CN214418052U - Rolling welding tool for welding radiator core body end socket robot - Google Patents

Abstract

The application relates to a welding of radiator core head robot is with welding frock of rolling, including bottom suspension strut and upper bracket, upper bracket installs on the bottom suspension strut, has seted up a plurality of rows of supported holes on the upper bracket, and the support column is installed to detachable in the supported hole. This application has the radiator that makes the welding frock can fix a position different models, the effect of cost is reduced.

Description

Rolling welding tool for welding radiator core body end socket robot

Technical Field

The application relates to the field of welding tool equipment, in particular to a rolling welding tool for welding a radiator core body end socket robot.

Background

With the rapid development of equipment in the fields of automation and intellectualization, the welding robot has a certain scale in application. The intelligent welding mode of robot is equipped with reasonable welding frock for welding progress, efficiency, quality have all obtained very big improvement.

The existing plate-fin radiator comprises a water chamber and a core body, wherein the thickness of the water chamber is larger than that of the core body, and the core body is fixedly arranged in the center of the end face of the water chamber. The welding of hydroecium and core adopts and receives worker argon arc to weld, and welding efficiency is low, and welds with high costs, and welding frock location is inaccurate to arouse that overall dimension has the error, have the big problem of welding thermal deformation. Therefore, the automatic welding is carried out by adopting the rotary welding tool matched with the robot at present, the automatic rotary worktable matched with the robot is provided with the pneumatic welding tool, and the welding efficiency is improved.

For the related technologies, the inventor thinks that the existing welding tool can only correspond to a radiator of one type, and the tool needs to be manufactured again when welding radiators of different types, which is high in cost.

SUMMERY OF THE UTILITY MODEL

In order to improve the radiator that present welding frock can only correspond a model, need make the frock again when the radiator of welding different models, the higher problem of cost, this application provides a welding of radiator core head robot is with welding frock of rolling.

The application provides a pair of welding of radiator core head robot is with welding frock that rolls adopts following technical scheme:

the utility model provides a welding of radiator core head robot is with welding frock that rolls, includes bottom suspension strut and upper bracket, and upper bracket installs on the bottom suspension strut, has seted up a plurality of rows of supported holes on the upper bracket, and the support column is installed to detachable in the supported hole.

By adopting the technical scheme, the upper supporting frame is provided with the plurality of supporting holes, the supporting columns can be installed according to the size of the radiator needing to be welded, and the supporting columns installed on the upper supporting frame can limit the radiator. The welding tool can position radiators of different models, and cost is reduced.

Optionally, the upper support frame includes at least two sliding edges, at least one support rod is connected between two adjacent sliding edges, and the support hole is formed in the support rod.

Through adopting above-mentioned technical scheme, the radiator is supported through the bracing piece to the upper bracket frame, can space between two adjacent bracing pieces to reduce the quantity of upper bracket frame, further the cost is reduced.

Optionally, the support rod is slidably mounted on the sliding edge and can move along the sliding edge; the length of bracing piece is greater than the distance between two slip limits, has seted up the slip logical groove on the side of bracing piece, and the bottom surface that the groove was led to in the slip coincides with the bottom surface of bracing piece, and the both ends department that the bracing piece was seted up in the logical groove in the slip respectively is provided with one, and when the bracing piece was erect on the slip edge, the slip limit inlayed and is established at the logical inslot that slides.

Through adopting above-mentioned technical scheme, bracing piece slidable mounting is on the slip edge, the position of regulation bracing piece that can be convenient, when reduce cost, the radiator of different models has still been supported that can be stable.

Optionally, the end face of the support rod is provided with a butt hole, the butt hole is connected with the sliding through groove, and a butt bolt penetrates through the butt hole.

Through adopting above-mentioned technical scheme, can be convenient fix the position of bracing piece through the butt bolt, when carrying out the welding, make the bracing piece be difficult for appearing the phenomenon of position dislocation.

Optionally, the upper support frame further comprises two fixing edges, the fixing edges are horizontal and perpendicular to the sliding edge, the top surfaces of the fixing edges are higher than the bottom surface of the support rod and not higher than the top surface of the support rod, and the fixing edges are also provided with support holes.

Through adopting above-mentioned technical scheme, install fixed limit on last bracing piece, make the bracing piece of installing on the slip edge be difficult for appearing the phenomenon of landing. The structure of the whole upper support frame is more stable. And because the thickness of hydroecium is greater than the thickness of core, the core is fixed to be set up in the center department of hydroecium terminal surface, and through making the height on fixed limit lower, when making the core erect on the bracing piece, the hydroecium can erect on fixed edge, is convenient for fix a position and welds.

Optionally, a distance between two adjacent support holes on the support rod is greater than a distance between two adjacent support holes on the fixing edge.

Through adopting above-mentioned technical scheme, the bracing hole that sets up on the fixed limit is more intensive than the bracing hole on the bracing piece, makes the support column on the fixed limit play the effect of restricting the radiator position, and the support column on the bracing piece plays the effect of separating the radiator.

Optionally, the upper end of the support column on the support rod is not higher than the upper end of the support column on the fixed edge.

By adopting the technical scheme, the height of the support column on the support rod is the highest and is only equal to the supporting height on the support rod. The height that the robot needs to lift up can be reduced when the robot is welded, the path length of the moving stroke of the robot is reduced, and the abrasion speed of the robot is reduced.

Optionally, the heights of the supporting columns at the two ends of the supporting rod are equal to the heights of the supporting columns on the fixed edge.

Through adopting above-mentioned technical scheme, the support column at stay tube both ends still plays the restriction, rather than separating the effect, consequently with the higher of these two support column height settings to the probability of the radiator from the frock dropout phenomenon that the appearance is waited to process has been reduced.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the welding tool can position radiators with different types, so that the cost is reduced;

2. the probability of the phenomenon that the radiator to be processed falls off from the tool is reduced.

Drawings

Fig. 1 is a schematic structural diagram of the present embodiment.

Description of reference numerals: 1. a lower support frame; 2. an upper support frame; 21. a sliding edge; 22. fixing the edge; 3. a support hole; 31. a support pillar; 4. a support bar; 41. a sliding through groove; 42. abutting against the hole; 43. an abutment bolt; 5. a first column; 51. and a second column.

Detailed Description

The present application is described in further detail below with reference to fig. 1.

The embodiment of the application discloses welding of radiator core head robot is with welding frock of rolling. Referring to fig. 1, the rolling welding tool for welding the radiator core body end enclosure robot comprises a lower support frame 1, and an upper support frame 2 is installed on the lower support frame 1.

Referring to fig. 1, the upper support frame 2 includes two sliding sides 21 and two fixing sides 22 fixed to the lower support frame 1. Wherein the two sliding edges 21 are parallel to each other and have the same height; the two fixed edges 22 are horizontally and fixedly arranged on the top surface of the sliding edge 21, and the fixed edges 22 are perpendicular to the sliding edge 21. The fixed edge 22 is connected to both sliding edges 21. A row of threaded holes serving as support holes 3 are formed in the fixing edge 22 at equal intervals, and threaded columns serving as support columns 31 are mounted in the support holes 3 in a threaded mode.

Referring to fig. 1, four support rods 4 are installed between two fixing edges 22, the support rods 4 are parallel to the fixing edges 22, and the length of the support rods 4 is slightly greater than that of the fixing edges 22. The side surface of the support rod 4 close to the fixed edge 22 is provided with a sliding through groove 41, the sliding through grooves 41 are arranged at two ends of the support rod 4, and the bottom surface of the sliding through groove 41 coincides with the bottom surface of the support rod 4. The width of the sliding through groove 41 is equal to the width of the sliding edge 21, and when the support rod 4 is erected on the sliding edge 21, the two sliding edges 21 are embedded in the sliding through groove 41. An abutting hole 42 is formed in the end face of the support rod 4, one end of the abutting hole 42 communicates with the sliding through groove 41, an abutting bolt 43 penetrates through the abutting hole 42, and the abutting bolt 43 rotates and abuts against the sliding edge 21. Five supporting holes 3 are formed in the top surface of the supporting rod 4 at equal intervals, a supporting column 31 is installed in each supporting hole 3, and the distance between every two adjacent supporting holes 3 on the supporting rod 4 is larger than the distance between every two adjacent supporting holes 3 on the fixing edge 22.

Referring to fig. 1, the top surface of the support rod 4 is slightly higher than the top surface of the fixing edge 22. The supporting columns 31 on the fixed edge 22 and the supporting columns 31 at the two ends of the supporting rod 4 are first columns 5, the three supporting columns 31 between the two first columns 5 on the supporting rod 4 are second columns 51, and the height of the first columns 5 is higher than that of the second columns 51.

The implementation principle of the rolling welding tool for welding the heat radiator core body end socket robot in the embodiment of the application is as follows: the first columns 5 arranged on the fixed edge 22 and at the two ends of the supporting rod 4 are used for limiting the position of the radiator, so that the probability that the radiator slides from the upper supporting frame 2 is reduced, and the second columns 51 arranged on the supporting rod 4 are used for separating the radiator, so that people can conveniently position the radiator and subsequently weld the radiator by a robot. Support column 31 all installs in support hole 3 through the screw thread, can install and dismantle as required, can install support column 31 according to the radiator size of required welding, and it can only to make the installation restrict the radiator at upper carriage 2 support column 31. The welding tool can position radiators of different models, and cost is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a welding of radiator core head robot is with welding frock that rolls which characterized in that: including bottom suspension strut (1) and top suspension strut (2), top suspension strut (2) are installed on bottom suspension strut (1), have seted up a plurality of rows of supported holes (3) on top suspension strut (2), and support column (31) are installed to detachable in supported hole (3).

2. The welding of radiator core head robot of claim 1 is with welding frock of rolling, its characterized in that: the upper support frame (2) comprises at least two sliding edges (21), at least one support rod (4) is connected between every two adjacent sliding edges (21), and the support holes (3) are formed in the support rods (4).

3. The welding of radiator core head robot of claim 2 is with welding frock of rolling, its characterized in that: the supporting rod (4) is arranged on the sliding edge (21) in a sliding way and can move along the sliding edge (21); the length of bracing piece (4) is greater than the distance between two slip limit (21), has seted up slip logical groove (41) on the side of bracing piece (4), and the bottom surface that the groove (41) led to in the slip coincides with the bottom surface of bracing piece (4), and the both ends department that bracing piece (4) were seted up in slip logical groove (41) respectively is provided with one, and bracing piece (4) erect on slip limit (21), and slip limit (21) inlay and establish in slip logical groove (41).

4. The welding of radiator core head robot of claim 3 is with welding frock of rolling, its characterized in that: the end face of the supporting rod (4) is provided with an abutting hole (42), the abutting hole (42) is connected with the sliding through groove (41), and an abutting bolt (43) penetrates through the abutting hole (42).

5. The welding of radiator core head robot of claim 2 is with welding frock of rolling, its characterized in that: the upper support frame (2) further comprises two fixing edges (22), the fixing edges (22) are horizontal and perpendicular to the sliding edges (21), the top surfaces of the fixing edges (22) are higher than the bottom surfaces of the support rods (4) and not higher than the top surfaces of the support rods (4), and support holes (3) are also formed in the fixing edges (22).

6. The welding of radiator core head robot of claim 5 is with welding frock of rolling, its characterized in that: the distance between two adjacent supporting holes (3) on the supporting rod (4) is greater than the distance between two adjacent supporting holes (3) on the fixing edge (22).

7. The welding of radiator core head robot of claim 6 is with welding frock of rolling, its characterized in that: the upper end of a supporting column (31) on the supporting rod (4) is not higher than the upper end of the supporting column (31) on the fixed edge (22).

8. The welding of radiator core head robot of claim 5 is with welding frock of rolling, its characterized in that: the heights of the supporting columns (31) at the two ends of the supporting rod (4) are equal to the heights of the supporting columns (31) on the fixed edge (22).

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