KR101705738B1 - Pressure applying appratus for testing battery - Google Patents

Abstract

The present invention relates to a pressure application apparatus for testing a battery. A pressure application apparatus for testing a battery according to an embodiment of the present invention comprises: a jig which applies pressure to a battery; and a control device which is connected to the jig. The jig comprises: base frames which include a pair of parallel guide bars extending in forward and backward directions and front and rear frames disposed on front and rear ends of the guide bars; a fastening member opposite ends of which are detachably attached to the guide bars, and which is fastened at a location between the front and rear frames; a transfer member which is disposed on a rear side of the fastening member, opposite ends of which are mounted on the guide bars so that the transfer member can slide, and which is transferred in forward and backward directions of the base frames; and a pressure application means which transfers transfer driving force to the transfer member in a forward and backward directions. The pressure application apparatus for testing a battery further comprises a hoist which suspends a battery in a space disposed between the fastening member and the transfer member. Furthermore, the control device includes a program configured to set and control operation conditions for the jig, and a pressurizing load condition for the pressure application means can be set via the program.

Description

{PRESSURE APPLICATION APPRATUS FOR TESTING BATTERY}

The present invention relates to a pressurizing apparatus for a battery test, and more particularly, to a pressurizing apparatus for a battery test, which can precisely control pressurization conditions during a battery crush test to improve the reproducibility of test conditions, It is the pressurization equipment for the battery test to secure the safety of the battery.

2. Description of the Related Art The demand for secondary batteries in various electronic devices is rapidly increasing. Especially, as the technology related to electric vehicles is progressing rapidly, there is a growing interest in the stability of batteries used in electric vehicles. A lithium secondary battery used in an electric vehicle battery is liable to explode due to an internal short circuit, overcharge, over discharge, , Overcharge, short circuit, high temperature, thermal shock and so on. Among them, it is difficult to carry out the compression test under a precise pressurizing condition in order to obtain an objective test result by the conventional manual pressurizing apparatus used for the compression test (compression test). Further, it has been pointed out that the conventional pressurizing apparatus can not guarantee the safety of the test person because the post-treatment of the battery is insufficient when the explosion of the battery occurs during the test. Accordingly, there is a demand for a pressurizing apparatus for battery test capable of proceeding compression test under more precise pressurization conditions and capable of automatic control of stability.

It is an object of the present invention to provide a pressurization apparatus for battery testing.

According to an aspect of the present invention, there is provided a pressurization apparatus for testing a battery, including a jig for pressing a battery and a controller connected to the jig, wherein the jig includes: A base frame including a pair of elongated parallel guide bars and a front frame and a rear frame disposed at a front end and a rear end of the guide bar; A fixing member, both ends of which are detachably coupled to the guide bar and fixed in position between the front and rear frames; A moving member disposed at the rear of the fixing member and having both ends slidably mounted on the guide bar and moving in the front and rear direction of the base frame; And a pressing means for transmitting a forward and backward driving force to the shifting member, wherein the pressurizing equipment for testing the battery further comprises a hoist for suspending the battery in a space between the fixing member and the shifting member, The control device includes a program for setting and controlling the operating condition of the jig, and the pressing load condition of the pressing means can be set through the program.

The hoist includes a saddle capable of rolling movement along a pair of parallel rails and a driving unit for driving the hoist. The battery is supported on a wire extending downward from the saddle, And the driving unit may be connected to the control unit to control operation of the hoist by a hoist drive command of the control unit.

The saddle is stopped at a first position on the rail which suspends the battery between the fixed member and the movable member during a pressure test, and when the drive unit receives a hoist drive command from the control unit, The saddle is moved to a second position on the rail disposed on the outer side of the base frame of the jig, and the hoist drive command can sequentially perform the hoisting operation of the wire, the rolling movement of the saddle, and the hoisting operation of the wire.

Further, the battery test pressurizing apparatus may further include a water storage tank member for receiving a battery falling along with the wire during the winding operation of the wire, and the water storage tank member may be disposed directly below the second location of the hoist water have.

In addition, one end of the pressing means may be in contact with the moving member, the other end may be mounted in the rear frame, and a load sensing element may be attached between the pressing means and the moving member.

Further, the pressurizing means may be a hydraulic cylinder which receives hydraulic pressure from the hydraulic pressure supply device and extends or contracts in the forward and backward directions.

The fixing member may be slidably mounted on the guide bar.

A plurality of guide holes perforated in the vertical direction are arranged at predetermined intervals in front of and behind the guide bar. The fixing member is coupled to the guide bar by flanges formed at both ends, And a fixing pin passing through the guide hole.

A plate member having an area larger than that of the battery may be attached to the rear surface of the fixing member and the front surface of the moving member so that the entire surface of the battery contacts.

The control device may further include an operating condition setting unit for setting and inputting the operating condition of the jig, and a controller for applying a jig driving command to the servomotor for driving the pressing unit in accordance with the operating condition input to the operating condition setting unit And a drive command input unit, wherein the operating condition setting unit includes: a pressing load setting unit for setting a load of the pressing unit in advance; A pressing time setting unit for presetting a pressing time of the moving means with respect to the battery; A pressing speed setting unit for presetting a pressing speed of the moving means with respect to the battery; And a pressing length setting unit for pressing the battery after the plate member of the moving means makes contact with the battery to set the pressing length in which the battery is inserted.

The hoist driving command may be input to the operating condition setting unit and the driving command may be applied to the driving unit of the hoist.

According to the pressurization apparatus for battery test according to the embodiment of the present invention, the pressurizing condition applied to the battery can be precisely set for each item of pressurization load, pressurization time, pressurization speed, and pressurization distance, , It is possible to derive a more accurate pressure test result under various conditions.

In addition, when an accident such as an explosion occurs in the battery during the test, the battery is configured to control the operation of immersing the battery in the water tank member disposed outside the jig. In addition, .

1 is a plan view of a jig constituting a pressurizing device for a battery test according to an embodiment of the present invention.
2 is a perspective view of a jig constituting a pressurizing apparatus for battery testing according to an embodiment of the present invention.
3A is a perspective view of a jig constituting a pressurization apparatus for a battery test according to an embodiment of the present invention.
3B is a perspective view of a jig constituting a pressurizing apparatus for battery testing according to an embodiment of the present invention.
4A is a conceptual diagram of a pressurization apparatus for testing a battery according to an embodiment of the present invention.
4B is a conceptual diagram of a pressurization apparatus for a battery test according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unnecessary. The terms described below are defined in consideration of the structure, role and function of the present invention, and may be changed according to the intention of the user, the intention of the operator, or the custom.

The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. These embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art to which the present invention pertains, It is only defined by the scope of the claims. Therefore, the definition should be based on the contents throughout this specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. For reference, in the detailed description of the present invention, the left and right directions of FIG. 2 are referred to as front and rear, respectively.

FIG. 1 is a plan view of a jig constituting a pressurizing apparatus for a battery test according to an embodiment of the present invention, FIGS. 2, 3a and 3b are perspective views of a jig constituting a pressurizing apparatus for battery testing according to an embodiment of the present invention, 4A and 4B are conceptual diagrams of a pressurization apparatus for testing a battery according to an embodiment of the present invention.

Referring to these drawings, a battery testing press apparatus 100 according to an embodiment of the present invention includes a jig for pressing a battery, and a controller connected to a jig. The apparatus further includes a hoist 150 for suspending the battery in a predetermined space, and a water storage member 160 for submerging the detonated battery.

First, the jig includes a base frame, a fixing member 120, a movable member 130, and a pressing means 140, which provide a physical compression to the battery to be tested. The base frame is provided with a pair of guide bars 111 extending in the front-rear direction and disposed parallel to each other. Both ends of the front frame 115 are fixed to the front end of the guide bar 111, And both ends of the rear frame 117 are engaged and fixed to the rear ends of the guide bars 111 at the rear end of the guide bar 111. The base frame serves to support a tensile force exerted between the moving member 130 and the fixing member 120 from the outside so that the pressing condition is not deformed when the moving member 130, which will be described later, presses the fixing member 120 It is preferable that the base frame is made of a material having rigidity and the shape of the base frame is not limited as long as the shape of the base frame is not deformed.

On the other hand, a fixing member 120, which will be described later, is disposed in front of the base frame, and a moving member 130, which will be described later, is disposed behind the base frame.

Both ends of the fixing member 120 are detachably fastened to the guide bar 111 to be fixed in position between the front frame 115 and the rear frame 117. Both ends of the fixing member 120 As shown, a flange portion 121 may be formed and coupled to the guide bar 111. A plurality of guide holes 113 perforated in the vertical direction are arranged at predetermined intervals in the forward and backward directions in a region in front of the guide bar 111 in which the fixing member 120 is disposed, A flange hole is formed in the guide hole 121 so as to be selectively aligned with the plurality of guide holes 113. The fixing member 120 is fixed to the guide bar 111 by a fixing pin 125 passing through the flange hole and the guide hole 113. [ ). A plurality of guide holes 113 are formed in the guide bar 111 in the forward and backward directions. After adjusting the front and rear positions of the fixing member 120 in a state where the fixing pins 125 are removed, By fixing the position, the position of the fixing member 120 is selectively adjustable between the front frame 115 and the rear frame 117. [ At this time, the jig may further include an electric transfer device (not shown) for moving the fixing member 120 forward and backward when setting the front and rear positions of the fixing member 120. A rail member 180 may be provided in the front area of the guide bar 111 to support both ends of the fixing member 120 so that the fixing member 120 can slide in the forward and backward directions of the guide bar 111 have.

The movable member 130 is slidably coupled to the guide bar 111 at both ends thereof and is disposed behind the aforementioned fixing member 120 in the region between the front frame 115 and the rear frame 117, And moves in the forward and backward direction of the frame. A rail member 180 for rolling both ends of the moving member 130 is provided in the rear area of the guide bar 111 so that the moving member 130 can slide in the front and rear directions of the guide bar 111. [

The pressing means 140 is configured to transmit the forward and backward driving force to the moving member 130 and is driven by a thermo-motor. The servomotor receives a jig driving command from a control device (to be described later) . A hydraulic cylinder that receives hydraulic pressure from a hydraulic pressure supply device provided separately from the pressure means 140 and that extends or contracts in the forward and backward directions may be employed. The hydraulic supply device includes an electromagnetic hydraulic controller, a converter, and a servo valve. One end of the pressing means 140 is in contact with the moving member 130 and the other end is mounted in the rear frame 117. When the pressing member 140 is extended or contracted, Can be displaced with respect to the support member (117) and moved close to the fixing member (120). At this time, a load sensing element such as a load cell is attached between the pressing means 140 and the moving member 130, so that the pressing load of the pressing means 140 can be measured.

As described later, the battery is supported by the wire 153 of the hoist 150 and is suspended in the space between the fixing member 120 and the moving member 130, and the moving member 130 is supported by the pressing means 140, The pressing force is applied to the rear surface of the fixing member 120 so that the entire surface of the battery is evenly contacted with both members. 130 may have a plate member 170 having an area larger than that of the battery. At this time, it is preferable that the surface of each plate member 170 is insulated.

The pressurization apparatus 100 for testing a battery of the present invention further includes a hoist 150 for suspending a battery in a space between the fixing member 120 and the movable member 130. Generally, the hoist 150 is installed on a girder of a crane, and is one of mechanical devices for lifting and lowering the load using a wire 153. The hoist 150 is a set of a hoist motor, a speed reducer, a wire drum, 153) Install a hook at the end to lift the weight. The present invention includes a saddle 151 capable of rolling movement along a pair of parallel rails and a driving unit for driving the hoist 150. The saddle 151 is connected to a hook end of a wire 153 extending downward from the saddle 151 Install the battery. During the pressure test, the saddle 151 is adjusted to stop at the first position on the rail so that the battery is suspended between the fixed member 120 and the movable member 130. For example, the first position of the saddle 151 may be a direct addition of the space between the fixed member 120 and the movable member 130 of the jig. Meanwhile, in an emergency situation such as a battery explosion occurring during the test, the battery is detached from the space between the fixing member 120 and the movable member 130, and the saddle 151 is moved to the outside of the base frame of the jig, As shown in FIG. The movement of the saddle 151 is performed by a driving unit that controls the driving of the hoist 150, and the driving unit operates by a hoist drive command from the control unit. At this time, the hoist drive command is a drive signal for controlling the displacement operation of the saddle 151 from the above-described first position to the second position, in which hoisting operation of the wire 153, rolling movement of the saddle 151, And the winding operation is sequentially performed. The battery connected to the hook of the wire 153 is pulled upward of the jig to be separated from the space of the jig by the hoisting operation of the wire 153 and the battery moves to the outside of the base frame of the jig by the rolling movement of the saddle 151 do. The pressurizing apparatus 100 for testing a battery according to an embodiment of the present invention includes a water storage tank member 160 for receiving a battery falling along with the wire 153 during a winding operation of the wire 153, The battery is dropped onto the water storage tank member 160 disposed at the lower side of the jig by the winding operation of the drive command. At this time, when the battery is ignited due to the battery explosion, the water storage tank 160 stores the digested water in which the battery is flooded so as to suppress the fire. The reservoir member 160 may be disposed directly below the second location of the hoist 150. The saddle 151 of the hoist 150 is rollingly moved along the pair of rails so that the saddle 151 can roll from the first position above the jig to the second position above the jig, It is preferable to be oriented so as to extend over the upper side of the jig and the upper side of the jig.

On the other hand, the control device is configured to set and control the operating condition of the jig connected to the jig, and the control device stores a program for setting and inputting the operating condition of the jig and applying the jig driving command to the jig. Specifically, the control device includes an operating condition setting unit for setting and inputting the operating condition of the jig, a jig driving command for the servomotor driving the pressing unit 140 of the jig according to the operating condition input to the operating condition setting unit And a drive command input unit for applying the drive command. The control device according to the embodiment of the present invention controls the pressing force applied to the battery by the moving member 130 as the pressing condition, A condition for a pressurizing time from when the moving means comes into contact with the battery to pressurize the battery and ends the pressurization, a condition for the pressing speed which is the moving speed at the time when the moving means comes into contact with the battery, So that the condition of the pressurized length in which the battery is inserted can be controlled. Accordingly, the operating condition setting unit of the present invention includes a pressing load setting unit for setting the pressing force of the pressing means 140 in advance, a pressing time setting unit for setting the pressing time of the moving means with respect to the battery in advance, And a pressing length setting unit for pressing the battery after the plate member 170 of the moving unit comes into contact with the battery to preset the pressing length in which the battery is inserted. For example, the pressing load can be set and input by the operating condition setting unit within the range of 10 kg to 20 ton, the pressing speed in the range of 1 mm / s to 10 mm / s, and the pressing length in the range of 0 to 500 mm . For example, it is possible to set 105 kN for the pressing force setting section, 10 seconds for the pressing time setting section, 5 mm / s for the pressing speed setting section, and 5 mm for the pressing length setting section, and the condition value can be precisely changed Can be adjusted. Further, the control device includes a display unit for displaying the condition information set in the above-mentioned operating condition setting unit and displaying the progress of pressurization, and the user interface screen output to the display unit displays the pressurization load, pressurization time, pressurization speed, An input cell for inputting an operating condition such as < RTI ID = 0.0 > a < / RTI >

According to such a configuration, the pressing condition applied to the battery can be precisely set for each item of the pressing load, the pressing time, the pressing speed, and the pressing distance so that the pressing means 140 of the jig can be operated and controlled. There is an advantage that the pressure test result can be derived.

On the other hand, the control device is connected to the hoist 150 described above and is configured to control the operation of the hoist 150. The hoist drive command is an operation control for moving the battery to the outside of the jig and submerging it in the water storage member 160 to suppress the fire of the battery when an abnormal situation such as an explosion occurs in the battery during the pressure test, The hoisting operation of the saddle 153, the rolling movement of the saddle 151, and the hoisting operation of the wire 153 in sequence. The hoist driving command is input to the operating condition setting unit in advance and the hoist driving command is applied to the driving unit of the hoist 150 by the driving command input unit.

According to this configuration, when an accident such as an explosion occurs in the battery during the stability test of the battery, the battery can be submerged in the water storage tank member 160 disposed outside the jig to suppress the fire, It is possible to provide a pressurizing apparatus for battery test that secures the performer's safety at the time of performing the test.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is to be understood that the invention is not limited thereto and that various changes and modifications may be made therein without departing from the scope of the invention.

100: Pressurization equipment for battery test 111: Guide bar
113: guide hole 115: front frame
117: rear frame 120: fixing member
121: flange portion 125: fixing pin
130: moving member 140: pressing means
150: hoist 151: saddle
153: wire 160:
170: plate member

Claims (11)

A pressurization apparatus for testing a battery, comprising a jig for pressurizing the battery and a control device connected to the jig,
The jig,
A base frame including a pair of parallel guide bars extending in the front-rear direction and including a front frame and a rear frame arranged at the front and rear ends of the guide bar;
A fixing member, both ends of which are detachably coupled to the guide bar and fixed in position between the front and rear frames;
A moving member disposed at the rear of the fixing member and having both ends slidably mounted on the guide bar and moving in the front and rear direction of the base frame; And
A pressing means for transmitting a forward and backward driving force to the moving member;
/ RTI >
Wherein the pressurization equipment for testing the battery further comprises a hoist, the battery being suspended in a wire extending downward from the hoist and positioned in a space between the stationary member and the movable member,
Wherein the control device includes a program for setting and controlling an operating condition of the jig, the pressing load condition of the pressing means being settable through the program,
The battery test pressurizing device may be configured such that when an explosion of the battery is detected during the pressing between the fixing member and the moving member, the battery is lifted so that the battery is immersed in a reservoir member disposed outside the jig, And is driven to perform a parallel movement to an upper chamber of the member and a lowering operation to the reservoir member. The method according to claim 1,
Wherein the hoist includes a saddle capable of rolling movement along a pair of parallel rails and a drive for driving the hoist,
The battery is suspended in the space by being supported by a wire extending downward from the saddle,
Wherein the drive unit is connected to the control unit to control the operation of the hoist by a hoist drive command of the control unit. 3. The method of claim 2,
Wherein the saddle is stationary at a first position on the rail that suspends the battery between the stationary member and the movable member during a pressure test,
The drive unit moves the saddle to a second position on the rail where the battery is disposed outside the base frame of the jig when the hoist drive command is received from the controller,
Wherein the hoist driving command sequentially performs the hoisting operation of the wire, the rolling movement of the saddle, and the hoisting operation of the wire. The method of claim 3,
Wherein the water storage tank member receives a battery falling along with the wire when the wire is being wound,
Wherein the reservoir member is disposed directly below the second location of the hoist. The method according to claim 1,
Wherein one end of the pressing means is in contact with the moving member and the other end is mounted in the rear frame, and a load sensing element is attached between the pressing means and the moving member. The method according to claim 1,
Wherein the pressurizing means is a hydraulic cylinder that is supplied with hydraulic pressure from a hydraulic pressure supply device and is elongated or retracted in the forward and backward directions. The method according to claim 1,
And the fixing member is slidably mounted on the guide bar. The method according to claim 1,
A plurality of guide holes perforated in the up-and-down direction are arranged at a predetermined distance forward and backward in front of the guide bar,
Wherein the fixing member is coupled to the guide bar by flanges formed at both ends thereof,
Wherein the fixing member is fixed to the guide bar by a flange hole formed in a flange portion and a fixing pin passing through the guide hole. The method according to claim 1,
Wherein a plate member having an area larger than that of the battery is attached to a rear surface of the fixing member and a front surface of the moving member so that a front surface of the battery contacts the entire surface. 3. The method of claim 2,
The control device includes an operation condition setting unit for setting and inputting the operation condition of the jig and a drive command for applying a jig drive command to the servo motor for driving the pressing unit in accordance with the operation condition input to the operation condition setting unit. An input unit,
Wherein the operating condition setting unit includes:
A pressing load setting unit for setting a load of the pressing unit in advance;
A pressing time setting unit for presetting a pressing time of the moving member with respect to the battery;
A pressing speed setting unit for previously setting a pressing speed of the moving member with respect to the battery; And
A pressing length setting unit for pressing the battery after the plate member of the moving member makes contact with the battery to preset the pressing length in which the battery is inserted;
And a pressure measuring device for testing the battery. 11. The method of claim 10,
Wherein the hoist driving command is input to the operating condition setting unit and the driving command is applied to the driving unit of the hoist by the driving command input unit.

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