KR20240037717A - Airtightness inspection device applied to lead-acid battery assembly process - Google Patents

Abstract

The present invention relates to an airtightness inspection device applied to the lead acid battery assembly process, and more specifically, to improve the problem of not being able to perform airtightness testing of all cells simultaneously during the lead acid battery cell assembly process, which enables simultaneous airtightness testing of all cells. We would like to provide an airtight inspection device.
Through the present invention, productivity is improved by reducing process progress time.

Description

Airtightness inspection device applied to lead-acid battery assembly process}

The present invention relates to an airtightness inspection device applied to the lead acid battery assembly process, and more specifically, to improve the problem of not being able to perform airtightness testing of all cells simultaneously during the lead acid battery cell assembly process, which enables simultaneous airtightness testing of all cells. We would like to provide an airtight inspection device.

The assembly process, one of the battery manufacturing processes, is a process of grouping the cathode, anode, and separator according to the capacity and performance of the product.

The electrode plate is used in the rolling mill and the electrode plate group of each cell is welded together to produce a semi-finished product of the desired specification.

At this time, during the assembly process, the airtightness inspection is a process to check the fusion state of the precursor and middle cover and the airtightness of each cell, and is an essential inspection condition.

For example, 6 cells are divided into 1, 3, 5 and 2, 4, 6, air is injected, and after a certain period of time, the change in air pressure is checked to determine whether it is airtight.

There is a problem with this type of airtightness test; it is not possible to test the airtightness of all cells at the same time, and the test is conducted in two parts.

This causes the process progress time to increase.

As mentioned above, the reason why the current air tightness inspection method is divided into 1, 3, 5 and 2, 4, and 6 cells is that if air is injected into all cells at the same time, even if there are defects in the welds and joints of adjacent cells, Because there is no change in air pressure due to fully filled air, it is difficult to determine whether it is airtight.

Therefore, the present invention seeks to provide an airtightness inspection device capable of simultaneous airtightness testing for all cells.

(Prior Document 1) Republic of Korea Patent Publication No. 10-2381108

Therefore, the present invention was devised to solve the above conventional problems,

The purpose of the present invention is to provide an airtightness inspection device capable of simultaneously airtightness testing for all cells in order to improve the problem of not being able to simultaneously test airtightness of all cells during the lead acid battery cell assembly process.

In order to achieve the problem that the present invention seeks to solve,

The air tightness inspection device applied to the lead acid battery assembly process according to an embodiment of the present invention is,

Nozzle insertion parts 110 are formed at regular intervals so that the air injection nozzle part and the air suction nozzle part are inserted into the exact positions of at least two cells, and a guide jig part 100 is installed on the upper side of the cells,

A plurality of vertical air injection pipes 210 having an air injection nozzle portion 215 formed on the lower side and having a certain length for inserting the air injection nozzle portion into the nozzle insertion portion formed on the guide jig portion;

A horizontal air injection pipe (220) having a certain length, one side of which is connected to the plurality of vertical air injection pipes, and the other side of which is connected to an air injection device;

One side is connected to the horizontal air injection pipe to supply air to the horizontal air injection pipe, and supply air to a plurality of vertical air injection pipes connected to the horizontal air injection pipe to inject air into a plurality of cells located on the lower side through the air injection nozzle unit. An air injection means (200) comprising an air injection device (230) for

A plurality of vertical air suction pipes 310 having a certain length forming an air suction nozzle portion 315 on the lower side and inserting the air suction nozzle portion into the nozzle insertion portion formed in the guide jig portion;

A horizontal air suction pipe (320) having a certain length, one side of which is connected to the plurality of vertical air suction pipes, and the other side of which is connected to an air suction device;

By comprising an air suction means 300, which includes an air suction device 330, one side of which is connected to the horizontal air suction pipe to suction air from a plurality of cells to form a vacuum state, the present invention The task will be solved.

The air tightness inspection device applied to the lead acid battery assembly process according to the present invention is,

In order to improve the problem of not being able to conduct air tightness inspection of all cells at the same time during the lead acid battery cell assembly process, it was constructed to include a guide jig part (100), an air injection means (200), and an air suction means (300). This provides the effect of enabling simultaneous confidentiality testing of cells.

Therefore, the process progress time is reduced and productivity is improved.

Figure 1 is a conceptual configuration diagram of an air tightness inspection device applied to the lead acid battery assembly process according to an embodiment of the present invention.
Figure 2 is a conceptual configuration diagram of an air tightness inspection device applied to the lead acid battery assembly process according to this embodiment of the present invention.
Figure 3 is a control block diagram of the airtightness inspection means of the airtightness inspection device applied to the lead acid battery assembly process according to this embodiment of the present invention.
Figure 4 is a block diagram of the airtightness inspection means 400 of the airtightness inspection device applied to the lead acid battery assembly process according to this embodiment of the present invention.

The air tightness inspection device applied to the lead acid battery assembly process according to an embodiment of the present invention is,

Nozzle insertion parts 110 are formed at regular intervals so that the air injection nozzle part and the air suction nozzle part are inserted into the exact positions of at least two cells, and a guide jig part 100 is installed on the upper side of the cells,

A plurality of vertical air injection pipes 210 having an air injection nozzle portion 215 formed on the lower side and having a certain length for inserting the air injection nozzle portion into the nozzle insertion portion formed on the guide jig portion;

A horizontal air injection pipe (220) having a certain length, one side of which is connected to the plurality of vertical air injection pipes, and the other side of which is connected to an air injection device;

One side is connected to the horizontal air injection pipe to supply air to the horizontal air injection pipe, and supply air to a plurality of vertical air injection pipes connected to the horizontal air injection pipe to inject air into a plurality of cells located on the lower side through the air injection nozzle unit. An air injection means (200) comprising an air injection device (230) for

A plurality of vertical air suction pipes 310 having a certain length forming an air suction nozzle portion 315 on the lower side and inserting the air suction nozzle portion into the nozzle insertion portion formed in the guide jig portion;

A horizontal air suction pipe (320) having a certain length, one side of which is connected to the plurality of vertical air suction pipes, and the other side of which is connected to an air suction device;

It is characterized by comprising an air suction means 300, which includes an air suction device 330, one side of which is connected to the horizontal air suction pipe and suctioning air from a plurality of cells to form a vacuum state. .

At this time, according to an additional aspect, the device of the present invention,

An inspection pre-processing unit ( 410);

An air pressure drop determination unit 420 for determining whether a drop in air pressure occurs in the air-injected cells after a certain period of time has elapsed;

A vacuum drop determination unit 430 for determining whether a decrease in vacuum level occurs in the cells in the vacuum state after a certain period of time has elapsed;

The judgment result value is obtained from the air pressure drop determination unit 420 and the vacuum drop determination unit 430, and when a drop in air pressure or vacuum level occurs, an airtightness defect event signal is generated and provided to the airtightness inspection terminal so that the manager can check it in real time. It is characterized in that it further includes a confidentiality inspection execution means 400, which includes a confidentiality defect event providing unit 440 to enable the security detection.

At this time, if there are 6 cells,

Air is injected by forming a vertical air injection pipe (210) in cells 1, 3, and 5,

It is characterized in that vertical air suction pipes 310 are formed in cells 2, 4, and 6 to suction air to form the corresponding cells in a vacuum state.

At this time, by configuring the air injection means 200 and the air suction means 300 to simultaneously perform air injection and air suction, the air tightness test can be performed once rather than twice. It is characterized by

Hereinafter, the air tightness inspection device applied to the lead acid battery assembly process according to the present invention will be described in detail through examples.

Figure 1 is a conceptual configuration diagram of an air tightness inspection device applied to the lead acid battery assembly process according to an embodiment of the present invention.

As shown in FIG. 1, the air tightness inspection device applied to the lead acid battery assembly process of the present invention largely includes a guide jig part 100, an air injection means 200, and an air suction means 300.

To explain specifically, the guide jig part 100 has nozzle insertion parts 110 formed at regular intervals so that the air injection nozzle part and the air suction nozzle part are inserted into the exact positions of at least two cells, and the upper side of the cells It is characterized by being installed and configured in.

As shown in FIG. 1, each nozzle insertion portion 110 is formed to specify a position to enable air injection and air suction at the exact location of the cell located on the lower side.

In addition, air injection means 200 is configured to perform air injection.

At this time, the air injection means 200 is,

A plurality of vertical air injection pipes 210 having an air injection nozzle portion 215 formed on the lower side and having a certain length for inserting the air injection nozzle portion into the nozzle insertion portion formed on the guide jig portion;

A horizontal air injection pipe (220) having a certain length, one side of which is connected to the plurality of vertical air injection pipes, and the other side of which is connected to an air injection device;

One side is connected to the horizontal air injection pipe to supply air to the horizontal air injection pipe, and supply air to a plurality of vertical air injection pipes connected to the horizontal air injection pipe to inject air into a plurality of cells located on the lower side through the air injection nozzle unit. It is characterized in that it includes an air injection device 230 for.

That is, a vertical air injection pipe 210 is formed with an air injection nozzle portion 215 on the lower side, and the air injection nozzle portion is inserted into the nozzle insertion portion formed in the guide jig portion.

In the example, it consists of three vertical air injection pipes, and it is obvious that this increases or decreases depending on the number of cells.

Then, a horizontal air injection pipe 220 is formed, where one side of the horizontal air injection pipe 220 is connected to the plurality of vertical air injection pipes, and the other side is connected to an air injection device.

At this time, the air injection device 230 is connected on one side to the horizontal air injection pipe and supplies air to the horizontal air injection pipe, and supplies air to a plurality of vertical air injection pipes connected to it, located on the lower side through the air injection nozzle unit. Air is injected into multiple cells.

On the other hand, it constitutes an air suction means 300, which consists of:

A plurality of vertical air suction pipes 310 having a certain length forming an air suction nozzle portion 315 on the lower side and inserting the air suction nozzle portion into the nozzle insertion portion formed in the guide jig portion;

A horizontal air suction pipe (320) having a certain length, one side of which is connected to the plurality of vertical air suction pipes, and the other side of which is connected to an air suction device;

An air suction device 330 connected to one side of the horizontal air suction pipe to suction air from a plurality of cells to form a vacuum state.

That is, the air suction nozzle part 315 is formed on the lower side of the vertical air suction pipe 310, and the air suction nozzle part is inserted into the nozzle insertion part formed in the guide jig part.

In the example, it consists of three vertical air suction pipes 310, and it is obvious that this increases or decreases depending on the number of cells.

At this time, the air suction device 330 suctions air from a plurality of cells to form a vacuum state.

And, as mentioned in the background art, the present invention provides a method of checking the confidentiality of, for example, six cells at once to solve temporal loss through the above configuration and operation.

In the case of 6 cells, the current confidentiality inspection method is divided into 1, 3, 5 and 2, 4, 6 cells.

The reason for the separate inspection as described above is that if air is injected into all cells at the same time, even if there are defects in the welds and joints of adjacent cells, there is no change in air pressure due to the fully filled air in both cells, so it is difficult to determine whether it is airtight.

In order to solve this problem, the above configuration and operation are provided.

In other words, air is injected into Cells 1, 3, and 5, and at the same time, a vacuum is created in Cells 2, 4, and 6 to determine the airtightness.

For example, air is injected into Cell No. 1, and Cell No. 2 creates a vacuum state.

To explain again, if there are 6 cells,

Air is injected by forming a vertical air injection pipe (210) in cells 1, 3, and 5,

Vertical air suction pipes 310 are formed in cells 2, 4, and 6 to suction air to form the cells in a vacuum state.

At this time, by configuring the air injection means 200 and the air suction means 300 to simultaneously perform air injection and air suction, the air tightness test can be performed once rather than twice. will be.

In addition, as shown in Figure 2, according to an additional aspect, the air tightness inspection device applied to the lead acid battery assembly process of the present invention,

An inspection pre-processing unit ( 410);

An air pressure drop determination unit 420 for determining whether a drop in air pressure occurs in the air-injected cells after a certain period of time has elapsed;

A vacuum drop determination unit 430 for determining whether a decrease in vacuum level occurs in the cells in the vacuum state after a certain period of time has elapsed;

The judgment result value is obtained from the air pressure drop determination unit 420 and the vacuum drop determination unit 430, and when a drop in air pressure or vacuum level occurs, an airtightness defect event signal is generated and provided to the airtightness inspection terminal so that the manager can check it in real time. It is characterized in that it further includes a confidentiality inspection means 400, which includes a confidentiality defect event providing unit 440 to enable the security detection.

If a defect occurs in the weld or joint between cells, a decrease in air pressure occurs in Cell 1 and a decrease in vacuum occurs in Cell 2.

At this time, if an airtightness inspection means is configured as described above, airtightness can be determined through changes in air pressure and vacuum, and productivity can be improved by simplifying the process of inspecting twice into a single inspection.

Specifically, as shown in FIG. 4, the air tightness inspection means 400,

An inspection pre-processing unit ( 410);

An air pressure drop determination unit 420 for determining whether a drop in air pressure occurs in the air-injected cells after a certain period of time has elapsed;

A vacuum drop determination unit 430 for determining whether a decrease in vacuum level occurs in the cells in the vacuum state after a certain period of time has elapsed;

The judgment result value is obtained from the air pressure drop determination unit 420 and the vacuum drop determination unit 430, and when a drop in air pressure or vacuum level occurs, an airtightness defect event signal is generated and provided to the airtightness inspection terminal so that the manager can check it in real time. It is configured to include a confidential defect event providing unit 440 to enable

Specifically, the test pre-processing unit 410 provides an air injection signal to the air injection means 200 to inject air into the corresponding cells, and simultaneously provides an air suction signal to the air suction means 300 to vacuum the corresponding cells. It performs the function of forming the state.

For example, when a cell reaches the inspection position, an air injection signal is provided to the air injection means 200 to inject air into the corresponding cells.

That is, air is injected into cells 1, 3, and 5.

At the same time, an air suction signal is provided to the air suction means 300 to form the corresponding cells into a vacuum state.

In other words, air suction is applied to cells 2, 4, and 6 to create a vacuum state.

Thereafter, the air pressure drop determination unit 420 determines whether a drop in air pressure occurs in the cells into which the air has been injected after a certain period of time has elapsed.

For example, among cells 1, 3, and 5, 10 psi must be maintained, but if the air pressure decreases to 8 psi, this is judged to be a decrease in air pressure.

Thereafter, after a certain period of time has elapsed, the vacuum drop determination unit 430 determines whether a decrease in vacuum level occurs in the cells in the vacuum state.

For example, among cells 2, 4, and 6, 15 bar must be maintained, but if the vacuum level decreases and reaches 7 bar, this is judged to be a decrease in vacuum level.

At this time, the airtightness defect event providing unit 440 obtains the judgment result from the air pressure drop determination unit 420 and the vacuum drop determination unit 430 and generates an airtightness defect event signal when a drop in air pressure or vacuum degree occurs. It is then provided to the confidentiality inspection terminal 500 so that the manager can check it in real time.

For example, based on the default air pressure and vacuum default values, the air pressure drop determination unit 420 and the vacuum drop determination unit 430 determine whether there is a drop, and if a drop occurs, the corresponding decision result is obtained to generate an airtight coupling event signal. It is provided to the confidentiality inspection terminal 500 so that the manager can immediately check it in real time and take follow-up action.

Meanwhile, in order to determine whether the cell to perform the air tightness inspection is accurately located on the lower side of the guide jig unit 100, the device of the present invention uses a first position detection sensor 510 and a second position detection sensor 520. It is placed at regular intervals on the lower side of the guide jig part 100.

At this time, the confidentiality inspection means 400 is,

A detection signal acquisition unit for acquiring a first detection signal and a second detection signal from the first position detection sensor 510 and the second position detection sensor 520;

When the first detection signal is acquired, a standby signal is provided to the air injection device 230 and the air suction device 330, and after a certain period of time, when the second detection signal is acquired, the air injection device 230 and an operation signal provider for providing an operation signal to the air suction device 330.

That is, the first position detection sensor 510 detects that a cell for airtightness inspection is currently being transported to the lower side of the guide jig part, and the second position detection sensor 520 detects that the cell is being transferred to the lower side of the guide jig part. It is about detecting the presence of a location.

Through the above configuration and operation, the guide jig part 100, the air injection means 200, and the air suction means 300 are used to improve the problem of not being able to conduct airtightness inspection of all cells simultaneously during the lead acid battery cell assembly process. It has been configured to include, and this provides the effect of enabling simultaneous confidentiality testing of all cells.

Those skilled in the art to which the present invention pertains as described above will understand that the present invention can be implemented in other specific forms without changing its technical idea or essential features. Therefore, the embodiments described above should be understood in all respects as illustrative and not limiting.

The scope of the present invention is indicated by the claims described below rather than the detailed description above, and all changes or modified forms derived from the meaning and scope of the claims and their equivalent concepts should be construed as being included in the scope of the present invention. do.

100: Guide jig part
200: Air injection means
300: Air suction means
400: Confidentiality test implementation means
500: Confidentiality inspection terminal

Claims (4)

In the air tightness inspection device applied to the lead acid battery assembly process,
Nozzle insertion parts 110 are formed at regular intervals so that the air injection nozzle part and the air suction nozzle part are inserted into the exact positions of at least two cells, and a guide jig part 100 is installed on the upper side of the cells,
An air injection nozzle portion 215 is formed on the lower side, and an air injection nozzle portion is inserted into the nozzle insertion portion formed on the guide jig portion to inject air into a plurality of cells located on the lower side through the air injection nozzle portion (air injection means ( 200) and,
An air suction nozzle part 315 is formed on the lower side, and the air suction nozzle part is inserted into the nozzle insertion part formed in the guide jig part to suction air from a plurality of cells located on the lower side through the air suction nozzle part to form a vacuum state. An air tightness inspection device applied to the lead acid battery assembly process, characterized in that it includes an air suction means (300).
According to clause 1,
After injecting air into the air injection means 200 and simultaneously performing air suction through the air suction means 300, when a decrease in air pressure or a decrease in vacuum occurs, an airtightness defect event signal is generated and provided to the airtightness inspection terminal. An airtightness inspection device applied to the lead acid battery assembly process, characterized in that it further includes airtightness inspection means (400) to enable the manager to check in real time.
According to clause 1,
If there are 6 cells,
Air is injected by forming a vertical air injection pipe (210) in cells 1, 3, and 5,
An air tightness inspection device applied to the lead acid battery assembly process, characterized in that vertical air suction pipes 310 are formed in cells 2, 4, and 6 to suction air and form the cells into a vacuum state.
According to clause 1,
By configuring the air injection means (200) and the air suction means (300) to simultaneously perform air injection and air suction, the air tightness test can be performed in one go rather than two separate air tightness tests. An air tightness inspection device applied to the lead acid battery assembly process.