Glass positioning baffle

By designing a positioning baffle and a cylinder lifting mechanism suitable for glass production equipment, rapid replacement of the rubber sheet is achieved, solving the problems of easy damage and cumbersome replacement of the rubber sheet in the existing technology, and improving production efficiency and equipment availability.

CN224492861UActive Publication Date: 2026-07-14XINYI GLASS (TIANJIN) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XINYI GLASS (TIANJIN) CO LTD
Filing Date
2025-06-27
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The rubber of the existing glass positioning baffle is easily damaged or cracked under frequent glass impacts, resulting in glass chipping and corner breakage. The replacement process is also cumbersome, leading to long equipment downtime.

Method used

A glass positioning baffle was designed, comprising a positioning baffle, a rubber sheet, and a cylinder lifting mechanism. The rubber sheet can be quickly replaced through bolt connection and cylinder lifting. The rubber sheet is made of polyurethane material with moderate hardness. The positioning pressure block is fastened to the rubber sheet, and the cylinder lifting mechanism is installed on the glass production equipment.

Benefits of technology

It enables quick replacement of the rubber sheet, reduces equipment downtime, improves production efficiency, avoids glass damage caused by damaged rubber sheet, and simplifies the maintenance process.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224492861U_ABST
    Figure CN224492861U_ABST
Patent Text Reader

Abstract

The utility model relates to a glass positioning baffle, specifically, the utility model relates to a glass positioning baffle, including positioning baffle, one side of positioning baffle is equipped with rubber skin, positioning baffle is equipped with positioning press block, rubber skin is equipped between positioning baffle and positioning press block, positioning press block is in close contact with rubber skin, positioning baffle is connected with cylinder lifting mechanism, positioning press block is pressed tightly on the side surface of positioning baffle, positioning press block is connected on positioning baffle with bolt, then positioning baffle is fixedly connected on cylinder lifting mechanism, positioning baffle keeps vertical state when cylinder lifting mechanism rises, glass will hit rubber skin front when positioning, after rubber skin breakage, the bolt of positioning press block is loosened, and rubber skin can be extracted quickly, positioning press block is pressed tightly and fastened again after new rubber skin is inserted, like this, rubber skin can be replaced quickly, and downtime production time is reduced, and production operation is recovered quickly.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to a glass positioning baffle, specifically, a glass positioning baffle. Background Technology

[0002] Currently, most common automated glass production equipment on the market, such as glass conveyors, measuring tables, loading tables, and unloading tables, are equipped with positioning baffles to correct or align the glass. Their purpose is to enable more precise execution of subsequent automated actions, such as data calculation, automatic stacking, automatic unloading, or automatic sheet arrangement. The positioning surfaces are typically made of various types of rubber; the hardness must be moderate. If too soft, it's not durable and easily punctures the glass, causing it to break upon impact with metal. If too hard, it lacks cushioning, leading to edge breakage or corner chipping during glass positioning, resulting in scrap. Positioning rubber is generally used at the outlet... When installed on parts, the rubber is usually glued on or fixed with countersunk bolts after drilling holes in the rubber. However, the positioning rubber, which serves as a buffer, will quickly break or crack under frequent glass impacts, exposing steel parts or bolts. This can cause the glass to chip or break at the edges. In such cases, the rubber needs to be replaced frequently. Replacing rubber that is glued on or fixed with countersunk bolts is very troublesome and time-consuming. It requires cutting off the old rubber or removing each bolt to remove the old rubber before the new rubber can be glued or fixed. This results in significant downtime for the equipment.

[0003] The applicant discovered through a search that Chinese patent document with application number 201822138907.0, published on October 11, 2019, discloses a glass positioning device and a glass hot bending loading and unloading machine. The glass positioning device includes a glass positioning baffle assembly and a glass positioning drive mechanism. The glass positioning baffle assembly is installed on the glass positioning drive mechanism to move between the glass positioning position of the positioning glass and the glass peripheral position located outside the glass positioning position under the drive of the glass positioning drive mechanism, thereby being able to push the glass from the glass peripheral position to the glass positioning position. However, this device also fails to solve the aforementioned technical problem.

[0004] Therefore, in order to improve or solve at least one of the above problems, it is necessary to provide a glass positioning baffle that enables quick replacement of the rubber. Utility Model Content

[0005] The purpose of this invention is to provide a glass positioning baffle that enables quick replacement of the rubber seal.

[0006] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is as follows: a glass positioning baffle, including a positioning baffle; a rubber sheet is provided on one side of the positioning baffle; a positioning pressure block is provided on the positioning baffle; the rubber sheet is disposed between the positioning baffle and the positioning pressure block; the positioning pressure block abuts against the rubber sheet; and a cylinder lifting mechanism is connected to the positioning baffle.

[0007] The rubber sheet includes a first rubber sheet mounting section; a second rubber sheet mounting section is provided at the end of the first rubber sheet mounting section; the positioning pressure block includes a first positioning pressure block and a second positioning pressure block; the positioning baffle includes a first mounting plate; a second mounting plate is provided at the end of the first mounting plate, and the first mounting plate and the second mounting plate are arranged perpendicularly; the first positioning pressure block presses the first rubber sheet mounting section onto the first mounting plate; the second positioning pressure block presses the second rubber sheet mounting section onto the second mounting plate.

[0008] The first positioning block includes a first connecting plate and a first pressure plate; the positioning baffle is provided with a first threaded hole on the side away from the second rubber mounting section; a first bolt is connected to the first connecting plate, and the first bolt is connected to the first threaded hole; the first pressure plate is disposed on the first rubber mounting section;

[0009] The second positioning block includes a second connecting plate and a second pressure plate; the positioning baffle is provided with a second threaded hole on the side away from the first rubber mounting section; the second connecting plate is provided with a second bolt, which is connected to the second threaded hole; the second pressure plate is provided on the second rubber mounting section.

[0010] The cylinder lifting mechanism includes a fixed bracket; the fixed bracket is respectively provided with a cylinder and a rotating connecting block; the rotating connecting block is connected to the positioning baffle and the cylinder.

[0011] The rotating connecting block includes a mounting block; one end of the mounting block is provided with a connecting side plate; the fixed bracket includes a top plate and a side plate; the top plate is provided with a protrusion; the protrusion is provided with a first pin; the connecting side plate is provided with a first pin hole; the first pin is located in the first pin hole.

[0012] The mounting block has a baffle at its end away from the connecting side plate; a third bolt is connected to the mounting block; a fourth bolt is provided on the baffle; a square hole is provided on the positioning baffle; a mounting base plate is provided on one side of the square hole; a bolt hole is provided on the mounting base plate; the third bolt is connected in the bolt hole; the end of the fourth bolt abuts against the mounting base plate.

[0013] The cylinder is connected to the side plate; the cylinder includes a piston rod; the piston rod is connected to the mounting block.

[0014] The fixed bracket has a mounting base at one end away from the top plate; the mounting base has a connecting lug; the connecting lug has a second pin; the cylinder end has a cylinder connecting lug; the cylinder connecting lug has a second pin hole; the second pin is connected in the second pin hole;

[0015] The piston rod has a piston rod mounting plate at its end; the piston rod mounting plate has a third pin; the mounting block has a mounting block connecting ear on the side away from the baffle; the mounting block connecting ear has a third pin hole; the third pin is connected in the third pin hole.

[0016] The positioning baffle is connected to multiple positioning blocks; the positioning baffle is provided with multiple square holes.

[0017] Both the first pressure plate and the second pressure plate are provided with multiple grooves; both the first connecting plate and the second connecting plate are provided with waist-shaped holes.

[0018] The beneficial effects of this utility model are as follows:

[0019] In this invention, the positioning block presses the rubber sheet against the side of the positioning baffle, and the positioning block is connected to the positioning baffle with bolts. Then, the positioning baffle is fixedly connected to the cylinder lifting mechanism. The cylinder lifting mechanism is installed on the glass production equipment. When the cylinder rises, the positioning baffle remains vertical. During positioning, the glass will hit the front of the rubber sheet. After the glass is positioned, the cylinder falls. If the rubber sheet is damaged, the bolts of the positioning block can be loosened to quickly remove the rubber sheet. After inserting the new rubber sheet, the positioning block can be pressed tightly again. This allows for quick replacement of the rubber sheet, reduces downtime, and quickly resumes production. Attached Figure Description

[0020] The specific embodiments of this utility model will be further described in detail below with reference to the accompanying drawings, wherein:

[0021] Figure 1 This is a schematic diagram of the glass positioning baffle of this utility model.

[0022] Figure 2 for Figure 1 Enlarged view of a portion of point A in the middle.

[0023] Figure 3 This is a schematic diagram of the installation state of the positioning baffle of this utility model.

[0024] Figure 4 This is a schematic diagram of the cylinder lifting mechanism of this utility model.

[0025] Figure 5 This is a schematic diagram showing the installation state of the rubber sheet of this utility model.

[0026] Figure 6 This is a schematic diagram of the structure of the rotary connecting block of this utility model.

[0027] Figure 7 This is a schematic diagram of the structure of the first positioning block of this utility model.

[0028] The markings in the above figures are all:

[0029] The diagram is marked as follows:

[0030] 1. Positioning baffle; 101. First mounting plate; 102. Second mounting plate.

[0031] 2. Rubber sheet, 201. First rubber sheet installation section, 202. Second rubber sheet installation section.

[0032] 3. Positioning blocks, 301, First positioning block, 302, Second positioning block.

[0033] 4. First connecting plate, 401. First pressure plate, 402. First bolt.

[0034] 5. Second connecting plate, 501. Second pressure plate, 502. Second bolt.

[0035] 6. Fixed bracket; 601. Cylinder; 602. Rotary connecting block; 603. Top plate; 604. Side plate; 605. Protrusion; 606. First pin.

[0036] 7. Mounting block; 701. Connecting side plate; 702. First pin hole; 703. Baffle; 704. Third bolt; 705. Fourth bolt.

[0037] 8. Square hole, 801. Mounting base plate,

[0038] 9. Piston rod; 901. Mounting base; 902. Connecting lug; 903. Second pin; 904. Cylinder connecting lug.

[0039] 10. Piston rod mounting plate,

[0040] 11. Mounting block connecting lug; 111. Third pin; 112. Third pin hole.

[0041] 12. Groove; 121. Waist-shaped hole. Detailed Implementation

[0042] The specific embodiments of this utility model will be further described in detail below with reference to the accompanying drawings, in order to help those skilled in the art to have a more complete, accurate and in-depth understanding of the inventive concept and technical solution of this utility model, and to facilitate its implementation.

[0043] Figure 1-7The glass positioning baffle shown includes a positioning baffle 1; a rubber sheet 2 is provided on one side of the positioning baffle 1; a positioning pressure block 3 is provided on the positioning baffle 1; the rubber sheet 2 is located between the positioning baffle 1 and the positioning pressure block 3; the positioning pressure block 3 abuts against the rubber sheet 2; and the positioning baffle 1 is connected to a cylinder lifting mechanism.

[0044] The positioning block 3 presses the rubber sheet 2 tightly against the side of the positioning baffle 1, and the positioning block 3 is connected to the positioning baffle 1 with bolts; then the positioning baffle 1 is fixedly connected to the cylinder lifting mechanism; the cylinder lifting mechanism is installed on the glass production equipment. When the cylinder rises, the positioning baffle 1 remains vertical. During positioning, the glass will hit the front of the rubber sheet 2. When the glass is positioned, the cylinder falls down; after the rubber sheet 2 is damaged, the bolts of the positioning block 3 can be loosened to quickly remove the rubber sheet 2. After inserting the new rubber sheet 2, the positioning block 3 is pressed tightly again. This allows for quick replacement of the rubber sheet 2, reducing downtime and production resumption.

[0045] Rubber 2 includes a first rubber mounting section 201; a second rubber mounting section 202 is provided at the end of the first rubber mounting section 201; positioning block 3 includes a first positioning block 301 and a second positioning block 302; positioning baffle 1 includes a first mounting plate 101; a second mounting plate 102 is provided at the end of the first mounting plate 101, and the first mounting plate 101 and the second mounting plate 102 are arranged perpendicularly; the first positioning block 301 presses the first rubber mounting section 201 onto the first mounting plate 101; the second positioning block 302 presses the second rubber mounting section 202 onto the second mounting plate 102.

[0046] The cross-section of rubber 2 is L-shaped; the first rubber mounting section 201 and the second rubber mounting section 202 are an integral structure; the positioning baffle 1 is a hollow thick-walled carbon steel square tube; the first rubber mounting section 201 is attached to the side of the positioning baffle 1; the second rubber mounting section 202 is attached to the top surface of the positioning baffle 1; the positioning pressure block 3 is an angle iron; the cross-section of the positioning pressure block 3 is L-shaped; the first positioning pressure block 301 presses the first rubber mounting section 201 against the side of the positioning baffle 1; the second positioning pressure block 302 presses the second rubber mounting section 202 against the top surface of the positioning baffle 1; rubber 2 is polyurethane rubber, which is relatively hard and easy to interchange. The thickness of the vertical surface is 2-3 times that of the horizontal surface, and the thick-walled vertical surface faces the glass for glass positioning.

[0047] The first positioning block 301 includes a first connecting plate 4 and a first pressure plate 401; the positioning baffle 1 is provided with a first threaded hole on the side away from the second rubber mounting section 202; a first bolt 402 is connected to the first connecting plate 4 and the first bolt 402 is connected to the first threaded hole; the first pressure plate 401 is provided on the first rubber mounting section 201.

[0048] The second positioning block 302 includes a second connecting plate 5 and a second pressure plate 501; the positioning baffle 1 is provided with a second threaded hole on the side away from the first rubber mounting section 201; the second connecting plate 5 is provided with a second bolt 502, which is connected to the second threaded hole; the second pressure plate 501 is provided on the second rubber mounting section 202.

[0049] The first connecting plate 4 and the first pressure plate 401 are an integral structure; the second connecting plate 5 and the second pressure plate 501 are an integral structure; the first pressure plate 401 presses the first rubber mounting section 201 onto the positioning baffle 1; the second pressure plate 501 presses the second rubber mounting section 202 onto the positioning baffle 1; the first connecting plate 4 is fixedly connected to the positioning baffle 1 by the first bolt 402; the second connecting plate 5 is fixedly connected to the positioning baffle 1 by the second bolt 502.

[0050] The cylinder lifting mechanism includes a fixed bracket 6; a cylinder 601 and a rotating connecting block 602 are respectively provided on the fixed bracket 6; the rotating connecting block 602 is connected to the positioning baffle 1 and the cylinder 601.

[0051] The fixed bracket 6 has an L-shaped cross section; the rotating connecting block 602 is fixedly connected to the positioning baffle 1, and the rotating connecting block 602 can rotate flexibly on the top of the fixed bracket 6; the cylinder 601 is located on the side of the fixed bracket 6; the bottom of the cylinder 601 is movably connected to the fixed bracket 6, and the piston rod 9 of the cylinder 601 is movably connected to the rotating connecting block 602; the fixed bracket 6 is fixed to the glass positioning position in the glass production equipment by threaded connection or welding.

[0052] The rotating connecting block 602 includes a mounting block 7; one end of the mounting block 7 is provided with a connecting side plate 701; the fixed bracket 6 includes a top plate 603 and a side plate 604; the top plate 603 is provided with a protrusion 605; the protrusion 605 is provided with a first pin 606; the connecting side plate 701 is provided with a first pin hole 702; the first pin 606 is located in the first pin hole 702.

[0053] The rotating connecting block 602 has a Z-shaped structure; the mounting block 7 and the connecting side plate 701 are an integral structure; the bottom end of the mounting block 7 is provided with two connecting side plates 701; the connecting side plate 701 is an L-shaped plate; the protrusion 605 is fixedly connected to the top plate 603; the first pin 606 is fixedly connected to the protrusion 605; the protrusion 605 is located between the two connecting side plates 701; the first pin 606 is inserted into the first pin hole 702, thereby enabling the rotating connecting block 602 to rotate flexibly on the protrusion 605.

[0054] The end of the mounting block 7 away from the connecting side plate 701 is provided with a baffle 703; a third bolt 704 is connected to the mounting block 7; a fourth bolt 705 is provided on the baffle 703; a square hole 8 is provided on the positioning baffle 1; a mounting base plate 801 is provided on one side of the square hole 8; a bolt hole is provided on the mounting base plate 801; the third bolt 704 is connected in the bolt hole; the end of the fourth bolt 705 abuts against the mounting base plate 801.

[0055] The mounting base plate 801 has two bolt holes, and the mounting block 7 has two third bolts 704. The ends of the third bolts 704 pass through the bolt holes and extend into the square holes 8 and are connected with nuts, thereby enabling a stable connection between the rotating connecting block 602 and the positioning baffle 1. The baffle 703 is connected to two fourth bolts 705. The ends of the fourth bolts 705 abut against the side of the mounting base plate 801, thereby enabling the rotating connecting block 602 to be limited. The third bolts 704 are external hexagonal fixing bolts. The fourth bolts 705 are internal hexagonal adjusting bolts. Flat washers and spring washers are fitted on the third bolts 704.

[0056] Cylinder 601 is connected to side plate 604; cylinder 601 includes piston rod 9; piston rod 9 is connected to mounting block 7.

[0057] Cylinder 601 is movably connected to side plate 604; piston rod 9 is movably connected to mounting block 7 at its end.

[0058] The fixed bracket 6 has a mounting base 901 at the end away from the top plate 603; the mounting base 901 has a connecting ear 902; the connecting ear 902 has a second pin 903; the cylinder 601 has a cylinder connecting ear 904 at the end; the cylinder connecting ear 904 has a second pin hole; the second pin 903 is connected in the second pin hole.

[0059] The piston rod 9 has a piston rod mounting plate 10 at its end; the piston rod mounting plate 10 has a third pin 111; the mounting block 7 has a mounting block connecting ear 11 on the side away from the baffle 703; the mounting block connecting ear 11 has a third pin hole 112; the third pin 111 is connected in the third pin hole 112.

[0060] Mounting base 901 is bolted to fixed bracket 6; mounting base 901 has two connecting ears 902; a second pin 903 is fixedly connected to the connecting ears 902; cylinder connecting ear 904 is fixedly connected to the bottom of cylinder 601, the cylinder connecting ear 904 is located between the two connecting ears 902, and the second pin 903 is located in the second pin hole, so that cylinder 601 can rotate flexibly on mounting base 901; two piston rod mounting plates 10 are provided at the end of piston rod 9; a third pin 111 is fixedly connected to piston rod mounting plate 10; mounting block connecting ear 11 is fixedly connected to the bottom surface of mounting block 7, the mounting block connecting ear 11 is located between the two piston rod mounting plates 10, and the third pin 111 is located in the third pin hole 112, so that piston rod 9 can rotate flexibly relative to mounting block 7.

[0061] Multiple positioning blocks 3 are connected to the positioning baffle 1; multiple square holes 8 are provided on the positioning baffle 1.

[0062] In this embodiment, 12 positioning blocks 3 are connected to the positioning baffle 1; 3 square holes 8 are provided on the side of the positioning baffle 1.

[0063] Multiple grooves 12 are provided on both the first pressure plate 401 and the second pressure plate 501; and waist-shaped holes 121 are provided on both the first connecting plate 4 and the second connecting plate 5.

[0064] The positioning block 3 is made of angle iron. The first connecting plate 4 and the second connecting plate 5 are both provided with double rows of waist-shaped holes 121. The inner sides of the first pressure plate 401 and the second pressure plate 501 are machined with multiple rows of grooves 12. The waist-shaped holes 121 are used for bolt connection, and the multiple rows of grooves 12 are used to contact and press the rubber 2 to prevent slippage.

[0065] The specific workflow of this utility model is as follows:

[0066] The positioning block 3 presses the rubber sheet 2 tightly onto the side of the positioning baffle 1, and the positioning block 3 is connected to the positioning baffle 1 with bolts; then the positioning baffle 1 is fixedly connected to the cylinder lifting mechanism; the cylinder lifting mechanism is installed on the glass production equipment. When the cylinder rises, the positioning baffle 1 remains vertical. During positioning, the glass will hit the front of the rubber sheet 2. When the glass is positioned, the cylinder falls down; after the rubber sheet 2 is damaged, the bolts of the positioning block 3 can be loosened to quickly pull out the rubber sheet 2. After inserting the new rubber sheet 2, the positioning block 3 is pressed tightly again.

[0067] The present invention has been described above by way of example with reference to the accompanying drawings. Obviously, the specific implementation of the present invention is not limited to the above-described manner. Any non-substantial improvements made using the inventive concept and technical solution of the present invention; or the direct application of the inventive concept and technical solution to other situations without modification, are all within the protection scope of the present invention.

Claims

1. A glass positioning baffle, characterized in that: It includes a positioning baffle (1); a rubber sheet (2) is provided on one side of the positioning baffle (1); a positioning pressure block (3) is provided on the positioning baffle (1); the rubber sheet (2) is located between the positioning baffle (1) and the positioning pressure block (3); the positioning pressure block (3) abuts against the rubber sheet (2); the positioning baffle (1) is connected to a cylinder lifting mechanism.

2. A glass positioning baffle according to claim 1, characterized in that: The rubber sheet (2) includes a first rubber sheet mounting section (201); the end of the first rubber sheet mounting section (201) is provided with a second rubber sheet mounting section (202); the positioning block (3) includes a first positioning block (301) and a second positioning block (302); the positioning baffle (1) includes a first mounting plate (101); the end of the first mounting plate (101) is provided with a second mounting plate (102), and the first mounting plate (101) and the second mounting plate (102) are arranged perpendicularly; the first positioning block (301) presses the first rubber sheet mounting section (201) onto the first mounting plate (101); the second positioning block (302) presses the second rubber sheet mounting section (202) onto the second mounting plate (102).

3. A glass positioning baffle according to claim 2, characterized in that: The first positioning block (301) includes a first connecting plate (4) and a first pressure plate (401); the positioning baffle (1) is provided with a first threaded hole on the side away from the second rubber mounting section (202); a first bolt (402) is connected to the first connecting plate (4), and the first bolt (402) is connected in the first threaded hole; the first pressure plate (401) is provided on the first rubber mounting section (201); The second positioning block (302) includes a second connecting plate (5) and a second pressure plate (501); the positioning baffle (1) is provided with a second threaded hole on the side away from the first rubber mounting section (201); the second connecting plate (5) is provided with a second bolt (502), and the second bolt (502) is connected in the second threaded hole; the second pressure plate (501) is provided on the second rubber mounting section (202).

4. A glass positioning baffle according to claim 3, characterized in that: The cylinder lifting mechanism includes a fixed bracket (6); the fixed bracket (6) is respectively provided with a cylinder (601) and a rotating connecting block (602); the rotating connecting block (602) is connected to the positioning baffle (1) and the cylinder (601).

5. A glass positioning baffle according to claim 4, characterized in that: The rotating connecting block (602) includes a mounting block (7); one end of the mounting block (7) is provided with a connecting side plate (701); the fixed bracket (6) includes a top plate (603) and a side plate (604); the top plate (603) is provided with a protrusion (605); the protrusion (605) is provided with a first pin (606); the connecting side plate (701) is provided with a first pin hole (702); the first pin (606) is located in the first pin hole (702).

6. A glass positioning baffle according to claim 5, characterized in that: The mounting block (7) has a baffle (703) at the end away from the connecting side plate (701); a third bolt (704) is connected to the mounting block (7); a fourth bolt (705) is provided on the baffle (703); a square hole (8) is provided on the positioning baffle (1); a mounting base plate (801) is provided on one side of the square hole (8); a bolt hole is provided on the mounting base plate (801); the third bolt (704) is connected in the bolt hole; and the end of the fourth bolt (705) abuts against the mounting base plate (801).

7. A glass positioning baffle according to claim 6, characterized in that: The cylinder (601) is connected to the side plate (604); the cylinder (601) includes a piston rod (9); the piston rod (9) is connected to the mounting block (7).

8. A glass positioning baffle according to claim 7, characterized in that: The fixed bracket (6) has a mounting base (901) at one end away from the top plate (603); the mounting base (901) has a connecting ear (902); the connecting ear (902) has a second pin (903); the cylinder (601) has a cylinder connecting ear (904) at its end; the cylinder connecting ear (904) has a second pin hole; the second pin (903) is connected in the second pin hole; The piston rod (9) has a piston rod mounting plate (10) at its end; the piston rod mounting plate (10) has a third pin (111); the mounting block (7) has a mounting block connecting ear (11) on the side away from the baffle (703); the mounting block connecting ear (11) has a third pin hole (112); the third pin (111) is connected in the third pin hole (112).

9. A glass positioning baffle according to any one of claims 6-8, characterized in that: The positioning baffle (1) is connected to a plurality of positioning blocks (3); the positioning baffle (1) is provided with a plurality of square holes (8).

10. A glass positioning baffle according to claim 9, characterized in that: Both the first pressure plate (401) and the second pressure plate (501) are provided with multiple grooves (12); both the first connecting plate (4) and the second connecting plate (5) are provided with waist-shaped holes (121).