CN-122009671-A - Shockproof and anti-slip packaging equipment for liquid crystal glass substrate

Abstract

The invention provides a liquid crystal glass substrate shockproof and anti-skid packaging device which comprises a U-shaped plate, wherein a storage component is arranged on the top surface of the U-shaped plate, a storage cavity is formed between the storage components and the top surface of the U-shaped plate, two groups of side pressure components are connected through a pressing component, two sides of the U-shaped plate are respectively provided with a positioning component, the bottom surface of the U-shaped plate is provided with a supporting and butting component, the storage component comprises a bottom frame, the top surface of the U-shaped plate is fixedly connected with the bottom frame, a storage cavity is formed between the middle part of the U-shaped plate and the bottom frame, the top surface of the bottom frame is fixedly connected with a storage plate, butt joint rods are respectively fixedly connected to the periphery of the top surface of the storage plate, and butt joint holes are formed in the top surface of the butt joint rods, and the side pressure component comprises a translation component. According to the glass packaging device, the storage assembly, the pressing assembly, the side pressing assembly, the positioning assembly and the supporting butt joint assembly are matched with each other, so that glass packaging storage can be realized, and later transportation is convenient.

Inventors

• JIANG CAN
• FU LILI

Assignees

• 彩虹（合肥）液晶玻璃有限公司

Dates

Publication Date

20260512

Application Date

20260227

Claims (10)

1. 1. The anti-vibration and anti-slip packaging device for the liquid crystal glass substrate is characterized by comprising a U-shaped plate (100), wherein a storage component (200) is arranged on the top surface of the U-shaped plate (100), a storage cavity (300) is arranged between the storage components (200) on the top surface of the U-shaped plate (100), a pressing component (400) is stored in the storage cavity (300), side pressure components (500) are respectively arranged on the top surface of the storage component (200), 4 groups of side pressure components (500) are arranged in total, two groups of side pressure components (500) are connected through the pressing component (400), a positioning component (600) is respectively arranged on two sides of the U-shaped plate (100), and a supporting butt joint component (700) is arranged on the bottom surface of the U-shaped plate (100); The storage assembly (200) comprises an underframe (201), the underframe (201) is fixedly connected with the top surface of the U-shaped plate (100), a storage cavity (300) is formed in the middle of the U-shaped plate (100) and located between the underframe (201), the storage plates (202) are fixedly connected with the top surface of the underframe (201), docking rods (203) are fixedly connected to the periphery of the top surface of each storage plate (202), docking holes (204) are formed in the top surface of each docking rod (203), a first buffer plate (205) is fixedly connected to the middle of the top surface of each storage plate (202), a second buffer plate (206) is fixedly connected to the top surface of each first buffer plate (205), mounting grooves (207) are formed in one side of each first buffer plate (205) and one side of each second buffer plate (206), 8 groups of mounting grooves (207) are formed in total, and side pressure assemblies (500) are mounted in the mounting grooves (207). The side pressure assembly (500) comprises a translation part, the translation part is arranged on the top surface of the storage plate (202) and positioned in the mounting groove (207), 8 groups of translation parts are arranged in total, each two groups of translation parts are slidably connected with a first side pressure part, and two ends of the first side pressure part are respectively provided with a second side pressure part.
2. 2. The shock-proof and anti-skid packaging device for liquid crystal glass substrates, as claimed in claim 1, characterized in that the translation component comprises a translation track (501), the top surface of the storage plate (202) is symmetrically and fixedly connected with the translation track (501), the top surface of the translation track (501) is provided with a translation groove (502), the bottom surface of the translation track (501) is provided with adjustment holes (503) at equal intervals, and the adjustment holes (503) are communicated with the translation groove (502).
3. 3. The shock-proof and anti-skid packaging device for the liquid crystal glass substrate, as set forth in claim 2, wherein the first side pressing component comprises a long rod (504), the two ends of the long rod (504) are respectively provided with a second side pressing component, the top surface of the long rod (504) is provided with a wire pressing hole (505) at equal intervals, the bottom surface of the long rod (504) is symmetrically and fixedly connected with a sliding block (506), the sliding block (506) is positioned in the translation groove (502) and is in sliding connection with a locking rod (507), the top surface of the locking rod (507) is fixedly connected with a shifting piece (508), and the bottom surface of the shifting piece (508) is fixedly connected with a locking damping rod (509) between the sliding blocks (506).
4. 4. The shock-proof and anti-skid packaging device for liquid crystal glass substrates according to claim 3, wherein the second side pressure component comprises an extrusion screw (510), two ends of the long rod (504) are respectively connected with the extrusion screw (510) in a threaded manner, one end of the extrusion screw (510) is rotatably connected with a side plate (511), and one side of the side plate (511) is fixedly connected with a buffer pad (512).
5. 5. The shock-proof and anti-slip packaging device for liquid crystal glass substrates according to claim 4, wherein the pressing assembly (400) comprises a first pressing member and a second pressing member, one end of the first pressing member is connected with the second pressing member, the first pressing member and the second pressing member are symmetrically arranged on the U-shaped plate (100), and the first pressing member and the second pressing member are arranged on the long rod (504).
6. 6. The shock-proof and anti-skid packaging device for the liquid crystal glass substrate according to claim 5, wherein the first pressing component comprises a first U-shaped block (401), a first fixing bolt (402) is installed in the first U-shaped block (401), a first pressing rod (403) is fixedly connected to one side of the first U-shaped block (401), a first protection pad (404) is fixedly connected to the bottom surface of the first pressing rod (403), a first adjusting groove (405) is formed in one end of the first pressing rod (403), a first adjusting screw (406) is rotationally connected to the first adjusting groove (405), a first extension rod (408) is connected to the surface of the first adjusting screw (406) in a threaded mode, and a T-shaped connecting block (408) is fixedly connected to one end of the first extension rod (407).
7. 7. The anti-vibration and anti-skid packaging device for the liquid crystal glass substrate according to claim 6, wherein the second pressing component comprises a second U-shaped block (409), a second fixing bolt (410) is installed in the second U-shaped block (409), one side of the second U-shaped block (409) is fixedly connected with a second pressing rod (411), the bottom surface of the second pressing rod (411) is fixedly connected with a second protection pad (412), one end of the second pressing rod (411) is provided with a second adjusting groove (413), a second adjusting screw (414) is rotationally connected to the second adjusting groove (413), and a second extension rod (415) is connected to the surface of the second adjusting screw (414) in a threaded mode.
8. 8. The shock-proof and anti-slip packaging device for liquid crystal glass substrates according to claim 7, wherein the second pressing component further comprises a T-shaped groove (416), one end of the second extension rod (415) is provided with the T-shaped groove (416), and the T-shaped connecting block (408) is in plug-in fit with the T-shaped groove (416).
9. 9. The shock-proof and anti-skid packaging device for liquid crystal glass substrates, as set forth in claim 8, wherein the positioning assembly (600) comprises L-shaped positioning blocks (601), L-shaped positioning blocks (601) are fixedly connected to two sides of the U-shaped plate (100) respectively, 4 groups of L-shaped positioning blocks (601) are arranged in total, and a fixing screw hole (602) is formed in the top surface of each L-shaped positioning block (601).
10. 10. The shock-proof and anti-skid packaging device for liquid crystal glass substrates according to claim 9, wherein the supporting butt joint assembly (700) comprises supporting legs (701), the bottom surface of the U-shaped plate (100) is fixedly connected with the supporting legs (701) at equal intervals, 4 groups of the supporting legs (701) are arranged in total, and the bottom surfaces of the supporting legs (701) are fixedly connected with inserting rods (702).

Description

Shockproof and anti-slip packaging equipment for liquid crystal glass substrate Technical Field The invention relates to the technical field of TFT-LCD liquid crystal glass substrate packaging, in particular to shockproof and anti-skid packaging equipment for a liquid crystal glass substrate. Background The TFT liquid crystal glass substrate is used as a key basic material for manufacturing a liquid crystal display screen, and has the physical characteristics of large surface area, extremely thin thickness (usually less than 0.5 mm), extremely high surface finish requirements and the like. In the logistics chain from the substrate manufacturer to the panel manufacturer, the logistics chain is required to undergo complex links such as long-distance transportation, storage stacking, multiple loading and unloading and the like. Because the glass substrate is brittle and has poor impact resistance, the defects of substrate breakage, micro-cracks or surface scratches and the like are easily caused by external vehicle vibration, carrying impact or relative displacement among components in the packaging box in the process. Such defects not only directly cause high material loss, but also seriously affect the yield of downstream panel products, resulting in significant economic loss; at present, liquid crystal glass substrate packaging mechanisms commonly adopted in the industry are mostly based on simple structural design of wooden or metal frames. Such conventional packages have the following drawbacks in long-term use: For the side limit of the glass substrate in the packaging box, the prior art mainly relies on fillers such as foam blocks, wooden wedges and the like for manual filling. The fixing mode has obvious disadvantages that firstly, the applied fastening force cannot be accurately and uniformly controlled, the fastening force cannot be effectively restrained when the fastening force is too loose, the local stress is concentrated to damage the glass by pressing when the fastening force is too tight, and secondly, the filler is easy to creep or shift under the continuous vibration environment, so that the fastening force is attenuated or even fails. The direct consequence is that the glass substrates slide in the horizontal direction in the box and collide with each other, so that corner collision damage or surface scratch is caused, and glass is seriously cracked. Disclosure of Invention Aiming at the defects of the prior art, the invention provides shockproof and anti-skid packaging equipment for a liquid crystal glass substrate, and solves the problems in the background art. In order to achieve the above purpose, the invention is realized by the following technical scheme: The utility model provides a liquid crystal glass base plate anti-skidding equipment of packing takes precautions against earthquakes, includes the U template, the storage subassembly is installed to the top surface of U template, be provided with the storage chamber between the top surface of U template and being located the storage subassembly, the storage chamber is stored to have down the pressure subassembly, the side pressure subassembly is installed respectively to the top surface of storage subassembly, the side pressure subassembly is provided with 4 groups altogether, and two groups the side pressure subassembly is connected through down the pressure subassembly, the locating component is installed respectively to the both sides of U template, the support docking subassembly is installed to the bottom surface of U template, the storage subassembly includes the chassis, the top surface fixedly connected with chassis of U template, the middle part of U template just is located and is provided with the storage chamber between the chassis, the top surface fixedly connected with storage plate of chassis, the top surface fixedly connected with butt joint pole all around of storage plate, the top surface of butt joint hole is provided with the butt joint hole, the top surface fixedly connected with first buffer plate, the top surface fixedly connected with second buffer plate of first buffer plate and second buffer plate, one side of first buffer plate and second buffer plate is provided with the mounting groove respectively, the mounting groove is provided with the side pressure component is installed to the second side pressure component, the both sides of side pressure component is installed to the side pressure component is provided with the translation component, and is installed to the translation component is installed to the both sides in the side of the mounting groove and is provided with the translation component. Further, the translation part comprises a translation track, the top surface of the storage plate is symmetrically and fixedly connected with the translation track, the top surface of the translation track is provided with a translation groove, the bottom surface of the translation track is provided with adjus