CN110283552B - High-covering vehicle sticker - Google Patents

Abstract

The invention discloses a high-covering vehicle sticker, which comprises a raw material preparation stage; coating; drying; cooling; printing: printing the cooled product by using printing equipment; and (3) drying: drying the printed base paper by using an oven; softening: heating the soft and hard fabric by using an electric heating cover; embossing, namely pressing the fabric by using an embossing wheel to generate corresponding embossing.

Description

High-covering vehicle sticker

Technical Field

The invention belongs to the field of vehicle stickers, and particularly relates to a high-coverage vehicle sticker.

Background

The PVC adopted by the existing covering car sticker belongs to a semitransparent noncrystalline material, has no covering degree, and can be used for adjusting the color, the covering rate and the related performance by adding a certain proportion of titanium dioxide, calcium powder, oil, a stabilizer, a pigment and the like.

Disclosure of Invention

The invention provides a processing method of a high-coverage vehicle sticker, aiming at overcoming the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: the manufacturing method of the high-covering vehicle sticker comprises the following steps of:

a. a raw material preparation stage: selecting base paper as a manufacturing raw material and conveying the base paper to a coating machine;

b. coating: uniformly coating the paste on the surface of the base paper by using a coating machine;

c. and (3) drying: drying the coated base paper by using an oven;

d. and (3) cooling: utilizing two cooling wheels to circulate chilled water to cool and harden the hotter fabric;

e. printing: printing the cooled product by using printing equipment;

f. and (3) drying: drying the printed base paper by using an oven;

g. softening: heating the soft and hard fabric by using an electric heating cover;

h. embossing, namely pressing the fabric by using an embossing wheel to generate corresponding embossing;

i. cooling, namely cooling and hardening the fabric by circulating chilled water through an air cooling system and two cooling wheels;

k. film covering: sequentially coating a polyester cloth bottom, a high-molecular weather-resistant adhesive layer and a double-plastic G paper release material on the embossed composite wall surface decoration paste;

the printing equipment comprises a first machine base, a second machine base fixedly arranged on the right end face of the first machine base, a first machine base space arranged in the first machine base, a second machine base space arranged in the second machine base, a printing device fixedly arranged on the rear end wall of the second machine base space, a first transmission shaft rotatably arranged between the front end wall and the rear end wall of the first machine base space, a first rotary cylinder fixedly arranged on the outer surface of the first transmission shaft, a second transmission shaft rotatably arranged on the lower side of the first transmission shaft, a second rotary cylinder fixedly arranged on the outer surface of the second transmission shaft, a third transmission shaft rotatably arranged on the right side of the second transmission shaft, a third rotary cylinder fixedly arranged on the outer surface of the third transmission shaft, a printing device fixedly arranged on the upper end wall of the second machine base space, a drying device fixedly arranged on the upper end wall of the second machine base space, a dust suction device arranged in the first machine base space, a dust collector arranged on the upper end wall of the second machine base space, a dust collector arranged on the front end wall of the second machine base, a dust collector arranged on the front end of the second machine base space, a dust collector arranged on the front side of the second machine base, a dust collector arranged on the second machine base, a dust collector arranged on the front side of the second dust collector, a dust collector arranged on the front collector, a dust collector arranged on the second dust collector, a dust collector arranged on the second dust collector, a second dust collector arranged on the second dust collector, a, The switching device is arranged in the first machine seat space; the dust suction device comprises an inlet groove arranged on the right end wall of the first machine seat space and a first fan fixedly arranged on the right end wall of the first machine seat space;

and d, printing the product obtained after the step d by using printing equipment, wherein the printing equipment comprises the following steps: d, moving the product after the step d around the upper side of the first rotary cylinder, the left side of the second rotary cylinder and the lower side of the third rotary cylinder, starting the dust suction device, starting the printing device, starting the drying device, blowing off dust on the upper surface of the product leftwards, then printing and drying, and starting the switching device after running for a preset time.

The heating cover is heated in a way of matching ceramic and a quartz tube.

The surface temperature at the time of the embossing was controlled at 189 ℃.

The components of the ink include a colorant, a binder, and a diluent.

The dust collection device comprises a first air outlet shell fixedly communicated with the left end face of a first fan, two baffles arranged on the front side and the rear side of the right end wall of the first machine seat space, a second fan fixedly arranged on the lower end wall of the first machine seat space, a top plate fixedly arranged between the two baffles, a second air outlet shell communicated with the left end wall of the second fan, a second air outlet space arranged in the second air outlet shell, and a second air outlet arranged on the upper end wall of the second air outlet space;

and d, removing the dust by using a blowing device, wherein a first fan is started to blow the dust on the upper surface of the product after the step d to the left, and a second fan is started to blow the dust scattered below the product back to the upper side.

The switching device comprises a top plate of front and rear end walls of a first machine seat space, a fixed plate fixedly arranged on the right side of the upper surface of the top plate, a rotating plate hinged at the upper end of the fixed plate, two limiting plates fixedly arranged between the front and rear end walls of the first machine seat space, two lifting plates arranged between the two limiting plates in a vertically movable manner, lifting plates fixedly arranged on the lower surfaces of the two lifting plates, a fourth transmission shaft rotatably arranged between the front and rear end walls of the first machine seat space, a first gear shaft fixedly arranged on the outer surface of the fourth transmission shaft, racks respectively fixedly arranged at the upper ends of the two lifting plates and meshed with the first gear shaft, a material placing shell fixedly arranged at the front and rear end walls of the first machine seat space, a material placing space arranged in the material placing shell, two moving grooves respectively arranged at the front and rear end walls of the material placing space, a moving-out groove arranged at the left end wall of the material placing space, and a moving oblique block arranged in the material placing space in a horizontally movable manner, A movable rack fixedly arranged at the left end of the movable inclined block and meshed with the first gear shaft, a material receiving shell fixedly arranged on the upper end surface of the first machine seat, a material receiving space arranged in the material receiving shell, an electric control door hinged on the lower end wall of the material receiving space, a support plate fixedly arranged between the front end wall and the rear end wall of the first machine seat space, a fixed shell fixedly arranged on the upper surface of the first machine seat, a semicircular groove arranged on the upper surface of the fixed shell, a movable block fixedly arranged on the front end surface and the rear end surface of the movable inclined block and matched with the two movable grooves, a threaded pipe fixedly arranged on the front end wall of the first machine seat space, a double-head motor fixedly arranged on the front end surface of the first machine seat and fixedly connected with the first transmission shaft, a first gear rotatably arranged at the front end output end of the double-head motor, a threaded shaft rotatably arranged in the threaded pipe, a second gear shaft fixedly arranged on the front end surface of the threaded shaft and meshed with the first gear shaft, The track mechanism comprises a track shell fixedly arranged on the front end face of a first machine base, a track space arranged on the front end face of the track shell and provided with an upward opening, a sliding block arranged in the track space in a back-and-forth moving mode, a fixed block fixedly arranged on the left end face of the sliding block, a rotating shaft rotatably arranged on the rear end face of the fixed block, a rotating gear fixedly arranged on the rear end face of the rotating shaft, a connecting hole arranged on the rear end wall of the first machine base space, a roller rotatably arranged in the connecting hole, a third gear shaft fixedly arranged on the rear end face of the first machine base and connected with the roller, a telescopic space arranged on the front end face of the roller, a telescopic block arranged in the telescopic space in a back-and-forth moving mode, a tension spring fixedly arranged between the bottom of the telescopic space and the telescopic block, a semicircular plate fixedly arranged on the front end face of the roller, and a plurality of rectangular grooves arranged on the semicircular plate;

the switching method comprises the following steps of starting a double-headed motor to drive a first gear to rotate, driving a second gear shaft to rotate by the first gear, driving a threaded shaft to rotate by the second gear shaft, driving the threaded shaft to move backwards by the matching of the threaded shaft and a threaded pipe, driving cylindrical activated carbon on a semicircular plate to rotate by the matching of a spline groove and a spline, so that dust on raw paper can be adsorbed on the cylindrical activated carbon as far as possible, reversing the double-headed motor to drive the threaded shaft to rotate backwards and move under the matching of the threaded pipe when the cylindrical activated carbon is adsorbed more and cannot be adsorbed continuously, rotating the semicircular plate to rotate one hundred eighty degrees when a third gear shaft is driven by a rotating gear to rotate in a meshed manner, so that the cylindrical activated carbon on the semicircular plate falls to the lower side, driving the right side of a rotating plate to rotate downwards by the fallen cylindrical activated carbon, and driving the left side of the rotating plate to rotate upwards, thereby pushing the rack to move upwards, the rack drives the first gear shaft to rotate, the first gear shaft drives the movable rack to move leftwards, and the cylindrical activated carbon on the movable inclined plate falls downwards onto the semicircular plate

In summary, the following steps: the high-covering vehicle veneer material has high covering performance, does not penetrate the ground color, does not influence the image quality, and does not change the original PVC color.

Drawings

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

FIG. 2 is a top view of the present invention;

FIG. 3 is a cross-sectional perspective view taken at A-A of FIG. 2;

FIG. 4 is a cross-sectional view taken at A-A of FIG. 2;

FIG. 5 is a cross-sectional perspective view at B-B of FIG. 2;

fig. 6 is a schematic structural diagram of a vehicle sticker product.

Detailed Description

In order to achieve the purpose, the invention adopts the following technical scheme: the manufacturing method of the high-covering vehicle sticker comprises the following steps of:

a. a raw material preparation stage: selecting base paper as a manufacturing raw material and conveying the base paper to a coating machine;

b. coating: uniformly coating the paste on the surface of the base paper by using a coating machine;

c. and (3) drying: drying the coated base paper by using an oven;

d. and (3) cooling: utilizing two cooling wheels to circulate chilled water to cool and harden the hotter fabric;

e. printing: printing the cooled product by using printing equipment;

f. and (3) drying: drying the printed base paper by using an oven;

g. softening: heating the soft and hard fabric by using an electric heating cover;

h. embossing, namely pressing the fabric by using an embossing wheel to generate corresponding embossing;

i. cooling, namely cooling and hardening the fabric by circulating chilled water through an air cooling system and two cooling wheels;

k. film covering: sequentially coating a polyester cloth bottom, a high-molecular weather-resistant adhesive layer and a double-plastic G paper release material on the embossed composite wall surface decoration paste;

the heating cover is heated in a way of matching ceramic and a quartz tube.

The surface temperature at the time of the embossing was controlled at 189 ℃.

The components of the ink include a colorant, a binder, and a diluent.

As shown in FIGS. 1 to 5, the printing apparatus includes a first housing 1, a second housing 2 fixedly disposed on a right end surface of the first housing 1, a first housing space disposed in the first housing 1, a second housing space disposed in the second housing 2, a printing device fixedly disposed on a rear end wall of the second housing space, a first transmission shaft rotatably disposed between front and rear end walls of the first housing space, a first rotary cylinder 4 fixedly disposed on an outer surface of the first transmission shaft, a second transmission shaft rotatably disposed on a lower side of the first transmission shaft, a second rotary cylinder 6 fixedly disposed on an outer surface of the second transmission shaft, a third transmission shaft rotatably disposed on a right side of the second transmission shaft 5, a third rotary cylinder 8 fixedly disposed on an outer surface of the third transmission shaft, a printing device fixedly disposed on an upper end wall of the second housing space, a drying device disposed on a rear end wall of the drying device, a drying device disposed on a drying device, a drying device disposed on a drying device, a drying device, The dust collecting device is arranged in the first machine seat space, and the switching device is arranged in the first machine seat space; the dust collector comprises an inlet groove arranged on the right end wall of the first machine seat space, a first fan 9 fixedly arranged on the right end wall of the first machine seat space, a first air outlet casing 10 communicated with the left end surface of the first fan 9, a first air outlet space arranged in the first air outlet casing 10, a first air outlet arranged on the left end wall of the first air outlet space, two baffles 11 fixedly arranged on the front side and the rear side of the right end wall of the first machine seat space, a second fan 12 fixedly arranged on the lower end wall of the first machine seat space and a top plate 14 fixedly arranged between the two baffles 11, a second air outlet casing 13 communicated with the left end wall of the second fan 12, a second air outlet space arranged in the second air outlet casing 13 and a second air outlet arranged on the upper end wall of the second air outlet space.

The switching device comprises a top plate 14, a fixed plate 15, a rotating plate 16, two limiting plates 17, two lifting plates 18, a lifting plate 19, a fourth transmission shaft 20, a first gear shaft 21, a rack 22, a discharging shell 27, a discharging space, two moving grooves, a moving groove, a moving inclined block 28, a moving rack 29, a receiving shell 23, a receiving space, an electric control door, a supporting plate 25, a fixed shell 26, a semicircular groove, a moving block, a threaded pipe 30, a double-head motor 31, a first gear 32, a threaded shaft, a second gear shaft 34, a track shell 35, a track space, a sliding block 36, a fixed block 37, a rotating shaft 38, a rotating gear 39, a connecting hole, a rolling shaft 40, a third gear shaft 41, a telescopic space, a telescopic block, a stretching spring, a semicircular plate 241 and a plurality of rectangular grooves, wherein the fixed plate 15 is fixedly arranged on the right side of the upper surface of the top plate 14, the rotating plate 16 is hinged to the upper end of the fixed plate 15, the two limit plates 17 are fixedly arranged between the front end wall and the rear end wall of the first machine seat space, the two lifting plates 18 are arranged between the two limit plates 17 in a vertically movable manner, the lifting plates 19 are fixedly arranged on the lower surfaces of the two lifting plates 18, the fourth transmission shaft 20 is rotatably arranged between the front end wall and the rear end wall of the first machine seat space, the first gear shaft 21 is fixedly arranged on the outer surface of the fourth transmission shaft 20, the racks 22 are respectively and fixedly arranged at the upper ends of the two lifting plates 18 and meshed with the first gear shaft 21, the material placing shell 27 is fixedly arranged on the front end wall and the rear end wall of the first machine seat space, the material placing space is arranged in the material placing shell 27, the two moving grooves are respectively arranged on the front end wall and the rear end wall of the material placing space, the moving groove is arranged on the left end wall of the material placing space, the moving inclined block 28 is arranged in the material placing space in a horizontally movable manner, the moving rack 29 is fixedly arranged at the left end of the moving inclined block 28 and meshed with the first gear shaft 21, the receiving shell 23 is fixedly arranged on the upper end surface of the first machine seat 1, the receiving space is arranged in the receiving shell 23, the electric control door is hinged on the lower end wall of the receiving space, the support plate 25 is fixedly arranged between the front end wall and the rear end wall of the first machine seat space, the fixed shell 26 is fixedly arranged on the upper surface of the first machine seat 1, the semicircular groove is arranged on the upper surface of the fixed shell 26, the moving block is fixedly arranged on the front end surface and the rear end surface of the moving inclined block 28 and matched with the two moving grooves, the threaded pipe 30 is fixedly arranged on the front end wall of the first machine seat space, the double-headed motor 31 is fixedly arranged on the front end surface of the first machine seat 1 and fixedly connected with the first transmission shaft 3, the first gear 32 is rotatably arranged on the front end output end of the double-headed motor 31, the threaded shaft is rotatably arranged in the threaded pipe 30, the second gear shaft 34 is fixedly arranged on the front end surface of the threaded shaft 33 and meshed with the first gear 32, the track shell 35 is fixedly arranged on the front end face of the first base 1, the track space is arranged on the front end face of the track shell 35 and is opened upwards, the slide block 36 is arranged in the track space in a back-and-forth movement mode, the fixed block 37 is fixedly arranged on the left end face of the slide block 36, the rotating shaft 38 is rotatably arranged on the rear end face of the fixed block 37, the rotating gear 39 is fixedly arranged on the rear end face of the rotating shaft 38, the connecting hole is arranged on the rear end wall of the first base space, the roller 40 is rotatably arranged in the connecting hole, the third gear shaft 41 is fixedly arranged on the rear end face of the first base 1 and is connected with the roller 40, the telescopic space is arranged on the front end face of the roller 40, the telescopic block is arranged in the telescopic space in a back-and-forth movement mode, the extension spring is fixedly arranged between the bottom of the telescopic space and the telescopic block, and the semicircular plate 241 is fixedly arranged on the front end face of the roller 40, the plurality of rectangular grooves are provided on the semicircular plate 241.

A torsion spring is fixedly arranged between the semicircular plate 241 and the rear end wall of the machine base space.

A cylindrical activated carbon 270 is arranged on the upper side of the semicircular plate 241, a ventilation space which is through from front to back is arranged on the cylindrical activated carbon 270, spline grooves are formed in the left end wall and the right end wall of the ventilation space, and a spline which is matched with the spline grooves is fixedly arranged at the rear end of the outer surface of the threaded shaft 33; the dust on the base paper is removed through the dust collection device, the first fan is started to blow the dust on the base paper to the left, so that the dust can be in contact with the left activated carbon, meanwhile, the double-end motor is started to drive the first gear to rotate, the first gear drives the second gear shaft to rotate, the second gear shaft drives the threaded shaft to rotate, the threaded shaft moves backwards through matching with the threaded pipe, the cylindrical activated carbon 270 on the semi-circular plate 241 rotates through matching of the spline groove and the spline, so that the dust on the base paper can be adsorbed onto the cylindrical activated carbon 270 as far as possible, when the dust on the cylindrical activated carbon 270 is adsorbed more and cannot be adsorbed continuously, the double-end motor rotates reversely to drive the threaded shaft to rotate backwards through matching with the threaded pipe, when the rotating gear drives the third gear shaft to rotate in a meshing manner, the semi-circular plate rotates by one hundred eighty degrees, the cylindrical activated carbon on the semicircular plate falls to the lower part, the falling cylindrical activated carbon drives the right side of the rotating plate to rotate downwards, the left side of the rotating plate rotates upwards, so that the rack is pushed to move upwards, the rack drives the first gear shaft to rotate, the first gear shaft drives the moving rack to move leftwards, and the cylindrical activated carbon on the moving inclined plate falls downwards onto the semicircular plate; the first air outlet and the second air outlet are both arranged on the inclined planes, so that wind energy of the fan can blow dust on the base paper, the second fan can blow back the dust blown to the lower part of the cylindrical active carbon upwards again, the dust is prevented from being continuously adhered to the base paper downwards, the dust which is not blown away by the first fan on the base paper can be blown away again, the effect of removing the dust for the second time is achieved, and the dust is removed more thoroughly; the rotary plate is driven to ascend through the descending gravity of the cylindrical activated carbon to enable the movable inclined block to move leftwards to enable new cylindrical activated carbon to fall onto the semicircular plate, so that other driving pieces do not need to be arranged, energy is saved, the cylindrical activated carbon to be replaced falls off, the new cylindrical activated carbon is prevented from falling off when a roller to be replaced does not fall off from the semicircular plate, the situation that the new cylindrical activated carbon cannot reach the semicircular plate when falling is avoided, equipment operation is more stable, and the upper surface of the movable inclined plate is set to be an inclined surface, so that the new cylindrical activated carbon can fall off when the movable inclined plate moves leftwards; when the cylindrical activated carbon on the upper surface of the movable inclined plate falls onto the semicircular plate, the electric control door is opened, and the cylindrical activated carbon in the material receiving space falls onto the semicircular plate.

The distance between the lower surface of the material receiving shell and the upper surface of the movable inclined plate is the diameter of the cylindrical activated carbon.

Claims (3)

1. The manufacturing method of the high-covering car sticker is characterized in that the high-covering car sticker comprises a high-covering PVC (polyvinyl chloride) high-molecular adhesive layer and release materials, the materials are sequentially arranged, and the manufacturing method of the high-covering car sticker comprises the following steps:

a. a raw material preparation stage: selecting base paper as a manufacturing raw material and conveying the base paper to a coating machine;

b. coating: uniformly coating the paste on the surface of the base paper by using a coating machine;

c. and (3) drying: drying the coated base paper by using an oven;

d. and (3) cooling: utilizing two cooling wheels to circulate chilled water to cool and harden the hotter fabric;

e. printing: printing the cooled product by using printing equipment;

f. and (3) drying: drying the printed base paper by using an oven;

g. softening: heating the soft and hard fabric by using an electric heating cover;

h. embossing, namely pressing the fabric by using an embossing wheel to generate corresponding embossing;

i. cooling, namely cooling and hardening the fabric by circulating chilled water through an air cooling system and two cooling wheels;

k. film covering: sequentially coating a polyester cloth bottom, a high-molecular weather-resistant adhesive layer and a double-plastic G paper release material on the embossed composite wall surface decoration paste;

the printing equipment comprises a first machine base (1), a second machine base (2) fixedly arranged on the right end face of the first machine base (1), a first machine base space arranged in the first machine base (1), a second machine base space arranged in the second machine base (2), a printing device fixedly arranged on the rear end wall of the second machine base space, a first transmission shaft rotatably arranged between the front end wall and the rear end wall of the first machine base space, a first rotary drum (4) fixedly arranged on the outer surface of the first transmission shaft, a second transmission shaft rotatably arranged on the lower side of the first transmission shaft, a second rotary drum (6) fixedly arranged on the outer surface of the second transmission shaft, a third transmission shaft rotatably arranged on the right side of the second transmission shaft (5), a third rotary drum (8) fixedly arranged on the outer surface of the third transmission shaft, a printing device fixedly arranged on the upper end wall of the second machine base space, and a drying device fixedly arranged on the upper end wall of the second machine base space, The dust collecting device is arranged in the first machine seat space, and the switching device is arranged in the first machine seat space; the dust suction device comprises an inlet groove arranged on the right end wall of the first machine seat space and a first fan (9) fixedly arranged on the right end wall of the first machine seat space;

and d, printing the product obtained after the step d by using printing equipment, wherein the printing equipment comprises the following steps: and d, moving the product after the step d around the upper side of the first rotary cylinder (4), the left side of the second rotary cylinder (6) and the lower side of the third rotary cylinder (8), starting a dust suction device, starting a printing device, starting a drying device, blowing off dust on the upper surface of the product leftwards, then printing and drying, and starting a switching device after running for a preset time.

The dust collection device comprises a first air outlet shell (10) fixedly communicated with the left end face of a first fan (9), two baffles (11) arranged on the front side and the rear side of the right end wall of the first machine seat space, a top plate (14) fixedly arranged between the two baffles (11), a second fan (12) fixedly arranged on the lower end wall of the first machine seat space, a second air outlet shell (13) communicated with the left end wall of the second fan (12), a second air outlet space arranged in the second air outlet shell (13), and a second air outlet arranged on the upper end wall of the second air outlet space;

the dust is removed by using a blowing device, wherein a first fan is started to blow the dust on the upper surface of the product after the step d to the left, and a second fan is started to blow the dust scattered below the product back to the upper side;

the switching device comprises a top plate (14) of front and rear end walls of a first machine seat space, a fixed plate (15) fixedly arranged on the right side of the upper surface of the top plate (14), a rotating plate (16) hinged at the upper end of the fixed plate (15), two limiting plates (17) fixedly arranged between the front and rear end walls of the first machine seat space, two lifting plates (18) arranged between the two limiting plates (17) in a vertically movable manner, lifting plates (19) fixedly arranged on the lower surfaces of the two lifting plates (18), a fourth transmission shaft (20) rotatably arranged between the front and rear end walls of the first machine seat space, a first gear shaft (21) fixedly arranged on the outer surface of the fourth transmission shaft (20), racks (22) respectively fixedly arranged at the upper ends of the two lifting plates (18) and meshed with the first gear shaft (21), a material placing shell (27) fixedly arranged at the front and rear end walls of the first machine seat space, and material placing space arranged in the material placing shell (27), Two moving grooves respectively arranged on the front end wall and the rear end wall of the feeding space, a moving groove arranged on the left end wall of the feeding space, a moving inclined block (28) arranged in the feeding space in a left-right moving mode, a moving rack (29) fixedly arranged at the left end of the moving inclined block (28) and meshed with a first gear shaft (21), a material receiving shell (23) fixedly arranged on the upper end surface of the first base (1), a material receiving space arranged in the material receiving shell (23), an electric control door hinged on the lower end wall of the material receiving space, a support plate (25) fixedly arranged between the front end wall and the rear end wall of the first base space, a fixed shell (26) fixedly arranged on the upper surface of the first base (1), a semicircular groove arranged on the upper surface of the fixed shell (26), a moving block fixedly arranged on the front end surface and the rear end surface of the moving inclined block (28) and matched with the two moving grooves, a threaded pipe (30) fixedly arranged on the front end wall of the first base space, a screw rod (2) and a screw rod (b) fixedly arranged on the front end wall of the first base, A double-head motor (31) fixedly arranged on the front end face of the first base (1) and fixedly connected with the first transmission shaft (3), a first gear (32) rotatably arranged on the front end output end of the double-head motor (31), a threaded shaft rotatably arranged in the threaded pipe (30), a second gear shaft (34) fixedly arranged on the front end face of the threaded shaft (33) and meshed with the first gear (32), a track shell (35) fixedly arranged on the front end face of the first base (1), a track space arranged on the front end face of the track shell (35) and provided with an upward opening, a sliding block (36) movably arranged in the track space back and forth, a fixed block (37) fixedly arranged on the left end face of the sliding block (36), a rotating shaft (38) rotatably arranged on the rear end face of the fixed block (37), a rotating gear (39) fixedly arranged on the rear end face of the rotating shaft (38), a connecting hole arranged on the rear end wall of the first base space, a connecting rod, The device comprises a roller (40) rotatably arranged in a connecting hole, a third gear shaft (41) fixedly arranged on the rear end face of a first base (1) and connected with the roller (40), a telescopic space arranged on the front end face of the roller (40), a telescopic block arranged in the telescopic space in a manner of moving back and forth, an extension spring fixedly arranged between the bottom of the telescopic space and the telescopic block, a semicircular plate (241) fixedly arranged on the front end face of the roller (40), and a plurality of rectangular grooves arranged on the semicircular plate (241);

the switching method comprises the following steps of starting a double-headed motor to drive a first gear to rotate, driving a second gear shaft to rotate by the first gear, driving a threaded shaft to rotate by the second gear shaft, enabling the threaded shaft to move backwards by matching with a threaded pipe, enabling cylindrical activated carbon (270) on a semicircular plate (241) to rotate by matching of a spline groove and a spline, so that dust on raw paper can be adsorbed on the cylindrical activated carbon (270) as far as possible, when the dust on the cylindrical activated carbon (270) is more adsorbed and cannot be continuously adsorbed, reversely rotating the double-headed motor to drive the threaded shaft to rotate backwards by matching with the threaded pipe, when a third gear shaft is driven by a rotating gear to rotate in a meshed manner, rotating the semicircular plate by one hundred eighty degrees, enabling the cylindrical activated carbon on the semicircular plate to fall below, and enabling the right side of the rotating plate to rotate downwards by the falling cylindrical activated carbon, the left side of rotor plate upwards rotates to promote rack rebound, the rack drives first gear shaft rotatory, and first gear shaft drives the removal rack and moves left, thereby lets lie in the cylindrical active carbon on the swash plate and fall down to the semicircle board.

2. The high-covering vehicle sticker according to claim 1, wherein: the heating cover is heated in a way of matching ceramic and a quartz tube.

3. The high-covering vehicle sticker according to claim 1, wherein: the surface temperature at the time of the embossing was controlled at 189 ℃.

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