CN214185635U - Double-shaft resistance welding equipment - Google Patents

Abstract

The embodiment of the utility model provides a double-shaft resistance welding device, which comprises a device base, wherein a jig plate to be welded is arranged on the device base; the horizontal adjusting sliding plate is fixedly arranged on the equipment base, and the vertical adjusting sliding plate is arranged on the horizontal adjusting sliding plate in a sliding manner along the horizontal direction; the soldering tin head structure can be arranged on the vertical adjusting sliding plate in a sliding mode along the vertical direction, and the soldering tin head structure is used for welding the jig plate. The utility model provides a biax resistance welding equipment, the structural design mode of its biax regulation soldering tin head structure and confession tin head structure can realize the accurate positioning of soldering tin head structure and confession tin head structure, makes soldering tin head structure and confession tin head structure aim at the welding station in the shortest time, and whole welding is efficient.

Description

Double-shaft resistance welding equipment

Technical Field

The utility model relates to a metal welding equipment technical field, concretely relates to biax resistance welding equipment.

Background

The resistance welding technology is a metal welding technology which utilizes the resistance heat and a large amount of plastic deformation energy of a welding area to generate high temperature through a contact surface, so that two metal atoms which are separated to form expression are close to a lattice distance to form a metal bond, and a sufficient amount of common crystal grains are generated on a joint surface to obtain a welding point, a welding line or a butt joint. At present, the butt-welding technology is used in various fields as a branch of the welding technology with its superiority.

However, the resistance welding operation method in the prior art is a pure manual operation method, and requires a working mode that a worker uses eyes, hands and feet together, which is inefficient, is more prone to fatigue, and requires more effort to complete the work when processing the oxide on the surface of the electrode. Therefore, the manual operation mode cannot follow the production requirement step, and needs to be further improved. Although some resistance welding equipment appears in the market, the resistance welding equipment of the type belongs to semi-automation, and the automation is not completely achieved, the welded workpiece cannot rotate freely, manual adjustment is needed, time and labor are wasted, and the welding range is narrow.

SUMMERY OF THE UTILITY MODEL

To the above technical problem, the utility model provides a biax resistance welding equipment, this biax resistance welding equipment have welding efficiency height, the high characteristics of welding process automation degree.

A biaxial resistance welding apparatus, characterized by comprising:

the equipment base is used for placing a jig plate to be welded;

the horizontal adjusting sliding plate is fixedly arranged on the equipment base, and the vertical adjusting sliding plate is arranged on the horizontal adjusting sliding plate in a sliding manner along the horizontal direction;

the soldering tin head structure can be arranged on the vertical adjusting sliding plate in a sliding mode along the vertical direction, and the soldering tin head structure is used for welding the jig plate.

Further, still include the mounting bracket, the mounting bracket can be followed vertical direction and set up with sliding on the vertical regulation slide, soldering tin head structure movably sets up on the mounting bracket.

Further, still include the arc, be equipped with the arc wall on the arc, the arc is fixed to be set up on the mounting bracket, soldering tin head structure slidable ground sets up in the arc wall.

Further, still include the chimney, the chimney is fixed to be set up on the mounting bracket, just the opening of chimney bottom with the corresponding setting of soldering tin head structure discharges fume.

Further, still including supplying tin mechanism, supply tin mechanism can follow vertical direction and set up with sliding on the vertical regulation slide, supply tin mechanism includes and supplies tin head structure, supply tin head structure is used for providing tin material for the tool board.

Further, supply tin mechanism still includes fixed block and mount, fixed block slidable ground sets up on the vertical regulation slide, the mount is fixed to be set up on the fixed block, supply tin head structure movably to set up on the mount.

Furthermore, the tin supply mechanism further comprises a composite mechanical arm assembly, one end of the composite mechanical arm assembly is movably arranged on the fixed frame, and the other end of the composite mechanical arm assembly is movably connected with the tin supply head structure.

Further, still include and send tin mechanism, send tin mechanism be used for supply tin mechanism provides the tin material, send tin mechanism to include and send tin main part and cross the tin line wheel, send the fixed setting of tin main part on the level (l) ing slide, cross the rotatable setting of tin line wheel and be in send tin main part is last, cross the tin line wheel and be used for supplying tin material winding setting.

Further, send tin mechanism still includes tin box and tin control spare, the tin box of crossing with the tin control spare all fixed set up in cross the tin main part, it is used for supplying the tin material to pass through to cross the tin box, it is used for controlling the tin material from cross the direction motion of tin wire wheel to cross the tin box to cross the tin control spare.

The utility model provides a biax resistance welding equipment includes equipment base, level (l) ing slide, vertical regulation slide and soldering tin head structure, and equipment base is used for placing the tool board of treating welding, and soldering tin head structure is used for welding the tool board, and level (l) ing slide and vertical regulation slide combination realize the ascending motion of soldering tin head structure in horizontal direction and vertical side. Particularly, because vertical regulation slide can follow the horizontal direction and set up on horizontal regulation slide with sliding, the soldering tin head structure can follow vertical direction and set up on vertical regulation slide with sliding, consequently can realize the position adjustment of soldering tin head structure on horizontal direction and vertical direction respectively through sliding vertical regulation slide and soldering tin head structure, also realize the effect of soldering tin head structure biaxial orientation. This kind of position adjustment mode of soldering tin head structure can effectively avoid accomplishing welding position's problem through manual work processing or artifical supplementary processing among the prior art, realizes tool board welding process's automated processing, and welding efficiency is high.

Therefore, the utility model discloses a biax resistance welding equipment compares in prior art, has following characteristics at least:

firstly, the structural design mode of the double-shaft adjusting soldering tin head structure can realize the accurate positioning of the soldering tin head structure, so that the soldering tin head structure is aligned to a welding station in the shortest time, and the welding efficiency is high;

secondly, the smoke exhaust tube can collect and exhaust the dense smoke generated by the tin material in the welding process from the top of the equipment, so that the dense smoke is prevented from influencing the welding operation of a user;

and thirdly, the equipment base is also provided with a tin supply mechanism, so that the tin supply operation can be completed, manual assistance is not needed, the full-automatic treatment of the whole welding process of the jig plate product is thoroughly realized, and the mass production can be realized.

Drawings

Fig. 1 is a schematic view of a first embodiment of a biaxial resistance welding apparatus of the present invention;

FIG. 2 is a schematic view of a second embodiment of the twin-shaft resistance welding apparatus of the present invention;

FIG. 3 is a schematic view of the horizontal adjustment sled, vertical adjustment sled and mounting bracket of the present invention;

fig. 4 is a schematic view of a solder head structure, an arc plate and a mounting bracket of the present invention;

FIG. 5 is a schematic view of a tin supply apparatus of the present invention;

FIG. 6 is a schematic view of the tin feeding mechanism of the present invention;

description of reference numerals: 1. an equipment base; 2. a jig plate; 3. a soldering tin head structure; 4. a horizontal adjustment sliding plate; 5. a vertical adjustment slide plate; 6. a tin supply mechanism; 601. a tin supply head structure; 602. a fixed block; 603. a fixed mount; 604. a composite mechanical arm assembly; 7. a tin feeding mechanism; 701. a tin feeding main body; 702. a tin wire passing wheel; 703. a tin passing box; 704. a tin passing control part; 8. a smoke exhaust tube; 9. a mounting frame; 10. an arc-shaped plate; 11. an arc-shaped groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1, according to the first embodiment of the present invention, the dual-axis resistance welding device includes a device base 1, and a jig plate 2 to be welded is placed on the device base 1. Wherein, tool board 2 can be common circuit board product or led pin product etc. and equipment base 1 is the workstation of platelike structure for supply tool board 2 level to place.

The double-shaft resistance welding equipment further comprises a horizontal adjusting sliding plate 4 and a vertical adjusting sliding plate 5, wherein the horizontal adjusting sliding plate 4 is fixedly arranged on the equipment base 1, and the vertical adjusting sliding plate 5 can be arranged on the horizontal adjusting sliding plate 4 in a sliding mode along the horizontal direction. Wherein, through sliding vertical regulation slide 5 on the horizontal direction respectively and sliding soldering tin head structure 3 on vertical direction can realize the ascending motion of soldering tin head structure 3 in horizontal direction and vertical direction, also the two combination realizes the ascending motion of soldering tin head structure 3 in horizontal direction and vertical direction, accomplishes the position control of soldering tin head structure 3 in horizontal direction and vertical direction.

Biax resistance welding equipment still includes soldering tin head structure 3, and soldering tin head structure 3 can follow vertical direction and set up with sliding on vertical regulation slide 5, and soldering tin head structure 3 is used for welding tool board 2. Specifically, the position of the soldering tin head structure 3 in the horizontal direction and the vertical direction can be adjusted respectively by sliding the vertical adjusting sliding plate 5 and the soldering tin head structure 3, and the double-shaft positioning effect of the soldering tin head structure 3 can be realized. This kind of two-dimensional position adjustment mode of soldering tin head structure 3 can effectively avoid accomplishing the problem of welding position operation through manual work processing or artifical auxiliary machining among the prior art, realizes tool board 2 in by the automated processing of welding process, and welding efficiency is high, can satisfy modern production and processing's demand.

Referring to fig. 3, in a preferred embodiment of the present embodiment, the double-shaft resistance welding apparatus further includes a mounting bracket 9, the mounting bracket 9 is slidably disposed on the vertical adjustment slide 5 in the vertical direction, and the solder head structure 3 is movably disposed on the mounting bracket 9. Specifically, the mounting frame 9 is used as an intermediate connecting structure for connecting the vertical adjusting sliding plate 5 and the solder head structure 3, and is slidably connected with the vertical adjusting sliding plate 5 on one hand, so that the position of the solder head structure 3 in the vertical direction can be adjusted; on the other hand and the soldering tin head structure 3 swing joint to realize the position adjustment of soldering tin head structure 3 in horizontal direction, vertical direction and arbitrary rotation angle, make it can aim at different grade type or the tool board 2 of different size.

Referring to fig. 4, in a further aspect of this embodiment, the double-shaft resistance welding apparatus further includes an arc-shaped plate 10, an arc-shaped slot 11 is provided on the arc-shaped plate 10, the arc-shaped plate 10 is fixedly disposed on the mounting frame 9, and the solder head structure 3 is slidably disposed in the arc-shaped slot 11. In this further scheme, arc 11 is the arc setting wholly, and at the gliding in-process of soldering tin head structure 3 along arc 11, soldering tin head structure 3 can be rotary motion for arc 10, realizes the adjustment of the first 3 rotation angles of soldering tin head, makes it can aim at different grade type or the tool board 2 of different size.

Referring to fig. 3, in an alternative of this embodiment, the biaxial resistance welding equipment further includes a smoke exhaust tube 8, the smoke exhaust tube 8 is fixedly arranged on the mounting frame 9, and an opening at the bottom of the smoke exhaust tube 8 is arranged corresponding to the soldering tin head structure 3. In this alternative, the bottom opening of chimney 8 is equipped with the collection petticoat pipe, and this collection petticoat pipe sets up with soldering tin head structure 3 is corresponding to in collecting the chimney 8 with the dense smoke that tool board 2 welding process produced, and discharge from the top position of concentrating chimney 8, avoid dense smoke to influence soldering tin head structure 3's welding operation.

Referring to fig. 2, in the second embodiment of the present invention, the dual-axis resistance welding apparatus further comprises a tin supply mechanism 6, the tin supply mechanism 6 can be slidably disposed on the vertical adjustment sliding plate 5 along the vertical direction, the tin supply mechanism 6 comprises a tin supply head structure 601, and the tin supply head structure 601 is used for providing tin material for the jig plate 2. Specifically, the same positioning principle is adopted as the tin head structure 3, and since the tin supply mechanism 6 is slidably disposed on the vertical adjustment sliding plate 5 along the vertical direction, the movement of the tin head structure 601 in the horizontal direction and the vertical direction can be realized by respectively sliding the vertical adjustment sliding plate 5 in the horizontal direction and sliding the tin head structure 601 in the vertical direction, that is, the movement of the tin head structure 601 in the horizontal direction and the vertical direction is realized by combining the two, and the position adjustment of the tin head structure 601 in the horizontal direction and the vertical direction is completed. The tin feeding head structure 601 after the modulation position can accurately drip the tin material to the processing position of the jig plate 2, and the welding operation is completed by matching with the tin feeding head structure 3.

Referring to fig. 5, in a preferred embodiment of the present invention, the tin supply mechanism 6 further includes a fixing block 602 and a fixing frame 603, the fixing block 602 is slidably disposed on the vertical adjustment sliding plate 5, the fixing frame 603 is fixedly disposed on the fixing block 602, and the tin supply head structure 3 is movably disposed on the fixing frame 603. In the preferred scheme, the fixed block 602 and the fixed frame 603 serve as an intermediate connecting structure between the vertical adjusting sliding plate 5 and the tin supply head structure 601, and on one hand, the fixed block and the vertical adjusting sliding plate 5 are slidably connected, so that the position adjustment of the tin supply head structure 601 in the vertical direction is realized; on the other hand, the tin supply head structure 601 can be movably connected, so that the position of the tin supply head structure 601 in the horizontal direction, the vertical direction and any rotation angle can be adjusted, and the tin supply head structure can be aligned to jig plates 2 of different types or sizes.

In a further scheme of this embodiment, the tin supply mechanism 6 further includes a composite mechanical arm assembly 604, one end of the composite mechanical arm assembly 604 is movably disposed on the fixed frame 603, and the other end is movably connected to the tin supply head structure 3. In this further scheme, the composite mechanical arm assembly 604 comprises a combination of a plurality of mechanical arm structures movably connected with each other, and the tin bar feeding structure 601 realizes position adjustment in the horizontal direction, the vertical direction and any rotation angle through the composite mechanical arm assembly 604, so that the tin bar feeding structure can be aligned to the jig plates 2 of different types or sizes.

Referring to fig. 6, in another preferred embodiment, the biaxial resistance welding equipment further comprises a tin feeding mechanism 7, the tin feeding mechanism 7 is used for supplying tin materials to the tin feeding mechanism 6, the tin feeding mechanism 7 comprises a tin feeding main body 701 and a tin passing wheel 702, the tin feeding main body 701 is fixedly arranged on the horizontal adjusting sliding plate 5, the tin passing wheel 702 is rotatably arranged on the tin feeding main body 701, and the tin passing wheel 702 is used for winding the tin materials. Specifically, because the tinning wire wheel 702 is rotatably arranged on the tin feeding main body 701, a plurality of circles of tin materials (tin wires) are wound on the tinning wire wheel 702, when the tin materials are required to be provided for the tin feeding mechanism 6, the tin materials are pulled to be drawn from the tinning wire wheel 702, and meanwhile, the drawn tin materials are conveyed to the tin feeding mechanism 6, so that the tin materials sprayed out by the tin feeding mechanism 6 are matched with the welding head structure 3 to complete the welding operation.

In a further scheme, the tin feeding mechanism 7 further comprises a tin passing box 703 and a tin passing control part 704, the tin passing box 703 and the tin passing control part 704 are both fixedly arranged on the tin passing main body 701, the tin passing box 703 is used for allowing tin to pass through, and the tin passing control part 704 is used for controlling the direction movement of the tin from the tin passing wheel 702 to the tin passing box 703. Specifically, the tin passing box 703 is used for passing tin material, so that the tin material is drawn away from the tin passing wheel 702 to the tin passing box 703. The tin passing control part 704 is used for controlling the direction movement of the tin material from the tin passing wheel 702 to the tin passing box 703, namely providing acting force for the direction movement of the tin material from the tin passing wheel 702 to the tin passing box 703.

To sum up, the utility model provides a biax resistance welding equipment, its biax is adjusted soldering tin head structure 3 and is supplied the structural design mode of tin head structure 601 and can be realized the accurate positioning of soldering tin head structure 3 and supply tin head structure 601, makes soldering tin head structure 3 and supplies tin head structure 601 to aim at the welding station in the shortest time, and welding efficiency is high. In addition, chimney 8 can collect the dense smoke that the tin material produced among the welding process and discharge from chimney 8's top position, avoids dense smoke to influence user's welding operation. Furthermore, the equipment base 1 is further provided with a tin supply mechanism 6, so that the tin supply operation can be completed, manual assistance is not needed, the full-automatic treatment of the whole welding process of the jig plate 2 product is thoroughly realized, and the mass production can be realized.

Of course, the above is a preferred embodiment of the present invention. It should be noted that, for a person skilled in the art, several modifications and decorations can be made without departing from the basic principle of the present invention, and these modifications and decorations are also considered to be within the scope of the present invention.

Claims (9)

1. A biaxial resistance welding apparatus, characterized by comprising:

the equipment base is used for placing a jig plate to be welded;

the horizontal adjusting sliding plate is fixedly arranged on the equipment base, and the vertical adjusting sliding plate is arranged on the horizontal adjusting sliding plate in a sliding manner along the horizontal direction;

the soldering tin head structure can be arranged on the vertical adjusting sliding plate in a sliding mode along the vertical direction, and the soldering tin head structure is used for welding the jig plate.

2. The twin-axis electric resistance welding apparatus of claim 1, further comprising a mounting bracket slidably disposed on the vertical adjustment slide in a vertical direction, the solder head structure being movably disposed on the mounting bracket.

3. The twin-axis electric resistance welding apparatus of claim 2, further comprising an arc-shaped plate, wherein an arc-shaped groove is formed in the arc-shaped plate, the arc-shaped plate is fixedly disposed on the mounting frame, and the soldering tin head structure is slidably disposed in the arc-shaped groove.

4. The twin-shaft electric resistance welding apparatus according to claim 2, further comprising a smoke exhaust pipe, wherein the smoke exhaust pipe is fixedly arranged on the mounting frame, and an opening at the bottom of the smoke exhaust pipe is arranged corresponding to the soldering tin head structure.

5. The twin-axis electric resistance welding apparatus according to claim 1, further comprising a tin supply mechanism slidably disposed on the vertical adjustment slide plate in a vertical direction, the tin supply mechanism including a tin supply head structure for supplying a tin material to the jig plate.

6. The dual-axis electric resistance welding apparatus of claim 5, wherein the tin supply mechanism further comprises a fixed block and a fixed mount, the fixed block is slidably disposed on the vertical adjustment slide, the fixed mount is fixedly disposed on the fixed block, and the tin supply head structure is movably disposed on the fixed mount.

7. The dual-axis electric resistance welding apparatus of claim 6, wherein the tin supply mechanism further comprises a composite mechanical arm assembly, one end of the composite mechanical arm assembly is movably disposed on the fixed frame, and the other end of the composite mechanical arm assembly is movably connected with the tin supply head structure.

8. The twin-shaft resistance welding apparatus according to claim 5, further comprising a tin feeding mechanism for supplying tin material to the tin supplying mechanism, wherein the tin feeding mechanism comprises a tin feeding main body and a tin passing wheel, the tin feeding main body is fixedly arranged on the horizontal adjustment sliding plate, the tin passing wheel is rotatably arranged on the tin feeding main body, and the tin passing wheel is used for winding the tin material.

9. The twin-shaft resistance welding apparatus according to claim 8, wherein the tin feeding mechanism further comprises a tin passing box and a tin passing control member, the tin passing box and the tin passing control member are both fixedly arranged on the tin passing main body, the tin passing box is used for passing tin material, and the tin passing control member is used for controlling the direction movement of the tin material from the tin passing reel to the tin passing box.

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