CN115285773A

CN115285773A - Optical film conveying apparatus

Info

Publication number: CN115285773A
Application number: CN202211205227.0A
Authority: CN
Inventors: 姚晓俊
Original assignee: Changzhou Wujin Tianlong Development Co ltd
Current assignee: Changzhou Wujin Tianlong Development Co ltd
Priority date: 2022-09-30
Filing date: 2022-09-30
Publication date: 2022-11-04
Anticipated expiration: 2042-09-30
Also published as: CN115285773B

Abstract

The invention discloses optical film conveying equipment which comprises a conveying assembly, a discharging assembly, a cutting assembly, a wind power assembly, a material pushing assembly, a gluing assembly and a conveyor belt assembly, wherein the conveying assembly is arranged on the conveying assembly; the automatic feeding device comprises a feeding assembly, a conveying assembly, a cutting assembly, a wind power assembly, a material pushing assembly, a gluing assembly and a conveying belt assembly, wherein the feeding assembly is used for placing optical membrane coiled materials, the feeding assembly is arranged on the upper side of an inlet end of the conveying assembly, the conveying assembly is used for pulling out and conveying optical membranes in the feeding assembly, the cutting assembly is arranged on the upper side of the conveying assembly, the cutting assembly is used for cutting the optical membranes, the wind power assembly is arranged on the lower side of the conveying assembly, the wind power assembly is used for sucking out cutting material residues and isolating dust outside the inlet end of the conveying assembly, the material pushing assembly is arranged at an outlet end of the conveying assembly, the material pushing assembly is used for pushing the multilayer optical membranes into the gluing assembly at the same time, the gluing assembly is used for gluing and fixing the multilayer optical membranes, and the conveying belt assembly is arranged on the lower side of the gluing assembly.

Description

Optical film conveying apparatus

Technical Field

The invention relates to the technical field of conveying, in particular to optical film conveying equipment.

Background

Optical films are a kind of optical medium materials which transmit light beams through interfaces, and are widely used in the technical fields of optics and optoelectronics to manufacture various optical instruments, wherein part of the optical films are stored in a coiled material form, and when the optical films are used, the optical films need to be cut into corresponding sizes and then conveyed.

In the known backlight module, it is usually necessary to attach multiple layers of optical films to each other and then assemble the optical films into the backlight module, however, since the optical films have large surface areas and are easily contaminated with dust particles during transportation and easily scratch the surface of the optical films, and cutting waste materials are easily generated during cutting, and these waste materials and dust are easily attached to the optical films, and then when stacking the optical films, the waste material dust particles are easily worn on the surface of the optical films.

Therefore, it is necessary to provide an optical film conveying apparatus that can achieve the function of dust-free conveying.

Disclosure of Invention

An object of the present invention is to provide an optical film conveying apparatus that solves the problems set forth in the background art described above.

In order to solve the technical problems, the invention provides the following technical scheme: the optical film conveying equipment comprises a conveying assembly, a discharging assembly, a cutting assembly, a wind power assembly, a material pushing assembly, a gluing assembly and a conveyor belt assembly; wherein,

the device comprises a feeding assembly, a cutting assembly, a wind power assembly, a conveying assembly, a material pushing assembly, a gluing assembly, a conveying assembly and a conveying belt assembly, wherein the feeding assembly is used for placing optical membrane coiled materials, the feeding assembly is arranged on the upper side of an inlet end of the conveying assembly, the conveying assembly is used for pulling out and conveying optical membranes in the feeding assembly, the cutting assembly is arranged on the upper side of the conveying assembly, the cutting assembly is used for cutting the optical membranes, the wind power assembly is arranged on the lower side of the conveying assembly, the wind power assembly is used for sucking out cutting material residues and isolating dust outside the inlet end of the conveying assembly, the material pushing assembly is arranged at an outlet end of the conveying assembly, the material pushing assembly is used for pushing the multilayer optical membranes into the gluing assembly at the same time, the gluing assembly is used for gluing and fixing the multilayer optical membranes, the conveying belt assembly is arranged on the lower side of the gluing assembly, and the conveying belt assembly is used for conveying the multilayer optical membranes after gluing to the next process;

the conveying assembly comprises a dustproof channel, an inlet is formed in one side of the dustproof channel, a plurality of groups of conveying rollers are rotatably connected to two sides of the inner wall of the dustproof channel, pressing rollers are oppositely arranged on the upper sides of the conveying rollers, the optical film is conveyed through the middles of the conveying rollers and the pressing rollers, and the cutting assembly is arranged at the upper end of the dustproof channel;

the wind power assembly comprises an air suction pipeline, the air suction pipeline is arranged under the cutting position, the air suction pipeline penetrates through the lower bottom surface of the dustproof channel and is fixedly connected with the lower bottom surface of the dustproof channel, the lower side of the air suction pipeline is provided with an air channel, a transverse plate is fixedly connected with the interior of the air channel, an electric fan is arranged on one side of the transverse plate, an air outlet pipeline is arranged at the other end of the air channel, the air outlet pipeline is arranged at the lower end of an inlet and is fixedly connected with the lower end of the inlet, filter screens are respectively arranged on the front side and the rear side of the electric fan, and the filter screens are fixed inside the air channel.

In one embodiment, the cutting assembly comprises a cutter box, the cutter box penetrates through the upper end of the dustproof channel and is fixedly connected with the upper end of the dustproof channel, a cutter handle is connected to the inner side of the cutter box in a sliding mode, guide grooves are formed in the two sides of the cutter box, the two ends of the cutter handle slide on the inner sides of the guide grooves, a cutter is fixedly connected with the lower end of the cutter handle, a cutter roller is arranged at the lower end of the cutter, the cutter roller is located right above the air suction pipeline, and the two ends of the cutter roller are rotatably connected with the dustproof channel.

In one embodiment, sliding plates are fixedly connected to two ends of the tool holder, the inner side of each sliding plate is slidably connected with the side face of the cutter box, a swing rod is rotatably connected to the outer side of each sliding plate, a rotating wheel is arranged at the upper end of each swing rod, the upper end of each swing rod is rotatably connected with the edge of each rotating wheel, a rotating shaft is fixedly connected to the middle side of each rotating wheel, a double-shaft motor is arranged on each rotating shaft, a power box is fixedly connected to one side of each double-shaft motor, each power box is fixed to the upper side of the dustproof channel, and each rotating shaft penetrates through two side walls of each power box and is rotatably connected with the power box.

In one embodiment, the blowing subassembly is including the blowing section of thick bamboo, the upper end at the import is fixed to the blowing section of thick bamboo, the one end fixedly connected with curb plate of blowing section of thick bamboo, the inboard of blowing section of thick bamboo is provided with the blowing pole, the blowing pole runs through in the curb plate and rather than rotate and be connected, the blowing pole drives the optical diaphragm coiled material and rotates, the other end hinged joint of blowing section of thick bamboo has the apron, the quad slit has been seted up to the oblique downside of blowing section of thick bamboo, the lower extreme of quad slit is provided with the tensioning roller, the tensioning roller rotates with the curb plate and is connected.

In one embodiment, the transmission roller is characterized in that a sector gear is fixedly connected to the rotating shaft, the direction of the gear tooth of the sector gear is consistent with the direction of the joint of the swing rod and the rotating wheel, a gear is meshed with one side of the sector gear, a rotating rod is fixedly connected to the center of the gear and penetrates through the side wall of the power box and is connected with the side wall of the power box in a rotating mode, one end of the rotating rod is connected with one end of the discharging rod in a belt transmission mode, one end of the discharging rod is connected with the transmission roller in a belt transmission mode, one end of each transmission roller is connected with a dustproof channel in a penetrating mode and is connected with the transmission roller in a rotating mode, one end of each transmission roller is fixedly connected with a chain wheel, and the transmission rollers are in a chain transmission mode.

In one embodiment, one side of dustproof passageway is provided with the slope passageway, slope passageway internal rotation is connected with a plurality of groups slope roller, the lower extreme of slope passageway is provided with the right trapezoid frame, the lower extreme fixedly connected with bottom plate of right trapezoid frame, the lower extreme fixedly connected with support column of bottom plate, the inclined plane downside of right trapezoid frame is provided with a plurality of groups guide roll one, the lower extreme of slope passageway is provided with a plurality of groups guide roll two, guide roll one sets up with the position of guide roll two relatively, the upper end fixedly connected with riser of bottom plate, the upper end of riser and the inclined plane fixed connection of right trapezoid frame, one side of riser is rotated and is connected with a plurality of groups live-rollers, the one end and the right trapezoid frame of live-rollers are rotated and are connected, square outlet has been seted up to one side of right trapezoid frame.

In one embodiment, the material pushing assembly comprises a material pushing rod, the material pushing rod is provided with three groups, the material pushing rod penetrates through a right trapezoid frame and is in sliding connection with the right trapezoid frame, one end of the material pushing rod is fixedly connected with a push plate, one end of the push plate is fixedly connected with a piston rod, one end of the piston rod is provided with a cylinder, one end of the cylinder is fixedly connected with a material pushing box, the material pushing box is fixedly connected with the right trapezoid frame, the piston rod penetrates through the material pushing box and is in sliding connection with the material pushing box, the material pushing rod penetrates through the material pushing box and is in sliding connection with the material pushing box, a clamping groove is formed in one end of the material pushing rod, and the clamping groove is larger than the thickness of the multilayer optical diaphragm.

In one embodiment, the gluing component comprises a first rotating rod, a second rotating rod is arranged on one side of the first rotating rod, pressing rods are arranged on the upper sides of the first rotating rod and the second rotating rod, the first rotating rod and the second rotating rod are driven by a motor to rotate, supporting side plates are connected to the two ends of the first rotating rod and the two ends of the second rotating rod in a rotating mode, the supporting side plates are fixedly connected with the right trapezoid frame, a gluing head is arranged on one side of each supporting side plate, the gluing head is located on one side of a gap between the first rotating rod and the pressing rods, the gluing head is connected with a gluing device, a scraper is fixedly connected to one side of each supporting side plate, and the scraper is located on one side of the gap between the second rotating rod and the pressing rods.

In one embodiment, the two ends of the pressing rod are rotatably connected with concave plates, the two ends of the lower side of each concave plate are rotatably connected with limiting rollers, telescopic rods are arranged at four corners of the upper side of each concave plate, a top plate is arranged at the upper end of each telescopic rod, springs are welded on the lower side of each top plate, the lower ends of the springs are welded with the concave plates, the two sides of each top plate are fixedly connected with the supporting side plates, and the concave plates are slidably connected with the supporting side plates.

In one embodiment, the conveyor belt assembly comprises a conveyor belt, the conveyor belt is connected with the supporting side plate, and one end of the conveyor belt is arranged on the lower side of the second rotating rod.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, the conveying assembly is arranged, the optical diaphragm coiled material in the feeding assembly is pulled out and transported, during transportation, the optical diaphragm coiled material is protected by the dustproof channel in the whole process, external dust is prevented from being attached or scratched, the optical diaphragm is cut by the cutting assembly, cut scraps can be sucked away by the wind power assembly on the lower side and blown out, blown wind forms a wind curtain at the inlet of the dustproof channel, dust is isolated outside, dust-free transportation is realized, and the optical diaphragm is not required to be further cleaned.

Drawings

The technical solutions and other advantages of the present application will become apparent from the following detailed description of specific embodiments of the present application when taken in conjunction with the accompanying drawings.

In the drawings:

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of the backside structure of the present invention;

FIG. 3 is a front view of the present invention;

FIG. 4 is a front cross-sectional schematic view of the present invention;

FIG. 5 is an exploded view of the cutting assembly of the present invention;

FIG. 6 is an enlarged partial schematic view of region A of FIG. 4;

FIG. 7 is a schematic cross-sectional view B-B of FIG. 3;

FIG. 8 is a partially enlarged schematic view of region B of FIG. 4;

FIG. 9 isbase:Sub>A schematic sectional view A-A of FIG. 3;

FIG. 10 is an enlarged partial schematic view of region C of FIG. 9;

FIG. 11 is a schematic view of the construction of the glue application assembly;

FIG. 12 is a partial perspective view of the present invention;

in the figure: 1. cutting the assembly; 101. a power box; 102. a cutter box; 103. a knife handle; 104. a cutter; 105. a guide groove; 106. a sliding plate; 107. a swing rod; 108. a rotating wheel; 109. a rotating shaft; 110. cutting a roller; 111. a double-shaft motor; 112. a sector gear; 113. a gear; 114. a rotating rod;

2. a discharging component; 201. placing a material barrel; 202. a side plate; 203. a discharge rod; 204. a cover plate; 205. a tension roller; 206. a square hole;

3. a delivery assembly; 301. a dust-proof channel; 302. a ramp channel; 303. an inlet; 304. a transfer roller; 305. a pressure roller;

4. a wind power assembly; 401. an air suction pipeline; 402. an air duct; 403. a transverse plate; 404. an electric fan; 405. an air outlet pipeline; 406. a filter screen;

5. a conveyor belt assembly; 501. a conveyor belt;

6. a gluing component; 601. rotating the rod I; 602. a pressure lever; 603. a telescopic rod; 604. a spring; 605. a top plate; 606. a limiting roller; 607. rotating the rod II; 608. a concave plate; 609. a squeegee; 610. gluing heads;

7. a material pushing assembly; 701. a material pushing rod; 702. pushing the material box; 703. pushing the plate; 704. a piston rod; 705. a cylinder; 706. a card slot;

8. a sprocket;

9. a ramp roller; 901. a base plate; 902. a right trapezoid frame; 903. a vertical plate; 904. a first guide roller; 905. a second guide roller; 906. a rotating roller; 907. a square outlet;

10. a support column;

11. supporting the side plates.

Detailed Description

The following disclosure provides many different embodiments or examples for implementing different features of the application. To simplify the disclosure of the present application, specific example components and arrangements are described below. Of course, they are merely examples and are not intended to limit the present application. Further, the present application may repeat reference numerals and/or reference letters in the various examples for simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or arrangements discussed. In addition, examples of various specific processes and materials are provided herein, but one of ordinary skill in the art may recognize applications of other processes and/or use of other materials.

Referring to fig. 1-12, the present invention provides a technical solution: the optical film conveying equipment comprises a conveying assembly 3, a discharging assembly 2, a cutting assembly 1, a wind power assembly 4, a material pushing assembly 7, a gluing assembly 6 and a conveying belt assembly 5; wherein,

the material placing assembly 2 is used for placing optical film coiled materials, the material placing assembly 2 is arranged on the upper side of an inlet end of the conveying assembly 3, the conveying assembly 3 is used for pulling out and conveying optical films in the material placing assembly 2, the cutting assembly 1 is arranged on the upper side of the conveying assembly 3, the cutting assembly 1 is used for cutting the optical films, the wind power assembly 4 is arranged on the lower side of the conveying assembly 3, the wind power assembly 4 is used for sucking out cutting residues and isolating dust outside the inlet end of the conveying assembly 3, the material pushing assembly 7 is arranged at an outlet end of the conveying assembly 3, the material pushing assembly 7 is used for simultaneously pushing the multilayer optical films into the gluing assembly 6, the gluing assembly 6 is used for gluing and fixing the multilayer optical films, the conveying belt assembly 5 is arranged on the lower side of the gluing assembly 6, and the conveying belt assembly 5 is used for conveying the glued multilayer optical films to the next process;

the conveying assembly 3 comprises a dustproof channel 301, an inlet 303 is formed in one side of the dustproof channel 301, a plurality of groups of conveying rollers 304 are rotatably connected to two sides of the inner wall of the dustproof channel 301, pressing rollers 305 are oppositely arranged on the upper sides of the conveying rollers 304, the optical film is conveyed between the conveying rollers 304 and the pressing rollers 305, and the cutting assembly 1 is arranged at the upper end of the dustproof channel 301;

the wind power assembly 4 comprises an air suction pipeline 401, the air suction pipeline 401 is arranged right below the cutting position, the air suction pipeline 401 penetrates through the lower bottom surface of the dustproof channel 301 and is fixedly connected with the lower bottom surface, an air channel 402 is arranged at the lower side of the air suction pipeline 401, a transverse plate 403 is fixedly connected with the inside of the air channel 402, an electric fan 404 is arranged at one side of the transverse plate 403, an air outlet pipeline 405 is arranged at the other end of the air channel 402, the air outlet pipeline 405 is arranged at the lower end of the inlet 303 and is fixedly connected with the same, filter screens 406 are respectively arranged at the front side and the rear side of the electric fan 404, the filter screens 406 are fixed inside the air channel 402,

specifically, a worker firstly puts an optical film coiled material into the material placing assembly 2, the optical film is pulled into the dustproof channel 301 from the inlet 303 through arranging the transmission roller 304 and the pressing roller 305 to be clamped and transported, during transportation, the dustproof channel 301 is adopted to protect the optical film in the whole process and prevent the optical film from being adhered or scratched by external dust, the optical film is cut through the cutting assembly 1 on the upper side, the air suction pipeline 401 is positioned right below the cut position, the air duct 402 is of a closed structure, when the internal electric fan 404 rotates, suction force is generated at the air suction pipeline 401, cut waste scraps are sucked away, the sucked air is blown out through the air outlet pipeline 405, the waste scraps pass through the filter screen 406 and are blocked, the air outlet pipeline 405 is flat, an air curtain is formed at the inlet 303, external dust is isolated outside, the dust cannot enter the dustproof channel 301, dust-free transportation is realized, the dust is not further cleaned, the cut optical films are stacked together in a multilayer mode, glue coating is carried out through the material placing assembly 7, and the optical film is finally conveyed to the next belt assembly 5;

the cutting assembly 1 comprises a cutter box 102, the cutter box 102 penetrates through the upper end of the dustproof channel 301 and is fixedly connected, a cutter handle 103 is connected to the inner side of the cutter box 102 in a sliding manner, guide grooves 105 are formed in two sides of the cutter box 102, two ends of the cutter handle 103 slide in the inner sides of the guide grooves 105, a cutter 104 is fixedly connected to the lower end of the cutter handle 103, a cutting roller 110 is arranged at the lower end of the cutter 104, the cutting roller 110 is positioned right above an air suction pipeline 401, two ends of the cutting roller 110 are rotatably connected with the dustproof channel 301,

specifically, when cutting is performed, the cutter box 102 is used for containing the cutter 104, the cutter handle 103 slides in the guide groove 105, so that the cutter 104 has better stability when descending and ascending, when descending, the cutter 104 is matched with the cutting roller 110 on the lower side, when cutting is performed by the cutter 104, the optical diaphragm is better stressed and easy to cut, the cutting roller 110 rotates along with the movement of the optical diaphragm, the suction pipeline 401 on the lower side generates suction, the surface of the cutting roller 110 is uniformly under the action of the suction force, cutting scraps are easier to clean, the cutter box 102 is used for guiding the cutter 104, the effect of a closed space is achieved, and dust is prevented from entering the dustproof channel 301;

sliding plates 106 are fixedly connected to two ends of the knife handle 103, the inner sides of the sliding plates 106 are slidably connected with the side faces of the knife box 102, the outer sides of the sliding plates 106 are rotatably connected with swing rods 107, rotating wheels 108 are arranged at the upper ends of the swing rods 107, the upper ends of the swing rods 107 are rotatably connected with the edges of the rotating wheels 108, rotating shafts 109 are fixedly connected to the middle sides of the rotating wheels 108, double-shaft motors 111 are arranged on the rotating shafts 109, one sides of the double-shaft motors 111 are fixedly connected with power boxes 101, the power boxes 101 are fixed to the upper sides of the dustproof channels 301, the rotating shafts 109 penetrate through two side walls of the power boxes 101 and are rotatably connected with the power boxes,

specifically, the sliding plate 106 is fixedly connected with the knife handle 103 through the guide groove 105 and slides up and down on the side face of the knife box 102, when cutting is performed, the double-shaft motor 111 is fixed on the power box 101, the rotating shaft 109 is limited by the power box 101, when a worker controls the double-shaft motor 111 to start, the rotating shaft 109 and the rotating wheel 108 are driven to rotate, as the oscillating bar 107 is arranged at the edge of the rotating wheel 108, the rotating wheel 108 drives the upper end of the oscillating bar 107 to rotate, the lower end of the oscillating bar 107 is limited, and under the sliding action of the knife handle 103 and the guide groove 105, the lower end of the oscillating bar 107 drives the sliding plate 106, the knife handle 103 and the cutter 104 to move up and down, so that the cutting function can be realized;

the discharging assembly 2 comprises a discharging barrel 201, the discharging barrel 201 is fixed at the upper end of an inlet 303, one end of the discharging barrel 201 is fixedly connected with a side plate 202, a discharging rod 203 is arranged at the inner side of the discharging barrel 201, the discharging rod 203 penetrates through the side plate 202 and is rotationally connected with the side plate 202, the discharging rod 203 drives the optical diaphragm coiled material to rotate, the other end of the discharging barrel 201 is hinged with a cover plate 204, a square hole 206 is formed at the oblique lower side of the discharging barrel 201, a tensioning roller 205 is arranged at the lower end of the square hole 206, and the tensioning roller 205 is rotationally connected with the side plate 202,

specifically, when the coil needs to be installed, a worker only needs to open the cover plate 204, insert the optical film coil into the discharging rod 203, close the cover plate 204, effectively prevent dust from entering the discharging barrel 201, and when the discharging rod 203 rotates, the optical film coil is driven to rotate at the same time, so that the optical film is discharged to enter the inlet 303 through the square hole 206 and the tensioning roller 205, and it needs to be noted that the position where the coil is drawn out needs to be discharged from the lower side of the discharging barrel 201 and contacted with the tensioning roller 205, so that the optical film is tensioned and transported by matching with the transmission roller 304 and the pressing roller 305, and cutting is facilitated;

a sector gear 112 is fixedly connected to the rotating shaft 109, the direction of the teeth of the sector gear 112 is consistent with the direction of the joint of the swing rod 107 and the rotating wheel 108, a gear 113 is engaged and connected to one side of the sector gear 112, a rotating rod 114 is fixedly connected to the center of the gear 113, the rotating rod 114 penetrates through the side wall of the power box 101 and is rotatably connected with the same, one end of the rotating rod 114 is in belt transmission connection with one end of the discharging rod 203, one end of the discharging rod 203 is in belt transmission connection with the transmission rollers 304, one ends of a plurality of groups of transmission rollers 304 penetrate through the dustproof channel 301 and are rotatably connected with the same, one end of the transmission rollers 304 is fixedly connected with a chain wheel 8, and chain transmission is performed among the groups of transmission rollers 304,

specifically, when cutting is performed, the rotating shaft 109 rotates and simultaneously drives the sector gear 112 to rotate, the gear tooth direction of the sector gear 112 faces the joint of the oscillating bar 107 and the rotating wheel 108, so that when the oscillating bar 107 rotates to the lowest position, the cutter 104 contacts with the optical film at the time to complete cutting, then the rotating shaft 109 continues to rotate, when the cutter 104 moves upwards, the sector gear 112 is meshed with the gear 113 to drive the gear 113 and the rotating bar 114 to rotate, the rotating bar 114 and the discharging bar 203 drive the discharging bar 203 to rotate together through belt transmission, the discharging bar 203 rotates to discharge the optical film and simultaneously drive the transmission roller 304 to rotate through belt connection, so that when the cutter 104 finishes cutting and moves upwards, the optical film is discharged, the transmission roller 304 conveys the cut and uncut optical films forwards, synchronous operation of three processes is achieved, until the sector gear 112 and the gear 113 are meshed, the cutter 104 also reaches the top, the transmission roller 304 and the discharging rod 203 stop rotating, namely the optical films stop moving, the cutter 104 continues to descend for cutting, the cutting stops when the cutting is achieved, the circular operation of the movement is achieved after the cutting is finished, the synchronism is strong, the transmission rollers 304 are connected and rotate at the same time through chain transmission, redundant motor cost is saved, the automation degree is high, the size of the cut optical films can be adjusted by changing the sizes of the gear 113 and the sector gear 112, and the universality is strong;

a slope channel 302 is arranged on one side of the dustproof channel 301, a plurality of groups of slope rollers 9 are rotatably connected in the slope channel 302, a right trapezoid frame 902 is arranged at the lower end of the slope channel 302, a bottom plate 901 is fixedly connected at the lower end of the right trapezoid frame 902, a support column 10 is fixedly connected at the lower end of the bottom plate 901, a plurality of groups of guide rollers 904 are arranged on the lower side of the slope of the right trapezoid frame 902, a plurality of groups of guide rollers 905 are arranged at the lower end of the slope channel 302, the guide rollers 904 and the guide rollers 905 are oppositely arranged, a vertical plate 903 is fixedly connected at the upper end of the bottom plate 901, the upper end of the vertical plate 903 is fixedly connected with the slope of the right trapezoid frame 902, a plurality of groups of rotating rollers 906 are rotatably connected on one side of the vertical plate 903, one end of the rotating rollers 906 is rotatably connected with the right trapezoid frame 902, and a square outlet 907 is arranged on one side of the right trapezoid frame 902,

specifically, the cut optical film sheets enter the slope channel 302 under the transportation of the transmission roller 304, a plurality of slope rollers 9 are arranged in the slope channel 302, under the action of gravity, the optical film sheets roll downwards along the slope rollers 9 and finally fall onto a plurality of groups of rotating rollers 906 in the right-angle trapezoid frame 902, the first guide rollers 904 and the second guide rollers 905 on the two sides limit the positions of the optical film sheets and correct the positions of the optical film sheets, when the next optical film sheet falls, the optical film sheet falls on the upper surface of the previous optical film sheet to form a stack, a worker can freely control the number of stacked layers, the universality is strong, and when the number of layers reaches, the optical film sheets can be pushed out from the square outlet 907 by using the material pushing assembly 7;

the material pushing assembly 7 comprises material pushing rods 701, three groups of material pushing rods 701 are arranged, the material pushing rods 701 penetrate through and are in sliding connection with a right-angled trapezoid frame 902, one end of each material pushing rod 701 is fixedly connected with a push plate 703, one end of each push plate 703 is fixedly connected with a piston rod 704, one end of each piston rod 704 is provided with an air cylinder 705, one end of each air cylinder 705 is fixedly connected with a material pushing box 702, each material pushing box 702 is fixedly connected with the right-angled trapezoid frame 902, each piston rod 704 penetrates through and is in sliding connection with each material pushing box 702, each material pushing rod 701 penetrates through and is in sliding connection with each material pushing box 702, one end of each material pushing rod 701 is provided with a clamping groove 706, and the height of each clamping groove 706 is larger than the thickness of the multilayer optical diaphragms,

specifically, during pushing, a worker controls the starting cylinder 705 to withdraw the piston rod 704, the piston rod 704 and the pushing box 702 slide to play a guiding role, the piston rod 704 drives the pushing plate 703 and the three groups of pushing rods 701 to move, the three groups of pushing rods 701 are equal in length, when the pushing rod contacts with an optical diaphragm group, the multilayer optical diaphragms can be further arranged and leveled, the optical diaphragm group is pushed out under the rolling action of the lower rotating roller 906, and the clamping groove 706 is formed in the head end of the pushing rod 701 and is higher than the optical diaphragm group in height, so that the optical diaphragm group can be clamped in the middle during pushing, the multilayer optical diaphragms are prevented from being warped, and the transportation stability is high;

the gluing component 6 comprises a first rotating rod 601, a second rotating rod 607 is arranged on one side of the first rotating rod 601, pressure rods 602 are arranged on the upper sides of the first rotating rod 601 and the second rotating rod 607, the first rotating rod 601 and the second rotating rod 607 are driven by a motor to rotate, supporting side plates 11 are rotatably connected with the two ends of the first rotating rod 601 and the second rotating rod 607, the supporting side plates 11 are fixedly connected with a right trapezoid frame 902, a gluing head 610 is arranged on one side of the supporting side plates 11, the gluing head 610 is positioned on one side of a gap between the first rotating rod 601 and the pressure rods 602, the gluing head 610 is connected with a gluing device, a scraper 609 is fixedly connected with one side of the supporting side plates 11, and the scraper 609 is positioned on one side of the gap between the second rotating rod 607 and the pressure rods 602,

specifically, the optical diaphragm group is pushed into the middle of a first rotating rod 601 and a pressing rod 602, the first rotating rod 601 is used for transmitting the optical diaphragm group, meanwhile, the first rotating rod 601 is used for further pressing the optical diaphragm group in a matching mode with the pressing rod 602, meanwhile, a gluing head 610 is arranged at the extrusion position for coating the optical diaphragm group, a plurality of layers of optical diaphragms are fixed together, and through extrusion, the optical diaphragm group cannot penetrate into a gap between the optical diaphragms during coating, so that the normal use of the optical diaphragms is influenced, then the optical diaphragm group enters the middle of a second rotating rod 607 and the pressing rod 602, and through arranging a scraper 609, redundant glue on the side face is further scraped and is uniformly coated on the side face of the optical diaphragm, so that the fixing effect of the glue is good;

two ends of the pressure lever 602 are rotatably connected with a concave plate 608, two ends of the lower side of the concave plate 608 are rotatably connected with limit rollers 606, four corners of the upper side of the concave plate 608 are provided with telescopic rods 603, the upper end of the telescopic rods 603 is provided with a top plate 605, the lower side of the top plate 605 is welded with a spring 604, the lower end of the spring 604 is welded with the concave plate 608, two sides of the top plate 605 are fixedly connected with the supporting side plate 11, the concave plate 608 is connected with the supporting side plate 11 in a sliding way,

specifically, a concave plate 608 is arranged to drive a pressure lever 602 to move, the concave plate 608 is pushed downwards through the elastic action of a spring 604 and the guiding action of a telescopic rod 603, so that the two pressure levers 602 always keep a downward acting force, the glue material is further prevented from permeating into an optical film interlayer, a limiting roller 606 is arranged to further limit the moving direction of the optical film group, and the accurate position is ensured during gluing and scraping;

the conveyor belt assembly 5 comprises a conveyor belt 501, the conveyor belt 501 is connected with the supporting side plate 11, one end of the conveyor belt 501 is arranged at the lower side of the second rotating rod 607,

specifically, the optical film assembly subjected to final gluing is sent out from the second rotating rod 607, falls onto the conveyor belt 501, is conveyed to the next process, and is assembled or packaged out of the warehouse.

In the description of the present application, it should be noted that, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, a fixed connection, a detachable connection, or an integral connection; may be mechanically connected, may be electrically connected or may be in communication with each other; may be directly connected, may be internal to the two elements or may be in an interactive relationship between the two elements. The meaning of the above terms in the present application can be understood by those of ordinary skill in the art as the case may be.

The optical film conveying apparatus provided in the embodiments of the present application is described in detail above, and specific examples are applied herein to explain the principles and embodiments of the present application, and the description of the embodiments is only used to help understanding the technical solutions and their core ideas of the present application; those of ordinary skill in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the present disclosure as defined by the appended claims.

Claims

1. The optical film conveying equipment comprises a conveying assembly (3), a discharging assembly (2), a cutting assembly (1), a wind power assembly (4), a pushing assembly (7), a gluing assembly (6) and a conveyor belt assembly (5); wherein,

the device comprises a feeding assembly (2), a conveying assembly (3), a cutting assembly (1), a wind power assembly (4), a conveyor assembly (6), a conveyor belt assembly (5) and a conveying assembly (3), wherein the feeding assembly (2) is used for placing optical membrane coiled materials, the conveying assembly (3) is used for pulling out and conveying the optical membranes in the feeding assembly (2), the cutting assembly (1) is arranged on the upper side of the conveying assembly (3), the cutting assembly (1) is used for cutting the optical membranes, the wind power assembly (4) is arranged on the lower side of the conveying assembly (3), the wind power assembly (4) is used for sucking out cutting slag and isolating dust outside the inlet end of the conveying assembly (3), the pushing assembly (7) is arranged at the outlet end of the conveying assembly (3), the pushing assembly (7) is used for pushing the multilayer optical membranes into the gluing assembly (6) simultaneously, the gluing assembly (6) is used for gluing and fixing the multilayer optical membranes, the conveyor belt assembly (5) is arranged on the lower side of the gluing assembly (6), and the conveyor belt assembly (5) is used for conveying the glued multilayer optical membranes to the next process;

the conveying assembly (3) comprises a dustproof channel (301), an inlet (303) is formed in one side of the dustproof channel (301), a plurality of groups of transmission rollers (304) are rotatably connected to two sides of the inner wall of the dustproof channel (301), pressing rollers (305) are oppositely arranged on the upper sides of the transmission rollers (304), the optical film is transmitted through the middles of the transmission rollers (304) and the pressing rollers (305), and the cutting assembly (1) is arranged at the upper end of the dustproof channel (301);

wind-force subassembly (4) are including air suction pipe (401), air suction pipe (401) set up under cutting the department, air suction pipe (401) run through in the lower bottom surface of dustproof passageway (301) and rather than fixed connection, the downside of air suction pipe (401) is provided with wind channel (402), the inside fixedly connected with diaphragm (403) of wind channel (402), one side of diaphragm (403) is provided with electric fan (404), the other end of wind channel (402) is provided with air-out pipeline (405), air-out pipeline (405) set up in the lower extreme of import (303) and rather than fixed connection, both sides are provided with filter screen (406) respectively around electric fan (404), filter screen (406) are fixed inside wind channel (402).

2. The optical film conveying apparatus according to claim 1, wherein: cutting assembly (1) is including cutter box (102), cutter box (102) run through in the upper end and the fixed connection of dustproof passageway (301), cutter box (102) inboard sliding connection has handle of a knife (103), guide way (105) have been seted up to the both sides of cutter box (102), the both ends of handle of a knife (103) slide in the inboard of guide way (105), the lower extreme fixedly connected with cutter (104) of handle of a knife (103), the lower extreme of cutter (104) is provided with and cuts roller (110), it is located air suction pipeline (401) to cut roller (110), the both ends of cutting roller (110) rotate with dustproof passageway (301) and are connected.

3. The optical film conveying apparatus according to claim 2, wherein: the utility model discloses a dustproof cutter, including handle of a knife (103), both ends fixedly connected with sliding plate (106), the inboard of sliding plate (106) and the side sliding connection of cutter box (102), the outside of sliding plate (106) is rotated and is connected with pendulum rod (107), the upper end of pendulum rod (107) is provided with runner (108), the edge of pendulum rod (107) upper end and runner (108) rotates and is connected, the well side fixedly connected with axis of rotation (109) of runner (108), be provided with biax motor (111) on axis of rotation (109), one side fixedly connected with headstock (101) of biax motor (111), the upside at dustproof passageway (301) is fixed in headstock (101), axis of rotation (109) run through in headstock (101) both sides wall and rather than rotate and be connected.

4. The optical film conveying apparatus according to claim 3, wherein: blowing subassembly (2) are including blowing section of thick bamboo (201), the upper end in import (303) is fixed in blowing section of thick bamboo (201), the one end fixedly connected with curb plate (202) of blowing section of thick bamboo (201), the inboard of blowing section of thick bamboo (201) is provided with blowing pole (203), blowing pole (203) run through in curb plate (202) and rotate rather than being connected, blowing pole (203) drive the optics diaphragm coiled material and rotate, the other end hinged joint of blowing section of thick bamboo (201) has apron (204), oblique below of blowing section of thick bamboo (201) is seted up quad slit (206), the lower extreme of quad slit (206) is provided with tensioning roller (205), tensioning roller (205) rotate with curb plate (202) and are connected.

5. The optical film conveying apparatus according to claim 4, wherein: fixedly connected with sector gear (112) on axis of rotation (109), the teeth of a cogwheel orientation direction of sector gear (112) is unanimous with the direction of pendulum rod (107) and runner (108) junction, one side meshing of sector gear (112) is connected with gear (113), centre of a circle department fixedly connected with bull stick (114) of gear (113), bull stick (114) run through in the lateral wall of headstock (101) and rotate rather than being connected, the one end of bull stick (114) is connected with the one end belt drive of blowing pole (203), the one end and the transmission roller (304) belt drive of blowing pole (203) are connected, a plurality of groups the one end of transmission roller (304) all runs through in dustproof passage (301) and is connected rather than rotating, the one end fixedly connected with sprocket (8) of transmission roller (304), a plurality of groups be the chain drive between transmission roller (304).

6. The optical film conveying apparatus according to claim 1, wherein: one side of dustproof channel (301) is provided with slope passageway (302), a plurality of groups of slope rollers (9) are rotationally connected in slope passageway (302), the lower extreme of slope passageway (302) is provided with right trapezoid frame (902), the lower extreme fixedly connected with bottom plate (901) of right trapezoid frame (902), the lower extreme fixedly connected with support column (10) of bottom plate (901), the inclined plane downside of right trapezoid frame (902) is provided with a plurality of groups of guide roller (904), the lower extreme of slope passageway (302) is provided with a plurality of groups of guide roller two (905), the relative setting in position of guide roller one (904) and guide roller two (905), the upper end fixedly connected with riser (903) of bottom plate (901), the upper end of riser (903) and the inclined plane fixed connection of right trapezoid frame (902), one side of riser (903) is rotated and is connected with a plurality of groups of rotation roller (906), the one end of rotation roller (906) is rotated and is connected with right trapezoid frame (902), square export (907) has been seted up to one side of right trapezoid frame (902).

7. The optical film conveying apparatus according to claim 6, wherein: push away material subassembly (7) including material pushing rod (701), material pushing rod (701) are provided with three groups, material pushing rod (701) run through in right trapezoid frame (902) and rather than sliding connection, the one end fixedly connected with push pedal (703) of material pushing rod (701), the one end fixedly connected with piston rod (704) of push pedal (703), the one end of piston rod (704) is provided with cylinder (705), the one end fixedly connected with of cylinder (705) pushes away workbin (702), push away workbin (702) and right trapezoid frame (902) fixed connection, piston rod (704) run through in material pushing box (702) and rather than sliding connection, material pushing rod (701) run through in material pushing box (702) and rather than sliding connection, draw-in groove (706) have all been seted up to the one end of material pushing rod (701), the height of draw-in groove (706) is greater than multilayer optical film's thickness.

8. The optical film conveying apparatus according to claim 7, wherein: rubber coating subassembly (6) are including rotary rod one (601), one side of rotary rod one (601) is provided with rotary rod two (607), the upside of rotary rod one (601) and rotary rod two (607) all is provided with depression bar (602), rotary rod one (601) and rotary rod two (607) are driven by the motor and are rotated, the both ends of rotary rod one (601) and rotary rod two (607) all rotate and are connected with support curb plate (11), support curb plate (11) and right trapezoid frame (902) fixed connection, one side of supporting curb plate (11) is provided with rubber coating head (610), rubber coating head (610) are located rotary rod one (601) and the crack one side of depression bar (602), rubber coating head (610) are connected with the rubber coating device, one side fixedly connected with scraper blade (609) of supporting curb plate (11), scraper blade (609) are located rotary rod two (607) and the crack one side of depression bar (602).

9. The optical film conveying apparatus according to claim 8, wherein: the two ends of the compression rod (602) are rotatably connected with concave plates (608), two ends of the lower side of each concave plate (608) are rotatably connected with limiting rollers (606), telescopic rods (603) are arranged at four corners of the upper side of each concave plate (608), a top plate (605) is arranged at the upper end of each telescopic rod (603), springs (604) are welded to the lower side of each top plate (605), the lower ends of the springs (604) are welded to the concave plates (608), two sides of each top plate (605) are fixedly connected with the supporting side plates (11), and the concave plates (608) are slidably connected with the supporting side plates (11).

10. The optical film conveying apparatus according to claim 9, wherein: the conveyor belt assembly (5) comprises a conveyor belt (501), the conveyor belt (501) is connected with the supporting side plate (11), and one end of the conveyor belt (501) is arranged on the lower side of the second rotating rod (607).