CN214978503U - Cylinder lithium ion power battery utmost point ear welding equipment - Google Patents

Abstract

The utility model provides a cylindrical lithium ion power battery tab welding device, which comprises a frame, a workbench arranged on the frame and a flow rotating mechanism arranged on the upper surface of the workbench, wherein the edge of the flow rotating mechanism on the workbench and the frame is sequentially provided with a feeding and discharging mechanism for carrying the battery on the flow rotating mechanism to carry out feeding and discharging, a positive electrode welding mechanism and a negative electrode welding mechanism for respectively welding positive and negative electrode tabs on the battery, an electric core overturning mechanism for overturning the battery 180 degrees to enable the positive electrode end of the battery without welding the electrode tabs to face upwards, an electrode tab bending mechanism for bending the positive electrode tabs, a waste product discharging mechanism for discarding defective products, and a control system for controlling the orderly operation of the feeding and discharging mechanism, the negative electrode welding mechanism, the electric core overturning mechanism, the positive electrode welding mechanism, the electrode tab bending mechanism and the waste product discharging mechanism, and the touch screen is used for man-machine interaction and is connected with the control system.

Description

Cylinder lithium ion power battery utmost point ear welding equipment

Technical Field

The utility model belongs to the technical field of the technique of lithium cell manufacture equipment and specifically relates to a cylinder lithium ion power battery utmost point ear welding equipment.

Background

The cylindrical battery is a kind of appearance and is the columniform battery, the component part of the cylindrical battery usually includes electric core, electrolyte, block, and metal or polymer shell, there are positive, negative pole piece in the electric core, still include positive pole utmost point ear and negative pole utmost point ear of drawing positive, negative pole piece in the electric core, the production process at the electric core generally includes the utmost point ear welding process of welding positive pole utmost point ear and negative pole utmost point ear respectively at the positive, negative pole piece both ends of electric core, still include the manufacturing process such as utmost point ear bending of bending into right angle etc. with positive pole utmost point ear.

The positive pole lug and the negative pole lug of the existing cylindrical battery are welded on the side surface of the cylindrical battery core, but the lug welding mode can increase the flow path of current between the battery core and the positive pole lug and the negative pole lug, so that the positive pole lug and the negative pole lug are respectively welded on the reduced current flow path of the top surface and the bottom surface of the cylindrical battery core, and currently, no special lug welding equipment for a new lug welding battery structure, especially equipment capable of carrying out full-automatic lug welding exists.

Disclosure of Invention

To the not enough of existence among the above-mentioned prior art, the utility model aims to provide a cylinder lithium ion power battery utmost point ear welding equipment.

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

a cylindrical lithium ion power battery tab welding device comprises a rack, a workbench arranged on the rack and a flowing water rotating mechanism arranged on the upper surface of the workbench, wherein a feeding and discharging mechanism for carrying a battery on the flowing water rotating mechanism to perform feeding and discharging, a positive electrode welding mechanism and a negative electrode welding mechanism for respectively welding positive and negative electrode tabs on the battery, an electric core overturning mechanism for overturning the battery 180 degrees to enable the positive electrode end of the battery without the welded electrode tabs to face upwards, an electrode tab bending mechanism for bending the positive electrode tabs, a waste discharging mechanism for discarding defective products, and a control system for controlling the orderly operation of the feeding and discharging mechanism, the negative electrode welding mechanism, the electric core overturning mechanism, the positive electrode welding mechanism, the electrode tab bending mechanism and the waste discharging mechanism are sequentially arranged on the edge of the flowing water rotating mechanism on the workbench and the rack, and the touch screen is used for man-machine interaction and is connected with the control system.

Further, go up unloading mechanism and be located waste product unloading mechanism one side, flowing water rotary mechanism is including the circular carousel that is used for bearing the battery, be used for control rotary motion's rotating electrical machines is done to circular carousel border all around be provided with a plurality of groups and be used for laying the base of placing of battery, a plurality of groups place the base and form into end to end's cyclic annular structure, every group place and all be provided with a plurality of battery standing groove on the base, rotating electrical machines set up in the workstation below and through gear and circular carousel linkage.

Further, the feeding and discharging mechanism comprises a base, a lifting plate arranged on the base through a guide pillar, a 180-degree rotary cylinder arranged on the lifting plate, and a rotating plate arranged on the 180-degree rotary cylinder, wherein two ends of the rotating plate are respectively provided with a battery clamping device which is symmetrical to each other, the battery clamping device comprises a plurality of first clamps which are arranged in a straight line shape and used for clamping batteries, and a variable-pitch cylinder used for controlling the first clamps to be close to each other, the battery clamping device at one end of the rotating plate is located above the circular turntable, and the battery clamping device at the other end of the rotating plate extends out of the workbench.

Further, the negative electrode welding mechanism comprises a mounting frame, a welding strip tray for storing and discharging welding strips, a rubber roll component used for moving the welding strip on the welding strip tray to the cutting position, a punching cutter component used for cutting the welding strip, a punching platform which is arranged right below the punching cutter component and used for bearing the punching cutter component, a welding positioning plate used for positioning the cut welding strip and a laser emitting head used for emitting laser to weld the positioned welding strip on the battery, the welding positioning plate is positioned right above the flowing water rotating mechanism and is provided with a plurality of welding holes in a straight line shape, the welding hole corresponds to the battery placing groove, the laser emitting head is positioned right above the welding hole, the punching table is located on one side of the welding positioning plate, and the welding strip tray, the rubber roll assembly, the punching cutter assembly, the punching table, the welding positioning plate and the laser emitting head are all fixed on the mounting frame.

Further, the battery core turnover mechanism comprises a first support, a second clamp, a motor, a pushing cylinder and a first lifting cylinder, wherein the second clamp is arranged at the bottom of the first support through a bearing in a rotating mode and used for clamping a battery, the motor is used for controlling the second clamp to rotate, the pushing cylinder is used for controlling the second clamp to open and close, and the first lifting cylinder is used for driving the first support to vertically lift and fix the first support on the rack.

Furthermore, the stamping knife assembly comprises a stamping knife for punching the welding strip and a cutting cylinder for controlling the stamping knife to move up and down, a cylinder shaft of the cutting cylinder is connected with the stamping knife, and the cutting cylinder is fixed on the mounting frame.

Further, the structure of the positive electrode welding mechanism is the same as that of the negative electrode welding mechanism.

Furthermore, the tail end of the stamping knife of the negative electrode welding mechanism is circular, and the tail end of the stamping knife of the positive electrode welding mechanism is prismatic.

Furthermore, utmost point ear mechanism of bending is including the top board that is used for suppressing the battery top, the board of bending down that is used for bending utmost point ear, the side shaping board that is used for clapping utmost point ear straight, be used for controlling the second lift cylinder that elevating movement was done to the top board, be used for controlling down the third lift cylinder that elevating movement was done to the board, be used for controlling the shaping board of side to be horizontal motion's first translation cylinder, it is provided with second support and third support average to lie in flowing water rotary mechanism side department on the workstation, the second lift cylinder is fixed on the second support, third lift cylinder and first translation cylinder are all fixed on the third support.

Furthermore, the waste product blanking mechanism comprises a material taking support and a storage bin, wherein the material taking support is arranged on the workbench, the storage bin is used for collecting waste products, a second translation cylinder is installed at the top end of the material taking support, a cylinder shaft of the second translation cylinder is connected with a fourth lifting cylinder, a plurality of third clamps used for clamping batteries are connected to the tail end of a cylinder shaft of the fourth lifting cylinder, and the third clamps are located right above the storage bin.

Adopt above-mentioned scheme, the beneficial effects of the utility model reside in that: the positive pole welding equipment and the negative pole welding equipment of this equipment are used for respectively welding positive pole utmost point ear and negative pole utmost point ear to the positive negative pole both ends of battery, realize full process automation through control system, regulate and control the operation through the touch-sensitive screen, and labour saving and time saving has satisfied the demand that is used for welding positive pole utmost point ear respectively the top surface of cylindrical battery and the new utmost point ear welding battery structure's in bottom surface full-automatic utmost point ear welding equipment.

Drawings

Fig. 1 is a perspective view of an embodiment of the present invention;

fig. 2 is a schematic top view of an apparatus mounted above a table according to an embodiment of the invention;

fig. 3 is a schematic structural diagram of a negative electrode welding mechanism according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of another angle of the negative electrode welding mechanism according to the embodiment of the present invention;

fig. 5 is a schematic view of a welding positioning plate according to an embodiment of the present invention;

fig. 6 is a schematic view of a flow-rotating mechanism housing batteries in accordance with an embodiment of the present invention;

fig. 7 is a schematic structural view of a loading and unloading mechanism according to an embodiment of the present invention;

fig. 8 is a side view of the loading and unloading mechanism according to the embodiment of the present invention;

fig. 9 is a schematic structural diagram of a cell turnover mechanism according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of a waste blanking mechanism according to an embodiment of the present invention;

fig. 11 is a schematic structural view of a tab bending mechanism according to an embodiment of the present invention;

fig. 12 is a schematic side view of the tab bending mechanism according to the embodiment of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in the attached drawings, the equipment for welding the polar ear of the cylindrical lithium ion power battery comprises a frame 1, a workbench 2 arranged on the frame 1, a flow rotating mechanism 3 arranged on the upper surface of the workbench 2, a feeding and discharging mechanism 4 for carrying the battery on the flow rotating mechanism 3 to perform feeding and discharging, a positive electrode welding mechanism 5 and a negative electrode welding mechanism 6 for respectively welding positive and negative polar ears on the battery, an electric core overturning mechanism 7 for overturning the battery 180 degrees to enable the positive electrode end of the battery without the polar ear to face upwards, a polar ear bending mechanism 8 for bending the positive polar ear, a waste product blanking mechanism 9 for abandoning defective products, a control feeding and discharging mechanism 4, a negative electrode welding mechanism 6, an electric core 7 overturning mechanism, a positive electrode welding mechanism 5, a negative electrode overturning mechanism 3, The control system is used for orderly operating the lug bending mechanism 8 and the waste product blanking mechanism 9, and the touch screen is used for man-machine interaction and is connected with the control system.

Further, go up unloading mechanism 4 and be located waste product unloading mechanism 9 one side, flowing water rotary mechanism 3 is including the circular carousel 12 that is used for bearing the battery, be used for control circular carousel 12 is rotary motion's rotating electrical machines circular carousel 12 border all around is provided with the base 14 of placing that a plurality of groups are used for laying the battery, a plurality of groups place base 14 and form the cyclic annular structure of end to end, every group place and all be provided with a plurality of battery standing groove 15 on the base 14, rotating electrical machines set up in 2 below of workstation and through gear and circular carousel 12 linkage.

Further, the loading and unloading mechanism 4 includes a base 16, a lifting plate 17 disposed on the base 16 through a guide post, a 180-degree rotating cylinder 18 mounted on the lifting plate 17, and a rotating plate 19 disposed on the 180-degree rotating cylinder 18, wherein two ends of the rotating plate 19 are respectively provided with a battery clamping device 20 that are symmetrical to each other, the battery clamping device 20 includes a plurality of first clamps 21 arranged in a straight line shape for clamping batteries and a variable pitch cylinder 22 for controlling the first clamps 21 to approach each other, the battery clamping device 20 at one end of the rotating plate 19 is located above the circular turntable 12, and the battery clamping device 20 at the other end extends out of the workbench 2.

Further, the negative electrode welding mechanism 6 includes a mounting frame 23, a welding strip tray 24 for storing and discharging welding strips, a glue roll assembly 25 for moving the welding strips on the welding strip tray 24 to a cutting position, a stamping knife assembly 26 for cutting the welding strips, a stamping table 27 disposed under the stamping knife assembly 26 and used for bearing the stamping knife assembly 26, a welding positioning plate 28 for positioning the cut welding strips, and a laser emitter 29 for emitting laser to weld the positioned welding strips on the battery, wherein the welding positioning plate 28 is disposed right above the flowing water rotating mechanism 3 and provided with a plurality of welding holes 30 in a linear shape, the welding holes 30 correspond to the battery placing groove 15, the laser emitter 29 is disposed right above the welding holes 30, the stamping table 27 is disposed on one side of the welding positioning plate 28, the welding strip tray 24, the glue roll assembly 25, and the like, The stamping knife assembly 26, the stamping platform 27, the welding positioning plate 28 and the laser emitting head 29 are all fixed on the mounting frame 23.

Further, the battery cell turning mechanism 7 includes a first support 31, a second clamp 33 installed at the bottom of the first support 31 through a bearing in a rotating manner and used for clamping a battery, a motor 34 used for controlling the second clamp 33 to rotate, a pushing cylinder used for controlling the second clamp 33 to open and close, and a first lifting cylinder 36 used for driving the first support 31 to vertically lift and fix on the rack 1.

Further, the die cutter assembly 26 comprises a die cutter 37 for die cutting the solder strip and a cutting cylinder 38 for controlling the die cutter 37 to move up and down, a cylinder shaft of the cutting cylinder 38 is connected with the die cutter 37, and the cutting cylinder 38 is fixed on the mounting frame 23.

Further, the positive electrode welding mechanism 5 and the negative electrode welding mechanism 6 have the same structure.

Further, the shape of the end of the punching knife 37 of the negative electrode welding mechanism 6 is circular, and the shape of the end of the punching knife 37 of the positive electrode welding mechanism 5 is prismatic. The shape of the end of the punching knife 37 of the negative electrode welding mechanism 6 is suitable for the welding strip 53 of which the cutting position is suitable for the negative electrode lug of the battery, and the shape of the end of the punching knife 37 of the positive electrode welding mechanism 5 is suitable for the welding strip 53 of which the cutting position is suitable for the positive electrode lug of the battery.

Further, the tab bending mechanism 8 includes an upper pressing plate 39 for pressing the top of the battery, a lower bending plate 40 for bending the tab, a side shaping plate 41 for straightening the bent tab, a second lifting cylinder 42 for controlling the upper pressing plate 39 to perform lifting motion, a third lifting cylinder 43 for controlling the lower bending plate 40 to perform lifting motion, and a first translation cylinder 44 for controlling the side shaping plate 41 to perform horizontal motion, a second support 48 and a third support 49 are arranged on the workbench 2 and at the side of the flowing water rotating mechanism 3, the second lifting cylinder 42 is fixed on the second support 48, and the third lifting cylinder 43 and the first translation cylinder 44 are both fixed on the third support 49. Firstly, the upper pressing plate 39 presses the top end of the battery 52 welded with the positive electrode tab welding strip 53, then the lower bending plate 40 rises from the lower part of the welding strip 53, the part of the welding strip 53 extending out of the battery 52 is bent upwards in a touching and bending mode, and finally, the side plastic plate 41 is close to the bent part above the bending welding strip 53 from the side surface and is bent to the other side, so that the welding strip 53 on the battery 52 is bent to be bent by 90 degrees.

Further, the waste blanking mechanism 9 includes a material taking support 45 arranged on the workbench 2 and a storage bin 46 for collecting waste, a second translation cylinder 47 is installed at the top end of the material taking support 45, a cylinder shaft of the second translation cylinder 47 is connected with a fourth lifting cylinder 50, a plurality of third clamps 51 for clamping batteries are connected to the tail ends of the cylinder shafts of the fourth lifting cylinder 50, and the third clamps 51 are located right above the storage bin 46. The waste blanking mechanism 9 is used for discarding the unqualified products in the previous process into the storage bin 46.

The above is only the preferred embodiment of the present invention, and not the scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings or the direct or indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a cylinder lithium ion power battery utmost point ear welding equipment which characterized in that: comprises a frame, a workbench arranged on the frame and a flowing water rotating mechanism arranged on the upper surface of the workbench, the workbench and the frame are sequentially provided with a feeding and discharging mechanism for carrying the batteries on the flowing water rotating mechanism for feeding and discharging along the edge of the flowing water rotating mechanism, a positive electrode welding mechanism and a negative electrode welding mechanism which are used for respectively welding the positive electrode lug and the negative electrode lug on the battery, the cell overturning mechanism is used for overturning the battery by 180 degrees so that the positive electrode end of the battery without the welded electrode lug faces upwards, a tab bending mechanism for bending the positive electrode tab, a waste product blanking mechanism for discarding defective products, the control system is used for controlling orderly operation of the feeding and discharging mechanism, the negative electrode welding mechanism, the battery cell turnover mechanism, the positive electrode welding mechanism, the lug bending mechanism and the waste product discharging mechanism, and the touch screen is used for man-machine interaction and is connected with the control system.

2. The equipment for welding the pole lug of the cylindrical lithium-ion power battery as claimed in claim 1, is characterized in that: go up unloading mechanism and be located waste product unloading mechanism one side, flowing water rotary mechanism is including the circular carousel that is used for bearing the battery, be used for control rotary motion's rotating electrical machines is done to circular carousel border all around be provided with a plurality of groups and be used for laying the base of placing of battery, a plurality of groups place the base and form the cyclic annular structure of end to end, every group place and all be provided with a plurality of battery standing groove on the base, rotating electrical machines set up in the workstation below and through gear and circular carousel linkage.

3. The cylindrical lithium ion power battery tab welding equipment as claimed in claim 2, characterized in that: the feeding and discharging mechanism comprises a base, a lifting plate arranged on the base through a guide pillar, a 180-degree rotary cylinder arranged on the lifting plate, and a rotating plate arranged on the 180-degree rotary cylinder, wherein two ends of the rotating plate are respectively provided with a battery clamping device which is symmetrical to each other, the battery clamping device comprises a plurality of first clamps which are arranged in a straight line shape and used for clamping batteries, and a variable-pitch cylinder used for controlling the first clamps to be close to each other, the battery clamping device at one end of the rotating plate is located above the circular turntable, and the battery clamping device at the other end of the rotating plate extends out of the workbench.

4. The cylindrical lithium ion power battery tab welding equipment as claimed in claim 3, wherein: the negative electrode welding mechanism comprises a mounting frame, a welding strip tray for storing and discharging welding strips, a rubber roll assembly for moving the welding strips on the welding strip tray to a cutting position, a stamping knife assembly for cutting the welding strips, a stamping table arranged right below the stamping knife assembly and used for bearing the stamping knife assembly, a welding positioning plate for positioning the cut welding strips and a laser emitter for emitting laser to weld the positioned welding strips on a battery, the welding positioning plate is positioned right above the flowing water rotating mechanism and is provided with a plurality of welding holes in a straight line shape, the welding hole corresponds to the battery placing groove, the laser emitting head is positioned right above the welding hole, the punching table is located on one side of the welding positioning plate, and the welding strip tray, the rubber roll assembly, the punching cutter assembly, the punching table, the welding positioning plate and the laser emitting head are all fixed on the mounting frame.

5. The equipment for welding the pole lug of the cylindrical lithium-ion power battery as claimed in claim 1, is characterized in that: the battery cell turnover mechanism comprises a first support, a second clamp, a motor, a pushing cylinder and a first lifting cylinder, wherein the second clamp is arranged at the bottom of the first support in a rotating mode through a bearing and used for clamping a battery, the motor is used for controlling the second clamp to rotate, the pushing cylinder is used for controlling the second clamp to open and close, and the first lifting cylinder is used for driving the first support to vertically lift and fix the first support on the rack.

6. The cylindrical lithium ion power battery tab welding equipment as claimed in claim 4, wherein: the stamping knife assembly comprises a stamping knife for punching the welding strip and a cutting cylinder for controlling the stamping knife to move up and down, a cylinder shaft of the cutting cylinder is connected with the stamping knife, and the cutting cylinder is fixed on the mounting frame.

7. The cylindrical lithium ion power battery tab welding equipment as claimed in claim 6, wherein: the positive electrode welding mechanism and the negative electrode welding mechanism are identical in structure.

8. The cylindrical lithium ion power battery tab welding device according to claim 7, characterized in that: the tail end of the punching knife of the negative electrode welding mechanism is circular, and the tail end of the punching knife of the positive electrode welding mechanism is prismatic.

9. The cylindrical lithium ion power battery tab welding equipment as claimed in claim 2, characterized in that: utmost point ear mechanism of bending is including the top board that is used for suppressing the battery top, the board of bending down that is used for bending utmost point ear, be used for clapping the side plastic plate that is straight, be used for control elevating movement's second lift cylinder, be used for control are bent down the board and are elevating movement's third lift cylinder, be used for controlling the moulding board of side and be horizontal motion's first translation cylinder, on the workstation and be located flowing water rotary mechanism side department is provided with second support and third support all, second lift cylinder fixes on the second support, third lift cylinder and first translation cylinder are all fixed on the third support.

10. The cylindrical lithium ion power battery tab welding equipment as claimed in claim 2, characterized in that: the waste product blanking mechanism comprises a material taking support and a containing bin, wherein the material taking support is arranged on a workbench, the containing bin is used for collecting waste products, a second translation cylinder is installed at the top end of the material taking support, a cylinder shaft of the second translation cylinder is connected with a fourth lifting cylinder, the tail end of a cylinder shaft of the fourth lifting cylinder is connected with a plurality of third clamps used for clamping batteries, and the third clamps are located right above the containing bin.

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