CN210789753U - Heat-insulating welding device - Google Patents

Abstract

The utility model relates to the field of welding technique, a thermal-insulated welding set is disclosed, the utility model discloses a base and weld part, weld part include support body, work portion and first insulating layer, and first insulating layer one side is connected with the support body, and the opposite side is connected with work portion, because the effect of first insulating layer for a large amount of heats that work portion sent at the in-process of work can not produce the injury to the support body.

Description

Heat-insulating welding device

Technical Field

The utility model relates to the field of welding technique, especially, relate to a thermal-insulated welding set.

Background

The welding device is common equipment in the production and processing process, the working part can emit a large amount of heat during the twisting of the welding device in work, great damage is generated to a frame body connected with the welding device, and the service life of the frame body connected with the working head of the welding device is short.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a thermal-insulated welding device, which can protect the frame body and prolong the service life of the frame body.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a thermal-insulated welding set, including base and welding part, the welding part includes support body, work portion and first insulating layer, the one end and the base fixed connection of support body, and the other end and the work portion of support body are connected, and first insulating layer is located between support body and the work portion.

As the improvement of the technical scheme, the working part is detachably connected with the first heat insulation layer, and the first heat insulation layer is detachably connected with the frame body.

As a further improvement of the technical scheme, the device further comprises a moving plate and a second heat insulation layer, wherein one side of the moving plate is connected with the base, the other side of the moving plate is used for placing materials, and the second heat insulation layer is located between the moving plate and the base.

As a further improvement to the above technical scheme, the moving plate is detachably connected with the base.

As the further improvement to above-mentioned technical scheme, the support body includes support piece and connecting piece, support piece one end and base fixed connection, and support piece's the other end is equipped with the track, and the one end of connecting piece is equipped with the slider, and the other end and the working portion of connecting piece are connected, and through slider and track, the connecting piece can support piece removal relatively.

As the further improvement to above-mentioned technical scheme, the support body still includes the cylinder, the fixed part and the connecting piece fixed connection of cylinder, the output and the working portion of cylinder are connected.

As a further improvement to the technical proposal, the base comprises a groove, the moving plate is positioned in the groove, the second heat insulation layer is positioned between the moving plate and the base,

a gap is formed between the moving plate and the side edge of the at least one groove parallel to the X direction, or a gap is formed between the moving plate and the side edge of the at least one groove parallel to the Y direction; or a gap is formed between the moving plate and the side edge of the at least one groove parallel to the X direction, and a gap is formed between the moving plate and the side edge of the at least one groove parallel to the Y direction.

As a further improvement of the technical scheme, the movable plate is provided with a connecting hole, a positioning hole is formed in the position, located in the groove, of the base, and when the movable plate is located in the groove, the connecting hole and the positioning hole can correspond in position.

As a further improvement to the technical scheme, the connecting hole is internally provided with a first station and a second station, and the first station and the second station can correspond to the positioning holes.

As a further improvement to the above technical solution, a plurality of positioning holes extending along the X direction or the Y direction are provided on the base at positions corresponding to the grooves;

or, the base is provided with positioning holes extending along the X direction and the Y direction at the positions corresponding to the grooves.

The utility model has the advantages that: because the first heat insulation layer is added between the working part and the frame body, the frame body connected with the working part cannot be damaged by heat emitted in the working process of the working part, and the service life of the frame body is prolonged.

Drawings

The invention will be further described with reference to the following figures and examples:

fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is another angular configuration of FIG. 1;

FIG. 3 is another angular configuration of FIG. 1;

FIG. 4 is a schematic structural diagram of another embodiment;

FIG. 5 is a schematic structural diagram of another embodiment;

fig. 6 is a schematic structural diagram of another embodiment.

Reference numerals: the base 100, the first positioning hole 110, the gap 120, the groove 130, the second positioning hole 140, the third positioning hole 150, the fourth positioning hole 160, the welding part 200, the cylinder 230, the connector 240, the slider 241, the connector block 250, the first insulating layer 260, the working part 270, the support 280, the moving plate 300, the first connecting hole 310, the first position 311, the second position 312, the second connecting hole 320, the third position 321, the fourth position 322, and the second insulating layer 330.

Detailed Description

The conception, specific structure and technical effects of the present invention will be described clearly and completely with reference to the accompanying drawings and embodiments, so as to fully understand the objects, aspects and effects of the present invention. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

It should be noted that, unless otherwise specified, when a feature is referred to as being "fixed" or "connected" to another feature, it may be directly fixed or connected to the other feature or indirectly fixed or connected to the other feature. Furthermore, the description of the upper, lower, left, right, front, rear, etc. used in the present invention is only relative to the mutual position relationship of the components of the present invention in the drawings.

Furthermore, unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used in the description herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any combination of one or more of the associated listed items.

The first embodiment:

referring to fig. 1 and 2, the welding apparatus for heat insulation includes a base 100 and a welding part 200 connected to the base 100, the welding part 200 includes a frame body and a working part 270, one end of the frame body is fixedly connected to the base 100, the other end is connected to the working part 270, and the frame body supports the working part 270. The material on the base 100 can be welded by the working part 270 on the shelf.

Have first insulating layer 260 with work portion 270 time at the support body, first insulating layer 260 can completely cut off the heat that work portion 270 sent at the during operation for the heat that work portion 270 sent is difficult to produce the damage to the support body, prolongs the life of support body, guarantees this device, thermal-insulated welding set's work efficiency.

The working part 270 is detachably connected with the first heat insulation layer 260, and the first heat insulation layer 260 is detachably connected with the connecting block 250, so that the first heat insulation layer 260 can be replaced or adjusted after being detached, and the first heat insulation layer 260 can better achieve a heat insulation effect.

The frame body comprises an air cylinder 230, a connecting piece 240, a connecting block 250, a first heat insulation layer 260 and a working part 270, wherein the connecting piece 240 is L-shaped, the air cylinder 230 is fixedly connected to one side of the connecting piece, which is close to the moving plate 300, the output end of the air cylinder 230 is connected with the working part 270 through the connecting block 250, so that the working part 270 can move close to or far away from the moving plate 300 relative to the moving plate 300, and welding work is completed.

The first insulation layer 260 may protect the connection member 240, the cylinder 230, and the like.

Second embodiment:

the second embodiment is added with the following technical features on the basis of the first embodiment, the present embodiment further includes a moving plate 300, one side of the moving plate 300 close to the base 100 is attached to the base 100, one side of the moving plate 300 close to the working portion 270 is used for placing materials, a second thermal insulation layer 330 is arranged between the moving plate 300 and the base 100, and the second thermal insulation layer 330 is used for ensuring that heat generated in the process of welding the materials on the moving plate 300 by the working portion 270 cannot damage the base 100, and ensuring the service life of the base 100 and the service life of the whole device thermal insulation welding device.

Since moving plate 300 is detachably coupled to base 100 such that second insulating layer 260 between moving plate 300 and base 1010 is exposed, second insulating layer 260 is detachably coupled to base 100, and at the same time, second insulating layer 260 is detachably coupled to moving plate 300 such that second insulating layer 260 can be detached in a single unit, which facilitates maintenance and replacement of second insulating layer 260.

The third embodiment:

the third embodiment is added with the following technical features on the basis of the second embodiment or the first embodiment, in this embodiment, a groove 130 is formed on one side of the base 100 adjacent to the working portion 270, the moving plate 300 is located in the groove 130, at this time, the second thermal insulation layer 330 is located between one side of the moving plate 300 adjacent to the base 100 and a side wall of the groove 130 adjacent to one side of the working portion 270, and the second thermal insulation layer 330 is used for insulating heat generated when the working portion 270 operates.

The fourth embodiment:

as shown in fig. 3 and 4, the fourth embodiment adds the following technical features to the third embodiment: the moving plate 300 is provided with a first connecting hole 310 and a second connecting hole 320, the base 100 is provided with a first positioning hole 110 and a second positioning hole 140 at positions in the slot 130, when the moving plate 300 is located in the slot 130, the first connecting hole 310 is located above the first positioning hole 110, the second connecting hole 320 is located above the second positioning hole 140, one end of the fastener sequentially passes through the first connecting hole 310 and the first positioning hole 110, so that the tail end of the fastener is fixed at one side of the first positioning hole 110 far away from the moving plate 300, the operating end (head) of the fastener is clamped on the first connecting hole 310, so that the first connecting hole 310 and the first positioning hole 110 are fixed to each other, and the connecting manner of the second connecting hole 320 and the second positioning hole 140 is the same as that described above. The moving plate 300 can be fixed relative to the base 100 by fixing the first connection hole 310 and the first positioning hole 110 and fixing the second connection hole 320 and the second positioning hole 140.

The first connection hole 310 and the second connection hole 320 extend in the X direction, such that the first connection hole 310 and the second connection hole 320 have two positions in the X direction to connect with the first positioning hole 110, the first connection hole 310 is provided with a first position 311 and a second position 312 for connecting with the first positioning hole 110, the second connection hole 320 is provided with a third position 321 and a fourth position 322 for connecting with the second positioning hole 140, when the first connection hole 310 connects with the first positioning hole 110 through the first position 311, the second connection hole 320 connects with the second positioning hole 140 through the third position 321, when the first connection hole 310 connects with the first positioning hole 110 through the second position 312, the second connection hole 320 connects with the second positioning hole 140 through the fourth position 322, such that the moving plate 300 can move in the X direction, thereby adjusting the position of the moving plate 300 relative to the welding portion 200, the position of the material on the moving plate 300 relative to the welding part 200 is adjusted, thereby adjusting the position of the welding on the material.

Fifth embodiment:

the sixth embodiment is different from the fourth embodiment in that: the eye directions of the first connection hole 310 and the second connection hole 320 may be along the Y-axis direction, and at this time, a gap is formed between the moving plate 300 and a side of the slot 130 parallel to the X-peripheral direction, so that the moving plate 300 can move along the Y-direction.

Sixth embodiment:

as shown in fig. 5 and fig. 6, the sixth embodiment is added with the following technical features on the basis of the third embodiment: as shown in fig. 3 and 4, at this time, a space is formed between the moving plate 300 and the side of the slot 130 parallel to the Y-axis direction, the moving plate 300 is provided with a first connecting hole 310 and a second connecting hole 320, the base 100 is provided with a first positioning hole 110, a second positioning hole 140, a third positioning hole 150 and a fourth positioning hole 160 at the position of the slot 130, the positioning holes all extend along the X-axis direction, when the first connecting hole 310 is connected with the first positioning hole 110, the second connecting hole 320 is connected with the second positioning hole 140, and when the first connecting hole 310 is connected with the fourth positioning hole 160, the second connecting hole 320 is connected with the third positioning hole 150, so that the moving plate 300 can be adjusted between two states to move along the X-axis direction.

Alternatively, the first and second electrodes may be,

in the third embodiment, there is a distance between the moving plate 300 and the side of the slot 130 parallel to the X-axis direction, and the fourth positioning hole 160 is located in the Y-axis direction of the first positioning hole 110, the third positioning hole 150 is located in the Y-axis direction of the second positioning hole 140, and the third positioning hole 150 is aligned with the second positioning hole 140 and the fourth positioning hole 160 with respect to the first positioning hole 110, so that the moving plate 300 can move along the Y-axis direction.

Seventh embodiment:

the seventh embodiment is different from the sixth embodiment in that: the moving plate 300 is spaced apart from each side of the slot 130, and the base 100 is provided with two positioning hole sets, each of which has four positioning holes, two rows along the X-axis direction and two rows along the Y-axis direction, respectively, to form a 2X 2 matrix type, so that the moving plate 300 can move along the X-axis direction and/or the Y-axis direction in the slot 130.

Eighth embodiment:

as shown in fig. 1, the eighth embodiment adds the following technical features to the seven embodiments: the welding part 200 is connected to a position on the base 100 adjacent to the moving plate 300, the welding part 200 includes a cylinder 230, a connecting block 250, a working part 270, a first heat insulation layer 260, a connecting member 240 and a supporting member 280, one end of the supporting member 280 is fixedly connected to the base 100, the other end of the supporting member 280 is provided with a track, one end of the connecting member 240 adjacent to the supporting member 280 is provided with a slider 241, the slider 241 is trapezoidal, and the slider 241 can move on the track of the supporting member 280, so that the connecting member 240 can complete the movement in the Y-axis direction.

The connecting member 240 is L-shaped, and a cylinder 230 is fixedly connected to a side of the connecting member that is close to the moving plate 300, an output end of the cylinder 230 is connected to the working portion 270 through a connecting block 250, so that the working portion 270 can move close to the moving plate 300 or away from the moving plate 300 relative to the moving plate 300 to complete the welding operation, and a heat insulation layer 260 is provided between the working portion 270 and the connecting block 250, so that the working portion 270 does not affect other parts of the welding portion 200 during the operation.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a thermal-insulated welding set, its characterized in that, including base and welding part, the welding part includes support body, working portion and first insulating layer, the one end of support body with base fixed connection, the other end of support body with the working portion is connected, first insulating layer is located the support body with between the working portion.

2. The insulated welding apparatus of claim 1, wherein the working portion is removably coupled to the first insulating layer, the first insulating layer being removably coupled to the frame.

3. The insulated welding apparatus of claim 1, further comprising a moving plate and a second insulating layer, wherein one side of the moving plate is connected to the base, the other side of the moving plate is used for placing materials, and the second insulating layer is located between the moving plate and the base.

4. The insulated welding apparatus of claim 3, wherein the moving plate is removably coupled to the base.

5. The welding device of claim 1 or 3, wherein the frame body comprises a support member and a connecting member, one end of the support member is fixedly connected with the base, the other end of the support member is provided with a track, one end of the connecting member is provided with a sliding block, the other end of the connecting member is connected with the working part, and the connecting member can move relative to the support member through the sliding block and the track.

6. The insulated welding apparatus of claim 5, wherein the frame further comprises a cylinder, a fixing portion of the cylinder is fixedly connected to the connecting member, and an output end of the cylinder is connected to the working portion.

7. The insulated welding apparatus of claim 3, wherein the base includes a slot therein, the moving plate is positioned in the slot, the secondary insulation layer is positioned between the moving plate and the base,

a gap is formed between the moving plate and the side edge of at least one groove parallel to the X direction, or a gap is formed between the moving plate and the side edge of at least one groove parallel to the Y direction;

or, a gap is formed between the moving plate and the side edge of at least one groove parallel to the X direction, and a gap is formed between the moving plate and the side edge of at least one groove parallel to the Y direction.

8. The insulated welding apparatus of claim 7, wherein the moving plate has a connecting hole, and the base has a positioning hole at a position in the groove, and the connecting hole and the positioning hole correspond to each other when the moving plate is in the groove.

9. The insulated welding apparatus of claim 8, wherein the connection hole has a first station and a second station therein, each of the first station and the second station being capable of corresponding to the positioning hole.

10. The thermally insulated welding apparatus of claim 7, wherein a plurality of positioning holes extending in the X-direction or the Y-direction are formed on the base at positions corresponding to the slots;

or, the base is provided with positioning holes extending along the X direction and the Y direction at positions corresponding to the grooves.

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