CN219443920U - Assembly line explosion-proof piece welding module - Google Patents

Abstract

The utility model discloses an assembly line explosion-proof piece welding module. The module comprises a mounting frame, a buffer self-locking type blocking cylinder, a jacking sliding table cylinder, a positioning plate, two flat ribbed suckers and two pressing blocks, wherein the buffer self-locking type blocking cylinder and the jacking sliding table cylinder are installed on the mounting frame side by side, the positioning plate is connected to the top of the jacking sliding table cylinder, the two flat ribbed suckers are respectively installed on two sides of the positioning plate, and the two pressing blocks are located right above the positioning plate. According to the assembly line explosion-proof piece welding module, the product on the jig is fixed by using the vacuum adsorption method, and meanwhile, the vacuum pipeline and the jig are separated, so that the jig can be conveniently placed and moved, and circulation is carried out through the assembly line, the product processing effect is guaranteed, and the production efficiency is improved.

Description

Assembly line explosion-proof piece welding module

Technical Field

The utility model relates to the field of batteries, in particular to an assembly line explosion-proof piece welding module.

Background

In the production and processing process of products such as battery packs, the explosion-proof piece and the top cover plate are required to be assembled and welded to form a battery cover, in the process, the top cover plate is usually placed in a corresponding jig, an air pipe is directly connected to the bottom of the jig for vacuumizing and adsorbing fixation, and then the explosion-proof piece and the top cover plate are welded after being assembled manually.

In the above prior art, the air pipe for vacuumizing is directly connected with the jig, so that the jig cannot be separated from the machine and transferred at will, and the effect of automatically moving the jig by using the assembly line to improve the machining efficiency cannot be achieved.

Disclosure of Invention

In order to solve the problems, the utility model provides a production line explosion-proof piece welding module.

According to one aspect of the utility model, the assembly line explosion-proof piece welding module comprises a mounting frame, a buffer self-locking blocking cylinder, a jacking sliding table cylinder, a positioning plate, two flat ribbed suckers and two pressing blocks, wherein the buffer self-locking blocking cylinder and the jacking sliding table cylinder are arranged on the mounting frame side by side, the positioning plate is connected to the top of the jacking sliding table cylinder, the two flat ribbed suckers are respectively arranged on two sides of the positioning plate, and the two pressing blocks are positioned right above the positioning plate.

In some embodiments, the mounting frame comprises a bottom plate, a base is mounted on one side of the bottom plate, the buffer self-locking blocking cylinder is mounted on the top of the base, and the jacking sliding table cylinder is mounted on the side face of the base. The self-locking type buffer sliding table has the advantages that a part of structure of the installation frame and installation modes of the buffer self-locking type blocking cylinder and the jacking sliding table cylinder are described.

In some embodiments, two vertical plates are further arranged at two ends of the other side of the bottom plate, top ends of the two vertical plates support a top plate, and the two pressing blocks are mounted on the bottom surface of the top plate. It is advantageous to describe another part of the structure of the mounting frame.

In some embodiments, the dust extraction system further comprises a dust extraction pipe, wherein the dust extraction pipe is installed on one of the vertical plates, and the pipe orifice of the dust extraction pipe is positioned above the top plate. The dust extraction pipe has the advantage that welding smoke and the like generated by welding can be extracted through the dust extraction pipe.

In some embodiments, two positioning pins are mounted on the positioning plate, and the top ends of the two positioning pins protrude above the positioning plate. The fixture is beneficial in that the fixture can be positioned through the positioning pin.

In some embodiments, one of the locating pins is a cylindrical pin and the other locating pin is a diamond pin. The two locating pins are described in terms of their structure.

In some embodiments, two sucker fixing plates are respectively installed at the bottoms of two sides of the positioning plate, two flat ribbed suckers are respectively fixed on the two sucker fixing plates in a threaded mode, wherein the top end of each flat ribbed sucker is higher than the top surface of the positioning plate, and an air pipe joint is installed at the bottom end of each flat ribbed sucker. The suction cup has the advantages that the specific structure of the flat ribbed suction cup is described, and the suction cup can be connected with a vacuum generator through an air pipe joint.

In some embodiments, the top end of the flat ribbed suction cup is 1mm higher than the top surface of the locating plate. This is beneficial in that it further describes the case of a flat ribbed suction cup.

According to the assembly line explosion-proof piece welding module, the product on the jig is fixed by using the vacuum adsorption method, and meanwhile, the vacuum pipeline and the jig are separated, so that the jig can be conveniently placed and moved, and circulation is carried out through the assembly line, the product processing effect is guaranteed, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic structural diagram of an assembly line rupture disk welding module according to an embodiment of the present utility model;

FIG. 2 is a schematic view of the structure of the mounting frame shown in FIG. 1;

fig. 3 is a schematic diagram of the related structure of the lifting sliding table cylinder and the positioning plate shown in fig. 1.

In the figure: the device comprises a mounting frame 1, a buffer self-locking type blocking cylinder 2, a jacking sliding table cylinder 3, a positioning plate 4, a flat ribbed sucker 5, a pressing block 6, a dust extraction pipe 7, a bottom plate 11, a base 12, a vertical plate 13, a top plate 14, a positioning pin 41, a sucker fixing plate 51 and an air pipe joint 52.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings.

Fig. 1 schematically shows a structure of an inline burst disk welding module according to an embodiment of the present utility model, fig. 2 shows a related structure of the mounting bracket of fig. 1, and fig. 3 shows a related structure of the jack-up slide cylinder and the positioning plate of fig. 1. As shown in fig. 1-3, the welding module is provided with a mounting frame 1, and other main structures, including a buffer self-locking blocking cylinder 2, a jacking sliding table cylinder 3, a positioning plate 4, two flat ribbed suckers 5, two pressing blocks 6 and the like, are all directly or indirectly mounted on the mounting frame 1.

The mounting frame 1 comprises a bottom plate 11, one side of the bottom plate 11 is provided with a base 12, wherein the buffer self-locking blocking cylinder 2 is arranged on the top of the base 12 and can be lifted upwards during operation; the jacking sliding table cylinder 3 is arranged on the side surface of the base 12 and is arranged side by side with the buffer self-locking type blocking cylinder 2 at the same height.

Two vertical risers 13 (the jacking sliding table cylinder 3 is positioned between the two risers 13) are respectively arranged at two ends of the other side of the bottom plate 11, a horizontal top plate 14 is commonly supported at the top ends of the two risers 13, and two pressing blocks 6 are both arranged on the bottom surface of the top plate 14.

The locating plate 4 is horizontally arranged and connected to the top of the jacking sliding table cylinder 3, and the jacking sliding table cylinder 3 can jack up and lower the locating plate 4. And two positioning pins 41 are also mounted on the positioning plate 4, and the top ends of the two positioning pins 41 protrude above the positioning plate 4.

Preferably, one of the positioning pins 41 is a cylindrical pin, and the other positioning pin 41 may be a diamond pin. And the bottom of the jig for installing and welding the top cover plate 14 and the explosion-proof sheet and the material belt of the assembly line are also provided with positioning holes with corresponding sizes and shapes.

Furthermore, both press blocks 6 are located directly above the positioning plate 4.

Two flat ribbed chucks 5 are respectively installed at both sides of the positioning plate 4, specifically, two chuck fixing plates 51 are respectively installed at the bottoms of both sides of the positioning plate 4, and two flat ribbed chucks 5 are respectively fixed on the two chuck fixing plates 51 by threads. Wherein, the top end of each flat ribbed sucking disc 5 is higher than the top surface of the locating plate 4 by 1mm, and the bottom end of each flat ribbed sucking disc 5 is provided with a cylinder joint 52, and the cylinder joint 52 can be used for connecting a vacuum generator.

Preferably, the welding module further comprises a dust extraction pipe 7 which can be connected with an exhaust fan, the dust extraction pipe 7 is arranged on one of the vertical plates 13, and the pipe orifice of the dust extraction pipe 7 is arranged above the top plate 14.

When the welding module is used, matched welding equipment is required to be arranged, a material belt of the assembly line passes through the upper side of the positioning plate 4, when a jig carrying the top cover plate and the explosion-proof sheet is conveyed to the position through the material belt, the buffer self-locking type blocking cylinder 2 is operated to lift up to block the jig, then the lifting sliding table cylinder 3 is operated to jack up the positioning plate 4, the jig is positioned through the two positioning pins 41, the vacuum generator is operated to vacuumize the flat ribbed sucker 5 to enable the explosion-proof sheet to be adsorbed on the top cover plate, finally, the welding equipment is used for welding the top cover plate and the explosion-proof sheet, and welding smoke generated by welding is sucked out by the dust sucking pipe 7.

After the welding process is finished, the vacuum generator stops operating, the lifting sliding table cylinder 3 operates to lower the positioning plate 4 and leave the jig, the buffer self-locking type blocking cylinder 2 also operates to lower, and then the material belt of the assembly line can continuously move to the next station with the jig.

What has been described above is merely some embodiments of the present utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (8)

1. An assembly line explosion-proof piece welding module, its characterized in that: including a mounting bracket (1), a buffering auto-lock formula block cylinder (2), a jack-up slip table cylinder (3), a locating plate (4), two flat ribbed suction cups (5) and two briquetting (6), wherein, buffering auto-lock formula block cylinder (2) with jack-up slip table cylinder (3) are installed side by side on mounting bracket (1), locating plate (4) are connected the top of jack-up slip table cylinder (3), two flat ribbed suction cups (5) are installed respectively the both sides of locating plate (4), two briquetting (6) all are located directly over locating plate (4).

2. The assembly line rupture disk welding module of claim 1, wherein: the mounting frame (1) comprises a bottom plate (11), a base (12) is arranged on one side of the bottom plate (11), the buffer self-locking type blocking cylinder (2) is arranged at the top of the base (12), and the jacking sliding table cylinder (3) is arranged on the side face of the base (12).

3. The assembly line rupture disk welding module of claim 2, wherein: two vertical plates (13) are further arranged at two ends of the other side of the bottom plate (11), a top plate (14) is supported at the top ends of the two vertical plates (13), and the two pressing blocks (6) are mounted on the bottom surface of the top plate (14).

4. A pipeline rupture disk welding module as set forth in claim 3, wherein: the dust extraction device also comprises a dust extraction pipe (7), wherein the dust extraction pipe (7) is arranged on one of the vertical plates (13), and the pipe orifice of the dust extraction pipe (7) is positioned above the top plate (14).

5. The assembly line rupture disk welding module of claim 1, wherein: two locating pins (41) are arranged on the locating plate (4), and the top ends of the two locating pins (41) protrude above the locating plate (4).

6. The assembly line rupture disk welding module of claim 5, wherein: one of the positioning pins (41) is a cylindrical pin, and the other positioning pin (41) is a diamond pin.

7. The assembly line rupture disk welding module of claim 1, wherein: two sucking disc fixed plates (51) are respectively installed at the bottom of two sides of the locating plate (4), two flat ribbed sucking discs (5) are respectively fixed on the two sucking disc fixed plates (51) in a threaded mode, wherein the top ends of the flat ribbed sucking discs (5) are higher than the top surface of the locating plate (4), and air pipe connectors (52) are installed at the bottom ends of the flat ribbed sucking discs.

8. The assembly line rupture disk welding module of claim 1, wherein: the top end of the flat ribbed sucking disc (5) is 1mm higher than the top surface of the locating plate (4).