CN106862176B - Dust sticking device for laser paper processing equipment - Google Patents

Abstract

The invention discloses a dust adhering device for laser paper processing equipment, which comprises a dust adhering roller switching mechanism, a cleaning mechanism and a drying mechanism. The switching mechanism comprises a switching driving motor, a pair of dust-binding roller turntables and a plurality of dust-binding rollers. The cleaning mechanism is positioned at the left lower part of the switching mechanism and comprises a cleaning driving motor, a spray pipe sleeve shaft, a pair of cleaning driving cylinders, a front swing arm, a rear swing arm and a brush roller. The sucking and drying mechanism is positioned at the downstream of the cleaning mechanism and comprises a water sucking driving motor, a water sucking roller and a water sucking roller supporting mechanism. Through the switching mechanism of the dust-binding roller, a plurality of dust-binding rollers can be installed, and the replacement of the dust-binding rollers can be realized without stopping the machine; the dust-binding roller far away from the base paper can be cleaned through the cleaning mechanism, so that the replaced dust-binding roller can be cleaned without being disassembled; the cleaned dust-sticking roller is sucked dry immediately by the water absorption mechanism, so that the effect of removing paper dust on the surface of the base paper can be greatly improved.

Description

Dust sticking device for laser paper processing equipment

Technical Field

The invention relates to a dust sticking device for laser paper processing equipment.

Background

The general process for processing the laser packaging paper comprises the following steps: film coating, film pressing laser lines, film aluminum spraying, film paper compounding, film paper stripping, and transferring the laser lines on the film to the surface of paper. The prior Chinese cigarette case uses laser packing paper, and has high requirements on the surface of the laser paper. Before the film paper is compounded, the surface of the base paper is subjected to dust removal treatment, and during compounding, as the film surface is coated with a binder, if paper dust is left on the surface of the base paper and compounded in the middle of the film paper, when the film paper is peeled, laser lines on the film are transferred to the base paper (namely, the laser paper), the paper dust is left on the film surface, and a small time point appears on the laser paper surface, so that the laser paper is an unqualified product.

In order to reduce the defective rate, the existing compound equipment for producing laser paper generally adopts a dust removal device, the dust removal device is a fixed dust-binding roller, namely, paper is wound on the dust-binding roller, and the paper is pulled by external force to rub against the dust-binding roller, so that the dust-binding roller rotates, and dust on the paper is adsorbed on the dust-binding roller. The dust removing device has the defects that the dust adhering effect is good when the dust removing device is used at the beginning, the dust adhering effect is gradually reduced when the dust removing device is used for a period of time, and the dust adhering effect is poor when the dust adhering roller is gradually adhered with paper dust, particularly the base paper with a large winding diameter, reaches the back.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a dust adhering device for laser paper processing equipment, which can greatly improve the effect of removing paper dust on the surface of base paper.

The purpose of the invention is realized as follows: a dust-binding device for laser paper processing equipment comprises a dust-binding roller switching mechanism, a cleaning mechanism and a drying mechanism;

the conversion mechanism comprises a conversion driving motor, a pair of dust-binding roller turntables and a plurality of dust-binding rollers; wherein the content of the first and second substances,

the conversion driving motor is fixed on the motor base, the conversion driving motor is connected with a dust-binding roller rotating shaft through a transmission mechanism, and two ends of the dust-binding roller rotating shaft are respectively installed on the front channel steel wallboard and the rear channel steel wallboard through bearing seats;

the pair of dust-binding roller rotating discs are fixedly arranged at two ends of the dust-binding roller rotating shaft, and a plurality of through holes are uniformly distributed on the surfaces of the pair of dust-binding roller rotating discs on the circumference line with the same diameter;

the dust-binding rollers are correspondingly and rotatably bridged between the through holes of the dust-binding roller turntables one by one;

the cleaning mechanism is positioned at the left lower part of the switching mechanism and comprises a cleaning driving motor, a spray pipe sleeve shaft, a pair of cleaning driving cylinders, a front swing arm, a rear swing arm and a brush roller; wherein the content of the first and second substances,

the cleaning driving motor is fixed on a small wall plate, the small wall plate is fixed behind a rear wall plate in parallel, the rear wall plate is fixed on the rear channel steel wall plate, and a cleaning driving gear is mounted on an output shaft of the cleaning driving motor;

the rear end of the water spray pipe penetrates through the rear wallboard and is inserted into the small wallboard, the front end of the water spray pipe is fixed on a front wallboard through a shoulder screw, and the front wallboard is fixed on the front channel steel wallboard;

the front end and the rear end of the inner cavity of the spray pipe sleeve shaft are respectively provided with a spray pipe bearing, and the spray pipe sleeve shaft is sleeved at the rear part of the spray pipe by the two spray pipe bearings; the front end and the rear end of the outer wall of the spray pipe sleeve shaft are provided with a spray pipe front gear and a spray pipe rear gear which is meshed with the cleaning driving gear in a one-to-one correspondence manner;

the pair of cleaning driving cylinders are arranged on the front wall plate and the rear wall plate in a one-to-one correspondence manner;

one end of the front swing arm and one end of the rear swing arm are connected with the ends of the piston rods of the pair of cleaning driving cylinders in a one-to-one correspondence manner; the center hole of the front swing arm is sleeved at the front end of the spray pipe, and the center hole of the rear swing arm is sleeved on the spray pipe sleeve shaft through a swing arm positioning ring;

two ends of the brush roller are respectively arranged in the middle of a brush roller shaft through a brush roller bearing, the rear end of the brush roller is connected with a brush roller gear meshed with the front gear of the water spray pipe, and two ends of the brush roller shaft are correspondingly connected with the other end of the front swing arm and the other end of the rear swing arm one by one;

the drying mechanism is arranged below the switching mechanism and is positioned at the downstream of the cleaning mechanism along the rotating direction of the dust-binding roller turntable, the drying mechanism comprises a water absorption driving motor, a water absorption roller and a water absorption roller supporting mechanism, wherein,

the water absorption driving motor is fixed on the rear wall plate, and a water absorption driving gear is arranged on an output shaft of the water absorption driving motor;

the water absorbing roller is tightly sleeved in the middle of the water absorbing roller shaft, the front end and the rear end of the water absorbing roller shaft are inserted into the front wall plate and the rear wall plate in a one-to-one correspondence manner, and the rear part of the water absorbing roller shaft is provided with a water absorbing roller gear which is meshed with the water absorbing driving gear;

the water suction roller supporting mechanism comprises a pair of sliding block seats, a pair of sliding blocks, a pair of screw rods, a pair of springs and a pair of water suction roller bearings; the pair of sliding block seats are correspondingly arranged on the front wall plate and the rear wall plate one by one, the upper end surface of each sliding block seat is provided with a groove, and the center of the bottom surface of each groove is provided with a spring groove; the pair of sliding blocks are correspondingly embedded in the grooves of the pair of sliding block seats in a vertically sliding manner; the pair of screw rods are respectively vertically and upwards arranged in the spring grooves of the pair of sliding block seats from the centers of the lower end surfaces of the pair of sliding block seats in a one-to-one correspondence manner through nuts and abut against the lower end surfaces of the pair of sliding blocks; the pair of springs are embedded in the spring grooves of the pair of sliding block seats in a one-to-one correspondence manner and are sleeved on the screw rod; the pair of water absorbing roller bearings are correspondingly arranged on the pair of slide blocks one by one and sleeved at the front end and the rear end of the water absorbing roller shaft.

The dust sticking device for the laser paper processing equipment is characterized in that the transmission mechanism is a synchronous pulley mechanism.

In the dust adhering device for laser paper processing equipment, a dust adhering roller gear meshed with the front gear of the water spray pipe is respectively mounted at the rear part of each dust adhering roller.

The dust sticking device for the laser paper processing equipment comprises a front wall plate, a rear wall plate, a dust sticking mechanism, a cleaning mechanism and a dust sticking mechanism, wherein the front wall plate and the rear wall plate are respectively provided with a front swing arm and a rear swing arm, and the front swing arm and the rear swing arm are respectively arranged on the front wall plate and the rear wall plate in a one-to-one correspondence manner through a support.

Foretell a binding dust device for laser paper processing equipment, wherein, the binding dust device still includes water circulating system, and this water circulating system is including establishing wiper mechanism and the water receiving chassis of blotting mechanism below, the sponge of foreshadowing in the water receiving chassis, set up delivery port, the water storage bucket that leads to pipe and delivery port intercommunication and be equipped with the filter bag in water receiving chassis side, this water storage bucket through the water pipe of installing the water pump with the spray pipe intercommunication.

The dust sticking device for the laser paper processing equipment has the following characteristics: through the switching mechanism of the dust-binding roller, a plurality of dust-binding rollers can be installed, the replacement of the dust-binding rollers can be realized without stopping the machine, and the dust-binding rollers in contact with the base paper are always in a clean state; the dust-binding roller far away from the base paper can be cleaned through the cleaning mechanism, so that the replaced dust-binding roller can be cleaned without being disassembled; the cleaned dust-sticking roller is sucked by the water sucking mechanism and can be put into operation in a clean state when the dust-sticking roller rotates to the working position. Therefore, the dust adhering device can greatly improve the effect of removing paper dust on the surface of the base paper, and is particularly suitable for adhering dust of the base paper with large winding diameter.

Drawings

Fig. 1 is a schematic structural diagram of the whole dust-binding device for laser paper processing equipment of the invention;

FIG. 2 is a schematic structural view of a switching mechanism in the dust-binding apparatus of the present invention;

FIG. 2a is a view taken along line A-A of FIG. 2;

FIG. 3 is a schematic view showing the structure of a cleaning mechanism in the dust-binding apparatus of the present invention;

FIG. 3a is a view from the B-B direction in FIG. 3;

FIG. 3b is a view from the direction C-C in FIG. 3;

FIG. 3c is a view from direction D of FIG. 3;

FIG. 4 is a schematic view of the suction mechanism of the dust-binding apparatus of the present invention;

FIG. 4a is an enlarged view of portion I of FIG. 4;

fig. 4b is a view from E-E in fig. 4.

Detailed Description

The invention will be further explained with reference to the drawings.

Referring to fig. 1 to 4b, the dust adhering device for laser paper processing equipment of the present invention includes a dust adhering roller switching mechanism 1, a cleaning mechanism 2, a suction mechanism 3, and a water circulation system 4.

The conversion mechanism 1 comprises a conversion driving motor 12, a pair of dust-binding roller turntables 19 and six dust-binding rollers 10; wherein:

the conversion driving motor 12 is a stepping motor and is fixed on the motor base 11, the conversion driving motor 12 is connected with a dust-binding roller rotating shaft 18 through a transmission mechanism, and the transmission mechanism is composed of a small synchronous belt pulley 13 arranged on the conversion driving motor 12, a large synchronous belt pulley 14 arranged on the dust-binding roller rotating shaft 18 and a synchronous belt surrounding the small synchronous belt pulley 13 and the large synchronous belt pulley 14; two ends of a rotating shaft 18 of the dust-binding roller are respectively arranged on the front channel steel wallboard 15a and the rear channel steel wallboard 15b through a bearing seat 16 and a bearing 17;

a pair of dust-binding roller rotating discs 19 are fixedly arranged at two ends of the dust-binding roller rotating shaft 18, and six through holes are uniformly distributed on the surfaces of the dust-binding roller rotating discs 19 on the circumference of the same diameter;

the six dust-binding rollers 10 are correspondingly and rotatably bridged between the through holes of the pair of dust-binding roller turntables 19 one by one; the rear part of each dust-binding roller 10 is respectively provided with a dust-binding roller gear 10 a.

The washer mechanism 2 is located at the lower left of the shifter mechanism 1 and as far away from the path of travel of the base paper 5 as possible. The washing mechanism 2 includes a washing driving motor 20, a water spray pipe 23, a water spray pipe sleeve shaft 24, a pair of washing driving cylinders 25a, 25b, a front swing arm 26a, a rear swing arm 26b, a brush roller 27, and two limit screws 29, wherein:

the cleaning driving motor 20 is fixed on a small wall plate 21, the small wall plate 21 is fixed behind a rear wall plate 22b in parallel, the rear wall plate 22b is fixed on a rear channel steel wall plate 15b, and a cleaning driving gear 20a is installed on an output shaft of the cleaning driving motor 20;

the rear end of the spray pipe 23 passes through the rear wall plate 22b and is inserted on the small wall plate 21, the front end of the spray pipe 23 is fixed on a front wall plate 22a through a shoulder screw 230, and the front wall plate 22a is fixed on the front channel steel wall plate 15 a;

the front end and the rear end of the inner cavity of the spray pipe sleeve shaft 24 are respectively provided with a spray pipe bearing 24a, and the spray pipe sleeve shaft 24 is sleeved at the rear part of the spray pipe 23 by the two spray pipe bearings 24 a; the front and rear ends of the outer wall of the spray pipe sleeve shaft 24 are provided with a spray pipe front gear 24b and a spray pipe rear gear 24c in a one-to-one correspondence manner; the water spray pipe rear gear 24c is meshed with the cleaning driving gear 20 a; the front gear 24b of the spray pipe can be meshed with the dust-binding roller gear 10 a;

a pair of cleaning driving cylinders 25a, 25b are installed on the front wall panel 22a and the rear wall panel 22b in one-to-one correspondence;

one end of the front swing arm 26a and one end of the rear swing arm 26b are connected with the ends of the piston rods of the pair of cleaning driving cylinders 25a, 25b in one-to-one correspondence; the central hole of the front swing arm 26a is sleeved at the front end of the spray pipe 23, and the central hole of the rear swing arm 26b is sleeved on the spray pipe sleeve shaft 24 through a swing arm positioning ring 26 c;

the two ends of the brush roller 27 are respectively installed at the middle part of the brush roller shaft 270 through a brush roller bearing 27a, the rear end of the brush roller 27 is connected with a brush roller gear 27b, and the brush roller gear 27b is meshed with the front gear 24b of the water spray pipe; both ends of the brush roller shaft 270 are connected to the other ends of the front swing arm 26a and the rear swing arm 26b through screws 28 in a one-to-one correspondence;

two limit screws 29 are respectively mounted on the front wall plate 22a and the rear wall plate 22b through a support in a one-to-one correspondence manner and are positioned below the front swing arm 26a and below the rear swing arm 26 b.

The drying mechanism 3 is arranged below the conversion mechanism 1 and is positioned at the downstream of the cleaning mechanism 2 along the rotating direction of the dust-binding roller rotating disc 19; the sucking and drying mechanism 3 comprises a water sucking driving motor 30, a water sucking roller 31 and a water sucking roller supporting mechanism, wherein:

a water absorption driving motor 30 is fixed on the rear wall plate 22b, and a water absorption driving gear 30a is arranged on an output shaft of the water absorption driving motor 30;

the water suction roller 31 is tightly sleeved in the middle of the water suction roller shaft 310, the front and rear ends of the water suction roller shaft 310 are correspondingly inserted into the front wall plate 22a and the rear wall plate 22b one by one, and the included angle between the water suction roller shaft 310 and the water spray pipe 23 is preferably adapted to the step angle of the conversion driving motor 12; a water suction roller gear 31a is arranged at the rear part of the water suction roller shaft 310, and the water suction roller gear 31a is meshed with the water suction driving gear 30 a;

the water suction roll supporting mechanism comprises a pair of slide block seats 32, a pair of slide blocks 33, a pair of screw rods 34, a pair of springs 36 and a pair of water suction roll bearings 37; the pair of slide block seats 32 are correspondingly arranged on the front wall plate 22a and the rear wall plate 22b one by one, the upper end surface of each slide block seat 32 is provided with a groove, and the center of the bottom surface of the groove is provided with a spring groove; the pair of sliders 33 are embedded in the grooves of the pair of slider seats 23 in a one-to-one correspondence and capable of sliding up and down; the pair of screw rods 34 are respectively vertically and upwardly installed in the spring grooves of the pair of slider seats 32 from the centers of the lower end surfaces of the pair of slider seats 32 through nuts 35 in a one-to-one correspondence manner and abut against the lower end surfaces of the pair of sliders 33; a pair of springs 36 are embedded in the spring grooves of the pair of slide block seats 32 in a one-to-one correspondence manner and are sleeved on the screw rods 34; a pair of water absorbing roller bearings 37 are installed on the pair of sliders 33 in one-to-one correspondence and are fitted around the front and rear ends of the water absorbing roller shaft 310.

The water circulation system 4 comprises a water receiving chassis arranged below the cleaning mechanism 2 and the sucking and drying mechanism 3, sponge paved in the water receiving chassis, a water outlet arranged on the side surface of the water receiving chassis, and a water storage barrel which is communicated with the water outlet through a water pipe and is provided with a filter bag, wherein the water storage barrel is communicated with the water spraying pipe 23 through a water pipe provided with a water pump.

When the dust sticking device for the laser paper processing equipment is used, the rotating speed, the rotating angle and the pause time of the conversion driving motor 12 are set according to the linear speed of the composite host. When the conversion driving motor 12 rotates, the small synchronous belt pulley 13 drives the large synchronous belt pulley 14 to rotate through the synchronous belt, the large synchronous belt pulley 14 drives the dust-binding roller rotating shaft 18, the pair of dust-binding roller rotating discs 19 and the six dust-binding rollers 10 to rotate, and the cleaning mechanism 2 starts to work until one dust-binding roller 10 rotates to a set position.

The cleaning driving motor 20 drives the rear gear 24c of the spray pipe to rotate through the cleaning driving gear 20a, the front gear 24b of the spray pipe is driven to synchronously rotate through the transmission of the sleeve shaft 24 of the spray pipe, the front gear 24b of the spray pipe drives the dust-binding roller gear 10a to rotate, and the dust-binding roller gear 10a is fixed on the dust-binding roller 10 and the dust-binding roller 10 rotates through the transmission of the dust-binding roller gear 10 a. At this time, the water spray pipe 23 sprays water against the dust-binding roller 10 through the water circulation system 4. Meanwhile, the front gear 24b of the spray pipe drives the brush roller gear 27b to rotate, so that the brush roller 27 rotates on the brush roller shaft 270.

Before the dust-binding roller 10 rotates, the brush roller 27 is caused to retreat downward from the dust-binding roller 10 because the pair of cleaning drive cylinders 25a, 25b are in the retracted state. When the dust-binding roller 10 rotates to be tangent to the front gear 24b of the spray pipe, the gear 10a of the dust-binding roller is meshed with the front gear 24b of the spray pipe, the rotary disc 19 of the dust-binding roller is set to be in a rotation stop state, at the moment, piston rods of a pair of cleaning driving cylinders 25a and 25b are driven to extend, the brush roller 27 is made to swing around the axis of the spray pipe 23 through the front swing arm 26a and the rear swing arm 26b, and the brush roller 27 is made to be close to the dust-binding roller 10 upwards. The distance between the brush roller 27 and the dust-sticking roller 10 is adjusted by two limit screws 29 and then locked. Since brush roller gear 27b is fixed to brush roller 27 12, brush roller 27b is always engaged with water jet pipe front gear 24b when brush roller 27 swings with front swing arm 26a and rear swing arm 26b, so that brush roller 27 also rotates while swinging.

Because the cleaning driving motor 20 drives the cleaning driving gear 20a to rotate, the cleaning driving gear 20a drives the spray pipe rear gear 24c to rotate, because the spray pipe front gear 24b and the spray pipe rear gear 24c are fixed on the same spray pipe sleeve shaft 24, the spray pipe front gear 24b and the spray pipe rear gear 24c rotate synchronously, the spray pipe front gear 24b drives the dust-binding roller gear 10a and the dust-binding roller 10 to rotate, and meanwhile, the spray pipe front gear 24b drives the brush roller gear 27b and the brush roller 27 to rotate, so that the rotation directions of the dust-binding roller 10 and the brush roller 27 are opposite, and the brush roller 27 achieves the dust brushing effect. The water spraying direction of the water spraying pipe 23 is towards the position between the dust adhering roller 10 and the brush roller 27 and slightly deviates to the dust adhering roller 10, floating dust on the dust adhering roller 10 is washed clean, and the cleaning effect is achieved.

When the cleaned roll 10 is rotated with the roll turntable 19 to the position of the suction roll 31 and is tangent to the suction roll 31, the suction roll 31 is slightly pressed down by the action of the spring 36. The distance between the suction roll 31 and the dust-binding roll 10 is adjusted by a screw 34 and then locked by a nut 35. At this time, the water suction driving motor 30 drives the water suction roller gear 31a to rotate through the water suction driving gear 30a, so that the water suction roller 31 rotates, and due to slight squeezing between the water suction roller 31 and the dust-binding roller 10, the dust-binding roller 10 is driven to rotate through friction, and water on the surface of the dust-binding roller 10 is sucked dry.

The water washed by the cleaning mechanism 2 falls into the water receiving chassis of the water circulation system 4, the sponge is paved in the water receiving chassis and has a filtering function, so that water drops can be prevented from splashing, the water flows into the filter bag in the water storage barrel through the water outlet on the side surface of the water receiving chassis, the filtered water is conveyed to the water spraying pipe 23 through the water pump, and the water circulation is realized.

The above embodiments are provided only for illustrating the present invention and not for limiting the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, and therefore all equivalent technical solutions should also fall within the scope of the present invention, and should be defined by the claims.

Claims (5)

1. A dust-binding device for laser paper processing equipment comprises a dust-binding roller switching mechanism, a cleaning mechanism and a drying mechanism,

the conversion mechanism comprises a conversion driving motor, a pair of dust-binding roller turntables and a plurality of dust-binding rollers; wherein the content of the first and second substances,

the conversion driving motor is fixed on the motor base, the conversion driving motor is connected with a dust-binding roller rotating shaft through a transmission mechanism, and two ends of the dust-binding roller rotating shaft are respectively installed on the front channel steel wallboard and the rear channel steel wallboard through bearing seats;

the pair of dust-binding roller rotating discs are fixedly arranged at two ends of the dust-binding roller rotating shaft, and a plurality of through holes are uniformly distributed on the surfaces of the pair of dust-binding roller rotating discs on the circumference line with the same diameter;

the dust-binding rollers are correspondingly and rotatably bridged between the through holes of the dust-binding roller turntables one by one;

the cleaning mechanism is positioned at the left lower part of the switching mechanism and comprises a cleaning driving motor, a spray pipe sleeve shaft, a pair of cleaning driving cylinders, a front swing arm, a rear swing arm and a brush roller; wherein the content of the first and second substances,

the cleaning driving motor is fixed on a small wall plate, the small wall plate is fixed behind a rear wall plate in parallel, the rear wall plate is fixed on the rear channel steel wall plate, and a cleaning driving gear is mounted on an output shaft of the cleaning driving motor;

the rear end of the water spray pipe penetrates through the rear wallboard and is inserted into the small wallboard, the front end of the water spray pipe is fixed on a front wallboard through a shoulder screw, and the front wallboard is fixed on the front channel steel wallboard;

the front end and the rear end of the inner cavity of the spray pipe sleeve shaft are respectively provided with a spray pipe bearing, and the spray pipe sleeve shaft is sleeved at the rear part of the spray pipe through the two spray pipe bearings; the front end and the rear end of the outer wall of the spray pipe sleeve shaft are provided with a spray pipe front gear and a spray pipe rear gear which is meshed with the cleaning driving gear in a one-to-one correspondence manner;

the pair of cleaning driving cylinders are arranged on the front wall plate and the rear wall plate in a one-to-one correspondence manner;

one end of the front swing arm and one end of the rear swing arm are connected with the ends of the piston rods of the pair of cleaning driving cylinders in a one-to-one correspondence manner; the center hole of the front swing arm is sleeved at the front end of the spray pipe, and the center hole of the rear swing arm is sleeved on the spray pipe sleeve shaft through a swing arm positioning ring;

two ends of the brush roller are respectively arranged in the middle of the brush roller shaft through a brush roller bearing, the rear end of the brush roller is connected with a brush roller gear meshed with the front gear of the water spray pipe, and two ends of the brush roller shaft are correspondingly connected with the other end of the front swing arm and the other end of the rear swing arm one by one;

the drying mechanism is arranged below the switching mechanism and is positioned at the downstream of the cleaning mechanism along the rotating direction of the dust-binding roller turntable, the drying mechanism comprises a water absorption driving motor, a water absorption roller and a water absorption roller supporting mechanism, wherein,

the water absorption driving motor is fixed on the rear wall plate, and a water absorption driving gear is arranged on an output shaft of the water absorption driving motor;

the water absorbing roller is tightly sleeved in the middle of the water absorbing roller shaft, the front end and the rear end of the water absorbing roller shaft are inserted into the front wall plate and the rear wall plate in a one-to-one correspondence manner, and the rear part of the water absorbing roller shaft is provided with a water absorbing roller gear which is meshed with the water absorbing driving gear;

the water suction roller supporting mechanism comprises a pair of sliding block seats, a pair of sliding blocks, a pair of screw rods, a pair of springs and a pair of water suction roller bearings; the pair of sliding block seats are correspondingly arranged on the front wall plate and the rear wall plate one by one, the upper end surface of each sliding block seat is provided with a groove, and the center of the bottom surface of each groove is provided with a spring groove; the pair of sliding blocks are correspondingly embedded in the grooves of the pair of sliding block seats in a vertically sliding manner; the pair of screw rods are respectively vertically and upwards arranged in the spring grooves of the pair of sliding block seats from the centers of the lower end surfaces of the pair of sliding block seats in a one-to-one correspondence manner through nuts and abut against the lower end surfaces of the pair of sliding blocks; the pair of springs are embedded in the spring grooves of the pair of sliding block seats in a one-to-one correspondence manner and are sleeved on the screw rod; the pair of water absorbing roller bearings are correspondingly arranged on the pair of slide blocks one by one and sleeved at the front end and the rear end of the water absorbing roller shaft.

2. The dust-binding apparatus for laser paper processing equipment of claim 1, wherein said transmission mechanism is a synchronous pulley mechanism.

3. The dust adhering device for laser paper processing equipment according to claim 1, wherein a dust adhering roller gear engaged with the front gear of the water spraying pipe is installed at the rear part of each dust adhering roller.

4. The dust adhering device for laser paper processing equipment according to claim 1, wherein said cleaning mechanism further comprises two limit screws, each of said two limit screws being mounted on said front wall plate and said back wall plate in one-to-one correspondence via a support and being located below said front swing arm and below said back swing arm.

5. The dust-binding device for laser paper processing equipment as claimed in any one of claims 1 to 4, wherein said dust-binding device further comprises a water circulation system, said water circulation system comprises a water pan disposed under said cleaning mechanism and said drying mechanism, a sponge laid in said water pan, a water outlet opening disposed at the side of said water pan, and a water storage bucket connected to said water outlet through a water pipe and provided with a filter bag, said water storage bucket connected to said water spray pipe through a water pipe equipped with a water pump.

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