CN213916723U

CN213916723U - Laser welding machine

Info

Publication number: CN213916723U
Application number: CN202022787545.5U
Authority: CN
Inventors: 温国斌; 廖建诚; 潘晓涛
Original assignee: Guangdong National Bowlder Technology Co ltd
Current assignee: Guangdong Guoyu Technology Co ltd
Priority date: 2020-11-26
Filing date: 2020-11-26
Publication date: 2021-08-10
Anticipated expiration: 2030-11-26

Abstract

The utility model discloses a laser welding machine, which is characterized by comprising a cabinet, a support arranged on the cabinet, an internal positioning mechanism, a carrying mechanism, a first bending mechanism, a second bending mechanism and a pressing block assembly movably arranged on the support, wherein the pressing block assembly is provided with a welding assembly; the inner positioning mechanism comprises a plurality of positioning rods which are matched with the side positioning clamps and are respectively arranged at four corners of the electrode plate; an electric cylinder connected with the driving pressing block assembly is arranged on the support, and the pressing block assembly is driven to lift through the electric cylinder. The utility model discloses simple structure, convenient operation.

Description

Laser welding machine

Technical Field

The utility model relates to a laser beam machining technical field, more specifically relate to a galvanic pile steel band welding equipment.

Background

The electric pile is formed by laminating and combining a plurality of electrode plates in series, and has great requirements on the tightness among the electrode plates in order to achieve the best application effect. The electrode plates are pressed by a machine, the steel belt is bent to bind the pressed single battery stacks, the steel belt is welded, and the tightness of each electrode plate is guaranteed.

Disclosure of Invention

The utility model aims at providing a simple structure, convenient operation's laser-beam welding machine in order to solve the not enough of prior art.

The utility model discloses an adopt following technical solution to realize above-mentioned purpose: a laser welding machine is characterized by comprising a machine cabinet, a support, an inner positioning mechanism, a carrying mechanism, a first bending mechanism, a second bending mechanism and a pressing block assembly, wherein the support, the inner positioning mechanism, the carrying mechanism, the first bending mechanism and the second bending mechanism are arranged on the machine cabinet, the pressing block assembly is movably arranged on the support, a welding assembly is arranged on the pressing block assembly,

the carrying mechanism comprises conveying chains respectively arranged on two sides of the cabinet, a galvanic pile support arranged between the conveying chains on the two sides and side positioning clamps respectively arranged on the conveying chains on the two sides;

the inner positioning mechanism comprises a plurality of positioning rods which are matched with the side positioning clamps and are respectively arranged at four corners of the electrode plate;

an electric cylinder connected with a driving pressing block assembly is arranged on the support, the pressing block assembly is driven to lift through the electric cylinder, the carrying mechanism clamps the stacked electrode plates to a welding position, the electric cylinder pushes the pressing block assembly to apply pressure to the electrode plates, and when the pressure reaches a set value, the electric cylinder stops; after the first bending mechanism bends the steel belt in place, the second bending mechanism bends the steel belt in the other direction, and the welding assembly drives the welding head to weld the steel belt.

As a further explanation of the above scheme, the pressing block assembly is provided with a first bending fixing support extending outward, and the first bending mechanism is arranged on the first bending fixing support.

Furthermore, a linear guide rail is arranged at the bottom of the first bending fixing support, a sliding seat in sliding fit with the linear guide rail is arranged on the linear guide rail, and the sliding seat is connected with a bending component mounting seat corresponding to the first bending mechanism.

Further, the bottom of the bending component mounting seat is provided with a suspension base movably connected with the bending component mounting seat, two side guide rails are arranged on the suspension base, a movable air cylinder is movably arranged on the two side guide rails and located between the suspension base and the bending component mounting seat, a pushing air cylinder is arranged on the suspension base, and a piston rod of the pushing air cylinder is connected with the bending component mounting seat.

Furthermore, the bending mechanism I comprises a bending arm I connected with the movable air cylinder and a bending head I fixed on the bending arm I.

Furthermore, the bending mechanism II comprises a bending fixing support II suspended at the bottom side of the pressing block assembly, a telescopic cylinder II fixed on the bending fixing support II, a bending arm II connected to the end part of the telescopic cylinder II and a bending head II fixed on the bending arm II.

The utility model adopts the beneficial effect that above-mentioned technical solution can reach is:

the utility model discloses a many locating lever location electrode slices through interior positioning mechanism, it is perpendicular when guaranteeing that the electrode slice piles up, in order to reach best application effect, pile up good electrode slice to the welding position with the centre gripping through transport mechanism, the electric jar promotes the briquetting subassembly and exerts pressure to the electrode slice, when pressure reaches the setting value, the electric jar stops, and bind the battery pile to exerting pressure through bending the mechanism to the steel band, and by welding assembly welding steel band, guarantee the compactness of each electrode slice, full-automatic can be realized to whole process, easy operation is convenient, high production efficiency.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural diagram of the present invention.

Description of reference numerals: 1. the device comprises a laser installation cabinet 2, a cabinet 3, a support 4, an inner positioning mechanism 4-1, a positioning rod 5, a carrying mechanism 5-1, a conveying chain 5-2, a side positioning clamp 6, a bending mechanism I6-1, a bending arm I6-2, a bending head I7, a bending mechanism II 7-1, a bending fixed support II 7-2, a telescopic cylinder II 7-3, a bending head II 8, a pressing block assembly 9, a welding assembly 10, a bending fixed support I10-1, a linear guide rail 11, a sliding seat 12, a bending assembly installation seat 13, a suspension base 13-1, a guide rail 14, a movable cylinder 15 and a pushing cylinder.

Detailed Description

The technical solution is described in detail with reference to specific embodiments below.

As shown in fig. 1 and 2, the utility model relates to a laser welding machine, which comprises a laser installation cabinet 1, a cabinet 2 and a bracket 3, an inner positioning mechanism 4, a carrying mechanism 5, a bending mechanism I6 and a bending mechanism II 7 which are arranged on the cabinet, a pressing block assembly 8 which is movably arranged on the bracket, wherein a welding assembly 9 is arranged on the pressing block assembly, the carrying mechanism 5 comprises conveying chains 5-1 which are respectively arranged at two sides of the cabinet, a pile support which is arranged between the conveying chains at two sides and side positioning clamps 5-2 which are respectively arranged on the conveying chains at two sides; the inner positioning mechanism comprises a plurality of positioning rods 4-1 which are matched with the side positioning clamps and are respectively arranged at four corners of the electrode slice; an electric cylinder 9 connected with a driving press block assembly 8 is arranged on the support 3, the press block assembly is driven to lift through the electric cylinder, the carrying mechanism clamps the stacked electrode plates to a welding position, the electric cylinder pushes the press block assembly to apply pressure to the electrode plates, and when the pressure reaches a set value, the electric cylinder stops; after the first bending mechanism bends the steel belt in place, the second bending mechanism bends the steel belt in the other direction, and the welding assembly drives the welding head to weld the steel belt. The pressing block assembly is provided with a first bending fixing support 10 extending outwards, and the first bending mechanism is arranged on the first bending fixing support. The bottom of the first bending fixing support 10 is provided with a linear guide rail 10-1, a sliding seat 11 in sliding fit with the linear guide rail is arranged on the linear guide rail, and the sliding seat 11 is connected with a bending component mounting seat 12 corresponding to the first bending mechanism.

Further, a suspension base 13 movably connected with the bending assembly mounting seat 12 is arranged at the bottom of the bending assembly mounting seat 12, two side guide rails 13-1 are arranged on the suspension base, a movable air cylinder 14 is movably arranged on the two side guide rails and is positioned between the suspension base and the bending assembly mounting seat, a pushing air cylinder 15 is arranged on the suspension base, and a piston rod of the pushing air cylinder is connected with the bending assembly mounting seat.

Further, the bending mechanism I6 comprises a bending arm I6-1 connected with the movable air cylinder and a bending head I6-2 fixed on the bending arm I. The second bending mechanism 7 comprises a second bending fixing support 7-1 suspended on the bottom side of the pressing block assembly, a second telescopic cylinder 7-2 fixed on the second bending fixing support, a second bending arm connected to the end part of the second telescopic cylinder, and a second bending head 7-3 fixed on the second bending arm.

In the operation process, the electrode plates are positioned by 4 rod positioning rods of the inner positioning mechanism, so that the electrode plates are vertical when being stacked; after stacking is finished, the carrying mechanism clamps the stacked electrode plates to a welding position, the electric cylinder pushes the pressing block assembly to apply pressure to the electrode plates, and when the pressure reaches a set value, the electric cylinder stops; after the steel belt is bent in place by the first bending mechanism, the second bending mechanism bends the steel belt in the other direction, and the welding assembly drives the welding head to weld the steel belt; after welding, automatically clamping the galvanic pile to a blanking position.

Compared with the prior art, the utility model, guarantee the compactness of each electrode slice, whole process can realize full-automatic, and easy operation is convenient, and production efficiency is high.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many modifications and improvements can be made without departing from the inventive concept, and all of them belong to the protection scope of the present invention.

Claims

1. A laser welding machine is characterized by comprising a machine cabinet, a support, an inner positioning mechanism, a carrying mechanism, a first bending mechanism, a second bending mechanism and a pressing block assembly, wherein the support, the inner positioning mechanism, the carrying mechanism, the first bending mechanism and the second bending mechanism are arranged on the machine cabinet, the pressing block assembly is movably arranged on the support, a welding assembly is arranged on the pressing block assembly,

an electric cylinder connected with the driving pressing block assembly is arranged on the support, and the pressing block assembly is driven to lift through the electric cylinder.

2. The laser welding machine according to claim 1, wherein the pressing block assembly is provided with a first bending fixing support extending outwards, and the first bending mechanism is arranged on the first bending fixing support.

3. The laser welding machine according to claim 2, wherein the bottom of the first bending fixing support is provided with a linear guide rail, the linear guide rail is provided with a sliding seat in sliding fit with the linear guide rail, and the sliding seat is connected with a bending component mounting seat corresponding to the bending mechanism.

4. The laser welding machine according to claim 3, wherein a suspension base movably connected with the bending assembly mounting base is arranged at the bottom of the bending assembly mounting base, two side guide rails are arranged on the suspension base, a movable air cylinder is movably arranged on the two side guide rails and is positioned between the suspension base and the bending assembly mounting base, a pushing air cylinder is arranged on the suspension base, and a piston rod of the pushing air cylinder is connected with the bending assembly mounting base.

5. The laser welding machine according to claim 3, wherein the first bending mechanism comprises a first bending arm connected with the movable cylinder and a first bending head fixed on the first bending arm.

6. The laser welding machine according to claim 3, wherein the second bending mechanism comprises a second bending fixing support suspended on the bottom side of the pressing block assembly, a second telescopic cylinder fixed on the second bending fixing support, a second bending arm connected to the two ends of the second telescopic cylinder, and a second bending head fixed on the second bending arm.