CN112406296A - Film laminating equipment for polyimide film - Google Patents

Abstract

The invention discloses laminating equipment for a polyimide film, which relates to the technical field of polyimide films, and adopts the technical scheme that: the automatic film laminating machine comprises a film laminating equipment body, a shell, a gluing device, a fixed cutting device, a first conveyor belt, a film drawing device, a first film pressing device, a cutting device, a second conveyor belt and a second film pressing device, wherein the shell is arranged on the outer surface of the film laminating equipment body, a first precision bearing is arranged on the inner wall of one side of the shell, a first precision bearing is fixedly connected to one side of the first precision bearing, a material roller is sleeved on the outer surface of the first rotation shaft, a second precision bearing is arranged on the inner wall of one side of the shell, and a second rotation shaft is fixedly connected to one side of the second precision bearing.

Description

Film laminating equipment for polyimide film

Technical Field

The invention relates to the technical field of polyimide films, in particular to laminating equipment for a polyimide film.

Background

The polyimide film includes a pyromellitic polyimide film and a biphenyl polyimide film, and the covering film is also called as ' laminating ', laminating adhesive ' or ' covering film ', and the covering film is a transparent plastic film which is covered and pasted on the surface of a printed matter through hot pressing to play a role in protecting and increasing luster.

The laminating equipment of current polyimide film can not carry out the tectorial membrane simultaneously to panel top and bottom fast, it is inhomogeneous when the brush is glued, need manually to go to brush or adopt the mode of spraying, polyimide film bubbling when these two kinds of modes all lead to the inhomogeneous pressure membrane of brush glue easily, and when drawing membrane and excision tectorial membrane back panel unnecessary membrane on every side, need the staff manually to go to pull and cut, waste time and manpower, the efficiency of precision not high and tectorial membrane is not high, the practicality is not strong.

Disclosure of Invention

Therefore, the invention provides laminating equipment for a polyimide film, which solves the problems in the background technology by arranging two groups of material rollers, pulling rollers, rotating rollers and gluing devices, two groups of fixed cutting devices, a film pulling device, a film pressing device I, a cutting device II, a plurality of hydraulic cylinders, electric sliding rails, electric telescopic rods and four groups of blade seats and blades.

In order to achieve the above purpose, the invention provides the following technical scheme: a laminating device for polyimide films comprises a laminating device body, a shell, a gluing device, a fixed cutting device, a first conveyor belt, a film drawing device, a first film pressing device, a cutting device, a second conveyor belt and a second film pressing device, wherein the outer surface of the laminating device body is provided with the shell, a first precision bearing is installed on the inner wall of one side of the shell, a first precision bearing side fixed connection rotating shaft is arranged, a material roller is sleeved on the outer surface of the first rotating shaft, a second precision bearing is installed on the inner wall of one side of the shell, a second precision bearing is fixedly connected on one side of the second precision bearing, a pulling roller is sleeved on the outer surface of the second rotating shaft, a third precision bearing is installed on the inner wall of one side of the shell, a third precision bearing side fixed connection rotating shaft is arranged, a rotating roller is sleeved on the outer surface of the third, the inner wall of the gluing device is provided with a glue cavity, the inner wall of one side of the gluing device is provided with a precision bearing IV, one side of the precision bearing IV is fixedly connected with a rotating shaft IV, the outer surface of the rotating shaft IV is sleeved with a glue spreading roller, the outer surface of the left side of the gluing device is provided with a rubber tube, one end of the rubber tube is fixedly connected with a rubber storage box, the top of the rubber storage box is provided with a glue inlet, the inner wall of one side of the shell is provided with a first precision gear rail I, the inner wall of the first precision gear rail I is meshed with a gear belt, the inner wall of the gear belt is meshed with a first rotating gear I, the inner wall of the gear belt is meshed with a second rotating gear, the second rotating gear is fixedly connected with a servo motor output end, the one side of the rotating gear is sleeved with a first rotating rod, one side of the sliding seat I is fixedly connected with a fixed rod, one end of the fixed rod is fixedly connected with the blade seat I, the bottom of the blade seat I is provided with a blade I, one end of the rotating rod is fixedly connected with a limit plate I, one side of the limit plate I is fixedly connected with a rotating rod II, one side of the fixed cutting device is provided with a support rod, one end of the support rod is provided with a fixed plate, one side of the fixed cutting device is provided with an electric telescopic rod I, the inner wall of one side of the shell is provided with a conveyor belt I, the inner wall of one side of the shell is provided with a sliding groove, the inner wall of the sliding groove is provided with a sliding beam, one end of the sliding beam is fixedly connected with a film drawing device, the inner wall of the film drawing device is provided with a servo motor, the output, a first rotating bearing is installed at one end of the second rotating rod, a second precise gear rail is installed on the outer surface of one side of the shell, a first hydraulic cylinder is fixedly connected to one side of the sliding beam, a first moving rod is fixedly connected to the output end of the first hydraulic cylinder, a first fixing ring is sleeved on the outer surface of the first moving rod, an opening is formed in the outer surface of one side of the fixing ring, a sliding plate is fixedly installed at the bottom of the sliding beam, a second limiting plate is fixedly connected to the bottom end of the sliding plate, a clamping plate is sleeved on the outer surface of the sliding plate, a fixed clamping block is fixedly connected to one side of the clamping plate, a bottom rubber bump is installed at the bottom of the sliding beam, a top rubber bump is installed at the top of the clamping plate, a cross beam is installed on the inner wall of one side, the cutting device is installed to casing one side inner wall, cutting device installs electronic slide rail two in one side, two one sides of electronic slide rail are equipped with sliding seat two, two one sides fixed connection electric telescopic handle two of sliding seat, two one end fixed connection blade bearing two of electric telescopic handle, two bottom fixed connection blades of blade bearing two, conveyer belt two is installed to casing one side inner wall.

Preferably, the material roller passes through axis of rotation one and precision bearing one rotates with shells inner wall to be connected, it rotates with shells inner wall through precision bearing two and axis of rotation two to drag the roller to be connected, the live-rollers passes through precision bearing three, axis of rotation three and shells inner wall rotates to be connected, material roller, precision bearing one, axis of rotation one, material roller, precision bearing two, axis of rotation two, drag the roller, precision bearing three, axis of rotation three and live-rollers uniform mount at shells inner wall, material roller, precision bearing one, axis of rotation one, material roller, precision bearing two, axis of rotation two, drag roller, precision bearing three, axis of rotation three and live-rollers's quantity sets up to two sets of.

Preferably, the glue spreading roller is rotatably connected with the glue spreading device through a fourth precision bearing and a fourth rotating shaft, the glue spreading devices are uniformly arranged on the inner wall of one side of the shell, and the number of the glue spreading devices is two.

Preferably, fixed cutting device passes through accurate gear rail one and gear area and shells inner wall sliding connection, blade seat one and blade one through electronic slide rail one and sliding seat one with fixed cutting device sliding connection, electronic slide rail one, sliding seat one, dead lever, blade seat one, blade one are evenly installed at fixed cutting device top, electronic slide rail one, sliding seat one, dead lever, blade seat one, blade one are evenly installed and are set up to two sets of at fixed cutting device's quantity, blade one and fixed plate are on same water flat line, fixed cutting device evenly installs at shells one side inner wall, fixed cutting device's quantity sets up to two sets of, the fixed plate passes through electronic telescopic link one and fixed cutting device removes the connection.

Preferably, draw the membrane device to pass through sliding beam and sliding tray and casing one side inner wall sliding connection, dwang two through rolling bearing one with draw membrane device inner wall to rotate and be connected, rolling bearing one with draw membrane device inner wall fixed connection, the meshing of rolling gear three and accurate gear rail two is connected.

Preferably, the clamping plates are connected with the sliding plate in a sliding mode, the film drawing devices are uniformly installed on the inner wall of one side of the shell, the number of the film drawing devices is four, the openings are detachably connected with the fixed clamping blocks, the fixed clamping blocks are the same as the openings in size, one side of each fixed clamping block is arc-shaped, and the bottom rubber convex blocks are connected with the top rubber convex blocks in an opening and closing mode through the first moving rods and the first hydraulic cylinders.

Preferably, press mold device one and second hydraulic cylinder uniform mount are at crossbeam bottom and casing bottom inner wall, the quantity of press mold device one and second hydraulic cylinder sets up to two sets ofly, it is two sets of open and shut through second hydraulic cylinder between the press mold device one and connect.

Preferably, the cutting devices are uniformly arranged on the inner wall of one side of the shell, the number of the cutting devices is two, the sliding seat II is in sliding connection with the cutting devices through an electric sliding rail II, and the blade seat II and the blade II are in moving connection with the cutting devices through an electric telescopic rod II.

Preferably, pneumatic cylinder three is installed to the crossbeam bottom, carriage release lever two is installed to pneumatic cylinder three output, solid fixed ring two is cup jointed to carriage release lever both surfaces, gu two bottom fixed connection pressure membrane device two of fixed ring, rolling bearing two is installed to two one side inner walls of pressure membrane device, rolling bearing three is installed to two one sides of rolling bearing, heating pressure membrane stick is cup jointed to three surfaces of dwang.

Preferably, press mold device two, solid fixed ring two, carriage release lever two and three uniform installations of pneumatic cylinder are at crossbeam bottom and bottom of the case inner wall, press mold device two, solid fixed ring two, carriage release lever two and the three quantity of pneumatic cylinder set up to two sets of, heating press mold stick is connected through rotating with two rolling bearing and three and two press mold device of dwang, press mold device two passes through the three removal of pneumatic cylinder with the crossbeam and is connected.

The invention has the beneficial effects that:

1. the material roller is rotationally connected with the inner wall of the shell through a first rotating shaft and a first precision bearing, the pulling roller is rotationally connected with the inner wall of the shell through a second precision bearing and a second rotating shaft, the rotating roller is rotationally connected with the inner wall of the shell through a third precision bearing and a third rotating shaft, the material roller, the first precision bearing, the first rotating shaft, the material roller, the second precision bearing, the second rotating shaft, the pulling roller, the third precision bearing, the third rotating shaft and the rotating rollers are uniformly arranged on the inner wall of the shell, when the laminating equipment body needs to be used, firstly, a worker sleeves two groups of polyimide films on the two groups of material rollers, then, one end of the polyimide film is wound from the tops of the two groups of pulling rollers, then, the tops of the two groups of glue spreading rollers and the bottoms of the two groups of rotating rollers are wound, pulling to a film drawing device, starting a first hydraulic cylinder, moving a clamping plate, clamping one ends of two groups of polyimide films by a top rubber lug at the bottom of a sliding beam and a bottom rubber lug at the top of the clamping plate, then placing a plate needing film coating on a first conveyor belt, starting the first conveyor belt to move the plate to the middle of a fixed plate arranged at one side of two groups of fixed cutting devices, then starting a first electric telescopic rod to clamp the plate, then starting a second servo motor to rotate a second rotating gear to rotate on a first precise gear rail and move the plate to the middle of a pressing plate of the first two groups of film pressing devices by a fixed cutting device, then starting the first servo motor, rotating a third rotating gear to slide on the second precise gear rail, starting one ends of two groups of polyimide films clamped by the film drawing devices arranged on the film drawing device, pulling to the positions of the top and the bottom of the plate which are relatively horizontal, and starting, the pressing plate is heated to the temperature required by the film covering, then two sets of pressing plates are pushed by two sets of hydraulic cylinders, the polyimide film is pressed at the top and the bottom of the plate, and the effect of quickly covering the film on the top surface and the bottom surface of the plate is achieved.

2. The glue spreader rotates through four precision bearings and rotation axis four and is connected with the rubber coating device, and the rubber coating device is evenly installed at casing one side inner wall, and the quantity of rubber coating device sets up to two sets ofly, and when drawing the membrane device and dragging the polyimide film, the inner wall of polyimide film rubs on the glue spreader of installation on the rubber coating device, and it is rotatory to drive the glue spreader, and the glue of gluing intracavity is taken out and is applied paint on the polyimide film with a brush by the glue spreader, accomplishes the brush and glues.

3. The fixed cutting device is connected with the inner wall of the shell in a sliding way through a first precise gear rail and a gear belt, a first blade seat and a first blade are connected with the fixed cutting device in a sliding way through a first electric slide rail and a first sliding seat, the first electric slide rail, the first sliding seat, a fixed rod, the first blade seat and the first blade are uniformly arranged at the top of the fixed cutting device, the first electric slide rail, the first sliding seat, the fixed rod, the first blade seat and the first blade are uniformly arranged at two groups of fixed cutting devices, the first blade and the fixed plate are on the same horizontal line, the fixed cutting device is uniformly arranged at the inner wall of one side of the shell, the fixed cutting devices are arranged into two groups, the fixed plate is movably connected with the fixed cutting device through a first electric telescopic rod, when the two groups of hydraulic cylinders push the two groups of pressing plates, a polyimide film is pressed at the top and the bottom of the plate, at the moment, the redundant polyimide films on the top and the bottom of the plate are scratched by the two groups of blade seats I and the blades I, so that the redundant polyimide films are automatically cut off, the labor is saved, and the film laminating efficiency is improved.

4. Splint and sliding plate sliding connection, draw the membrane device evenly to install at casing one side inner wall, the quantity that draws the membrane device sets up to four groups, the trompil can be dismantled with fixed fixture block and be connected, fixed fixture block is the same with the trompil size, fixed fixture block one side is the arc, end rubber convex block opens and shuts through carriage release lever one and pneumatic cylinder one and is connected with a rubber convex block, the one end of two sets of polyimide films is cliied to the end rubber convex block through the top rubber convex block of sliding beam bottom and splint top, clip the polyimide film, the completion is drawn the membrane work, use manpower sparingly.

5. Film pressing device one and pneumatic cylinder two are evenly installed at crossbeam bottom and bottom of the shell inner wall, and the quantity of film pressing device one and pneumatic cylinder two sets of, opens and shuts through pneumatic cylinder two between two sets of film pressing device one and connect, at first starts the heating rod, heats the clamp plate to the temperature that the tectorial membrane needs, starts two sets of clamp plates of two sets of pneumatic cylinders promotion afterwards, presses the polyimide film in panel top and bottom, reaches the effect of carrying out the tectorial membrane simultaneously to panel top surface and bottom surface fast.

6. Cutting device evenly installs at casing one side inner wall, cutting device's quantity sets up to two sets ofly, sliding seat two is through two and cutting device sliding connection of electric slide rail, two blade seats and two blades are through two and cutting device removal connections of electric telescopic handle, after having cut the unnecessary polyimide film of panel top surface and bottom surface one side, the unnecessary polyimide film of opposite side then aims at the unnecessary polyimide film one side of panel one side with two blade seats and two blades through starting two electric slide rail on the cutting device, start electric telescopic handle two afterwards, two blade seats and two blades slide, cut unnecessary polyimide film, accomplish the unnecessary polyimide film cutting of opposite side, reach and use manpower sparingly, improve the effect of tectorial membrane efficiency.

7. The second film pressing device, the second fixing ring, the second moving rod and the third hydraulic cylinder are uniformly arranged on the bottom of the beam and the inner wall of the bottom of the shell, the second film pressing device, the second fixing ring, the second moving rod and the third hydraulic cylinder are arranged in two groups, the second heating film pressing rod is rotationally connected with the second film pressing device through a second rotating bearing and a third rotating rod, the second film pressing device is movably connected with the beam through a third hydraulic cylinder, a second servo motor is started, a second rotating gear is rotated to slide in a second precision gear rail, one ends of two groups of polyimide films clamped by the film pulling devices arranged on the film pulling devices are started to be pulled to the positions, relative to the horizontal positions, of the top and the bottom of the plate, the second heating film pressing rod is firstly heated to the temperature required by film covering, then the third hydraulic cylinders are started to press the second film pressing devices at the top and the bottom of the plate, then the fixed cutting device is started to move the plate, the effect of quickly laminating the top surface and the bottom surface of the plate simultaneously is achieved.

Drawings

FIG. 1 is an effect diagram of a laminating apparatus provided by the present invention;

FIG. 2 is an effect diagram of the glue spreading device provided by the invention;

FIG. 3 is a diagram illustrating the effect of the fixed cutting device according to the present invention;

FIG. 4 is a diagram illustrating an effect of the film drawing apparatus according to the present invention;

FIG. 5 is a structural diagram of a film drawing device according to the present invention;

FIG. 6 is a diagram illustrating the effect of the cutting device according to the present invention;

FIG. 7 is an effect diagram of a film coating apparatus body according to embodiment 2 of the present invention;

fig. 8 is a diagram illustrating two effects of the film pressing device according to embodiment 2 of the present invention.

In the figure: the laminating machine comprises a laminating equipment body 100, a shell 101, a first precision bearing 102, a first rotating shaft 103, a material roller 104, a second precision bearing 105, a second rotating shaft 106, a pulling roller 107, a third precision bearing 108, a third rotating shaft 109, a rotating roller 110, a first precision gear rail 111, a cross beam 112, a sliding groove 113, a second precision gear rail 114, a gluing device 200, a fourth precision bearing 201, a fourth rotating shaft 202, a gluing roller 203, a rubber tube 204, a rubber storage box 205, a rubber inlet 206, a fixing rod 207, a rubber cavity 208, a fixed cutting device 300, a first electric sliding rail 301, a first sliding seat 302, a fixing rod 303, a first blade seat 304, a first blade 305, a first rotating rod 306, a first rotating gear 307, a gear belt 308, a second rotating gear 309, a second servo motor 310, a second rotating rod 311, a first limit plate 312, a supporting rod 313, a fixing plate 314, a first electric telescopic rod 315, a first conveying belt 400, a film pulling device 500, a, The device comprises a sliding beam 503, a sliding plate 504, a clamping plate 505, a second limit plate 506, an opening 507, a fixed clamping block 508, a first fixed ring 509, a bottom rubber bump 510, a top rubber bump 511, a first servo motor 512, a transmission shaft 513, a bevel gear set 514, a second rotating rod 515, a third rotating gear 516, a first rotating bearing 517, a first film pressing device 600, a heating rod 601, a second hydraulic cylinder 602, a pressing plate 603, a cutting device 700, a second electric sliding rail 701, a second electric telescopic rod 702, a second sliding seat 703, a second blade seat 704, a second blade 705, a second conveyor belt 800, a second film pressing device 900, a second fixed ring 901, a second moving rod 902, a third hydraulic cylinder 903, a second rotating bearing 904, a third rotating rod 905 and a heated film pressing rod 906.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example 1:

referring to the attached drawings 1-6, the laminating device for the polyimide film provided by the invention comprises a laminating device body 100, a shell 101, a gluing device 200, a fixed cutting device 300, a first conveyor belt 400, a film drawing device 500, a first film pressing device 600, a cutting device 700, a second conveyor belt 800 and a second film pressing device 900, wherein the shell 101 is arranged on the outer surface of the laminating device body 100, a first precision bearing 102 is arranged on the inner wall of one side of the shell 101, a first rotating shaft 103 is fixedly connected to one side of the first precision bearing 102, a material roller 104 is sleeved on the outer surface of the first rotating shaft 103, a second precision bearing 105 is arranged on the inner wall of one side of the shell 101, a second rotating shaft 106 is fixedly connected to one side of the second precision bearing 105, a pulling roller 107 is sleeved on the outer surface of the second rotating shaft 106, a third precision bearing 108 is arranged on the inner wall of one side, a fixed rod 207 is arranged on the inner wall of the left side of the shell 101, one end of the fixed rod 207 is fixedly connected with the gluing device 200, the inner wall of the gluing device 200 is provided with a glue cavity 208, the inner wall of one side of the gluing device 200 is provided with a precision bearing four 201, one side of the precision bearing four 201 is fixedly connected with a rotating shaft four 202, the outer surface of the rotating shaft four 202 is sleeved with a glue spreading roller 203, the outer surface of the left side of the gluing device 200 is provided with a glue tube 204, one end of the glue tube 204 is fixedly connected with a glue storage box 205, the top of the glue storage box 205 is provided with a glue inlet 206, the inner wall of one side of the shell 101 is provided with a precision gear rail I111, the inner wall of the precision gear rail I111 is engaged and connected with a gear belt 308, the inner wall of the gear belt 308 is engaged and connected with a rotating gear, the top of the fixed cutting device 300 is provided with a first electric slide rail 301, the top of the first electric slide rail 301 is provided with a first slide seat 302, one side of the first slide seat 302 is fixedly connected with a fixed rod 303, one end of the fixed rod 303 is fixedly connected with a first blade seat 304, the bottom of the first blade seat 304 is provided with a first blade 305, one end of the first rotating rod 306 is fixedly connected with a first limit plate 312, one side of the first limit plate 312 is fixedly connected with a second rotating rod 311, one side of the fixed cutting device 300 is provided with a support rod 313, one end of the support rod 313 is provided with a fixed plate 314, one side of the fixed cutting device 300 is provided with a first electric telescopic rod 315, the inner wall of one side of the shell 101 is provided with a first conveyor belt 400, the inner wall of one side of the shell 101 is provided with a sliding groove 113, the inner wall of, one end of a transmission shaft 513 is fixedly connected with a bevel gear set 514, the inner wall of the bevel gear set 514 is sleeved with a rotating rod two 515, the outer surface of the rotating rod two 515 is sleeved with a rotating gear three 516, one end of the rotating rod two 515 is provided with a rotating bearing one 517, the outer surface of one side of the shell 101 is provided with a precision gear rail two 114, one side of the sliding beam 503 is fixedly connected with a hydraulic cylinder one 501, the output end of the hydraulic cylinder one 501 is fixedly connected with a moving rod one 502, the outer surface of the moving rod one 502 is sleeved with a fixing ring one 509, the outer surface of one side of the fixing ring one 509 is provided with an opening 507, the bottom of the sliding beam 503 is fixedly provided with a sliding plate 504, the bottom of the sliding plate 504 is fixedly connected with a limiting plate two 506, the outer surface of the sliding plate 504 is sleeved with a clamping plate, the first film pressing device 600 is installed at the bottom of the second hydraulic cylinder 602, the pressing plate 603 is installed at the top of the first film pressing device 600, the heating rod 601 is sleeved on the inner wall of the pressing plate 603, the cutting device 700 is installed on the inner wall of one side of the shell 101, the second electric sliding rail 701 is installed on one side of the cutting device 700, the second sliding seat 703 is arranged on one side of the second electric sliding rail 701, the second electric telescopic rod 702 is fixedly connected to one side of the second sliding seat 703, the second electric telescopic rod 702 is fixedly connected to one end of the second electric telescopic rod 702 and is fixedly connected to the second blade seat 704, the.

Furthermore, the material roller 104 is rotatably connected with the inner wall of the shell 101 through a first rotating shaft 103 and a first precision bearing 102, the pulling roller 107 is rotatably connected with the inner wall of the shell 101 through a second precision bearing 105 and a second rotating shaft 106, the rotating roller 110 is rotatably connected with the inner wall of the shell 101 through a third precision bearing 108 and a third rotating shaft 109, the material roller 104, the first precision bearing 102, the first rotating shaft 103, the material roller 104, the second precision bearing 105, the second rotating shaft 106, the pulling roller 107, the third precision bearing 108, the third rotating shaft 109 and the rotating roller 110 are uniformly arranged on the inner wall of the shell 101, the material roller 104, the first precision bearing 102, the first rotating shaft 103, the material roller 104, the second precision bearing 105, the second rotating shaft 106, the pulling roller 107, the third precision bearing 108, the third rotating shaft 109 and the rotating roller 110 are arranged into two groups, when the laminating device body 100 is required to be used, firstly, a worker sleeves the two groups of, then one end of the polyimide film is wound around the tops of the two groups of pulling rollers 107, then the polyimide film is wound around the tops of the two groups of glue coating rollers 203 and the bottoms of the two groups of rotating rollers 110 and pulled to a film drawing device 500, then a first hydraulic cylinder 501 is started, a clamping plate 505 is moved, one ends of the two groups of polyimide films are clamped through a top rubber bump 511 at the bottom of a sliding beam 503 and a bottom rubber bump 510 at the top of the clamping plate 505, then a plate needing film coating is placed on a first conveyor belt 400, the first conveyor belt 400 is started to move the plate to the middle of a fixing plate 314 arranged at one side of the two groups of fixed cutting devices 300, then a first electric telescopic rod 315 is started to clamp the plate, then a second servo motor 310 is started to rotate a second rotating gear 309 on a first precision gear rail 111, the plate is moved to the middle of a pressing plate 603 of the two groups of film pressing devices 600 through, slide on two accurate gear rails 114, the one end of two sets of polyimide films that the membrane device 500 of drawing that the installation was gone up to the start membrane device 500 was installed is drawn to the top of panel and the relative horizontally position in bottom, starts heating rod 601 earlier, heats clamp plate 603 to the temperature that the tectorial membrane needs, starts two sets of pneumatic cylinders two 602 afterwards and promotes two sets of clamp plates 603, presses the polyimide film at panel top and bottom, reaches the effect of carrying out the tectorial membrane simultaneously to panel top surface and bottom surface fast.

Further, the glue spreader 203 rotates through four 201 precision bearings and four 202 axes of rotation and is connected with the rubber coating device 200, the rubber coating device 200 is evenly installed at the inner wall of one side of the shell 101, the number of the rubber coating device 200 is set to two groups, when the film drawing device 500 draws the polyimide film, the inner wall of the polyimide film rubs on the glue spreader 203 installed on the rubber coating device 200, the glue spreader 203 is driven to rotate, the glue in the glue cavity 208 is taken out by the glue spreader 203 and coated on the polyimide film, and the glue brushing is completed.

Further, the fixed cutting device 300 is slidably connected with the inner wall of the housing 101 through a first precision gear rail 111 and a gear belt 308, a first blade seat 304 and a first blade 305 are slidably connected with the fixed cutting device 300 through a first electric slide rail 301 and a first slide seat 302, the first electric slide rail 301, the first slide seat 302, a fixing rod 303, the first blade seat 304 and the first blade 305 are uniformly installed at the top of the fixed cutting device 300, the first electric slide rail 301, the first slide seat 302, the fixing rod 303, the first blade seat 304 and the first blade 305 are uniformly installed at two groups of the fixed cutting device 300, the first blade 305 and the fixing plate 314 are on the same horizontal line, the fixed cutting device 300 is uniformly installed at the inner wall of one side of the housing 101, the number of the fixed cutting device 300 is two groups, the fixing plate 314 is movably connected with the fixed cutting device 300 through a first electric telescopic rod 315, when the two groups of hydraulic cylinders 602, press the polyimide film at panel top and bottom, accomplish the tectorial membrane after, start the electronic slide rail 301 on two sets of fixed cutting device 300 and remove sliding seat 302, the unnecessary polyimide film in panel top and bottom both sides is drawn to two sets of blade bearing 304, blade 305 this moment, reaches and cuts the unnecessary polyimide film that comes out automatically, reaches and uses manpower sparingly, improves the effect of tectorial membrane efficiency.

Further, the film drawing device 500 is connected with the inner wall of one side of the shell 101 in a sliding mode through the sliding beam 503 and the sliding groove 113, the rotating rod II 515 is connected with the inner wall of the film drawing device 500 in a rotating mode through the rotating bearing I517, the rotating bearing I517 is fixedly connected with the inner wall of the film drawing device 500, the rotating gear III 516 is connected with the precision gear rail II 114 in a meshing mode, when the two sets of hydraulic cylinders II 602 push the two sets of pressing plates 603, the polyimide films are pressed at the top and the bottom of the plate, after film covering is completed, the two sets of electric sliding rails I301 on the fixed cutting device 300 are started to move the sliding seat I302, at the moment, the two sets of blade seats I304 and the blade I305 scratch the redundant polyimide films on the top and the bottom of the plate, redundant polyimide films are automatically cut, labor.

Further, the clamping plates 505 are slidably connected with the sliding plates 504, the film drawing devices 500 are uniformly installed on the inner wall of one side of the shell 101, the number of the film drawing devices 500 is four, the openings 507 are detachably connected with the fixed clamping blocks 508, the fixed clamping blocks 508 are the same as the openings 507 in size, one sides of the fixed clamping blocks 508 are arc-shaped, the bottom rubber bumps 510 are connected with the top rubber bumps 511 in an opening and closing mode through the first moving rods 502 and the first hydraulic cylinders 501, one ends of the two groups of polyimide films are clamped through the top rubber bumps 511 at the bottoms of the sliding beams 503 and the bottom rubber bumps 510 at the tops of the clamping plates 505, the polyimide films are clamped, the film drawing work.

Further, film pressing device 600 and hydraulic cylinder two 602 are evenly installed at crossbeam 112 bottom and casing 101 bottom inner wall, the quantity of film pressing device 600 and hydraulic cylinder two 602 sets up to two sets ofly, open and shut through hydraulic cylinder two 602 between two sets of film pressing device 600 and connect, at first start heating rod 601, heat clamp plate 603 to the temperature that the tectorial membrane needs, start two sets of hydraulic cylinder two 602 afterwards and promote two sets of clamp plates 603, press the polyimide film in panel top and bottom, reach the effect of carrying out the tectorial membrane simultaneously to panel top surface and bottom surface fast.

Further, the cutting devices 700 are uniformly installed on the inner wall of one side of the shell 101, the number of the cutting devices 700 is two, the sliding seat II 703 is in sliding connection with the cutting devices 700 through the electric sliding rail II 701, the blade seat II 704 and the blade II 705 are in moving connection with the cutting devices 700 through the electric telescopic rod II 702, after the redundant polyimide films on one side of the top surface and the bottom surface of the plate are cut, the redundant polyimide films on the other side are aligned to the blade seat II 704 and the blade II 705 on one side of the plate through starting the electric sliding rail II 701 on the cutting devices 700, then the electric telescopic rod II 702 is started, the sliding seat II 704 and the blade II 705 are started, the redundant polyimide films are cut, the redundant polyimide films on the other side are cut, manpower is saved, and the film covering efficiency is improved.

The using process of the invention is as follows: when the laminating equipment body 100 needs to be used, firstly, a worker sleeves two groups of polyimide films on two groups of material rollers 104, glue needed by laminating is poured into a glue storage box 205 from a glue inlet 206 until the glue storage box 205 and a glue cavity 208 are filled, then one end of each polyimide film is wound around the tops of two groups of pulling rollers 107, then the tops of two groups of glue coating rollers 203 and the bottoms of two groups of rotating rollers 110 are wound to a film drawing device 500, then a first hydraulic cylinder 501 is started, a clamping plate 505 is moved, one ends of the two groups of polyimide films are clamped through a top rubber bump 511 at the bottom of a sliding beam 503 and a bottom rubber bump 510 at the top of the clamping plate 505, then a plate needing laminating is placed on a first conveyor belt 400, the first conveyor belt 400 is started to move the plate to the middle of a fixing plate 314 arranged at one side of the two groups of fixed cutting devices 300, then a first electric telescopic rod 315 is started to clamp the plate, and then a second servo motor 310 is started to rotate a second rotating gear 309 on a The cutting device 300 moves the plate to the middle of the pressing plates 603 of the first two sets of film pressing devices 600, then the first servo motor 512 is started, the third rotating gear 516 is rotated to slide on the second precise gear rail 114, one ends of the two sets of polyimide films clamped by the film pulling device 500 installed on the film pulling device 500 are started to be pulled to the positions, relatively horizontal to the top and the bottom, of the plate, the heating rod 601 is started firstly to heat the pressing plates 603 to the temperature required by film coating, then the two sets of hydraulic cylinders 602 are started to push the two sets of pressing plates 603, the polyimide films are pressed on the top and the bottom of the plate, the effect of quickly coating the top and the bottom of the plate is achieved, when the polyimide films are pulled by the film pulling device 500, the inner walls of the polyimide films rub on the glue spreading rollers 203 installed on the glue coating device 200 to drive the glue spreading rollers 203 to rotate, glue in the glue cavities 208 is taken out by the glue spreading rollers 203 and coated on the, after the glue brushing is finished, when the two groups of hydraulic cylinders II 602 push the two groups of pressing plates 603, the polyimide films are pressed on the top and the bottom of the plate, after the film coating is finished, the electric slide rail I301 on the two groups of fixed cutting devices 300 is started to move the slide seat I302, at the moment, the two groups of blade seats I304 and the blade I305 scratch the redundant polyimide films on the two sides of the top and the bottom of the plate, the redundant polyimide films are automatically cut off, the labor is saved, and the film coating efficiency is improved, when the redundant polyimide films on one side of the top surface and the bottom surface of the plate are cut off, the redundant polyimide films on the other side aim the blade seats II 704 and the blade II 705 to one side of the redundant polyimide films on one side of the plate through the electric slide rail II 701 on the cutting device 700, then the electric telescopic rods II 702 are started, the blade seats II 704 and the blades II 705 are, accomplish the unnecessary polyimide film cutting of opposite side, reach and use manpower sparingly, improve the effect of tectorial membrane efficiency, start fixed cutting device 300 at last and press from both sides panel, place on two 800 conveyer belts, the staff lifts panel off, accomplishes the tectorial membrane.

Example 2:

referring to fig. 8, the laminating apparatus for a polyimide film provided by the invention comprises a film pressing device II 900, a fixing ring II 901, a moving rod II 902, a hydraulic cylinder III 903, a rotating bearing II 904, a rotating rod III 905 and a heating film pressing rod 906, specifically, the hydraulic cylinder III 903 is installed at the bottom of a cross beam 112, the moving rod II 902 is installed at the output end of the hydraulic cylinder III 903, the fixing ring II 901 is sleeved on the outer surface of the moving rod II 902, the bottom of the fixing ring II 901 is fixedly connected with the film pressing device II 900, the rotating bearing II 904 is installed on the inner wall of one side of the film pressing device II 900, the rotating rod III 905 is installed on one side of the rotating bearing II 904, and the heating film pressing rod 906.

Further, a second film pressing device 900, a second fixing ring 901, a second moving rod 902 and a third hydraulic cylinder 903 are uniformly arranged at the bottom of the beam 112 and the inner wall of the bottom of the shell 101, the number of the second film pressing device 900, the second fixing ring 901, the second moving rod 902 and the third hydraulic cylinder 903 is two, the second heating film pressing rods 906 are rotatably connected with the second film pressing device 900 through a second rotating bearing 904 and a third rotating rod 905, the second film pressing device 900 is movably connected with the beam 112 through a third hydraulic cylinder 903, a second servo motor 310 is started, a second rotating gear 309 is rotated and slides in a second precision gear rail 114, one ends of two groups of polyimide films clamped by a film pulling device 500 arranged on the film pulling device 500 are started to be pulled to the positions where the top and the bottom of the plate are relatively horizontal, the second heating film pressing rods 90 are firstly heated to the temperature required by film covering, and then the third hydraulic cylinders 903 are started to press the second film pressing devices 900 on the top and, and then starting the fixed cutting device 300, moving the plate, and finishing film coating by rolling the heating film pressing rod 90 on the surface of the plate.

The using process of the invention is as follows: when the laminating equipment body 100 needs to be used, firstly, a worker sleeves two groups of polyimide films on two groups of material rollers 104, glue needed by laminating is poured into a glue storage box 205 from a glue inlet 206 until the glue storage box 205 and a glue cavity 208 are filled, then one end of each polyimide film is wound around the tops of two groups of pulling rollers 107, then the tops of two groups of glue coating rollers 203 and the bottoms of two groups of rotating rollers 110 are wound, the glue coating devices 500 are pulled, a first hydraulic cylinder 501 is started, a clamping plate 505 is moved, one ends of the two groups of polyimide films are clamped through a top rubber bump 511 at the bottom of a sliding beam 503 and a bottom rubber bump 510 at the top of the clamping plate 505, then a plate needing laminating is placed on a first conveyor belt 400, the first conveyor belt 400 is started to move the plate to the middle of a fixing plate 314 arranged at one side of the two groups of fixed cutting devices 300, then a first electric telescopic rod 315 is started to clamp the plate, and then a second servo motor 310 is started to rotate a second rotating gear 309 on a The device 300 moves the panel to the middle of the clamp plate 603 of two sets of film pressing devices 600, then start the second servo motor 310, rotate the second rotary gear 309, slide in the second accurate gear rail 114, start the one end of two sets of polyimide films that the film pressing device 500 of installing cliied on the film pressing device 500, draw to the top of panel and on the relative horizontally position in bottom, at first heat the required temperature of tectorial membrane with heating film pressing stick 90, then start two sets of pneumatic cylinders three 903 and press two sets of film pressing devices 900 at the top and bottom of panel, start fixed cutting device 300 afterwards, remove panel, accomplish the tectorial membrane through the roll of heating film pressing stick 90 on the panel surface, reach the effect of carrying out the tectorial membrane simultaneously to panel top surface and bottom surface fast.

The above description is only a preferred embodiment of the present invention, and any person skilled in the art may modify the present invention or modify it into an equivalent technical solution by using the technical solution described above. Therefore, any simple modifications or equivalent substitutions made in accordance with the technical solution of the present invention are within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a laminating equipment for polyimide film, includes laminating equipment body (100), casing (101), rubber coating device (200), fixed cutting device (300), conveyer belt one (400), draws membrane device (500), press mold device one (600), cutting device (700), conveyer belt two (800) and press mold device two (900), its characterized in that: the laminating machine is characterized in that a shell (101) is arranged on the outer surface of the laminating machine body (100), a first precision bearing (102) is installed on the inner wall of one side of the shell (101), the first precision bearing (102) is fixedly connected with a first rotating shaft (103), the outer surface of the first rotating shaft (103) is sleeved with a material roller (104), a second precision bearing (105) is installed on the inner wall of one side of the shell (101), a second precision bearing (105) is fixedly connected with a second rotating shaft (106) on one side of the second precision bearing (105), a pulling roller (107) is sleeved on the outer surface of the second rotating shaft (106), a third precision bearing (108) is installed on the inner wall of one side of the shell (101), a third precision bearing (108) is fixedly connected with a third rotating shaft (109) on one side of the third precision bearing (108), a rotating roller (110) is sleeved, the inner wall of the gluing device (200) is provided with a glue cavity (208), the inner wall of one side of the gluing device (200) is provided with a precision bearing IV (201), one side of the precision bearing IV (201) is fixedly connected with a rotating shaft IV (202), the outer surface of the rotating shaft IV (202) is sleeved with a glue spreading roller (203), the outer surface of the left side of the gluing device (200) is provided with a rubber pipe (204), one end of the rubber pipe (204) is fixedly connected with a glue storage box (205), the top of the glue storage box (205) is provided with a glue inlet (206), the inner wall of one side of the shell (101) is provided with a first precision gear rail (111), the inner wall of the first precision gear rail (111) is meshed with a gear belt (308), the inner wall of the gear belt (308) is meshed with a first rotating gear (307), the inner wall of the gear belt (308) is meshed with a second, the first rotating gear (307) is sleeved with the first rotating rod (306) at one side, the first fixed cutting device (300) is installed at one end of the first rotating rod (306), the first electric sliding rail (301) is installed at the top of the fixed cutting device (300), the first sliding seat (302) is arranged at the top of the first electric sliding rail (301), the fixed connecting fixing rod (303) is arranged at one side of the first sliding seat (302), the first fixing blade seat (304) is fixedly connected with one end of the fixing rod (303), the first blade (305) is installed at the bottom of the first blade seat (304), the first limiting plate (312) is fixedly connected with one end of the first limiting plate (306), the second rotating rod (311) is fixedly connected with one side of the first limiting plate (312), the supporting rod (313) is installed at one side of the fixed cutting device (300), the fixing plate (314) is installed at one end of the supporting rod, the inner wall of one side of the shell (101) is provided with a first conveying belt (400), the inner wall of one side of the shell (101) is provided with a first sliding groove (113), the inner wall of the sliding groove (113) is provided with a sliding beam (503), one end of the sliding beam (503) is fixedly connected with a film drawing device (500), the inner wall of the film drawing device (500) is provided with a first servo motor (512), the output end of the first servo motor (512) is provided with a transmission shaft (513), one end of the transmission shaft (513) is fixedly connected with a bevel gear set (514), the inner wall of the bevel gear set (514) is sleeved with a second rotating rod (515), the outer surface of the second rotating rod (515) is sleeved with a third rotating gear (516), one end of the second rotating bearing (517) is provided with a first rotating bearing, the outer surface of one side of the shell (101) is, the output end of the first hydraulic cylinder (501) is fixedly connected with a first moving rod (502), the outer surface of the first moving rod (502) is sleeved with a first fixing ring (509), the outer surface of one side of the first fixing ring (509) is provided with an opening (507), the bottom of the sliding beam (503) is fixedly provided with a sliding plate (504), the bottom of the sliding plate (504) is fixedly connected with a second limiting plate (506), the outer surface of the sliding plate (504) is sleeved with a clamping plate (505), one side of the clamping plate (505) is fixedly connected with a fixed clamping block (508), the bottom of the sliding beam (503) is provided with a bottom rubber bump (510), the top of the clamping plate (505) is provided with a top rubber bump (511), the inner wall of one side of the shell (101) is provided with a cross beam (112), the bottom of the cross beam (112, pressing plate (603) are installed at press mold device (600) top, heating rod (601) is cup jointed to pressing plate (603) inner wall, cutting device (700) are installed to casing (101) one side inner wall, electric slide rail two (701) are installed to cutting device (700) one side, electric slide rail two (701) one side is equipped with sliding seat two (703), sliding seat two (703) one side fixed connection electric telescopic handle two (702), electric telescopic handle two (702) one end fixed connection blade seat two (704), blade seat two (704) bottom fixed connection blade two (705), conveyer belt two (800) are installed to casing (101) one side inner wall.

2. The laminating apparatus for polyimide film according to claim 1, characterized in that: material roller (104) is connected with casing (101) inner wall rotation through axis of rotation one (103) and precision bearing one (102), it is connected with casing (101) inner wall rotation to drag roller (107) through two (105) and two (106) of axis of rotation and rotation of precision bearing, it is connected with casing (101) inner wall rotation to rotate roller (110) through three (108) of precision bearing, three (109) of axis of rotation and rotation of casing (101), material roller (104), precision bearing one (102), axis of rotation one (103), material roller (104), two (105) of precision bearing, two (106) of axis of rotation, drag roller (107), three (108) of precision bearing, three (109) of axis of rotation and rotation roller (110) are evenly installed at casing (101) inner wall, material roller (104), first (102) of precision bearing, axis of rotation one (103), material roller (104), two (105) of precision bearing, two (106) of axis of rotation, drag roller (107), The number of the third precision bearing (108), the third rotating shaft (109) and the rotating roller (110) is set to two groups.

3. The laminating apparatus for polyimide film according to claim 1, characterized in that: the glue spreader (203) is rotationally connected with the gluing device (200) through a precision bearing four (201) and a rotating shaft four (202), the gluing device (200) is uniformly arranged on the inner wall of one side of the shell (101), and the number of the gluing device (200) is two.

4. The laminating apparatus for polyimide film according to claim 1, characterized in that: the fixed cutting device (300) is in sliding connection with the inner wall of the shell (101) through a first precise gear rail (111) and a gear belt (308), a first blade seat (304) and a first blade (305) are in sliding connection with the fixed cutting device (300) through a first electric sliding rail (301) and a first sliding seat (302), the first electric sliding rail (301), the first sliding seat (302), a fixing rod (303), the first blade seat (304) and the first blade (305) are uniformly installed at the top of the fixed cutting device (300), the first electric sliding rail (301), the first sliding seat (302), the fixing rod (303), the first blade seat (304) and the first blade (305) are uniformly installed at the fixed cutting device (300) and are arranged into two groups, the first blade (305) and the fixing plate (314) are on the same horizontal line, and the fixed cutting device (300) is uniformly installed on the inner wall of one side of the shell (101), the number (300) of the fixed cutting devices is two, and the fixed plate (314) is movably connected with the fixed cutting devices (300) through a first electric telescopic rod (315).

5. The laminating apparatus for polyimide film according to claim 1, characterized in that: draw membrane device (500) through sliding beam (503) and sliding tray (113) and casing (101) one side inner wall sliding connection, dwang two (515) through rolling bearing (517) with draw membrane device (500) inner wall rotation and be connected, rolling bearing (517) with draw membrane device (500) inner wall fixed connection, three (516) of running gear are connected with two (114) meshing of precision gear rail.

6. The laminating apparatus for polyimide film according to claim 1, characterized in that: the film drawing device comprises clamping plates (505), a sliding plate (504), film drawing devices (500), a fixing clamping block (508), a movable rod I (502), a hydraulic cylinder I (501) and a top rubber lug (511), wherein the clamping plates (505) are connected with the sliding plate (504) in a sliding mode, the film drawing devices (500) are uniformly installed on the inner wall of one side of a shell (101), the number of the film drawing devices (500) is four, the opening holes (507) are detachably connected with the fixing clamping block (508), the size of the fixing clamping block (508) is the same as that of the opening hole (507), one side of the fixing clamping block (508) is arc-.

7. The laminating apparatus for polyimide film according to claim 1, characterized in that: film pressing device (600) and pneumatic cylinder two (602) are evenly installed in crossbeam (112) bottom and casing (101) bottom inner wall, the quantity of film pressing device (600) and pneumatic cylinder two (602) sets up to two sets of, it is two sets of open and shut through pneumatic cylinder two (602) between film pressing device (600) and connect.

8. The laminating apparatus for polyimide film according to claim 1, characterized in that: the cutting devices (700) are uniformly arranged on the inner wall of one side of the shell (101), the number of the cutting devices (700) is two, the sliding seat II (703) is in sliding connection with the cutting devices (700) through the electric sliding rail II (701), and the blade seat II (704) and the blade II (705) are in moving connection with the cutting devices (700) through the electric telescopic rod II (702).

9. The laminating apparatus for polyimide film according to claim 1, characterized in that: pneumatic cylinder three (903) is installed to crossbeam (112) bottom, movable rod two (902) is installed to pneumatic cylinder three (903) output, solid fixed ring two (901) is cup jointed to movable rod two (902) surface, gu fixed ring two (901) bottom fixed connection press mold device two (900), rolling bearing two (904) are installed to press mold device two (900) one side inner wall, rolling bearing two (904) one side is installed dwang three (905), the heating press mold stick (906) is cup jointed to dwang three (905) surface.

10. The laminating apparatus for polyimide film according to claim 9, characterized in that: film pressing device two (900), solid fixed ring two (901), carriage release lever two (902) and pneumatic cylinder three (903) are evenly installed at crossbeam (112) bottom and casing (101) bottom inner wall, the quantity of film pressing device two (900), solid fixed ring two (901), carriage release lever two (902) and pneumatic cylinder three (903) sets up to two sets of, heating film pressing stick (906) rotate with film pressing device two (900) through with rolling bearing two (904) and dwang three (905) and be connected, film pressing device two (900) and crossbeam (112) are through pneumatic cylinder three (903) removal connection.

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