CN216656698U - Capacitor mounting structure of intelligent capacitor energy storage stud welding machine - Google Patents

Abstract

The utility model discloses a capacitor mounting structure of an intelligent capacitor energy storage stud welding machine, which comprises a workbench, wherein a stud welding machine body is arranged on one side of the upper end surface of the workbench, a mounting box is arranged on the lower end surface of the workbench, a capacitor placing cavity is arranged on one side in the mounting box, a capacitor mounting component is arranged in the capacitor placing cavity, an executing mechanism of the stud welding machine is arranged on one side of the capacitor placing cavity in the mounting box, a heat radiation fan is arranged on the lower end surface of the mounting box and below the capacitor placing cavity, a group of box doors are symmetrically hinged and rotatably at the position of the capacitor placing cavity and in the front of the mounting box, and supporting legs are arranged at end corners at the bottom of the mounting box. The utility model has reasonable integral design and strong practicability, effectively solves the insulation problem between adjacent capacitor bodies and the heat dissipation problem during the operation of the capacitor bodies, and has the advantages of good use effect and the like.

Description

Capacitor mounting structure of intelligent capacitor energy storage stud welding machine

Technical Field

The utility model relates to the technical field of capacitor installation related structures of a capacitor energy storage stud welding machine, in particular to a capacitor installation structure of an intelligent capacitor energy storage stud welding machine.

Background

The stud welding machine is a welding machine which welds the whole end face of a metal stud or a similar part on a workpiece through instantaneous pressurization and discharge. The stud is pressed into the molten pool by spring pressure in the welding gun, thereby forming a metal recrystallization connection. Arc stud welding, which is one of fusion welding methods, has a pressure welding characteristic in that a joint is formed under the spring pressure condition in a welding gun, and a power failure cannot be immediately caused after a stud is inserted into a molten pool, or the power failure cannot be caused before the stud falls and is not inserted into the molten pool. A period of hot upset time is required to ensure that the joint is able to form a complete recrystallization process.

At present, the existing stud welding machine adopts capacitor energy storage to replace the traditional direct current or alternating current power supply technology, the occupied volume of a transformer is reduced, meanwhile, the welding speed is high, however, the layout and the installation of the capacitor can bring some new problems, such as insulation, heat dissipation and the like.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a capacitor mounting structure of an intelligent capacitor energy storage stud welding machine, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides an intelligence electric capacity energy storage stud welding machine's electric capacity mounting structure, includes the workstation, the stud welding organism is installed to up end one side of workstation, the install bin is installed to the lower terminal surface of workstation, one side is equipped with electric capacity and places the chamber in the install bin, electric capacity is placed the intracavity and is installed electric capacity installation component, just place one side in the chamber at electric capacity in the install bin and install the actuating mechanism of stud welding machine, the lower terminal surface of install bin and place the below in chamber at electric capacity and install cooling fan, electric capacity is placed chamber department and is installed a set of chamber door in the articulated rotation of the front portion symmetry of install bin, the supporting leg is installed at the bottom end angle of install bin.

Preferably, the capacitor mounting member includes a plurality of clamping seats, a first metal connecting piece is mounted on an upper portion of an inner end face of each clamping seat, a connecting arc block is mounted right above each clamping seat, a connecting groove is formed in the center of each connecting arc block, and a second metal connecting piece is mounted on an upper portion of each connecting groove and on an end face of each connecting arc block.

Preferably, a group of first splicing square grooves is reserved at the supporting part of the outer side end of the clamping seat at the leftmost side and the rightmost side, and a group of second splicing square grooves is reserved above the group of first splicing square grooves at the two side ends of the connecting arc block at the leftmost side and the connecting arc block.

Preferably, the top is a set of second grafting square trough and the below is a set of first grafting square trough department grafting combination installs the locating rack, the locating rack includes the locating plate and at four end angle punishment of the interior terminal surface of locating plate respectively agree with first grafting square trough and second grafting square trough and install the grafting piece, horizontal end installs the insulation board of a plurality of equidistance distributions in the locating plate.

Preferably, a capacitor body is installed between each clamping seat and each connecting arc block in combination.

Preferably, the insulation plate is installed between adjacent capacitor bodies in a combined manner.

Compared with the prior art, the utility model has the beneficial effects that:

1. the capacitor body is assembled and installed at one side of an installation cavity through each clamping seat in a capacitor installation component and a connecting arc block installed above the clamping seat, meanwhile, plug-in blocks installed at four end angles of an inner end face of a positioning plate on a positioning frame are used for positioning and combining with a group of first plug-in square grooves reserved at outer side end supporting parts of the leftmost clamping seat and the rightmost clamping seat and a group of second plug-in square grooves reserved at two side ends of the leftmost connecting arc block and the rightmost connecting arc block, a plurality of insulating plates which are installed at the inner end face of the positioning plate and distributed at equal intervals are used for insulating and separating adjacent capacitor bodies while the stability and the fixed installation of the plurality of capacitor bodies are ensured, and the influence of static electricity on normal use is avoided;

2. the capacitor body is provided with the heat dissipation fan and the support legs arranged at the end corners of the bottom of the installation box, so that the space between the installation box and the ground can be kept away, the heat dissipation through the heat dissipation fan is facilitated, and the heat dissipation problem after the capacitor body is installed is effectively solved.

Drawings

FIG. 1 is a schematic view of the overall structure of a capacitor mounting structure of an intelligent capacitor energy storage stud welding machine according to the utility model;

FIG. 2 is a schematic structural diagram of a capacitor mounting structure of an intelligent capacitor energy storage stud welding machine according to the present invention, in which a positioning frame is not mounted;

FIG. 3 is a schematic structural diagram of a capacitor mounting structure of an intelligent capacitor energy storage stud welding machine according to the present invention, in which a positioning frame and a capacitor body are not mounted.

In the figure: 1. a work table; 2. a stud welding machine body; 3. installing a box; 4. a capacitor placement cavity; 5. a capacitor mounting member; 51. a card holder; 52. a first metal tab; 53. connecting the arc blocks; 54. connecting grooves; 55. a second metal tab; 56. a first splicing square groove; 57. a second splicing square groove; 6. an actuating mechanism of the stud welding machine; 7. a heat radiation fan; 8. a box door; 9. supporting legs; 10. a positioning frame; 101. positioning a plate; 102. an insertion block; 103. an insulating plate; 11. a capacitor body.

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.

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides an intelligence electric capacity energy storage stud welding machine's electric capacity mounting structure, comprises a workbench 1, stud welding organism 2 is installed to workstation 1's up end one side, install bin 3 to workstation 1's lower terminal surface, one side is equipped with electric capacity and places chamber 4 in the install bin 3, electric capacity is placed and is installed electric capacity installation component 5 in the chamber 4, just place one side of chamber 4 at electric capacity and install double-screw bolt welding machine's actuating mechanism 6 in the install bin 3, the lower terminal surface of install bin 3 and place the below in chamber 4 at electric capacity and install radiator fan 7, electric capacity is placed chamber 4 department and is installed a set of chamber door 8 in the articulated rotation of the anterior symmetry of install bin 3, supporting leg 9 is installed at the bottom end angle of install bin 3.

The capacitor mounting component 5 comprises a plurality of clamping seats 51, wherein a first metal connecting piece 52 is mounted on the upper portion of the inner end face of each clamping seat 51, a connecting arc block 53 is mounted right above each clamping seat 51, a connecting groove 54 is formed in the center of each connecting arc block 53, and a second metal connecting piece 55 is mounted on the upper portion of each connecting groove 54 and on the end face of each connecting arc block 53; a group of first splicing square grooves 56 are reserved at the supporting parts of the outer ends of the leftmost clamping seat 51 and the rightmost clamping seat 51, a group of second splicing square grooves 57 are reserved above the group of first splicing square grooves 56 at the two side ends of the leftmost connecting arc block 53 and the rightmost connecting arc block 53; the upper group of second splicing square grooves 57 and the lower group of first splicing square grooves 56 are spliced and assembled to form a positioning frame 10, the positioning frame 10 comprises a positioning plate 101 and splicing blocks 102 which are respectively matched with the first splicing square grooves 56 and the second splicing square grooves 57 at four end corners of the inner end surface of the positioning plate 101, and a plurality of insulating plates 103 which are distributed at equal intervals are arranged at the horizontal end in the positioning plate 101; a capacitor body 11 is assembled between each clamping seat 51 and each connecting arc block 53; the adjacent capacitor bodies 11 are connected with the insulating plate 103 in a combined manner.

The working principle is as follows: when the utility model is used for installing capacitors, the door 8 is opened, the first capacitor body 11 is vertically pushed and installed through the most lateral clamping seat 51 and the connecting arc block 53 installed above the clamping seat 51, then the rest capacitor bodies 11 are pushed and installed through the same operation, then the inserting blocks 102 installed at four end angles of the inner end surface of the positioning plate 101 on the positioning frame 10 are used for positioning and combining with a group of first inserting square grooves 56 reserved at the outer side end supporting parts of the most lateral clamping seat 51 and a group of second inserting square grooves 57 reserved at the two side ends of the most lateral connecting arc block 53 and the most lateral connecting arc block 53, the adjacent capacitor bodies 11 are insulated and separated by a plurality of insulating plates 103 which are equidistantly distributed and installed at the inner end surface of the positioning plate 101 while the stable and fixed installation of the capacitor bodies 11 is ensured, and the insulation problem of the capacitor body 11 technology is effectively solved, finally, the box door 8 is closed, when stud welding is carried out, the heat dissipation fan 7 installed on the lower end face of the installation box 3 and the supporting legs 9 installed at the end corners of the bottom of the installation box 3 can be separated from the space between the installation box 3 and the ground, heat dissipation is conveniently carried out through the heat dissipation fan 7, the heat dissipation problem after the capacitor body 11 is installed is effectively solved, and the double-screw bolt welding box has the advantages of being simple in operation, convenient to use and good in using effect.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an intelligence electric capacity energy storage stud welding machine's electric capacity mounting structure, includes workstation (1), its characterized in that: the utility model discloses a stud welding machine, including workstation (1), install bin (3), chamber (4) is placed to the electric capacity, the lower terminal surface of workstation (1) is provided with install bin (3), one side is equipped with electric capacity in install bin (3) and places chamber (4), electric capacity is placed and is provided with electric capacity installation component (5) in chamber (4), just place one side of chamber (4) at electric capacity in install bin (3) and be provided with actuating mechanism (6) of stud welding machine, the lower terminal surface of install bin (3) and place the below of chamber (4) at electric capacity and be provided with cooling fan (7), electric capacity is placed chamber (4) and is located and articulated the rotation of front portion symmetry at install bin (3) and be provided with a set of chamber door (8), the bottom end angle of install bin (3) is provided with supporting leg (9).

2. The capacitor mounting structure of the intelligent capacitor energy storage stud welding machine according to claim 1, characterized in that: the capacitor mounting component (5) comprises a plurality of clamping seats (51), a first metal connecting piece (52) is arranged on the upper portion of the inner end face of each clamping seat (51), a connecting arc block (53) is arranged right above each clamping seat (51), a connecting groove (54) is formed in the center of each connecting arc block (53), and a second metal connecting piece (55) is arranged on the upper portion of each connecting groove (54) and on the end face of each connecting arc block (53).

3. The capacitor mounting structure of the intelligent capacitor energy storage stud welding machine according to claim 2, characterized in that: a group of first inserting square grooves (56) are reserved in the supporting portions of the outer ends of the leftmost clamping seat (51) and the rightmost clamping seat (51), and a group of second inserting square grooves (57) are reserved above the group of first inserting square grooves (56) and at the two sides of the connecting arc block (53) and the rightmost connecting arc block (53).

4. The capacitor mounting structure of the intelligent capacitor energy storage stud welding machine according to claim 3, characterized in that: the top is a set of second grafting square groove (57) and below are a set of first grafting square groove (56) department grafting combination is provided with locating rack (10), locating rack (10) include locating plate (101) and agree with first grafting square groove (56) and second grafting square groove (57) respectively at four extreme angle departments of the inner terminal surface of locating plate (101) and are provided with plug block (102), horizontal end is provided with insulation board (103) that a plurality of equidistance distribute in locating plate (101).

5. The capacitor mounting structure of the intelligent capacitor energy storage stud welding machine according to claim 4, characterized in that: a capacitor body (11) is arranged between each clamping seat (51) and each connecting arc block (53).

6. The capacitor mounting structure of the intelligent capacitor energy storage stud welding machine according to claim 5, characterized in that: the adjacent capacitor bodies (11) are combined with the insulating plate (103) and connected.

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