CN215288537U - Clamp for processing local conductive glass - Google Patents

Abstract

The utility model provides an anchor clamps for processing local conductive glass belongs to anchor clamps technical field. It has solved the unable problem that realizes local electrically conductive of current glass. This an anchor clamps for processing local conductive glass includes first splint and second splint, the first electroplating hole that a plurality of runs through has on the first splint, all link firmly a plurality of first sheltering from the strip in every first electroplating hole, have on the second splint a plurality of run through and just to the second electroplating hole of setting with first electroplating hole, a plurality of second sheltering from the strip has in the second electroplating hole, paste when first splint and second splint paste and lean on fixedly, first sheltering from the strip and lean on the second sheltering from the strip that corresponds, the second shelters from the strip and has the holding tank of the confession glass embedding of recessed setting towards one side of first sheltering from the strip, the holding tank has one end interval with the pore wall in second electroplating hole between. The clamp enables the processed conductive glass to be locally conductive and can conduct electricity on two sides.

Description

Clamp for processing local conductive glass

Technical Field

The utility model belongs to the technical field of anchor clamps, a an anchor clamps for processing local conductive glass is related to.

Background

The common glass is an insulating material, and the common glass can have conductive performance by plating a conductive film on the surface of the common glass, namely the conductive glass.

Conventional conductive glass, for example, chinese patent literature discloses an ITO conductive film glass [ application number: 201820913669.3, respectively; authorization notice number: CN209024413U ], the ITO conductive film glass comprises a glass substrate, a silicon nitride deposition layer, a first low resistance material layer, a first ITO conductive film layer, a second low resistance material layer and a second ITO conductive film layer; the first low-resistance material layer is in a square grid shape; the second low-resistance material layer is in a circular grid shape.

The glass with the structure has the conductive performance by plating the ITO conductive film layer on the glass substrate. However, after the ITO conductive film layer is plated on the glass with the structure, the whole glass can conduct electricity, but only one side of the glass substrate can conduct electricity. And aiming at the places where the same area required by some watch cores and intelligent medical equipment requires electric conduction and non-electric conduction, the ITO conductive film glass with the structure cannot be realized.

Disclosure of Invention

The utility model aims at the above-mentioned problem that exists among the prior art, provide an anchor clamps for processing local conductive glass, the technical problem of solution makes the conductive glass who processes out can be locally electrically conductive and can two-sidedly electrically conductive.

The purpose of the utility model can be realized by the following technical proposal: the utility model provides an anchor clamps for processing local conductive glass, includes first splint and second splint, its characterized in that, have the first electroplating hole that a plurality of runs through on the first splint, every all link firmly a plurality of first blocking strip in the first electroplating hole, have on the second splint a plurality of run through and just to the second electroplating hole of setting with first electroplating hole, a plurality of second blocking strip has in the second electroplating hole, paste when first splint and second splint paste and lean on fixedly, first blocking strip pastes and leans on the second blocking strip that corresponds, the second blocks that the strip has the holding tank of the confession glass embedding of recessed setting towards one side of first blocking strip, the holding tank has an end interval with the pore wall in second electroplating hole between.

During processing, glass is embedded into the accommodating groove of the second shielding strip, then the first clamping plate is attached to and fixed on the second clamping plate, the glass is positioned by the first shielding strip matching with the second shielding strip, then the ITO conductive film is plated on the glass, when the first clamping plate faces upwards, the first shielding strip shields a part of area on one side of the glass, the ITO conductive film is plated on the other area of the glass which is not shielded, so that the other area can conduct electricity, and the shielded part of area is not plated with the ITO conductive film, so that the partial area cannot conduct electricity; and then the second clamping plate faces upwards, the second shielding strip shields a partial area on the other side of the glass, the ITO conductive film is plated in the other uncovered area of the glass to enable the other area to be conductive, and the shielded partial area is not plated with the ITO conductive film to be conductive, so that the conductive glass can be locally conductive and can conduct electricity on two sides. And one end interval has between the pore wall in holding tank and second electroplating hole, when the both sides of glass were plated with the ITO conductive film, part ITO conductive film can be plated at the edge of the glass that is sheltered from by first sheltering from strip and second sheltering from the strip to the electric connection can be realized through the ITO conductive film at edge in the region that makes the positive and negative two sides of glass correspond.

In the above-mentioned clamp for processing the local conductive glass, the thickness of the second shielding strip is greater than that of the first shielding strip. The second shelters from and need set up the holding tank on the strip, and this kind of structure makes the second shelter from the strip and has sufficient intensity.

In foretell an anchor clamps for processing local conductive glass, first sheltering from strip and second and sheltering from a one-to-one setting, first sheltering from one side that the strip sheltered from the strip towards the second has the portion of compressing tightly that the protrusion set up, the portion of compressing tightly is just to setting up with the holding tank, just have the clearance between the outer end of portion of compressing tightly and the cell wall of holding tank. The setting up of the portion that compresses tightly makes first sheltering from strip and second shelter from that the strip can be better press from both sides tightly glass, prevents that glass from sliding at the in-process of processing, improves the processingquality of product, and the setting in clearance has certain buffering volume, prevents to split.

In the above-mentioned clamp for processing the local conductive glass, the circumferential edge of the first electroplating hole has a first conical surface which is obliquely inwards and downwards arranged. The arrangement of the first conical surface enables the side wall of the glass to be not shielded when being plated with the ITO conductive film, and ensures that the edge of the glass can be plated with the ITO conductive film.

In the above-mentioned clamp for processing the partially conductive glass, two adjacent first conical surfaces are arranged in contact with each other. Compact structure makes can set up more first electroplating holes on the first splint, can process more products once, improves machining efficiency.

In the above-mentioned clamp for processing the local conductive glass, the circumferential edge of the second electroplating hole has a second conical surface which is obliquely inwards and downwards arranged. The second conical surface is arranged to prevent the side wall of the glass from being shielded when being plated with the ITO conductive film, so that the edge of the glass can be plated with the ITO conductive film.

In the above-mentioned clamp for processing the partially conductive glass, two adjacent second conical surfaces are arranged in contact with each other. Compact structure makes can set up more first electroplating holes on the first splint, can process more products once, improves machining efficiency.

In foretell an anchor clamps for processing local conductive glass, first sheltering from strip and second sheltering from strip all are the cross, all are X-shaped or all are Y-shaped, the outer end of first sheltering from strip links firmly with the pore wall in first electroplating hole mutually, the outer end that the second sheltered from strip links firmly with the pore wall in second electroplating hole mutually.

Compared with the prior art, the utility model provides a pair of an anchor clamps for processing local conductive glass has following advantage:

1. through the fixed glass of this anchor clamps plates ITO conductive film, can realize two-sided electrically conductive, local non-conducting and positive and negative and correspond the function that the region can realize the electric connection, satisfy various product demands.

2. The fixture is simple in structure, can plate ITO conductive films on a plurality of glass at one time, and is high in processing efficiency.

Drawings

Fig. 1 is a schematic view of the overall structure of the present clip.

FIG. 2 is an enlarged view of the area of FIG. 1A of the present clip.

Fig. 3 is a partial sectional view of the present clip.

In the figure, 1, a first splint; 2. a second splint; 3. a first plated hole; 4. a first masking strip; 41. a pressing part; 5. a second plated hole; 6. a second masking strip; 7. accommodating grooves; 8. a first conical surface; 9. a second conical surface.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1, the clamp for processing the local conductive glass comprises a first clamping plate 1, a second clamping plate 2, a first shielding strip 4 and a second shielding strip 6, wherein the first clamping plate 1 and the first shielding strip 4 are of an integrated structure, and the second clamping plate 2 and the second shielding strip 6 are of an integrated structure.

In the embodiment, eighteen through first electroplating holes 3 are arranged on the first clamping plate 1, two first shielding strips 4 are fixedly connected in each first electroplating hole 3, the two first shielding strips 4 are arranged in a cross shape, the outer ends of the first shielding strips 4 are fixedly connected with the hole wall of the first electroplating hole 3, eighteen second electroplating holes 5 which penetrate through the second clamping plate 2 are arranged, the first electroplating holes 3 and the second electroplating holes 5 are arranged in a one-to-one correspondence manner, two second shielding strips 6 are fixedly connected in each second electroplating hole 5, the two second shielding strips 6 are arranged in a cross manner, the outer ends of the second shielding strips 6 are fixedly connected with the hole wall of the second electroplating hole 5, in actual production, the number of the first plating holes 3 and the second plating holes 5 may be nine or thirty-six, the number of the first shielding bars 4 and the second shielding bars 6 may be one or three, and the first shielding bars 4 and the second shielding bars 6 may be both X-shaped or both Y-shaped.

As shown in fig. 2 and 3, when the first clamping plate 1 and the second clamping plate 2 are attached and fixed, the first shielding bar 4 is attached to the corresponding second shielding bar 6, one side of the second shielding bar 6 facing the first shielding bar 4 is provided with a recessed accommodating groove 7 for glass to be embedded, and an end distance is provided between the accommodating groove 7 and the hole wall of the second electroplating hole 5. The first shielding strip 4 is provided with a pressing part 41 protruding towards one side of the second shielding strip 6, the pressing part 41 is opposite to the accommodating groove 7, and a gap is formed between the outer end of the pressing part 41 and the groove wall of the accommodating groove 7. The thickness of the second blocking strip 6 is greater than that of the first blocking strip 4, that is, the thickness of the second clamping plate 2 is greater than that of the first clamping plate 1.

The circumferential edge of the first electroplating hole 3 is provided with a first conical surface 8 which is obliquely arranged inwards and downwards, and two adjacent first conical surfaces 8 are attached to each other. The circumferential edge of the second electroplating hole 5 is provided with a second conical surface 9 which is obliquely arranged inwards and downwards, and two adjacent second conical surfaces 9 are attached to each other.

Add man-hour, imbed glass in the holding tank 7 that the second sheltered from strip 6, then paste first splint 1 and paste to fix on second splint 2, shelter from strip 6 through first sheltering from strip 4 cooperation second and fix glass, then plate the ITO conductive film to the front and the border that glass was not sheltered from, turn over first splint 1 and second splint 2 again, plate the ITO conductive film to the back and the border that glass was not sheltered from, processing is accomplished the back, unpack first splint 1 and second splint 2 apart, it can to take off glass.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the terms of the first clamping plate 1, the second clamping plate 2, the first plating hole 3, the first shielding bar 4, the pressing part 41, the second plating hole 5, the second shielding bar 6, the receiving groove 7, the first conical surface 8, the second conical surface 9, etc. are used more herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (8)

1. A clamp for processing local conductive glass comprises a first clamping plate (1) and a second clamping plate (2), it is characterized in that the first clamping plate (1) is provided with a plurality of first electroplating holes (3) which penetrate through the first clamping plate, a plurality of first shielding strips (4) are fixedly connected in each first electroplating hole (3), the second clamping plate (2) is provided with a plurality of second electroplating holes (5) which penetrate through and are opposite to the first electroplating holes (3), a plurality of second shielding bars (6) are arranged in the second electroplating holes (5), when the first clamping plate (1) and the second clamping plate (2) are attached and fixed, the first shielding strip (4) is attached to the corresponding second shielding strip (6), one side of the second shielding strip (6) facing the first shielding strip (4) is provided with a concave accommodating groove (7) for glass to be embedded, and an end distance is reserved between the accommodating groove (7) and the hole wall of the second electroplating hole (5).

2. The jig for processing partially conductive glass according to claim 1, wherein the thickness of the second shielding strip (6) is greater than the thickness of the first shielding strip (4).

3. The fixture for processing the local conductive glass as claimed in claim 1 or 2, wherein the first shielding strip (4) and the second shielding strip (6) are arranged in a one-to-one correspondence manner, a pressing part (41) which is convexly arranged is arranged on one side of the first shielding strip (4) facing the second shielding strip (6), the pressing part (41) is arranged opposite to the accommodating groove (7), and a gap is arranged between the outer end of the pressing part (41) and the groove wall of the accommodating groove (7).

4. The clamp for processing the local conductive glass according to the claim 1 or 2, characterized in that the first electroplating hole (3) has a first conical surface (8) which is obliquely inwards and downwards arranged at the circumferential edge.

5. The clamp for processing the partially conductive glass according to claim 4, wherein two adjacent first conical surfaces (8) are abutted.

6. The clamp for processing the local conductive glass according to claim 1 or 2, wherein the circumferential edge of the second electroplating hole (5) is provided with a second conical surface (9) which is obliquely inwards and downwards.

7. The clamp for processing the partially conductive glass according to claim 6, wherein two adjacent second conical surfaces (9) are abutted.

8. The clamp for processing the local conductive glass according to claim 1 or 2, wherein the first shielding strip (4) and the second shielding strip (6) are both cross-shaped, both X-shaped or both Y-shaped, the outer end of the first shielding strip (4) is fixedly connected with the hole wall of the first electroplating hole (3), and the outer end of the second shielding strip (6) is fixedly connected with the hole wall of the second electroplating hole (5).

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