CN213230883U - High-efficient high accuracy graphite and conducting resin tool device of laminating in step - Google Patents

Abstract

The utility model discloses a high-efficient high-precision graphite and conductive adhesive synchronous laminating jig device, which comprises a cover plate, a hinge, a graphite placing cavity, a conductive adhesive placing cavity, a first floating plate, a second floating plate, a base, an outer positioning column, an inner positioning column and a base support frame, wherein the outer positioning column and the inner positioning column are used for positioning and fixing a workpiece in an accommodating part, so that the workpiece is effectively prevented from running when being laminated, the graphite and the conductive adhesive are fixed on a laminating jig by arranging the graphite placing cavity and the conductive adhesive placing cavity, the graphite and the conductive adhesive are effectively prevented from running during the laminating process, the laminating precision of the workpiece is further improved, the laminating quality of a product is improved, the cover plate can be closed when the laminating jig is not used, the dustproof effect is achieved, the graphite placing cavity and the conductive adhesive placing cavity are arranged simultaneously, the laminating of the graphite and the conductive adhesive can be carried out simultaneously, the production efficiency is improved, and the, the cost is low, and the production requirements of enterprises can be met.

Description

High-efficient high accuracy graphite and conducting resin tool device of laminating in step

Technical Field

The utility model relates to a receive and release machine processing technology field, in particular to high-efficient high accuracy graphite and conducting resin tool device of laminating in step.

Background

The graphite and the conductive adhesive are used for packaging electronic components and have the functions of unidirectional conduction and gluing fixation. The method is suitable for packaging, bonding and the like of various electronic elements and assemblies.

The existing graphite and conductive adhesive attaching method generally places an electronic element on a platform, manually attaches the graphite and the conductive adhesive on the appointed position of the electronic element, and some enterprises make an attaching jig conveniently at present, but the existing attaching jig separately posts the graphite and the conductive adhesive, so that the production efficiency is low, the ever-increasing delivery requirements cannot be met, dust prevention cannot be achieved, the graphite and the conductive adhesive need to be cleaned in each use, and the unclean cleaning can influence the product quality.

The utility model provides a high-efficient high accuracy graphite and conducting resin tool device of laminating in step solve above-mentioned technical problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve current thin glue receiving and releasing machine because the inner core of coil stock is different with the spool size, can have the inner core to rock the phenomenon to do not have flattening mechanism, there is the problem of material wrinkle when receiving and releasing the coil stock, directly influence the rolling and the product quality of product, also reduced work efficiency's technical problem simultaneously, provide high-efficient high accuracy graphite and the synchronous tool device of laminating of conducting resin and solve above-mentioned technical problem.

High-efficient high accuracy graphite and conducting resin tool device of laminating in step, its characterized in that: including apron, hinge, graphite place the chamber, the conducting resin places chamber, kickboard one, kickboard two, base, outer reference column and interior reference column, the apron passes through the hinge and links to each other with the base, graphite places the one side that the chamber is located kickboard two, the conducting resin is placed the one side that the chamber is located kickboard one, be equipped with two draw-in grooves of kickboard on the kickboard one, two kickboards are through two draw-in groove joints of kickboard on the kickboard one, outer reference column and interior reference column are fixed on the base, kickboard one is fixed on the base through outer reference column and interior reference column, be equipped with outer reference column hole and interior reference column hole on the apron, outer reference column is located outer reference column when the apron lid, and interior reference column is located interior reference column hole, graphite is placed chamber and conducting resin and is placed the opposite position in chamber.

Furthermore, the number of the outer positioning holes and the number of the inner positioning holes are four, the outer positioning holes are located in four corners of the base respectively, and the inner positioning holes are located in two long frames which are evenly distributed on the base.

Further, the diameter of the outer positioning column is 2-3 times of that of the inner positioning column.

Compared with the prior art, the utility model has the advantages that: through outer reference column and interior reference column, fix a position the work piece in the holding portion, run when effectively preventing the work piece laminating, and place the chamber and the chamber is placed to the conducting resin through setting up graphite, fix graphite and conducting resin on the tool of laminating, effectively prevent graphite and conducting resin run in the laminating process, and then promote the laminating precision of work piece, the apron that is equipped with can cover the back and fix on outer reference column and interior reference column, press the cover plate and can be the work piece and graphite and the increase of conducting resin's laminating intensity, improve product laminating quality, laminating tool can close the apron when not using, play dirt-proof effect, it places the chamber and the conducting resin is placed to the graphite and the laminating that the chamber can carry out graphite and conducting resin simultaneously to be placed to the conducting resin to be equipped with simultaneously, and the production efficiency is improved, the tool of should laminating simple structure, and is low in cost, can satisfy.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below.

Fig. 1 is a schematic plane structure diagram of a high-efficiency high-precision graphite and conductive adhesive synchronous bonding jig device provided in an embodiment of the present invention;

in the drawings: 1. a cover plate; 2. a hinge; 3. a graphite placement cavity; 4. a conductive adhesive placing cavity; 5. a first floating plate; 6. a second floating plate; 7. a base; 8. an outer locating post; 9. an inner positioning column; 10. a floating plate II clamping groove; 11. an outer positioning post hole; 12. and an inner positioning column hole.

Detailed Description

In view of the deficiencies in the prior art, the technical solution of the present invention can be provided through long-term research and a large amount of practice. The technical solution in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention.

Fig. 1 is a schematic view of a planar mechanism of a high-efficiency and high-precision graphite and conductive adhesive synchronous bonding jig device provided in an embodiment of the present invention; as shown in fig. 1, the high-efficiency and high-precision graphite and conductive adhesive synchronous bonding jig device is characterized in that: comprises a cover plate 1, a hinge 2, a graphite placing cavity 3, a conductive adhesive placing cavity 4, a floating plate I5, a floating plate II 6, a base 7, an outer positioning column 8 and an inner positioning column 9, the cover plate 1 is connected with a base 7 through a hinge, the graphite placing cavity 3 is positioned at one side of the floating plate II 6, the conductive adhesive placing cavity 4 is positioned at one side of the first floating plate 5, a second floating plate clamping groove 10 is arranged on the first floating plate 5, the floating plate II 6 is clamped on the floating plate I5 through a floating plate II clamping groove 10, the outer positioning column 8 and the inner positioning column 9 are fixed on the base 7, the first floating plate 5 is fixed on the base 7 through an outer positioning column 8 and an inner positioning column 9, the cover plate 1 is provided with an outer positioning column hole 11 and an inner positioning column hole 12, when the cover plate 1 is covered, the outer positioning column 8 is positioned in the outer positioning hole 11, the inner positioning column 9 is positioned in the inner positioning column hole 12, and the positions of the graphite placing cavity 3 and the conductive adhesive placing cavity 4 are opposite.

Preferably, there are four outer positioning holes 11 and four inner positioning holes 12, the outer positioning holes 11 are located in four corners of the base 7, and the inner positioning holes 12 are located in two long frames equally divided in the base 7.

Preferably, the diameter of the outer positioning column 8 is 2-3 times the diameter of the inner positioning column 9.

To sum up, the high-efficiency and high-precision graphite and conductive adhesive synchronous laminating jig device provided by the utility model fixes and positions the workpiece in the accommodating part through the outer positioning column and the inner positioning column, effectively prevents the workpiece from running when laminating, and fixes the graphite and the conductive adhesive on the laminating jig through the arrangement of the graphite placing cavity and the conductive adhesive placing cavity, thereby effectively preventing the graphite and the conductive adhesive from running during the laminating process, further improving the laminating precision of the workpiece, the cover plate is arranged to be fixed on the outer positioning column and the inner positioning column after being covered, the laminating strength of the workpiece, the graphite and the conductive adhesive can be increased by pressing the cover plate, the laminating quality of the product is improved, the cover plate can be closed when the laminating jig is not used, the dustproof effect is achieved, the graphite placing cavity and the conductive adhesive placing cavity are arranged simultaneously, the laminating of the graphite and the conductive adhesive can be carried out simultaneously, the production efficiency is improved, and the laminating jig has a, the cost is low, and the production requirements of enterprises can be met.

The utility model provides a high-efficient high accuracy graphite and conducting resin tool device of laminating in step should understand, and above-mentioned embodiment is only for the explanation the utility model discloses a technical conception and characteristics, its aim at let the personage of familiar with this technique can understand the utility model discloses an according to in order to implement, can not restrict with this the utility model discloses a protection scope. All simple changes and replacements made by the contents of the utility model are included in the protection scope of the utility model.

Claims (3)

1. High-efficient high accuracy graphite and conducting resin tool device of laminating in step, its characterized in that: including apron, hinge, graphite place the chamber, the conducting resin places chamber, kickboard one, kickboard two, base, outer reference column and interior reference column, the apron passes through the hinge and links to each other with the base, graphite places the one side that the chamber is located kickboard two, the conducting resin is placed the one side that the chamber is located kickboard one, be equipped with two draw-in grooves of kickboard on the kickboard one, two kickboards are through two draw-in groove joints of kickboard on the kickboard one, outer reference column and interior reference column are fixed on the base, kickboard one is fixed on the base through outer reference column and interior reference column, be equipped with outer reference column hole and interior reference column hole on the apron, outer reference column is located outer reference column when the apron lid, and interior reference column is located interior reference column hole, graphite is placed chamber and conducting resin and is placed the opposite position in chamber.

2. The apparatus of claim 1, wherein the jig comprises: the outer positioning holes and the inner positioning holes are four in number, the outer positioning holes are located in four corners of the base respectively, and the inner positioning holes are located in two long frames which are evenly distributed on the base.

3. The apparatus of claim 1, wherein the jig comprises: the diameter of the outer positioning column is 2-3 times of that of the inner positioning column.

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