CN210378595U - FFC rubberizing device - Google Patents

Abstract

The utility model discloses a FFC rubberizing device relates to FFC and makes the field, which comprises a bod, from left to right set gradually put FFC put on the fuselage receive the isolation diaphragm subassembly, receive the isolation diaphragm, put the rubberizing subassembly of putting of double faced adhesive tape, rubberizing subassembly, pull FFC driven pull the subassembly and receive the receipts material subassembly of receiving FFC behind the rubberizing, still be provided with control FFC rubberizing device's control panel on the fuselage, the utility model discloses can realize peeling off the isolation diaphragm and can carry out the double faced adhesive tape automatically before pasting the double faced adhesive tape, the utility model discloses can realize that the cutter cuts the length of double faced adhesive tape unanimously, the dynamics size of rubberizing is unanimous.

Description

FFC rubberizing device

Technical Field

The utility model relates to a FFC makes the field, in particular to FFC rubberizing device.

Background

FFC flexible flat cable is one kind with PET insulating material and extremely thin tinned flat copper line, the novel data cable that forms through high-tech automation equipment production line pressfitting, it is soft to have, it is folding to bend at will, thickness is thin, small, connect simply, it is convenient to dismantle, advantages such as electromagnetic shield are solved easily, there is the rubberizing process in the FFC manufacturing process, the rubberizing process in the current society uses the manual work to carry out the rubberizing, can appear pasting askewly at the in-process of rubberizing, the dynamics of rubberizing is not of uniform size scheduling problem, need peel off the barrier film earlier before pasting the double faced adhesive tape simultaneously, need a large amount of manpower and materials.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide an automatic FFC rubberizing device who peels off barrier film and automatic double faced adhesive tape before pasting the double faced adhesive tape.

The utility model provides a technical scheme that its technical problem adopted is: the machine body is sequentially provided with an FFC placing component for placing the FFC, an isolating membrane collecting component for collecting the isolating membrane, a glue placing component for placing double-faced glue, a glue pasting component for pasting the glue, a traction component for drawing the transmission of the FFC and a material collecting component for collecting the FFC after the glue pasting from left to right, and the machine body is further provided with a control panel for controlling the FFC glue pasting device.

Further, the method comprises the following steps: the FFC discharging assembly comprises a first discharging frame, a first discharging shaft and a first motor for driving the first discharging shaft to rotate are arranged on the first discharging frame, first limiting discs for preventing the FFC from deviating are arranged at two ends of the first discharging shaft, a first discharging guide wheel is arranged in the direction parallel to the first discharging shaft of the first discharging frame, a limiting wheel for preventing the FFC from deviating is sleeved on the first discharging guide wheel, a first discharging rail is vertically arranged below the first discharging frame, a first sliding block which moves up and down along the rail is connected onto the first discharging rail, a second discharging guide wheel is arranged on the first sliding block in the direction parallel to the first discharging guide wheel, a first sensor and a second sensor for detecting the position of the first sliding block are arranged on the first discharging rail, the first sensor is arranged at the middle upper part of the first discharging rail, and the second sensor is arranged at the middle lower part of the first discharging rail, the first sensor is used for detecting whether the first sliding block reaches the middle upper part of the first feeding track, the second sensor is used for detecting whether the first sliding block reaches the middle lower part of the first feeding track, and the first sensor, the second sensor and the first motor are respectively connected with the control panel.

Further, the method comprises the following steps: the glue discharging assembly comprises a second discharging frame, a second discharging shaft and a second motor for driving the second discharging shaft to rotate are arranged on the second discharging frame, second limiting discs for preventing double-faced glue from deviating are arranged at two ends of the second discharging shaft, a third discharging guide wheel is arranged on the second discharging frame in a direction parallel to the second discharging shaft, a second discharging rail is vertically arranged below the second discharging frame, a second sliding block which moves up and down along the second discharging rail is connected onto the second discharging rail, a fourth discharging guide wheel is arranged on the second sliding block in a direction parallel to the third discharging guide wheel, a third sensor and a fourth sensor for detecting the position of the second sliding block are arranged on the second discharging rail, the third sensor is arranged at the middle upper part of the second discharging rail, and the fourth sensor is arranged at the middle lower part of the second discharging rail, the third sensor is used for detecting whether the second sliding block reaches the middle upper part of the second feeding track, the third sensor is used for detecting whether the second sliding block reaches the middle lower part of the second feeding track, and the third sensor, the fourth sensor and the second motor are respectively connected with the control panel.

Further, the method comprises the following steps: the isolation diaphragm collecting component comprises an isolation diaphragm collecting shaft and a third motor for driving the isolation diaphragm collecting shaft to rotate, and third limiting discs for preventing the isolation diaphragms from deviating are sleeved at two ends of the isolation diaphragm collecting shaft.

Further, the method comprises the following steps: the adhesive tape sticking assembly comprises an adhesive tape sticking table, a first limiting strip for preventing deviation of the double faced adhesive tape is arranged on the adhesive tape sticking table, a first roller for driving the double faced adhesive tape is arranged on one side of the adhesive tape sticking table, a second roller which is in fit transmission with the first roller and a moving arm for driving the second roller to move up and down are arranged above the first roller, the second roller is arranged inside the moving arm, the adhesive tape sticking assembly also comprises a first air cylinder for driving the moving arm to move up and down, a fifth sensor for detecting the length of the double faced adhesive tape is arranged below the contact part of the first roller and the second roller on the machine body, a support frame is arranged above the contact part of the adhesive tape sticking table and the first roller, a third guide rail is arranged on the support frame, a third sliding block is arranged on the third guide rail and horizontally moves along the third guide rail, and a cutter for cutting the double faced adhesive tape is arranged on the third sliding block, the machine body is further provided with a second air cylinder for driving the cutter to move horizontally, a sixth sensor for monitoring whether the cutter is retracted is arranged on the second air cylinder, and the fifth sensor and the sixth sensor are respectively connected with the control panel.

Further, the method comprises the following steps: the double faced adhesive tape cutting machine is characterized in that a first guide shaft for guiding the isolating film is arranged between the isolating film assembly and the adhesive tape assembly on the machine body, a second guide shaft for guiding the double faced adhesive tape is arranged between the adhesive tape assembly and the adhesive tape assembly on the machine body, a fourth limiting disc for preventing the double faced adhesive tape from deviating is sleeved on the second guide shaft, the second guide shaft is arranged above the first guide shaft, a limiting column for limiting the height position of the double faced adhesive tape is arranged on one side, away from the adhesive tape assembly, of the second guide shaft, and the height position of the limiting column enables the double faced adhesive tape passing through the limiting column and the bottom of the first limiting strip to be in the same horizontal plane so as to prevent the double faced adhesive tape from deviating.

Further, the method comprises the following steps: the traction assembly comprises a base arranged on the machine body, a third roller and a fourth motor for driving the third roller to rotate are arranged on the base, a fourth roller is arranged above the third roller, a gap for allowing the FFC to pass is formed between the third roller and the fourth roller, a third air cylinder for compressing the fourth roller is arranged above the fourth roller, and a barometer for adjusting the air pressure of the third air cylinder is arranged on the third air cylinder.

Further, the method comprises the following steps: receive the material subassembly including receiving the material axle and drive and receive the rotatory fifth motor of material axle, receive to be provided with the fifth spacing dish that is used for restricting the FFC off tracking on the material axle.

Further, the method comprises the following steps: a bottom plate is arranged below the first guide shaft on the machine body, and a second limiting strip for preventing the FFC from deviating is arranged on the bottom plate.

The utility model has the advantages that: the utility model discloses can realize peeling off the barrier film and can paste the double faced adhesive tape automatically before pasting the double faced adhesive tape, the utility model discloses can realize that the cutter cuts the length unanimity of double faced adhesive tape, the dynamics size of rubberizing is unanimous.

Drawings

FIG. 1 is a schematic structural view of an FFC tape dispenser;

FIG. 2 is a schematic structural view of an FFC release assembly;

FIG. 3 is a schematic structural diagram of an isolation membrane module;

FIG. 4 is a schematic structural view of a glue dispensing assembly;

FIG. 5 is a schematic view of a rubberizing element;

FIG. 6 is a schematic structural view of the tow assembly;

FIG. 7 is a schematic structural view of the receiving assembly;

labeled as: 2. placing the FFC assembly; 3. placing a glue component; 4. collecting an isolation membrane component; 5. a rubberizing component; 6. a traction assembly; 7. a material receiving assembly; 9. a first guide shaft; 10. a second guide shaft; 11. a fourth limiting disc; 12. a limiting column; 201. a first discharging frame; 202. a first discharge shaft; 203. a first motor; 204. a first limiting disc; 205. a first discharging guide wheel; 206. a first discharge rail; 207. a first slider; 208. a second discharging guide wheel; 209. a first sensor; 210. a second sensor; 301. a second discharging frame; 302. a second discharge shaft; 303. a second motor; 304. a second limiting disc; 305. a third discharging guide wheel; 306. a second discharge rail; 307. a second slider; 308. a fourth discharging guide wheel; 309. a third sensor; 310. a fourth sensor; 401. collecting an isolation membrane shaft; 402. a third motor; 403. a third limiting disc; 501. a gluing table; 502. a first limit strip; 503. a first roller; 504. a second roller; 505. moving the arm; 506. a first cylinder; 508. a support frame; 509. a third guide rail; 510. a third slider; 511. a cutter; 512. a second cylinder; 513. a sixth sensor; 601. a base; 602. a third roller; 604. a fourth roller; 605. a third cylinder; 701. a material receiving shaft; 702. a fifth motor; 703. and a fifth limiting disc.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

The FFC rubberizing device comprises a machine body, wherein an FFC placing assembly 2 for placing an FFC, an isolation film collecting assembly 4 for collecting an isolation film, a double-sided adhesive placing assembly 3 for placing a double-sided adhesive, an adhesive rubberizing assembly 5 for rubberizing, a traction assembly 6 for traction of FFC transmission and a material collecting assembly 7 for collecting the FFC after rubberizing are sequentially arranged on the machine body from left to right, and a control panel for controlling the FFC rubberizing device is further arranged on the machine body.

On the basis, as shown in fig. 2, the FFC discharging assembly 2 includes a first discharging frame 201, a first discharging shaft 202 and a first motor 203 for driving the first discharging shaft 202 to rotate are disposed on the first discharging frame 201, a first limiting disc 204 for preventing the FFC from deviating is disposed at two ends of the first discharging shaft 202, a first discharging guide wheel 205 is disposed in a direction parallel to the first discharging shaft 202 on the first discharging frame 201, a first discharging rail 206 is vertically disposed below the first discharging frame 201, a first sliding block 207 moving up and down along a rail is connected to the first discharging rail 206, a second discharging guide wheel 208 is disposed on the first sliding block 207 in a direction parallel to the first discharging guide wheel 205, a first sensor 209 and a second sensor 210 for detecting the position of the first sliding block 207 are disposed on the first discharging rail 206, the first sensor 209 is disposed at the middle upper portion of the first discharging rail 206, the second sensor 210 is disposed at the middle lower portion of the first discharging rail 206, the first sensor 209, the second sensor 210 and the first motor 203 are respectively connected to the control panel, the first motor in this embodiment is a synchronous motor, the first sensor 209 is used for detecting whether the first slider 207 reaches the middle upper portion of the first discharging rail 206, the second sensor 210 is used for detecting whether the first slider 207 reaches the middle lower portion of the first discharging rail 206, the control panel includes a controller, the controller in this embodiment may be KY02S-MAM-100 or KY02S-MAM-200, the first discharging guide wheel 205, the second discharging guide wheel 208 and the first discharging shaft 202 are connected through an FFC, first, the first discharging shaft 202 is in a stationary state, the first roller 503 and the second roller 504 roll to apply a driving force to the double-faced adhesive tape to drive the double-faced adhesive tape, the driven double-sided adhesive tape drives the first discharging guide wheel 205 to drive the first sliding block 207 to move upwards along the first discharging rail 206, when the first sensor 209 detects that the first slider 207 moves to the middle upper designated position of the first discharging rail 206, a signal is sent to the control panel, the control panel controls the first motor 203 to rotate so as to drive the first discharging shaft 202 to rotate for discharging, at this time, the first sliding block 207 drives the second discharging guide wheel 208 to move downwards along the first discharging rail 206 under the action of the gravity, when the second sensor 210 detects that the first slider 207 moves down to a position designated by the lower portion of the first discharging rail 206, a signal is sent to the control panel, the control panel controls the first motor 203 to stop rotating, the driven double-sided adhesive tape drives the second discharging guide wheel 208 to drive the first sliding block 207 to move upwards, and the operation is repeated.

On the basis, as shown in fig. 4, the discharging assembly 3 includes a second discharging frame 301, a second discharging shaft 302 and a second motor 303 for driving the second discharging shaft 302 to rotate are disposed on the second discharging frame 301, a second limiting disc 304 for preventing double-sided adhesive from deviating is disposed at two ends of the second discharging shaft 302, a third discharging guide wheel 305 is disposed in a direction parallel to the second discharging shaft 302 on the second discharging frame 301, a second discharging rail 306 is vertically disposed below the second discharging frame 301, a second sliding block 307 moving up and down along the second discharging rail 306 is connected to the second discharging rail 306, a fourth discharging guide wheel 308 is disposed in a direction parallel to the third discharging guide wheel 305 on the second sliding block 307, a third sensor 309 and a fourth sensor 310 for detecting the position of the second sliding block 307 are disposed on the second discharging rail 306, the third sensor 309 is disposed at the middle upper portion of the second discharging rail 306, the fourth sensor 310 is disposed at the middle-lower portion of the second discharging rail 306, the third sensor 309, the fourth sensor 310 and the second motor 303 are respectively connected to the control panel, the second motor 303 in this embodiment is a synchronous motor, the third sensor 309 is configured to detect whether the second slider 307 reaches the middle-upper portion of the second discharging rail 306, the fourth sensor 310 is configured to detect whether the second slider 307 reaches the middle-lower portion of the second discharging rail 306, the third discharging guide wheel 305, the fourth discharging guide wheel 308 and the second discharging shaft 302 are connected through an FFC, first, the first discharging shaft 302 is in a stationary state, the first roller 503 and the second roller 504 roll to apply a driving force to the FFC to drive the FFC, the driving FFC drives the second discharging guide wheel 305 to drive the second slider 307 to move upward along the second discharging rail 306, and when the third sensor 309 detects that the second slider 307 moves to a designated position of the second discharging rail 306, a signal is sent to the control panel The control panel controls the second motor 303 to rotate so as to drive the second discharging shaft 302 to rotate for discharging, at this time, the second slider 307 drives the fourth discharging guide wheel 308 to move downwards along the second discharging rail 306 under the action of self gravity, when the fourth sensor 310 detects that the second slider 307 moves downwards to a position designated by the middle lower part of the second discharging rail 306, a signal is sent to the control panel, the control panel controls the second motor 303 to stop rotating, and the driven FFC drives the fourth discharging guide wheel 308 so as to drive the second slider 307 to move upwards, so that the operation is repeated.

On the basis, as shown in fig. 3, the isolation diaphragm collecting assembly 4 includes an isolation diaphragm collecting shaft 401 and a third motor 402 for driving the isolation diaphragm collecting shaft 401 to rotate, and both ends of the isolation diaphragm collecting shaft 401 are sleeved with third limiting discs 403 for preventing the isolation diaphragms from deviating.

On the basis, the adhesive tape sticking assembly 5 comprises an adhesive tape sticking table 501, a first limiting strip 502 for preventing the double faced adhesive tape from deviating is arranged on the adhesive tape sticking table 501, a first roller 503 for driving the double faced adhesive tape is arranged on one side of the adhesive tape sticking table 501, a second roller 504 which is in fit transmission with the first roller 503 and a moving arm 505 for driving the second roller 504 to move up and down are arranged above the first roller 503, the second roller 504 is arranged inside the moving arm 505, the adhesive tape sticking assembly further comprises a first air cylinder 506 for driving the moving arm 505 to move up and down, a fifth sensor for detecting the length of the double faced adhesive tape is arranged below the contact position of the first roller 503 and the second roller 504 on the machine body, a support frame 508 is arranged above the contact position of the adhesive tape sticking table 501 and the first roller 503, a third guide rail 509 is arranged on the support frame, and a third slider 510 is arranged on the third guide rail 509, the third slider 510 horizontally moves along a third guide rail 509, the third slider 510 is provided with a cutter 511 for cutting the double-sided adhesive tape, the machine body is further provided with a second air cylinder 512 for driving the cutter 511 to horizontally move, the second air cylinder 512 is provided with a sixth sensor 513 for monitoring whether the cutter 511 retracts, the fifth sensor, the sixth sensor 513, the first air cylinder 506 and the second air cylinder 512 are respectively connected with the control panel, the fifth sensor is used for detecting the length of the double-sided adhesive tape to be cut, when the fifth sensor detects that the length of the double-sided adhesive tape between the adhesive tape sticking table 501 and the second roller 504 is equal to a preset value, a signal is sent to the control panel, the control panel controls the second air cylinder 512 to move so as to drive the cutter 511 to horizontally move along the third guide rail 509 to cut the double-sided adhesive tape, and when the sixth sensor 513 detects that the cutter 511 retracts, and sending a signal to a control panel, wherein the control panel controls a first air cylinder 506 to move, the first air cylinder 506 drives a moving arm 505 to drive a second roller 504 to move downwards to press the double-sided adhesive tape to be attached to the FFC, when the fifth sensor detects that the length of the attached double-sided adhesive tape is the same as a preset value, the control panel controls a second air cylinder 512 to move so as to drive a cutter 511 to horizontally move along a third guide rail 509 to cut the double-sided adhesive tape, and the operation is repeated.

On the basis, a first guide shaft 9 for guiding the isolation film is arranged between the isolation film collecting component 4 and the adhesive tape pasting component 5 on the machine body, a second guide shaft 10 for guiding the double-sided adhesive tape is arranged between the adhesive tape placing component 3 and the adhesive tape pasting component 5 on the machine body, a fourth limiting disc 11 for preventing the double-sided adhesive tape from deviating is sleeved on the second guide shaft 10, the second guide shaft 10 is arranged above the first guide shaft 9, a limiting column 12 for limiting the height of the double-sided adhesive tape is arranged on one side, far away from the adhesive tape placing component 3, of the second guide shaft 10, and the limiting column 12 is used for limiting the height of the double-sided adhesive tape so that the double-sided adhesive tape passing through the limiting column 12 and the bottom of the first limiting strip 502 are located on the same horizontal plane and horizontally transmit the double-sided adhesive tape passing through the limiting column 12 into the first limiting strip 502.

On the basis, as shown in fig. 6, the traction assembly 6 includes a base 601 disposed on the body, a third roller 602 and a fourth motor for driving the third roller 602 to rotate are disposed on the base 601, a fourth roller 604 is disposed above the third roller 602, a gap through which the FFC passes is disposed between the third roller 602 and the fourth roller 604, a third cylinder 605 for pressing the fourth roller 604 is disposed above the fourth roller 604, an air pressure gauge for adjusting an air pressure of the third cylinder 605 is disposed on the third cylinder 605, and the third cylinder 605 is used for pressing the fourth roller 604 so that the gap between the third roller 602 and the fourth roller 604 only allows the FFC to pass through, so that the fourth roller 604 drives the FFC together with the third roller 602.

On the basis, as shown in fig. 7, the material receiving assembly 7 includes a material receiving shaft 701 and a fifth motor 702 for driving the material receiving shaft 701 to rotate, a fifth limiting disc 703 for limiting the deviation of the FFC is arranged on the material receiving shaft 701, and the fifth motor 702 rotates to drive the material receiving shaft 701 to rotate so as to collect the pasted FFC.

On the basis, a bottom plate is arranged below the first guide shaft 9 on the machine body, and a second limiting strip for preventing the FFC from deviating is arranged on the bottom plate.

On the basis, firstly, the first motor 203 drives the first discharging shaft 202 to rotate to discharge the FFC, the FFC is driven to the first roller 503 through the second limiting strip on the bottom plate under the action of the traction force of the third roller 602 and the fourth roller 604, the first roller 503 is driven to rotate under the action of the FFC, simultaneously, the second motor 303 drives the second discharging shaft 302 to rotate to discharge the double-sided adhesive tape, the double-sided adhesive tape is driven to the first roller 503 through the fourth limiting disc 11, the limiting column and the first limiting strip 502 on the adhesive tape sticking table 501 on the second guide shaft 10 under the traction of the first roller 503 and the second roller 504, simultaneously, the isolation film on the double-sided adhesive tape is driven to be separated from the double-sided adhesive tape at the first roller 503 by the drive of the third motor 402 and is driven to be wound on the isolation film collecting shaft 401 through the first guide shaft 9, at this time, the first cylinder 506 drives the moving arm 505 to drive the second double-sided adhesive tape 504 to move downwards to press the driven FFC, when the fifth sensor detects that the length of the attached double-sided adhesive tape is the same as a preset value, a signal is sent to the control panel, the control panel controls the second cylinder 512 to move so as to drive the cutter 511 to move horizontally along the third guide rail 509 to cut the double-sided adhesive tape, after cutting, the cutter 511 retracts along the third guide rail 509, when the sixth sensor 513 detects that the cutter 511 is retracted, a signal is sent to the control panel, the control panel controls the first cylinder 506 to move, the first cylinder 506 drives the moving arm 505 to drive the second roller 504 to move downwards to press the double-sided adhesive tape to be attached to the driven FFC, repeatedly, the FFC pasted with the double-sided tape passes through the third roller 602 and the fourth roller 604 under the traction of the third roller 602 and the fourth roller 604, and at this time, the fifth motor 702 drives the material receiving shaft 701 to rotate to receive the FFC pasted with the double-sided tape, and the operation is repeated.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (9)

1. The utility model provides a FFC rubberizing device, includes the fuselage, its characterized in that: the FFC machine is characterized in that an FFC component (2) for placing the FFC, an isolation film collecting component (4) for collecting the isolation film, a glue placing component (3) for placing double faced glue, a glue pasting component (5) for pasting the glue, a traction component (6) for drawing the FFC in a transmission mode and a material collecting component (7) for collecting the FFC after pasting the glue are sequentially arranged on the machine body from left to right, and a control panel for controlling the FFC gluing device is further arranged on the machine body.

2. The FFC taping device of claim 1, wherein: the FFC discharging assembly (2) comprises a first discharging frame (201), a first discharging shaft (202) and a first motor (203) for driving the first discharging shaft (202) to rotate are arranged on the first discharging frame (201), first limiting discs (204) for preventing the FFC from deviating are arranged at two ends of the first discharging shaft (202), a first discharging guide wheel (205) is arranged in a direction parallel to the first discharging shaft (202) of the first discharging frame (201), a first discharging rail (206) is vertically arranged below the first discharging frame (201), a first sliding block (207) moving up and down along the rail is connected onto the first discharging rail (206), a second discharging guide wheel (208) is arranged on the first sliding block (207) in a direction parallel to the first discharging guide wheel (205), and a first sensor (209) and a second sensor (210) for detecting the position of the first sliding block (207) are arranged on the first discharging rail (206), the first sensor (209) is arranged at the middle upper part of the first feeding rail (206), the second sensor (210) is arranged at the middle lower part of the first feeding rail (206), and the first sensor (209), the second sensor (210) and the first motor (203) are respectively connected with the control panel.

3. The FFC taping device of claim 1, wherein: the glue discharging assembly (3) comprises a second discharging frame (301), a second discharging shaft (302) and a second motor (303) for driving the second discharging shaft (302) to rotate are arranged on the second discharging frame (301), second limiting discs (304) for preventing double-faced glue from deviating are arranged at two ends of the second discharging shaft (302), a third discharging guide wheel (305) is arranged in a direction parallel to the second discharging shaft (302) of the second discharging frame (301), a second discharging rail (306) is vertically arranged below the second discharging frame (301), a second sliding block (307) moving up and down along the second discharging rail (306) is connected onto the second discharging rail (306), a fourth discharging guide wheel (308) is arranged in the direction parallel to the third discharging guide wheel (305) on the second sliding block (307), and a third sensor (309) and a fourth sensor (310) for detecting the position of the second sliding block (307) are arranged on the second discharging rail (306), the third sensor (309) is arranged at the middle upper part of the second discharging rail (306), the fourth sensor (310) is arranged at the middle lower part of the second discharging rail (306), and the third sensor, the fourth sensor and the second motor (303) are respectively connected with the control panel.

4. The FFC taping device of claim 1, wherein: the isolation membrane collecting assembly (4) comprises an isolation membrane collecting shaft (401) and a third motor (402) for driving the isolation membrane collecting shaft (401) to rotate, and third limiting discs (403) for preventing the isolation membrane from deviating are sleeved at two ends of the isolation membrane collecting shaft (401).

5. The FFC taping device of claim 1, wherein: the adhesive tape sticking assembly (5) comprises an adhesive tape sticking table (501), a first limiting strip (502) for preventing deviation of double-sided adhesive tapes is arranged on the adhesive tape sticking table (501), a first roller (503) for driving the double-sided adhesive tapes is arranged on one side of the adhesive tape sticking table (501), a second roller (504) which is in matched transmission with the first roller (503) and a moving arm (505) for driving the second roller (504) to move up and down are arranged above the first roller (503), the second roller (504) is arranged in the moving arm (505), the adhesive tape sticking assembly further comprises a first air cylinder (506) for driving the moving arm (505) to move up and down, a fifth sensor for detecting the length of the double-sided adhesive tapes is arranged below the contact position of the first roller (503) and the second roller (504) on the machine body, a support frame (508) is arranged above the contact position of the adhesive tape sticking table (501) and the first roller (503), be provided with third guide rail (509) on support frame (508), be provided with third slider (510) on third guide rail (509), third slider (510) along third guide rail (509) horizontal migration, be provided with cutter (511) that are used for cutting the double faced adhesive tape on third slider (510), still be provided with second cylinder (512) of drive cutter (511) horizontal migration on the fuselage, be provided with sixth sensor (513) that are used for monitoring whether cutter (511) withdraw on second cylinder (512), fifth sensor and sixth sensor (513) are connected with control panel respectively.

6. The FFC taping device of claim 1, wherein: be located on the fuselage and receive between isolation film subassembly (4) and the rubberizing subassembly (5) and be provided with first guiding axle (9) for the barrier film guide effect, lie in on the fuselage and put and be provided with second guiding axle (10) for the double faced adhesive tape guide effect between glue subassembly (3) and rubberizing subassembly (5), the cover is equipped with spacing dish (11) of fourth that prevent the double faced adhesive tape off tracking on second guiding axle (10), second guiding axle (10) set up the top in first guiding axle (9), one side that second guiding axle (10) kept away from and put glue subassembly (3) is provided with spacing post (12) of spacing double faced adhesive tape height.

7. The FFC taping device of claim 1, wherein: the traction assembly (6) comprises a base (601) arranged on the machine body, a third roller (602) and a fourth motor for driving the third roller (602) to rotate are arranged on the base (601), a fourth roller (604) is arranged above the third roller (602), a gap for allowing an FFC to pass through is formed between the third roller (602) and the fourth roller (604), a third air cylinder (605) used for pressing the fourth roller (604) is arranged above the fourth roller (604), and an air pressure gauge used for adjusting the air pressure of the third air cylinder (605) is arranged on the third air cylinder (605).

8. The FFC taping device of claim 1, wherein: the material receiving assembly (7) comprises a material receiving shaft (701) and a fifth motor (702) for driving the material receiving shaft (701) to rotate, and a fifth limiting disc (703) for limiting the deviation of the FFC is arranged on the material receiving shaft (701).

9. The FFC taping device of claim 1, wherein: a bottom plate is arranged below the first guide shaft (9) on the machine body, and a second limiting strip for preventing the FFC from deviating is arranged on the bottom plate.

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