KR20220011476A - Leak test apparatus of battery case for electric vehicle - Google Patents

Abstract

The present invention discloses a leak test apparatus for a battery case of electric and hybrid vehicles. The leak test apparatus for a battery case of electric and hybrid vehicles disclosed herein comprises: a frame; a case mounting/transferring unit including a case mounting table which is movably installed on the frame through an LM guide and on which a battery case is mounted and a table driving unit which is provided in the frame to be connected to the case mounting table, and moves the case mounting table; and a case pressing/sealing unit which is provided in the frame so that the case mounting table moved by the case mounting/transferring unit enters, and elastically presses the battery case so that the battery case is in close contact with the case mounting table. Accordingly, the present invention is capable of stably performing a leak test while preventing deformation of the battery case, and tightly sealing a side hole in the battery case.

Description

Leak test device for battery case of electric and hybrid vehicles

The present invention relates to a leak inspection device for a battery case of an electric and hybrid vehicle, and more particularly, it is possible to stably conduct a leak test while preventing deformation of the battery case, and to tightly seal the side hole of the battery case It relates to a leak inspection device for battery cases of electric and hybrid vehicles.

Recently, interest in environmental vehicles is increasing due to environmental problems and high oil prices, and various electric vehicles and hybrid vehicles that use electric energy to drive the vehicle are being developed.

Accordingly, many manufacturers have recently developed and released a PHEV (Plug-in Hybrid Electric Vehicle) system together with HEV (Hybrid Electric Vehicle). Unlike conventional HEVs, PHEVs are equipped with high-capacity/high-performance batteries and can be charged from the outside of the vehicle using electricity from homes or buildings. As electric driving using only batteries, such as electric vehicles, occupies a large proportion, high efficiency must be ensured for electric driving.

The battery module used in these electric vehicles and plug-in hybrid vehicles is protected by a battery case. The battery case has a hexahedral shape, a hole for installing a lead wire, etc. is formed, and a leak test is performed.

However, there is a problem in that it is very difficult to perform the airtight test on the battery case of the prior art as described above.

Therefore, there is a need to improve it.

On the other hand, domestic registration patent No. 10-1067036 (registration date: 2011.09.16) discloses a "vehicle battery case inspection device".

The present invention was created by the above necessity, and it is possible to prevent the deformation of the battery case pressed for the leak test, and electric and hybrid electric and hybrid that can perform the leak test stably while tightly sealing the side hole of the battery case An object of the present invention is to provide a leak inspection device for a battery case of a vehicle.

In order to achieve the above object, a leak inspection apparatus for a battery case of an electric and hybrid vehicle according to an aspect of the present invention includes a frame, a case seating table that is movably installed in the frame through an LM guide and is mounted with a battery case; , A case seating transfer unit provided in the frame to be connected to the case seating table and having a table driving unit for moving the case seating table, and a case seating table moved by the case seating transfer unit are provided in the frame to enter, , It characterized in that it comprises a case pressurizing sealing portion for pressing the battery case in close contact with the case seating table.

In addition, in the present invention, the case pressure sealing part is provided on the lifting driving member provided to be movable up and down on the frame, and the lifting driving member so as to contact the battery case, so that the edge of the battery case is placed on the case seating table. It is characterized in that it includes an elastic pressing member that is elastically supported in close contact with the battery case.

In addition, in the present invention, the elastic pressing member includes a support pin member that is vertically movably inserted into the lifting drive member, a spring member provided between the lifting drive member to elastically support the support pin member, and the support pin and a case support pad coupled to the lower end of the member and selectively contacting the battery case.

In addition, in the present invention, the case seating transfer unit is characterized in that it further includes a plurality of case support blocks coupled to the case seating table to support the battery case according to the shape of the battery case.

In addition, in the present invention, the case pressure sealing portion, coupled to the lifting driving member, characterized in that it further comprises a side sealing member for sealing the side hole of the battery case.

In addition, in the present invention, the case seating table is characterized in that the side support block that is caught and supported as the side sealing member descends is coupled.

In addition, in the present invention, the side sealing member is characterized in that it is provided with a locking protrusion that is inserted into the side support block.

In addition, in the present invention, the side support block is characterized in that it includes a locking groove portion into which the locking protrusion is inserted and supported.

As described above, the leak inspection apparatus for a battery case of an electric and hybrid vehicle according to an aspect of the present invention can prevent the battery case from being deformed by the pressurization by elastically pressing the battery case with the case seating table unlike the prior art. In addition, it has the effect of stably performing a leak test in a state in which the side hole formed on the side of the battery case is tightly sealed.

1 is a perspective view for explaining a leak inspection apparatus for a battery case of an electric and hybrid vehicle according to an embodiment of the present invention.
2 is a perspective view of a leak inspection apparatus for a battery case of an electric and hybrid vehicle in a state in which the operation protection frame is removed according to an embodiment of the present invention.
3 is a front view of FIG. 2 ;
FIG. 4 is a front view of FIG. 2 ;
5 is a perspective view illustrating a case pressure sealing unit according to an embodiment of the present invention.
6 is a perspective view for explaining a side sealing member according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of a leak inspection apparatus for a battery case of an electric and hybrid vehicle according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

1 is a perspective view for explaining a leak inspection apparatus for a battery case of an electric and hybrid vehicle according to an embodiment of the present invention, and FIG. A perspective view of a leak inspection device for a vehicle battery case, FIG. 3 is a front view of FIG. 2 , and FIG. 4 is a front view of FIG. 2 .

In addition, FIG. 5 is a perspective view illustrating a case pressure sealing unit according to an embodiment of the present invention, and FIG. 6 is a perspective view illustrating a side sealing member according to an embodiment of the present invention.

1 to 6 , the leak inspection apparatus 100 for a battery case of an electric and hybrid vehicle according to an embodiment of the present invention includes a frame 110 , a case seating transfer unit 120 , and a case pressure sealing. The airtightness of the battery case 10 is inspected by injecting air into the battery case 10 that includes the unit 130 and is seated on the case seating transfer unit 120 in close contact. At this time, a side hole 11 is formed in the side of the battery case 10 .

The frame 110 is provided with an air supply unit (not shown) for supplying air to the inside of the battery case 10 for airtightness inspection, and a control panel 111 and a display unit 112 are provided on one side.

In addition, the frame 110 has an upper plate portion 113 on which the case seating transfer unit 120 is installed, and an operation protection frame 114 for protecting the case pressure sealing unit 130 is formed on one side of the upper plate portion 113 . . The operation protection frame 114 has a transparent cover for protection coupled therein, and a lifting guide part 115 in which the case pressure sealing part 130 is installed is formed.

The lifting guide 115 includes a plurality of support pipes 115a coupled to the upper plate 113 to be spaced apart from each other, and a case pressure sealing part 130 coupled to the upper end of the support pipe 115a, the operation guide plate ( 115b) is bound.

The case seating transfer unit 120 according to the present embodiment is installed on the upper plate unit 113 to selectively move the battery case 10 for leak inspection.

To this end, the case seating transfer unit 120 includes a case seating table 121 that is movably installed on the upper plate 113 through the LM guide 121a and a frame 110 to move the case seating table 121 . It includes a provided table driving unit 123 and a case support block 125 for supporting the inside of the battery case 10 .

The case seating table 121 is coupled to the transport block of the LM guide 121a on its lower surface, and reciprocates along the guide rail of the LM guide 121a coupled to the upper plate 113 .

In addition, the case mounting table 121 is coupled to the case sealing pad 121b in contact with the edge of the battery case 10 , and the case support block 125 is coupled to the inside of the case sealing pad 121b.

The table driving unit 123 is provided in the frame 110 to be connected to the lower surface of the case seating table 121 . The table driving unit 123 according to the present embodiment may be a ball screw or a timing belt method.

A plurality of case support blocks 125 are provided to support the inside of the battery case 10 according to the shape of the battery case 10 , and a plurality of cases are selectively coupled to the case seating table 121 .

In addition, the case support block 125 includes a hole support plate 125a to stably support the inner surface in which the side hole 11 of the battery case 10 is formed.

On the other hand, the case seating table 121 is, the case pressure sealing part 130 so that the sealing is more stable and close when the case pressure sealing part 130 closes the side hole 11 together with the hole support plate 125a. ) is further provided with a side support block 127 supported.

The side support block 127 is formed with a locking groove portion 127a so that the case pressurizing sealing part 130 is inserted and supported by the lowering. The side support block 127 is coupled to the case seating table 121 so as to be positioned outside the case sealing pad 121b.

In the case seating transfer unit 120 according to this embodiment, when the battery case 10 is seated on the case seating table 121, the table driving unit 123 operates to move the case seating table 121 to the operation guide plate ( 115b) is transferred to the lower side. Then, the case pressure sealing part 130 descends to pressurize the battery case 10 to closely adhere to the case sealing pad 121b and the side support block 127 to prevent air leakage.

The case pressure sealing unit 130 is provided to be movable up and down in the elevating guide part 115 of the frame 110 so that the case seating table 121 moved by the case seating transfer unit 120 enters, and the battery case ( 10) is pressed and brought into close contact with the case seating table 121 . Thereafter, air is injected into the battery case 10 through the case seating table 121 using a compressor provided in the frame 110 to check for leaks.

The case pressure sealing unit 130 according to the present embodiment is provided in the lifting driving member 131 provided on the operation guide plate 115b and the lifting driving member 131 to accommodate the battery case 10 on the case seating table. It includes an elastic pressing member 133 in close contact with the 121 and a side sealing member 135 for sealing the side hole 11 of the battery case 10 .

The lifting driving member 131 is movably installed on the lifting plate 131a positioned below the operation guide plate 115b, and the operation guide plate 115b, and the lifting guide rod 131b coupled to the lifting plate 131a. ) and an actuator (131c) coupled to the operation guide plate (115b) so as to be connected to the lifting plate (131a). In this case, a hydraulic cylinder may be used as the actuator 131c.

The elastic pressing member 133 is coupled to the lifting plate 131a, and selectively contacts the battery case 10 according to the lifting and lowering of the lifting plate 131a to bring the battery case 10 into close contact with the case seating table 121 . . At this time, the battery case 10 is supported by the elastic pressing member 133 through elasticity to prevent the battery case 10 from being deformed or damaged when pressed.

The elastic pressing member 133 includes a support pin member 133a that is vertically inserted into the lifting plate 131a, a spring member 133b that elastically supports the support pin member 133a, and a battery case ( 10) and a case support pad (133c) coupled to the lower end of the support pin member (133a) so as to be in contact.

The support pin member 133a is provided to be spaced apart from the lifting plate 131a to support the edge of the battery case 10, and is elastically supported downward by the spring member 133b. In the support pin member 133a, the support pin 133a' inserted into the through hole 131d of the elevating plate 131a is formed with a step at the upper end thereof.

A bushing 133d is coupled to the support pin 133a', penetrates the spring member 133b and is inserted into the through-hole portion 131d, and the pin fixing bolt 133e is fastened at the upper end to separate from the through-hole portion 131d. is prevented from becoming

The spring member 133b is coupled to the support pin member 133a so that the support pin 133a ′ passes therethrough, and elastically supports the support pin member 133a in contact with the battery case 10 . The lower end of the spring member (133b) is in contact with the step portion of the support pin member (133a) and the upper end is in contact with the lower surface of the lifting plate (131a).

The case support pad 133c is coupled to the lower end of the support pin member 133a to selectively contact the battery case 10 and prevent the battery case 10 pressed by the case pressurization sealing unit 130 from being deformed or damaged. will prevent The case support pad 133c is formed to have elasticity by synthetic resin.

The side sealing member 135 according to the present embodiment is coupled to the elevation plate 131a and is positioned at one side of the side hole 11 as the elevation driving member 131 descends, and is in close contact with the battery case 10 on the side The hole 11 is sealed.

The side sealing member 135 includes a side plate 135a coupled to the lifting plate 131a, and a hole sealing plate 135b movably coupled to the side plate 135a to seal the side hole 11 and , is provided on the side plate (135a) is provided with a pneumatic cylinder (135c) for driving the hole sealing plate (135b).

At this time, the side plate (135a) is inserted into the engaging groove (127a) of the side support block (127), the engaging projection (135d) is formed to protrude.

The operation of the leak inspection device for the battery case of electric and hybrid vehicles according to an embodiment of the present invention configured as described above will be described.

First, the case support block 125 is coupled to the case seating table 121 to correspond to the internal shape of the battery case 10 in a state in which the case seating table 121 is exposed to the outside of the operation protection frame 114 . Then, the battery case 10 is mounted on the case seating table 121 , and the table driving unit 123 is operated to move the case seating table 121 to the inside of the elevating guide part 115 . At this time, a pad for sealing is attached to the side hole 11 of the battery case 10 .

Thereafter, when the lifting driving member 131 is operated, the lifting plate 131a descends while the case support pad 133c of the support pin member 133a presses the edge surface of the battery case 10 to lift the battery case 10 . It adheres to the case seating table 121 . And the side sealing member 135 operates to seal the side plate 135a to the side hole 11 of the battery case 10 .

Thereafter, air is injected into the battery case 10 through the case seating table 121 to check whether the battery case 10 is leaking. And when the inspection of the battery case 10 is completed, the lifting plate 131a is raised, the case seating table 121 is moved to the outside of the operation protection frame 114 , and the battery case 10 is separated.

In the leak inspection apparatus 100 for a battery case of an electric and hybrid vehicle according to the present invention configured as described above, the support pin member 133a for pressing the battery case 10 to the case seating table 121 is a spring member 133b ), since the battery case 10 is pressed in the elastically supported state, it is possible to prevent the battery case 10 from being deformed or damaged. That is, it is possible to prevent product defects from occurring in the process of inspecting the battery case 10 .

In addition, the leak inspection apparatus 100 for a battery case of an electric and hybrid vehicle according to the present invention tightly seals the side hole 11 formed on the side surface of the battery case 10 using the side sealing member 135 . In this state, the leak test can be performed stably, and since the side plate 135a supporting the side hole 11 is supported by being caught by the side support block 127, the hole sealing plate 135b closely adheres the side hole 11. When the side plate (135a) is prevented from moving.

Although the present invention has been described with reference to the embodiment shown in the drawings, this is merely exemplary, and it is understood that various modifications and equivalent other embodiments are possible by those of ordinary skill in the art. will understand

Accordingly, the true technical protection scope of the present invention should be defined by the claims.

100: Leak inspection device for battery cases of electric and hybrid vehicles
110: frame 10: battery case
11: side hole 111: control panel
112: display unit 113: top plate
114: operation protection frame 115: elevating guide part
120: case seating transfer unit 121: case seating table
123: table driving unit 125: case support block
127: side support block 130: case pressure sealing part
131: elevating driving member 133: elastic pressing member
135: side sealing member

Claims (6)

frame;
a case seating transfer unit having a case seating table movably installed on the frame through an LM guide to mount a battery case, and a table driving unit provided on the frame to move the case seating table to be connected to the case seating table; and
a case pressure sealing part provided in the frame so that the case seating table moved by the case seating transfer part enters, and elastically pressing the battery case to closely contact the case seating table;
Leak inspection device for battery cases of electric and hybrid vehicles, characterized in that it comprises a.
The method of claim 1,
The case pressure sealing unit may include: a lifting driving member provided on the frame to be movable up and down; and
an elastic pressing member provided on the elevating driving member so as to be in contact with the battery case so as to be in close contact with the edge portion of the battery case to the case seating table, and elastically supported as it closely adheres to the battery case;
Leak inspection device for battery cases of electric and hybrid vehicles, characterized in that it comprises a.
3. The method of claim 2,
The elastic pressing member may include a support pin member that is vertically movable in the lifting driving member;
a spring member provided between the lifting driving member to elastically support the support pin member; and
a case support pad coupled to a lower end of the support pin member and selectively contacting the battery case;
Leak inspection device for battery cases of electric and hybrid vehicles, characterized in that it comprises a.
3. The method of claim 2,
The case seating transfer unit may further include a plurality of case support blocks coupled to the case seating table to support the battery case according to the shape of the battery case. .
5. The method of claim 4,
The case pressurizing sealing part further includes; a side sealing member coupled to the lifting driving member to seal the side hole of the battery case,
The case seating table is a leak test device for a battery case of an electric and hybrid vehicle, characterized in that the side support block supported by being caught as the side sealing member descends is coupled.
6. The method of claim 5,
The side sealing member is provided with a blocking protrusion inserted into the side support block,
The side support block is a leak test device for a battery case of an electric and hybrid vehicle, characterized in that it comprises a locking groove portion in which the locking protrusion is inserted and supported.

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