CN110579893B

CN110579893B - High-efficient liquid crystal display laminating equipment

Info

Publication number: CN110579893B
Application number: CN201910872868.3A
Authority: CN
Inventors: 杨海峰; 曹炳尧; 刘素
Original assignee: Ping Yin Intelligent Equipment Shenzhen Co ltd
Current assignee: Ping Yin Intelligent Equipment Shenzhen Co ltd
Priority date: 2019-09-16
Filing date: 2019-09-16
Publication date: 2021-11-05
Anticipated expiration: 2039-09-16
Also published as: CN110579893A

Abstract

The invention discloses a high-efficiency liquid crystal display screen laminating device, wherein a calibrating mechanism is arranged on an aligning and calibrating guide rail, a calibrating and sliding power mechanism for driving the calibrating mechanism to move on the aligning and calibrating guide rail is arranged between the calibrating mechanism and a workbench, material transfer guide rails are respectively arranged on two sides of the upper part of the workbench, a material transfer seat is arranged on the material transfer guide rails, a turnover table sliding power mechanism for driving the material transfer seat to move on the material transfer guide rails is arranged on the workbench, a switch control box for controlling the working state of the device is arranged on the workbench, and the switch control box is electrically connected with electric equipment in the device. The invention can lead the equipment to be suitable for processing the display screen with larger size, has small deformation in the laminating process, few adhering surface flaws, simple positioning process and high efficiency.

Description

High-efficient liquid crystal display laminating equipment

Technical Field

The invention relates to the technical field of display screen processing equipment, in particular to the technical field of high-efficiency liquid crystal display screen laminating equipment.

Background

Liquid crystal display need laminate the multi-functional rete structure mutually in process of production, to the fine demand that satisfies of the great current equipment of display screen equipment of size, laminating in-process deflection is big, and the defective percentage that leads to by the bubble on the binding face is high, and the positioning process is complicated simultaneously, and is inefficient.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides high-efficiency liquid crystal display screen laminating equipment which is suitable for processing a large-size display screen, small in deformation amount in the laminating process, few in adhering surface flaws, simple in positioning process and high in efficiency.

In order to achieve the purpose, the invention provides high-efficiency liquid crystal display screen laminating equipment which comprises a workbench, alignment calibration guide rails, a calibration mechanism, a calibration sliding power mechanism, a material transfer seat, a turnover table mechanism, a turnover table sliding power mechanism, a rolling box mechanism and a switch control box, wherein the alignment calibration guide rails are respectively arranged on two sides of the workbench, the calibration mechanism is arranged on the alignment calibration guide rails, the calibration sliding power mechanism for driving the calibration mechanism to move on the alignment calibration guide rails is arranged between the calibration mechanism and the workbench, the material transfer guide rails are respectively arranged on two sides of the upper part of the workbench, the material transfer seat is arranged on the material transfer guide rails, the turnover table sliding power mechanism for driving the material transfer seat to move on the material transfer guide rails is arranged on the workbench, and the turnover table mechanism is arranged on the material transfer seat, the rolling box mechanism is arranged on one side inside the workbench, the switch control box used for controlling the working state of the equipment is arranged on the workbench, and the switch control box is electrically connected with the electric equipment in the equipment.

Preferably, the calibration mechanism comprises a calibration sliding portal frame and a calibration image recognition camera, the calibration sliding portal frame is arranged on the alignment calibration guide rail, and the calibration image recognition camera is arranged on the calibration sliding portal frame above the workbench.

Preferably, the calibration slippage power mechanism comprises a calibration slippage power motor and a calibration slippage power transmission belt, the two ends of the workbench are respectively provided with the calibration slippage power motor and a calibration slippage power shaft, the calibration slippage power motor and the calibration slippage power shaft are in transmission connection through the calibration slippage power transmission belt, and the calibration mechanism is fixedly arranged on the calibration slippage power transmission belt.

Preferably, the material transfer seat comprises a lower fixed seat, an upper sliding seat and a height adjusting motor, complementary inclined planes are respectively arranged on the upper portion of the lower fixed seat and the lower portion of the upper sliding seat, the height adjusting motor is arranged on the side portion of the lower fixed seat, a height adjusting screw rod is connected to a rotating shaft of the height adjusting motor, a height adjusting screw sleeve is arranged in the upper sliding seat, and the height adjusting screw rod penetrates through the height adjusting screw sleeve.

Preferably, the overturning platform mechanism comprises an overturning platform plate and an overturning motor, overturning shafts are respectively arranged on two sides of the overturning platform plate and are arranged on the material transfer seat, the overturning motor is fixedly arranged on the material transfer seat and is in transmission connection with a rotating shaft of the overturning motor, a negative pressure adsorption hole is formed in the surface of the overturning platform plate, and a negative pressure air pump is connected to the negative pressure adsorption hole through a pipeline.

Preferably, the overturning platform sliding power mechanism comprises an overturning platform sliding power motor and an overturning platform sliding power screw rod, the overturning platform sliding power screw rod is in transmission connection with a rotating shaft of the overturning platform sliding power motor, a material transferring threaded sleeve is arranged in the material transferring seat, and the overturning platform sliding power screw rod penetrates through the material transferring threaded sleeve.

Preferably, the rolling box mechanism comprises a frame, a gauze, a lifting mechanism, a rolling sliding power mechanism and a rolling mechanism, the gauze is arranged on the upper portion of the frame, the lifting mechanism is arranged at the bottom of the frame, the rolling sliding power mechanism is arranged on the side portion of the frame, the rolling mechanism is arranged on the frame and is in transmission connection with the rolling sliding power mechanism, the lifting mechanism comprises a lifting seat plate, supporting legs, a power motor, a lifting mechanism and a supporting plate, the supporting legs are arranged on the lower portion of the lifting seat plate, the power motor is fixedly arranged on the lifting seat plate, 4 lifting mechanisms are fixedly arranged on the upper portion of the lifting seat plate, the lifting mechanisms are in transmission connection with the power motor through transmission belts, and the supporting plate is arranged on the upper portion of the lifting mechanism.

Preferably, the lifting mechanism comprises a guide block, a belt wheel, a threaded sleeve and a screw rod, the screw rod penetrates through the guide block, the threaded sleeve is sleeved on the screw rod, the belt wheel is sleeved on the threaded sleeve, and a transmission belt is arranged on the belt wheel. Preferably, the upper part of the supporting plate is provided with an adsorption hole, a negative pressure cavity is arranged in the supporting plate, the side part of the supporting plate is provided with a pipe joint, and the adsorption hole is communicated with the pipe joint through the negative pressure cavity.

Preferably, the rolling and sliding power mechanism comprises a rolling and sliding power motor, a rolling and sliding power shaft and a rolling and sliding power belt, the rolling and sliding power motor is in transmission connection with the rolling and sliding power shaft, the rolling and sliding power shafts are arranged on two sides of the frame respectively, the rolling and sliding power shafts are in transmission connection with each other through the rolling and sliding power belt, the rolling mechanism comprises a base plate, a lifting cylinder, a lifting seat plate, a supporting seat, a carrier roller and a compression roller, the lifting cylinder is arranged on the base plate, the lifting seat plate is fixedly arranged on a telescopic shaft of the lifting cylinder, the carrier roller and the compression roller are arranged on the supporting seat, the compression roller is located on the upper portion of the carrier roller, and the lifting cylinder controls the lifting seat plate to lift.

The invention has the beneficial effects that: the invention applies a working table, an alignment calibration guide rail, a calibration mechanism, a calibration sliding power mechanism, a material transfer seat, a turnover table mechanism, a turnover table sliding power mechanism, a rolling box mechanism and a switch control box in the processing equipment of the liquid crystal display, controls the running state of the equipment through the switch control box, drives the calibration mechanism to move on the alignment calibration guide rail through the calibration sliding power mechanism, identifies whether the material is aligned with the alignment calibration guide rail through the image of the calibration sliding power mechanism, adjusts the height of the turnover table mechanism through the material transfer seat, drives the material to turn over through the turnover table mechanism, drives the material transfer seat and the turnover table mechanism to move on the working table through the turnover table sliding power mechanism, bears the material to be attached through the rolling box mechanism, simultaneously rolls and attaches the material on the turnover table mechanism, and can enable the equipment to be suitable for processing the display screen with larger size, the deformation is little in the laminating process, and the binding face flaw is few, and the while positioning process is simple, and is efficient.

Drawings

The above and other features, properties and advantages of the present invention will become more apparent from the following description of the embodiments taken in conjunction with the accompanying drawings in which like reference characters refer to like features throughout and in which:

FIG. 1 is a front perspective view of an apparatus for bonding an LCD panel according to the present invention;

FIG. 2 is an enlarged view of a portion K of FIG. 1;

FIG. 3 is a perspective view of a rear view of an LCD display bonding apparatus according to the present invention;

FIG. 4 is a schematic perspective view of the roll-over box mechanism;

FIG. 5 is an assembly view of the lifting mechanism and the rolling and sliding power mechanism;

FIG. 6 is a top view perspective view of the rolling and sliding power mechanism;

FIG. 7 is a front view of a rolling mechanism;

FIG. 8 is a left side view of the rolling mechanism;

FIG. 9 is a front view of the lift mechanism;

fig. 10 is a perspective view of the elevating mechanism.

In the figure: a-workbench, b-alignment calibration guide rail, c-calibration mechanism, c 1-calibration sliding portal frame, c 2-calibration image recognition camera, d-calibration sliding power mechanism, d 1-calibration sliding power motor, d 2-calibration sliding power transmission belt, e-material transfer seat, e 1-lower fixed seat, e 2-upper sliding seat, e 3-height adjustment motor, f-overturning platform mechanism, f 1-overturning platform plate, f 2-overturning motor, g-overturning platform sliding power mechanism, g 1-overturning platform sliding power motor, g 2-overturning platform sliding power screw rod, h-rolling box mechanism, 1-frame, 2-gauze, 3-lifting mechanism, 31-lifting seat plate, 32-supporting leg, 33-power motor, 34-a lifting mechanism, 341-a guide block, 342-a belt wheel, 343-a thread sleeve, 344-a screw rod, 35-a supporting plate, 4-a rolling and sliding power mechanism, 41-a rolling and sliding power motor, 42-a rolling and sliding power shaft, 43-a rolling and sliding power belt, 5-a rolling mechanism, 51-a base plate, 52-a lifting cylinder, 53-a lifting base plate, 54-a supporting seat, 55-a carrier roller, 56-a press roller and an i-switch control box.

Detailed Description

Referring to fig. 1, 2 and 3, the invention relates to a high efficiency liquid crystal display bonding device, which comprises a workbench a, an alignment calibration guide rail b, a calibration mechanism c, a calibration sliding power mechanism d, a material transfer seat e, a turnover table mechanism f, a turnover table sliding power mechanism g, a rolling box mechanism h and a switch control box i, wherein the alignment calibration guide rail b is respectively arranged at two sides of the workbench a, the calibration mechanism c is arranged on the alignment calibration guide rail b, the calibration sliding power mechanism d for driving the calibration mechanism c to move on the alignment calibration guide rail b is arranged between the calibration mechanism c and the workbench a, the material transfer guide rails are respectively arranged at two sides of the upper part of the workbench a, the material transfer seat e is arranged on the material transfer guide rails, the turnover table sliding power mechanism g for driving the material transfer seat e to move on the material transfer guide rails is arranged on the workbench a, a turnover table mechanism f is arranged on the material transfer seat e, a rolling box mechanism h is arranged on one side inside the workbench a, the workbench a is provided with a switch control box i for controlling the working state of the equipment, the switch control box i is electrically connected with the electric equipment in the equipment, the running state of the equipment is controlled by the switch control box i, the calibrating mechanism c is driven to move on the aligning and calibrating guide rail b by the calibrating and sliding power mechanism d, whether the materials are aligned to the sliding power mechanism d is identified by calibrating the images of the sliding power mechanism d, the height of the overturning platform mechanism f is adjusted by the material transfer seat e, the material is driven to turn over by the turnover table mechanism f, the material transfer seat e and the turnover table mechanism f are driven to move on the workbench a by the turnover table sliding power mechanism g, and (3) bearing the material to be attached through the rolling box mechanism h, and rolling and attaching the material to the material on the overturning platform mechanism f. The calibration mechanism c comprises a calibration sliding portal frame c1 and a calibration image recognition camera c2, the calibration sliding portal frame c1 is arranged on an alignment calibration guide rail b, the calibration image recognition camera c2 is arranged on the calibration sliding portal frame c1 above the workbench a, the calibration sliding portal frame c1 is driven to move through a calibration sliding power mechanism d, the calibration image recognition camera c2 is driven to move through the calibration sliding portal frame c1, material images are obtained through the calibration image recognition camera c2, and the position condition among the materials is calibrated through image analysis software. Calibration power machine d that slides includes calibration power machine d1 and calibration power transmission belt d2 that slides, workstation a both ends are provided with calibration power machine d1 and the calibration power shaft that slides respectively, it connects through calibration power transmission belt d2 transmission to slide between power machine d1 and the calibration power shaft that slides, calibration mechanism c sets firmly on calibration power transmission belt d2 that slides, drives calibration power transmission belt d2 through calibration power machine d1 and moves, drives calibration power transmission belt d2 through calibration power transmission belt d2 and slides the power shaft rotation that slides, drives calibration mechanism c reciprocating motion through calibration power transmission belt d2 simultaneously. The material transfer seat e comprises a lower fixed seat e1, an upper sliding seat e2 and a height adjusting motor e3, complementary inclined planes are respectively arranged on the upper portion of the lower fixed seat e1 and the lower portion of the upper sliding seat e2, the height adjusting motor e3 is arranged on the side portion of the lower fixed seat e1, a height adjusting screw rod is connected to a rotating shaft of the height adjusting motor e3, a height adjusting screw sleeve is arranged in the upper sliding seat e2, the height adjusting screw rod penetrates through the height adjusting screw sleeve, the height adjusting screw rod is driven to rotate through a height adjusting motor e3, the upper sliding seat e2 is driven to move through the matching of the height adjusting screw rod and the height adjusting screw sleeve, and the height of the upper sliding seat e2 can be correspondingly changed due to the change of the relative positions of the inclined planes on the lower fixed seats e1 and e 2-the upper sliding seat e2, and finally the purpose of driving the turnover table mechanism f to ascend and descend is achieved. The overturning platform mechanism f comprises an overturning platform plate f1 and an overturning motor f2, overturning shafts are respectively arranged on two sides of the overturning platform plate f1 and are arranged on a material transfer seat e, the overturning motor f2 is fixedly arranged on the material transfer seat e, the overturning shafts are in transmission connection with a rotating shaft of an overturning motor f2, a negative pressure adsorption hole is formed in the surface of the overturning platform plate f1, a negative pressure air pump is connected to the negative pressure adsorption hole through a pipeline, the overturning shaft is driven to rotate through the overturning motor f2, the overturning platform plate f1 is driven to move through the overturning shafts, negative pressure is generated in the negative pressure adsorption hole through the negative pressure air pump, and materials are adsorbed and fixed through the negative pressure adsorption hole. The overturning platform sliding power mechanism g comprises an overturning platform sliding power motor g1 and an overturning platform sliding power screw rod g2, the overturning platform sliding power screw rod g2 is connected with the overturning platform sliding power motor g1 in a rotating shaft transmission mode, a material transfer screw sleeve is arranged in the material transfer seat e, the overturning platform sliding power screw rod g2 penetrates through the material transfer screw sleeve, the overturning platform sliding power motor g1 drives the overturning platform sliding power screw rod g2 to rotate, and the material transfer seat e is driven to move through the overturning platform sliding power screw rod g2 and the material transfer screw sleeve in a matching mode

Referring to fig. 4-10, the high efficiency lcd screen laminating apparatus of the present invention includes a frame 1, a gauze 2, a lifting mechanism 3, a rolling sliding power mechanism 4, and a rolling mechanism 5, wherein the gauze 2 is disposed on the upper portion of the frame 1, a material plate is supported by gauze, the lifting mechanism 3 is disposed on the bottom of the frame 1, the material is lifted by the lifting mechanism 3, and the material can be fixed, when a protective film on the material is needed to be removed, the material is fixed by the lifting mechanism 3 to prevent displacement, the rolling sliding power mechanism 4 is disposed on the side portion of the frame 1, the rolling mechanism 5 is disposed on the frame 1, the rolling mechanism 5 is in transmission connection with the rolling sliding power mechanism 4, the rolling mechanism 5 is driven by the rolling sliding power mechanism 4 to move, laminate the material roll extrusion on panel through rolling mechanism 5, lift mechanism 3 including lift bedplate 31, landing leg 32, motor power 33, elevating system 34 and layer board 35, drive the drive belt through motor power 33 and move, drive elevating system 34 through the drive belt and move, drive layer board 35 through elevating system 34 and go up and down, lift bedplate 31 lower part is provided with landing leg 32, motor power 33 sets firmly on lifting bedplate 31, lift bedplate 31 upper portion has set firmly 4 elevating system 34, elevating system 34 is connected through the drive belt transmission with motor power 33, elevating system 34 upper portion is provided with layer board 35. The lifting mechanism 34 comprises a guide block 341, a belt wheel 342, a threaded sleeve 343 and a screw rod 344, the screw rod 344 penetrates through the guide block 341, the threaded sleeve 343 is sleeved on the screw rod 344, the belt wheel 342 is sleeved on the threaded sleeve 343, a transmission belt is arranged on the belt wheel 342, the belt wheel 342 is driven by a power motor 33 to move, the threaded sleeve 343 is driven by the belt wheel 342 to move, and the screw rod 344 is driven by the threaded sleeve 343 to move. The upper portion of the supporting plate 35 is provided with an adsorption hole, a negative pressure cavity is arranged in the supporting plate 35, a pipe joint is arranged on the side portion of the supporting plate 35, the adsorption hole is communicated with the pipe joint through the negative pressure cavity, air in the negative pressure cavity is extracted through an external negative pressure pump, and finally adsorption and fixation are carried out through the adsorption hole. The rolling and sliding power mechanism 4 comprises a rolling and sliding power motor 41, a rolling and sliding power shaft 42 and a rolling and sliding power belt 43, the rolling and sliding power motor 41 is in transmission connection with the rolling and sliding power shaft 42, the rolling and sliding power shafts 42 are respectively arranged on two sides of the frame 1, the rolling and sliding power shafts 42 are in transmission connection through the rolling and sliding power belt 43, the rolling and sliding power shafts 42 are driven to move by the rolling and sliding power motor 41, the rolling and sliding power belt 43 is driven to move by the rolling and sliding power shaft 42, the rolling mechanism 5 is driven to move back and forth by the rolling and sliding power belt 43, the rolling mechanism 5 comprises a base plate 51, a lifting cylinder 52, a lifting seat plate 53, a support seat 54, a carrier roller 55 and a press roller 56, the base plate 51 is provided with the lifting cylinder 52, and the lifting seat plate 53 is fixedly arranged on the telescopic shaft of the lifting cylinder 52, the two sides of the lifting seat plate 53 are respectively provided with a supporting seat 54, a supporting roller 55 is arranged on the supporting seat 54, a pressing roller 56 is arranged on the supporting seat 54 at the part of the supporting roller 55, the lifting seat plate 53 is lifted by the lifting cylinder 52, the pressing roller 56 is supported by the supporting roller 55 on the lifting seat plate 53, and materials are pressed and attached through the pressing roller 56.

The invention relates to a high-efficiency liquid crystal display screen laminating device, which is characterized in that a working table a, an alignment calibration guide rail b, a calibration mechanism c, a calibration sliding power mechanism d, a material transfer seat e, a turnover table mechanism f, a turnover table sliding power mechanism g, a rolling box mechanism h and a switch control box i are applied to a liquid crystal display screen processing device, the operating state of the device is controlled by the switch control box i, the calibration mechanism c is driven to move on the alignment calibration guide rail b by the calibration sliding power mechanism d, whether a material is aligned to the device is identified by an image of the calibration sliding power mechanism d, the height of the turnover table mechanism f is adjusted by the material transfer seat e, the material is driven to turn by the turnover table mechanism f, the material transfer seat e and the turnover table mechanism f are driven to move on the working table a by the turnover table sliding power mechanism g, and the material to be attached is borne by the rolling box mechanism h, meanwhile, the materials are rolled and attached to the materials on the overturning platform mechanism f, so that the equipment is suitable for processing a large-size display screen, the deformation amount is small in the attaching process, the attaching surface has few flaws, and meanwhile, the positioning process is simple and the efficiency is high.

The above embodiments are illustrative of the present invention, and are not intended to limit the present invention, and any simple modifications of the present invention are within the scope of the present invention.

Claims

1. The utility model provides a high-efficient liquid crystal display laminating equipment which characterized in that: comprises a workbench (a), an alignment calibration guide rail (b), a calibration mechanism (c), a calibration sliding power mechanism (d), a material transfer seat (e), a turnover table mechanism (f), a turnover table sliding power mechanism (g), a rolling box mechanism (h) and a switch control box (i), wherein the alignment calibration guide rail (b) is respectively arranged on two sides of the workbench (a), the calibration mechanism (c) is arranged on the alignment calibration guide rail (b), the calibration sliding power mechanism (d) used for driving the calibration mechanism (c) to move on the alignment calibration guide rail (b) is arranged between the calibration mechanism (c) and the workbench (a), the material transfer guide rail is respectively arranged on two sides of the upper part of the workbench (a), the material transfer seat (e) is arranged on the material transfer guide rail, the turnover table sliding power mechanism (g) used for driving the material transfer seat (e) to move on the material transfer guide rail is arranged on the workbench (a), the material shifts and is provided with roll-over table mechanism (f) on seat (e), the inside one side of workstation (a) is provided with roll-over case mechanism (h), be provided with on workstation (a) and be used for controlgear operating condition's on-off control case (i), on-off control case (i) and the consumer electric connection in the equipment.

2. The bonding apparatus for high efficiency liquid crystal display panel according to claim 1, wherein: the calibration mechanism (c) comprises a calibration sliding gantry (c1) and a calibration image recognition camera (c2), the calibration sliding gantry (c1) is arranged on the alignment calibration guide rail (b), and the calibration image recognition camera (c2) is arranged on the calibration sliding gantry (c1) above the workbench (a).

3. The bonding apparatus for high efficiency liquid crystal display panel according to claim 1, wherein: calibration power mechanism (d) that slides includes calibration power motor (d1) that slides and calibration power transmission belt (d2) that slides, workstation (a) both ends are provided with calibration power motor (d1) that slides and calibration power shaft that slides respectively, through calibration power transmission belt (d2) transmission connection that slides between calibration power motor (d1) and the calibration power shaft that slides, calibration mechanism (c) sets firmly on calibration power transmission belt (d2) that slides.

4. The bonding apparatus for high efficiency liquid crystal display panel according to claim 1, wherein: material shifts seat (e) including lower fixing base (e1), go up gliding seat (e2), height control motor (e3), lower fixing base (e1) upper portion and last gliding seat (e2) lower part are provided with complementary inclined plane respectively, lower fixing base (e1) lateral part is provided with height control motor (e3), be connected with height control lead screw on the rotation axis of height control motor (e3), it is provided with the height control swivel nut in gliding seat (e2) to go up, height control lead screw passes the height control swivel nut.

5. The bonding apparatus for high efficiency liquid crystal display panel according to claim 1, wherein: the overturning platform mechanism (f) comprises an overturning platform plate (f1) and an overturning motor (f2), overturning shafts are arranged on two sides of the overturning platform plate (f1) respectively, the overturning shafts are arranged on a material transfer seat (e), the overturning motor (f2) is fixedly arranged on the material transfer seat (e), the overturning shafts are in transmission connection with a rotating shaft of the overturning motor (f2), negative pressure adsorption holes are formed in the surface of the overturning platform plate (f1), and negative pressure air pumps are connected to the negative pressure adsorption holes through pipelines.

6. The bonding apparatus for high efficiency liquid crystal display panel according to claim 1, wherein: the overturning platform sliding power mechanism (g) comprises an overturning platform sliding power motor (g1) and an overturning platform sliding power screw rod (g2), the overturning platform sliding power screw rod (g2) is in transmission connection with a rotating shaft of the overturning platform sliding power motor (g1), a material transfer screw sleeve is arranged in the material transfer seat (e), and the overturning platform sliding power screw rod (g2) penetrates through the material transfer screw sleeve.

7. The bonding apparatus for high efficiency liquid crystal display panel according to claim 1, wherein: the rolling box mechanism (h) comprises a frame (1), a gauze (2), a lifting mechanism (3), a rolling sliding power mechanism (4) and a rolling mechanism (5), the gauze (2) is arranged on the upper portion of the frame (1), the lifting mechanism (3) is arranged at the bottom of the frame (1), the rolling sliding power mechanism (4) is arranged on the side portion of the frame (1), the rolling mechanism (5) is arranged on the frame (1), the rolling mechanism (5) is in transmission connection with the rolling sliding power mechanism (4), the lifting mechanism (3) comprises a lifting seat plate (31), supporting legs (32), a power motor (33), a lifting mechanism (34) and a supporting plate (35), the supporting legs (32) are arranged on the lower portion of the lifting seat plate (31), the power motor (33) is fixedly arranged on the lifting seat plate (31), and 4 lifting mechanisms (34) are fixedly arranged on the upper portion of the lifting seat plate (31), the lifting mechanism (34) is in transmission connection with the power motor (33) through a transmission belt, and a supporting plate (35) is arranged on the upper portion of the lifting mechanism (34).

8. The bonding apparatus for high efficiency liquid crystal display panel according to claim 7, wherein: the lifting mechanism (34) comprises a guide block (341), a belt wheel (342), a threaded sleeve (343) and a screw rod (344), the screw rod (344) penetrates through the guide block (341), the threaded sleeve (343) is sleeved on the screw rod (344), the belt wheel (342) is sleeved on the threaded sleeve (343), and a transmission belt is arranged on the belt wheel (342).

9. The bonding apparatus for high efficiency liquid crystal display panel according to claim 7, wherein: the upper part of the supporting plate (35) is provided with an adsorption hole, a negative pressure cavity is arranged in the supporting plate (35), a pipe joint is arranged at the side part of the supporting plate (35), and the adsorption hole is communicated with the pipe joint through the negative pressure cavity.

10. The bonding apparatus for high efficiency liquid crystal display panel according to claim 7, wherein: the rolling and sliding power mechanism (4) comprises a rolling and sliding power motor (41), a rolling and sliding power shaft (42) and a rolling and sliding power belt (43), the rolling and sliding power motor (41) is in transmission connection with the rolling and sliding power shaft (42), the rolling and sliding power shafts (42) are respectively arranged on two sides of the frame (1), the rolling and sliding power shafts (42) are in transmission connection through the rolling and sliding power belt (43), the rolling mechanism (5) comprises a base plate (51), a lifting cylinder (52), a lifting seat plate (53), a supporting seat (54), a carrier roller (55) and a pressing roller (56), the lifting cylinder (52) is arranged on the base plate (51), the lifting seat plate (53) is fixedly arranged on a telescopic shaft of the lifting cylinder (52), the supporting seats (54) are respectively arranged on two sides of the lifting seat plate (53), the carrier roller (55) and the pressing roller (56) are arranged on the supporting seat (54), the pressing roller (56) is positioned at the upper part of the carrier roller (55), and the lifting cylinder (52) controls the lifting seat plate (53) to lift.