阅读说明：本技术 极薄玻璃减薄承载装置及减薄装置 (Ultrathin glass thinning bearing device and thinning device ) 是由 倪植森 张少波 李刚 许波 杨金发 李俊琛 黄涛涛 于 2020-11-16 设计创作，主要内容包括：本发明提供一种极薄玻璃减薄承载装置,包括承载框、密封盖以及防倒结构,所述承载框的两端开口,且一端开口大,另一端开口小,所述承载框内安装有密封框以及护边结构,所述密封盖与开口大的端部密封安装,且在该密封盖上设有输气端口,所述防倒结构包括位于在所述承载框内的吸盘,所述吸盘安装有滑杆,该滑杆的另一端贯穿密封盖,且可与所述密封盖相对滑动。本发明,由于采用了护边结构,便于玻璃的侧边,也便于密封框与玻璃四周面相接触,另一方面是便于在上述密封过程及密封后保证密闭空间的气密性。设置了防倒结构,在玻璃加工时可以保证玻璃稳固的,同时在玻璃加工完毕后,使得玻璃便于取下。(The invention provides an ultrathin glass thinning bearing device which comprises a bearing frame, a sealing cover and an anti-falling structure, wherein two ends of the bearing frame are provided with openings, one end of the bearing frame is provided with a large opening, the other end of the bearing frame is provided with a small opening, the sealing cover is hermetically arranged on the end part with the large opening, the sealing cover is provided with an air input port, the anti-falling structure comprises a sucker positioned in the bearing frame, the sucker is provided with a sliding rod, and the other end of the sliding rod penetrates through the sealing cover and can slide relative to the sealing cover. The invention adopts the edge protection structure, thereby being convenient for the side edge of the glass and the sealing frame to be contacted with the four peripheral surfaces of the glass, and being convenient for ensuring the air tightness of the closed space in the sealing process and after sealing. The anti-falling structure is arranged, so that the stability of the glass can be ensured during glass processing, and the glass can be conveniently taken down after the glass is processed.)

1. The utility model provides an extremely thin glass attenuate bears device which characterized in that: including bearing frame (1), sealed lid (2) and prevent down structure (5), the both ends opening of bearing frame (1), and one end opening is big, and other end opening is little, install sealed frame (3) and safe edge structure (4) in bearing frame (1), sealed lid (2) and the big tip seal installation of opening, and be equipped with gas transmission port (7) on this sealed lid (2), prevent down structure (5) including being located sucking disc (50) in bearing frame (1), slide bar (51) are installed to sucking disc (50), the other end of this slide bar (51) runs through sealed lid (2), and can with sealed lid (2) relative slip.

2. The very thin glass thinning carrier apparatus of claim 1, wherein: the edge protection structure (4) is arranged at the end part which is closer to the opening than the sealing frame (3), the structure (4) comprises a wedge block (40), the wedge block (40) is fixed in the bearing frame (1), and the radial edge (400) of the wedge block (40) is wedged with the side edge of the glass (11).

3. The very thin glass thinning carriage apparatus of claim 2, wherein: the structure (4) further comprises a buffer block (41), wherein the buffer block (41) is arranged on the axial edge (401) of the wedge block (40), one end of the buffer block is flush with the side edge of the glass (11), and the other end of the buffer block is in contact with the inner wall of the bearing frame (1).

4. The very thin glass thinning carriage apparatus of claim 3, wherein: the outer surface of the buffer block (41) is an arc-shaped surface (402), and when the sealing frame (3) is abutted to the end surface of the glass (11), the abutted end surface of the sealing frame (3) is matched with the arc-shaped surface (402).

5. The very thin glass thinning carrier apparatus of claim 1, wherein: and a glass taking structure (6) capable of being accommodated is arranged on the sucker (50).

6. The very thin glass thinning carrier apparatus of claim 1, wherein: storage groove (56) have been seted up at the middle part of sucking disc (50), the glass that can accomodate is got and is taken structure (6) including pasting diaphragm (60) and elastic component (61), it installs in storage groove (56) to paste diaphragm (60), elastic component (61) are installed and are being pasted diaphragm (60) bottom and are being stored between groove (56) bottom.

7. The very thin glass thinning carriage apparatus of claim 6, wherein: the size of the sticking membrane (60) is matched with that of the accommodating groove (56), and in an initial state, the upper surface of the sticking membrane (60) is exposed out of the accommodating groove (56).

8. The very thin glass thinning carriage apparatus of claim 6, wherein: the sucking disc (50) still has air exhaust pore canal (52) and communicating channel (53), air exhaust pore canal (52) are located the outer fringe of accomodating groove (56), communicating channel (53) are located in said sucking disc (50), and communicate with air exhaust pore canal (52), trachea (55) are installed to slide bar (51), communicating channel (53) link to each other with the one end of trachea (55) through middle passageway (54).

9. The very thin glass thinning carrier apparatus of claim 1, wherein: a safety valve (9) is arranged on the bearing frame (1), and a sealing ring (8) is arranged between the sliding rod (51) and the sealing cover (2).

10. An extremely thin glass attenuate device which characterized in that: comprising the ultra-thin glass thinning carrier device according to any of the claims 1 to 9, and a spraying mechanism (12), wherein the spraying mechanism (12) is penetrated from the small opening end of the carrier frame (1) to spray the surface to be processed of the glass (11) for thinning.

Technical Field

The invention relates to the technical field of liquid crystal glass thinning production process equipment, in particular to an extremely thin glass thinning bearing device and a thinning device.

Background

Transparent conductive film glass (very thin glass) is a main material for manufacturing Flat Panel Displays (FPD), and is widely used in the fields of Liquid Crystal Displays (LCD), Plasma Display Panels (PDP), Touch Panels (TP), Organic Light Emitting Displays (OLED), and the like. With the rapid development of high and new technology products in the world, the requirement for thinning the FPD panel is higher and higher, and therefore, the thinning process of the transparent conductive film glass becomes one of the core problems of thinning the terminal display product.

The thinning is to uniformly etch the transparent conductive film glass substrate to a target thickness by using a chemical solution, and the thinning is divided into single-sided thinning and double-sided thinning. Thinning one side, namely taking a protective measure on one side of the glass substrate and thinning the other side; and (3) thinning the two sides of the glass substrate at the same time. Compared with the spraying thinning process, the latter has the advantages of high etching rate, high utilization rate of liquid medicine, uniform thickness of the obtained glass substrate and few apparent defects, thereby representing the mainstream direction of the thinning process.

When the spraying etching process in the prior art is used for thinning the single surface of the transparent conductive film glass, the clamping jig is the key for implementing the method. On one hand, the surface of the plated conductive film is protected from being corroded by chemical liquid; on the other hand, the clamping state without any shielding object on the other side is realized to ensure the thinning uniformity.

For example, publication nos. CN203545883U and CN101781091B disclose a related transparent conductive film glass single-side thinning bearing apparatus and thinning method, which adopt a vacuum chuck for clamping flat glass, so that the vertically-loaded glass will not fall off or overturn during the conveying process, and the etched surface will not be damaged by the large vertical spray hydraulic pressure. However, the above solution still has the following disadvantages: firstly, because the adoption is the mode of bleeding and adsorbs glass, in case wherein the air exhaust passageway is obstructed, glass exists the condition that is difficult for absorbing, secondly, because the frame limit of glass is exposed outside, so there is the chemical liquid that changes along with spraying duration and soaks to the adsorption plane (non-attenuate face), thirdly, adopt glass to plate one side of transparent conductive film to be adsorbed basically, be not suitable for the glass of transparent conductive film not, fourthly when the attenuate finishes, need when unloading glass under the condition that does not face down the flat glass rotation face, probably still need to rely on tools such as sucking disc.

Disclosure of Invention

The invention aims to provide an extremely thin glass thinning bearing device and a thinning device, which are used for solving the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides an extremely thin glass attenuate bears device, includes bearing frame, sealed lid and prevents down the structure, the both ends opening of bearing frame, and one end opening is big, and other end opening is little, install sealed frame and safe edge structure in the bearing frame, sealed lid and the big tip seal installation of opening, and be equipped with the gas transmission port on this sealed lid, prevent down the structure including being located sucking disc in the bearing frame, the slide bar is installed to the sucking disc, and the other end of this slide bar runs through sealed lid, and can with sealed lid relative slip.

Preferably, the edge protection structure is arranged at the end part which is closer to the opening than the sealing frame, the structure comprises a wedge block, the wedge block is fixed in the bearing frame, and the radial edge of the wedge block is wedged with the side edge of the glass.

Preferably, the structure still includes the buffer block, the buffer block is established on the axial edge of voussoir, and this one end and glass's side parallel and level, the other end and the contact of bearing frame inner wall.

Preferably, the surface of buffer block is an arcwall face, works as when sealed frame is inconsistent with the glass end face, the terminal surface that sealed frame is inconsistent is identical with the arcwall face.

Preferably, the sucking disc is provided with a glass taking structure capable of being accommodated.

Preferably, the storage groove has been seted up at the middle part of sucking disc, the glass that can accomodate is got and is taken the structure including pasting diaphragm and elastic component, it installs at the storage inslot to paste the diaphragm, the elastic component is installed and is being pasted between diaphragm bottom and the storage tank bottom.

Preferably, the sticking membrane is matched with the accommodating groove in size, and in an initial state, the upper surface of the sticking membrane is exposed out of the accommodating groove.

Preferably, the sucking disc still has air exhaust pore and intercommunication passageway, air exhaust pore is located the outer fringe of accomodating the groove, the intercommunication passageway is located states the sucking disc in, and with air exhaust pore intercommunication, the trachea is installed to the slide bar, the intercommunication passageway passes through the intermediate tube and links to each other with tracheal one end.

Preferably, a safety valve is arranged on the bearing frame, and a sealing ring is arranged between the sliding rod and the sealing cover.

In order to achieve the above purpose, the invention also provides the following technical scheme:

the ultrathin glass thinning device comprises the ultrathin glass thinning bearing device and the spraying mechanism, wherein the spraying mechanism is inserted into the end part with a small opening of the bearing frame so as to spray and thin the surface to be processed of the glass.

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

the invention adopts the edge protection structure, thereby being convenient for the side edge of the glass and the sealing frame to be contacted with the four peripheral surfaces of the glass, and being convenient for ensuring the air tightness of the closed space in the sealing process and after sealing. The anti-falling structure is arranged, so that the stability of the glass can be ensured during glass processing, and the glass can be conveniently taken down after the glass is processed.

The invention can realize glass fixation, is more stable in processing, finishes thinning one surface and is convenient to take down and thin the other surface.

Drawings

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

FIG. 2 is a schematic view of the present invention after the glass is installed in FIG. 1;

FIG. 3 is a schematic view of the adhesion between the adhesion film of FIG. 2 and the surface to be processed of the glass;

FIG. 4 is a schematic view of the glass processing surface of FIG. 3 taken out after the glass processing surface is thinned;

FIG. 5 is an exploded view of a portion of the structure of the present invention;

FIG. 6 is an enlarged view taken at A in FIG. 3 according to the present invention;

FIG. 7 is a schematic view of the contact between the glass (surface to be processed) and the sealing frame according to the present invention;

FIG. 8 is a schematic view of the structure of the very thin glass thinning apparatus of the present invention.

In the figure: the device comprises a bearing frame 1, a sealing cover 2, a sealing frame 3, a protective edge structure 4, a wedge block 40, a radial edge 400, an axial edge 401, an arc surface 402, a buffer block 41, a falling prevention structure 5, a suction cup 50, a slide rod 51, a suction hole 52, a communication channel 53, a middle channel 54, a receiving groove 56, a glass taking structure 6, a sticking membrane 60, an elastic part 61, an air delivery port 7, a sealing ring 8, a safety valve 9, a dual-purpose pump for blowing and sucking 10, glass 11 and a spraying mechanism 12.

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.

Example (b):

referring to fig. 1 to 8, the present invention provides a technical solution:

the utility model provides an extremely thin glass attenuate bears device, includes bearing frame 1, sealed lid 2 and prevents down structure 5, bearing frame 1's both ends opening, and one end opening is big, and the other end opening is little, install sealed frame 3 and safe edge structure 4 in the bearing frame 1, sealed lid 2 is installed with the tip seal that the opening is big, and is equipped with gas transmission port 7 on this sealed lid 2, prevent down structure 5 including being located sucking disc 50 in bearing frame 1, sucking disc 50 installs slide bar 51, and this slide bar 51's the other end runs through sealed lid 2, and can with sealed 2 relative sliding of lid.

The edge protection structure 4 is arranged at the end part which is closer to the opening than the sealing frame 3, the structure 4 comprises a wedge block 40, the wedge block 40 is fixed in the bearing frame 1, and the radial edge 400 of the wedge block 40 is wedged with the side edge of the glass 11. The structure 4 further comprises a buffer block 41, wherein the buffer block 41 is arranged on the axial edge 401 of the wedge 40, one end of the buffer block is flush with the side edge of the glass 11, and the other end of the buffer block is in contact with the inner wall of the bearing frame 1. The outer surface of the buffer block 41 is an arc-shaped surface 402, and when the sealing frame 3 is abutted against the end surface of the glass 11, the abutted end surface of the sealing frame 3 is matched with the arc-shaped surface 402.

In this embodiment, as shown in fig. 1 and 3, the glass 11 to be thinned needs to be put in from the end portion of the carrying frame 1 with the large opening, after the putting is completed, the sealing frame 3 is put in to form the state shown in fig. 7, and finally the sealing cover 2 is covered and sealed. Then, one end of the air conveying pipe is connected to the air conveying port 7, the other end of the air conveying pipe is connected to the blowing and sucking dual-purpose pump 10, and proper air pressure is blown into the bearing frame 1: in the process, the glass 11 is gradually pressed towards the far end of the sealing cover 2 along with the increase of the air pressure in the closed space formed by the glass 11, the inner wall of the bearing frame 1 and the sealing cover 2, meanwhile, in order to avoid the leakage of blown air from the glass, the periphery of the surface to be processed of the glass 11 is sealed by the sealing frame 3, specifically, due to the effect of the air pressure, the sealing frame 3 may not be tightly contacted with the surface of the glass 11 at first, and along with the increase of the air pressure to a proper state, the contact surfaces of the glass 11 and the sealing frame are pressed, so that the sealing purpose is realized. In order to facilitate better sealing during the blowing process, the sealing frame 3 is made of an elastic deformation material (such as rubber, silica gel, flexible plastic, etc.).

In order to protect the side edges of the glass during the process of pressing the sealing frame 3 and the surface to be processed of the glass 11, as shown in fig. 6, the radial edge 400 of the wedge 40 is wedged with the side edges of the glass 11, so that the side edges of the glass 11 can be prevented from edge breakage and the like when entering the radial edge 400, and the air sealing is better guaranteed because the radial edge 400 and the radial edge 400 are wedged. Before the side edge of the glass 11 contacts with the radial edge 400, the buffer block 41 is firstly passed through, the purpose of arranging the buffer block 41 is to facilitate the side edge of the glass 11 to be more easily slid into the radial edge 400, and the purpose of protecting the side edge is achieved, and the step is to ensure that the side edge completely enters the radial edge 400 and is wedged with the radial edge 400. Specifically, after the two are completely wedged, the sealing frame 3 is convenient to mount at the moment, and the sealing frame 3 and the outer surface of the buffer block 41 are as follows: the curved surfaces 402 are shaped to facilitate contact between the sealing frame 3 and the peripheral surface of the glass 11, and to ensure the air tightness of the sealed space during and after the sealing process. In this scheme, safe edge structure 4 adopts the flexible limit as far as possible if adopt with sealed frame 3 the same material, for example rubber or silica gel make.

The sucking disc 50 is provided with a glass taking structure 6 capable of being accommodated. Storage groove 56 has been seted up at sucking disc 50's middle part, the glass that can accomodate is got and is taken structure 6 including pasting diaphragm 60 and elastic component 61, it installs in storage groove 56 to paste diaphragm 60, elastic component 61 is installed and is being pasted the diaphragm 60 bottom and is being stored between the groove 56 bottom. The adhesive film 60 is adapted to the storage groove 56 in size, and in an initial state, the upper surface of the adhesive film 60 is exposed out of the storage groove 56. The suction cup 50 is further provided with an air suction hole passage 52 and a communication passage 53, the air suction hole passage 52 is positioned at the outer edge of the accommodating groove 56, the communication passage 53 is positioned in the suction cup 50 and is communicated with the air suction hole passage 52, the sliding rod 51 is provided with an air pipe 55, and the communication passage 53 is connected with one end of the air pipe 55 through a middle passage 54.

As shown in fig. 3, before blowing air into the enclosed space, the tilting prevention structure 5 may also be pushed inward to contact the surface to be processed of the glass 11, specifically: the slide rod 51 is pushed leftwards to drive the sucker 50 to move and not drink until the sucker 50 is contacted with the surface to be processed of the glass 11, and then a little force is applied to ensure that the glass taking structure 6 can be contacted with the surface to be processed of the glass 11, and when the required air pressure is blown, the sucker 50 can be fixed under the action of the air pressure. At this moment, the sucking disc 50 is used for assisting in fixing the glass, and the sticking film 60 is arranged, so that the glass 11 can be sucked with the sucking disc 50 at the same time, when the glass 11 is thinned and the sliding rod 51 is moved to the right after the pressure of the closed space is released, the glass can be conveniently taken down, and the other surface is processed. In the process, after the pasting membrane 60 and the surface to be processed of the glass 11 are tightly pressed, the outer surface of the pasting membrane 60 is flush with the opening of the accommodating groove 56, the air is sucked by the blowing and sucking dual-purpose pump 10, the glass 11 is sucked by the air pipe 55 and the middle channel 54 through the air suction hole 52, the blowing and sucking dual-purpose pump 10 can be removed to suck air when the glass needs to be taken down, the glass is convenient to take down, it needs to be noted that the sealing cover 2 needs to be opened when the glass 11 is taken down, and the pasting membrane 60 can be a silica gel membrane or a removable film.

A safety valve 9 is arranged on the bearing frame 1, and a sealing ring 8 is arranged between the sliding rod 51 and the sealing cover 2. As shown in figure 1, the sealing ring 8 is arranged to ensure the air tightness of the closed space and the stable air pressure in the movement process of the sliding rod 51, and the safety valve 9 is arranged to facilitate the increase of the air pressure in the closed space (in the process of blowing or thinning the glass 11) and ensure the safety of the glass 11. In this scheme, the shape of bearing frame 1 can be set for according to the condition of actual processing glass shape, like four prismatic table forms, cylindric etc. and the material can adopt prior art, and here is no longer detailed. In this embodiment, the glass 11 without the coating film may be thinned, that is, the glass 11 may not be coated with the transparent conductive film.

As shown in FIG. 8, the ultrathin glass thinning device comprises the ultrathin glass thinning bearing device and the spraying mechanism 12, wherein the spraying mechanism 12 is penetrated from the end part with the small opening of the bearing frame 1 so as to spray and thin the surface to be processed of the glass 11. In this scheme, spray mechanism 12 adopts prior art, including nozzle etc. and here does not give in detail.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.