CN108761855B - Correcting device for correcting position of glass substrate - Google Patents

Abstract

The invention discloses a correcting device for correcting the position of a glass substrate, which comprises a working platform, wherein a supporting and lifting mechanism is arranged at the bottom end of the working platform, an adjusting mechanism is arranged at the bottom surface of the working platform, the adjusting mechanism comprises fixed flat plates arranged at two sides of the working platform, strip-shaped mounting grooves are respectively formed in the side surfaces of the fixed flat plates, a plurality of electric lead screws are connected in the strip-shaped mounting grooves, the tail ends of all the electric lead screws are fixedly connected through a combination seat, a spiral shaft is connected at the bottom end of the combination seat, an adjusting seat is connected at the bottom end of the spiral shaft, a plurality of supporting frames are uniformly arranged on one side of the adjusting seat close to the inside, rotating rollers are connected in the supporting frames, end positioning seats are respectively connected at two ends of the adjusting seat, an angle adjusting component is connected at the top end of the spiral shaft, a movable guide mechanism is arranged at the outer side of the combination seat, and the accurate correction of the glass substrate is realized through the combination of position adjustment and angle adjustment, simultaneously, the glass substrate is kept stable in correction, is not easy to deviate, and has strong practicability.

Description

Correcting device for correcting position of glass substrate

Technical Field

The invention relates to the technical field of glass substrate production and processing, in particular to a correcting device for correcting the position of a glass substrate.

Background

Liquid crystals, i.e. liquid crystals, are a very special substance. It is both fluid and has certain optical properties of crystals. In 1888, liquid crystal was discovered by Reinitzer, austria phytologist, to be an organic compound between solid and liquid with a regular molecular arrangement, the arrangement of liquid crystal molecules was ordered and the order was very sensitive to changes in external conditions such as temperature, electromagnetic field. Under the action of an electric field, the arrangement of the liquid crystal molecules changes, thereby affecting the optical properties thereof, which is called an electro-optic effect.

Usually, two glass substrates are provided with alignment films, liquid crystal is aligned along the grooves, the alignment grooves of the glass substrates deviate from 90 degrees, the liquid crystal screen takes liquid crystal material as a basic component, the liquid crystal material is filled between the two parallel plates, the arrangement state of partial molecules in the liquid crystal material is changed through voltage, so as to achieve the purposes of shading and transmitting light to display images with different depths and inconsistent patterns, and color images can be displayed only by adding a three-component color filter layer between the two flat plates,

the glass substrate is one of the key basic materials In the flat panel display industry, and is coated with a layer of In2O3 or SnO2 transparent conductive layer, namely an ITO film layer, and is made into a transparent conductive pattern through photoetching. These patterns are composed of a pixel pattern and an external lead pattern, and therefore, the external lead cannot be soldered conventionally, but can be connected only by a conductive rubber strip or a conductive tape, etc., which may cause device rejection if scratched, cut or corroded.

In the production process of the display screen, since the display screen sometimes generates a certain deviation, the position correction is required, for example, the invention patent with application number 201710463711.6 and the patent name of a glass substrate position correction device and method improves the phenomenon of broken base table caused by excessive deviation of the glass substrate, and reduces the yield loss and the economic loss, but the existing glass substrate correction device mainly has the following problems:

(1) the general correcting device corrects by a direct pushing mode, and the corrected living glass substrate may deviate again to influence the correcting result;

(2) meanwhile, in the process of correction, the traditional correction is direct correction, and angle deviation and position correction are not separately performed, so that the requirements after correction are difficult to meet;

(3) and moreover, a corresponding reference object is lacked after correction, so that accurate judgment cannot be realized, and meanwhile, the angle adjustment is not accurate enough during correction, and the adjustment precision is limited.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the correcting device for correcting the position of the glass substrate, which realizes the accurate correction of the glass substrate in a mode of combining position adjustment and angle adjustment, and meanwhile, the glass substrate is kept stable during correction, is not easy to deviate, has strong practicability and can effectively solve the problems in the background art.

The technical scheme adopted by the invention for solving the technical problems is as follows: a correcting device for correcting the position of a glass substrate comprises a working platform, wherein a supporting and lifting mechanism is installed at the bottom end of the working platform, and an adjusting mechanism is installed on the bottom surface of the working platform;

the adjusting mechanism comprises fixed flat plates arranged on two sides of the working platform, strip-shaped mounting grooves are formed in the side faces of the fixed flat plates, a plurality of electric screws are connected to the strip-shaped mounting grooves, all the electric screws are connected to the tail ends of the electric screws through a combination seat fixed connection, a screw shaft is connected to the bottom end of the combination seat, an adjusting seat is connected to the bottom end of the screw shaft and is provided with an adjusting seat, a plurality of supporting frames are evenly arranged on one side of the adjusting seat in the inner portion, the supporting frames are internally connected with rotating rollers which are vertically arranged, the rotating rollers are connected with the supporting frames through metal shafts, silica gel gaskets are arranged on the surfaces of the rotating rollers, end positioning seats are connected to two ends of the adjusting seat.

Furthermore, the end positioning seat comprises metal seats movably arranged at two ends of the adjusting seat, the bottom end of each metal seat is connected with a sliding seat, the upper surface of the adjusting seat is provided with a sliding groove, the outer end of each metal seat is connected with a hydraulic rod, and the tail end of each hydraulic rod is connected with the center of the adjusting seat through an end post.

Further, two articulated seats are installed to the metal base side, articulated seat side hinge is connected with punch holder and lower plate, punch holder and lower plate end all are provided with the rubber post, and the relative one side of punch holder and lower plate all is provided with arc silicon rubber pad, arc silicon rubber pad surface is provided with the protruding pad of a plurality of.

Furthermore, the outer surfaces of the upper clamping plate and the lower clamping plate are hinged with hydraulic push rods, and the tail ends of the hydraulic push rods are connected with the side faces of the metal seat.

Further, angle modulation subassembly is including connecting the driven fluted disc on screw axis top, the screw axis top is provided with spacing seat, the combination seat side is connected with the diffusion seat, the rotating electrical machines is installed on diffusion seat top, the drive shaft top of rotating electrical machines is connected with the driving fluted disc, driving fluted disc and driven fluted disc intermeshing.

Furthermore, driven fluted disc shows to be provided with the calibrated scale, the calibrated scale outer lane is provided with luminous ring, luminous ring inside is provided with a plurality of light, and the calibrated scale includes that a plurality of becomes radial fluorescence scale strip.

Furthermore, the centers of the surfaces of the two sides of the driven fluted disc are provided with buffer gaskets, the surface of the spiral shaft is provided with two spiral sleeves, and the opposite ends of the two spiral sleeves are provided with spring gaskets.

Furthermore, the movable guide mechanism comprises two guide seats arranged at two ends of the outer side of the combining seat, the guide seats are connected with the side face of the adjusting seat through adjusting screws, vertical guide heads are arranged on opposite sides of the two guide seats, a laser emitting lamp is arranged at the tail end of the vertical guide head at one end, and a laser receiver is arranged at the tail end of the vertical guide head at the other end.

Further, support elevating system including installing the fastening seat on work platform top, fastening seat top both ends are connected with the level seat, the level seat top is connected with the bending frame, bending frame end-to-end connection has atmospheric pressure lift post, support elevating system bottom and install the installation component.

Further, the installation component is including connecting the installation base in atmospheric pressure lift column bottom, installation base bottom is provided with a plurality of mounting hole, and installs the base both sides and all be provided with the constant head tank, the inside electromagnetism iron plate that is provided with of constant head tank, and the inside guide post that installs of mounting hole.

Compared with the prior art, the invention has the beneficial effects that:

(1) the glass substrate is fixed through the end positioning seat, so that the glass substrate is effectively prevented from deviating when being corrected, and the stability of the whole correcting process is improved;

(2) according to the invention, the position of the glass substrate is adjusted through the adjusting mechanism, the angle of the glass substrate is adjusted by the angle adjusting assembly, and the glass substrate is quickly corrected in a mode of combining the position adjustment and the angle adjustment, so that the offset is effectively prevented;

(3) according to the invention, the glass substrate after correction is subjected to reference comparison through the movable guide mechanism, so that the accuracy of the correction result is improved, and meanwhile, the movable guide mechanism is convenient to install and high in practicability.

Drawings

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

FIG. 2 is a schematic view of the structure of the positioning seat of the end of the present invention;

FIG. 3 is a schematic structural view of a movable guide mechanism of the present invention;

FIG. 4 is a schematic view of a metal base according to the present invention;

FIG. 5 is a schematic view of a driven sprocket according to the present invention;

FIG. 6 is a schematic view of the dial construction of the present invention;

fig. 7 is a schematic structural diagram of the supporting and lifting mechanism of the present invention.

Reference numbers in the figures:

1-a working platform; 2-supporting the lifting mechanism; 3-a dial scale; 4-mounting the assembly; 5-an adjusting mechanism; 6-end positioning seat; 7-an angle adjustment assembly; 8-a movable guide mechanism;

201-fastening seat; 202-horizontal seat; 203-a bending frame; 204-air pressure lifting column;

301-a luminous ring; 302-lighting lamps; 303-fluorescent scale bar;

401-mounting a base; 402-mounting holes; 403-positioning grooves; 404-an electromagnet plate; 405-a guide post;

501-fixing a flat plate; 502-bar-shaped mounting grooves; 503-electric lead screw; 504-a coupling seat; 506-a helical axis; 507-an adjusting seat; 508-a support frame; 509-a rotating roller; 510-a metal shaft;

601-a metal base; 602-a sliding seat; 603-a sliding groove; 604-hydraulic rods; 605-end column; 606-hydraulic push rod; 607-hinge mount; 608-upper clamping plate; 609-lower splint; 610-rubber column; 611-arc silicone rubber pad; 612-raised pads;

701-a driven fluted disc; 702-a limit seat; 703-a diffusion seat; 704-a rotating electrical machine; 705-driving fluted disc; 706-a buffer shim; 707-helical casing; 708-spring pad;

801-a guide seat; 802-adjusting screw; 803-vertical guide head; 804-laser emitting lamp; 805-laser receiver.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 and 7, the invention provides a correcting device for correcting the position of a glass substrate, which comprises a working platform 1, wherein a supporting lifting mechanism 2 is installed at the bottom end of the working platform 1, an adjusting mechanism 5 is installed at the bottom surface of the working platform 1, the whole device realizes the height adjustment of the whole working platform 1 through the lifting of the supporting lifting mechanism 2, so that the position correction of the glass substrates with different positions and sizes is facilitated, the actual use is more convenient, and meanwhile, the adjusting mechanism 5 is utilized to adjust when the working platform 1 works to correct the glass substrates, so that the offset generated in the production process of the glass substrates is reduced, and the production and processing quality of the glass substrates is greatly improved.

The adjusting mechanism 5 comprises fixed flat plates 501 arranged at two sides of the working platform 1, strip-shaped mounting grooves 502 are arranged at the side surfaces of the fixed flat plates 501, a plurality of electric lead screws 503 are connected inside the strip-shaped mounting grooves 502, the tail ends of all the electric lead screws 503 are fixedly connected through a combination seat 504, the bottom end of the combination seat 504 is connected with a spiral shaft 506, the bottom end of the screw shaft 506 is connected with an adjusting seat 507, the position and the angle of the combining seat 504 are controlled by the extension and contraction of a plurality of electric lead screws 503, thereby indirectly adjusting the position and the angle of the adjusting seat 507, namely, the offset glass substrate can be adjusted by the adjusting seat 507, and simultaneously, the plurality of electric lead screws 503 are hinged with the combining seat 504, by utilizing the uneven shrinkage of the plurality of electric lead screws 503, the inclination angle of the combining seat 504 can be adjusted, and the glass substrate can be conveniently adjusted through the adjusting seat 507 when in use.

A plurality of supporting frames 508 are uniformly arranged on one side of the adjusting seat 507 close to the inside, a vertically arranged rotating roller 509 is connected inside the supporting frame 508, the rotating roller 509 is connected with the supporting frame 508 through a metal shaft 510, a silica gel gasket is arranged on the surface of the rotating roller 509, and when the adjusting seat 507 is used for adjustment, the silica gel gasket on the surface of the rotating roller 509 is contacted with the side surface of the glass substrate and is matched with the arc-shaped structure on the surface of the rotating roller 509, so that the glass substrate is well protected, and the glass substrate cannot be damaged during correction,

as shown in fig. 1, 2 and 4, the end positioning seats 6 are connected to both ends of the adjusting seat 507, and when the adjusting seat 507 is used for adjusting, the end of the glass substrate is fixed by the end positioning seats 6, so that deviation is prevented from occurring during adjustment, and the accuracy of correction is improved.

The end positioning seat 6 comprises metal seats 601 movably arranged at two ends of an adjusting seat 507, the bottom end of the metal seat 601 is connected with a sliding seat 602, the upper surface of the adjusting seat 507 is provided with a sliding groove 603, the outer end of the metal seat 601 is connected with a hydraulic rod 604, the tail end of the hydraulic rod 604 is connected with the center of the adjusting seat 507 through an end post 605, before the metal seat 601 is fixed, the metal seat 601 slides in the sliding groove 603 through the sliding seat 602 at the bottom, and the metal seat 601 can move back and forth through the driving action of the hydraulic rod 604, so that the position of the metal seat 601 can be conveniently adjusted, the metal seat 601 can be fixed according to glass substrates with different sizes, and the metal seat is higher in applicability.

As shown in fig. 4, two hinge seats 607 are installed on the side of the metal seat 601, an upper clamp plate 608 and a lower clamp plate 609 are hinged on the side of the hinge seat 607, rubber columns 610 are arranged at the ends of the upper clamp plate 608 and the lower clamp plate 609, an arc-shaped silicone rubber pad 611 is arranged on the opposite side of the upper clamp plate 608 and the lower clamp plate 609, a plurality of convex pads 612 are arranged on the surface of the arc-shaped silicone rubber pad 611, and the hinged upper clamp plate 608 and the hinged lower clamp plate 609 are used for forming a clamp.

The outer surfaces of the upper clamping plate 608 and the lower clamping plate 609 are hinged with hydraulic push rods 606, the tail ends of the hydraulic push rods 606 are connected with the side surfaces of the metal bases 601, and the angle positions of the upper clamping plate 608 and the lower clamping plate 609 are adjusted by the aid of the telescopic action of the hydraulic push rods 606, so that the upper clamping plate 608 and the lower clamping plate 609 can clamp the glass substrate conveniently.

As shown in fig. 1 and 5, an angle adjusting assembly 7 is connected to the top end of the screw shaft 506, and when the position is corrected, the angle adjusting assembly 7 adjusts the angle of the adjusting seat 507, so that the correction work of different angles can be completed.

The angle adjustment assembly 7 includes a driven toothed disc 701 attached to the top end of the helical shaft 506, the top end of the spiral shaft 506 is provided with a limiting seat 702, the side surface of the combining seat 504 is connected with a diffusion seat 703, a rotating motor 704 is arranged at the top end of the diffusion seat 703, a driving fluted disc 705 is connected at the top end of a driving shaft of the rotating motor 704, the driving fluted disc 705 and the driven fluted disc 701 are meshed with each other, firstly, the rotating motor 704 rotates to drive the driving fluted disc 705 to rotate, and the driven fluted disc 701 is driven to rotate by the meshing action between the driving fluted disc 705 and the driven fluted disc 701, namely, the rotation of the screw shaft 506 can be realized, the position angle of the adjusting seat 507 can be adjusted through the rotation of the screw shaft 506, and in the living of rotation, since the screw shaft 506 is coupled to the coupling seat 504 through a bearing, a friction effect generated by rotation is effectively reduced, thereby achieving a better transmission effect.

Moreover, the diameter of the driving fluted disc 705 is far smaller than that of the driven fluted disc 701, so that the proportion of the rotation angle between the driven fluted disc 701 and the driving fluted disc 705 is smaller, and when the driving fluted disc 705 rotates, the rotation angle of the driven fluted disc 701 is smaller, so that the angle adjustment precision of the driven fluted disc 701 is more accurate.

As shown in fig. 1 and fig. 6, the driven fluted disc 701 is provided with the graduated disc 3, the luminous ring 301 is provided on the outer ring of the graduated disc 3, the plurality of illuminating lamps 302 are provided inside the luminous ring 301, and the graduated disc 3 comprises a plurality of fluorescent scale strips 303 in a radial shape, when the angle is adjusted, the driven fluted disc 701 is driven to rotate by the driving fluted disc 705, and the graduated disc 3 on the surface of the driven fluted disc 701 can facilitate the observation of the adjusted angle, so as to meet the requirement of position correction more.

And dial 3 passes through the illumination effect of outside luminous ring 301 through a plurality of light 302, can play good illumination and light filling effect when light is not good, the observation angle of being convenient for, and the scale mark of dial 3 adopts fluorescence scale bar 303, the observation angle of being convenient for.

As shown in fig. 5, the buffer pad 706 is disposed at the center of the two side surfaces of the driven fluted disc 701, the two screw sleeves 707 are disposed on the surface of the screw shaft 506, the spring pads 708 are mounted at the opposite ends of the two screw sleeves 707, and when in actual use, the driven fluted disc 701 is clamped tightly by the two screw sleeves 707 screwed on the screw shaft 506, so that the driven fluted disc 701 can be freely disassembled and assembled, and the use is more convenient.

Meanwhile, when the driven fluted disc 701 is clamped, the spring pad 708 and the buffering pad 706 play a role in reinforcing the fixing effect and effectively buffering the driven fluted disc 701 to prevent the driven fluted disc from being damaged.

As shown in fig. 3, a movable guide mechanism 8 is installed outside the coupling base 504, and the position of the glass substrate is compared and referred to by the movable guide mechanism 8 before and after the position correction, thereby improving the accuracy of the correction result.

The movable guide mechanism 8 comprises two guide seats 801 arranged at two ends of the outer side of the combination seat 504, the guide seats 801 are connected with the side faces of the adjustment seat 507 through adjusting screws 802, vertical guide heads 803 are arranged on opposite sides of the two guide seats 801, a laser emitting lamp 804 is arranged at the tail end of the vertical guide head 803 at one end, a laser receiver 805 is arranged at the tail end of the vertical guide head 803 at the other end, the position of the guide seats 801 is adjusted through the adjusting screws 802, so that the guide seats 801 are prevented from being blocked, laser rays are generated by the laser emitting lamp 804 on the vertical guide head 803, and the laser receiver 805 receives the laser rays, so that a good guiding effect can be realized, the position of the adjusted glass substrate is more accurate, and deviation is not easy to occur.

During whole in-service use, at first through the regulatory action of angle adjusting part 7, promote the glass substrate to make the glass substrate of slope or skew become the level, carry out the contrast reference through the laser light of activity guiding mechanism 8, later press from both sides the glass substrate tip through activity guiding mechanism 8 and press from both sides tightly, later electronic lead screw 503 continues to shrink, can resume original position with the glass substrate, realizes the position correction.

As shown in fig. 1 and 7, the supporting and lifting mechanism 2 includes a fastening seat 201 installed on the top end of the working platform 1, two ends of the top of the fastening seat 201 are connected with horizontal seats 202, the two horizontal seats 202 and two fixed flat plates 501 are respectively distributed on four sides of the working platform 1, the top end of the horizontal seat 202 is connected with a bending frame 203, the tail end of the bending frame 203 is connected with an air pressure lifting column 204, the whole working height is adjusted through the air pressure lifting column 204, and the use is more convenient.

Simultaneously when adjusting the glass substrate, press from both sides the glass substrate earlier, later adjust work platform 1's height through atmospheric pressure lift post 204 for work platform 1 can work at the height of difference, thereby is difficult for taking place wearing and tearing when the glass substrate is adjusted, plays the guard action.

Support 2 bottoms of elevating system and install installation component 4, conveniently through installation component 4 to whole device fixed mounting, installation component 4 is including connecting the installation base 401 in atmospheric pressure lift post 204 bottom, installation base 401 bottom is provided with a plurality of mounting hole 402, and installs base 401 both sides and all be provided with constant head tank 403, the inside electromagnetism iron plate 404 that is provided with of constant head tank 403, and mounting hole 402 internally mounted has guide post 405, realizes freely installing through mounting hole 402 and guide post 405, and the inside electromagnetism iron plate 404 of location 403 can fix installation base 401 at the metal surface through the magnetic action that produces after the circular telegram, need not the installation, and dual fixed mode combines together, and it is more convenient to use.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. A correcting device for correcting the position of a glass substrate is characterized in that: the device comprises a working platform (1), wherein a supporting and lifting mechanism (2) is arranged at the bottom end of the working platform (1), and an adjusting mechanism (5) is arranged on the bottom surface of the working platform (1);

the adjusting mechanism (5) comprises fixing plates (501) arranged on two sides of a working platform (1), wherein strip-shaped mounting grooves (502) are formed in the side faces of the fixing plates (501), a plurality of electric lead screws (503) are connected to the strip-shaped mounting grooves (502), the tail ends of all the electric lead screws (503) are fixedly connected through a combination seat (504), a spiral shaft (506) is connected to the bottom end of the combination seat (504), an adjusting seat (507) is connected to the bottom end of the spiral shaft (506), a plurality of supporting frames (508) are uniformly arranged on one side, close to the inner portion, of the adjusting seat (507), a vertically arranged rotating roller (509) is connected to the inner portion of each supporting frame (508), the rotating roller (509) is connected with the corresponding supporting frame (508) through a metal shaft (510), a silica gel gasket () is arranged on the surface of the rotating roller (509), and end portions of the adjusting seats (6) are connected to two ends of each adjusting seat (507), the top end of the screw shaft (506) is connected with an angle adjusting component (7), and the outer side of the combining seat (504) is provided with a movable guide mechanism (8).

2. The correcting device for glass substrate position correction according to claim 1, characterized in that: the end positioning seat (6) comprises metal seats (601) movably arranged at two ends of an adjusting seat (507), the bottom end of each metal seat (601) is connected with a sliding seat (602), the upper surface of the adjusting seat (507) is provided with a sliding groove (603), the outer end of each metal seat (601) is connected with a hydraulic rod (604), and the tail end of each hydraulic rod (604) is connected with the center of the adjusting seat (507) through an end column (605).

3. The correcting device for glass substrate position correction according to claim 2, characterized in that: metal seat (601) side-mounting has two articulated seats (607), articulated seat (607) side hinge is connected with punch holder (608) and lower plate (609), punch holder (608) and lower plate (609) end all are provided with rubber column (610), and punch holder (608) and the relative one side of lower plate (609) all are provided with arc silicon rubber pad (611), arc silicon rubber pad (611) surface is provided with protruding pad (612) of a plurality of.

4. A correcting device for glass substrate position correction according to claim 3, characterized in that: the outer surfaces of the upper clamping plate (608) and the lower clamping plate (609) are hinged with hydraulic push rods (606), and the tail ends of the hydraulic push rods (606) are connected with the side faces of the metal base (601).

5. The correcting device for glass substrate position correction according to claim 1, characterized in that: the angle adjusting assembly (7) comprises a driven fluted disc (701) connected to the top end of a spiral shaft (506), the top end of the spiral shaft (506) is provided with a limiting seat (702), the side surface of a combining seat (504) is connected with a diffusing seat (703), a rotating motor (704) is installed on the top end of the diffusing seat (703), the top end of a driving shaft of the rotating motor (704) is connected with a driving fluted disc (705), and the driving fluted disc (705) is meshed with the driven fluted disc (701).

6. The correcting device for glass substrate position correction according to claim 5, characterized in that: driven fluted disc (701) show to be provided with calibrated scale (3), calibrated scale (3) outer lane is provided with luminous ring (301), luminous ring (301) inside is provided with a plurality of light (302), and calibrated scale (3) include that a plurality of becomes radial fluorescence scale strip (303).

7. The correcting device for glass substrate position correction according to claim 6, characterized in that: the buffer pad (706) is arranged at the center of the surfaces of the two sides of the driven fluted disc (701), the two spiral sleeves (707) are arranged on the surface of the spiral shaft (506), and the spring pads (708) are arranged at the opposite ends of the two spiral sleeves (707).

8. The correcting device for glass substrate position correction according to claim 1, characterized in that: the movable guide mechanism (8) comprises two guide seats (801) arranged at two ends of the outer side of the combination seat (504), the guide seats (801) are connected with the side face of the adjusting seat (507) through adjusting screws (802), vertical guide heads (803) are arranged on one opposite sides of the two guide seats (801), a laser emitting lamp (804) is arranged at the tail end of the vertical guide head (803) at one end, and a laser receiver (805) is arranged at the tail end of the vertical guide head (803) at the other end.

9. The correcting device for glass substrate position correction according to claim 1, characterized in that: support elevating system (2) including installing fastening seat (201) on work platform (1) top, fastening seat (201) top both ends are connected with level seat (202), level seat (202) top is connected with bending frame (203), bending frame (203) end-to-end connection has atmospheric pressure lift post (204), support elevating system (2) bottom and install installation component (4).

10. The correcting device for glass substrate position correction according to claim 9, characterized in that: installation component (4) are including connecting installation base (401) in atmospheric pressure lift post (204) bottom, installation base (401) bottom is provided with a plurality of mounting hole (402), and installation base (401) both sides all are provided with constant head tank (403), constant head tank (403) inside is provided with electromagnetism iron plate (404), and mounting hole (402) internally mounted has guide post (405).

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