KR101397926B1 - Leak check system for flexible pouchtype secondary battery - Google Patents

Abstract

The present invention relates to a system for checking whether electrolytes included in a secondary battery are leaked and, more specifically, to a system for checking whether electrolytes included in a flexible pouch-type secondary battery are leaked, which is capable of checking whether the electrolytes are leaked by detecting the thickness of the entire area of the flexible pouch-type secondary battery in a state of the secondary battery, which is formed by embedding an electricity generating unit in a flexible pouch-type external case, before or after the secondary battery is vacuumized. The system includes: a predetermined space in which a flexible pouch-type secondary battery is putted; laser sensors which are arranged at an upper part of the predetermined space to detect the thickness of the entire area of the pouch-type secondary battery; a vacuum chamber which connects the predetermined space with a vacuum pump to vacuumize the predetermined space; and a control unit which sets up check conditions, controls the laser sensors to detect the thickness of the flexible pouch-type secondary battery in a state of the secondary battery before or after the secondary battery is vacuumized, compares and analyzes the detected thickness, and determines a portion from which electrolytes are expected to leak.

Description

TECHNICAL FIELD [0001] The present invention relates to a flexible pouch type secondary battery leakage inspection system,

The present invention relates to a system for inspecting leakage of an electrolyte of a secondary battery, and more particularly, to a system for inspecting leakage of an electrolyte in a secondary battery, And displays the result on a certain screen, and it is a technology to check the leakage.

In recent years, as the importance of flexible devices has increased, flexible power supplies have also been increasingly used. In accordance with this trend, primary batteries and secondary batteries are formed into a flexible structure having flexibility.

A flexible lithium secondary battery that generates electricity according to the movement of lithium ions is commercially available in the flexible battery. The flexible lithium secondary battery has a flexibility characteristic as shown in the photograph of FIG. 1 Shaped case in which the edges of the battery are all sealed by heat sealing or the like so that the electrolytic material contained in the battery is not leaked.

However, since the above-described pouch-type case uses a soft pouch as a container, the reliability of sealing is low, so that the sealed state of the product to be manufactured must be thoroughly inspected. As a result, 10-1198857 (Announcement of Nov. 7, 2012) A leak detector for a secondary battery is known.

2, an apparatus for inspecting the sealing state of a secondary battery using a vacuum chamber is provided with a vacuum chamber 102 composed of an upper chamber 100 and a lower chamber 101 A secondary battery is mounted on the lower chamber, and when the chamber is evacuated, a pressure difference is generated in the upper chamber and the lower chamber when the electrolyte gas leaks from the secondary battery, thereby checking whether the secondary battery is leaked. In the description of FIG. 2, reference numeral 103 denotes a partition wall, 104 denotes a sensor, 105 denotes a check valve, 106 denotes a decompression exhaust valve, 107 denotes an atmospheric release valve, 108 denotes an elevating cylinder,

That is, in the above-described prior art, whether or not the secondary battery is leaked through the vacuum pressure is determined by changing the degree of vacuum in which the vacuum is lowered when the secondary battery is leaked in a state where the vacuum is formed. is.

Therefore, in the prior art, it is possible to confirm whether or not leakage of the electrolytic material contained in the inside of the secondary cell case by leakage of the electrolytic material into the chamber is caused by a constant vacuum pressure in the chamber, Of course, problems such as environmental contamination of the inspection work facility and cleaning of the electrolytic material are additionally required.

SUMMARY OF THE INVENTION The present invention has been made in an effort to solve the above-mentioned problems, and it is an object of the present invention to provide a pouch-type case of a secondary battery comprising a flexible pouch- To thereby improve the accuracy and reliability of the inspection and improve the inspection work environment.

In order to solve the above problems, the present invention provides a leakage inspection system for a secondary battery, comprising: a fixed space into which a flexible pouch type secondary battery is inserted; A laser sensor installed on the predetermined space to detect a thickness of the flexible pouch type secondary battery with respect to the entire area; And a vacuum chamber for vacuum-forming the predetermined space by connecting the predetermined space with the vacuum pump. The inspection condition is set, the thickness detection is controlled in the state before and after the vacuum of the flexible pouch type secondary battery by the laser sensor, And a control unit for determining a portion where leakage is predicted. The leakage inspection system of the flexible pouch type rechargeable battery is provided.

The control unit includes a display unit 6 for displaying inspection data, measurement results, and system operation status of the flexible pouch type secondary battery, a database of the flexible pouch type secondary battery to be inspected, A communication connection setting unit, and an environment setting unit for setting and changing the specifications of the flexible pouch type secondary battery to be inspected and setting the operating environment of the inspection system.

The display unit includes a test object display unit that displays a model of a flexible pouch type secondary battery to be inspected and a bar code, a 3D screen display unit that displays a thickness measurement result of the entire area of the flexible pouch type secondary battery in a 3D screen, A 2D screen display unit for collectively displaying thickness measurement results of a certain section of the pouch-type secondary battery in a 2D screen, and an operation status display unit for monitoring and displaying the system operation status.

The inspection object display unit includes an inspection mode display unit for displaying a model of the flexible pouch type secondary battery to be inspected and a barcode display unit for displaying a barcode of the inspection object product given in the form of a barcode on the product displayed on the inspection model display unit And an open button and a save button are further formed on one side of the inspiration model display unit.

The 3D screen displayed on the 3D screen display unit is configured to position the flexible pouch type secondary battery in a vacuum chamber, detect the thickness of the vacuum chamber in a state where no vacuum is formed in the vacuum chamber, And transmits the result to the control unit. The two detection results received from the control unit are compared with each other, and the difference is calculated to activate the three-dimensional screen which can visually confirm the difference and the smallness through color classification.

The 3D image displayed on the 3D screen display unit is formed so that a rotary knob for moving the cursor is disposed on a lower side of the display unit so that 2D screens corresponding to different cross sections are displayed on the 2D screen display unit by moving the position where the cross section is divided , A scale is displayed around the rotary knob so that a position at which the cursor is to be moved can be confirmed in advance before the cursor is moved by rotating the rotary knob so that the position to be moved in accordance with the movement of the cursor is displayed as a numerical value, And a numerical value display window is further formed on the upper part of the part.

The 2D screen display unit includes a 2D screen batch display window for collectively displaying histograms obtained by analyzing standard deviations of x-axis or y-axis measurement values of a cross-sectional area where a cursor is positioned on a 3D screen, The 2D screen enlargement display window which scans only a certain range and enlarges and displays the enlarged display window is formed so that the inspection result can be precisely and easily confirmed through the enlarged histogram graph.

The 2D screen batch display window has a 2D display window for displaying the x-axis position value X, the y-axis position value Y, the average value Avg and the standard deviation Devi of the portion where the reference line of the histogram is located, And a reference display unit for displaying a reference such as a maximum value and a minimum value with respect to the histogram value is formed on one side.

The 2D screen enlargement display window displays a distance between the graph display area for displaying a histogram graph and a cursor position at the lower part of the graph display area and the left and right sides of the x-axis image of the negative active area and the negative active area, And a graphical analysis result display unit is further formed.

The histogram graph display area of the 2D screen enlargement display window is configured to display different contents depending on the system, inspection results and menu selection classified by the histogram. In the lower part of the 2D screen enlargement display window, a system operation history and log data A histogram selecting unit for displaying a histogram checking result window of a product to be inspected, and a histogram selecting unit for selecting a specification of the product to be inspected And a re-inspecting button for performing re-inspecting after the change is made to be displayed on one screen.

A folder button for confirming data stored in the control unit and a folder button for confirming a data storage folder are formed below the 2D screen enlargement display window.

The environment setting unit includes a communication setting button for setting a communication port, a system environment setting button for setting a standard of the flexible pouch type secondary battery to be inspected and setting a system environment, a connection / A data analysis button for analyzing basic data of the flexible pouch type secondary battery to be inspected, and an end button for ending the program are formed on the touch panel screen.

The operation status display unit may include a final test result display unit for displaying a final test result as 'PASS' and 'FAIL', a communication status RS display lamp for indicating a communication connection status with an external device at the time of system operation, And a controller control confirmation lamp for visually confirming the state in which the system is controlled on the inspection work in order and activating the screen.

The present invention is characterized in that an electrolytic substance injected into a flexible pouch-type secondary cell by a constant vacuum pressure in a chamber is judged as a region where leakage is expected before leakage occurs into the chamber, It is possible to prevent contamination of the apparatus, thereby preventing environmental pollution of the inspection work facility and improving working conditions.

In addition, the present invention detects the thickness of the flexible pouch-type secondary battery with respect to the entire area in a pre-vacuum state and a vacuum state, and provides a 2D screen graph of a 3D screen and a histogram, Analysis and numerical analysis provide precise and clear judgments.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a leakage inspection apparatus for a secondary battery according to the prior art; FIG.
2 is a photograph of a flexible pouch type secondary battery which is generally used.
3 is a conceptual view illustrating a leakage inspection system of a flexible pouch type secondary battery according to the present invention.
4 is a view showing a main screen configuration of a leakage inspection system of a flexible pouch type secondary battery according to the present invention.
FIG. 5 is a view illustrating a screen for displaying an inspection model and information of a product to be inspected of a leakage inspection system of a flexible pouch type secondary battery according to the present invention.
6 is a view showing a screen for displaying inspection results of a leakage inspection system of a flexible pouch type secondary battery according to the present invention on a 3D screen and a 2D screen.
FIG. 7 is a view showing a 3D screen state confirmation screen and a display unit of the leakage inspection system of the flexible pouch type secondary battery according to the present invention.
FIG. 8 is a diagram showing a screen state in which a histogram graph of a leakage inspection system of a flexible pouch type secondary battery according to the present invention is displayed on a 2D screen enlargement display window.
FIG. 9 is a diagram illustrating a screen state in which an event message of the leakage inspection system of the flexible pouch type secondary battery according to the present invention is displayed.
FIG. 10 is a view showing information of a product inspected for each bar code in the leakage inspection system of the flexible pouch type secondary battery according to the present invention, inspection results, and screen states on which inspection times are displayed.
11 is a diagram illustrating a screen displayed on a notepad when a file button and a system selection unit of the leakage inspection system of the flexible pouch type secondary battery according to the present invention are selected.
12 is a view illustrating a screen displayed on a notepad when a folder button and a system selection unit of a leakage inspection system of a flexible pouch type secondary battery according to the present invention are selected.
13 is a view showing a configuration screen of a leakage inspection system of a flexible pouch type secondary battery according to the present invention.
FIG. 14 is a view showing a screen for confirming the system operation of the leakage inspection system of the flexible pouch type secondary battery according to the present invention.

As shown in FIG. 3, the flexible secondary battery leakage inspection system according to the present invention includes: a fixed space into which a flexible pouch type secondary battery 1 is inserted; A laser sensor (2) installed at an upper portion of the predetermined space to detect a thickness of the flexible pouch type secondary battery with respect to the entire area; And a vacuum chamber (4) for connecting the predetermined space with the vacuum pump (3) to form the predetermined space in a vacuum, wherein the inspection condition is set, and the thickness of the flexible pouch type secondary battery And a control unit 5 for comparing the detected thickness with each other to determine a region where leakage is expected.

The vacuum chamber 4 equipped with the laser sensor 2 and having a predetermined space for accommodating the flexible pouch-type secondary battery and the vacuum chamber 3 vacuumed through the vacuum pump 3 adopt the generally used configuration So that detailed description is omitted.

The control unit 5 includes a display unit 6 for displaying inspection data, inspection results and system operation status of the flexible pouch type rechargeable battery, a database 7 of the flexible pouch type rechargeable battery to be inspected, A communication connection setting unit 8 for transmitting and receiving information to / from an external device, and an environment setting unit 9 for setting and changing the specifications of the flexible pouch type secondary battery to be inspected and setting the operating environment of the inspection system .

As shown in FIG. 4, the display unit 6 includes a test object display unit 10 that displays a model of a flexible pouch type secondary battery to be inspected and a barcode, a thickness detection unit 22 that detects thickness of the flexible pouch- A 2D screen display unit 12 for collectively displaying thickness detection results of a certain section of the flexible pouch type secondary battery on a 2D screen, A 2D screen enlargement display window 13 for enlarging and displaying a predetermined portion, and an operation status display portion 14 for monitoring and displaying the system operation status.

5, the inspection object display section 10 includes an inspection model display section 10a for displaying a model of a flexible pouch-type secondary battery to be inspected and a product displayed on the inspection model display section 10a And a barcode display unit 10b for displaying a barcode of a product to be inspected in the form of a barcode. The open button 10c and the save button 10d are provided on one side of the inspected model display unit 10a, do.

The open button 10c loads and selects an object to be inspected from the database 7 of the flexible pouch type secondary battery to be inspected so that products other than the products displayed on the inspection subject display unit 10 can be inspected, And the save button 11d is used to designate the inspected product as a model having a different name or to designate a new model as an inspection standard And a function of storing a new name in the database 7 when a new name is set.

As shown in FIG. 6, the 3D screen display unit 11 is activated to display the three-dimensional shape according to the thickness of the entire area of the flexible pouch type secondary battery detected by the laser sensor 2, and the bottom surface 11a ) And a two-sided wall surface 11b. In each of the bottom surface and the wall surface, a scale having a constant value is displayed so that the size of the flexible pouch type secondary battery can be grasped.

The 3D screen displayed on the 3D screen display unit 11 can be obtained by positioning the flexible pouch type secondary battery in a vacuum chamber and then moving the laser sensor 2 in a state in which no vacuum is formed in the vacuum chamber, And transmits the result to the controller 5. The controller 5 compares two detection results received from the controller 5 and calculates the difference, and visually confirms whether the difference is large or small by color classification Dimensional screen to be formed.

6, the flexible pouch rechargeable battery 3D screen displayed on the 3D screen display unit 11 includes a moving image 11c for moving in any direction through a mouse button operation, A size variation image 11d to be reduced, and a rotation image 11e for displaying a rotated image are formed.

7, an initialization button 11f for initializing the 3D screen and a screen change button 11g for changing the screen as a selection item are activated to one side of the 3D screen display unit 11 to display the 3D screen to the user So that it can be arbitrarily changed.

Below the screen change button 11g, a status display section 11h for displaying a rotation angle, a moving distance, and a magnification of the 3D screen in numerical values is provided. Below the screen change button 11g, And a profile of the measurement results before and after the measurement can be displayed on the 2D screen display unit 12, respectively.

As shown in FIG. 7, the 3D image of the product displayed on the 3D screen is divided into sections on the basis of the x-axis or the y-axis or the z-axis to form a position cursor 15 for displaying on the 2D screen, The cursor movement selecting unit 15a is formed so that the screen to be divided is displayed while being selected and moved with respect to the x, y, and z axes.

The 3D image displayed on the 3D screen display unit 11 is moved to a position where the cross section is divided so that the 2D image of the different cross section is displayed on the 2D image display unit 12, A rotary knob 16 for moving the rotary knob 16 is formed.

The rotary knob 16 displays a scale around the rotary knob so that the position at which the cursor 15 is to be moved can be confirmed in advance before the cursor 15 is moved by rotating the rotary knob, The numerical display window 15b is formed on the upper portion of the cursor movement selecting unit 15a so that the position to be moved according to the numerical value is displayed.

As shown in FIG. 4, the 2D screen display unit 12 collectively displays histograms obtained by analyzing standard deviations of x-axis or y-axis measurement values of cross-sectional areas where the cursor 15 is located on the 3D screen The 2D screen enlargement display window 13 which scans only a certain range of the 2D screen batch display window 12a and the cursor 15 in the x axis direction or the y axis direction is enlarged and displayed, .

As shown in FIG. 4, the 2D screen batch display window 12a has an x-axis position value X, a y-axis position value Y, and an average value (X, Y) for a portion where the reference line 12b of the histogram is positioned, A 2D display unit 12c for displaying a reference value such as a maximum value and a minimum value with respect to the histogram value is displayed on one side of the 2D display unit 12c, .

As shown in FIGS. 4 and 8, the 2D screen enlargement display window 13 includes a graph display area 13a for displaying a histogram graph, a cursor position at the bottom of the graph display area, a negative / negative / A graph analysis result display section 13b for displaying the distance and the difference from the left and right sides of the x-axis image of the region in numerical values is formed.

The histogram graph display area 13a of the 2D screen enlargement display window 13 is configured to display different contents according to the system selection, the inspection result, and the menu selection classified by the histogram. In the lower part of the 2D screen enlargement display window 13, A system selecting section 13c for displaying an operation history and a log data storing folder window of the inspection target product, a result selecting section 13d for displaying a bar inspection result window of the inspected product, a histogram checking result A histogram selecting unit 13e for displaying a window, and a re-examination button 13f for changing the specification of the product to be inspected and then performing the re-examination.

9, when the system selecting unit 13c is selected, an event display window 13g for displaying an event related to the time and contents of the inspection program is displayed on the 2D screen enlargement display window 13 10, when the result selecting unit 13d is selected, a test result display window 13h for displaying the information of the inspected product, the inspection result and the inspection time for each bar code is displayed on the 2D screen enlargement display window 13, As shown in FIG.

4 and 8, a file button 17 for confirming data stored in the control unit 5 and a folder button 18 for confirming a data storage folder are provided below the 2D screen enlargement display window 13 To be displayed.

11, when the file button 17 is selected and the system selection unit 13c is selected, the same contents as those displayed on the event display window 13g are displayed on the notepad, When the result selecting unit 13d is selected, the same contents as those displayed on the test result display window 13h are displayed on the notepad so that the stored data can be confirmed.

12, when the folder button 18 is selected and the system selecting unit 13c is selected, the log data storing folder screen 18a stored in the control unit is displayed on the notepad, (13d) is selected, the inspection result storage folder screen 18b storing the inspection result is displayed on the notepad.

13, the environment setting section 9 includes a communication setting button 9a for setting a communication port, a system environment setting button for setting a standard of the flexible pouch type secondary battery to be inspected and setting a system environment, A data analyzing button 9d for analyzing the basic data of the flexible pouch type secondary battery to be inspected, an end button 9b for terminating the program, (9e) on the touch panel screen.

As shown in FIG. 4, the operation status display unit 14 includes a final inspection result display unit 14a for displaying the final inspection result as 'PASS' and 'FAIL' A communication status RS display lamp 14b for indicating a communication connection status with an external device in operation, a PLC display lamp 14c for displaying a logical control status signal of a program for operating the system, And a controller control confirmation lamp 14d for sequentially displaying the state and visually confirming the state is formed by activating the screen.

It is to be understood that the leakage inspection system of the flexible pouch type secondary battery described above is illustrative and not limited thereto, and the scope of the present invention is defined by the appended claims rather than the foregoing detailed description, And all equivalents thereof are to be construed as being included within the scope of the present invention.

1: Flexible pouch type secondary battery 2: Laser sensor
3: Vacuum pump 4: Vacuum chamber
5: control unit 6: display unit
7: Database 8: Communication connection setting unit
9: environment setting section 10: inspection target display section
11: 3D screen display part 12: 2D screen display part
13: Enlarge 2D screen Display window 14: Operation status indicator
15: Cursor 16: Rotary knob
17: File button 18: Folder button

Claims (13)

A leakage inspection system for a secondary battery,
A fixed space into which the flexible pouch type secondary battery is inserted; A laser sensor installed on the predetermined space to detect a thickness of the flexible pouch type secondary battery with respect to the entire area; And a vacuum chamber for connecting the predetermined space and the vacuum pump to form the predetermined space in a vacuum,
And a control unit for setting the inspection conditions and controlling the thickness detection of the flexible pouch type secondary battery before and after the vacuum using the laser sensor and comparing the detected thickness with each other,
Wherein the control unit includes a display unit for displaying inspection data of the flexible pouch type secondary battery, inspection results, and system operation status,
The display unit includes a test object display unit for displaying a model and a barcode of the flexible pouch type secondary battery to be inspected;
A 3D screen display unit for displaying thickness detection results of the entire area of the flexible pouch type rechargeable battery on a 3D screen;
A 2D screen display unit for collectively displaying thickness detection results of a certain section of the flexible pouch type secondary battery in a 2D screen;
And an operation status display unit for monitoring and displaying the system operation status. delete delete The method according to claim 1,
Wherein the inspection object display unit comprises: an inspection model display unit displaying a model of the flexible pouch type secondary battery to be inspected;
And a barcode display unit for displaying a barcode of a product to be inspected provided in a form of a barcode on the product displayed on the inspection model display unit, wherein an open button and a save button are further formed on one side of the inspected model display unit Wherein the leakage detection system of the flexible pouch type secondary battery comprises: 5. The method of claim 4,
The 3D screen displayed on the 3D screen display unit is configured to position the flexible pouch type secondary battery in a vacuum chamber, detect the thickness of the vacuum chamber in a state where no vacuum is formed in the vacuum chamber, And transmits the result to the control unit. The control unit compares the two detection results received, calculates the difference, and activates the three-dimensional screen in which the difference is large and the small difference can be visually confirmed through color classification. A leakage detection system of a flexible pouch type secondary battery. 6. The method of claim 5,
The 3D image displayed on the 3D screen display unit forms a rotation knob for moving the cursor to a lower side of the display unit so that 2D screens corresponding to different cross sections are displayed on the 2D screen display unit,
A scale is displayed around the rotation knob so that the position at which the cursor is to be moved can be confirmed in advance before the cursor is moved by rotating the rotation knob,
And a numerical value display window is formed at an upper portion of the cursor movement selecting unit so that a position moved according to the movement of the cursor is numerically displayed. The method according to claim 6,
The 2D screen display unit includes a 2D screen batch display window for collectively displaying histograms obtained by analyzing standard deviations of x-axis or y-axis measurement values of a cross-sectional area where a cursor is positioned on a 3D screen, Wherein a 2D screen enlargement display window which scans only a predetermined range and enlarges and displays the inspection result is formed so that the inspection result can be precisely and easily confirmed through an enlarged histogram graph. The method of claim 7, wherein
The 2D screen batch display window has a 2D display window for displaying the x-axis position value X, the y-axis position value Y, the average value Avg and the standard deviation Devi of the portion where the reference line of the histogram is located, And a reference display unit for displaying a reference value such as a maximum value and a minimum value with respect to the histogram value is formed on one side of the leakage detection system of the flexible pouch type rechargeable battery. 9. The method of claim 8,
The 2D screen enlargement display window includes a graph display area 13a for displaying a histogram graph, a cursor position at the bottom of the graph display area, and distances from the right and left sides of the x-axis image of the negative / Wherein the graphical analysis result display unit further comprises a graphical analysis result display unit for displaying the graphical analysis result. 10. The method of claim 9,
The histogram graph display area of the 2D screen enlargement display window is configured to display different contents depending on the system, inspection results and menu selection classified by the histogram. In the lower part of the 2D screen enlargement display window, a system operation history and log data A system selector for displaying a storage folder window;
A result selecting unit for displaying an inspection result window for each bar code of the inspected product;
A histogram selecting unit for displaying a histogram checking result window of the inspection target product;
Wherein the inspection object is formed so as to be displayed on a single screen including a review button for performing re-inspection after changing specifications of a product to be inspected. 11. The method of claim 10,
Further comprising a file button for confirming data stored in the control unit and a folder button for confirming a data storage folder at a lower portion of the 2D screen enlargement display window. delete The method according to claim 1,
The operation status display unit includes a final test result display unit for displaying the final test result as 'PASS' and 'FAIL';
A communication status RS indicating the communication status of the external device when the system is operated;
A PLC display lamp for displaying a logic control status signal of a program for operating the system;
Wherein the controller is configured to activate and turn on a controller control confirmation lamp that visually confirms the state of the system being controlled on the inspection job in a sequential manner.

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