KR20220096712A - Confidentiality inspection device and its method - Google Patents

Abstract

An airtightness inspection apparatus of the present invention is an airtightness inspection apparatus of a bulk head having a busbar assembly and a wire ring installed on one side of a battery pack assembly and transmitting power to the outside. The airtightness inspection apparatus comprises: a mounting unit on which one side surface of the bulk head is mounted; a chamber unit which is closely attached to the other side of the bulk head mounted on the mounting unit to accommodate a connection unit electrically connected with the wire ring and the busbar assembly; a measurement gas supply unit which supplies measurement gas into the chamber unit; and a determination unit which measures the pressure of the chamber unit and determines whether the airtightness of the bulk head is appropriate. The airtightness inspection apparatus minimizes a human error to improve the inspection reliability and while reducing inspection time.

Description

Confidentiality inspection device and its method

The present invention relates to an airtightness inspection apparatus and a method thereof, and more particularly, to a bulkhead airtightness inspection apparatus and method installed on one side of a battery pack to electrically connect an external device and a battery.

Secondary batteries are widely used in mobile devices, auxiliary power devices, and the like. In addition, secondary batteries are attracting attention as a main power source for electric vehicles, hybrid electric vehicles, plug-in hybrid electric vehicles, etc. presented as an alternative to solve various problems such as air pollution of conventional gasoline and diesel vehicles.

Secondary batteries used in electric vehicles and the like use battery packs in which a plurality of battery cells are stacked and then electrically connected in series and in parallel due to the need for high-output, large-capacity batteries.

As such, the battery pack is a key device in an electric vehicle, and while being electrically connected to the outside, airtightness and watertightness must be maintained by being sealed for electrical connection stability and safety. Therefore, airtightness and watertightness of the bulkhead formed on one side of the battery pack to seal the inside must also be secured.

However, in the prior art, in order to inspect the airtightness of the bulkhead, the operator's fatigue was very high by seating the bulkhead on a jig and manually fixing the cover to the upper side and then performing the airtightness test. There was a problem with lowering.

In addition, there was a problem in that the reliability of the inspection was also low due to human errors such as changing the pressing force depending on the degree of purity of the operator. There was a problem in that the accuracy of the inspection was lowered, and a phenomenon that the inspection was impossible depending on the flatness occurred.

An embodiment of the present invention has been devised to solve the above problems, and an object of the present invention is to provide an airtightness inspection apparatus that improves inspection reliability by realizing semi-automation and reduces inspection time.

A bulkhead airtightness inspection apparatus installed on one side of a battery pack assembly and provided with a wiring and a bus bar assembly for transmitting power to the outside includes: a seating part on which one side of the bulkhead is seated; a chamber part in close contact with the other side of the bulkhead seated on the seating part so as to receive a connector part electrically connected to the wiring and the bus bar assembly; a measuring gas supply unit for supplying a measuring gas to the inside of the chamber unit; and a determination unit for determining whether the airtightness of the bulkhead is suitable by measuring the pressure of the chamber unit.

The seating portion is formed of a seating frame on which an outer circumferential surface of one side of the bulkhead is mounted, and an elastic jig on which seating projections protruding to the outside of the bulkhead at regular intervals along the seating frame are seated, and The same pressure can be applied over the entire area of the bulkhead.

The seating part is installed on one side of the elastic jig, and a pressure sensor for measuring the pressure when the bulkhead is seated is further formed in the seating part, and it can be determined whether the bulkhead is seated according to the measured value of the pressure sensor. .

A laser sensor unit formed of a pair of first laser sensors for determining whether the bulkhead is seated in accordance with the occurrence of interference, and a pair of second laser sensors for determining whether or not the bulkhead is incompletely seated by the occurrence of interference; It is preferable to further include

The chamber part may have a filling part disposed inside a connection space in which the connector part and the battery pack assembly are electrically connected.

The method for inspecting air tightness of a bulkhead including a wiring and a bus bar assembly installed on one side of a battery pack assembly to transmit power to the outside, the first preparation step of seating one side of the bulkhead in a seating part ; a chamber moving step of moving the chamber part to the seating part so that a connector part formed on the other side of the bulkhead seated on the seating part and electrically connecting the wiring and the bus bar assembly is accommodated in the chamber part; a gas supply step of supplying a measurement gas into the chamber part; and an airtightness determination step of determining whether airtightness is suitable by measuring the pressure of the chamber part for a preset time.

The first preparation step includes a seating step of seating the bulkhead so that a seating projection protruding from one side of the bulkhead is positioned on the elastic jig formed in the seating portion, and measuring the pressure generated in the plurality of elastic jigs. It may be formed as a pressure measurement step of determining whether the bulkhead is incompletely seated.

The first preparation step includes a seating step of seating the bulkhead so that a seating projection protruding from one side of the bulkhead is positioned on an elastic jig formed in the seating portion, and the interference of the first and second laser units formed as a pair It may be formed as an interference determination step of determining whether the bulkhead is incompletely seated according to whether or not the bulkhead is incompletely seated.

It is preferable to further include; before the chamber moving step, a second preparation step formed by a closing jig fastening step of fastening the sealing jig to the connector part, and a label scanning step of scanning the circuit inspection label.

In the chamber moving step, it is preferable that the chamber part moves only when a pair of positive buttons are simultaneously pressed, and the chamber part is brought into close contact with the packing formed on the other side of the bulkhead.

The gas supply step introduces the measurement gas so that the chamber part has a constant pressure, and the airtightness determination step calculates the pressure change amount of the chamber part for a preset third time after the gas supply step, and the calculated If the amount of pressure change is less than the preset allowable pressure, it can be judged as appropriate.

As described above, according to the problem solving means of the present invention, various effects including the following items can be expected. However, the present invention is not established only when all of the following effects are exhibited.

The airtightness inspection apparatus and the inspection method of the present invention are provided with a seating part on which an elastic jig is formed, so that the airtightness inspection can be performed regardless of the flatness of one side of the bulkhead, so post-processing of the bottom surface is unnecessary, and the chamber part contacts the bulkhead The reliability of the inspection is improved by making the same pressure to be generated over the entire area.

In addition, a filling part disposed at a portion where the connector part and the battery pack are connected is formed on one side of the accommodating space of the chamber part to reduce the amount of application of the measuring gas required for the test, thereby reducing the test time.

In addition, the operator places the bulkhead on the seating part and inspects the airtightness simply by pressing the operating part, thereby minimizing human errors that may occur during the inspection, thereby improving inspection reliability and remarkably reducing operator fatigue.

1 is a perspective view of an airtightness inspection apparatus according to an embodiment of the present invention.
Figure 2 is a perspective view of a state in which the cover of Figure 1 is removed.
Figure 3 is a perspective view of the seating portion of Figure 2;
FIG. 4 is a cross-sectional view taken along a line IV-IV of FIG. 3 ;
5 is a perspective view from another direction of the chamber part of FIG.
Figure 6 is a view of a state in which the bulkhead is seated in the seating portion of Figure 2;
7 is a view of a state in which the chamber part is in close contact with the other side of the bulkhead in FIG. 6 .
8 is a cross-sectional view taken in a direction VIII-VIII of FIG. 7 ;
Figure 9 is a flow chart of an airtightness inspection method according to an embodiment of the present invention.
10A and 10B are diagrams illustrating the confidentiality audit method of FIG. 9;

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. In this case, in describing the present invention, detailed descriptions of well-known functions or configurations are omitted so as not to obscure the gist of the present invention.

In addition, since the battery pack is the subject of inspection through the airtightness inspection device of the present invention, symbols are assigned to each component for convenience of description of the invention, and will be described first in the description of the invention.

1 is a perspective view of an airtightness inspection device according to an embodiment of the present invention, FIG. 2 is a perspective view of a state in which the cover of FIG. 1 is removed, FIG. 3 is a perspective view of the seating part of FIG. 2, and FIG. 4 is IV- in FIG. It is a cross-sectional view in the IV direction, and FIG. 5 is a perspective view of the chamber part of FIG. 2 in another direction. 6 is a view of a state in which the bulkhead is seated in the seating part of FIG. 2 , FIG. 7 is a view of the chamber part in close contact with the other side of the bulkhead in FIG. 6 , and FIG. 8 is a view in the VIII-VIII direction of FIG. It is a cross section.

1 to 8 , the air tightness inspection device 10 of the bulkhead 1 is installed on one side of the battery pack assembly of the present invention and provided with a wiring and bus bar assembly for transmitting power to the outside. The bulkhead ( The bulkhead (1) by measuring the pressure of the chamber part (300) in close contact with the other side of 1), the measuring gas supply part (400) for supplying the measuring gas to the inside of the chamber part (300), and the chamber part (300) ) characterized in that it includes a judgment unit to determine whether the confidentiality of the suitability.

At this time, a pair of first laser sensors 710 for determining whether or not the bulkhead 1 is seated by interference occurrence, and a pair of first laser sensors 710 for determining whether the bulkhead 1 is incompletely seated by interference occurrence It is preferable to further include a laser sensor unit 700 formed of two laser sensors 720 .

Here, the determination unit is connected to the pressure sensor and the pressure sensor installed inside the chamber unit, calculates the amount of pressure change in the chamber unit 300 for the second time according to the pressure value measured by the pressure sensor, and whether it is below the preset allowable pressure It may be formed as a control unit for determining.

The bulkhead 1 is installed on one side of a battery pack that provides driving power for automobiles, etc., and transmits a high voltage generated from the battery to the outside through wiring or a bus bar assembly, and in this case, the wiring and bus bar assembly and the battery pack A connector part 5 is formed on one side of the bulkhead 1 in order to electrically connect them.

Accordingly, the bulkhead 1 is installed on one open side of the battery pack, and airtightness of a certain level or more must be secured in order to prevent deterioration of the performance of the internal battery pack and secure safety. Therefore, the airtightness inspection apparatus 10 of the present invention performs an airtightness test before the bulkhead 1 is installed on the battery pack, and is installed in the battery pack only when a suitability determination is received in the airtightness test.

At this time, a plurality of seating protrusions 2 that are seated on the elastic jig 220 are formed along the periphery at regular intervals on one side of the bulkhead 1 formed on the outside in a state where it is seated on the battery pack, and of the battery pack. The packing 6 is formed along the circumference on the other side disposed inward. In addition, the sealing jig 7 is fastened to the connector part 5 so that the measurement gas is not discharged during the airtightness test.

In other words, the bulkhead 1 is installed on one side of the battery pack to transmit high voltage generated from the battery pack to the outside, and at the same time to seal the battery pack to prevent foreign substances or moisture from entering into the battery pack in which the battery cells are stacked. do.

The airtightness inspection apparatus 10 includes a seating part 200 , a chamber part 300 , and a measuring device supply part 400 to inspect the airtightness of the bulkhead 1 , and a display part 500 for displaying the inspection result. ) is installed outside.

The seating part 200 is formed of a seating frame 210 on which one side of the bulkhead 1 is seated, and an elastic jig 220 on which the seating protrusion 2 is seated by being formed at regular intervals along the seating frame 210 . so that the seating part 200 can be stably seated.

The mounting frame 210 is formed as a frame so that the outer circumferential surface of one side of the bulkhead 1 is seated to reduce the weight of the airtightness inspection device 10, and the bulkhead 1 is provided on the mounting frame 210 for more stable seating. ), a seating end 211 on which the edge of one side is seated, and an opening 212 on one side are formed so that an operator can more easily seat the bulkhead 1 .

The elastic jig 220 is formed of a member having an elastic force so that one side of the bulkhead 1 is stably seated irrespective of the flatness, and at the same time is formed on the other side when the chamber unit 300 is coupled to make contact with the chamber unit 300 . It improves the reliability of the inspection by making the same pressing force to be generated over the entire area of the part to be used.

Specifically, in the elastic jig 220 , when the bulkhead 1 is seated on the seating part 200 , the seating protrusion 2 formed on one side is disposed upward, and is pressed by the weight of the bulkhead 1 , at this time Even when one side of the bulkhead 1 is not flat, the plurality of elastic jigs 220 have different degrees of deformation to be stably seated.

The chamber part 300 is formed along the outer peripheral surface of the accommodating space 310 and the accommodating space 310 in which the connector part 5 of the seating part 200 is seated, and is formed along the outer peripheral surface of the other side of the bulkhead 1 . It is formed of a close contact part 320 that is in close contact with the battery pack, a filling part 330 disposed in a space where the connector part 5 and the battery pack are connected, and a cylinder part 340 that moves the chamber part 300, so that it can be moved. By sealing the other side of the bulkhead (1).

Specifically, the chamber part 300 is formed on the upper side of the seating part 200 and moved by the operation of the operator's operation part 600 to be mounted on the other side of the bulkhead 1, that is, the battery pack. Accommodates a portion formed on the inside of the battery pack in the installed state, and at this time, the contact portion 320 is in close contact with the packing 6 formed for sealing to provide the same environment as that installed in the battery pack.

In addition, a filling part 330 disposed in a space where the connector part 5 and the battery pack are connected is formed on one side of the receiving space 310 so that the chamber part 300 is in close contact with the other side of the bulkhead 1 . By reducing the generated internal volume of the chamber part 300 that is sealed from the outside, the bulkhead 1 implements the installation environment of the battery pack very similarly, and at the same time reduces the supply amount of the measuring gas to shorten the inspection time.

The measuring gas supply unit 400 is formed on one side of the chamber unit 300 and passes through the chamber unit 300 to supply the measuring gas to the receiving space 310 , and increases the pressure of the receiving space 310 to a preset pressure. increase to make it possible to inspect the airtightness.

In addition, the display unit 500 is installed on the outside of the cover 100 to display whether the measurement pressure and airtightness inside the accommodation space 310 are suitable to further improve the inspection convenience, and an operation unit for moving the chamber unit 300 ( 600) is formed as a pair of buttons, and the pair of buttons are spaced apart by a certain distance so that the chamber unit 300 is formed as a positive button that moves only when the operator operates the pair of buttons with both hands at the same time. Prevent accidents that may occur.

Therefore, the airtightness inspection apparatus 10 of the present invention is provided with a plurality of elastic jigs 220 in the seating portion 200 for seating the bulkhead 1 to stably seat the bulkhead 1, and the packing 6 The reliability of the airtightness test result is improved by making the pressure constant in the formed sealing part.

In addition, the chamber part 300 is moved only by the operation of the operation part 600 to minimize human error to increase the effect of improving the reliability of the test, and at the same time, the filling part 330 is formed in the receiving space 310 to measure the amount of the applied measurement gas. By reducing the amount, the time required for inspection is shortened.

The laser sensor 700 is installed on both sides of the seating part 200, and a pair of first laser sensors 710 for determining whether the bulkhead 1 is seated by interference occurrence, and the bulkhead by interference occurrence (1) is formed of a pair of second laser sensors 720 to determine whether or not the incomplete seating improves the reliability and stability of the inspection.

Specifically, the first and second laser sensors 710 and 720 are formed as a pair and are respectively installed on both sides of the seating part 200 , and in this case, the first laser sensor 710 has the bulkhead 1 mounted on the seating part 200 . When the bulkhead 1 is formed at the height at which the bulkhead 1 is disposed and interference occurs, it is determined that the bulkhead 1 is seated, and when the interference does not occur, the bulkhead 1 is not seated. It is a sensor that determines whether the bulkhead 1 is seated on the seat 200 by determining that it is not.

In addition, the second laser sensor 720 is formed directly above the height of the uppermost end of the bulkhead 1 in a state in which the bulkhead 1 is seated on the seating portion 200, so that when interference does not occur, the bulkhead 1 ) is judged to be completely seated, and when one side of the bulkhead 1 protrudes from the seating position due to incomplete seating, interference occurs and the bulkhead 1 is judged to be incompletely seated. Seating unit 200 It is a sensor for determining whether the bulkhead (1) is incompletely seated on the.

In other words, the airtightness inspection apparatus 10 of the present invention displays on the display unit that the bulkhead 1 is completely seated only when interference does not occur to the second laser sensor while the first laser sensor is interfered with. By allowing the process to proceed, the accuracy of inspection and operator convenience are significantly improved.

At this time, as described above, at least one of the pressure sensor and the laser sensor 700 formed on one side of the elastic jig 220 to measure the pressure generated by the elastic jig 220 when the bulkhead 1 is seated is selectively selected. can be installed.

The AREA sensor 800 detects an object between the operation unit 600 and the seating unit 200 during the air tightness inspection of the bulkhead 1, and the airtightness inspection device even when the positive button of the operation unit 600 is pressed. Stop (10).

Specifically, when the chamber unit 300 moves to the upper side of the bulkhead 1 seated on the seating unit 200, the sensor detects an object in the space between the operation unit 600 and the seating unit 200, so that the sensor enters the receiving space ( 310) while preventing the inflow of foreign substances into the chamber 300 and preventing accidents such as injury to the operator by the movement of the chamber 300.

For this reason, an emergency end button 900 that is operated by a worker or a rescuer to quickly stop the airtightness test apparatus 10 may be formed on one side of the airtightness test apparatus 10 .

Therefore, the airtightness inspection apparatus 10 of the present invention has the effect of improving the stability of the inspection and the convenience of the operator by providing the AREA sensor 800 and the emergency end button 900 .

Hereinafter, an inspection method by the airtightness inspection apparatus 10 will be described in detail.

9 is a flowchart of a confidentiality inspection method according to an embodiment of the present invention, and FIGS. 10A and 10B are diagrams illustrating the confidentiality inspection method of FIG. 9 .

9 to 10 , the method of inspecting the tightness of the bulkhead 1 including a wiring and bus bar assembly installed on one side of the battery pack assembly and transmitting power to the outside according to the present invention ) is mounted on the battery pack, a first preparation step (S10) of seating one side of the bulkhead 1 disposed outside on the seating part 200 on which it is seated, and seating on the seating part 200 The chamber part 300 is mounted on the chamber part 300 so that the connector part 5 formed on the other side of the bulkhead 1 and electrically connecting the wiring and the bus bar assembly is accommodated in the chamber part 300 . A chamber moving step (S30) of moving to the unit 200, a gas supplying step (S40) of supplying a measurement gas into the chamber unit 300, and measuring the pressure of the chamber unit 300 for a preset time It characterized in that it comprises a confidentiality determination step (S50) for determining whether the confidentiality suitability.

At this time, before the chamber moving step (S30), the sealing jig 7 fastening step (S21) for fastening the sealing jig 7 to the connector part 5, and the label scanning step (S22) of scanning the circuit inspection label It is preferable to further include a second preparation step (S20) to be formed.

The first preparation step ( S10 ) is a step of seating the bulkhead 1 on the seating unit 200 . When installed in a battery pack, one side of the bulkhead 1 disposed outside is placed on the seating frame 210 . The seating projection 2 is positioned to be seated on the elastic jig 220 while being seated.

The first preparation step (S10) of an embodiment is a seating step (S11) of seating the seating projections 2 protruding from one side of the bulkhead 1 to be positioned on the elastic jig 220 formed in the seating part 200 (S11) And, after the bulkhead 1 is seated, each pressure generated in the elastic jig 220 is measured to determine whether the bulkhead 1 is incompletely seated.

At this time, the seating determination step (S12) calculates the pressing force generated in the elastic jig 220 by the weight of the bulkhead 1, and when the calculated pressure of the elastic jig 220 is less than or equal to a pre-designed critical pressure, the bulkhead (1) is determined to be incompletely seated and displayed on the display unit 500 .

The first preparation step (S110) of an embodiment of another embodiment is a seating step of seating the seating protrusions 2 protruding from one side of the bulkhead 1 to be positioned on the elastic jig 220 formed in the seating part 200 (S111) and the interference determination step (S112) of determining whether the bulkhead 10 is seated or incompletely seated according to the occurrence of interference between the first and second laser units 710 and 720 formed as a pair.

The interference determination step (S112) is a seating determination step of determining whether the bulkhead 1 is seated by the first laser sensors 710 respectively installed on both sides of the seating portion 200 formed as a pair (S1121) Incomplete seating for determining whether the bulkhead 1 seated on the seating part 200 is incompletely seated by the second laser sensors 720 respectively installed on both sides of the seating part 200 formed as a pair It is formed in the judgment step S1122.

Specifically, the seating determination step ( S1121 ) is performed by the first laser sensor 710 installed at the arrangement position of the bulkhead 1 seated on the seating part 200 . In the case of full seating by the second laser sensor 720 installed just above the uppermost side of the bulkhead 1 seated on the seating part 200, the incomplete seating determination step (S1122) interferes with the complete seating. This does not occur, but when incompletely seated, the bulkhead 1 is tilted and formed higher than the preset uppermost height on one side, so that interference occurs in the second laser sensor 720. judge

Therefore, the airtightness inspection method of the present invention can measure whether the bulkhead 1 is seated or not (incomplete seating) in various ways, and can be selected and applied according to needs and design.

The second preparation step (S20) is a sealing jig fastening step (S21) of fastening the sealing jig 7 to the connector part 5, and a circuit inspection label through a label scanner provided on one side of the airtightness inspection device 10 is formed in the label scanning step (S22) of scanning After installation, tracking is possible, so maintenance is easy.

In addition, since the circuit inspection label includes information on the inspection conditions for each specification of the bulkhead 1, the inspection can be performed according to the pre-stored conditions without a separate operation by the operator by the label scanning step (S22), and the bulkhead By replacing the seating part and the chamber part according to the specifications of , it is possible to inspect the bulkhead 1 of various specifications with one airtight inspection device 10, thereby reducing the initial installation investment cost.

Therefore, the airtightness inspection method of the present invention has the effect of improving the reliability of the inspection by providing the first and second preparation steps (S10, S20), and improving the convenience by minimizing the man-hours of the operator.

The chamber moving step (S30) is a step of moving the chamber unit 300 to the other side of the bulkhead 1 seated on the mounting unit 200, providing the same environment as that in which the bulkhead 1 is installed in the battery pack. do. The receiving space 310 formed in the chamber part 300 is in close contact with the periphery including the packing 6 so as to accommodate the connector part 5 so that the contact part 320 formed along the circumference of the chamber part 300 is in close contact. do.

At this time, the chamber moving step (S30) is performed only when a pair of positive buttons are simultaneously pressed to prevent accidents that may occur during the inspection.

The gas supply step (S40) is a step of supplying the measurement gas to the receiving space 310 of the chamber part 300 in close contact with the other side of the bulkhead 1, and supplying the measurement gas according to a preset condition, and receiving Measure the pressure in the space 310 .

Specifically, the gas supply step ( S40 ) includes a supply step ( S41 ) of supplying the measurement gas at a first pressure for a first time so that the accommodation space 310 becomes a predetermined design pressure, and after the first time has elapsed, the measurement gas It is formed in the standby step (S42) of stopping the supply and waiting for the second time, and the receiving space 310 is set to have a constant pressure.

At this time, the standby step (S42) prevents the measured pressure value from changing by the vortex of the measuring gas generated in the receiving space 310 by the supply step (S41) from reaching a predetermined design pressure, thereby preventing airtightness inspection. increase the reliability improvement effect of

The airtight determination step (S50) is a step of determining whether the airtightness of the bulkhead 1 is suitable. Specifically, after the waiting step (S42), a calculation step (S51) of calculating the pressure changed for a third time, and the calculated pressure If the amount of change is less than the preset allowable pressure, a suitability determination is made, and when the allowable pressure is exceeded, the airtightness determination step (S52) and the airtightness determination step (S52) to determine the suitability determined in the airtightness determination step (S52) to the display unit 500 A display step (S53) for displaying is formed.

At this time, the calculation step (S51) calculates the difference between the two pressures measured after measuring the pressure in the receiving space 310 after the waiting step S42, and measuring the pressure in the receiving space 310 after the third time has elapsed, In the airtightness determination step (S52), it is determined whether or not it is suitable by comparing the associated pressure change amount and the allowable pressure.

Therefore, the airtightness inspection method of the present invention provides the same environment as that in which the bulkhead 1 is installed in the battery pack, improves the reliability of the airtightness test, and stores the pressure data of the accommodation space 310 measured for the second time to determine inappropriateness The cause can be easily deduced even when it is received.

In the above, preferred embodiments of the present invention have been exemplarily described, but the scope of the present invention is not limited to such specific embodiments, and it is within the protection scope of the present invention that can be appropriately changed within the scope described in the claims. corresponds to

10 Airtightness Checking Device
100 covers
200 Seating part 210 Seating frame
211 seating end 212 opening
220 elastic jig
300 chamber part 310 accommodation space
320 Adhesive part 330 Filling part
340 cylinder
400 Measuring gas supply unit 500 Display unit
600 actuation part
700 laser sensor 710 first laser sensor
720 second laser sensor
800 Area sensor 900 Emergency end button
1 Bulkhead 2 Seating projection
5 Connector 6 Packing
7 sealing jig

Claims (11)

In the bulkhead airtightness inspection apparatus provided on one side of the battery pack assembly and having a wiring and bus bar assembly for transmitting power to the outside,
a seating part on which one side of the bulkhead is seated;
a chamber part in close contact with the other side of the bulkhead seated on the seating part so as to receive a connector part electrically connected to the wiring and the bus bar assembly;
a measuring gas supply unit for supplying a measuring gas to the inside of the chamber unit; and
Airtightness inspection apparatus comprising a; a determination unit that measures the pressure of the chamber portion to determine whether the airtightness of the bulkhead is appropriate.
According to claim 1,
The seating part
A seating frame on which an outer circumferential surface of one side of the bulkhead is seated, and an elastic jig on which seating protrusions protruding to the outside of the bulkhead at regular intervals along the seating frame are seated are formed of the bulkhead by the measuring gas. Airtightness inspection device, characterized in that the same pressure is applied to the entire area.
3. The method of claim 2
The seating part
Airtightness, characterized in that the pressure sensor is installed on one side of the elastic jig to measure the pressure when the bulkhead is seated in the seating portion, and determines whether the bulkhead is seated according to the measured value of the pressure sensor. inspection device.
According to claim 1,
a laser sensor unit formed of a pair of first laser sensors for determining whether the bulkhead is seated in accordance with interference occurrence, and a pair of second laser sensors for determining whether the bulkhead is incompletely seated by interference occurrence; Airtightness inspection device, characterized in that it further comprises
According to claim 1,
the chamber part
The airtightness inspection device, characterized in that the filling part disposed in the connection space to which the connector part and the battery pack assembly are electrically connected is formed inside.
In the air tightness inspection method of a bulkhead having a wiring and a bus bar assembly installed on one side of a battery pack assembly to transmit power to the outside,
a first preparation step of seating one side of the bulkhead on a seating part;
a chamber moving step of moving the chamber part to the seating part so that a connector part formed on the other side of the bulkhead seated on the seating part and electrically connecting the wiring and the bus bar assembly is accommodated in the chamber part;
a gas supply step of supplying a measurement gas into the chamber part; and
Airtightness determination step of determining whether the airtightness is suitable by measuring the pressure of the chamber part for a preset time; Airtightness inspection method comprising a.
7. The method of claim 6,
The first preparation step is
A seating step of seating the bulkhead so that a seating projection protruding from one side of the bulkhead is positioned on an elastic jig formed in the seating portion, and incomplete seating of the bulkhead by measuring the pressure generated in the plurality of elastic jigs Airtightness inspection method comprising the step of measuring pressure to determine whether or not.
7. The method of claim 6,
The first preparation step is
A seating step of seating the bulkhead so that a seating projection protruding from one side of the bulkhead is positioned on an elastic jig formed in the seating portion, and the first and second laser portions formed as a pair interfering with the bulkhead Confidentiality inspection method comprising the step of determining whether the incomplete seating of the interference.
7. The method of claim 6,
Before the chamber moving step, a second preparation step formed by a sealing jig fastening step of fastening the sealing jig to the connector part, and a label scanning step of scanning the circuit inspection label; airtightness testing method further comprising a.
7. The method of claim 6,
The chamber moving step is
Airtightness inspection method, characterized in that the chamber part moves only when a pair of positive buttons are simultaneously pressed, and the chamber part is brought into close contact with the packing formed on the other side of the bulkhead.
7. The method of claim 6,
The gas supply step is
The measuring gas is introduced so that the chamber part has a certain pressure,
The confidentiality determination step is
Airtightness inspection method, characterized in that after the gas supply step, calculating the pressure change amount of the chamber part for a preset third time, and determining suitability if the calculated pressure change amount is less than a preset allowable pressure.

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