CN113911488A

CN113911488A - Novel LCD tears membrane mechanism again after pasting polaroid

Info

Publication number: CN113911488A
Application number: CN202111226366.7A
Authority: CN
Inventors: 余铣
Original assignee: Shenzhen Zhixian Technology Co ltd
Current assignee: Shenzhen Zhixian Technology Co ltd
Priority date: 2021-10-21
Filing date: 2021-10-21
Publication date: 2022-01-11
Anticipated expiration: 2041-10-21
Also published as: CN113911488B

Abstract

The invention discloses a novel LCD (liquid crystal display) film re-tearing mechanism after being adhered with a polaroid, which relates to the technical field of display screen production, and specifically comprises a feeding assembly and a film tearing assembly, wherein a film tearing box is arranged outside the middle section of the feeding assembly, the film tearing assembly is arranged on the left side of the top of the film tearing box, a pulley platform is slidably connected inside a slide rail, the bottom of the pulley platform is connected with a vacuum pump, a polarizing plate body is placed on the surface of the pulley platform, an adhesive tape discharging box is connected to the left side of the bottom of a lifting platform, an adhesive tape body penetrates through the interior of an oil film channel, and one end of a spring rod is connected with an electric push rod through a torsional spring. This novel tear membrane mechanism again behind LCD subsides polaroid, the sticky tape body is adhered mutually the back with the one corner of film body and is realized tearing away to the film body that does not have the easy tearing subsides through relative movement, and this in-process still makes the smooth and easy separation of film body through circulating rotation's wiped film piece, avoids the film body to tear the in-process and damages because of dragging improper emergence.

Description

Novel LCD tears membrane mechanism again after pasting polaroid

Technical Field

The invention relates to the technical field of display screen production, in particular to a novel LCD (liquid crystal display) film re-tearing mechanism after a polaroid is attached.

Background

In the post-process production of the liquid crystal display, a polaroid is attached to a liquid crystal glass substrate, a film is often attached to the surface of the polaroid in order to avoid the adhesion of external impurities to the surface of the polaroid in consideration of the complete cleanness of the polaroid before the surface mounting, and a film tearing mechanism is a mechanical mechanism for removing the film on the surface of the polaroid.

The film tearing mechanism is mainly characterized in that the film edge is clamped and easily torn and pasted by the aid of the existing film tearing mechanism, the film is torn and removed by the aid of relative movement of the rear polarizer and the film which is not easily torn and pasted can be removed only by manually pulling away the film edge and then tearing the film, and accordingly working efficiency is low.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a novel LCD (liquid crystal display) film tearing mechanism after polarizer sticking, which solves the problem that the prior film tearing mechanism in the background art mostly clamps the easy-to-tear sticker at the edge of a film, then tears the film by moving relative to the polarizer, and can only remove the film by manually pulling the film which is not easy-to-tear sticker away from the edge of the film and then tearing the film, so that the working efficiency is not high.

In order to achieve the purpose, the invention is realized by the following technical scheme: a novel LCD (liquid crystal display) film re-tearing mechanism after polarizer attachment comprises a feeding component and a film tearing component, wherein a film tearing box is arranged outside the middle section of the feeding component, the film tearing component is arranged on the left side of the top of the film tearing box, the feeding component comprises a slide rail, a pulley platform, an air hole and a vacuum pump, the interior of the slide rail is connected with the pulley platform in a sliding manner, the surface of the pulley platform is provided with the air hole, the bottom of the pulley platform is connected with the vacuum pump, a polarizer body is placed on the surface of the pulley platform, the surface of the polarizer body is coated with a film body, the film tearing component comprises a lifting platform, a tape discharging box, an oil film channel, a tape body, a rotating motor, a spring rod, a torsion spring, an electric push rod and a vacuum sucker, the left side of the bottom of the lifting platform is connected with the tape discharging box, the right side of the tape discharging box is connected with the oil film channel, and the adhesive tape body passes through the oil film channel, the bottom right side of lift platform is provided with the rotation motor, and the bottom of rotating the motor is connected with the spring beam, the one end of spring beam has electric putter through torsional spring connection, and electric putter's bottom is provided with vacuum chuck.

Optionally, the front end of the polarizer body protrudes out of the front end of the pulley platform, and the polarizer body is connected with the pulley platform in an adsorption manner through the air hole and the vacuum pump.

Optionally, the number of the vacuum chucks is three, and the vacuum chucks are distributed in an equilateral triangle shape by using a vertical central axis of the rotating motor as a circle center.

Optionally, the electric push rod is elastically connected with the rotating motor through the spring rod, and the vacuum chuck is rotationally connected with the rotating motor through the electric push rod and the spring rod.

Optionally, the film tearing assembly further comprises a notch, a wheel disc cutter and a rotary cutting motor, the notch is formed in the right side of the bottom of the oil film channel, the wheel disc cutter is arranged below the notch, and the rotary cutting motor is connected to the left side of the wheel disc cutter in a rotating mode.

Optionally, the middle section outer wall of slide rail is provided with auxiliary assembly, auxiliary assembly includes first motor, second motor, scrapes the diaphragm capsule, drive belt and scrapes the membrane film, the top of first motor is connected with the second motor, and the one end of second motor is connected with scrapes the diaphragm capsule, the inner wall of scraping the diaphragm capsule is provided with the drive belt, and the surface distribution of drive belt has the membrane film of scraping.

Optionally, the outer end of the film scraping film penetrates through the film scraping box, and the outer end of the film scraping film is arc-shaped and flat.

Optionally, the lower surface of the outer end of the film scraping film is attached to the surface of the polarizing plate body, and the film scraping film is assembled with the surface of the polarizing plate body through a transmission belt in a sliding manner.

Optionally, the bottom right side of tearing the membrane case is provided with adsorption component, adsorption component includes slide car, servo motor, strip and aspiration pump of taking out air, the top of slide car is provided with servo motor, and servo motor's top rotates and is connected with the strip of taking out air, the upper surface of strip of taking out air is connected with the aspiration pump.

Optionally, the air pump is communicated with the air pumping strip, and the air pump and the film body are distributed in parallel.

The invention provides a novel LCD (liquid crystal display) film re-tearing mechanism after being adhered with a polaroid, which has the following beneficial effects:

the sticky tape body is adhered the back mutually with the one corner of film body and is realized tearing away the film body that does not have the easy tear subsides through relative movement, and this in-process still makes the smooth and easy separation of film body through circulation pivoted wiped film, avoids the film body to tear the in-process and takes place to damage because of dragging the improper.

1. This novel tear membrane mechanism again behind LCD pastes polaroid, vacuum chuck rotates through rotating the motor and reachs sticky tape body top and carry out true hole to it and adsorb, the back rethread descends to make sticky tape body and film body's one corner adhesion mutually, then the rethread rises to make sticky tape body carry and take place the separation between film body's one corner and the polarizing plate body, the separation that film body can be accomplished to the relative movement of back rethread polarizing plate body and vacuum chuck tears and remove, this setting makes this tear membrane mechanism can tear the separation to the film body that does not easily tear the subsides, thereby be convenient for replace manual operation in order to improve work efficiency.

2. This novel tear membrane mechanism again behind LCD pastes polaroid, be equilateral triangle form between the vacuum chuck and distribute, then be sharp distribution between two adjacent vacuum chuck, descend when two adjacent vacuum chuck and sticky tape body coincidence, can carry out sharp segmentation to the sticky tape body and adsorb, so that in time pull out subsequent sticky tape body through rotating after the sticky tape body cuts off, and when pulling out the sticky tape body through rotating behind two adjacent vacuum chuck absorption sticky tape bodies, this in-process oil film passageway carries on spacingly to vacuum chuck, and cooperate the spring beam, the elastic action of torsional spring makes vacuum chuck follow circular motion transform linear motion, be favorable to adapting to the direction of motion of sticky tape body.

3. This novel LCD pastes dyestripping mechanism again behind polaroid, it is located the vacuum chuck below to lack the groove, and be located between the vacuum chuck, drive the rim plate cutter through changeing the cutting motor and rotate so that cut apart the sticky tape body along lacking inslot portion, thereby be favorable to pasting the sticky tape body that has film body part and break away from the oil film passageway, thereby so that the sticky tape body that pastes film body part carries the film body and breaks away from inside the dyestripping case, and the inside subsides of oil film passageway is covered and is had the oil film paper that has the non-adhesiveness, thereby be favorable to making things convenient for the sticky tape body to pass and not take place the adhesion.

4. This novel tear membrane mechanism again behind LCD subsides polaroid, the wiped film adopts elastic colloid to make, it pastes in the junction of film body and polarizing plate body and carries out the circulation transmission, so that smoothly separate between film body and the polarizing plate body, avoid the film body to take place to damage tearing the in-process, be favorable to guaranteeing that the film body is complete to separate, avoid remaining, and through first motor, horizontal angle and inclination between second motor can change wiped film and the polarizing plate body, so that the wiped film smoothly lies in the junction of film body and polarizing plate body.

5. This novel LCD pastes dyestripping mechanism again behind polaroid, the strip of bleeding is located the top of film body upper surface to produce the negative pressure through the aspiration pump, it can adsorb in the strip surface of bleeding under the negative pressure effect after film body separates completely, and the strip of bleeding removes and rotates through the slide car, servo motor, so that transport the film body that gets off the assigned position with separating, can avoid its tenesmus to adhere to polarizing plate body surface again through adsorbing it at film body disconnect-type simultaneously.

Drawings

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

FIG. 2 is a schematic top view of the slide rail of the present invention;

FIG. 3 is a schematic diagram of the oil film channel in elevation view;

FIG. 4 is an enlarged view of the structure at A in FIG. 3 according to the present invention;

FIG. 5 is a schematic top view of the adhesive tape body of the present invention;

FIG. 6 is a schematic view showing the internal structure of the scraper box of the present invention.

In the figure: 1. a feeding assembly; 101. a slide rail; 102. a pulley platform; 103. air holes; 104. a vacuum pump; 2. a film tearing box; 3. a film tearing assembly; 301. a lifting platform; 302. the adhesive tape is discharged out of the box; 303. an oil film channel; 304. a tape body; 305. rotating the motor; 306. a spring lever; 307. a torsion spring; 308. an electric push rod; 309. a vacuum chuck; 310. notching; 311. a wheel disc cutter; 312. a rotary cutting motor; 4. a polarizing plate body; 5. a film body; 6. an auxiliary component; 601. a first motor; 602. a second motor; 603. scraping a membrane box; 604. a transmission belt; 605. scraping the film; 7. an adsorption component; 701. a slide car; 702. a servo motor; 703. air pumping strips; 704. an air pump.

Detailed Description

As shown in fig. 1 to 5, the present invention provides a technical solution: a novel LCD (liquid crystal display) film re-tearing mechanism after being adhered with a polarizer comprises a feeding component 1 and a film tearing component 3, wherein a film tearing box 2 is arranged outside the middle section of the feeding component 1, the film tearing component 3 is arranged on the left side of the top of the film tearing box 2, the feeding component 1 comprises a slide rail 101, a pulley platform 102, an air hole 103 and a vacuum pump 104, the pulley platform 102 is connected inside the slide rail 101 in a sliding manner, the air hole 103 is formed in the surface of the pulley platform 102, the vacuum pump 104 is connected to the bottom of the pulley platform 102, a polarizer body 4 is placed on the surface of the pulley platform 102, a film body 5 is adhered to the surface of the polarizer body 4, the film tearing component 3 comprises a lifting platform 301, a tape discharging box 302, an oil film channel 303, a tape body 304, a rotating motor 305, a spring rod 306, a torsion spring 307, an electric push rod 308 and a vacuum sucker 309, the left side of the bottom of the lifting platform 301 is connected with the tape discharging box 302, and the right side of the tape discharging box 302 is connected with the oil film channel 303, an adhesive tape body 304 penetrates through the interior of the oil film channel 303, a rotating motor 305 is arranged on the right side of the bottom of the lifting platform 301, a spring rod 306 is connected to the bottom of the rotating motor 305, one end of the spring rod 306 is connected with an electric push rod 308 through a torsion spring 307, vacuum suckers 309 are arranged at the bottom of the electric push rod 308, the front end of the polarizing plate body 4 protrudes out of the front end of the pulley platform 102, the polarizing plate body 4 is connected with the pulley platform 102 in an adsorption mode through an air hole 103, a vacuum pump 104 is connected with the pulley platform 102 in an adsorption mode, the vacuum suckers 309 are three in number, the vacuum suckers 309 are distributed in an equilateral triangle mode with the vertical central axis of the rotating motor 305 as the center of a circle, the electric push rod 308 is connected with the rotating motor 305 in an elastic mode through the spring rod 306, and the vacuum suckers 309 are connected with the rotating motor 305 in a rotating mode through the electric push rod 308 and the spring rod 306 and the rotating motor 305;

the specific operation is as follows, firstly the polarizer 4 with the film body 5 adhered on the surface is placed on the surface of the pulley platform 102, then negative air pressure is generated at the bottom of the polarizer 4 through the vacuum pump 104 and the air hole 103, so that the polarizer 4 is firmly adsorbed on the surface of the pulley platform 102, the surface of the pulley platform 102 slides along the inside of the slide rail 101 so as to carry the polarizer 4 into the film tearing box 2, then the vacuum sucker 309 sequentially reaches the upper part of the oil film channel 303 through the rotation of the rotating motor 305, the vacuum sucker 309 continuously rotates after descending the adhesive tape body 304 through the electric push rod 308, so that the next vacuum sucker 309 repeatedly operates after reaching the upper part of the oil film channel 303, and the vacuum sucker 309 enters the inside of the oil film channel 303, at this time, under the rotation effect and the elastic effect of the spring rod 306 and the torsion spring 307, the vacuum sucker 309 is converted from circular motion into linear motion so as to pump the adhesive tape body 304 out of the oil film channel 303, because the non-sticky oil film paper is adhered to the inside of the oil film channel 303, when the vacuum chuck 309 presses down and adsorbs the adhesive tape body 304, the adhesive tape body 304 is in contact with the inner wall of the oil film channel 303 but is not adhered, so that the adhesive tape body 304 can conveniently pass through without adhesion, then the adhesive tape body 304 is adhered to one corner of the film body 5 through the lifting platform 301, wherein the front end of the polarizing plate body 4 protrudes out of the front end of the pulley platform 102, the adhesive tape body 304 can be smoothly adhered to one corner of the film body 5, then the lifting is carried out to separate the film body 5 at the corner from the polarizing plate body 4, and then the pulley platform 102 slides and the adhesive tape body 304 relatively move to enable the film body 5 to be continuously separated from the polarizing plate body 4.

As shown in fig. 1 and fig. 3-4, the film tearing assembly 3 further includes a notch 310, a wheel disc cutter 311 and a rotary cutting motor 312, the notch 310 is formed on the right side of the bottom of the oil film channel 303, the wheel disc cutter 311 is arranged below the notch 310, and the rotary cutting motor 312 is rotatably connected to the left side of the wheel disc cutter 311;

after two adjacent vacuum suction cups 309 absorb the adhesive tape body 304, the wheel disc cutter 311 is driven by the rotary cutting motor 312 to rotate along the inside of the notch 310 so as to separate the adhesive tape body 304, thereby facilitating the separation of the adhesive tape body 304 adhered with the film body 5 part from the oil film channel 303, and further facilitating the separation of the adhesive tape body 304 adhered with the film body 5 part from the inside of the film tearing box 2 along with the film body 5.

As shown in fig. 6, an auxiliary assembly 6 is disposed on an outer wall of a middle section of the slide rail 101, the auxiliary assembly 6 includes a first motor 601, a second motor 602, a film scraping box 603, a transmission belt 604 and a film scraping film 605, the top of the first motor 601 is connected with the second motor 602, one end of the second motor 602 is connected with the film scraping box 603, the inner wall of the film scraping box 603 is provided with the transmission belt 604, the film scraping film 605 is distributed on the surface of the transmission belt 604, the outer end of the film scraping film 605 passes through the film scraping box 603, the outer end of the film scraping film 605 is in a circular arc flat shape, the lower surface of the outer end of the film scraping film 605 is attached to the surface of the polarizing plate body 4, and the film scraping film 605 is assembled with the surface of the polarizing plate body 4 through the transmission belt 604 in a sliding manner;

the operation is as follows, the pulley platform 102 slides and advances to make the film body 5 continuously separate from the polarizer body 4, the film-scraping film 605 horizontally rotates through the first motor 601 to adjust the horizontal angle between the film-scraping film 605 and the polarizer body 4, and the second motor 602 can drive the film-scraping film 605 to rotate to adjust the inclination between the film-scraping film 605 and the polarizer body 4, so that the outer end of the film-scraping film 605 is attached to the surface of the polarizer body 4, and the film-scraping film 605 is located at the joint of the film body 5 and the polarizer body 4, and the film-scraping film 605 is circularly transmitted through the transmission belt 604, so that the film body 5 and the polarizer body 4 are smoothly separated, the film body 5 is prevented from being damaged in the tearing process, which is beneficial to ensuring that the film body 5 is completely separated, and the residue is avoided.

As shown in fig. 1, an adsorption assembly 7 is arranged on the right side of the bottom of the film tearing box 2, the adsorption assembly 7 comprises a sliding vehicle 701, a servo motor 702, an air pumping strip 703 and an air pumping pump 704, the servo motor 702 is arranged on the top of the sliding vehicle 701, the air pumping strip 703 is rotatably connected to the top of the servo motor 702, the air pumping pump 704 is connected to the upper surface of the air pumping strip 703, the air pumping pump 704 is communicated with the air pumping strip 703, and the air pumping pump 704 and the film body 5 are distributed in parallel;

the operation is as follows, the air-extracting strip 703 is located above the upper surface of the film body 5, and negative air pressure is generated by the air-extracting pump 704, after the film body 5 is completely separated, the air-extracting strip 703 is adsorbed on the surface of the air-extracting strip 703 under the action of the negative air pressure, and the air-extracting strip 703 moves and rotates through the sliding vehicle 701 and the servo motor 702 so as to convey the separated film body 5 to a designated position, and meanwhile, the separated film body 5 is adsorbed to prevent the film body from falling and re-adhering to the surface of the polarizer body 4.

In summary, when the novel LCD-polarizer-attached and film-tearing mechanism is used, the polarizer plate body 4 with the film body 5 attached to the surface is firstly placed on the surface of the pulley platform 102, and then negative air pressure is generated at the bottom of the polarizer plate body 4 through the vacuum pump 104 and the air hole 103, so that the polarizer plate body 4 is firmly adsorbed on the surface of the pulley platform 102, and the surface of the pulley platform 102 slides along the inside of the slide rail 101 so as to carry the polarizer plate body 4 into the film-tearing box 2;

then the vacuum sucker 309 rotates by rotating the motor 305 to sequentially reach the upper part of the oil film channel 303, the vacuum sucker 309 descends by the electric push rod 308 to adsorb the adhesive tape body 304 and then continuously rotates, so that the next vacuum sucker 309 reaches the upper part of the oil film channel 303 and repeats the operation, the vacuum sucker 309 descends and enters the oil film channel 303, at the moment, under the rotation action and the elastic action of the spring rod 306 and the torsion spring 307, the vacuum sucker 309 converts the circular motion into the linear motion so as to suck the adhesive tape body 304 to the outer part of the oil film channel 303, and because the oil film paper with non-adhesiveness is adhered to the inner part of the oil film channel 303, when the vacuum sucker 309 presses and adsorbs the adhesive tape body 304, the adhesive tape body 304 is in contact with the inner wall of the oil film channel 303 without adhesion, thereby facilitating the adhesive tape body 304 to pass without adhesion;

then the adhesive tape body 304 is adhered to an angular position of the film body 5 through the lifting platform 301, wherein the front end of the polarizer body 4 protrudes out of the front end of the pulley platform 102, so that the adhesive tape body 304 can be smoothly adhered to an angular position of the film body 5, and then the adhesive tape body 304 is lifted to separate the film body 5 at the angular position from the polarizer body 4, and then the pulley platform 102 slides and the adhesive tape body 304 relatively move to continuously separate the film body 5 from the polarizer body 4;

after the two adjacent vacuum suction cups 309 absorb the adhesive tape body 304, the rotary cutting motor 312 drives the disc cutter 311 to rotate along the inner part of the notch 310 so as to cut the adhesive tape body 304, thereby facilitating the adhesive tape body 304 adhered with the film body 5 to be separated from the oil film channel 303;

in the process that the pulley platform 102 slides and moves forward to continuously separate the film body 5 from the polarizing plate body 4, the film scraping film 605 horizontally rotates through the first motor 601 to adjust the horizontal angle between the film scraping film 605 and the polarizing plate body 4, and the second motor 602 can drive the film scraping film 605 to rotate to adjust the inclination between the film scraping film 605 and the polarizing plate body 4, so that the outer end of the film scraping film 605 is attached to the surface of the polarizing plate body 4, the film scraping film 605 is located at the joint of the film body 5 and the polarizing plate body 4, and the film scraping film 605 is circularly driven through the driving belt 604, so that the film body 5 and the polarizing plate body 4 are smoothly separated, the film body 5 is prevented from being damaged in the tearing process, the film body 5 is favorably ensured to be completely separated, and residues are avoided;

finally, the air-extracting strip 703 is located above the upper surface of the film body 5, negative air pressure is generated by the air-extracting pump 704, the air-extracting strip 703 is adsorbed on the surface of the air-extracting strip 703 under the action of the negative air pressure after the film body 5 is completely separated, the air-extracting strip 703 moves and rotates through the sliding vehicle 701 and the servo motor 702 so as to convey the separated film body 5 to a specified position, and meanwhile, the separated film body 5 is adsorbed to prevent the film body from falling and re-adhering to the surface of the polarizing plate body 4.

Claims

1. The utility model provides a novel LCD pastes dyestripping mechanism again behind polaroid, includes pay-off subassembly (1) and dyestripping subassembly (3), its characterized in that: the utility model discloses a film tearing machine, including pay-off subassembly (1), middle section outside is provided with tears membrane case (2), tear membrane subassembly (3) set up in the top left side of tearing membrane case (2), pay-off subassembly (1) includes slide rail (101), coaster platform (102), gas pocket (103) and vacuum pump (104), the inside sliding connection of slide rail (101) has coaster platform (102), and the surface of coaster platform (102) sets up gas pocket (103), the bottom of coaster platform (102) is connected with vacuum pump (104), polarizing plate body (4) have been placed on the surface of coaster platform (102), and polarizing plate body (4) surface subsides have film body (5), tear membrane subassembly (3) include lift platform (301), sticky tape put out box (302), rubber belt passageway (303), sticky tape body (304), rotate motor (305), spring beam (306), torsional spring (307), Electric putter (308) and vacuum chuck (309), the bottom left side of lift platform (301) is connected with the sticky tape and puts out box (302), and the right side that the sticky tape put out box (302) is connected with oil film passageway (303), the inside of oil film passageway (303) has passed sticky tape body (304), the bottom right side of lift platform (301) is provided with rotating motor (305), and the bottom of rotating motor (305) is connected with spring beam (306), the one end of spring beam (306) is connected with electric putter (308) through torsional spring (307), and the bottom of electric putter (308) is provided with vacuum chuck (309).

2. The novel LCD re-peeling mechanism after attaching the polarizer according to claim 1, wherein: the front end of the polarizer body (4) protrudes out of the front end of the pulley platform (102), and the polarizer body (4) is connected with the pulley platform (102) in an adsorption mode through the air hole (103) and the vacuum pump (104).

3. The novel LCD re-peeling mechanism after attaching the polarizer according to claim 1, wherein: the number of the vacuum suction cups (309) is three, and the vacuum suction cups (309) are distributed in an equilateral triangle shape by taking a vertical central axis of the rotating motor (305) as a circle center.

4. The novel LCD re-peeling mechanism after attaching the polarizer according to claim 1, wherein: the electric push rod (308) is elastically connected with the rotating motor (305) through the spring rod (306), and the vacuum chuck (309) is rotationally connected with the rotating motor (305) through the electric push rod (308) and the spring rod (306).

5. The novel LCD re-peeling mechanism after attaching the polarizer according to claim 1, wherein: tear membrane subassembly (3) and still include scarce groove (310), rim plate cutter (311) and change and cut motor (312), scarce groove (310) has been seted up on the bottom right side of oil film passageway (303), and the below of scarce groove (310) is provided with rim plate cutter (311), the left side rotation of rim plate cutter (311) is connected with changes and cuts motor (312).

6. The novel LCD re-peeling mechanism after attaching the polarizer according to claim 1, wherein: the middle section outer wall of slide rail (101) is provided with auxiliary assembly (6), auxiliary assembly (6) include first motor (601), second motor (602), scrape membrane box (603), drive belt (604) and scrape membrane film (605), the top of first motor (601) is connected with second motor (602), and the one end of second motor (602) is connected with scrapes membrane box (603), the inner wall of scraping membrane box (603) is provided with drive belt (604), and the surface distribution of drive belt (604) has and scrapes membrane film (605).

7. The novel LCD re-peeling mechanism after attaching the polarizer of claim 7, wherein: the outer end of the film scraping film (605) penetrates through the film scraping box (603), and the outer end of the film scraping film (605) is arc-shaped and flat.

8. The novel LCD re-peeling mechanism after attaching the polarizer of claim 7, wherein: the lower surface of the outer end of the film scraping film (605) is attached to the surface of the polarizing plate body (4), and the film scraping film (605) is assembled with the surface of the polarizing plate body (4) in a sliding mode through a transmission belt (604).

9. The novel LCD re-peeling mechanism after attaching the polarizer according to claim 1, wherein: the film tearing box is characterized in that an adsorption component (7) is arranged on the right side of the bottom of the film tearing box (2), the adsorption component (7) comprises a sliding vehicle (701), a servo motor (702), an air pumping strip (703) and an air pumping pump (704), the servo motor (702) is arranged at the top of the sliding vehicle (701), the air pumping strip (703) is rotatably connected to the top of the servo motor (702), and the air pumping pump (704) is connected to the upper surface of the air pumping strip (703).

10. The novel LCD re-peeling mechanism after attaching the polarizer of claim 9, wherein: the air pump (704) is communicated with the air pumping strip (703), and the air pump (704) and the film body (5) are distributed in parallel.