CN110561004A - Welding positioning carrier and using method thereof - Google Patents

Abstract

A welding positioning carrier and a using method thereof are provided, wherein the welding positioning carrier is used for tightly assembling a first part on a second part for welding by welding equipment. The clamping device comprises a base, a supporting block, a first pushing block and a second pushing block, wherein the supporting block is arranged on the base and used for placing the first part and the second part, the clamping block is arranged opposite to the supporting block and can move along a first direction relative to the supporting block, the first pushing block and the second pushing block are arranged on two sides of the supporting block and can move along a second direction perpendicular to the first direction relative to the supporting block, and the first pushing block and the second pushing block can move towards a direction close to the supporting block to press the first part on the second part.

Description

Welding positioning carrier and using method thereof

Technical Field

The invention relates to a welding positioning carrier and a using method thereof, and belongs to the technical field of welding auxiliary equipment.

Background

In the traditional 3C assembly industry, due to the assembly process requirements of certain products, in order to ensure the stability of product module assembly, part of product designs can use 'Contraband' shaped workpieces to play a role in fixing a cover in combination with a welding process. For the bidirectional welding of the 'Contraband' workpiece, the welding of the workpiece is easy to deform due to the shape particularity of the workpiece, the size processing difference of the workpiece, the processing error and the like, so as to cause the 'out-of-shape' of the product. The workpiece with the shape is difficult to position, and a gap is easily generated between the assembled workpiece and a welding part to cause welding cold joint.

Traditional welding carrier just plays simple location or unilateral application of force propulsion and welds, will produce a great deal of problems during the welding, for example: a gap is reserved between two parts to be welded, the parts are heated unevenly during welding and are easy to splash, so that the appearance of a product is poor, the two parts are not fused together or the fused surface is too small, and a cold joint is formed; welding by applying force on a single side needs two times of welding, the welding of the first surface is easy to complete, but the welding requirement can be met only by applying larger force when the gap of the second surface is too large, so that the welding is difficult and the efficiency is low; when the welding surfaces on the two sides of the product are clamped, the upper part of the product is tilted, so that the assembling size is poor, or the fixing effect of the parts of the fixing cover is influenced.

Disclosure of Invention

the invention aims to provide a welding positioning carrier capable of improving welding efficiency and welding yield and a using method thereof.

in order to achieve the purpose, the invention adopts the following technical scheme: a welding positioning carrier is used for tightly assembling a first part on a second part for welding equipment and comprises a base, a supporting block, a clamping block, a first pushing block and a second pushing block, wherein the supporting block is arranged on the base and used for placing the first part and the second part, the clamping block is arranged opposite to the supporting block and can move along a first direction relative to the supporting block, the first pushing block and the second pushing block are arranged on two sides of the supporting block and can move along a second direction perpendicular to the first direction relative to the supporting block, and the first pushing block and the second pushing block can move towards a direction close to the supporting block to press the first part on the second part.

Furthermore, the first part comprises a flat mounting part, and a first welding arm and a second welding arm which vertically extend from two opposite sides of the mounting part respectively, and the first pushing block and the second pushing block are respectively abutted against the first welding arm and the second welding arm.

furthermore, the supporting block is provided with a holding groove for holding the first part and the second part, the holding groove penetrates through the supporting block in the direction towards the first pushing block to form a first gap, and penetrates through the supporting block in the direction towards the second pushing block to form a second gap, and the first pushing block and the second pushing block respectively penetrate through the first gap and the second gap and then respectively abut against the first welding arm and the second welding arm.

Further, the first pushing block and the second pushing block are identical in structure and symmetrically arranged on two sides of the accommodating groove, each of the first pushing block and the second pushing block comprises a body portion, a limiting portion extending from the body portion in a direction close to the accommodating groove, and a pressing portion extending from the limiting portion in a direction further close to the accommodating groove, the limiting portion abuts against the edge of the supporting block to prevent the first pushing block and the second pushing block from excessively moving in the direction close to the accommodating groove, and the pressing portions of the first pushing block and the second pushing block respectively penetrate through the first notch and the second notch and then respectively press against the first welding arm and the second welding arm.

Furthermore, the base is provided with a mounting groove for mounting the supporting block, a guide groove arranged opposite to the mounting groove and used for accommodating the clamping block, and a first guide groove and a second guide groove which are respectively positioned on two sides of the mounting groove, wherein the first guide groove and the second guide groove are respectively used for guiding the first pushing block and the second pushing block.

Furthermore, an elastic piece is arranged between the clamping block and the side wall of the guide groove, and provides an elastic force for the clamping block to enable the clamping block to move towards the direction close to the supporting block.

Further, the welding positioning carrier also comprises a pressing block which is arranged on the clamping block and can rotate relative to the clamping block.

Further, press from both sides tight piece with through the pivot axle swivelling joint between the briquetting, press from both sides tight piece with be equipped with respectively on the briquetting and be used for holding the pivot hole of pivot axle, keeping away from of briquetting the one end of pivot hole is equipped with first accommodation hole, press from both sides to be equipped with the second accommodation hole on the tight piece, be equipped with the third accommodation hole on the supporting shoe, the second accommodation hole with the position of third accommodation hole with first accommodation hole corresponds, first accommodation hole the second accommodation hole with all install magnet in the third accommodation hole.

Furthermore, a fourth accommodating hole is formed in one side, facing the accommodating groove, of the body portion of the first pushing block and the second pushing block, and a magnet is installed in the fourth accommodating hole.

Further, the welding position carrier still includes and adsorbs the supplementary setting element of first part, supplementary setting element includes the mobile jib and is located the portion that holds of mobile jib one end, the mobile jib with the portion that holds is equipped with the absorption hole of mutual intercommunication, the portion that holds still be equipped with be used for holding of absorption hole intercommunication the first part the absorption groove of installation department.

Furthermore, the auxiliary positioning element further comprises a plurality of mounting legs extending from the accommodating part to a direction far away from the main rod, and a plurality of mounting holes matched with the mounting legs of the auxiliary positioning element are formed in the supporting block so as to mount the auxiliary positioning element on the supporting block.

Further, the accommodating groove penetrates through the supporting block in the direction towards the clamping block to form a third notch, the clamping block comprises a base portion and an abutting portion extending from the base portion in the direction close to the supporting block, and the abutting portion penetrates through the third notch and abuts against the second part installed in the accommodating groove.

The invention also provides a using method of the welding positioning carrier, the welding positioning carrier further comprises a pressing block which is arranged on the clamping block and can rotate relative to the clamping block, and an auxiliary positioning piece which can adsorb the first part, the first part comprises a flat mounting part, and a first welding arm and a second welding arm which respectively vertically extend from two opposite sides of the mounting part, and the using method comprises the following steps: s1: rotating said press block to an open position and placing said second part on said support block; s2: adsorbing the first part by using the auxiliary positioning piece and placing the first part at a preset position on the second part; s3: rotating the pressing block to a closed position, wherein the pressing block presses the first part to enable the first part and the second part to be tightly attached together; s4: the first pushing block and the second pushing block are pushed to move towards the direction close to the supporting block, the first pushing block and the second pushing block are respectively abutted against the first welding arm and the second welding arm of the first part to enable the first welding arm, the second welding arm and the second part to be tightly attached together, and double-head welding equipment is adopted to simultaneously and respectively weld the first welding arm and the second welding arm to the second part.

Compared with the prior art, the welding positioning carrier is provided with the first push block and the second push block, the first welding arm and the second welding arm of the first part are pressed towards the direction close to the second part, so that the first welding arm and the second welding arm are tightly attached to the second part, and the first welding arm and the second welding arm are welded to the second part by adopting double-head welding equipment simultaneously and respectively, so that the welding yield is ensured, and the welding efficiency is improved.

Drawings

FIG. 1 is a perspective view of the welding positioning carrier with the auxiliary positioning element removed;

FIG. 2 is a perspective view of FIG. 1 with the compact further removed;

FIG. 3 is a perspective view of FIG. 2 from another perspective;

FIG. 4 is an exploded view of FIG. 1;

FIG. 5 is an exploded view from another perspective of FIG. 4;

FIG. 6 is a perspective view of the first part being attached to the auxiliary positioning member;

FIG. 7 is a perspective view of an auxiliary positioning member;

Fig. 8 is a perspective view of the first and second parts.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. The terms "connect", "install", "fix", and the like in the following description may be directly connected, installed, and fixed, or indirectly connected, installed, and fixed, that is, allowing the intervention of a third party substance, unless otherwise specified. The terms "first," "second," "third," and the like may be used herein to describe various elements, but these elements are not limited by these terms, which are used merely to distinguish the described objects, not in any sequential or technical sense.

referring to fig. 1 to 8, the present invention discloses a welding positioning carrier for tightly assembling an Contraband-shaped first part 200 onto a second part 300 for welding by a welding device (not shown), which includes a base 1, a supporting block 2 disposed on the base 1 for placing the first part 200 and the second part 300, a clamping block 3 disposed opposite to the supporting block 2 and capable of moving relative to the supporting block 2, a pressing block 4 disposed on the clamping block 3 and capable of rotating relative to the clamping block 3, a first pushing block 5 and a second pushing block 6 disposed on two sides of the supporting block 2 and capable of moving relative to the supporting block 2, and an auxiliary positioning element 7 capable of adsorbing the first part 200. The clamping block 3 moves along a first direction relative to the supporting block 2, the first pushing block 5 and the second pushing block 6 move towards a direction close to the supporting block 2 in a second direction perpendicular to the first direction respectively to press the first part 200 on the second part 300, and the pressing block 4 presses the first part 200 towards the second part 300 in a third direction perpendicular to the first direction and the second direction.

Referring to fig. 1, a moving direction parallel to the clamp block 3 is defined as a front-rear direction (i.e., the first direction), a moving direction parallel to the first push block 5 and the second push block 6 is defined as a left-right direction (i.e., the second direction), and a direction perpendicular to the front-rear direction and the left-right direction is defined as a vertical direction (i.e., the third direction). In the following description, upper, lower, left, right, front, and rear are used to describe the positional relationship between the relevant elements, so that the explanation for describing the positional relationship of one element with another element becomes simple, but the description in these orientations does not have any limiting meaning to the technique itself.

referring to fig. 8, the first part 200 has an overall shape of "Contraband", and includes a flat plate-shaped mounting portion 201, and first and second welding arms 202 and 203 extending perpendicularly from opposite sides of the mounting portion 201, respectively, and after the first part 200 is assembled to the second part 300, the first and second welding arms 202 and 203 and the second part 300 are welded together by a welding apparatus.

Referring to fig. 4, the base 1 includes a top surface 11, a mounting groove 12 recessed downward from the top surface 11 for mounting the supporting block 2, a guide groove 13 recessed downward from the top surface 11 and disposed opposite to the mounting groove 12 for accommodating the clamping block 3, and first and second guide grooves 14 and 15 recessed downward from the top surface 11 and respectively located at left and right sides of the mounting groove 12. The mounting groove 12 and the guide groove 13 are arranged at intervals in the front-rear direction, the first guide groove 14 and the second guide groove 15 are arranged at intervals in the left-right direction, and the first guide groove 14 and the second guide groove 15 are used for guiding the first pushing block 5 and the second pushing block 6 respectively.

referring to fig. 5, the supporting block 2 is provided with a receiving groove 21 for receiving the first part 200 and the second part 300, and the receiving groove 21 penetrates the supporting block 2 in a direction toward the first pushing block 5 to form a first notch 22, penetrates the supporting block 2 in a direction toward the second pushing block 6 to form a second notch 23, and penetrates the supporting block 2 in a direction toward the clamping block 3 to form a third notch 24.

As shown in fig. 3 to 5, an elastic member 31 is disposed between the clamping block 3 and the sidewall of the guide groove 13, and the elastic member 31 provides an elastic force to the clamping block 3 to move the clamping block 3 in a direction approaching the supporting block 2. Specifically, the inner wall of the guide groove 13 away from the support block 2 is provided with a first positioning member 131 for positioning the elastic member 31, one side of the clamping block 3 facing the inner wall is provided with a second positioning member 33 for positioning the elastic member 31, the first positioning member 131 and the second positioning member 33 may be positioning holes or positioning posts, and the elastic member 31 is preferably a spring. The clamping block 3 includes a base 37 and an abutting portion 38 extending from the base 37 in a direction approaching the supporting block 2, and the abutting portion 38 abuts against the second part 300 mounted in the receiving groove 21 after passing through the third notch 24.

the clamping block 3 is rotatably connected with the pressing block 4 through a pivot shaft 34, and the clamping block 3 and the pressing block 4 are respectively provided with pivot holes 35 and 41 which penetrate along the left-right direction and are used for accommodating the pivot shaft 34. For right the rotation angle of briquetting 4 fixes a position, the one end of keeping away from of briquetting 4 pivot hole 41 is equipped with first accommodation hole 42, install magnet in the first accommodation hole 42, it is corresponding, be equipped with second accommodation hole 36 on the clamp piece 3, also install magnet in the second accommodation hole 36, in addition, be equipped with third accommodation hole 26 on the supporting shoe 2, also install magnet in the third accommodation hole 26, second accommodation hole 36 with the position of third accommodation hole 26 with first accommodation hole 42 corresponds.

Referring to fig. 4, the first pushing block 5 and the second pushing block 6 have the same structure and are symmetrically disposed at the left and right sides of the receiving groove 21 of the supporting block 2. The first pushing block 5 and the second pushing block 6 each include a body 51, a limiting portion 52 extending from the body 51 toward the accommodating slot 21, a pressing portion 53 extending from the limiting portion 52 toward the accommodating slot 21, and a toggle portion 54 extending upward from the body 51. The limiting portion 52 abuts against the edge of the supporting block 2 to prevent the first pushing block 5 and the second pushing block 6 from excessively moving towards the direction close to the accommodating groove 21, and the pressing portions 53 of the first pushing block 5 and the second pushing block 6 respectively penetrate through the first notch 22 and the second notch 23 and then respectively abut against the first welding arm 202 and the second welding arm 203 of the first part 200. The body 51 is provided with a fourth accommodating hole 511 on one side facing the accommodating groove 21, a magnet is installed in the fourth accommodating hole 511, and under the action of the attraction force of the magnet, the first welding arm 202, the second welding arm 203 and the second part 300 are closely attached together so as to facilitate the welding equipment to weld the first welding arm 202 and the second welding arm 203 to the second part 300. When the first part 200 and the second part 300 need to be placed in the accommodating groove 21 or taken out of the accommodating groove 21, the toggle part 54 is toggled by a human hand to move the first push block 5 and the second push block 6 in a direction away from the accommodating groove 21.

Referring to fig. 6 and 7, the auxiliary positioning member 7 can absorb the first part 200 so as to place the first part 200 on the second part 300 through the auxiliary positioning member 7. The auxiliary positioning member 7 includes a main rod 71, an accommodating portion 72 located at one end of the main rod 71, and a plurality of mounting legs 73 extending from the accommodating portion 72 in a direction away from the main rod 71. The main rod 71 and the accommodating portion 72 are provided with adsorption holes 74 communicated with each other, and the accommodating portion 72 is further provided with an adsorption groove 75 communicated with the adsorption holes 74 and used for accommodating the mounting portion 201 of the first part 200. An external device sucks air from the suction hole 74, thereby sucking the first part 200 into the suction groove 75 of the auxiliary fixture 7.

when the auxiliary positioning member 7 is not needed, the auxiliary positioning member 7 is placed on the supporting block 2, and accordingly, a plurality of mounting holes 28 are formed in the supporting block 2 to be matched with the mounting legs 73 of the auxiliary positioning member 7 so as to mount the auxiliary positioning member 7 on the supporting block 2.

The use method of the welding positioning carrier comprises the following steps:

S1: rotating the pressing block 4 to an open position and placing the second part 300 into the accommodating groove 21 of the supporting block 2, wherein the magnet on the pressing block 4 and the magnet on the clamping block 3 are attracted together to prevent the pressing block 4 from rotating;

s2: adsorbing the first part 200 by using the auxiliary positioning member 7 and placing the first part 200 at a preset position on the second part 300;

S3: rotating the pressing block 4 to a closed position, wherein the magnet on the pressing block 4 and the magnet on the supporting block 2 are attracted together, and the pressing block 4 presses the first part 200 downwards so that the first part 200 and the second part 300 are tightly attached in the vertical direction;

S4: the first pushing block 5 and the second pushing block 6 are pushed to move towards a direction close to the accommodating groove 21, so that the pressing parts 53 of the first pushing block 5 and the second pushing block 6 respectively penetrate through the first notch 22 and the second notch 23 and then respectively press against the first welding arm 202 and the second welding arm 203 of the first part 200, so that the first welding arm 202, the second welding arm 203 and the second part 300 are tightly attached together for welding by welding equipment, and in order to improve the welding efficiency, the first welding arm 202 and the second welding arm 203 are simultaneously and respectively welded on the second part 300 by adopting double-head welding equipment; at this time, the limiting portions 52 of the first pushing block 5 and the second pushing block 6 abut against the edge of the supporting block 2 to prevent the first pushing block 5 and the second pushing block 6 from moving further, and the magnets on the first pushing block 5 and the second pushing block 6 provide an attractive force to prevent the first pushing block 5 and the second pushing block 6 from moving away from the accommodating groove 21.

The welding positioning carrier is provided with the first push block 5 and the second push block 6, the first welding arm 202 and the second welding arm 203 of the first part 200 are pressed towards the direction close to the second part 300, the first welding arm 202, the second welding arm 203 and the second part 300 are tightly attached, and double-head welding equipment is adopted to weld the first welding arm 202 and the second welding arm 203 to the second part 300 at the same time, so that the welding yield is ensured, and the welding efficiency is improved.

set up the clamp plate and support the pressure first part 200 the installation department 201 makes first part 200 the installation department 201 with closely laminate between the second part 300, in addition, support the pressure first part 200 the briquetting 4 with all be equipped with magnet on the supporting shoe 2, under the adsorption affinity of magnet, first part 200 with second part 300 is firmly closely laminated together, prevents first part 200 by first ejector pad 5 with produce the deformation during the centre gripping of second ejector pad 6.

The auxiliary positioning part 7 adsorbs the first part 200 to complete the assembly between the first part 200 and the second part 300, so that the first part 200 can be conveniently taken and placed, and the placement position is easy to control.

The above embodiments are only used for illustrating the present invention and not for limiting the technical solutions described in the present invention, and the understanding of the present specification should be based on the technical personnel in the technical field, such as the directional descriptions of "front", "back", "left", "right", "upper", "lower", etc., although the present specification has described the present invention in detail with reference to the above embodiments, the ordinary skilled in the art should understand that the technical personnel in the technical field can still make modifications or equivalent substitutions on the present invention, and all the technical solutions and modifications thereof without departing from the spirit and scope of the present invention should be covered in the claims of the present invention.

Claims (13)

1. A welding positioning carrier for tightly assembling a first part (200) to a second part (300) for welding by a welding device, characterized in that: the clamping device comprises a base (1), a supporting block (2) arranged on the base (1) and used for placing a first part (200) and a second part (300), a clamping block (3) which is arranged opposite to the supporting block (2) and can move along a first direction relative to the supporting block (2), and a first pushing block (5) and a second pushing block (6) which are arranged on two sides of the supporting block (2) and can move along a second direction perpendicular to the first direction relative to the supporting block (2), wherein the first pushing block (5) and the second pushing block (6) can move towards a direction close to the supporting block (2) to press the first part (200) on the second part (300).

2. The welding positioning carrier of claim 1, wherein: the first part (200) comprises a flat mounting part (201), and a first welding arm (202) and a second welding arm (203) which vertically extend from two opposite sides of the mounting part (201), and the first push block (5) and the second push block (6) are respectively pressed on the first welding arm (202) and the second welding arm (203).

3. The welding positioning carrier of claim 2, wherein: the supporting block (2) is provided with a containing groove (21) used for containing the first part (200) and the second part (300), the containing groove (21) penetrates through the supporting block (2) in the direction towards the first push block (5) to form a first gap (22), and penetrates through the supporting block (2) in the direction towards the second push block (6) to form a second gap (23), and the first push block (5) and the second push block (6) respectively penetrate through the first gap (22) and the second gap (23) and then respectively abut against and press the first welding arm (202) and the second welding arm (203).

4. The welding positioning carrier of claim 3, wherein: the first push block (5) and the second push block (6) have the same structure and are symmetrically arranged at two sides of the accommodating groove (21), the first pushing block (5) and the second pushing block (6) both comprise a body part (51), a limiting part (52) extending from the body part (51) to the direction close to the accommodating groove (21), and a pressing part (53) extending from the limiting part (52) to the direction close to the accommodating groove (21), the limiting part (52) is abutted against the edge of the supporting block (2) to prevent the first pushing block (5) and the second pushing block (6) from excessively moving towards the direction close to the accommodating groove (21), the pressing parts (53) of the first pushing block (5) and the second pushing block (6) respectively penetrate through the first notch (22) and the second notch (23) and then respectively press against the first welding arm (202) and the second welding arm (203).

5. the welding positioning carrier of claim 1, wherein: the base (1) is provided with a mounting groove (12) for mounting the supporting block (2), a guide groove (13) which is opposite to the mounting groove (12) and is used for accommodating the clamping block (3), and a first guide groove (14) and a second guide groove (15) which are respectively positioned on two sides of the mounting groove (12), wherein the first guide groove (14) and the second guide groove (15) are respectively used for guiding the first push block (5) and the second push block (6).

6. The welding positioning carrier of claim 5, wherein: an elastic piece (31) is arranged between the clamping block (3) and the side wall of the guide groove (13), and the elastic piece (31) provides an elastic force for the clamping block (3) to enable the clamping block (3) to move towards the direction close to the supporting block (2).

7. The welding positioning carrier of claim 1, wherein: the welding positioning carrier further comprises a pressing block (4) which is arranged on the clamping block (3) and can rotate relative to the clamping block (3).

8. The welding positioning carrier of claim 7, wherein: press from both sides tight piece (3) with rotate through pivot axis (34) between briquetting (4) and connect, press from both sides tight piece (3) with be equipped with respectively on briquetting (4) and be used for holding pivot hole (35, 41) of pivot axis (34), keeping away from of briquetting (4) the one end of pivot hole (41) is equipped with first accommodation hole (42), be equipped with second accommodation hole (36) on pressing from both sides tight piece (3), be equipped with third accommodation hole (26) on supporting shoe (2), second accommodation hole (36) with the position of third accommodation hole (26) with first accommodation hole (42) correspond, first accommodation hole (42) second accommodation hole (36) with all install magnet in third accommodation hole (26).

9. The welding positioning carrier of claim 4, wherein: a fourth accommodating hole (511) is formed in one side, facing the accommodating groove (21), of the body portion (51) of the first pushing block (5) and the second pushing block (6), and a magnet is installed in the fourth accommodating hole (511).

10. The welding positioning carrier of claim 2, wherein: welding position carrier is still including adsorbing auxiliary positioning element (7) of first part (200), auxiliary positioning element (7) include mobile jib (71) and are located receiving portion (72) of mobile jib (71) one end, mobile jib (71) with receiving portion (72) are equipped with adsorption hole (74) that communicate each other, receiving portion (72) still be equipped with be used for holding of adsorption hole (74) intercommunication first part (200) adsorption tank (75) of installation department (201).

11. The welding positioning carrier of claim 10, wherein: the auxiliary positioning piece (7) further comprises a plurality of mounting legs (73) extending from the accommodating part (72) to a direction far away from the main rod (71), and a plurality of mounting holes (28) matched with the mounting legs (73) of the auxiliary positioning piece (7) to mount the auxiliary positioning piece (7) on the supporting block (2) are formed in the supporting block (2).

12. The welding positioning carrier of claim 3, wherein: the accommodating groove (21) penetrates through the supporting block (2) in the direction towards the clamping block (3) to form a third notch (24), the clamping block (3) comprises a base portion (37) and an abutting portion (38) extending from the base portion (37) to the direction close to the supporting block (2), and the abutting portion (38) penetrates through the third notch (24) and abuts against the second part (300) installed in the accommodating groove (21).

13. a method for using the welding positioning carrier according to any one of claims 1-12, wherein the welding positioning carrier further comprises a pressing block (4) disposed on the clamping block (3) and capable of rotating relative to the clamping block (3), and an auxiliary positioning member (7) capable of adsorbing the first part (200), the first part (200) comprises a flat-plate-shaped mounting portion (201), and a first welding arm (202) and a second welding arm (203) respectively extending perpendicularly from two opposite sides of the mounting portion (201), and the method for using the welding positioning carrier comprises the following steps:

S1: rotating the press block (4) to an open position and placing the second part (300) onto the support block (2);

S2: adsorbing the first part (200) by using the auxiliary positioning piece (7) and placing the first part (200) at a preset position on the second part (300);

S3: rotating the pressing block (4) to a closed position, wherein the pressing block (4) presses against the first part (200) to enable the first part (200) and the second part (300) to be tightly attached together;

s4: the first pushing block (5) and the second pushing block (6) are pushed to move towards the direction close to the supporting block (2), the first pushing block (5) and the second pushing block (6) are respectively pressed on the first welding arm (202) and the second welding arm (203) of the first part (200) to enable the first welding arm (202), the second welding arm (203) and the second part (300) to be tightly attached together, and double-head welding equipment is adopted to simultaneously and respectively weld the first welding arm (202) and the second welding arm (203) to the second part (300).