CN218745864U - Dislocation welding jig - Google Patents

Abstract

The utility model discloses a dislocation welding jig, the positioning device comprises a fixed seat, a first movable rod, a movable block, a first positioning pin, a second movable rod, a second movable seat, a second positioning pin and a second movable plate; when in welding, one accessory can be placed into the second positioning groove, the first movable seat drives the second positioning groove to move and is spliced and positioned with the accessory in the first positioning groove, so that the splicing and positioning are more convenient, and the first positioning pin is matched to extend upwards into the second positioning groove along with the movable block; the second positioning pin is arranged on the second movable seat and extends upwards into the first positioning groove along with the second movable seat; when the product is taken out, the first positioning pin and the second positioning pin can be driven to move downwards and separate from the product through the first movable block and the second movable seat respectively, so that the product can be taken out conveniently, a stress damage welding structure generated between the positioning pin and the product when the product is taken out is avoided, and the yield of the product is ensured.

Description

Dislocation welding jig

Technical Field

The utility model belongs to the technical field of the tool technique and specifically relates to indicate a dislocation welding tool.

Background

The jig is a large tool for carpenters, ironmen, pliers, machines, electronic control and other handicraft articles, and is mainly used as a tool for assisting in controlling positions or actions. The jig can be classified into a process assembly jig, a project test jig and a circuit board test jig. The process assembly jig comprises an assembly jig, a welding jig, a disassembly jig, a dispensing jig, an irradiation jig, an adjustment jig and a shearing jig, and particularly has higher requirements on the jig when processing some thinner products.

In the existing shielding piece, two pieces need to be welded together in the processing process, and the shielding piece is small in size, so that accurate splicing and positioning are difficult to carry out, and when the welded shielding piece is taken out, the positioning pin can be scraped and rubbed with the positioning hole in the shielding piece, so that the taking-out process is inconvenient, and the generated stress can damage a welding structure, thereby affecting the welding quality; therefore, there is a need for further improvement of the existing jig structure.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses to the disappearance that prior art exists, its main objective provides a dislocation welding jig, and it can effectively solve current shielding shell welding and be difficult to the concatenation location, take out the inconvenient and not good problem of welding quality of process.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a staggered welding jig comprises a fixed seat, a first movable rod, a movable block, a first positioning pin, a second movable rod, a second movable seat, a second positioning pin and a second movable plate; the upper surface of the fixed seat is concavely provided with a first positioning groove, and a first movable cavity and a second movable cavity are arranged in the fixed seat; the first movable seat is transversely movably arranged on the fixed seat back and forth and is positioned in the first movable cavity, a second positioning groove is formed in the first movable seat, and the second positioning groove is positioned beside the first positioning groove; the first movable rod is movably arranged on the fixed seat back and forth and drives the first movable seat to move back and forth; the movable block can be movably arranged on the first movable seat up and down and moves back and forth along with the first movable seat; the first positioning pin is arranged on the movable block and moves back and forth up and down along with the movable block, and the first positioning pin extends upwards into the second positioning groove along with the movable block; the second movable rod can be movably arranged on the first movable seat back and forth and drives the movable block to move back and forth; the second movable seat is movably arranged on the fixed seat up and down and back and forth and is positioned in the second movable cavity; the second positioning pin is arranged on the second movable seat and extends upwards into the first positioning groove along with the second movable seat; the second movable plate is movably arranged on the fixed seat back and forth and drives the second movable seat to move back and forth up and down.

As a preferred scheme, a first guide groove is formed in the first movable seat, a second guide groove matched with the first guide groove is formed in the first movable rod, and the first movable rod drives the first movable seat to transversely move back and forth through the matching of the first guide groove and the second guide groove.

As a preferable scheme, a first spring for urging the first movable seat to reset is clamped between one side wall of the first movable seat and the inner wall of the first movable cavity.

As a preferred scheme, a first guide portion is arranged on the movable block, a second guide portion matched with the first guide portion is arranged on the second movable rod, the second movable rod drives the movable block to move through the matching of the first guide portion and the second guide portion, and a second spring for promoting the second movable rod to reset is arranged between the second movable rod and the first movable seat in a clamping mode.

As a preferred scheme, the movable blocks are arranged at left and right intervals, correspondingly, the first positioning pins are arranged at left and right intervals, the first positioning pins are arranged on the corresponding movable blocks and move back and forth up and down along with the corresponding movable blocks, the second movable rods are also arranged at left and right intervals, and each second movable rod drives the corresponding movable block to move back and forth up and down.

Preferably, a third spring for urging the movable block to return upwards is arranged between the lower end surface of the movable block and the first movable seat.

As a preferred scheme, a transmission shaft is arranged on the second movable seat, a third movable rod is arranged on the second movable plate, the second movable plate can be movably arranged on the fixed seat back and forth, the third movable rod is movably arranged along with the second movable plate back and forth, a guide surface matched with the transmission shaft is arranged on the third movable rod, the second movable plate drives the second movable seat to move back and forth by matching the guide surface on the third movable rod with the transmission shaft, and the third movable rods are arranged at left and right intervals.

Preferably, a fourth spring for urging the second movable plate to return is interposed between the second movable plate and the fixed base.

As a preferable scheme, a fifth spring for urging the second movable seat to return upward is interposed between the bottom surface of the second movable seat and the inner wall surface of the second movable cavity.

As a preferred scheme, the first positioning groove is a plurality of left and right positioning grooves which are arranged at intervals, correspondingly, the second positioning pins are also a plurality of positioning grooves which are respectively arranged on the second movable seat and are driven by the second movable seat to extend upwards into the corresponding first positioning grooves.

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme:

the first movable seat is transversely movably arranged on the fixed seat back and forth and positioned in the first movable cavity, the first movable seat is provided with a second positioning groove, the second positioning groove is positioned beside the first positioning groove, so that one part can be placed in the second positioning groove during welding, the first movable seat drives the second positioning groove to move and is spliced and positioned with the part in the first positioning groove, splicing and positioning are more convenient, the first positioning pin is arranged on the movable block and moves back and forth along with the movable block, and the first positioning pin extends upwards into the second positioning groove along with the movable block; the second positioning pin is arranged on the second movable seat and extends upwards into the first positioning groove along with the second movable seat; when making take out the product, can drive first locating pin and second locating pin activity downwards and break away from the product respectively through first movable block and second sliding seat to make things convenient for taking out of product, the yield of product has been guaranteed to the stress damage welded structure who produces between locating pin and the product when avoiding taking out the product.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a schematic perspective view of a preferred embodiment of the present invention;

FIG. 2 is a partially assembled schematic view of a preferred embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of a preferred embodiment of the present invention;

fig. 4 is a schematic cross-sectional view of another angle of the preferred embodiment of the present invention.

The attached drawings indicate the following:

10. fixing seat 101 and first positioning groove

102. A first movable cavity 103 and a second movable cavity

20. A first movable seat 201 and a second positioning groove

202. First guide groove 21, first spring

30. A first movable rod 301 and a second guide groove

40. Movable block 41, first guide part

42. Third spring 50, first positioning pin

60. Second movable bar 61, second guide part

62. Second spring 70, second movable seat

71. The transmission shaft 72 and a fifth spring

80. Second positioning pin 90 and second movable plate

91. A third movable rod 92 guide surface

93. And a fourth spring.

Detailed Description

Referring to fig. 1 to 4, a specific structure of a preferred embodiment of the present invention is shown, which includes a fixed base 10, a first movable base 20, a first movable rod 30, a movable block 40, a first positioning pin 50, a second movable rod 60, a second movable base 70, a second positioning pin 80 and a second movable plate 90.

A first positioning groove 101 is concavely arranged on the upper surface of the fixed seat 10, and a first movable cavity 102 and a second movable cavity 103 are arranged in the fixed seat 10; in this embodiment, the first positioning grooves 101 are arranged in a left-right spaced manner.

The first movable seat 20 is transversely movably arranged on the fixed seat 10 back and forth and is positioned in the first movable cavity 102, a second positioning groove 201 is formed in the first movable seat 20, and the second positioning groove 201 is positioned beside the side of the first positioning groove 101, so that the first movable seat 20 drives the second positioning groove 201 to move back and forth beside the side of the first positioning groove 101, splicing and positioning of two accessories in the first positioning groove 101 and the second positioning groove 201 are completed, and the splicing and positioning process is more convenient; in this embodiment, the first movable seat 20 is provided with a first guide groove 202, a first spring 21 for urging the first movable seat 20 to return is interposed between a side wall of the first movable seat 20 and an inner wall of the first movable cavity 102, and the first spring 21 is used to facilitate the return of the first movable seat 20.

The first movable rod 30 is movably arranged on the fixed seat 10 back and forth and drives the first movable seat 20 to move back and forth; in this embodiment, the first movable rod 30 is provided with a second guide slot 301 matching with the first guide slot 202, and the first movable rod 30 drives the first movable seat 20 to move back and forth horizontally through the matching of the first guide slot 202 and the second guide slot 301.

The movable block 40 is movably arranged on the first movable seat 20 up and down and back and forth and moves back and forth along with the first movable seat 20; in this embodiment, the movable block 40 is provided with a first guide portion 41, and the movable block 40 is a plurality of blocks arranged at intervals left and right; a third spring 42 for urging the movable block 40 to return upward is interposed between the lower end surface of the movable block 40 and the first movable seat 20.

The first positioning pin 50 is arranged on the movable block 40 and moves back and forth along with the movable block 40, and the first positioning pin 50 extends upwards into the second positioning groove 201 along with the movable block 40, so that when a product is taken out, the first positioning pin 50 can move downwards along with the movable block 40 and is separated from the product, and the damage of stress generated between the first positioning pin 50 and the product to a welding structure of the product is avoided; the first positioning pins 50 are arranged in a left-right spaced manner, and the first positioning pins 50 are disposed on the corresponding movable blocks 40 and move up and down along with the corresponding movable blocks 40.

The second movable rod 60 is movably arranged on the first movable seat 20 back and forth and drives the movable block 40 to move back and forth; in this embodiment, the second movable rod 60 is provided with a second guiding portion 61 engaged with the first guiding portion 41, the second movable rod 60 drives the movable block 40 to move through the engagement between the first guiding portion 41 and the second guiding portion 61, and a second spring 62 for urging the second movable rod 60 to return is interposed between the second movable rod 60 and the first movable seat 20; the second movable rods 60 are also arranged at left and right intervals, and each second movable rod 60 drives the corresponding movable block 40 to move up and down.

The second movable seat 70 is movably arranged on the fixed seat 10 up and down and back and forth and is positioned in the second movable cavity 103; in this embodiment, a transmission shaft 71 is provided on the second movable seat, and a fifth spring 72 for urging the second movable seat 70 to return upward is interposed between the bottom surface of the second movable seat 70 and the inner wall surface of the second movable chamber 103.

The second positioning pin 80 is arranged on the second movable seat 70 and extends upwards into the first positioning groove 101 along with the second movable seat 70; in this embodiment, the number of the second positioning pins 80 is also multiple, and the second positioning pins are respectively disposed on the second movable seat 70 and driven by the second movable seat 70 to extend upwards into the corresponding first positioning grooves 101.

The second movable plate 90 is movably disposed on the fixed seat 10 back and forth and drives the second movable seat 70 to move back and forth up and down, so as to drive the second positioning groove 80 to move back and forth up and down, so that when a product is taken out, the product can be separated from the fixed seat through the second positioning pin 80, thereby facilitating the taking out of the product; in this embodiment, the second movable plate 90 is provided with a third movable rod 91, the second movable plate 90 is movably disposed on the fixed seat 10 back and forth, the third movable rod 91 is movably disposed back and forth with the second movable plate 90, the third movable rod 91 is provided with a guide surface 92 engaged with the transmission shaft 71, the second movable plate 90 drives the second movable seat 70 to move back and forth through the engagement of the guide surface 92 on the third movable rod 91 and the transmission shaft 71, the third movable rods 91 are two arranged at left and right intervals, and the two third movable rods 91 are used for ensuring the stability of the second movable seat 70 during movement; a fourth spring 93 for urging the second movable plate 90 to return is interposed between the second movable plate 90 and the fixed base 10.

The utility model discloses a design focus lies in: the first movable seat is transversely movably arranged on the fixed seat back and forth and positioned in the first movable cavity, the first movable seat is provided with a second positioning groove, the second positioning groove is positioned beside the first positioning groove, so that one part can be placed in the second positioning groove during welding, the first movable seat drives the second positioning groove to move and is spliced and positioned with the part in the first positioning groove, splicing and positioning are more convenient, the first positioning pin is arranged on the movable block and moves back and forth along with the movable block, and the first positioning pin extends upwards into the second positioning groove along with the movable block; the second positioning pin is arranged on the second movable seat and extends upwards into the first positioning groove along with the second movable seat; when the product is taken out, the first positioning pin and the second positioning pin can be driven to move downwards and separate from the product through the first movable block and the second movable seat respectively, so that the product can be taken out conveniently, a stress damage welding structure generated between the positioning pin and the product when the product is taken out is avoided, and the yield of the product is ensured.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a dislocation welding jig which characterized in that: the positioning device comprises a fixed seat, a first movable rod, a movable block, a first positioning pin, a second movable rod, a second movable seat, a second positioning pin and a second movable plate; the upper surface of the fixed seat is concavely provided with a first positioning groove, and a first movable cavity and a second movable cavity are arranged in the fixed seat; the first movable seat is movably arranged on the fixed seat in a transverse reciprocating manner and is positioned in the first movable cavity, a second positioning groove is formed in the first movable seat, and the second positioning groove is positioned beside the first positioning groove; the first movable rod is movably arranged on the fixed seat back and forth and drives the first movable seat to move back and forth; the movable block can be movably arranged on the first movable seat up and down and back and forth and can move back and forth along with the first movable seat; the first positioning pin is arranged on the movable block and moves back and forth along with the movable block up and down, and the first positioning pin extends into the second positioning groove along with the movable block; the second movable rod can be movably arranged on the first movable seat back and forth and drives the movable block to move back and forth; the second movable seat is movably arranged on the fixed seat up and down and back and forth and is positioned in the second movable cavity; the second positioning pin is arranged on the second movable seat and extends upwards into the first positioning groove along with the second movable seat; the second movable plate is movably arranged on the fixed seat back and forth and drives the second movable seat to move back and forth.

2. The misalignment welding jig of claim 1, wherein: the first movable seat is provided with a first guide groove, the first movable rod is provided with a second guide groove matched with the first guide groove, and the first movable rod drives the first movable seat to transversely move back and forth through the matching of the first guide groove and the second guide groove.

3. The misalignment welding jig of claim 1, wherein: a first spring used for promoting the first movable seat to reset is clamped between one side wall of the first movable seat and the inner wall of the first movable cavity.

4. The misalignment welding jig of claim 1, wherein: the movable block is provided with a first guide part, the second movable rod is provided with a second guide part matched with the first guide part, the second movable rod drives the movable block to move through the matching of the first guide part and the second guide part, and a second spring for promoting the second movable rod to reset is clamped between the second movable rod and the first movable seat.

5. The misalignment welding jig of claim 1, wherein: the movable block is for controlling a plurality of that the interval was arranged, and is corresponding, and first locating pin is for controlling a plurality of that the interval was arranged, and first locating pin sets up on the movable block that corresponds and makes a round trip the activity from top to bottom along with the movable block that corresponds, and the second movable rod also is for controlling a plurality of that the interval was arranged, and each second movable rod drives the activity that makes a round trip from top to bottom that corresponds.

6. The misalignment welding jig of claim 1, wherein: and a third spring for promoting the movable block to reset upwards is clamped between the lower end surface of the movable block and the first movable seat.

7. The misalignment welding jig of claim 1, wherein: the movable seat is characterized in that a transmission shaft is arranged on the second movable seat, a third movable rod is arranged on the second movable plate, the second movable plate can be movably arranged on the fixed seat back and forth, the third movable rod is movably arranged along with the second movable plate back and forth, a guide surface matched with the transmission shaft is arranged on the third movable rod, the second movable plate drives the second movable seat to move back and forth by matching the guide surface on the third movable rod and the transmission shaft, and the third movable rod is arranged at left and right sides at intervals.

8. The misalignment welding jig of claim 1, wherein: and a fourth spring for urging the second movable plate to reset is clamped between the second movable plate and the fixed seat.

9. The misalignment welding jig of claim 1, wherein: and a fifth spring for promoting the second movable seat to reset upwards is arranged between the bottom surface of the second movable seat and the inner wall surface of the second movable cavity in a clamping manner.

10. The misalignment welding jig of claim 1, wherein: the first positioning grooves are arranged at left and right intervals, correspondingly, the second positioning pins are also arranged in a plurality of numbers and are respectively arranged on the second movable seat and extend upwards into the corresponding first positioning grooves under the driving of the second movable seat.

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