CN215967035U - Welding device for electronic component production - Google Patents

Abstract

The utility model relates to the technical field of electronic component welding, in particular to a welding device for electronic component production, which comprises a base, a positioning component and a welding component, wherein the positioning component and the welding component are respectively arranged on the base, the positioning component comprises a positioning plate, a positioning block, at least one clamping block and at least one welding supporting part, the positioning block is fixedly arranged on the positioning plate, the welding supporting part is tightly pressed and arranged on the positioning block through the clamping block, and at least one cooling flow channel is also arranged on the positioning block. Meanwhile, the welding supporting part is tightly pressed and installed on the positioning block through the clamping block, the welding supporting part can be replaced according to different requirements, and the applicability of the welding device is improved.

Description

Welding device for electronic component production

Technical Field

The utility model relates to the technical field of electronic element welding, in particular to a welding device for electronic element production.

Background

An electronic component is a basic element in an electronic circuit having two or more leads or metal contacts, such as a resistor, a capacitor, an inductor, and the like, and with the continuous development of scientific technology and the continuous progress of electronic technology, the production technology of the electronic component is promoted to be improved. The welding equipment for producing the existing electronic element generates heat at the corresponding welding supporting part on the positioning plate or the positioning column when in use, the heat can not be conducted during long-term production, the heat is gathered to influence the welding quality, and the welding supporting part can be caused to generate thermal deformation even more.

SUMMERY OF THE UTILITY MODEL

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides a welding set for electronic component production, includes the base, still includes to set up respectively locating component and welding subassembly on the base, locating component is connected with horizontal sharp drive assembly, horizontal sharp drive assembly can order about locating component is in rectilinear movement is in order to be close to or keep away from on the base welding subassembly, locating component includes locating plate, locating piece, at least one presss from both sides tight piece and at least one welding supporting part, locating piece fixed mounting is in on the locating plate, the welding supporting part passes through press from both sides tight piece to compress tightly to be installed on the locating piece, still be provided with at least one cooling runner on the locating piece.

Furthermore, a hole position for installing the welding support part is formed between the clamping block and the positioning block, one end of the welding support part is inserted into the hole position, and the other end of the welding support part protrudes from the upper end face of the positioning block.

Further, the clamping block is arranged on the side surface of the positioning block, and a cooling gap is formed between the clamping block and the positioning block.

Further, the cooling flow channel passes through the lower part of the hole position.

Furthermore, the hole site is provided with a limiting part, and the limiting part is used for limiting the welding supporting part to rotate relative to the positioning block.

Furthermore, the number of the welding support parts is at least two, the two welding support parts are arranged on two opposite side surfaces of the positioning block, and the cooling flow channel is arranged on the positioning block in a penetrating mode and located in the area between the two welding support parts.

Furthermore, locating component has at least two and sets up side by side on the base, the welding subassembly includes along the vertical soldered connection that sets up downwards, the soldered connection is connected with along vertical first drive assembly and along horizontal fore-and-aft second drive assembly.

Further, the positioning assembly further comprises an insulating plate, and the positioning plate is mounted on the insulating plate.

The utility model has the following beneficial effects: according to the utility model, the at least one cooling flow channel is arranged on the positioning block, the heat of the welding supporting part can be conducted and is rapidly cooled through the positioning block, the welding quality of the electronic element is prevented from being influenced by overheating of the welding supporting part and even thermal deformation of the welding supporting part, meanwhile, the welding supporting part is tightly pressed and arranged on the positioning block through the clamping block, the welding supporting part can be replaced according to different requirements, and the applicability of the welding device is improved.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic structural view of a welding apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a positioning assembly according to an embodiment of the present invention;

FIG. 3 is an assembly schematic of a positioning assembly of an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Referring to fig. 1 to 3, a soldering apparatus for electronic component production includes a base 100, and a positioning assembly 200 and a soldering assembly respectively disposed on the base 100, the positioning assembly 200 being connected to a transverse linear driving assembly 400, the transverse linear driving assembly 400 being capable of driving the positioning assembly 200 to move linearly on the base 100 to approach or separate from the soldering assembly, the transverse linear driving assembly can be a conventional linear sliding table, an operator places a workpiece to be welded on the positioning assembly 200, the positioning assembly 200 is driven by the transverse linear assembly to move to the position below the welding assembly, the transverse linear driving assembly 400 drives the positioning assembly 200 to reset after welding is completed, the operator takes the welded workpiece down and then puts the workpiece to be welded on, and therefore circular production is achieved, and of course, automatic feeding and discharging can be achieved by means of cooperation of a manipulator; referring to fig. 2 and 3, the positioning assembly 200 includes a positioning plate 202, and a positioning block 203, at least one clamping block 204, and at least one welding support 205 respectively mounted on the positioning plate 202, the welding support 205 is fixedly mounted on the positioning block 203 through the corresponding clamping block 204, and the positioning block 203 is further provided with at least one cooling channel 206, the welding support 205 is used for supporting a position to be welded on a workpiece, heat generated during welding is conducted to the positioning block 203 through the welding support 205, and the positioning block 203 achieves rapid cooling through the at least one cooling channel 206, so as to avoid overheating or even thermal deformation of the welding support 205.

In some embodiments, the cooling flow channel 206 passes through the inside of the positioning block 203, and one end of the cooling flow channel 206 is connected to a cooling water inlet pipe, and the other end of the cooling flow channel 206 is connected to a cooling water outlet pipe, so that the positioning block 203 is cooled by the cooling water, and the cooling flow channel 206 is disposed close to the welding support 205, thereby further improving the cooling effect of the welding support 205.

In some embodiments, a hole for installing the welding support 205 is formed between the clamping block 204 and the positioning block 203, one end of the welding support 205 is inserted into the hole 207, and the other end protrudes from the upper end face of the positioning block 203, specifically, the adjacent faces of the clamping block 204 and the positioning block 203 correspond to each other and even have a slot, the two slots surround to form the hole 207 for installing the welding support 205, and the welding support 205 is fixed on the positioning block 203 through the clamping block 204, which facilitates disassembly and replacement.

In some embodiments, the clamping block 204 is disposed at a side of the positioning block 203, and a cooling gap 208 is provided between the clamping block 204 and the positioning block 203, which aims to further enhance the cooling effect of the welding support 205, when an end of the welding support 205 relatively far away from the workpiece is inserted into the hole 207, and a part of the end is exposed to the cooling gap 208, thereby enhancing the cooling effect of the welding support 205.

In some embodiments, referring to fig. 3, a limiting portion 209 is disposed on the hole 207, the limiting portion 209 is used to limit the rotation of the welding support 205 relative to the positioning block 203, specifically, the welding support 205 is a round rod shape as a whole, and an end of the welding support 205 close to the workpiece is provided with a special-shaped structure for positioning a welding point, and an end of the welding support away from the workpiece is provided with a limiting plane portion, and the inner wall of the hole 207 is also provided with the limiting portion 209 engaged with the limiting plane portion, thereby ensuring that the welding support 205 can only be inserted into the hole 207 at a fixed angle, and the welding support 205 does not rotate relative to the positioning block 203 during production.

In some embodiments, there are at least two welding support portions 205, and two of the welding support portions 205 are respectively disposed on two opposite sides of the positioning block 203, and the cooling flow channel 206 is disposed through the positioning block 203 in a region between the two welding support portions 205, so that the two welding support portions 205 are cooled by one cooling flow channel 206, and the arrangement is simple.

In some embodiments, the positioning assembly 200 further includes an insulating plate 201, the positioning plate 202 is mounted on the insulating plate 201, and in particular, the positioning plate 202, the positioning block 203, the clamping block 204 and the welding support 205 may be made of a heat-dissipating metal material such as copper or copper alloy, and the positioning plate 202 may be mounted on the insulating plate 201 in order to ensure the insulation of the positioning assembly 200.

In some embodiments, the welding assembly includes a welding head 303 disposed vertically downward, the specific structure of the welding head 303 may refer to a conventional model and design in the industry, the welding head 303 is connected with a first driving assembly 301 along the vertical direction and a second driving assembly 302 along the horizontal longitudinal direction, specifically, the first driving assembly 301 and the second driving assembly 302 may be conventional linear sliding tables, the first driving assembly 301 is installed at the output end of the second driving assembly 302, the welding head 303 is installed at the output end of the first driving assembly 301, and the welding head 303 may realize the movement along the horizontal longitudinal direction and the vertical direction by the linkage of the first driving assembly 301 and the second driving assembly 302; in the embodiment, at least two positioning assemblies 200 are arranged on the base 100 side by side, and the at least two positioning assemblies 200 can move horizontally and transversely on the base 100 to approach or depart from the welding assembly, so that the welding device of the utility model can adopt one welding head 303 corresponding to the at least two positioning assemblies 200, thereby improving the welding efficiency.

It should be noted that the welding device of the present invention is suitable for electronic components produced by spot welding, and is characterized by fast welding speed and small heat generated by single welding, but the heat dissipation is difficult easily caused during long-time uninterrupted production, the welding device of the present invention inserts one end of the welding support portion 205 onto the positioning block 203, and the cooling flow channel 206 is arranged in the positioning block 203 to help the welding support portion 205 dissipate heat, so that the welding device is suitable for the working environment of long-time uninterrupted production.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the utility model.

Claims (8)

1. A welding device for electronic component production, comprising a base (100), characterized by further comprising a positioning assembly (200) and a welding assembly respectively arranged on the base (100), a transverse linear driving assembly (400) is connected with the positioning assembly (200), the transverse linear driving assembly (400) can drive the positioning assembly (200) to move linearly on the base (100) to be close to or far away from the welding assembly, the positioning assembly (200) comprises a positioning plate (202), a positioning block (203), at least one clamping block (204) and at least one welding support part (205), the positioning block (203) is fixedly arranged on the positioning plate (202), the welding supporting part (205) is tightly pressed and arranged on the positioning block (203) through the clamping block (204), the positioning block (203) is also provided with at least one cooling flow channel (206).

2. The soldering apparatus for electronic component production according to claim 1, wherein a hole (207) for mounting the solder support portion (205) is formed between the clamping block (204) and the positioning block (203), one end of the solder support portion (205) is inserted into the hole (207), and the other end protrudes from an upper end face of the positioning block (203).

3. A soldering apparatus for electronic component production according to claim 2, wherein the clamping block (204) is arranged at the side of the positioning block (203) and there is a cooling gap (208) between the clamping block (204) and the positioning block (203).

4. A soldering apparatus for electronic component production according to claim 2, wherein the cooling channel (206) passes below the hole site (207).

5. The soldering apparatus for electronic component production according to claim 2, wherein a position-limiting portion (209) is disposed on the hole (207), and the position-limiting portion (209) is used to limit the rotation of the soldering support portion (205) relative to the positioning block (203).

6. A soldering apparatus for electronic component production according to claim 1, wherein there are at least two soldering support portions (205), and two soldering support portions (205) are respectively provided on two opposite sides of the positioning block (203), and the cooling channel (206) is formed on the positioning block (203) in a region between the two soldering support portions (205).

7. A soldering apparatus for electronic component production according to claim 1, wherein the positioning assembly (200) has at least two soldering heads (303) arranged side by side on the base (100), the soldering assembly includes a first driving assembly (301) arranged vertically downward, and the soldering heads (303) are connected with a second driving assembly (302) arranged horizontally and longitudinally.

8. A soldering apparatus for electronic component production according to claim 1, wherein the positioning assembly (200) further comprises an insulating plate (201), and the positioning plate (202) is mounted on the insulating plate (201).

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