CN219443988U - Clamping tool and device for diode coiling welding - Google Patents

Abstract

The utility model discloses a clamping tool and a clamping device for diode winding welding, which belong to the technical field of diode welding and comprise a base and a pressing block, wherein the base comprises a base body and a boss, the boss is arranged on the base body, and a limit groove is formed in the boss along the length extending direction of the base body; the pressing block comprises a first pressing end, a second pressing end and a limiting end, wherein the limiting end is respectively connected with the first pressing end and the second pressing end, a first through groove is formed by enclosing one end of the first pressing end and one end of the seat body, and a second through groove is formed by enclosing the other end of the second pressing end and the other end of the seat body; the limiting groove is located between the first through groove and the second through groove, and the diode can be placed in the limiting groove. The utility model achieves the technical effects of improving the safety of operation and improving the efficiency when the diode is subjected to the wire-wrapping welding.

Description

Clamping tool and device for diode coiling welding

Technical Field

The utility model belongs to the technical field of diode welding, and particularly relates to a clamping tool and device for diode bypass welding.

Background

The isolation diode is used for isolating the conduction of voltage in a certain direction by utilizing the unidirectional conduction principle of the diode. When the isolation diode is used, the isolation diode needs to be welded with a wire in a winding way, the volume of the isolation diode is small after the isolation diode is molded, and the isolation diode body is fragile.

At present, in the diode welding technology, an operator usually adopts a manual mode of performing wire-wrapping welding on an isolation diode, and when performing wire-wrapping welding on the isolation diode, the operator needs to fix the position of the isolation diode in a mode of pinching with fingers, and then performs wire-wrapping welding on the isolation diode. However, when the number of the winding welds is large, the operator holds the isolation diode with his finger for a long period of time, which may cause the finger to be stressed for a long period of time, and the finger to be damaged easily, resulting in poor safety, and also in a reduction in the efficiency of winding welds to the isolation diode. As described above, the conventional diode technology has technical problems of poor safety and low efficiency in the operation when the diode is wire-wound.

Disclosure of Invention

The utility model aims to solve the technical problems of poor operation safety and low efficiency when the diode is subjected to wire-wrapping welding.

In order to solve the technical problems, the utility model provides a clamping tool for diode bypass welding, which comprises: the base comprises a base body and a boss, wherein the boss is arranged on the base body, and a limit groove is formed in the boss along the length extending direction of the base body; the pressing block comprises a first pressing end, a second pressing end and a limiting end, wherein the limiting end is respectively connected with the first pressing end and the second pressing end, a first through groove is formed by enclosing one end of the first pressing end and one end of the seat body, and a second through groove is formed by enclosing the other end of the second pressing end and the other end of the seat body; the limiting groove is located between the first through groove and the second through groove, and the diode can be placed in the limiting groove.

Further, a first protruding end is formed on the surface of one end of the base body in a protruding mode along the direction close to the first pressing end, and a first open groove is formed in the first protruding end; the first pressing end is provided with a second open groove aligned with the first open groove, and the first open groove and the second open groove enclose the first through groove.

Further, a second protruding end is formed on the surface of the other end of the base body in a protruding mode along the direction close to the second pressing end, and a third open groove is formed in the second protruding end; the second pressing end is provided with a fourth open groove aligned with the third open groove, and the fourth open groove and the third open groove enclose the second through groove.

Further, the limit groove, the first through groove and the second through groove are positioned on the same straight line.

Further, the first compressing end and the second compressing end are parallel, and the length of the first compressing end is equal to the length of the second compressing end.

Further, the first pressing end is perpendicular to the limiting end, and the second pressing end is perpendicular to the limiting end.

Further, the distance between the boss and the first compression end is equal to the distance between the boss and the second compression end.

Further, the limiting end is provided with a first limiting hole; the clamping tool further comprises a first positioning column, and the first positioning column penetrates through the first limiting hole and is connected with the boss.

Further, the limiting end is provided with a second limiting hole, and the limiting groove is positioned between the second limiting hole and the first limiting hole; the clamping tool further comprises a second positioning column, the second positioning column penetrates through the second limiting hole to be connected with the boss, and the limiting groove is located between the second positioning column and the first positioning column.

According to still another aspect of the present utility model, the present utility model further provides a clamping device for diode winding welding, including a diode, and further including a clamping tool for diode winding welding, where the diode is placed in the limiting groove, and the diode is an isolated diode.

The beneficial effects are that:

the utility model provides a clamping tool for diode winding welding, which is characterized in that a boss in a base is arranged on a base body, and a limit groove is formed in the boss along the length extending direction of the base body. The limiting end in the pressing block is connected with the first pressing end and the second pressing end respectively, the first pressing end and one end of the base body enclose to form a first through groove, and the second pressing end and the other end of the base body enclose to form a second through groove. The limiting groove is located between the first through groove and the second through groove, and the diode can be placed in the limiting groove. When carrying out the round welding to isolation diode like this, can place isolation diode in the spacing groove that is located the boss, isolation diode's one end runs through first hold-down end and the one end of pedestal encloses and closes and form first logical groove, isolation diode's the other end runs through the second hold-down end and the other end of pedestal encloses and closes and form the second logical groove, spacing end and boss are spacing to isolation diode in the briquetting, realize then carrying out the round welding in-process to isolation diode, carry out the centre gripping to isolation diode in real time, can avoid damaging the finger, be favorable to improving the security, promote the efficiency of round welding to the diode. Therefore, the technical effects of improving the safety of operation and improving the efficiency when the diode is subjected to wire-wrapping welding are achieved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a clamping tool for diode wire-bonding according to an embodiment of the present utility model;

fig. 2 is a schematic structural diagram of a clamping tool for diode wire-bonding according to an embodiment of the present utility model;

fig. 3 is a schematic structural diagram of a clamping tool for diode bypass welding according to an embodiment of the present utility model.

Detailed Description

The utility model discloses a clamping tool for welding a diode 4 around, which is characterized in that a boss 12 in a base 1 is arranged on a base body 11, and a limiting groove 121 is formed in the boss 12 along the length extending direction of the base body 11. Limiting ends 23 in the pressing block 2 are respectively connected with a first pressing end 21 and a second pressing end 22, the first pressing end 21 and one end of the seat body 11 enclose to form a first through groove, and the second pressing end 22 and the other end of the seat body 11 enclose to form a second through groove. The limiting groove 121 is located between the first through groove and the second through groove, and the diode 4 can be placed in the limiting groove 121. When carrying out the round welding to isolation diode 4 like this, can place isolation diode 4 in the spacing groove 121 that is located boss 12, the one end of isolation diode 4 runs through first hold-down end 21 and the one end of pedestal 11 enclose and form first logical groove, the other end of isolation diode 4 runs through the second hold-down end 22 and the other end of pedestal 11 encloses and forms the second logical groove, spacing end 23 and boss 12 carry out spacingly to isolation diode 4 in briquetting 2, then realize carrying out the round welding in-process to isolation diode 4, carry out the centre gripping to isolation diode 4 in real time, can avoid damaging the finger, be favorable to improving the security, promote the efficiency of round welding to diode 4. Therefore, the technical effects of improving the safety and the efficiency of operation when the diode 4 is subjected to the wire-wrapping welding are achieved.

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments obtained by a person skilled in the art based on the embodiments of the present utility model are within the scope of the present utility model; wherein reference to "and/or" in this embodiment indicates and/or two cases, in other words, reference to a and/or B in the embodiments of the present utility model indicates two cases of a and B, A or B, and describes three states in which a and B exist, such as a and/or B, and indicates: only A and not B; only B and not A; includes A and B.

It will be understood that, although the terms "first," "second," etc. may be used herein to describe various elements, components, regions, layers and/or sections, these elements, components, regions, layers and/or sections should not be limited by these terms. These terms are only used to distinguish one element, component, region, layer or section from another element, component, region, layer or section. Thus, a first element, component, region, layer or section discussed below could be termed a second element, component, region, layer or section without departing from the teachings of the example embodiments. Spatially relative terms, such as "below," "above," and the like, may be used herein to facilitate a description of one element or feature's relationship to another element or feature. It will be understood that the spatially relative terms may be intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements or features described as "below" would then be oriented "on" other elements or features. Thus, the exemplary term "below" may include both above and below orientations. The device may be oriented (rotated 90 degrees or in other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Also, in embodiments of the present utility model, when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. The terms "vertical", "horizontal", "left", "right" and the like are used in the embodiments of the present utility model for illustrative purposes only and are not intended to limit the present utility model.

Example 1

Referring to fig. 1, fig. 2 and fig. 3, fig. 1 is a schematic structural diagram of a clamping tool for diode 4 wire-wrapping according to an embodiment of the present utility model, fig. 2 is a schematic structural diagram of a clamping tool for diode 4 wire-wrapping according to an embodiment of the present utility model, and fig. 3 is a schematic structural diagram of a clamping tool for diode wire-wrapping according to an embodiment of the present utility model. The embodiment of the utility model provides a clamping tool for welding a diode 4 around, which comprises a base 1 and a pressing block 2, wherein the base 1 and the pressing block 2 are respectively described in detail below:

for base 1:

the base 1 comprises a base 11 and a boss 12, wherein the boss 12 is arranged on the base 11, and a limiting groove 121 is formed in the boss 12 along the length extending direction of the base 11. The limiting groove 121 is located between a first through groove and a second through groove, wherein the limiting groove 121 is used for placing the diode 4. The limiting groove 121, the first through groove and the second through groove are positioned on the same straight line. The surface of one end of the seat 11 is formed with a first protruding end 111 protruding in a direction approaching the first pressing end 21, and a first open slot 112 is provided at the first protruding end 111. The surface of the other end of the seat 11 is formed with a second protruding end 113 protruding in a direction approaching the second pressing end 22, and the second protruding end 113 is provided with a third open groove 114.

Specifically, the base 11 and the boss 12 may be integrally formed, the boss 12 is disposed in the middle of the base 11, a limiting groove 121 is disposed on a side surface of the boss 12, which is close to the limiting end 23 of the pressing block 2, along the length extending direction of the base 11, that is, the limiting groove 121 is in a concave shape on the boss 12, the length extending direction of the limiting groove 121 is the same as the length extending direction of the base 11, a space for placing the diode 4 is provided in the limiting groove 121 in the concave shape, and the diode 4 may include the isolation diode 4. A first projecting end 111 projecting toward a direction approaching the first pressing end 21 in the press block 2 is provided on one end of the seat body 11, and a first open groove 112 in a concave shape is formed on the first projecting end 111. A second projecting end 113 projecting toward a direction approaching the second pressing end 22 in the press block 2 is provided on the other end of the housing 11, a third open groove 114 in a concave shape is formed on the second projecting end 113, and a stopper groove 121 is located between the first open groove 112 and the third open groove 114.

For compact 2:

the briquetting 2 includes first end 21, second end 22 and the spacing end 23 compress tightly, the spacing end 23 respectively with first end 21 with the second compresses tightly end 22 and is connected, first end 21 compress tightly with the one end of pedestal 11 encloses and closes and form first logical groove, the second compresses tightly end 22 with the other end of pedestal 11 encloses and closes and form the second logical groove. The first pressing end 21 is provided with a second open groove 211 aligned with the first open groove 112, and the first open groove 112 and the second open groove 211 enclose the first through groove. The second pressing end 22 is provided with a fourth open groove 221 aligned with the third open groove 114, and the fourth open groove 221 and the third open groove 114 enclose the second through groove. The first pressing end 21 and the second pressing end 22 are parallel to each other, and the length of the first pressing end 21 is equal to the length of the second pressing end 22. The first pressing end 21 is perpendicular to the limiting end 23, and the second pressing end 22 is perpendicular to the limiting end 23. The distance between the boss 12 and the first pressing end 21 is equal to the distance between the boss 12 and the second pressing end 22.

Specifically, the first pressing end 21 of the pressing block 2 is provided with a second open slot 211 aligned with the first open slot 112 of the first protruding end 111, that is, the opening of the second open slot 211 is aligned with the opening of the first open slot 112, the second open slot 211 and the first open slot 112 may form a first through slot, a space for placing one end of the diode 4 is provided in the first through slot, after the diode 4 is placed in the limit slot 121 of the boss 12, one end of the diode 4 penetrates through the first through slot and then is connected with the wire 5, and one end of the diode 4 is limited by the first through slot. The second pressing end 22 of the pressing block 2 is provided with a fourth open slot 221 aligned with the third open slot 114 of the second protruding end 113, that is, the opening of the fourth open slot 221 is aligned with the opening of the third open slot 114, the fourth open slot 221 and the third open slot 114 may form a second through slot, the second through slot has a space for placing the other end of the diode 4, after the diode 4 is placed in the limit slot 121 of the boss 12, the other end of the diode 4 may penetrate through the second through slot and then be connected with the wire 5, and the other end of the diode 4 is limited by the second through slot to realize clamping of the diode 4. The first pressing end 21, the second pressing end 22 and the limiting end 23 may be integrally formed to form the pressing block 2. The first compressing end 21 and the second compressing end 22 may be parallel to each other, the first compressing end 21 and the limiting end 23 are perpendicular to each other, and the second compressing end 22 and the limiting end 23 are perpendicular to each other. The length of the first pressing end 21 and the length of the second pressing end 22 are equal, which means that the distance between one end of the first pressing end 21, which is close to the seat 11, and the spacing end 23 is equal to the distance between the other end of the second pressing end 22, which is close to the seat 11, and the spacing end 23. The equal distance between the boss 12 and the first pressing end 21 and the equal distance between the boss 12 and the second pressing end 22 mean that the distance between one end of the first pressing end 21, which is close to the seat 11, and the boss 12 is equal to the distance between the other end of the second pressing end 22, which is close to the seat 11, and the boss 12.

The clamping tool for the diode 4 bypass welding provided by the embodiment of the utility model can further comprise a first positioning column 3 and a second positioning column 31, wherein the limiting end 23 is provided with a first limiting hole 231; the first positioning column 3 penetrates through the first limiting hole 231 and is connected with the boss 12. The limiting end 23 is provided with a second limiting hole 232, and the limiting groove 121 is located between the second limiting hole 232 and the first limiting hole 231; the second positioning column 31 penetrates through the second limiting hole 232 to be connected with the boss 12, and the limiting groove 121 is located between the second positioning column 31 and the first positioning column 3.

Specifically, a first limiting hole 231 and a second limiting hole 232 may be disposed in the limiting end 23, the first limiting hole 231 and the second limiting hole 232 penetrate through the limiting end 23, and the first limiting hole 231 and the second limiting hole 232 are located at two sides of the limiting groove 121. The first positioning column 3 penetrates through the first limiting hole 231 in the limiting end 23 and then is connected with the boss 12, for example, a threaded hole matched with the first positioning column 3 can be formed in the boss 12, and the first positioning column 3 is in threaded connection with the boss 12. The second positioning column 31 penetrates through the second limiting hole 232 in the limiting end 23 and then is connected with the boss 12, for example, a threaded hole matched with the second positioning column 31 can be arranged in the boss 12, so that the threaded connection between the second positioning column 31 and the boss 12 is realized. Placing diode 4 in the spacing groove 121 that is located boss 12, the first logical groove is run through to the one end of diode 4, after the other end of diode 4 runs through the second logical groove, can run through behind the first spacing hole 231 that is located in spacing end 23 through first reference column 3 be connected with boss 12, second reference column 31 runs through behind the second spacing hole 232 that is located in spacing end 23 be connected with boss 12, realize carrying out fixed connection with briquetting 2 and base 1, can avoid boss 12, the phenomenon that first hold-down end 21 and second hold-down end 22 take place the displacement, improve the centre gripping precision to diode 4.

The utility model provides a clamping tool for welding a diode 4 around, which is characterized in that a boss 12 in a base 1 is arranged on a base body 11, and a limiting groove 121 is formed in the boss 12 along the length extending direction of the base body 11. Limiting ends 23 in the pressing block 2 are respectively connected with a first pressing end 21 and a second pressing end 22, the first pressing end 21 and one end of the seat body 11 enclose to form a first through groove, and the second pressing end 22 and the other end of the seat body 11 enclose to form a second through groove. The limiting groove 121 is located between the first through groove and the second through groove, and the diode 4 can be placed in the limiting groove 121. When carrying out the round welding to isolation diode 4 like this, can place isolation diode 4 in the spacing groove 121 that is located boss 12, the one end of isolation diode 4 runs through first hold-down end 21 and the one end of pedestal 11 enclose and form first logical groove, the other end of isolation diode 4 runs through the second hold-down end 22 and the other end of pedestal 11 encloses and forms the second logical groove, spacing end 23 and boss 12 carry out spacingly to isolation diode 4 in briquetting 2, then realize carrying out the round welding in-process to isolation diode 4, carry out the centre gripping to isolation diode 4 in real time, can avoid damaging the finger, be favorable to improving the security, promote the efficiency of round welding to diode 4. Therefore, the technical effects of improving the safety and the efficiency of operation when the diode 4 is subjected to the wire-wrapping welding are achieved.

In order to describe the device for clamping the diode 4 by the wire-bonding process in detail, the embodiment described above describes the clamping tool for clamping the diode 4 by the wire-bonding process in detail, and based on the same inventive concept, the application also provides the device for clamping the diode 4 by the wire-bonding process, which is described in detail in the second embodiment.

Example two

The second embodiment of the utility model provides a clamping device for welding around a diode 4, which comprises the diode 4 and a clamping tool for welding around the diode 4, wherein the diode 4 is arranged in the limiting groove 121, and the diode 4 is an isolation diode 4.

The utility model provides a clamping device for welding a diode 4 around, which is characterized in that a boss 12 in a base 1 is arranged on a base body 11, and a limit groove 121 is formed in the boss 12 along the length extending direction of the base body 11. Limiting ends 23 in the pressing block 2 are respectively connected with a first pressing end 21 and a second pressing end 22, the first pressing end 21 and one end of the seat body 11 enclose to form a first through groove, and the second pressing end 22 and the other end of the seat body 11 enclose to form a second through groove. The limiting groove 121 is located between the first through groove and the second through groove, and the diode 4 can be placed in the limiting groove 121. When carrying out the round welding to isolation diode 4 like this, can place isolation diode 4 in the spacing groove 121 that is located boss 12, the one end of isolation diode 4 runs through first hold-down end 21 and the one end of pedestal 11 enclose and form first logical groove, the other end of isolation diode 4 runs through the second hold-down end 22 and the other end of pedestal 11 encloses and forms the second logical groove, spacing end 23 and boss 12 carry out spacingly to isolation diode 4 in briquetting 2, then realize carrying out the round welding in-process to isolation diode 4, carry out the centre gripping to isolation diode 4 in real time, can avoid damaging the finger, be favorable to improving the security, promote the efficiency of round welding to diode 4. Therefore, the technical effects of improving the safety and the efficiency of operation when the diode 4 is subjected to the wire-wrapping welding are achieved.

Finally, it should be noted that the above-mentioned embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same, and although the present utility model has been described in detail with reference to examples, it should be understood by those skilled in the art that modifications and equivalents may be made to the technical solution of the present utility model without departing from the spirit and scope of the technical solution of the present utility model, and all such modifications and equivalents are intended to be encompassed in the scope of the claims of the present utility model.

Claims (10)

1. Clamping tool of diode around welding, its characterized in that, clamping tool includes: the base comprises a base body and a boss, wherein the boss is arranged on the base body, and a limit groove is formed in the boss along the length extending direction of the base body; the pressing block comprises a first pressing end, a second pressing end and a limiting end, wherein the limiting end is respectively connected with the first pressing end and the second pressing end, a first through groove is formed by enclosing one end of the first pressing end and one end of the seat body, and a second through groove is formed by enclosing the other end of the second pressing end and the other end of the seat body; the limiting groove is located between the first through groove and the second through groove, and the diode can be placed in the limiting groove.

2. The clamping fixture for diode bypass welding according to claim 1, wherein: the surface of one end of the seat body is provided with a first protruding end in a protruding mode along the direction close to the first pressing end, and the first protruding end is provided with a first open slot; the first pressing end is provided with a second open groove aligned with the first open groove, and the first open groove and the second open groove enclose the first through groove.

3. The clamping fixture for diode bypass welding according to claim 1, wherein: the surface of the other end of the seat body is provided with a second protruding end in a protruding mode along the direction close to the second pressing end, and a third open slot is formed in the second protruding end; the second pressing end is provided with a fourth open groove aligned with the third open groove, and the fourth open groove and the third open groove enclose the second through groove.

4. The clamping fixture for diode bypass welding according to claim 1, wherein: the limiting groove, the first through groove and the second through groove are positioned on the same straight line.

5. The clamping fixture for diode bypass welding according to claim 1, wherein: the first compression end is parallel to the second compression end, and the length of the first compression end is equal to the length of the second compression end.

6. The clamping fixture for diode bypass welding according to claim 1, wherein: the first compression end is perpendicular to the limiting end, and the second compression end is perpendicular to the limiting end.

7. The clamping fixture for diode bypass welding according to claim 1, wherein: the distance between the boss and the first compression end is equal to the distance between the boss and the second compression end.

8. The clamping fixture for diode bypass welding according to claim 1, wherein: the limiting end is provided with a first limiting hole; the clamping tool further comprises a first positioning column, and the first positioning column penetrates through the first limiting hole and is connected with the boss.

9. The clamping fixture for diode bypass welding according to claim 8, wherein: the limiting end is provided with a second limiting hole, and the limiting groove is positioned between the second limiting hole and the first limiting hole; the clamping tool further comprises a second positioning column, the second positioning column penetrates through the second limiting hole to be connected with the boss, and the limiting groove is located between the second positioning column and the first positioning column.

10. A clamping device for diode winding welding, comprising a diode, and further comprising a clamping fixture for diode winding welding according to any one of claims 1 to 9, wherein the diode is placed in the limit groove, and the diode is an isolation diode.