KR20150100500A - Battery testing apparatus - Google Patents

Abstract

Provided is an apparatus for testing a battery capable of lightening the burden of a test preparation work. An apparatus for testing a battery (10) comprises: a pressure plate (16) for pressurizing a battery (B) when testing a squeeze of a battery (B); a driving part (18) which generates a driving force for transferring the pressure plate (16). The pressure plate (16) has an attachment part (42b) capable of attaching a jig (44) for testing a nail penetration, wherein the attachment part (42b) has a female screw part which is screw-coupled to a male screw part (44b) of a jig (44) for testing a nail penetration. The apparatus for testing a battery (10) further includes a lid member (50) for blocking the female screw part.

Description

[0001] BATTERY TESTING APPARATUS [0002]

The present invention relates to a battery testing apparatus.

BACKGROUND ART [0002] As disclosed in Japanese Patent No. 4408058, a battery testing apparatus for evaluating the safety of a battery is known. In a battery testing apparatus disclosed in Japanese Patent No. 4408058, when a cell is subjected to a compression test, a flat plate or a rectangular member is attached to the tip of the driven rod. By driving the rod, the battery is pressed by a flat plate or a plate. On the other hand, when the nail penetration test of the battery is carried out, a nail is attached to the tip of the rod. By driving the rod, the nail penetrates into the battery. As a result, an internal short circuit of the battery occurs.

In the battery test apparatus disclosed in Japanese Patent No. 4408058, in the case of performing the compression test of the battery and in the case of performing the nail penetration test, the member attached to the tip of the rod is removed and then replaced with another member There is a need. For example, when performing the nail penetration test, the flat plate or the plate material is detached from the rod, and the nail is attached to the rod. For this reason, there is a problem in the battery testing apparatus that it takes time to prepare for the test.

An object of the present invention is to provide a battery testing apparatus capable of reducing the burden of preparation work for testing.

A battery testing apparatus according to an aspect of the present invention is a battery testing apparatus for testing a battery disposed in a test tank, comprising: a pressure plate for pressing the battery at the time of the compression test of the battery; And a nail penetration test jig can be attached to the pressure plate.

According to the battery testing apparatus of the present invention, the burden of preparation for the test can be reduced.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a diagram showing the overall configuration of a battery testing apparatus according to an embodiment of the present invention. FIG.
Fig. 2 is a view for explaining a configuration of a pressure plate provided in the battery tester. Fig.
3 is a view for explaining a pressing portion constituting the pressure plate.
4 is a view for explaining a modified example of the pressing portion.
Fig. 5 is a view for explaining a configuration when an external short-circuit test is performed in the battery testing apparatus.

Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the drawings.

The battery test apparatus according to the present embodiment is a test apparatus capable of performing a collapse test of a battery, a nail penetration test, an external short circuit test, and a charge / discharge test.

1, the battery testing apparatus 10 according to the present embodiment includes a test tank 12, a mount 14 as an example of a fixed body disposed outside the test tank 12, And a driving unit 18 for generating a driving force for moving the pressing plate 16. The driving unit 18 includes a pressing plate 16 for pressing the pressing plate 16, Although not shown, the battery testing apparatus 10 is provided with a control section for performing setting, recording, and operation control of test conditions.

The test tank 12 is provided with a test chamber 21 in which a battery B to be tested can be stored. In the test chamber 21, an air conditioning unit (not shown) for performing air conditioning is provided. The test chamber 21 has a bath main body 25 having a front side opened and a door (not shown) for opening and closing the front side opening of the bath main body 25. 1 is depicted with the door omitted for the sake of convenience. The door can be locked to the bath main body 25 by a lock portion (not shown).

A pair of (two or four) first insertion holes 25b and a second insertion hole 25b disposed between the both first insertion holes 25b are formed in the ceiling portion 25a of the bath main body 25, (Not shown). The first penetration hole 25b and the second penetration hole 25c penetrate the ceiling portion 25a. The first penetration hole 25b and the second penetration hole 25c communicate with the outside of the space inside the test chamber 12 (in the test chamber 21). One side (left side in Fig. 1) side portion 25d of the bath main body 25 has a communication hole 25e penetrating the side portion 25d. The communication hole 25e is covered with a lid 25f. The cover body 25f is removed and the space in the test chamber 12 (in the test chamber 21) and the outside communicate with each other through the communication hole 25e.

The air conditioning unit is provided with a heater, a cooler, a fan, and the like. The air in the test chamber 21 can be adjusted to a predetermined temperature condition by the air conditioning unit. That is, the test tank 12 is constituted by an environmental test apparatus such as a thermostatic chamber or a constant temperature and humidity chamber.

The mount 14 includes an upper surface portion 14a disposed above the test tank 12 and a pair of leg portions 14b for respectively supporting both end portions of the upper surface portion 14a. The upper surface portion 14a is constituted by a plate-like or rod-like member extending in the horizontal direction.

A pair of (two, four, etc.) guide shafts 30 are suspended on the upper surface portion 14a of the mount 14. At the upper end of each guide shaft 30, a male screw is formed. The male screw formed on the upper end of the guide shaft 30 is screwed to the female screw 14c formed on the upper face portion 14a. Therefore, both guide shafts 30 are detachable from the mount 14.

Each of the guide shafts 30 is inserted into the first insertion hole 25b provided in the ceiling portion 25a of the bath main body 25. [ Therefore, the upper end portion of the guide shaft 30 is located outside the test chamber 21, and the lower end portion of the guide shaft 30 is positioned within the test chamber 21.

On the lower end of the guide shaft 30, a test table 32 for holding a battery B to be tested is fixed. Specifically, at the lower end of the guide shaft 30, a female screw portion capable of fastening a fastener 34 having a head portion is formed. The test table 32 is constituted by a plate-shaped member, and an insertion hole for inserting the male thread portion of the fastener 34 is formed in the test table 32. The fastening tool 34 inserted into the insertion hole of the test table 32 from below is screwed on the female threaded portion of the guide shaft 30 so that the test stand 32 is moved downward by the head of the fastening hole 34 Respectively. That is, the guide shaft 30 also functions as a supporting member for supporting the test table 32. [ The configuration for fixing the test bed 32 is not limited to this.

The driving unit 18 for moving the pressure plate 16 up and down includes a cylinder 18a and a rod 18b provided so as to move back and forth with respect to the cylinder 18a. To the cylinder 18a, a hydraulic pump 36 as a driving source is connected. By driving the hydraulic pump 36, the rod 18b can be moved forward and backward. The driving source of the rod 18b is not limited to the hydraulic pump 36 but may be a pump for supplying a fluid such as an air pressure pump or an electric motor.

The cylinder 18a is fixed to the upper surface portion 14a of the mount 14. The upper surface portion 14a is formed with an insertion hole through which the rod 18b is inserted. The cylinder 18a is placed on the upper surface portion 14a such that the rod 18b inserted into the insertion hole extends downward from the lower end of the cylinder 18a.

2, the pressure plate 16 has an intervening part 41 made of a flat plate material and a pressing part 42 fixed to the intervening part 41. As shown in Fig. The interposing portion 41 is a member fixed to the lower end of the rod 18b. The pressing portion 42 is a member for pressing the battery B, while attaching the nail penetration test jig 44 to be described later, and is used overlapping the intervening portion 41. [

The rod 18b has a rod body 18c and a fixed portion 18d provided at the distal end (lower end) of the rod body 18c. The fixing portion 18d is formed in a block shape, and is formed in a columnar shape having, for example, a coaxial shape with the rod body 18c. The upper surface of the fixing portion 18d is connected to the lower end surface of the rod body 18c. The lower surface of the fixing portion 18d is formed in a planar shape. And a female screw portion 18e to which the male screw portion 46a of the fastening hole 46 is screwed is formed. The female threaded portion 18e extends in the direction corresponding to the direction in which the rod body 18c extends.

The insertion portion 41 is formed with an insertion hole through which the male screw portion 46a of the fastening tool 46 is inserted. And the male threaded portion 46a of the fastener 46 inserted into the insertion hole from below is threadedly engaged with the female threaded portion 18e of the fixed portion 18d. Thereby, the interposing portion 41 is sandwiched between the head portion 46b of the fastening opening 46 and the fixing portion 18d. Therefore, the intervening portion 41 (the pressure plate 16) is fixed to the fixing portion 18d (the rod 16d) by the fastening member 46 while the upper surface of the intervening portion 41 is in contact with the lower surface of the fixing portion 18d. (18b). In other words, the pressure plate 16 is fastened to the rod 18b by the fastener 46 in a state of being in contact with the distal end surface of the rod 18b.

The interposing portion 41 is formed of a flat plate-like member and is fixed to the fixing portion 18d in a state of being in contact with the lower surface of the fixing portion 18d. Therefore, the interposing portion 41 can be fixed to the rod 18b without providing a fitting structure. Therefore, since the clearance in the fitting portion is eliminated, the interposing portion 41 can be fixed to the rod 18b in a state in which the interposing portion 41 does not shake or rattles.

The pressing portion 42 is disposed on the lower side of the intervening portion 41 and is held in the intervening portion 41 by the holding means (bolt) 48. The holding means 48 is provided from the intervening portion 41 to the pressing portion 42 so as not to be exposed to the lower surface (pressing surface) of the pressing portion 42. [ Further, the holding means 48 is not limited to a bolt. For example, the holding means 48 may be constituted by a latch or the like for catching the pressing portion 42 on the interposing portion 41. [

A concave portion 42a for receiving the head portion 46b of the fastening hole 46 for fastening the interposing portion 41 to the rod 18b is formed at the central portion on the upper surface of the pressing portion 42 . As a result, even if the head portion 46b of the fastening tool 46 protrudes to the lower side (the pressing portion 42 side) of the intervening portion 41, the pressing portion 42 overlaps the intervening portion 41 can do.

A lower surface of the pressing portion 42 (the pressing plate 16) functions as a pressing surface for pressing the battery B while a nail penetration testing jig 44 is provided on the lower surface of the pressing portion 42 An attachable portion 42b is provided. That is, when the nail penetration test is performed, the nail penetration test jig 44 is attached. On the other hand, when the compression test of the battery B is performed, the nail penetration test jig 44 is detached from the pressure plate 16. The battery B can be pressed by the pressure plate 16 by lowering the pressure plate 16 from which the nail penetration test jig 44 has been removed. Therefore, even when the nail penetration test is performed, it is not necessary to remove the heavy pressure platen 16. Further, in the nail penetration test, the pressure plate 16 can also function as a protection plate (partition wall).

The nail penetration test jig 44 includes a nail portion 44a and a base portion 44c integrally formed on the base portion of the nail portion 44a and a base portion 44c formed integrally with the base portion 44c, And has a threaded portion 44b. The attaching portion 42b has a female screw portion for screwing the male screw portion 44b of the nail penetration testing jig 44. [ That is, the pressing surface of the pressure plate 16 is provided with a concave attachment portion 42b for attaching a convex-shaped attachment portion provided on the nail penetration test jig 44. [

When the nail penetration test jig 44 is detached from the pressing portion 42, the concave female screw portion is exposed. Therefore, as shown in Fig. 3, a stopper member 50 for blocking the female thread portion may be provided. When the stopper member 50 is attached to the female screw portion, the lower surface of the pressing portion 42 is flattened throughout. Therefore, when the pressure drop test for lowering the pressure plate 16 by lowering the rod 18b and pressing the battery B is performed, the battery B can be pressed with a flat pressing surface. Further, in the case where the attachment portion 42b is very small, or when the attachment portion 42b is displaced from the position in contact with the battery B, the stopper member 50 can be omitted.

The attaching portion 42b does not need to be provided at the center of the lower surface of the pressing portion 42. [ As shown in Fig. 4, a plurality of attachment portions 42b may be provided at positions shifted from the central portion. That is, each attachment portion 42b may be provided in the vicinity of the end of the pressing portion 42. [ On the other hand, the nail portion 44a is disposed so as to be positioned at the center of the pressing portion 42 when the nail penetration testing jig 44 is fixed to the pressing portion 42. [ In this configuration, the attaching portion 42b is provided at a position where it does not interfere with the battery B. For example, the interval between the adjacent attachment portions 42b is longer than the width of the battery B. Therefore, it is possible to prevent the attachment portion 42b from affecting the collapse of the battery B during the collapse test.

In the case where a plurality of attachment portions 42b are provided, the male screw portion 44b may be provided so as to be rotatable with respect to the nail portion 44a. That is, the nail penetration test jig 44 includes a fixture 44e having a male screw portion 44b and a head portion 44d. The fixture 44e has a base portion 44c formed in a plate shape And is inserted into the insertion hole formed in the vicinity of the end. By rotating the head portion 44d of the fixture 44e, the male screw portion 44b is screwed to the attachment portion 42b. As a result, the nail penetration test jig 44 is held by the pressing portion 42. In Fig. 4, the head portion 44d of the fixture 44e protrudes to the lower side of the base portion 44c. A recess may be formed in the base portion 44c so as to receive the head portion 44d so that the head portion 44d of the fixture 44e enters the base portion 44c.

In the example shown in Fig. 3, the attachment portion 42b has a female screw portion, but the present invention is not limited to this. For example, a columnar convex portion is formed in the nail penetration test jig 44 in place of the male screw portion 44b, and the attachment portion 42b may be constituted by a hole having a size such that the convex portion fits. In this case, the convex portion may be prevented from falling off the friction lug attaching portion 42b, but the present invention is not limited to this. For example, a means for engaging the convex portion with the attachment portion 42b by slightly turning the convex portion may be provided.

On the other hand, instead of the example shown in Fig. 4, the attaching portion 42b may be constituted by a rail provided on the lower surface of the pressing portion 42. Fig. In this case, the nail penetration test jig 44 may be provided with an engaging portion having a shape capable of sliding along the rail. In this case, the nail penetration test jig (44) can be attached to the pressure plate (16) by sliding the nail penetration test jig (44) laterally. When the pressing plate 16 and the narrowing portion for holding the base portion 44c of the nail penetration test jig 44 are used as fixtures for fixing the nail penetration test jig 44 to the pressure plate 16, It is also possible to omit the portion 42b.

The guide shaft 30 also functions as a member for preventing the vibration plate 16 from shaking. An insertion hole for inserting the guide shaft 30 is formed in the pressing plate 16 (the pressing portion 42 and the intervening portion 41). The insertion holes are provided in the number corresponding to the number of the guide shafts 30. The pressure plate 16 is formed, for example, in a rectangular shape when seen in a plan view, and the insertion holes are formed in the vicinity of the center of a pair of opposed sides. The guide shaft 30 is inserted into the insertion hole of the pressure plate 16 so that even when the pressure plate 16 receives an impact such as explosion of the battery B, it is possible to prevent the pressure plate 16 from swinging. Further, four guide shafts 30 may be provided instead of two. In this case, the insertion hole of the pressure plate 16 is formed in the vicinity of the four corners.

5, when the external short circuit test is performed, the pressure plate 16 is detached from the guide shaft 30 and the guide shaft 30 is detached from the mount 14. The wiring relay module 54 such as a bus bar may be inserted into the first insertion hole 25b formed in the ceiling portion 25a of the test chamber 21. [ At this time, a cap (not shown) is put on the second insertion hole 25c to be closed. The wiring relay module 54 may be inserted into the communication hole 25e of the side portion 25d instead of the first insertion hole 25b. In this case, the guide shaft 30 does not have to be detached from the base 14.

A frame member 56 may be provided between the test tank 12 and the upper surface portion 14a of the table 14. The frame member 56 serves to block a gap between the test tank 12 and the mount 14 so that a human hand does not contact the wiring relay module 54. [

The inner end of the wiring relay module 54 is electrically connected to the battery B by wiring and the outer end of the wiring relay module 54 is electrically connected to the external short-circuit testing device 60 by wiring. The external short-circuit test apparatus 60 can perform a test for producing a state in which the battery B is externally short-circuited. The charging / discharging test device outside the drawing may be electrically connected to the outer end of the wiring relay module 54. [ In this way, a charge / discharge test for charging and discharging the battery B under a predetermined condition (voltage, current, etc.) can be performed. It is also possible to provide the wiring relay module 54 in the communication hole 25e of the side portion 25d in the state shown in Fig. 1 to perform the compression test while charging / discharging the battery B.

As described above, in the present embodiment, since the attachment portion 42b capable of attaching the nail penetration test jig 44 to the pressure plate 16 is provided, when the nail penetration test jig 44 is attached, It is not necessary to remove the cover 16. Therefore, when the compression test of the battery B is carried out, the pressure plate 16 on which the nail penetration test jig 44 is separated is moved by the driving unit 18 to press the battery B, and when performing the nail penetration test , And the pressure plate 16 may be moved in a state in which the nail penetration test jig 44 is attached to the pressure plate 16. Therefore, since it is not necessary to remove the pressure plate 16, the burden of preparation for the test can be reduced. Since the pressure plate 16 is heavy, the operation of removing the pressure plate 16 is a dangerous operation. Therefore, it is possible to omit the operation of removing the pressure plate 16, so that the burden of the preparation work can be reduced. Further, in the nail penetration test, when the battery B explodes, the pressure plate 16 can function as a protection plate (partition wall). Therefore, it is possible to suppress damage to the test tank 12 during the nail penetration test.

In the present embodiment, when the nail penetration test jig 44 is detached from the pressure plate 16, the female screw portion is blocked by the stopper member 50 to prevent the recessed portion from remaining on the pressing surface of the pressure plate 16 can do. Therefore, it is possible to eliminate the adverse influence caused by the exposure of the female screw portion at the time of the collapse test.

Further, in this embodiment, since the guide shaft 30 for preventing the vibration of the pressure plate 16 is provided, the pressure plate 16 prevents the vibration plate 16 from being shaken even if the impact of the explosion of the battery B occurs during the nail penetration test can do. Therefore, it is possible to prevent the drive unit 18 such as the rod 18b for driving the pressure plate 16 from being damaged. In addition, even when there is unevenness on the upper surface of the battery B, it is possible to prevent the offset load from being applied to the rod 18b, and the rod 18b can be prevented from being bent. In addition, when the pressing plate 16 is moved by the driving unit 18, the pressing plate 16 can be guided by the guide shaft 30. [ The pressure plate 16 is gradually moved downward along the guide shaft 30 even when the pressure plate 16 is at any position. However, even if the pressure plate 16 is in any position, the guide shaft 30 is moved to the insertion hole of the pressure plate 16 Is inserted. Therefore, regardless of the position of the pressure plate 16, the vibration of the pressure plate 16 due to the impact of the explosion of the battery B can be suppressed by the guide shaft 30. [

In this embodiment, the guide shaft 30 can be detached from the base 14 and taken out from the first insertion hole 25b of the test tank 12. In this state, for example, the wiring relay module 54, wiring and the like can be inserted into the first insertion hole 25b of the ceiling portion 25a. Therefore, not only the nail penetration test and the extrusion test, but also an external short circuit test, a charge / discharge test, and the like can be performed. Further, for example, the wiring relay module 54, wiring, or the like may be inserted into the communication hole 25e of the side portion 25d.

In the present embodiment, the pressing portion 42 is overlapped with the intervening portion 41 fastened to the rod 18b. Therefore, it is possible to prevent the fastener 46 for fastening the interposing portion 41 of the pressure plate 16 to the rod 18b from being exposed on the pressing surface of the pressing portion 42. Since the recess 42a is formed in the pressing portion 42, it is possible to prevent the head 46b of the fastener 46 from interfering with the pressing portion 42. [

In the present embodiment, since the pressure plate 16 is in contact with the lower surface of the fixed portion 18d provided on the distal end surface of the rod 18b, it is possible to prevent the pressure plate 16 from shaking. That is, since the pressure plate 16 is fixed to the rod 18b while being in contact with the front end surface of the rod 18b, even if the pressure plate 16 is to be shaken due to the impact of the explosion of the battery B, It can be prevented by the distal end face of the first end portion 18b.

The present invention is not limited to the above-described embodiment, and various modifications and improvements can be made without departing from the spirit of the present invention. For example, the mount 14 may be omitted. In this case, the guide shaft 30 is suspended from the ceiling portion 25a of the test tank 12, and the cylinder 18a of the driving portion 18 is also fixed to the ceiling portion 25a of the test tank 12. In this case, the cylinder 18a may be disposed in the test chamber 21 as well. The debris may scatter when the battery B explodes. Even in this case, the pressure plate 16 becomes a barrier wall, and the debris can be prevented from sticking to the sliding portion of the cylinder 18a.

In the above embodiment, the pressing plate 16 has the interposing part 41 and the pressing part 42 which are formed separately from each other, but the present invention is not limited to this. For example, the pressure plate 16 may be formed of one plate material.

The pressing portion 42 is provided with the recess portion 42a in which the head portion 46b of the fastening hole 46 is received. However, for example, when the head portion 46b of the fastening hole 46 The recessed portion 42a may be omitted.

Here, the above embodiment will be outlined.

(1) In the above-described embodiment, a battery testing device for testing a battery disposed in a test tank is provided with a pressure plate for pressing the battery at the time of the compression test of the battery, and a drive unit for generating a driving force for moving the pressure plate Respectively. A nail penetration test jig can be attached to the platen.

In the above embodiment, since the nail penetration test jig can be attached to the pressure plate, it is not necessary to remove the pressure plate when attaching the nail penetration test jig. Therefore, when the battery is subjected to the compression test, the battery can be moved by moving the platen by the driving unit. When the nail penetration test is performed, the platen may be moved with the nail penetration test jig attached to the platen. Therefore, since it is not necessary to remove the pressure plate, the burden of preparation for the test can be reduced. Because the platen is heavy, removing the platen is a dangerous task. Therefore, it is possible to omit the operation of removing the pressure plate, thereby reducing the burden of the preparation work. Further, in the nail penetration test, the pressure plate can function as a protection plate (partition wall) when the battery explodes. Therefore, it is possible to suppress damage to the test tank during the nail penetration test.

(2) The pressure plate may have a concave mounting portion capable of mounting a convex-shaped portion to be attached to the nail penetration test jig. In this case, a cap member for blocking the attachment portion may be provided.

In this aspect, the nail penetration test jig can be attached to the platen by mounting the convexly-shaped attachment portion of the nail penetration test jig to the concave attachment portion of the platen. In addition, when the nail penetration test jig is detached from the pressure plate, it is possible to prevent the concave portion from remaining on the pressing surface of the pressure plate by covering the mounting portion with the stopper member. Therefore, adverse effects due to exposure of the attachment portion can be eliminated at the time of the collapse test.

(3) The pressure plate may have an attaching portion capable of attaching the nail penetration test jig. In this case, the attaching portion may be provided at a position that does not interfere with the battery to be tested at the time of the collapse test. In this embodiment, even if the attaching portion is not flat with respect to the pressing surface of the pressure plate, it is possible to prevent the adhering portion from adversely affecting the pressure collapse test.

(4) A guide shaft may be provided to prevent the pressing plate from shaking. In this embodiment, since the guide shaft for preventing the vibration of the pressure plate is provided, it is possible to prevent the pressure plate from being shaken even if the battery is subjected to an explosion impact during the nail penetration test. Therefore, it is possible to prevent the drive unit for driving the pressure plate from being damaged. In addition, when the pressing plate is moved by the driving unit, the pressing plate can be guided by the guide shaft. During the test, the pressure plate is gradually moved along the guide shaft. However, regardless of the position of the pressure plate, the vibration of the pressure plate due to the impact of the explosion of the battery can be suppressed by the guide shaft.

(5) In the test tank, an insertion hole through which the guide shaft can be inserted may be formed. In this case, the guide shaft may be configured to be detachable from the fixture disposed outside the test tank.

In this aspect, the guide shaft can be detached from the fixture and taken out from the insertion hole of the test tank. In this state, for example, a wiring relay module, wiring, or the like can be inserted into the insertion hole. Therefore, not only the nail penetration test and the extrusion test, but also an external short circuit test, a charge / discharge test, and the like can be performed.

(6) The test tank may be provided with a communication hole communicating the space in the test tank with the outside. In this case, a lid removable from the communication hole may be provided.

In this embodiment, for example, a wiring relay module, wiring, or the like can be inserted into the communication hole. Therefore, not only the nail penetration test and the extrusion test, but also an external short circuit test, a charge / discharge test, and the like can be performed.

(7) The driving unit may have a linearly movable rod. In this case, the pressure plate may have an intervening portion that is fastened to the rod by a fastening tool, and a pressing portion that has a pressing surface that presses the battery and is held by the intervening portion.

In this embodiment, since the pressure plate has the intervening portion to be fastened to the rod and the urging portion to be held by the intervening portion, the fastening portion for fastening the intervening portion to the rod can be hidden by the urging portion. Therefore, the fastener can be prevented from being exposed to the pressing surface.

(8) The fastener may have a head. In this case, the interposing portion may be sandwiched between the head portion of the fastener and the rod. The pressing portion may be provided with a concave portion for receiving the head portion of the fastener.

In this embodiment, since the recess is formed in the pressing portion, it is possible to prevent the head of the fastener from interfering with the pressing portion.

(9) The driving unit may have a linearly movable rod. In this case, the pressure plate may be fastened to the rod by a fastener in a state of being in contact with the front end surface of the rod.

In this embodiment, since the pressure plate is in contact with the fixed portion provided on the distal end surface of the rod, it is possible to prevent the pressure plate from shaking. That is, since the pressure plate is fixed to the rod in a state in which the pressure plate is in contact with the front end surface of the rod, for example, even when the pressure plate is shaken due to the impact of the explosion of the battery, it can be prevented by the rod end surface.

As described above, according to the battery testing apparatus according to the present embodiment, it is possible to reduce the burden of preparation work for testing.

Claims (9)

A battery testing apparatus for testing a battery disposed in a test tank,
A pressure plate for pressing the battery at the time of an extrusion test of the battery,
And a driving unit for generating a driving force for moving the pressure plate,
And a nail penetration test jig can be attached to the pressure plate. The method according to claim 1,
The pressure plate has a concave attachment portion for attaching a convex shaped attachment portion provided on the nail penetration test jig,
And a stopper member for blocking the attaching portion. The method according to claim 1,
The pressure plate has an attaching portion to which the nail penetration test jig can be attached,
Wherein the attaching portion is provided at a position that does not interfere with the battery to be tested at the time of the collapse test. The method according to claim 1,
And a guide shaft for preventing the pressing plate from shaking. The method of claim 4,
The test chamber is provided with an insertion hole through which the guide shaft can be inserted,
Wherein the guide shaft is detachable from a fixture disposed outside the test vessel. The method according to claim 1,
The test tank is provided with a communication hole communicating the space in the test tank with the outside,
And a lid removably attachable to the communication hole is provided. The method according to any one of claims 1 to 6,
The driving unit has a linearly movable rod,
Wherein the pressure plate has an intervening portion which is fastened to the rod by a fastening tool and a pressing portion which has a pressing surface for pressing the battery and which is held by the intervening portion. The method of claim 7,
The fastener has a head,
The interposing portion is sandwiched between the head portion of the fastener and the rod,
Wherein the pressing portion is provided with a concave portion for accommodating the head portion of the fastener. The method according to any one of claims 1 to 6,
The driving unit has a linearly movable rod,
Wherein the pressure plate is fastened to the rod by a fastener in a state of being in contact with a distal end surface of the rod.

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