CN111420829B - Rotary injection pressure fixed type anti-counterfeit label production robot and production method - Google Patents

Abstract

The invention discloses a rotary jet pressure fixed type anti-counterfeit label production robot, which comprises pressure-sensitive label paper, a combined material groove, a jet chamber, an adsorption and dispersion device and a rotary jet device, wherein the pressure-sensitive label paper is fixed on the combined material groove; the combined material groove is provided with an impact particle bin and an anti-counterfeiting particle bin, the spraying chamber is provided with an opening, the adsorption and dispersion device comprises an adsorption support, a permanent magnet and an ultrasonic vibration part with directional vibration, one side of the adsorption support, which faces the opening of the spraying chamber, is provided with an arc-shaped clamping groove, the permanent magnet and the ultrasonic vibration part are embedded in the adsorption support, the magnetic adsorption force of the permanent magnet is 1.2 times of the gravity borne by a single anti-counterfeiting particle, and the rotary spraying device is used for spraying the anti-counterfeiting particles and the impact particles to the pressure-sensitive label paper in sequence; the invention can ensure that the anti-counterfeiting particles are uniformly dispersed and arranged on the surface of the pressure-sensitive label paper in a single layer, is beneficial to the identification of characteristic areas, and simultaneously ensures that the pressure-sensitive label paper is adhered and fixed by impacting the anti-counterfeiting particles through the jet impact particles.

Description

Rotary injection pressure fixed type anti-counterfeit label production robot and production method

Technical Field

The invention relates to the technical field of anti-counterfeiting, in particular to a rotary jet pressure fixed type anti-counterfeiting label production robot.

Background

Nowadays, the products are increasingly abused in counterfeit and shoddy, the anti-counterfeiting technology of the products is more and more innovative, wherein a novel mode is that gravels in rectangular or other shapes are scattered on a sticker to form a random characteristic area in a certain area, and then the purpose of distinguishing the counterfeit from the real is achieved by identifying the random characteristic of the characteristic area through a technical means.

However, in the actual use process of the feature region formed in this way, feature objects are overlapped, that is, two or more feature objects are overlapped and not on the same plane, and have a height difference, so that the feature region is difficult to identify, and the purpose of identifying authenticity cannot be achieved.

Disclosure of Invention

The invention aims to overcome the defects and provide a rotary jet pressure fixed type anti-counterfeiting label production robot.

In order to achieve the purpose, the invention adopts the following specific scheme:

a rotary jet pressure fixed type anti-counterfeit label production robot comprises pressure-sensitive label paper to be printed and coated with pressure-sensitive adhesive, a combined material groove, a jet chamber, an adsorption and dispersion device arranged on the outer wall of the jet chamber and a rotary jet device arranged in the jet chamber; the inside of the combined material groove is divided into an impact particle bin and an anti-counterfeiting particle bin; the side wall of the spraying chamber is provided with an arc-shaped opening, the upper end of the spraying chamber is covered by a top cover, a connecting plate is fixed on the top cover, and an unwinding shaft and a winding shaft are fixed on the connecting plate;

the adsorption and dispersion device comprises an arc-shaped adsorption support, an arc-shaped permanent magnet and an arc-shaped ultrasonic vibration component with directional vibration, the adsorption support is fixed on the outer wall of the spraying chamber corresponding to the opening of the spraying chamber, one side of the adsorption support, facing the opening of the spraying chamber, is provided with an arc-shaped clamping groove and an accommodating groove, the permanent magnet and the ultrasonic vibration component are embedded in the accommodating groove, the ultrasonic vibration component is positioned between the permanent magnet and the adsorption support, and the magnetic adsorption force of the permanent magnet is 1.2 times of the gravity borne by a single anti-counterfeiting particle;

the rotary spraying device is used for sequentially spraying the anti-counterfeiting particles in the anti-counterfeiting particle bin and the impact particles in the impact particle bin to the pressure-sensitive label paper.

Wherein, rotatory injection apparatus includes driving motor, sprays the mounting panel, sprays seat and rotary injector head, the one end of spraying the mounting panel is fixed on the lateral wall of spray chamber, spray the seat and fix the other end at the injection mounting panel, rotary injector head activity embedding sprays in the seat, driving motor fixes the top at the injection seat, and its output is connected with the rotary injector head transmission, the opening that sprays the seat and correspond the spray chamber is equipped with the jet, rotary injector head is equipped with relative impact granule spout and the anti-fake granule spout that sets up, rotary injector head's bottom correspondence is equipped with the impact granule feed inlet that communicates with impact granule spout and the anti-fake granule feed inlet that communicates with anti-fake granule spout, impact the granule feed inlet and be less than the distance at anti-fake granule feed inlet to rotary injector head's bottom center to rotary injector head's distance at bottom, the utility model discloses a spray particle feed passage, including the jetting mounting panel, spray seat, all be equipped with in the jetting mounting panel, the jetting seat and strike granule feedstock channel, the one end of striking granule feedstock channel is inhaled the material pipe through the impact granule that is connected with first powder absorbing part and is connected with the impact granule feed bin, the one end of anti-fake granule feedstock channel is inhaled the anti-fake granule that the powder absorbing part was inhaled through being connected with the second and is inhaled the material pipe and be connected with the anti-fake granule feed bin, when strikeing granule spout and jet corresponding, the other end intercommunication of impact granule feed passage and impact granule feedstock channel is strikeed granule feed passage, and anti-fake granule feed passage's other end intercommunication are not put through to anti-fake granule feed passage's other end.

Wherein, the length of the impact particle nozzle along the rotating direction of the rotary spray head is greater than the length of the anti-counterfeiting particle feed inlet along the rotating direction of the rotary spray head.

The lower end of the jetting chamber is connected with the upper end of the combined material groove, a separation plate is arranged between the jetting chamber and the combined material groove, the impact particle suction pipe and the anti-counterfeiting particle suction pipe correspondingly extend into the impact particle bin and the anti-counterfeiting particle bin after penetrating through the separation plate respectively, an impact particle mesh screen which is obliquely arranged and is positioned below the rotary jetting device is arranged in the jetting chamber, one end of the impact particle mesh screen is fixed on the side wall of the jetting chamber, the other end of the impact particle mesh screen is fixed on a recovery separation plate, and the lower end of the recovery separation plate is fixed in the middle of the separation plate.

The invention has the beneficial effects that: compared with the prior art, the method has the advantages that the magnetic adsorption force of the permanent magnet is 1.2 times of the gravity borne by a single anti-counterfeiting particle, the anti-counterfeiting particles sprayed on the surface of the pressure-sensitive label paper are pre-adsorbed, the anti-counterfeiting particles are arranged on the surface of the pressure-sensitive label paper in a single layer, the anti-counterfeiting particles are prevented from being stacked together, the identification of a characteristic region is facilitated, the anti-counterfeiting particles pre-adsorbed on the surface of the pressure-sensitive label paper are uniformly dispersed by the ultrasonic vibration component, the overlapping phenomenon is eliminated, meanwhile, the anti-counterfeiting particles are impacted by the sprayed impact particles, the pressure-sensitive label paper is adhered and fixed with the anti-counterfeiting particles, the randomness of the anti-counterfeiting particles can be ensured by adopting a spraying mode, the.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a schematic structural view of a cross-section of the present invention;

FIG. 3 is a schematic view of the structure of the adsorption dispersion apparatus of the present invention;

FIG. 4 is an exploded schematic view of the rotary jetting tool of the present invention;

description of reference numerals: 1-a combined trough; 11-impact particle bin; 12-anti-counterfeiting particle bin; 2-an ejection chamber; 3-an adsorption dispersion device; 31-an adsorption scaffold; 311-a card slot; 32-permanent magnets; 33-an ultrasonic vibration member; 4-a rotary spraying device; 41-driving motor; 42-jet mounting plate; 43-a spray seat; 431-ejection port; 44-a rotary jet head; 441-impact particle jets; 442-anti-counterfeiting particle nozzle; 443-impact particle feed port; 444-anti-counterfeiting particle feed inlet; 45-impact particle feed channel; 46-anti-counterfeiting particle feeding channel; 47-impact particle suction pipe; 471-a first powder absorbing component; 48-anti-counterfeiting particle suction pipe; 481 — second powder suction member; 5-connecting plates; 6-unwinding a material shaft; 7-winding a material shaft; 8-a partition plate; 9-impact the particle mesh screen; 10-recovering the partition board; 100-pressure sensitive label paper.

Detailed Description

The invention will be described in further detail with reference to the following figures and specific examples, without limiting the scope of the invention.

As shown in fig. 1 to 4, the robot for producing a rotating jet pressure-fixed type counterfeit-proof label according to the embodiment includes a pressure-sensitive label paper 100 to be printed and coated with a pressure-sensitive adhesive, a combination trough 1, a jet chamber 2, an adsorption and dispersion device 3 disposed on an outer wall of the jet chamber 2, and a rotating jet device 4 disposed in the jet chamber 2; the inside of the combined trough 1 is divided into an impact particle bin 11 and an anti-counterfeiting particle bin 12; the side wall of the spraying chamber 2 is provided with an arc-shaped opening, the upper end of the spraying chamber 2 is covered by a top cover, a connecting plate 5 is fixed on the top cover, and an unwinding shaft 6 and a winding shaft 7 are fixed on the connecting plate 5;

the adsorption and dispersion device 3 comprises an arc-shaped adsorption support 31, an arc-shaped permanent magnet 32 and an arc-shaped ultrasonic vibration component 33 with directional vibration, the adsorption support 31 is fixed on the outer wall of the spraying chamber 2 corresponding to the opening of the spraying chamber 2, one side of the adsorption support 31 facing the opening of the spraying chamber 2 is provided with an arc-shaped clamping groove 311 and a containing groove, the permanent magnet 32 and the ultrasonic vibration component 33 are embedded in the containing groove, the ultrasonic vibration component 33 is positioned between the permanent magnet 32 and the adsorption support 31, and the magnetic adsorption force of the permanent magnet 32 is 1.2 times of the gravity borne by a single anti-counterfeiting particle;

the rotary spraying device 4 is used for sequentially spraying the anti-counterfeiting particles in the anti-counterfeiting particle bin 12 and the impact particles in the impact particle bin 11 to the pressure-sensitive label paper 100.

The working mode of the embodiment is as follows: the anti-counterfeiting particles are made of ferromagnetic materials and are in a cuboid shape, and are stored in an anti-counterfeiting particle bin 12, the impact particles with certain weight are contained in an impact particle bin 11, the pressure-sensitive label paper 100 to be printed is uniformly attached to the base band to form a label material roll, the surface of the pressure-sensitive label paper 100 is coated with pressure-sensitive adhesive, when an object is in contact with the pressure-sensitive label paper 100, the pressure-sensitive label paper 100 does not show viscosity, when the surface of the pressure-sensitive label paper 100 is subjected to pressure, the surface of the pressure-sensitive label paper 100 generates viscosity to adhere to surface attachments thereof, then the label material roll is placed on the unwinding material shaft 6, then the front end of the base band passes through the clamping groove 311 of the adsorption bracket 31 and then is wound on the winding material shaft 7, so that the label side of the pressure-sensitive label paper 100 faces to the opening of the injection chamber 2 and seals the opening of the injection chamber 2, the thickness of the clamping groove 311 is equal to that of the base band, the clamping groove 311 realizes the positioning of the pressure-sensitive label paper 100 by clamping the base band, the pressure-sensitive label paper 100 is prevented from being extruded to generate viscosity, after the positioning is finished, the rotary injection device 4 arranged in the injection chamber 2 firstly injects the anti-counterfeiting particles in the anti-counterfeiting particle bin 12 to the surface of the pressure-sensitive label paper 100, when the anti-counterfeiting particles are contacted with the pressure-sensitive label paper 100, the permanent magnets 32 of the adsorption and dispersion device 3 pre-adsorb the anti-counterfeiting particles, and the magnetic adsorption force of the permanent magnets 32 is 1.2 times of the gravity borne by a single anti-counterfeiting particle, so that the anti-counterfeiting particles are arranged on the surface of the pressure-sensitive label paper 100 in a single layer under; then the ultrasonic vibration component 33 drives the pressure-sensitive label paper 100 to directionally vibrate, the anti-counterfeiting particles adsorbed on the surface of the pressure-sensitive label paper 100 are dispersed, the overlapped anti-counterfeiting particles are eliminated, the gravity borne by the anti-counterfeiting particles in the vertical direction in the dispersion process is counteracted by controlling the directional vibration direction of the ultrasonic vibration component 33, the tendency of downward aggregation of the particles is reduced, then the rotary spraying device 4 sprays the impact particles in the impact particle bin 11 to the pressure-sensitive label paper 100, the impact particles strike the anti-counterfeiting particles adsorbed on the surface of the pressure-sensitive label paper 100 to generate a very large local pressure on the pressure-sensitive label paper 100, so that the viscosity of the pressure-sensitive label paper 100 is activated, the anti-counterfeiting particles on the surface of the pressure-sensitive label paper are adhered and fixed, after the adhesion and fixation is completed, the pressure-sensitive label paper 100 adhered with the anti-counterfeiting particles is driven by the base band to be, meanwhile, another piece of pressure-sensitive label paper 100 to be printed is moved to close the opening of the spraying chamber 2, and then the printing of another piece of pressure-sensitive label paper 100 can be carried out by repeating the above process, so that the production and manufacturing of the anti-counterfeiting label can be continuously carried out.

This embodiment utilizes permanent magnet 32's magnetic adsorption power to adsorb for single anti-fake granule receives 1.2 times of gravity and live in advance the anti-fake granule that sprays on pressure sensitive label paper 100 surface, and make anti-fake granule be the individual layer and arrange on pressure sensitive label paper 100 surface, anti-fake granule stacking has been avoided, do benefit to the discernment of characteristic region, and utilize ultrasonic vibration part 33 to make the anti-fake granule homodisperse of adsorbing in advance on pressure sensitive label paper 100 surface, eliminate lapped phenomenon, impact anti-fake granule through spraying simultaneously and make pressure sensitive label paper 100 carry out the fixed anti-fake granule of adhesion, adopt the injection mode can guarantee anti-fake granule's randomness, anti-fake effect is better, and can carry out the printing operation in succession, high printing efficiency.

The present embodiment uses the pressure-sensitive label paper 100 coated with the pressure-sensitive adhesive on the surface, and the label paper is not sticky when not subjected to pressure, so that the dispersion between particles is facilitated.

Based on the above embodiments, as shown in fig. 2 and fig. 4, the rotary spraying device 4 includes a driving motor 41, a spraying mounting plate 42, a spraying seat 43 and a rotary spraying head 44, one end of the spraying mounting plate 42 is fixed on the sidewall of the spraying chamber 2, the spraying seat 43 is fixed at the other end of the spraying mounting plate 42, the rotary spraying head 44 is movably embedded in the spraying seat 43, the driving motor 41 is fixed at the top end of the spraying seat 43, and the output end of the driving motor is in transmission connection with the rotary spraying head 44, the spraying seat 43 is provided with a spraying opening 431 corresponding to the opening of the spraying chamber 2, the rotary spraying head 44 is provided with an impact particle spraying opening 441 and a counterfeit prevention particle spraying opening 442 which are oppositely arranged, the bottom of the rotary spraying head 44 is correspondingly provided with an impact particle feeding opening 443 communicated with the impact particle spraying opening 441 and a counterfeit prevention particle feeding opening 444 communicated with, the distance from the impact particle feeding port 443 to the bottom center of the rotary spray head 44 is smaller than the distance from the anti-counterfeiting particle feeding port 444 to the bottom center of the rotary spray head 44, the spray mounting plate 42 and the spray base 43 are both provided with an impact particle feeding channel 45 and an anti-counterfeiting particle feeding channel 46, one end of the impact particle feeding channel 45 is connected with the impact particle bin 11 through an impact particle suction pipe 47 connected with a first powder suction part 471, one end of the anti-counterfeiting particle feeding channel 46 is connected with the anti-counterfeiting particle bin 12 through an anti-counterfeiting particle suction pipe 48 connected with a second powder suction part 481, when the impact particle nozzle 441 corresponds to the spray opening 431, the impact particle feeding port 443 is communicated with the other end of the impact particle feeding channel 45, the anti-counterfeiting particle feeding port 444 is not communicated with the other end of the anti-counterfeiting particle feeding channel 46, when the anti-counterfeiting particle nozzle 442, the forgery-preventing particle feed opening 444 is communicated with the other end of the forgery-preventing particle feed passage 46, and the impact particle feed opening 443 is not communicated with the other end of the impact particle feed passage 45.

In practical use, the driving motor 41 drives the rotary spray head 44 to rotate, so that the anti-counterfeiting particle nozzles 442 of the rotary spray head 44 correspond to the spray ports 431 of the spray seat 43, at this time, the anti-counterfeiting particle feed port 444 is communicated with the anti-counterfeiting particle feed channel 46, the second powder suction component 481 enables anti-counterfeiting particles to sequentially pass through the anti-counterfeiting particle suction pipe 48, the anti-counterfeiting particle feed channel 46 and the anti-counterfeiting particle feed port 444 and then be sprayed to the pressure-sensitive label paper 100 from the anti-counterfeiting particle nozzles 442, after the anti-counterfeiting particles are sprayed, the driving motor 41 drives the rotary spray head 44 to rotate again, so that the impact particle nozzles 441 of the rotary spray head 44 correspond to the spray ports 431 of the spray seat 43, at this time, the impact particle feed port 443 is communicated with the impact particle feed channel 45, and the impact particles are sequentially passed through the impact particle suction pipe 47, the impact particle feed channel 45 and the impact particle feed, and hit the anti-counterfeiting particles on the surface of the pressure-sensitive label paper 100, and the viscosity of the pressure-sensitive adhesive of the pressure-sensitive label paper 100 is activated, so that the pressure-sensitive label paper 100 adheres and fixes the anti-counterfeiting particles; because the spraying process has very strong randomness, the position that makes anti-fake granule spout on pressure sensitive label paper 100 surface has very strong randomness, and anti-fake effect is better, drives rotatory injector head 44 through driving motor 41 simultaneously and rotates, reaches the purpose that alternately sprays anti-fake granule in proper order and assault the granule, does benefit to anti-fake label's continuous printing production, and overall structure is ingenious, efficient.

Based on the above embodiment, further, the length of the impact particle nozzle 441 in the rotation direction of the rotary spray head 44 is greater than the length of the anti-counterfeit particle feed inlet 444 in the rotation direction of the rotary spray head 44. So set up for it is long longer than anti-fake granule's injection time to strike long being greater than of granule injection time, and then guarantees that pressure sensitive label paper 100's viscidity can fully activate, and it is fixed to adsorb the anti-fake granule complete adhesion on pressure sensitive label paper 100 surface in advance.

Based on the above embodiment, further, the lower end of the spraying chamber 2 is connected with the upper end of the combined material tank 1, a separation plate 8 is arranged between the spraying chamber 2 and the combined material tank 1, the impact particle suction pipe 47 and the anti-counterfeiting particle suction pipe 48 respectively penetrate through the separation plate 8 and then correspondingly extend into the impact particle bin 11 and the anti-counterfeiting particle bin 12, an impact particle mesh screen 9 which is obliquely arranged and located below the rotary spraying device 4 is arranged in the spraying chamber 2, one end of the impact particle mesh screen 9 is fixed on the side wall of the spraying chamber 2, the other end of the impact particle mesh screen 9 is fixed on a recovery partition plate 10, and the lower end of the recovery partition plate 10 is fixed in the middle of the separation plate 8; due to the impact particle mesh screen 9, the recovery partition plate 10 and the partition plate 8, when the anti-counterfeiting particles are sprayed, redundant falling anti-counterfeiting particles fall downwards through the impact particle mesh screen 9 and then fall into the anti-counterfeiting particle bin 12 after penetrating through the partition plate 8, and when the impact particles are sprayed, the falling impact particles cannot pass through the impact particle screen due to screening of the impact particle screen, and then fall along the impact particle screen and correspondingly fall into the impact particle bin 11; thus, the separation and recovery of the anti-counterfeiting particles and the impact particles can be completed, and 100% utilization of raw materials is realized.

The above description is only a preferred embodiment of the present invention, and all equivalent changes or modifications of the structure, characteristics and principles described in the present patent application are included in the protection scope of the present patent application.

Claims (4)

1. A rotary spraying pressure fixed type anti-counterfeit label production robot is characterized by comprising pressure-sensitive label paper (100) to be printed and coated with pressure-sensitive adhesive, a combined material tank (1), a spraying chamber (2), an adsorption and dispersion device (3) arranged on the outer wall of the spraying chamber (2) and a rotary spraying device (4) arranged in the spraying chamber (2); the inside of the combined trough (1) is divided into an impact particle bin (11) and an anti-counterfeiting particle bin (12); the side wall of the spraying chamber (2) is provided with an arc-shaped opening, the upper end of the spraying chamber (2) is covered by a top cover, a connecting plate (5) is fixed on the top cover, and an unwinding shaft (6) and a winding shaft (7) are fixed on the connecting plate (5);

the adsorption and dispersion device (3) comprises an arc-shaped adsorption support (31), an arc-shaped permanent magnet (32) and an arc-shaped ultrasonic vibration component (33) with directional vibration, the adsorption support (31) is fixed on the outer wall of the spraying chamber (2) corresponding to the opening of the spraying chamber (2), one side of the adsorption support (31) facing the opening of the spraying chamber (2) is provided with an arc-shaped clamping groove (311) and a containing groove, the permanent magnet (32) and the ultrasonic vibration component (33) are embedded in the containing groove, the ultrasonic vibration component (33) is positioned between the permanent magnet (32) and the adsorption support (31), and the magnetic adsorption force of the permanent magnet (32) is 1.2 times of the gravity borne by a single anti-counterfeiting particle;

the rotary spraying device (4) is used for sequentially spraying the anti-counterfeiting particles in the anti-counterfeiting particle bin (12) and the impact particles in the impact particle bin (11) to the pressure-sensitive label paper (100).

2. The rotary spraying pressure fixed type anti-counterfeit label production robot according to claim 1, wherein the rotary spraying device (4) comprises a driving motor (41), a spraying mounting plate (42), a spraying seat (43) and a rotary spraying head (44), one end of the spraying mounting plate (42) is fixed on the side wall of the spraying chamber (2), the spraying seat (43) is fixed at the other end of the spraying mounting plate (42), the rotary spraying head (44) is movably embedded in the spraying seat (43), the driving motor (41) is fixed at the top end of the spraying seat (43), the output end of the driving motor is in transmission connection with the rotary spraying head (44), the spraying seat (43) is provided with a spraying port (431) corresponding to the opening of the spraying chamber (2), the rotary spraying head (44) is provided with an impact particle spraying port (441) and an anti-counterfeit particle spraying port (442) which are oppositely arranged, the bottom of the rotary spray head (44) is correspondingly provided with an impact particle feed port (443) communicated with the impact particle nozzle (441) and an anti-counterfeiting particle feed port (444) communicated with the anti-counterfeiting particle nozzle (442), the distance from the impact particle feed port (443) to the bottom center of the rotary spray head (44) is smaller than the distance from the anti-counterfeiting particle feed port (444) to the bottom center of the rotary spray head (44), an impact particle feed channel (45) and an anti-counterfeiting particle feed channel (46) are respectively arranged in the spray mounting plate (42) and the spray seat (43), one end of the impact particle feed channel (45) is connected with the impact particle bin (11) through an impact particle suction pipe (47) connected with a first powder suction component (471), one end of the anti-counterfeiting particle feed channel (46) is connected with the anti-counterfeiting particle bin (12) through an anti-counterfeiting particle suction pipe (48) connected with a second powder suction component (481), when the impact particle nozzle (441) corresponds to the jet orifice (431), the impact particle feed port (443) is communicated with the other end of the impact particle feed channel (45), the anti-counterfeiting particle feed port (444) is not communicated with the other end of the anti-counterfeiting particle feed channel (46), when the anti-counterfeiting particle nozzle (442) corresponds to the jet orifice (431), the anti-counterfeiting particle feed port (444) is communicated with the other end of the anti-counterfeiting particle feed channel (46), and the impact particle feed port (443) is not communicated with the other end of the impact particle feed channel (45).

3. The rotary jetting pressure-fixed type robot for producing counterfeit-proof labels as claimed in claim 2, wherein the length of the impact particle nozzle (441) in the rotation direction of the rotary jetting head (44) is greater than the length of the counterfeit-proof particle feed port (444) in the rotation direction of the rotary jetting head (44).

4. A rotary jet pressure stationary type antifalsification label producing robot as claimed in claim 2, it is characterized in that the lower end of the jet chamber (2) is connected with the upper end of the combined material groove (1), a partition plate (8) is arranged between the injection chamber (2) and the combined material groove (1), the impact particle absorbing pipe (47) and the anti-counterfeiting particle absorbing pipe (48) respectively penetrate through the partition plate (8) and correspondingly extend into the impact particle bin (11) and the anti-counterfeiting particle bin (12), an impact particle mesh screen (9) which is obliquely arranged and is positioned below the rotary spraying device (4) is arranged in the spraying chamber (2), one end of the impact particle screen (9) is fixed on the side wall of the spraying chamber (2), the other end of the impact particle screen (9) is fixed on a recovery clapboard (10), the lower end of the recovery clapboard (10) is fixed in the middle of the partition board (8).

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