CN216711937U

CN216711937U - Tool jig for producing ultrathin glass

Info

Publication number: CN216711937U
Application number: CN202122205303.5U
Authority: CN
Inventors: 吕如军; 朱常青; 张翔; 姚振兴; 蒋家斌
Original assignee: Wuhu Token Sciences Co Ltd
Current assignee: Wuhu Token Sciences Co Ltd
Priority date: 2021-09-13
Filing date: 2021-09-13
Publication date: 2022-06-10
Anticipated expiration: 2031-09-13

Abstract

The utility model provides a tooling jig for producing ultrathin glass, which is applied to the technical field of conductive glass, wherein the upper part of each piece of glass (5) of the tooling jig for producing ultrathin glass is clamped on an upper clamp (6) of a corresponding cross beam (2), the lower part of each piece of glass (5) is clamped on a lower clamp (14) of the corresponding cross beam (2), and one end of each glass auxiliary positioning piece (7) is arranged to be in a structure capable of being connected with a vertical beam (3). The production efficiency and yield of the ultrathin glass are improved, and the production cost is greatly saved.

Description

Tool jig for producing ultrathin glass

Technical Field

The utility model belongs to the technical field of conductive glass, and particularly relates to a tool jig for producing ultrathin glass.

Background

The conductive glass has higher mechanical strength and corrosion resistance, and is widely applied to the fields of liquid crystal display, building, communication, electric heating and the like, and the ultrathin coated glass is widely applied to the fields of mobile phones, flat panels, computer touch screens and the like at present. However, due to the thickness of the ultrathin glass (the thickness is less than 0.4 mm), the production process and the process are more special than the conventional thickness, the efficiency and the yield are difficult to stably maintain, the production has considerable unpredictability and difficulty, and the chipping and the cracking are obvious. At present, the film coating and mounting are fixed by an upper clamp and a lower clamp, so that the film coating process is effectively carried out. However, the existing film-coated substrate holder and the conventional tool (upper clamp and lower clamp) can only be suitable for the production of products with the thickness of more than or equal to 0.4mm, thin glass with the thickness of less than 0.4mm is light, the middle part of the glass is easy to bend during vertical film mounting, the glass can fall off along with certain shaking and shaking in the film-coating transmission advancing process, and the glass can be scraped with other film-coated parts in the film-coating cavity, so that the production yield is influenced, other chain reactions are often induced, the equipment failure rate is increased, and the cost loss is serious.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the fixture is simple in structure and low in manufacturing cost, and can conveniently and reliably clamp and position the coated glass on the fixture when the coated glass with the thickness less than 0.4mm is subjected to coating treatment, the phenomenon that the middle part of the glass is easy to bend is avoided, the problem that the glass drops is avoided, the phenomenon that the surface of the glass is scraped is avoided, the convenience of a coating process is improved, the production efficiency and yield of the ultra-thin glass are improved, and the production cost is greatly saved.

To solve the technical problems, the technical scheme adopted by the utility model is as follows:

the utility model relates to a tool jig for producing ultrathin glass, which comprises a jig frame, wherein the jig frame comprises a plurality of cross beams and a plurality of vertical beams, a glass arrangement position is formed between each two cross beams and each two vertical beams, the upper part of each glass is clamped on an upper clamp of the corresponding cross beam, the lower part of each glass is clamped on a lower clamp of the corresponding cross beam, each vertical beam is also provided with a glass auxiliary positioning piece, one end of each glass auxiliary positioning piece is arranged to be connected with one vertical beam, and the other end of each glass auxiliary positioning piece is arranged to be abutted against the side edge of the surface of the glass.

The glass auxiliary positioning piece of the tooling jig for producing the ultrathin glass comprises a connecting side backup plate, a rotary clamp, a connecting sheet and a positioning contact part.

The connecting side backup plate is provided with a groove portion, the groove portion is arranged to be a structure capable of being clamped on the vertical beam, and the screw is arranged to penetrate through a hole in the connecting side backup plate and is connected with a screw hole in the vertical beam in a screwing mode.

One end of the rotary clamp is movably connected with the connecting side backup plate.

The other end of the rotary clamp is connected with the connecting sheet, and the positioning contact part is arranged at the side surface of one side of the connecting sheet.

When the auxiliary glass positioning piece is abutted against the side edge position of the glass surface, the positioning contact part is arranged to be a structure capable of being attached to abut against the side edge position of the glass surface.

The positioning contact part is of a structure made of polytetrafluoroethylene materials.

The connecting side backup plate is of a structure made of aluminum materials.

The rotary clamp is a structure made of stainless steel materials.

By adopting the technical scheme of the utility model, the following beneficial effects can be obtained:

the tool jig for producing the ultrathin glass is characterized in that a plurality of glass arranging positions are arranged on a jig frame formed by a plurality of cross beams and a plurality of vertical beams, and each glass arranging position can position one piece of glass. And the upper clamp is arranged on the beam at the upper part of each glass arrangement position, the lower clamp is arranged on the beam at the lower part of each glass arrangement position, and the upper clamp and the lower clamp are matched to clamp glass from an upper position and a lower position. Meanwhile, the jig frame is provided with a plurality of glass arrangement positions, and the glass arrangement positions are connected to the vertical beams. And after the glass of every glass arrangement position was arranged, rotatory glass auxiliary positioning spare again for every glass auxiliary positioning spare can support and lean on glass surface side position, and like this, glass auxiliary positioning spare plays limiting displacement to the glass middle part, effectively avoids the glass middle part to produce the bending phenomenon, avoids glass to produce glass and drops, avoids glass to receive the collision of other parts and damages simultaneously, ensures the security in the coating process. The tool fixture for producing the ultrathin glass is simple in structure and low in manufacturing cost, when the ultrathin glass with the thickness less than 0.4mm is subjected to film coating treatment, the coated glass can be conveniently and reliably clamped and positioned on the tool fixture, the middle part of the glass is prevented from being easily bent, the glass falling problem is avoided, meanwhile, the glass surface scraping phenomenon is avoided, the convenience of a film coating process is improved, the production efficiency and yield of the ultrathin glass are improved, and the production cost is greatly saved.

Drawings

The contents of the description and the references in the drawings are briefly described as follows:

FIG. 1 is a schematic structural view of a tooling fixture for producing ultrathin glass according to the present invention;

FIG. 2 is a schematic structural view of a glass auxiliary positioning member of the tooling fixture for producing ultrathin glass, which is disclosed by the utility model;

in the drawings, the reference numbers are respectively: 1. a jig frame; 2. a cross beam; 3. erecting a beam; 4. arranging a glass position; 5. glass; 6. an upper clamp; 7. a glass auxiliary positioning member; 8. connecting the side backup plates; 9. rotating the clamp; 10. connecting sheets; 11. positioning the contact portion; 12. a groove part; 13. a screw; 14. and (5) a lower clamp.

Detailed Description

The following detailed description of the embodiments of the present invention, such as the shapes and structures of the components, the mutual positions and connection relations among the components, the functions and operation principles of the components, will be made by referring to the accompanying drawings and the description of the embodiments:

the utility model discloses a tooling jig for producing ultrathin glass, which comprises a jig frame 1, wherein the jig frame 1 comprises a plurality of cross beams 2 and a plurality of vertical beams 3, a glass arranging position 4 is formed between each two cross beams 2 and each two vertical beams 3, the upper part of each glass 5 is clamped on an upper clamp 6 of the corresponding cross beam 2, the lower part of each glass 5 is clamped on a lower clamp 14 of the corresponding cross beam 2, a glass auxiliary positioning piece 7 is further arranged on each vertical beam 3, one end of each glass auxiliary positioning piece 7 is arranged to be connected with one vertical beam 3, and the other end of each glass auxiliary positioning piece 7 is arranged to be abutted against the side edge position of the surface of the glass 5. The structure provides an improved scheme based on a smart concept aiming at the defects in the prior art. On the tool frame that 3 formation of roof beam were erected to multichannel crossbeam 2 and multichannel, set up a plurality of glass and lay position 4, every glass lays position 4 and can fix a position a glass. And the beam on the upper part of each glass arrangement position 4 is provided with an upper clamp, the beam on the lower part of each glass arrangement position 4 is provided with a lower clamp, and the upper clamp and the lower clamp are matched to clamp glass from an upper position and a lower position. Meanwhile, a plurality of glass arrangement positions 4 are arranged, and the glass arrangement positions 4 are connected to the vertical beams. And after the glass of every glass arrangement position 4 is arranged, rotate the auxiliary glass positioning element 7 again for every auxiliary glass positioning element 7 can support and lean on 5 surperficial side positions of glass, and like this, the auxiliary glass positioning element 7 plays limiting displacement to the glass middle part, effectively avoids the glass middle part to produce the bending phenomenon, avoids glass to produce glass and drops, avoids glass to receive the collision of other parts and damages simultaneously, ensures the security among the coating process. The tool fixture for producing the ultrathin glass is simple in structure and low in cost, when the ultrathin glass with the thickness less than 0.4mm is subjected to film coating treatment, the coated glass can be conveniently and reliably clamped and positioned on the tool fixture, the phenomenon that the middle part of the glass is easy to bend is avoided, the problem that the glass falls off is avoided, meanwhile, the phenomenon that the surface of the glass is scratched is avoided, the convenience of a film coating process is improved, the production efficiency and yield of the ultrathin glass are improved, and the production cost is greatly saved.

The glass auxiliary positioning piece 7 of the tooling jig for producing the ultrathin glass comprises a connecting side backup plate 8, a rotary clamp 9, a connecting piece 10 and a positioning contact part 11. One end of the rotary clamp 9 is movably connected with the connecting side backup plate 8. The other end of the rotary clamp 9 is connected with a connecting piece 10, and a positioning contact part 11 is arranged at the side surface of one side of the connecting piece 10. In the structure, the glass auxiliary positioning piece 7 is connected with the vertical beam and is a structure which can be conveniently detached and installed. And the rotary clamp 9 of each glass auxiliary positioning piece 7 can rotate relative to the connecting side backup plate 8, the rotary clamp 9 rotates towards one direction, the positioning contact part 11 rotates to a structure contacting with the side edge of the surface of the positioned glass, the rotary clamp 9 rotates towards the other direction, and the positioning contact part 11 rotates to a position away from the surface of the glass, so that the glass is very convenient to take out and put in.

The connecting side backup plate 8 is provided with a groove part 12, the groove part 12 is arranged to be clamped on the vertical beam 3, and the screw 13 is arranged to penetrate through a hole in the connecting side backup plate 8 and be connected with a screw hole in the vertical beam 3 in a screwing mode. Above-mentioned structure through the screw, conveniently realizes connecting side backup plate 8 and erects the installation and the dismantlement of roof beam, installs glass auxiliary positioning piece 7 as required, effectively satisfies the location of the glass of unidimensional not, is convenient for carry out coating process.

When the auxiliary glass positioning part 7 abuts against the side edge position of the surface of the glass 5, the positioning contact part 11 is arranged to be a structure capable of abutting against the side edge position of the surface of the glass 5 in a fitting manner. The positioning contact part 11 is made of polytetrafluoroethylene materials. The connecting side backup plate 8 is made of aluminum. The rotary clamp 9 is made of stainless steel materials.

The tool jig for producing the ultrathin glass is characterized in that a plurality of glass arranging positions are arranged on a jig frame formed by a plurality of cross beams and a plurality of vertical beams, and each glass arranging position can position one piece of glass. And the upper clamp is arranged on the beam at the upper part of each glass arrangement position, the lower clamp is arranged on the beam at the lower part of each glass arrangement position, and the upper clamp and the lower clamp are matched to clamp glass from an upper position and a lower position. Meanwhile, the jig frame is provided with a plurality of glass arrangement positions, and the glass arrangement positions are connected to the vertical beams. And after the glass of every glass arrangement position was arranged, rotatory glass auxiliary positioning spare again for every glass auxiliary positioning spare can support and lean on glass surface side position, and like this, glass auxiliary positioning spare plays limiting displacement to the glass middle part, effectively avoids the glass middle part to produce the bending phenomenon, avoids glass to produce glass and drops, avoids glass to receive the collision of other parts and damages simultaneously, ensures the security in the coating process. The tool fixture for producing the ultrathin glass is simple in structure and low in manufacturing cost, when the ultrathin glass with the thickness smaller than 0.4mm is subjected to film coating treatment, the coated glass can be conveniently and reliably clamped and positioned on the tool fixture, the phenomenon that the middle part of the glass is easy to bend is avoided, the problem that the glass falls off is avoided, meanwhile, the phenomenon that the surface of the glass is scratched is avoided, the convenience of a film coating process is improved, the production efficiency and yield of the ultrathin glass are improved, and the production cost is greatly saved.

The present invention has been described in connection with the accompanying drawings, and it is to be understood that the utility model is not limited to the specific embodiments disclosed, but is intended to cover various modifications, changes and equivalents of the embodiments of the utility model, and its application to other applications without departing from the spirit and scope of the utility model.

Claims

1. The utility model provides an ultra-thin glass production is with frock tool which characterized in that: ultra-thin glass production frock tool include tool frame (1), tool frame (1) includes that multichannel crossbeam (2) and multichannel erect roof beam (3), per twice crossbeam (2) and twice erect and form glass layout position (4) between roof beam (3), every glass (5) upper portion clamps on last anchor clamps (6) that correspond crossbeam (2), every glass (5) lower part clamps on lower anchor clamps (14) that correspond crossbeam (2), still set up glass auxiliary positioning piece (7) on every way erects roof beam (3), every glass auxiliary positioning piece (7) one end sets up to the structure that can erect roof beam (3) and be connected with one, every glass auxiliary positioning piece (7) other end sets up to the structure that can support and lean on glass (5) surface side position.

2. The tooling fixture for producing ultrathin glass according to claim 1, characterized in that: the glass auxiliary positioning piece (7) of the tooling jig for producing the ultrathin glass comprises a connecting side backup plate (8), a rotary clamp (9), a connecting piece (10) and a positioning contact part (11).

3. The tooling fixture for producing ultrathin glass according to claim 2, characterized in that: connect side backup plate (8) on set up concave part (12), concave part (12) set up to clamp the structure on erecting roof beam (3), screw (13) set up to can pass the trompil on connecting side backup plate (8) and with erect the structure that the screw on roof beam (3) was twisted and adorned and is connected.

4. The tooling fixture for producing ultrathin glass according to claim 2, characterized in that: one end of the rotary clamp (9) is movably connected with the connecting side backup plate (8).

5. The tooling fixture for producing ultrathin glass according to claim 4, characterized in that: the other end of the rotary clamp (9) is connected with the connecting piece (10), and the positioning contact part (11) is arranged at the side face of one side of the connecting piece (10).

6. The tooling fixture for producing ultrathin glass according to claim 2, characterized in that: when the auxiliary glass positioning piece (7) is abutted against the side edge position of the surface of the glass (5), the positioning contact part (11) is arranged to be a structure capable of being abutted against the side edge position of the surface of the glass (5) in a fitting manner.

7. The tooling fixture for producing ultrathin glass according to claim 2, characterized in that: the positioning contact part (11) is of a structure made of polytetrafluoroethylene materials.

8. The tooling fixture for producing ultrathin glass according to claim 2, characterized in that: the connecting side backup plate (8) is of a structure made of aluminum materials.

9. The tooling fixture for producing ultra-thin glass according to claim 2, wherein: the rotary clamp (9) is made of stainless steel materials.