CN219161564U - Lithium battery tightness detection device - Google Patents

Abstract

The utility model provides a lithium battery tightness detection device, which comprises: the device comprises a container, a clamp assembly and a high-pressure gas assembly, wherein the container is used for placing detection liquid; the fixture assembly is arranged above the container and is used for fixing the lithium battery, the top end of the lithium battery is provided with an opening, and the fixture assembly can move up and down along the height direction of the container so as to enable the bottom of the lithium battery to be in contact with the detection liquid in the container; the high-pressure gas component is communicated with the opening in a sealing way and is used for inputting high-pressure gas into the lithium battery when the bottom of the lithium battery is contacted with the detection liquid in the container; the device simple structure, convenient operation, detection efficiency is high, and then improves production efficiency, reduces the product risk.

Description

Lithium battery tightness detection device

Technical Field

The utility model relates to the technical field of detection equipment, in particular to a lithium battery tightness detection device.

Background

After the winding core of the lithium battery is placed in the shell, the cover plates at two ends of the shell are tightly pressed with the shell, the cover plates are welded with the shell through welding, but welding penetration and welding leakage often occur, potential safety hazards are caused for charging and discharging of the subsequent battery, and the sealing failure of the battery can lead to battery corrosion, short circuit, fire and even explosion risks.

The tightness detection after the lithium battery is sealed is an extremely important process during the production and the manufacture of the lithium battery, and the conventional lithium battery tightness detection device is easy to misjudge, has low detection efficiency and affects the production efficiency.

Disclosure of Invention

The utility model provides a lithium battery tightness detection device, which is used for solving the problems that in the prior art, the lithium battery tightness detection device is easy to misjudge, has low detection efficiency and affects production efficiency.

The utility model provides a lithium battery tightness detection device, which comprises: a container for holding a detection liquid; the clamp assembly is arranged above the container and used for fixing a lithium battery, an opening is formed in the top end of the lithium battery, and the clamp assembly can move up and down along the height direction of the container so as to enable the bottom of the lithium battery to be in contact with detection liquid in the container; the high-pressure gas assembly is communicated with the opening in a sealing way, and is used for inputting high-pressure gas into the lithium battery when the bottom of the lithium battery is contacted with the detection liquid in the container.

According to the lithium battery tightness detection device provided by the utility model, the fixture assembly comprises the mounting bracket, the top of the mounting bracket is provided with the through hole, the lithium battery is arranged on the mounting bracket, the opening and the through hole are coaxially arranged, the high-pressure gas assembly comprises the gas inlet rod and the gas source, the inlet of the gas inlet rod is communicated with the gas source, and the outlet of the gas inlet rod is communicated with the opening through the through hole.

According to the lithium battery tightness detection device provided by the utility model, the high-pressure gas assembly further comprises a sealing piece, and the sealing piece is arranged between the outlet of the air inlet rod and the opening.

According to the lithium battery tightness detection device provided by the utility model, the clamp assembly further comprises a limiting piece, wherein the limiting piece is embedded in the through hole and is used for limiting the position of the air inlet rod.

According to the lithium battery tightness detection device provided by the utility model, the lithium battery tightness detection device further comprises the first driving assembly, wherein the first driving assembly is connected with the air inlet rod and is used for driving the air inlet rod to move towards the direction of the lithium battery so as to enable the outlet of the air inlet rod to press the opening to realize sealing communication.

According to the lithium battery tightness detection device provided by the utility model, the lithium battery tightness detection device further comprises a second driving assembly and a connecting piece, wherein the second driving assembly is connected with the mounting bracket through the connecting piece, and the second driving assembly is used for driving the mounting bracket to move up and down along the height direction of the container.

According to the lithium battery tightness detection device provided by the utility model, the lithium battery tightness detection device further comprises a pressure monitoring component, and the pressure monitoring component is communicated with the air inlet rod.

According to the lithium battery tightness detection device provided by the utility model, the lithium battery tightness detection device further comprises a control component, and the high-pressure gas component, the first driving component, the second driving component and the pressure monitoring component are respectively connected with the control component.

According to the lithium battery tightness detection device provided by the utility model, the lithium battery tightness detection device further comprises the fixing support, the fixing support is arranged close to the container, the mounting support is connected to the fixing support, and the mounting support can move along the height direction of the fixing support.

According to the lithium battery tightness detection device provided by the utility model, the lithium battery tightness detection device further comprises an illumination assembly, and the illumination assembly is arranged close to the container.

According to the lithium battery tightness detection device provided by the utility model, the lithium battery with the opening is fixed on the clamp assembly, the high-pressure gas assembly is communicated with the opening of the lithium battery in a sealing way, the clamp assembly is controlled to move up and down in the height direction of the container, when the bottom of the lithium battery is placed in the container to be contacted with detection liquid, the high-pressure gas assembly is controlled to input high-pressure gas towards the interior of the lithium battery through the opening of the lithium battery, and the tightness of the lithium battery is judged by observing the change of the detection liquid in the container; the device simple structure, convenient operation, detection efficiency is high, and then improves production efficiency, reduces the product risk.

Drawings

In order to more clearly illustrate the utility model or the technical solutions of the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the utility model, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a lithium battery tightness detection device provided by the utility model;

fig. 2 is a schematic diagram of a partial structure of a lithium battery tightness detection device provided by the utility model;

reference numerals:

1: a lithium battery; 2: an opening; 3: a container; 4: a mounting bracket; 5: a limiting piece; 6: an air inlet rod; 7: an inlet of the air inlet rod; 8: a seal; 9: a first drive assembly; 10: a second drive assembly; 11: a connecting piece; 12: a fixed bracket; 13: a control assembly; 14: a switch; 15: a cover body; 16: a working table.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The lithium battery tightness detection device provided by the utility model is described below with reference to fig. 1 to 2.

The utility model provides a lithium battery tightness detection device, which comprises: a container 3, a clamp assembly and a high-pressure gas assembly, wherein the container 3 is used for placing detection liquid; the fixture assembly is arranged above the container 3 and is used for fixing the lithium battery 1, the top end of the lithium battery 1 is provided with an opening 2, and the fixture assembly can move up and down along the height direction of the container 3 so as to enable the bottom of the lithium battery 1 to be in contact with detection liquid in the container 3; the high-pressure gas component is communicated with the opening 2 in a sealing way and is used for inputting high-pressure gas into the lithium battery 1 when the bottom of the lithium battery 1 is contacted with the detection liquid in the container 3.

Referring to fig. 1, a fixture assembly is disposed above a container 3, a lithium battery 1 is fixed on the fixture assembly, and the fixture assembly can drive the lithium battery 1 to move up and down, i.e. the fixture assembly drives the lithium battery 1 to move down so that the lithium battery 1 is placed in the container 3 to be in contact with a detection liquid in the container 3, or is upwards far away from the detection liquid in the container 3.

The lithium battery 1 can be 46mm in outer diameter and 150mm in length, cover plates are arranged at two ends of the lithium battery shell through laser welding, an opening 2 is formed in the center of the top end face of the lithium battery 1, a high-pressure gas component is communicated with the opening 2 of the lithium battery 1 in a sealing mode, high-pressure gas can be input into the lithium battery 1 through the opening 2 of the lithium battery 1, the high-pressure gas is inert gas, and the water content is low, such as nitrogen.

In the actual tightness detection process, the lithium battery 1 is fixed on a clamp assembly, a high-pressure gas assembly is communicated with an opening 2 of the lithium battery 1 in a sealing way, the clamp assembly is controlled to drive the lithium battery 1 to move towards a direction close to a container 3, so that the bottom of the lithium battery 1 is placed in the container 3 to be contacted with detection liquid in the container 3, the high-pressure gas assembly is controlled to input high-pressure gas into the lithium battery 1 through the opening 2 of the lithium battery 1, and the change of the detection liquid is observed; if bubbles are generated in the container 3, the tightness of the lithium battery 1 is poor, and the positions of the cap and the lithium battery 1 shell, which are possibly welded through or leaked, are unqualified products; if no bubble is generated in the container 3, the lithium battery 1 has good sealing property, and ensures the safety of the lithium battery 1 as a qualified product.

According to the lithium battery tightness detection device provided by the utility model, the lithium battery with the opening is fixed on the clamp assembly, the high-pressure gas assembly is communicated with the opening of the lithium battery in a sealing way, the clamp assembly is controlled to move up and down in the height direction of the container, when the bottom of the lithium battery is placed in the container to be contacted with detection liquid, the high-pressure gas assembly is controlled to input high-pressure gas towards the interior of the lithium battery through the opening of the lithium battery, and the tightness of the lithium battery is judged by observing the change of the detection liquid in the container; the device simple structure, convenient operation, detection efficiency is high, and then improves production efficiency, reduces the product risk.

The container 3 provided by the utility model is used for containing the detection liquid, the detection liquid is used for detecting the tightness of the lithium battery 1, in one embodiment, the container 3 is a transparent beaker, an operator can observe the change of the detection liquid in the container 3 conveniently, a proper amount of DMC solution is contained in the transparent beaker, the DMC solution is also called dimethyl carbonate, and the DMC solution is a chemical raw material with low toxicity, excellent environmental protection performance and wide application range, is a bonding agent for preparing electrolyte, and can detect leakage when the lithium battery 1 is welded by using the DMC solvent, and as the DMC is also contained in the lithium battery 1, even if the lithium battery 1 leaks, the DMC enters the lithium battery 1, the performance of the lithium battery 1 is not affected.

On the basis of the above embodiment, further, the fixture assembly includes a mounting bracket 4, a through hole is provided at the top of the mounting bracket 4, the lithium battery 1 is disposed on the mounting bracket 4, and the opening 2 is coaxially disposed with the through hole, the high-pressure gas assembly includes a gas inlet rod 6 and a gas source, an inlet 7 of the gas inlet rod is communicated with the gas source, and an outlet of the gas inlet rod 6 is communicated with the opening 2 through the through hole.

Referring to fig. 2, the jig assembly includes a mounting bracket 4, the mounting bracket 4 for restricting the position of the lithium battery 1 with the opening 2 of the lithium battery 1 upward; further, a through hole is formed in the top of the mounting bracket 4, and the opening 2 of the lithium battery 1 is coaxially arranged with the through hole, that is, the central axis of the lithium battery 1 is collinear with the central axis of the through hole.

The high-pressure gas assembly comprises an air inlet rod 6, wherein the air inlet rod 6 is embedded in a through hole at the top of the mounting bracket 4 and is communicated with the opening 2 of the lithium battery 1 in a sealing way through the through hole; specifically, the air intake lever 6 has an inlet and an outlet, wherein the inlet 7 of the air intake lever communicates with the air source, and the outlet of the air intake lever 6 communicates with the opening 2 of the lithium battery 1 in a sealed manner, and when the lithium battery 1 moves along with the mounting bracket 4 toward the container 3 to come into contact with the detection liquid, the air source inputs high-pressure air toward the inside of the lithium battery 1 through the opening 2 of the lithium battery 1.

Further to the above embodiment, the high pressure gas assembly further comprises a seal 8, the seal 8 being arranged between the outlet of the gas inlet rod 6 and the opening 2.

In one embodiment, the seal 8 is disposed at the outlet of the gas inlet stem 6 to place the gas inlet stem 6 in sealing communication with the opening 2 of the lithium battery 1, avoiding leakage of high pressure gas when the high pressure gas is input into the interior of the lithium battery 1.

The structure and position of the sealing member 8 are not particularly limited in this embodiment, and the outlet of the air intake rod 6 may be in sealed communication with the opening 2 of the lithium battery 1, and in another embodiment, the sealing member 8 is disposed at the opening 2 of the lithium battery 1.

The seal 8 in the present utility model may be a seal ring.

On the basis of the embodiment, further, the fixture assembly further comprises a limiting piece 5, the limiting piece 5 is embedded in the through hole, and the limiting piece 5 is used for limiting the position of the air inlet rod 6.

According to the embodiment, the limiting piece 5 is arranged in the through hole and used for limiting the position of the air inlet rod 6, so that the air inlet rod 6 is prevented from moving up and down in the process of moving up and down, the air inlet rod 6 is prevented from being offset, the air inlet rod 6 is influenced to be communicated with the opening 2 of the lithium battery 1 in a sealing mode, and the detection efficiency is improved.

In one embodiment, the limiting member 5 is a linear bearing, the linear bearing is embedded in the through hole, and the linear bearing limits the position of the air inlet rod 6, so that the axis of the air inlet rod 6 always coincides with the axis of the opening 2 of the lithium battery 1, and sealing communication is realized.

In this embodiment, the structure of the limiting member 5 is not specifically limited, and the position of the air intake rod 6 can be limited, so that the air intake rod 6 is prevented from being deviated in the process of moving up and down, and the air intake rod 6 is ensured to be coaxially communicated with the outlet of the lithium battery 1.

Further, on the basis of the above embodiment, the lithium battery tightness detection device further includes a first driving assembly 9, where the first driving assembly 9 is connected to the air intake rod 6 and is used to drive the air intake rod 6 to move toward the direction of the lithium battery 1, so that the outlet compression opening 2 of the air intake rod 6 is in sealed communication.

Referring to fig. 2, the first driving component 9 is arranged at the top of the air inlet rod 6, the first driving component 9 is started, the first driving component 9 drives the air inlet rod 6 to move up and down, namely, the first driving component 9 drives the air inlet rod 6 to move towards the opening 2 of the lithium battery 1, so that the outlet of the air inlet rod 6 is pressed against the opening 2 of the lithium battery 1, and the sealing element 8 is pressed between the air inlet rod 6 and the outlet of the lithium battery 1 to realize sealing communication; after the detection is finished, the first driving assembly 9 is controlled to drive the air inlet rod 6 to be away from the opening 2 of the lithium battery 1, so that a user can conveniently take down the lithium battery 1.

In one embodiment, the first driving assembly 9 is a short-stroke cylinder to drive the outlet of the air inlet rod 6 to press the opening 2 of the lithium battery 1, so as to realize sealing communication.

Further, on the basis of the above embodiment, the lithium battery tightness detection device further comprises a second driving assembly 10 and a connecting piece 11, wherein the second driving assembly 10 is connected with the mounting bracket 4 through the connecting piece 11, and the second driving assembly 10 is used for driving the mounting bracket 4 to move up and down along the height direction of the container 3.

The second driving assembly 10 is connected with the mounting bracket 4 through the connecting piece 11, and drives the second driving assembly 10 to drive the mounting bracket 4, the lithium battery 1 and the air inlet rod 6 to move towards the direction of the container 3, so that the bottom of the lithium battery 1 on the mounting bracket 4 is contacted with detection liquid, a control air source inputs high-pressure air towards the interior of the lithium battery 1, the change of the detection liquid is observed, and the tightness of the lithium battery 1 is detected. After the detection, the second driving assembly 10 controls the mounting bracket 4, the lithium battery 1 and the air inlet rod 6 to move towards the direction away from the container 3.

In one embodiment, the second driving component 10 is a long-stroke cylinder, the connecting piece 11 is a floating joint, and the second driving component 10 is stably connected with the mounting bracket 4 by arranging the floating joint, so that the second driving component 10 is prevented from being separated from the mounting bracket 4 in the driving process.

According to the utility model, the first driving assembly 9 and the second driving assembly 10 are arranged, so that the working intensity of personnel is reduced, and the working efficiency is improved.

Further, on the basis of the above embodiment, the lithium battery tightness detection device further includes a pressure monitoring assembly, and the pressure monitoring assembly is communicated with the air inlet rod 6.

The air inlet rod 6 is provided with a pressure port, and the pressure monitoring assembly is arranged at the pressure port and used for detecting the pressure of the air source for inputting high-pressure air into the lithium battery 1 so as to meet the target pressure requirement and avoid overlarge or overlarge pressure. The pressure monitoring assembly in this embodiment may be a pressure monitoring gauge.

In one embodiment, positive pressure nitrogen is required to be fed into the lithium battery 1, the pressure is about 0.06-0.09Mpa, and whether the pressure meets the requirement can be monitored by the pressure monitoring component.

In this implementation, the electromagnetic valve is connected with the pressure monitoring component, and is arranged at the inlet of the air inlet rod 6, and when the pressure meets the requirement, the electromagnetic valve is controlled to block the air source.

Further, on the basis of the above embodiment, the lithium battery tightness detection device further includes a control component 13, and the high-pressure gas component, the first driving component 9, the second driving component 10 and the pressure monitoring component are respectively connected with the control component 13.

Specifically, the first driving component 9 is connected with the control component 13, the lithium battery 1 is fixed on the mounting bracket 4, the control component 13 controls the first driving component 9 to start, the first driving component 9 drives the air inlet rod 6 to move towards the opening 2 of the lithium battery 1, and the outlet of the air inlet rod 6 is pressed at the opening 2, so that the outlet of the air inlet rod 6 is communicated with the opening 2 of the lithium battery 1 in a sealing way.

The second driving assembly 10 is connected with the control assembly 13, and after the outlet of the air inlet rod 6 is communicated with the opening 2 of the lithium battery 1 in a sealing way, the control assembly 13 controls the second driving assembly 10 to start, and the second driving assembly 10 drives the mounting bracket 4, the lithium battery 1 and the air inlet rod 6 to move towards the container 3 so that the bottom of the lithium battery 1 is contacted with detection liquid in the container 3.

The high-pressure gas component and the pressure monitoring component are respectively connected with the control component 13, the control component 13 controls the high-pressure gas component and the pressure monitoring component to start, when the bottom of the lithium battery 1 is contacted with the detection liquid in the container 3, the high-pressure gas component is controlled to input high-pressure gas towards the interior of the lithium battery 1, the pressure monitoring component is used for detecting the pressure of the high-pressure gas input into the lithium battery 1, observing the change of the detection liquid in the container 3 and judging the tightness of the lithium battery 1.

After the tightness detection is finished, the control assembly 13 controls the high-pressure gas assembly and the pressure monitoring assembly to be closed, the control assembly 13 controls the second driving assembly 10 to be started, and the second driving assembly 10 drives the mounting bracket 4, the lithium battery 1 and the air inlet rod 6 to move upwards away from the container 3; the control assembly 13 controls the first driving assembly 9 to start, the first driving assembly 9 drives the air inlet rod 6 to be separated from the opening 2 of the lithium battery 1, a user can conveniently take down the lithium battery 1, and preparation is made for the next lithium battery tightness detection.

Further, on the basis of the above embodiment, the lithium battery tightness detection device further comprises a workbench 16 and a switch 14, the container 3 is placed on the table surface of the workbench 16, the switch 14 and the control component 13 are arranged on the workbench 16, for example, on the side wall of the workbench or the workbench 16, the switch 14 is started, and the control component 13 can automatically control the actions of each component to detect the tightness of the lithium battery 1.

Further, on the basis of the above embodiment, the lithium battery sealability detection device further includes a fixing bracket 12, the fixing bracket 12 is disposed near the container 3, the mounting bracket 4 is connected to the fixing bracket 12, and the mounting bracket 4 can move in the height direction of the fixing bracket 12.

In one embodiment, one end of the fixing support 12 is arranged on the workbench 16, the fixing support 12 vertically extends towards a direction far away from the surface of the workbench 16, a sliding rail is arranged on the fixing support 12, the length direction of the sliding rail is consistent with the height direction of the fixing support 12, the mounting support 4 is connected to the fixing support 12, the mounting support 4 can move along the extending direction of the sliding rail, namely, the second driving assembly 10 drives the mounting support 4 to move along the height direction of the fixing support 12, and the lithium battery 1 and the air inlet rod 6 are driven to move along the height direction of the fixing support 12.

The lithium battery tightness detection device further comprises a cover body 15, the cover body 15 is covered on the container 3, the fixing support 12 is connected to the top of the cover body 15, the structure of the fixing support 12 can be simplified, and materials are saved.

Further, the cover body 15 comprises two vertical plates and a top plate, the two vertical plates are connected to two opposite sides of the top plate to form a U-shaped structure, as shown in fig. 1, a user can conveniently take and put the container 3 from between the two vertical plates, and avoidance holes are formed in the top plate to avoid interference between the second driving assembly 10 and the top plate and influence operation of the second driving assembly 10.

Further, at least one window is arranged on at least one vertical plate, so that a user can observe the change of the detection liquid in the container 3 through the window conveniently, and the weight can be reduced.

The number and positions of the windows in this embodiment are not particularly limited, and are set according to actual requirements.

On the basis of the above embodiment, further, the lithium battery tightness detection device further comprises an illumination component, wherein the illumination component is arranged close to the container 3 and irradiates towards the interior of the container 3, so that illumination is provided for a user, the user can observe the change of the detection liquid in the container 3, the change of the detection liquid is avoided being missed, and the detection efficiency is improved.

The lighting assembly in this embodiment may be an LED lamp.

The lithium battery 1 tightness detection device provided by the utility model can accurately determine the position of the lithium battery 1, accurately check whether the tightness of the produced lithium battery 1 meets the requirement, fully realize full detection and improve the safety performance of products.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (8)

1. A lithium battery sealability detection device, comprising:

a container for holding a detection liquid;

the clamp assembly is arranged above the container and used for fixing a lithium battery, an opening is formed in the top end of the lithium battery, and the clamp assembly can move up and down along the height direction of the container so as to enable the bottom of the lithium battery to be in contact with detection liquid in the container;

the high-pressure gas assembly is communicated with the opening in a sealing way and is used for inputting high-pressure gas into the lithium battery when the bottom of the lithium battery is in contact with the detection liquid in the container;

the fixture assembly comprises a mounting bracket, a through hole is formed in the top of the mounting bracket, the lithium battery is arranged on the mounting bracket, the opening and the through hole are coaxially arranged, the high-pressure gas assembly comprises a gas inlet rod and a gas source, an inlet of the gas inlet rod is communicated with the gas source, and an outlet of the gas inlet rod is communicated with the opening through the through hole;

the lithium battery tightness detection device further comprises a first driving assembly, wherein the first driving assembly is connected with the air inlet rod and used for driving the air inlet rod to move towards the direction of the lithium battery, so that the outlet of the air inlet rod is tightly pressed against the opening to realize sealing communication.

2. The lithium battery tightness detection device according to claim 1, wherein the high-pressure gas assembly further comprises a seal provided between an outlet of the intake rod and the opening.

3. The lithium battery tightness detection device according to claim 1, wherein the clamp assembly further comprises a limiting piece, the limiting piece is embedded in the through hole, and the limiting piece is used for limiting the position of the air inlet rod.

4. The lithium battery tightness detection device according to claim 1, further comprising a second driving assembly and a connecting piece, wherein the second driving assembly is connected with the mounting bracket through the connecting piece, and the second driving assembly is used for driving the mounting bracket to move up and down along the height direction of the container.

5. The lithium battery tightness detection device according to claim 4, further comprising a pressure monitoring assembly in communication with the air intake rod.

6. The lithium battery tightness detection device according to claim 5, further comprising a control assembly, wherein the high-pressure gas assembly, the first driving assembly, the second driving assembly, and the pressure monitoring assembly are respectively connected with the control assembly.

7. The lithium battery tightness detection device according to claim 1, further comprising a fixing bracket provided near the container, the mounting bracket being connected to the fixing bracket, and the mounting bracket being movable in a height direction of the fixing bracket.

8. The lithium battery tightness detection device according to claim 1, further comprising an illumination assembly disposed near the container.

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