CN220144386U - Soft packet of battery detects utmost point ear shaper - Google Patents

Abstract

The utility model discloses a soft package battery detection tab shaping device which comprises a shaping mounting seat, a tab supporting mechanism arranged on one side of the shaping mounting seat, a first translation mechanism arranged on the top of the shaping mounting seat, a first lifting mechanism connected with the first translation mechanism, a first lifting seat connected with the first lifting mechanism, and a pressing shaping assembly arranged on one side of the first lifting seat; the pressing shaping assembly comprises a shaping seat and a shaping roller which is arranged on the shaping seat and is positioned above the lug supporting mechanism; the top of plastic mount pad still installs pushes down the mounting bracket, and pushes down still installs first stop gear that pushes down on the mounting bracket. Before the corresponding test work is started on the battery, the battery tab is flattened, so that the battery tab is free of wrinkles and warping, and further, the test probe for testing can be fully and uniformly contacted with the battery tab during the test, and the stability of connection and the accuracy of a test result are ensured during the test.

Description

Soft packet of battery detects utmost point ear shaper

Technical Field

The utility model relates to the technical field of battery detection, in particular to a shaping device for a detection tab of a soft package battery.

Background

The soft package battery after production is when doing IV test (volt-ampere characteristic curve measurement), OCV test (OCV is Open circuit voltage = open circuit voltage, refers to when the battery does not discharge open circuit, the potential difference between two poles) often adopts the contact connection of test probe and battery's utmost point ear, rethread outside corresponding measuring instrument carries out the test, because need make test probe and battery utmost point ear abundant contact, if battery utmost point ear surface is uneven, have fold, warp, then can lead to contact non-uniformity or contact failure, and then influence the precision of test process and test result, consequently, a device that can automatic with battery utmost point ear flattening, no warp has been designed, before the test begins in order to with battery utmost point ear flattening, guarantee that test probe and battery utmost point ear contact are even.

Disclosure of Invention

The utility model aims to provide a soft package battery detection tab shaping device, which can level battery tabs before corresponding test work starts by mutually matching tab supporting mechanisms, pressing shaping assemblies and the like, so that the battery tabs are free from wrinkles and warpage, and further, when in test, a test probe for test and the battery tabs can be fully and uniformly contacted, and the stability of connection and the accuracy of test results are ensured in the test process.

In order to achieve the above purpose, the following technical scheme is adopted:

the utility model provides a flexible package battery detects utmost point ear shaping device, includes plastic mount pad, installs the utmost point ear support mechanism in plastic mount pad one side, installs in the first translation mechanism of plastic mount pad top, the first elevating system who is connected with first translation mechanism, the first lift pad of being connected with first elevating system to and install the shaping subassembly that pushes down in one side of first lift pad; the pressing shaping assembly comprises a shaping seat and a shaping roller which is arranged on the shaping seat and is positioned above the lug supporting mechanism; the top of the shaping installation seat is also provided with a pressing installation frame, and the pressing installation frame is also provided with a first pressing limiting mechanism; the first downward-pressing limiting mechanism is at least used for pressing and limiting the body of the battery, and the tab supporting mechanism is at least used for supporting the tab of the battery; the first lifting mechanism is at least used for driving the pressing shaping assembly to descend so that the shaping roller is pressed onto the lug of the battery, and the first translation mechanism is at least used for driving the pressing shaping assembly to translate so as to level the lug of the battery to be measured through the shaping roller.

Further, the first translation mechanism comprises a first sliding rail module, a first screw rod module, a first synchronous belt assembly, a first rotating motor and a first translation seat; the first sliding rail module and the first screw rod module are arranged at the top of the shaping installation seat in parallel at intervals, and the first translation seat is arranged on the first sliding rail module and connected with the first screw rod module; the first rotating motor is arranged on the shaping installation seat and used for driving the first screw rod module to operate through the first synchronous belt assembly.

Further, the first lifting mechanism comprises a second screw rod module, a second sliding rail module, a second rotating motor, a first fixing seat and a lifting connecting rod; the second sliding rail module is arranged on one side of the first translation seat along the vertical direction, and a first sliding hole is further formed in the side of the first translation seat along the vertical direction; the first fixing seat is arranged on the other side of the first translation seat, and the second screw rod module is arranged in the first fixing seat along the vertical direction; the first lifting seat is arranged on the second sliding rail module, one end of the lifting connecting rod is connected with the second screw rod module, and the other end of the lifting connecting rod penetrates out of the first sliding hole and is connected with the first lifting seat; the second rotating motor is used for driving the second screw rod module to operate so as to drive the first lifting seat to lift through the lifting connecting rod.

Further, a third sliding rail module is further arranged on one side of the first lifting seat along the vertical direction, and the top of the first lifting seat is further connected with a first limiting seat; the shaping seat is arranged on the third sliding rail module, and the top of the shaping seat is also provided with a first jack; a connecting column is further arranged on the first limiting seat, and one end of the connecting column is movably inserted into the first jack; the outer wall of the connecting column is also sleeved with a buffer spring, and two ends of the buffer spring are respectively connected with the bottom of the first limiting seat and the top of the shaping seat.

Further, the bottom of plastic seat has still seted up U type notch, and the plastic roller is connected between the two vertical end inner walls of U type notch.

Further, the tab supporting mechanism comprises a first fixed plate connected with one side of the shaping installation seat, a fourth sliding rail module arranged on one side of the first fixed plate along the vertical direction, a second lifting seat arranged on the fourth sliding rail module, and a first lifting assembly for driving the second lifting seat to lift; and a supporting seat for supporting the battery lug is also arranged on the second lifting seat.

Further, the first pressing limiting mechanism comprises a pressing cylinder arranged on the pressing mounting frame and a pressing seat connected with an output shaft of the pressing cylinder.

Further, a plurality of linear bearings are further arranged on the pressing installation frame, and a lifting guide rod is further inserted into each linear bearing; one end of each lifting guide rod is connected with the top of the pressing seat.

Further, a cushion pad is arranged at the bottom of the pressing seat.

Further, the number of the push down shaping assemblies is set to two.

By adopting the scheme, the utility model has the beneficial effects that:

the device is through the mutual cooperation of mechanisms such as utmost point ear hold-up mechanism, push shaping subassembly down, can be before carrying out corresponding test work to the battery and begin, earlier with battery utmost point ear flattening, make it not have fold, warpage, and then guarantee when the test, make test probe and battery utmost point ear that the test was used can fully even contact, guarantee the test in-process, stability and the precision of test result that its is connected.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is an enlarged schematic view of a portion of FIG. 1;

wherein, the attached drawings mark and illustrate:

1, shaping a mounting seat; 2-a lug supporting mechanism;

3-a first translation mechanism; 4-a first lifting mechanism;

5-a first lifting seat; 6-pressing the shaping assembly;

7-pressing down the mounting frame; 8-a first downward-pressing limiting mechanism;

21-a first fixing plate; 22-a second lifting seat;

23-a first jacking assembly; 24-a supporting seat;

31-a first slide rail module; 32-a first timing belt assembly;

33-a first rotating electric machine; 34-a first translation seat;

41-a second slide rail module; 42-a second rotating electrical machine;

43-a first holder; 51-a third slide rail module;

52-a first limit seat; 53-connecting columns;

61-shaping seat; 62-shaping rollers;

81-a pressing cylinder; 82-pressing down the seat;

83-lifting guide bar; 84-cushion pad.

Detailed Description

The utility model will be described in detail below with reference to the drawings and the specific embodiments.

Referring to fig. 1 to 2, the utility model provides a shaping device for detecting tabs of a soft-pack battery, comprising a shaping mounting seat 1, a tab supporting mechanism 2 arranged on one side of the shaping mounting seat 1, a first translation mechanism 3 arranged on the top of the shaping mounting seat 1, a first lifting mechanism 4 connected with the first translation mechanism 3, a first lifting seat 5 connected with the first lifting mechanism 4, and a pressing shaping assembly 6 arranged on one side of the first lifting seat 5; the pressing shaping assembly 6 comprises a shaping seat 61 and a shaping roller 62 which is arranged on the shaping seat 61 and is positioned above the tab holding mechanism 2; the top of the shaping installation seat 1 is also provided with a pressing installation frame 7, and the pressing installation frame 7 is also provided with a first pressing limiting mechanism 8; the first pressing limiting mechanism 8 is at least used for pressing and limiting the body of the battery, and the tab supporting mechanism 2 is at least used for supporting the tab of the battery; the first lifting mechanism 4 is at least used for driving the pressing shaping assembly 6 to descend so that the shaping roller 62 is pressed onto the tab of the battery, and the first translation mechanism 3 is at least used for driving the pressing shaping assembly 6 to translate so that the tab of the battery to be measured is leveled through the shaping roller 62.

With continued reference to fig. 1 to 2, in an embodiment, the number of the pressing shaping assemblies 6 is two, the two pressing shaping assemblies 6 are mounted on the first lifting seat 5 side by side, so that the tabs of two batteries can be leveled at the same time, and the working efficiency is improved, and when in operation, the carrier with the batteries loaded outside moves to the position below the first pressing limiting mechanism 8, and the first pressing limiting mechanism 8 descends to limit the compression of the battery body on the carrier; subsequently, the tab supporting mechanism 2 is lifted to support the tab of the battery (support the tab), then, the first lifting mechanism 4 drives the pressing shaping assembly 6 to descend so as to enable the shaping roller 62 of the pressing shaping assembly 6 to be pressed onto the tab of the battery, then, the first translation mechanism 3 drives the pressing shaping assembly 6 to translate rightwards so as to flatten the tab of the battery through the shaping roller 62, so that the tab of the battery is free from wrinkles and warping, and further, the test probe for testing can be fully and uniformly contacted with the tab of the battery during testing, and the stability of connection and the accuracy of a test result are ensured during testing.

In one embodiment, the first translation mechanism 3 includes a first slide rail module 31, a first screw rod module, a first synchronous belt assembly 32, a first rotating motor 33, and a first translation seat 34; the first sliding rail module 31 and the first screw rod module are arranged at the top of the shaping installation seat 1 at intervals in parallel, and the first translation seat 34 is arranged on the first sliding rail module 31 and connected with the first screw rod module; the first rotating motor 33 is installed on the shaping installation seat 1, and the first rotating motor 33 is used for driving the first screw rod module to operate through the first synchronous belt assembly 32. In this embodiment, the first synchronous belt assembly 32 includes two synchronous wheels and a synchronous belt, the two synchronous wheels are respectively mounted on the output shaft of the first rotating motor 33 and the first screw rod module, the synchronous belt is wound between the two synchronous wheels, the first screw rod module can be driven to operate through the synchronous wheels and the synchronous belt under the driving of the first rotating motor 33, and the first translation seat 34 is connected with the nut of the first screw rod module, so as to drive the first translation seat 34 to do translational motion.

In one embodiment, the first lifting mechanism 4 includes a second screw rod module, a second slide rail module 41, a second rotating motor 42, a first fixing seat 43, and a lifting connecting rod; the second sliding rail module 41 is arranged on one side of the first translation seat 34 along the vertical direction, and the side of the first translation seat 34 is also provided with a first sliding hole along the vertical direction; the first fixing seat 43 is installed on the other side of the first translation seat 34, and the second screw rod module is installed in the first fixing seat 43 along the vertical direction; the first lifting seat 5 is arranged on the second sliding rail module 41, one end of the lifting connecting rod is connected with the second screw rod module, and the other end of the lifting connecting rod penetrates out of the first sliding hole and is connected with the first lifting seat 5; the second rotating motor 42 is used for driving the second screw rod module to operate so as to drive the first lifting seat 5 to lift through the lifting connecting rod. In this embodiment, one end of the lifting connecting rod is connected with the nut of the second screw rod module, the other end of the lifting connecting rod penetrates out from the first sliding hole to be connected with the first lifting seat 5, and under the driving of the second rotating motor 42, the lifting connecting rod can be driven by the second screw rod module to lift along the first sliding hole, so as to drive the first lifting seat 5 to lift along the second sliding rail module 41.

In an embodiment, a third sliding rail module 51 is further disposed on one side of the first lifting seat 5 along the vertical direction, and a first limiting seat 52 is further connected to the top of the first lifting seat 5; the shaping seat 61 is arranged on the third sliding rail module 51, and a first jack is further formed in the top of the shaping seat 61; a connecting column 53 is further installed on the first limiting seat 52, and one end of the connecting column 53 is movably inserted into the first jack; the outer wall of the connecting column 53 is further sleeved with a buffer spring, and two ends of the buffer spring are respectively connected with the bottom of the first limiting seat 52 and the top of the shaping seat 61. In this embodiment, the bottom of the shaping seat 61 is further provided with a U-shaped slot, the shaping roller 62 is connected between two U-shaped vertical end inner walls of the U-shaped slot (two U-shaped vertical end inner walls of the U-shaped slot can be respectively provided with a bearing, and the shaping roller 62 is provided with a buffer spring, so that when the shaping roller is driven to press down onto the battery tab, the pressing force can be buffered to avoid crushing the product.

In one embodiment, the tab holding mechanism 2 includes a first fixing plate 21 connected to one side of the shaping mounting base 1, a fourth sliding rail module arranged on one side of the first fixing plate 21 along a vertical direction, a second lifting base 22 arranged on the fourth sliding rail module, and a first lifting assembly 23 for driving the second lifting base 22 to lift; the second lifting seat 22 is also provided with a supporting seat 24 for supporting the battery tab. In this embodiment, the first lifting assembly 23 may be a motor screw, or other mechanism such as an air cylinder that can drive the second lifting seat 22 to lift, which is not limited herein.

In one embodiment, the first pressing limiting mechanism 8 includes a pressing cylinder 81 mounted on the pressing mounting frame 7, and a pressing seat 82 connected to an output shaft of the pressing cylinder 81; a plurality of linear bearings are further mounted on the pressing mounting frame 7, and a lifting guide rod 83 is further inserted into each linear bearing; one end of each lifting guide rod 83 is connected to the top of the pressing seat 82. In this embodiment, a lifting guide rod 83 is provided to ensure the lifting stability of the pressing seat 82, and meanwhile, a buffer pad 84 (which may be a rubber pad) is further provided at the bottom of the pressing seat 82 to avoid crushing the battery.

The foregoing description of the preferred embodiment of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. The lug shaping device for detecting the soft package battery is characterized by comprising a shaping installation seat, a lug supporting mechanism arranged on one side of the shaping installation seat, a first translation mechanism arranged on the top of the shaping installation seat, a first lifting mechanism connected with the first translation mechanism, a first lifting seat connected with the first lifting mechanism, and a pressing shaping assembly arranged on one side of the first lifting seat; the pressing shaping assembly comprises a shaping seat and a shaping roller which is arranged on the shaping seat and is positioned above the lug supporting mechanism; the top of the shaping installation seat is also provided with a pressing installation frame, and the pressing installation frame is also provided with a first pressing limiting mechanism; the first downward-pressing limiting mechanism is at least used for pressing and limiting the body of the battery, and the tab supporting mechanism is at least used for supporting the tab of the battery; the first lifting mechanism is at least used for driving the pressing shaping assembly to descend so that the shaping roller is pressed onto the lug of the battery, and the first translation mechanism is at least used for driving the pressing shaping assembly to translate so as to level the lug of the battery to be measured through the shaping roller.

2. The flexible battery detection tab shaping device of claim 1, wherein the first translation mechanism comprises a first slide rail module, a first lead screw module, a first synchronous belt assembly, a first rotating motor, and a first translation seat; the first sliding rail module and the first screw rod module are arranged at the top of the shaping installation seat in parallel at intervals, and the first translation seat is arranged on the first sliding rail module and connected with the first screw rod module; the first rotating motor is arranged on the shaping installation seat and used for driving the first screw rod module to operate through the first synchronous belt assembly.

3. The flexible battery detection tab shaping device of claim 2, wherein the first lifting mechanism comprises a second screw rod module, a second slide rail module, a second rotating motor, a first fixing seat and a lifting connecting rod; the second sliding rail module is arranged on one side of the first translation seat along the vertical direction, and a first sliding hole is further formed in the side of the first translation seat along the vertical direction; the first fixing seat is arranged on the other side of the first translation seat, and the second screw rod module is arranged in the first fixing seat along the vertical direction; the first lifting seat is arranged on the second sliding rail module, one end of the lifting connecting rod is connected with the second screw rod module, and the other end of the lifting connecting rod penetrates out of the first sliding hole and is connected with the first lifting seat; the second rotating motor is used for driving the second screw rod module to operate so as to drive the first lifting seat to lift through the lifting connecting rod.

4. The flexible battery detection tab shaping device of claim 3, wherein a third sliding rail module is further arranged on one side of the first lifting seat along the vertical direction, and a first limiting seat is further connected to the top of the first lifting seat; the shaping seat is arranged on the third sliding rail module, and the top of the shaping seat is also provided with a first jack; a connecting column is further arranged on the first limiting seat, and one end of the connecting column is movably inserted into the first jack; the outer wall of the connecting column is also sleeved with a buffer spring, and two ends of the buffer spring are respectively connected with the bottom of the first limiting seat and the top of the shaping seat.

5. The shaping device for the detection tab of the soft battery according to claim 4, wherein the bottom of the shaping seat is further provided with a U-shaped notch, and the shaping roller is connected between inner walls of two U-shaped vertical ends of the U-shaped notch.

6. The flexible battery detection tab shaping device according to claim 1, wherein the tab lifting mechanism comprises a first fixing plate connected to one side of the shaping mounting seat, a fourth slide rail module arranged on one side of the first fixing plate in a vertical direction, a second lifting seat arranged on the fourth slide rail module, and a first lifting assembly for driving the second lifting seat to lift; and a supporting seat for supporting the battery lug is also arranged on the second lifting seat.

7. The flexible battery test tab shaping device of claim 1 wherein the first hold-down limiting mechanism comprises a hold-down cylinder mounted on the hold-down mounting bracket and a hold-down seat coupled to an output shaft of the hold-down cylinder.

8. The shaping device for the detection tab of the soft package battery according to claim 7, wherein a plurality of linear bearings are further installed on the pressing installation frame, and a lifting guide rod is further inserted into each linear bearing; one end of each lifting guide rod is connected with the top of the pressing seat.

9. The device for shaping the detection tab of a soft pack battery according to claim 7, wherein a cushion pad is further provided at the bottom of the pressing base.

10. The pouch battery sense tab shaping device of claim 1, wherein the number of push-down shaping members is two.