CN117139291B - Antistatic film dust removal device - Google Patents

Abstract

The invention discloses an antistatic film dust removal device, which relates to the technical field of antistatic film dust removal and comprises a dust removal mechanism, wherein a processing mechanism is arranged at the bottom of the dust removal mechanism, a driving motor is fixed in a mounting frame, a first baffle is arranged at the bottom of a circular tube, a liquid storage box is arranged between opposite sides of two L-shaped frames, an electric valve is arranged at a liquid outlet end of the liquid storage box, a servo motor is arranged on the outer wall of a shell, a filter screen is arranged at an opening at the top of a rectangular ring, a collecting box is arranged at the bottom of the inner wall of the shell, and a crushing paddle is arranged at the output end of the driving motor.

Description

Antistatic film dust removal device

Technical Field

The invention relates to the technical field of antistatic film dust removal, in particular to an antistatic film dust removal device.

Background

The antistatic film is a kind of wrapping film for preventing static electricity generated by friction. The antistatic film is widely applied to packaging films of electronic equipment, electric equipment and power transmission and transformation equipment, and the existing antistatic film is subjected to pretreatment dust removal operation by using a dust removal device before being used, so that the antistatic effect of the antistatic film in use can be effectively ensured.

The existing dust removal device for the antistatic film can carry out dust removal operation on the antistatic film in the actual use process, so that the use effect of the antistatic film at the later stage is guaranteed, but the dust sticking paper after the dust removal device is used for removing dust cannot be treated and useful substances are recycled, so that the resource waste is caused, and the use efficiency of the dust removal device is reduced.

Therefore, a new antistatic film dust removing device needs to be proposed in order to solve the problems set forth in the above.

Disclosure of Invention

The invention aims to provide an antistatic film dust removal device, which solves the problems that the existing dust removal device cannot treat dust-binding paper after dust removal by the dust removal device and recycle useful substances, so that resources are wasted, namely the service efficiency of the dust removal device is reduced.

In order to achieve the above purpose, the present invention provides the following technical solutions: the antistatic film dust removing device comprises a dust removing mechanism, wherein a processing mechanism is arranged at the bottom of the dust removing mechanism;

the utility model provides a processing mechanism includes casing and mounting bracket, the inside of casing is fixed with two connecting plates, the inside of mounting bracket is fixed with driving motor, the inner wall top of casing is fixed with the pipe, the cylinder hole has all been seted up at the inner wall top of casing and the top of top connecting plate, the bottom of pipe is provided with first baffle, the inner wall top of casing is fixed with two symmetrical L type framves, two be provided with the stock solution box between the relative one side of L type frame, the motorised valve is installed to the liquid outlet end of stock solution box, the top activity of connecting plate runs through there is the drain pipe, the outer wall of casing is fixed with the mounting panel, the one side that first baffle is close to the mounting panel is fixed with the rack, servo motor is installed to the outer wall of casing, the gear is installed to servo motor's output, the below the top of connecting plate is fixed to run through there is the rectangular ring, the filter screen is installed to the top opening part of rectangular ring, the link is installed to the bottom of rack the top of connecting plate is provided with the second baffle, the one end activity of second baffle runs through the inner wall of casing, the bottom of casing is provided with the broken oar, three side of installing the driving plate is installed to the output.

Preferably, the centers of the two cylindrical holes are positioned on the same vertical line, the bottom of the first baffle is contacted with the top of the upper connecting plate, the top of the liquid storage box is contacted with the top of the inner wall of the shell, the input end of the liquid outlet pipe is installed with the output end of the electric valve, one end of the rack, which is close to the mounting plate, movably penetrates through the rear surface of the inner wall of the shell, the output end of the servo motor is rotationally embedded on the surface of the mounting plate, the top of the second baffle is installed with the bottom of the connecting frame through a bolt, teeth of the rack are meshed with teeth of the gear, and the crushing end of the crushing paddle is positioned inside the round pipe.

Preferably, the sealing plate is installed to one side of casing, the outer wall activity of casing runs through there is first L type piece, the bottom equidistance part of first L type piece is fixed with a plurality of stirring boards, servo electric cylinder is installed to the outer wall of casing, servo electric cylinder's flexible end and the inner wall of first L type piece are installed mutually through first screw, the top the open-top department of cylinder hole is provided with the apron, the venthole has been seted up on the front surface of casing, the gas outlet department of venthole is provided with cellular active carbon, the mount is installed to the exit of venthole, the surface of second baffle is provided with U type pad, the one side that the U type pad is close to servo electric cylinder bonds with the inner wall of casing.

Preferably, the wire guide has been seted up to the inner wall rear surface of casing, the surface activity of first L type piece has cup jointed the sealing ring, the sealing ring is close to the one side of servo electric cylinder and bonds with the inner wall of casing mutually, the connecting block is installed at the top of apron, the top screw thread of connecting block runs through has the hand screw, the one end threaded connection of hand screw is at the top of casing, the top of apron is fixed with two symmetrical handles, the top slip of casing is inlayed and is equipped with the second L type piece, the top of casing is fixed with two symmetrical dogs, two be provided with the U type piece between the opposite sides of dog.

Preferably, the dust removing mechanism comprises a placing frame, the top of the U-shaped block is fixed with the bottom of the placing frame, the installing frame is installed on the front surface of the placing frame, the shell is located at the bottom of the placing frame, a plurality of U-shaped frames are fixed at the bottom of the placing frame, the second L-shaped block is installed on the surface of one U-shaped frame through a second screw, two symmetrical first motors are installed on the front surface of the placing frame, and two installing holes are formed in the front surface of the inner wall of the placing frame and the rear surface of the inner wall of the placing frame, and limiting blocks are installed in the two installing holes.

Preferably, the two other mounting holes are respectively connected with a T-shaped rod through first bearings in a rotating mode, anti-slip pads are respectively arranged in the limiting blocks and the T-shaped rods, one ends of the two T-shaped rods are respectively mounted with the output ends of the two first motors, the four anti-slip pads are divided into two groups, and a film winding roller is arranged between the opposite faces of each anti-slip pad.

Preferably, each two ends of the film winding roller are respectively located in each limiting block and each T-shaped rod, a plurality of mounting grooves are formed in the top and the lower side of the placing frame, the number of the mounting grooves is six, the number of the mounting grooves is four, rectangular grooves are formed in two sides of the inner wall of each mounting groove, and four sliding grooves are formed in the front surface of the placing frame.

Preferably, a first driving roller is arranged between the interiors of the mounting grooves, a second driving roller is rotationally connected to the interiors of the placing frames through a second bearing, electric pushing rods are arranged at the tops of the placing frames and on the lower sides of the placing frames, the telescopic ends of the electric pushing rods are respectively located in the interiors of the mounting grooves, mounting seats are respectively arranged in the interiors of the mounting grooves, rectangular blocks are respectively fixed on two sides of each mounting seat, and each rectangular block is respectively and slidably connected in the interiors of each rectangular groove.

Preferably, the bottom of the telescopic end of each electric push rod is respectively installed with the top of each installation seat through a third screw, the first driving roller is rotationally connected between the interiors of two installation seats through a third bearing, the eight installation seats are divided into four groups, each group of installation seats are rotationally connected with a rubber roller through a fourth bearing, each rubber roller is installed on the outer surface of each rubber roller, and a controller is installed on the rear surface of the placement frame.

Preferably, each sliding groove is slidably connected with a sliding block, the eight sliding blocks are divided into four groups, a second motor is arranged between the front surfaces of the sliding blocks, each output end of the second motor is respectively arranged with one end of each rubber roller, rectangular plates are fixed in the positions, close to the edges of two sides, of the inner part of the placing frame, and each first motor, each electric push rod, each second motor, each driving motor, each electric valve, each servo motor and each servo electric cylinder are electrically connected with the controller.

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

1. according to the invention, through arranging the treatment mechanism, the used dust-binding paper can be treated, useful substances in the dust-binding paper can be recycled, so that the utilization rate of resources is improved, the use efficiency of the dust removing device is improved, when the used dust-binding paper is required to be treated, the shredded dust-binding paper in the circular tube can be crushed into fragments by firstly utilizing the cooperation of the driving motor, the crushing paddle, the cover plate, the circular tube and the first baffle, then the movement of the first baffle can be realized by utilizing the cooperation of the servo motor, the gear, the mounting plate and the rack, the fragments in the circular tube can fall into a space formed by the two connecting plates, the third baffle, the shell and the second baffle, and then the organic solvent in the liquid storage box can be released into the space formed by the two connecting plates, the third baffle, the shell and the second baffle by utilizing the cooperation of the controller, the electric valve and the liquid outlet tube.

2. According to the invention, the organic solvent and the clastic dust-binding paper can be fully mixed by utilizing the cooperation of the controller, the servo electric cylinder, the first L-shaped block and the stirring plate, useful substances in the dust-binding paper are dissolved in the solvent, then the second baffle can be moved by utilizing the cooperation of the controller, the servo motor, the gear, the mounting plate, the rack and the connecting frame, the mixture consisting of waste materials and liquid is filtered by the filter screen, and then the gas naturally volatilized into the environment can be purified by utilizing the cooperation of the collecting box, the air outlet and the honeycomb-shaped active carbon.

3. According to the invention, dust on the surface of the antistatic film can be removed by arranging the dust removing mechanism, when the antistatic film is required to be subjected to dust removing operation, the operation of unreeling the antistatic film by the film reeling roller can be realized by utilizing the cooperation of the controller, the limiting block, the T-shaped rod, the first motor and the anti-skid pad, then the dust removing operation and the transmission operation of the antistatic film can be realized by utilizing the cooperation of the controller, the sliding chute, the sliding block, the controller, the second motor and the rubber roller, then the winding operation of the antistatic film after dust removing can be realized by utilizing the cooperation of the controller, the other limiting block, the other T-shaped rod, the other first motor and the other two anti-skid pads, and then the replacement of two dust adhering papers on the left side or the right side shown in fig. 1 can be realized by utilizing the cooperation of the electric push rod, the rectangular groove, the rectangular block, the rubber roller and the mounting seat, so that the operation of the antistatic film dust removing device is not stopped when the dust adhering papers are replaced.

Drawings

FIG. 1 is a perspective view of an antistatic film dust collector of the present invention;

FIG. 2 is a partial perspective view of a top view of a processing mechanism of an antistatic film dust collector of the present invention;

FIG. 3 is a side view, partially in perspective, of a processing mechanism of an antistatic film dust removal device of the present invention;

FIG. 4 is an enlarged perspective view of the electrostatic precipitator of FIG. 3A;

FIG. 5 is a bottom perspective view of a processing mechanism of an antistatic film dust collector of the present invention;

FIG. 6 is a top view partially in perspective of an antistatic film dust collector of the present invention;

FIG. 7 is a perspective view of a dust removing mechanism of an antistatic film dust removing device according to the present invention;

FIG. 8 is a schematic perspective view of a first motor, T-shaped rod and anti-slip pad of an anti-static film dust collector of the present invention;

FIG. 9 is a schematic perspective view of a second motor and a slider of the antistatic film dust removing device of the present invention;

FIG. 10 is another perspective view of a dust removing mechanism of an antistatic film dust removing device of the present invention;

FIG. 11 is a schematic perspective view showing a T-shaped rod and an anti-slip pad of an anti-static film dust collector of the present invention;

FIG. 12 is a schematic perspective view of a stopper and a skid pad of an antistatic film dust collector;

fig. 13 is a schematic diagram of a three-dimensional structure of a cover plate, an air outlet, honeycomb activated carbon and a fixing frame of the antistatic film dust removing device.

In the figure: 1. a dust removing mechanism; 101. a placing rack; 102. a U-shaped frame; 103. a first motor; 104. a limiting block; 105. a film winding roller; 106. a T-shaped rod; 107. an anti-slip pad; 108. a mounting groove; 109. rectangular grooves; 110. a chute; 111. a first driving roller; 112. a second driving roller; 113. an electric push rod; 114. a mounting base; 115. a rubber roller; 116. dust-binding paper; 117. a controller; 118. a second motor; 119. a slide block; 120. a rectangular plate; 121. a mounting hole; 122. rectangular blocks; 2. a processing mechanism; 201. a housing; 202. a sealing plate; 203. a connecting plate; 204. a mounting frame; 205. a driving motor; 206. a round tube; 207. a cylindrical hole; 208. a first baffle; 209. an L-shaped frame; 210. a liquid storage box; 211. an electric valve; 212. a liquid outlet pipe; 213. a rack; 214. a mounting plate; 215. a servo motor; 216. a gear; 217. an agitating plate; 218. a servo electric cylinder; 219. a first L-shaped block; 220. a connecting frame; 221. a cover plate; 222. a rectangular ring; 223. a filter screen; 224. an air outlet hole; 225. honeycomb activated carbon; 226. a fixing frame; 227. a second baffle; 228. a collection box; 229. a third baffle; 230. crushing paddles; 231. a wire guide; 232. a U-shaped pad; 233. a seal ring; 234. a connecting block; 235. screwing the screw by hand; 236. a handle; 237. a second L-shaped block; 238. a U-shaped block; 239. and a stop block.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-13, the present invention provides a technical solution: an antistatic film dust removal device comprises a dust removal mechanism 1, wherein a processing mechanism 2 is arranged at the bottom of the dust removal mechanism 1;

the processing mechanism 2 comprises a shell 201 and a mounting frame 204, two connecting plates 203 are fixed in the shell 201, a driving motor 205 is fixed in the mounting frame 204, a circular tube 206 is fixed at the top of the inner wall of the shell 201, a cylindrical hole 207 is formed in the top of the inner wall of the shell 201 and the top of the upper connecting plate 203, a first baffle plate 208 is arranged at the bottom of the circular tube 206, two symmetrical L-shaped frames 209 are fixed at the top of the inner wall of the shell 201, a liquid storage box 210 is arranged between opposite sides of the two L-shaped frames 209, an electric valve 211 is arranged at the liquid outlet end of the liquid storage box 210, a liquid outlet pipe 212 is movably penetrated at the top of the upper connecting plate 203, a mounting plate 214 is fixed on the outer wall of the shell 201, racks 213 are fixed on one side of the first baffle plate 208 close to the mounting plate 214, a servo motor 215 is mounted on the outer wall of the shell 201, a gear 216 is mounted at the output end of the servo motor 215, a rectangular ring 222 is fixedly penetrated at the top of the lower connecting plate 203, a filter screen 223 is mounted at the top of the opening of the rectangular ring 222, a connecting frame 220 is mounted at the bottom of the lower connecting plate 203, a second baffle 227 is arranged at the top of the lower connecting plate 203, a movable end of the second baffle plate 227 penetrates through the inner wall of the shell 201, a third baffle plate 228 is mounted at the bottom of the inner wall of the shell 201, and a third baffle plate is mounted at the output end of the shell is mounted at the output end of the motor 230 is mounted at the output end of the baffle plate 228.

According to fig. 1-6, the centers of the two cylindrical holes 207 are on the same vertical line, the bottom of the first baffle 208 is in contact with the top of the upper connecting plate 203, the top of the liquid storage box 210 is in contact with the top of the inner wall of the shell 201, the input end of the liquid outlet pipe 212 is installed with the output end of the electric valve 211, one end of the rack 213, which is close to the mounting plate 214, movably penetrates through the rear surface of the inner wall of the shell 201, the output end of the servo motor 215 is rotationally embedded on the surface of the mounting plate 214, the top of the second baffle 227 is installed with the bottom of the connecting frame 220 through bolts, the teeth of the rack 213 are meshed with the teeth of the gear 216, the crushing end of the crushing paddle 230 is positioned inside the circular tube 206, and the sticky paper 116 which is shredded inside the circular tube 206 can be crushed into chips conveniently under the action of the crushing paddle 230.

According to the embodiments shown in fig. 1-6 and 13, a sealing plate 202 is installed on one side of a casing 201, a first L-shaped block 219 is movably penetrated through the outer wall of the casing 201, a plurality of stirring plates 217 are fixed on the bottom equidistant portion of the first L-shaped block 219, a servo electric cylinder 218 is installed on the outer wall of the casing 201, a telescopic end of the servo electric cylinder 218 and the inner wall of the first L-shaped block 219 are installed through first screws, a cover plate 221 is arranged at the top opening of an upper cylindrical hole 207, an air outlet hole 224 is formed in the front surface of the casing 201, honeycomb-shaped activated carbon 225 is arranged at the air outlet of the air outlet hole 224, a fixing frame 226 is installed at the outlet of the air outlet hole 224, a U-shaped pad 232 is arranged on the outer surface of the second baffle 227, one surface of the U-shaped pad 232 close to the servo electric cylinder 218 is adhered to the inner wall of the casing 201, and liquid inside the casing 201 is prevented from flowing out of the casing 201 under the cooperation of the U-shaped pad 232 and the sealing ring 233.

According to the embodiment shown in fig. 1-6 and 13, the rear surface of the inner wall of the housing 201 is provided with a wire guide 231, the outer surface of the first L-shaped block 219 is movably sleeved with a sealing ring 233, one surface of the sealing ring 233 close to the servo electric cylinder 218 is adhered to the inner wall of the housing 201, the top of the cover plate 221 is provided with a connecting block 234, the top thread of the connecting block 234 is penetrated with a hand screw 235, one end of the hand screw 235 is connected to the top of the housing 201, the top of the cover plate 221 is fixed with two symmetrical handles 236, the top of the housing 201 is slidably embedded with a second L-shaped block 237, the top of the housing 201 is fixed with two symmetrical stoppers 239, and a U-shaped block 238 is arranged between the opposite sides of the two stoppers 239, so that the housing 201 can be prevented from moving under the cooperation of the U-shaped block 238, the stoppers 239, the second L-shaped block 237 and the second screw.

According to the embodiment shown in fig. 1-8 and 12, the dust removing mechanism 1 includes a placing frame 101, the top of a U-shaped block 238 is fixed to the bottom of the placing frame 101, a mounting frame 204 is mounted on the front surface of the placing frame 101, a housing 201 is located at the bottom of the placing frame 101, a plurality of U-shaped frames 102 are fixed to the bottom of the placing frame 101, a second L-shaped block 237 is mounted on the surface of one of the U-shaped frames 102 through a second screw, two symmetrical first motors 103 are mounted on the front surface of the placing frame 101, two mounting holes 121 are formed in the front surface and the rear surface of the inner wall of the placing frame 101, and limiting blocks 104 are mounted in the two mounting holes 121, so that the first motors 103 can drive the film winding roller 105 to rotate under the cooperation of the limiting blocks 104, fixing bolts, the T-shaped rods 106 and the anti-slip pads 107.

According to the embodiments shown in fig. 1, fig. 6-fig. 8, fig. 11 and fig. 12, the inside of the other two mounting holes 121 is rotatably connected with a T-shaped rod 106 through a first bearing, the inside of each limiting block 104 and the inside of each T-shaped rod 106 are respectively provided with an anti-slip pad 107, one end of each T-shaped rod 106 is respectively mounted with the output ends of two first motors 103, the four anti-slip pads 107 are divided into two groups, and a film winding roller 105 is arranged between opposite surfaces of each group of anti-slip pads 107, so that the anti-static film requiring dust removal can be unreeled under the action of the film winding roller 105, and the anti-static film after dust removal can be reeled up.

According to the embodiments shown in fig. 1, fig. 6-fig. 8, fig. 11 and fig. 12, two ends of each film winding roller 105 are respectively located in each limiting block 104 and each T-shaped rod 106, a plurality of mounting grooves 108 are formed in the top and the lower side of the placement frame 101, the number of the upper mounting grooves 108 is six, the number of the lower mounting grooves 108 is four, rectangular grooves 109 are formed in two sides of the inner wall of each mounting groove 108, four sliding grooves 110 are formed in the front surface of the placement frame 101, and the second motor 118 can be guaranteed to drive the rubber roller 115 to rotate under the cooperation of the sliding grooves 110 and the sliding blocks 119.

According to the embodiment shown in fig. 1, fig. 6, fig. 7 and fig. 10, a first driving roller 111 is disposed between the interiors of two mounting grooves 108, a second driving roller 112 is rotatably connected to the interior of the placement frame 101 through a second bearing, electric push rods 113 are mounted on the top of the placement frame 101 and on the lower side of the placement frame 101, the telescopic ends of each electric push rod 113 are respectively located in the interiors of each mounting groove 108, a mounting seat 114 is respectively disposed in the interiors of each mounting groove 108, rectangular blocks 122 are respectively fixed on two sides of each mounting seat 114, each rectangular block 122 is respectively slidably connected in each rectangular groove 109, and the corresponding mounting seat 114 is conveniently matched with the rectangular blocks 122 and the rectangular grooves 109 to vertically move up and down.

According to the embodiments shown in fig. 1, 6 and 10, the bottom of the telescopic end of each electric push rod 113 is respectively mounted on the top of each mounting seat 114 through a third screw, the first driving roller 111 is rotatably connected between the interiors of two mounting seats 114 through a third bearing, the eight mounting seats 114 are divided into four groups, the rubber rollers 115 are rotatably connected between the interiors of each group of mounting seats 114 through a fourth bearing, the dust-binding paper 116 is mounted on the outer surface of each rubber roller 115, and the surface of the antistatic film can be subjected to dust removal operation under the action of the dust-binding paper 116.

According to the embodiment shown in fig. 1 to 9, the controller 117 is mounted on the rear surface of the placement frame 101, each sliding groove 110 is slidably connected with a sliding block 119, eight sliding blocks 119 are divided into four groups, a second motor 118 is mounted between the front surfaces of each group of sliding blocks 119, the output end of each second motor 118 is respectively mounted with one end of each rubber roller 115, rectangular plates 120 are fixed at the edges, close to two sides, of the placement frame 101, of each first motor 103, each electric push rod 113, each second motor 118, each driving motor 205, each electric valve 211, each servo motor 215 and each servo motor 218 are electrically connected with the controller 117, and whether the components electrically connected with the controller 117 are opened or closed can be controlled conveniently under the action of the controller 117.

The whole mechanism achieves the following effects: when the anti-static film is required to be dedusted, the controller 117 and an external power supply are connected together, the controller 117 is opened, a using program is set, the sealing plate 202 is opened, the liquid outlet pipe 212 and the electric valve 211 are separated, the liquid storage box 210 is moved out of the shell 201 by the cooperation of the two L-shaped frames 209, a proper amount of organic solvent is injected into the liquid storage box 210, the liquid storage box 210 is reset and moved back to an initial position, the liquid outlet pipe 212 and the electric valve 211 are connected together, the sealing plate 202 is finally installed back to the initial position, when all the anti-static film is ready, the fixing bolts on one limiting block 104 are loosened, the limiting block 104 is moved, the corresponding anti-static film winding roller 105 is moved between the limiting block 104 and the T-shaped rod 106, the fixing bolts, the limiting block 104 and the corresponding anti-static film winding roller 105 are used, the corresponding anti-static film winding roller 105 is fixed between the limiting block 104 and the T-static film 106, the anti-static film winding roller 105 is fixed between the limiting block 104 and the T-static film winding roller 106 by the fixing bolts, the anti-static film winding roller 103 is started by the corresponding to the first motor 103, the anti-static film winding roller 103 is started by the corresponding to the corresponding anti-static film winding roller 103, the anti-static film winding roller 103 is started by the corresponding to the first motor 103, the corresponding anti-static film winding roller 103 is started by the corresponding to the first motor, the anti-static film winding roller 103 is started by the corresponding to the fixing bolt 103, the corresponding to the anti-static film winding roller is started by the corresponding to the anti-static film winding roller 103, when one end of the antistatic film passes through the space between the outer surfaces of the two dust-binding papers 116 on the right side shown in fig. 1 and moves to the space between the outer surfaces of the two dust-binding papers 116 on the left side, the controller 117 is directly utilized to start the two second motors 118 corresponding to the two dust-binding papers 116 on the left side, the two started second motors 118 respectively drive the two rubber rollers 115 connected with the two rubber rollers to rotate oppositely, the two rubber rollers 115 which rotate oppositely drive the dust-binding papers 116 connected with the rubber rollers to rotate, when the two dust-binding papers 116 rotate oppositely, the antistatic film between the two dust-binding papers 116 directly performs transmission movement, dust on the surface of the antistatic film passing through the two dust-binding papers 116 is directly adhered and removed, when one end of the antistatic film after dust removal moves to the surface of the film winding roller 105 for winding, the controller 117 is firstly turned off the two started second motors 118 synchronously, then one end of the antistatic film is arranged on the surface of the film winding roller 105 for winding, when one end of the antistatic film is arranged on the surface of the film winding roller 105 for winding, the controller 117 is directly utilized to synchronously start the two first motors 103 and the two second motors 118 which are started previously, the dust removal operation of the unreeled antistatic film can be realized, the dust removal antistatic film can be wound, when the tension of the antistatic film needs to be regulated, the controller 117 is directly utilized to synchronously start the two electric push rods 113 corresponding to the first driving roller 111, the two started electric push rods 113 can directly move the first driving roller 111 under the cooperation of the corresponding rectangular groove 109, the rectangular block 122 and the mounting seat 114, the tension of the antistatic film is regulated, when more dust is adhered on the surfaces of the two dust-binding papers 116 on the left side as shown in figure 1, when the dust-binding paper 116 is required to be replaced, the controller 117 is used for controlling the electric push rods 113 corresponding to the dust-binding paper 116 on the right side shown in fig. 1, so that the four electric push rods 113 drive the two corresponding dust-binding papers 116 to be attached to the two sides of the antistatic film through the matching of the corresponding mounting seats 114, the rectangular blocks 122, the rectangular grooves 109, the sliding grooves 110, the sliding blocks 119 and the rubber rollers 115, when the two dust-binding papers 116 are attached to the surface of the antistatic film, the two corresponding second motors 118 are directly and synchronously started, the started two second motors 118 drive the dust-binding papers 116 to carry out dust removal operation by driving the rubber rollers 115 to rotate, when the antistatic film processed by the two dust-binding papers 116 on the right side shown in fig. 1 passes through the space between the outer surfaces of the two dust-binding papers 116 on the left side, and the controller 117 is directly used for controlling the four electric push rods 113 corresponding to the dust-binding papers 116 on the left side shown in fig. 1, the four started electric push rods 113 are matched with the corresponding mounting seats 114, the rectangular blocks 122, the rectangular grooves 109, the sliding grooves 110, the sliding blocks 119 and the rubber rollers 115, the two left dust-binding papers 116 are separated from the antistatic film, then the dust-binding papers 116 on the surface of the rubber rollers 115 are removed from the corresponding rubber rollers 115, new dust-binding papers 116 are replaced, the manual screws 235 are removed, the cover plate 221 is removed from the corresponding cylindrical holes 207 by utilizing the matching of the connecting blocks 234, then the replaced waste dust-binding papers are torn up and put into the circular tube 206, when the dust removal operation is required to be continuously carried out on the surface of the antistatic film, the two left dust-binding papers 116 or the two right dust-binding papers 116 shown in the figure 1 are directly replaced back and forth, so that when the dust removal operation on the antistatic film is replaced, the dust removal operation on the antistatic film is not stopped, and when the dust removal operation is completed on the antistatic film, when a proper amount of shredded sticky paper 116 is fully crushed into chips, the cover plate 221 is reset to an initial position, the cover plate 221 is directly fixed by a connecting block 234 and a hand screw 235 after the cover plate 221 is reset to the initial position, then the driving motor 205 is started by the controller 117, the started driving motor 205 drives the crushing paddles 230 to rotate, the rotating crushing paddles 230 directly drive the cover plate 221, the round tube 206 and the first baffle plate 208 to directly crush the shredded sticky paper 116 in the round tube 206 into the chips, when the shredded sticky paper 116 is fully crushed into the chips, the driving motor 205 is directly closed by the controller 117, then the servo motor 215 is started by the controller 117, the started servo motor 215 directly drives the gear 216 to rotate under the cooperation of the mounting plate 214, the rotating gear 216 directly drives the rack 213 to move under the cooperation of the connecting frame 220, the first baffle plate 208 and the second baffle plate 208 directly drive the first baffle plate 208 to directly, the second baffle plate 208 directly to move to the first baffle plate 208 when the electric valve 211 is directly driven by the connecting plate 211 and the second baffle plate 211 is directly driven by the connecting plate 211, when the electric valve 211 is directly driven by the electric motor 211 to directly reset the first baffle plate 208 to directly, and the first baffle plate 208 is directly driven by the motor 211 when the electric motor 211 is started, and the first baffle plate 211 is directly driven by the motor 215 is directly driven by the controller 117 to move the servo motor 215 when the first baffle plate 215 is completely crushed into the chips, then enters the liquid outlet pipe 212, then flows into the space formed by the two connecting plates 203, the third baffle 229 and the shell 201, when organic solvent contacts the chip dust-binding paper 116, useful substances in the chip dust-binding paper 116 can be dissolved in the solvent, in order to improve the contact between the chip dust-binding paper 116 and the organic solvent, the controller 117 is directly used for starting the servo motor cylinder 218, the started servo motor cylinder 218 directly drives the first L-shaped block 219 to move back and forth, the first L-shaped block 219 which moves back and forth drives the stirring plates 217 connected with the first L-shaped block 219 to move, the stirring plates 217 which move directly allow the organic solvent and the chip dust-binding paper 116 to be fully mixed, when the useful substances in the chip dust-binding paper 116 are almost completely decomposed into the organic solvent, the cooperation of the controller 117, the servo motor 215 and the connecting frame 220 is directly reused at this time, the second baffle 227 is moved out of the top of the filter screen 223, when the second baffle 227 is moved out of the top of the filter screen 223, the servo motor 215 and the servo motor cylinder 218 are directly closed by the controller 117, the organic solvent and the waste mixed with useful substances can directly and continuously move towards the meshes of the filter screen 223, then the organic solvent mixed with useful substances can directly drive to flow through the meshes of the filter screen 223, enter the inside of the rectangular ring 222 and then be guided into the inside of the collecting box 228 to be collected, when no liquid flows out of the outlet of the rectangular ring 222, the liquid in the collecting box 228 is directly kept still at the moment to be naturally volatilized, the volatilized gas can enter the inside of the air outlet 224 and then pass through the inside of the honeycomb activated carbon 225, when the gas enters the inside of the honeycomb activated carbon 225, the honeycomb activated carbon 225 can directly purify the gas, the purified gas is then directly discharged to the environment, and after the organic solvent in the box 228 is volatilized for a period of time, the sealing plate 202 is removed, and then the box 228 can be removed, and the obtained useful substances (i.e. mixture of cellulose, glue component, etc.) can be directly taken out.

The limiting block 104 consists of a bearing, a hollow ring and a concave T-shaped column, wherein the hollow ring and the concave T-shaped column can rotate relatively;

the first motor 103, the film winding roller 105, the first driving roller 111, the second driving roller 112, the electric push rod 113, the rubber roller 115, the second motor 118, the driving motor 205, the electric valve 211, the servo motor 215, the servo electric cylinder 218, the controller 117 (PLC controller) and the crushing paddle 230 are all of the prior art, and will not be explained here too much.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (4)

1. An antistatic film dust collector which is characterized in that: the device comprises a dust removing mechanism (1), wherein a processing mechanism (2) is arranged at the bottom of the dust removing mechanism (1);

the processing mechanism (2) comprises a shell (201) and a mounting frame (204), two connecting plates (203) are fixed in the shell (201), a driving motor (205) is fixed in the mounting frame (204), a circular tube (206) is fixed at the top of the inner wall of the shell (201), a cylindrical hole (207) is formed in the top of the inner wall of the shell (201) and the top of the upper connecting plate (203), a first baffle (208) is arranged at the bottom of the circular tube (206), two symmetrical L-shaped frames (209) are fixed at the top of the inner wall of the shell (201), a liquid storage box (210) is arranged between opposite faces of the two L-shaped frames (209), an electric valve (211) is arranged at the liquid outlet end of the liquid storage box (210), a liquid outlet pipe (212) is movably penetrated at the top of the connecting plate (203), a mounting plate (214) is fixed on the outer wall of the shell (201), racks (213) are fixed on one face of the first baffle (208) close to the mounting plate (214), a servo motor (215) is arranged at the outer wall of the shell (201), a rectangular ring (215) is arranged at the top of the output end of the filter screen (222), a rectangular ring (222) is arranged at the top of the output end of the filter screen (222), the bottom of the rack (213) is provided with a connecting frame (220), the top of the connecting plate (203) below is provided with a second baffle plate (227), one end of the second baffle plate (227) movably penetrates through the inner wall of the shell (201), the bottom of the inner wall of the shell (201) is provided with a collecting box (228), one side of the connecting plate (203) below is provided with a third baffle plate (229), and the output end of the driving motor (205) is provided with a crushing paddle (230);

the dust removing mechanism (1) comprises a placing rack (101), the top of a U-shaped block (238) is fixed with the bottom of the placing rack (101), the mounting rack (204) is arranged on the front surface of the placing rack (101), the shell (201) is positioned at the bottom of the placing rack (101), a plurality of U-shaped frames (102) are fixed at the bottom of the placing rack (101), a second L-shaped block (237) is arranged on the surface of one U-shaped frame (102) through a second screw, two symmetrical first motors (103) are arranged on the front surface of the placing rack (101), two mounting holes (121) are respectively formed in the front surface of the inner wall of the placing rack (101) and the rear surface of the inner wall, limiting blocks (104) are respectively arranged in the two mounting holes (121), T-shaped rods (106) are respectively connected in the two mounting holes (121) through first bearings in a rotating mode, pads (107) are respectively arranged in the inner part of each limiting block (104) and the inner part of each T-shaped rod (106), two anti-slip pads (107) are respectively arranged at one end of each anti-slip pad (107), the two ends of each film winding roller (105) are respectively positioned in the inner part of each limiting block (104) and the inner part of each T-shaped rod (106), a plurality of mounting grooves (108) are respectively formed in the top and the lower side of each rack (101), the number of the mounting grooves (108) above is six, the number of the mounting grooves (108) below is four, rectangular grooves (109) are respectively formed in the two sides of the inner wall of each mounting groove (108), four sliding grooves (110) are respectively formed in the front surface of each rack (101), a first driving roller (111) is arranged between the inner parts of two mounting grooves (108), a second driving roller (112) is rotatably connected in the inner part of each rack (101) through a second bearing, electric push rods (113) are respectively arranged on the top of each rack (101) and the lower side of each rack (101), rectangular blocks (114) are respectively arranged in the inner sides of each mounting groove (108), two rectangular blocks (114) are respectively connected with the inner sides of each rectangular block (114), and each rectangular block (114) is respectively arranged on the inner sides of each rectangular block (114), and each rectangular block (114) is respectively connected with the inner sides of each rectangular block (114), the utility model discloses a motor-driven device is characterized by comprising a rack (101), a first driving roller (111), a second driving roller (116), a third bearing, a fourth bearing, a controller (117), a sliding block (119), a second motor (118), a motor-driven valve (211) and a servo valve (218), wherein the first driving roller (111) is rotationally connected between the interiors of two installation seats (114) through the third bearing, the eight installation seats (114) are divided into four groups altogether, each group between the interiors of the installation seats (114) is respectively connected with a rubber roller (115) through the rotation of the fourth bearing, each outer surface of the rubber roller (115) is respectively provided with a dust-binding paper (116), the rear surface of the rack (101) is provided with the controller (117), each sliding block (119) is respectively connected with the inside of the sliding block (110), the eight sliding blocks (119) are divided into four groups, a second motor (118) is respectively arranged between the front surfaces of the sliding blocks (119), the output ends of the second motor (118) are respectively installed with one end of each rubber roller (115), and the two side edges of the inner side of the rack (101) are close to each other, each rectangular motor (211), and each servo valve (211) is electrically connected with a servo controller (218).

2. The antistatic film dust removing apparatus according to claim 1, wherein: the center of the two cylindrical holes (207) is located on the same vertical line, the bottom of the first baffle (208) is in contact with the top of the upper connecting plate (203), the top of the liquid storage box (210) is in contact with the top of the inner wall of the shell (201), the input end of the liquid outlet pipe (212) is installed with the output end of the electric valve (211), one end of the rack (213) close to the mounting plate (214) movably penetrates through the rear surface of the inner wall of the shell (201), the output end of the servo motor (215) is rotationally embedded on the surface of the mounting plate (214), the top of the second baffle (227) is installed with the bottom of the connecting frame (220) through a bolt, teeth of the rack (213) are meshed with teeth of the gear (216), and the crushing end of the crushing paddle (230) is located inside the round pipe (206).

3. The antistatic film dust removing apparatus according to claim 1, wherein: sealing plate (202) are installed to one side of casing (201), the outer wall activity of casing (201) runs through has first L type piece (219), the bottom equidistance part of first L type piece (219) is fixed with a plurality of stirring boards (217), servo electronic jar (218) are installed to the outer wall of casing (201), the flexible end of servo electronic jar (218) is installed mutually through first screw with the inner wall of first L type piece (219), the top the open-top department of cylinder hole (207) is provided with apron (221), venthole (224) have been seted up on the positive surface of casing (201), the gas outlet department of venthole (224) is provided with cellular active carbon (225), mount (226) are installed to the exit of venthole (224), the surface of second baffle (227) is provided with U type pad (232), the one side that U type pad (232) is close to servo electronic jar (218) bonds with the inner wall of casing (201).

4. An antistatic film dust collector according to claim 3, wherein: wire guide (231) have been seted up to the inner wall rear surface of casing (201), the surface activity of first L type piece (219) has cup jointed sealing ring (233), one side that sealing ring (233) are close to servo electric cylinder (218) bonds with the inner wall of casing (201), connecting block (234) are installed at the top of apron (221), the top screw thread of connecting block (234) has run through hand screw (235), the one end threaded connection of hand screw (235) is at the top of casing (201), the top of apron (221) is fixed with two symmetrical handles (236), the top slip of casing (201) has inlayed second L type piece (237), the top of casing (201) is fixed with two symmetrical dog (239), two be provided with U type piece (238) between the opposite one side of dog (239).