screw connection that nozzle connecting axle installation piece is close to the detection piece has first travel switch installation piece and second travel switch installation piece, the screw connection has first travel switch on the inner wall of first travel switch installation piece, the screw connection has second travel switch on the inner wall of second.

Preferably, the simulation animals are provided with a plurality of groups.

Preferably, the bottom support blocks are connected with the mounting platform through screws, and two groups of the bottom support blocks are arranged.

Preferably, the model of the speed reducing motor is 3RK15GN-CM-3GN250K-750K, the model of the micro cylinder is CG1LN20-75Z, the model of the nozzle is WA-101, and the models of the first travel switch and the second travel switch are MAKS 0604B.

Preferably, the motor mounting plate is connected with the mounting platform through screws, and the sliding rail is connected with the cylinder mounting block through screws.

Preferably, two groups of nozzle connecting shaft mounting blocks are symmetrically arranged.

Preferably, the nozzle connecting shaft is connected with the nozzle connecting shaft mounting block through a bearing.

Preferably, the method comprises the following steps:

s1: the square plug block, the simulated animal injection molding connecting rod, the handle and the simulated animal are integrally molded through an injection molding machine;

s2: holding the handle by hand, placing the simulated animal injection molding connecting rod on the bottom support block, and simultaneously plugging the square chock block into the square rotary hole;

s3: then, a power supply of the speed reducing motor is turned on, the speed reducing motor rotates slowly to drive the motor belt wheel to rotate, the motor belt wheel drives the driven belt wheel to rotate through the belt, and the driven belt wheel and the rotating block are integrally formed, so that the rotating block rotates slowly, and the simulated animal is driven to rotate slowly;

s4: simultaneously, the nozzle sprays the dye from the dye tank to the direction of the simulated animal;

s5: meanwhile, the micro cylinder drives the rack to push forwards, the rack drives the gear to rotate slowly and drives the nozzle connecting shaft to rotate, so that the nozzle is driven to rotate by the nozzle mounting and fixing block, and the detection block deflects along with the nozzle mounting and fixing block;

s6: when the detection block deflects to touch the first travel switch, the first travel switch transmits a signal to control the micro cylinder to pull back the rack, so that the nozzle deflects in the opposite direction;

s7: when the detection block reversely touches the second travel switch mounting block, the second travel switch mounting block transmits a signal to control the micro cylinder to continuously extend the rack forwards, and by the way, the nozzle also swings back and forth while the simulation animal rotates;

s8: and when the surfaces of the simulated animals are completely sprayed, the simulated animals can be put on gloves, held by the handles and taken down, and then the next process can be carried out.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the nozzle swings back and forth while the simulated animal rotates by itself through a specific mechanical movement mode, so that the dye sprayed on the surface of the simulated animal is more uniform, and the spraying effect is good.

2. According to the invention, the simulated animal and the related connecting piece are placed and taken through the arranged handle, so that the device is convenient, simple, safe and reliable.

3. According to the invention, a plurality of simulated animals can be sprayed at one time, so that the spraying efficiency is greatly increased, and the spraying time is reduced.

Drawings

FIG. 1 is an overall three-dimensional schematic of the present invention;

FIG. 2 is a schematic view of a rotating structure of a simulated animal according to the present invention;

FIG. 3 is a schematic view of a square plug of the present invention;

FIG. 4 is a schematic view of a rotary block according to the present invention;

FIG. 5 is a three-dimensional schematic view of the structure of the painted part of the present invention;

FIG. 6 is a schematic view of a shoe block of the present invention;

FIG. 7 is a schematic plan view of the structure of the painted part of the present invention.

In the figure: 1-bottom box body, 2-box door, 3-mounting platform, 4-bearing mounting seat, 5-rotating block, 6-square rotating hole, 7-driven belt wheel, 8-square plug block, 9-simulated animal injection molding connecting rod, 10-handle, 11-simulated animal, 12-bottom support block, 13-bearing seal plate, 14-belt, 15-motor belt wheel, 16-speed reducing motor, 17-motor mounting plate, 18-cylinder mounting block, 19-nozzle connecting shaft mounting block, 20-micro cylinder, 21-rack, 22-gear, 23-nozzle connecting shaft, 24-nozzle mounting fixed block, 25-nozzle, 26-dye connecting pipe, 27-sliding table, 28-sliding rail, 29-detecting block, bearing, belt, 14-belt, 23-motor, and other parts, 30-a first travel switch mounting block, 31-a first travel switch, 32-a second travel switch mounting block, 33-a second travel switch and 34-a dye tank.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution:

a dye spraying device for simulated animals and a manufacturing method thereof comprise a bottom box body 1 and a box door 2, wherein the side wall of the bottom box body 1 is hinged with the box door 2, one end of the bottom box body 1, which is far away from the ground, is connected with an installation platform 3 through a screw, one end of the installation platform 3, which is far away from the bottom box body 1, is connected with a bearing installation seat 4 through a screw, the inner wall of the bearing installation seat 4 is connected with a rotating block 5 through a bearing, the central position of the rotating block 5 is provided with a square rotating hole 6, the inner wall of the square rotating hole 6 is sleeved with a square plug block 8, one end of the rotating block 5, which is far away from the square plug block 8, is integrally formed with a driven belt pulley 7, one end of the square plug block 8, which is far away from the rotating block 5, is integrally formed with a simulated animal injection molding connecting rod 9, one end of the simulated animal injection, one end of the simulated animal injection molding connecting rod 9 close to the mounting platform 3 is blocked and connected with a bottom support block 12, one end of the bearing mounting seat 4 far away from the simulated animal injection molding connecting rod 9 is in screwed connection with a bearing closing plate 13, the outer wall of the driven pulley 7 is sleeved with a belt 14, the inner wall of one end of the belt 14 far away from the driven pulley 7 is sleeved with a motor pulley 15, the inner wall of the motor pulley 15 is fixedly connected with a speed reducing motor 16, one end of the speed reducing motor 16 close to the motor pulley 15 is in screwed connection with a motor mounting plate 17, one end of the mounting platform 3 close to the ground is in screwed connection with a cylinder mounting block 18 and a nozzle connecting shaft mounting block 19, one end of the cylinder mounting block 18 close to the ground is in screwed connection with a micro cylinder 20, one end of the micro cylinder 20 is in screwed connection with a rack 21, one end of the rack 21 close to, the end of the rack 21 close to the ground is connected with a gear 22 in a tooth form, the inner wall of the gear 22 is sleeved and connected with a nozzle connecting shaft 23 through screws, the outer wall of the nozzle connecting shaft 23 is sleeved and connected with a nozzle mounting fixing block 24 through screws, the outer wall of the nozzle mounting fixing block 24 is connected with a nozzle 25 through screws, one end of the nozzle 25 is sleeved and connected with a dye connecting pipe 26, one end of the dye connecting pipe 26 far away from the nozzle 25 is fixedly connected with a dye tank 34, one end of the gear 22 far away from the nozzle 25 is connected with a detection block 29 through screws, one end of the nozzle connecting shaft mounting block 19 close to the detection block 29 is connected with a first travel switch mounting block 30 and a second travel switch mounting block 32 through screws, the inner wall of the first travel switch mounting block 30 is connected with a first travel switch 31 through screws, the inner wall of the second travel switch, the bottom support block 12 is connected with the mounting platform 3 through screws, two groups of bottom support blocks 12 are arranged, the type of the speed reducing motor 16 is 3RK15GN-CM-3GN250K-750K, the type of the micro cylinder 20 is CG1LN20-75Z, the type of the nozzle 25 is WA-101, the types of the first travel switch 31 and the second travel switch 33 are MAKS0604B, the motor mounting plate 17 is connected with the mounting platform 3 through screws, the slide rail 28 is connected with the cylinder mounting block 18 through screws, two groups of nozzle connecting shaft mounting blocks 19 are symmetrically arranged, and the nozzle connecting shaft 23 is connected with the nozzle connecting shaft mounting block 19 through a bearing.

The method comprises the following steps:

s1: the square chock block 8, the simulated animal injection molding connecting rod 9, the handle 10 and the simulated animal 11 are integrally molded through an injection molding machine;

s2: the simulated animal injection molding connecting rod 9 is placed on the bottom support block 12 by holding the handle 10 by hand, and the square chock block 8 is plugged into the square rotating hole 6;

s3: then, a power supply of a speed reducing motor 16 is turned on, the speed reducing motor 16 rotates slowly to drive a motor belt wheel 15 to rotate, the motor belt wheel 15 drives a driven belt wheel 7 to rotate through a belt 14, and the driven belt wheel 7 and the rotating block 5 are integrally formed, so that the rotating block 5 rotates slowly along with the driven belt wheel and drives the simulation animal 11 to rotate slowly;

s4: meanwhile, the nozzle 25 sprays the dye from the dye tank 34 to the direction of the simulated animal 11;

s5: meanwhile, the micro cylinder 20 drives the rack 21 to push forwards, the rack 21 drives the gear 22 to rotate slowly, and simultaneously drives the nozzle connecting shaft 23 to rotate, so that the nozzle 25 is driven to rotate through the nozzle mounting fixing block 24, and the detection block 29 deflects along with the nozzle mounting fixing block;

s6: when the detection block 29 deflects to touch the first travel switch 31, the first travel switch 31 transmits a signal to control the micro cylinder 20 to pull back the rack 21, so that the nozzle 25 deflects in the opposite direction;

s7: when the detection block 29 reversely rotates to touch the second travel switch installation block 32, the second travel switch installation block 32 transmits a signal to control the micro cylinder 20 to continuously extend the rack 21 forwards, so that the nozzle 25 swings back and forth while the simulation animal 11 rotates;

s8: when the surface of the simulated animal 11 is completely sprayed, the handle 11 is held by hands after wearing gloves, and then the next process can be carried out.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.