KR20140134518A - Two-way battery jig - Google Patents

Abstract

The objective of the present invention is to provide a two-way battery jig. The battery jig, which is provided to supply a current by contacting a bus bar (20) with an electrode tab (4) of a battery (2) when the battery (2) is charged/discharged, comprises: a jig base (10); a bus bar (20) which is mounted in the jig base (10) to be in contact with an electrode tab (4) of a battery (2) so that a current can be conductively supplied; and a movement guider to relatively move the bus bar (20) against the jig base (10) so that the bus bar (20) can be fitted in a location of the electrode tab (4) of the battery (2). The novel two-way battery jig enables stable charging and discharging works in response to various changes in conditions of varying a size of a secondary battery or changing a location of the electrode tab. The two-way battery jig of the present invention can be compatibly applied to various secondary battery models by changing only the size of the part to hold and support the secondary battery.

Description

Two-way battery jig < RTI ID = 0.0 >

The present invention relates to a two-way battery jig, and more particularly, to a two-way battery jig capable of stably charging and discharging in response to various change conditions of a rechargeable battery, such as a size of a rechargeable battery, Battery jig. The present invention relates to a two-way battery jig that can be applied to various secondary battery models in a compatible manner by simply changing the size of a portion to which the secondary battery is supported.

2. Description of the Related Art Generally, a secondary battery is a power source for a portable electronic device for information communication such as a PDA, a mobile phone, a notebook computer, an electric bicycle, an electric automobile, etc., . A secondary cell (for example, a lithium ion secondary cell) is used in a mobile phone, and the lifetime is long because there is little loss on the electrode plate, and thus it is widely used in mobile phones. Electronic devices such as mobile phones and notebook computers, especially mobile phones, use a rechargeable secondary battery rather than a disposable battery because the user has to carry it for a long time due to the fact that the user always moves around.

In order to produce secondary batteries such as lithium ion batteries and lithium polymer batteries, various processes such as an aging process, a charge / discharge process, an OCV (Open Circuit Voltage) test, an IR (internal resistance) In the charging / discharging process, the produced secondary battery is charged and discharged repeatedly, and then shipped to the product. Therefore, since the characteristics and quality of the secondary battery are determined in the above-described series of processes, the charging and discharging process is a very important process for determining the quality of the battery.

At this time, to charge and discharge the secondary battery, an electrode tab and a battery jig for applying current are used. When a secondary battery is mounted on a jig and an electrode tab of the secondary battery is in contact with a current terminal of the battery jig, The secondary battery is charged and discharged.

However, since the size of the secondary battery is not limited to one size but is manufactured in various sizes in accordance with the standard of the required electronic products, the size of the secondary battery itself is variously produced. It is necessary for the battery jig itself to have a structure capable of accommodating various kinds of secondary batteries for discharging.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a new two-way battery jig capable of stably performing charging and discharging operations in response to various changing conditions of a secondary battery, such as a size of a secondary battery or a position of an electrode tab. That is, a main object of the present invention is to provide a two-way battery jig that can be applied to various secondary battery models in a compatible manner by simply changing the size of a portion where the secondary battery is supported and supported.

According to an aspect of the present invention, there is provided a battery jig to which a bus bar is brought into contact with an electrode tab of a battery during a charge / discharge operation of the battery, the battery jig comprising: a jig base; A bus bar provided in the jig base and electrically connected to the electrode tab of the battery so as to be energized; And a moving guider for moving the bus bar relative to the jig base so as to match the electrode tab position of the battery.

Wherein the bus bar is provided on one of the upper and lower ends of the jig base in the longitudinal direction and is movable relative to the first bus bar And a second bus bar; And a third bus bar provided on the other end side in the longitudinal direction upper and lower ends of the jig base and relatively slidable in the left and right width direction end sides of the jig base by the moving guide.

The first bus bar, the second bus bar, and the third bus bar may include a lower bus bar coupled to the jig base such that the first bus bar and the third bus bar are relatively slidable in the left and right width directions; And an upper bus bar disposed on the upper side of the lower bus bar so as to be able to ascend and descend relative to the lower bus bar, wherein the moving guide includes: a guide groove extending in a left-right width direction of the jig base; A guide slit provided on any one of surfaces of the guide groove and the lower bus bar facing each other and extending in the left-right width direction of the jig base; And a guide piece provided on the other surface of the guide groove and the lower bus bar, the guide piece being slidable relative to the guide slit.

Wherein the lower bus bar is coupled to the support frame so as to be slidable relative to the jig base in the left-right width direction, and the upper bus bar is coupled to the support frame by a guide rail so as to be relatively elevated, The upper bus bar is relatively moved in the direction of the lower bus bar by a screw type lifting operation of the lifting operation rod.

The lower bus bar and the upper bus bar are provided with a plurality of contact protrusions on the surfaces facing each other, and recessed grooves are formed between the contact protrusions.

The jig base includes: a first jig base having the first bus bar and the second bus bar; Wherein the first jig base and the second jig base are relatively slidably coupled to each other by a moving guider so that the longitudinal size of the jig base And the relative distance of the third bus bar is adjusted with respect to the first bus bar and the second bus bar.

The first guiding base and the second guiding base are disposed such that guide slits extending in the longitudinal direction are opposed to each other, and the moving guider is coupled to the guide slits of the first and second jig bases And a slide support member.

The first and second jig bases and the second jig base are provided with auxiliary grooves at the outer positions of the guide slits and the slide supporting members are mounted on the upper and lower ends so as to be relatively slidable relative to the auxiliary grooves .

The two-way battery jig according to the present invention is configured such that the first bus bar and the second bus bar, which are main parts, are positionally adjustable in the width direction of the jig base, The first bus bar and the second bus bar are moved with respect to the jig base so that the battery charge / discharge operation is performed. Accordingly, the battery can be charged / discharged compatible with various sizes of the battery.

In the present invention, since the major part of the jig base is composed of the first jig base and the second jig base which can move relative to each other in the longitudinal direction and the size of the jig base itself can be adjusted in the longitudinal direction, The length of the jig base is adjusted to adjust the relative movement distance of the third bus bar relative to the first bus bar and the second bus bar even if the distance between the electrode tabs of the two different polarities is different And the lower bus bars and the upper bus bars of the first bus bar or the second bus bar are brought into contact with the third bus bar and the lower bus bar, respectively, so that battery charging and discharging operations are performed. Thus, various sizes (i.e., The battery can be charged and discharged in a compatible manner.

FIG. 1 is a perspective view explaining a main part of a two-way battery jig according to the present invention.
2 is an external perspective view of a two-way battery jig according to the present invention.
3 is a front view in the direction A of Fig. 2
4 and 5 are perspective views schematically showing the use state of the two-way battery jig according to the present invention.
Fig. 6 is a longitudinal sectional view taken along line AA of Fig.
Fig. 7 is a longitudinal sectional view taken along line BB of Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description. 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 unclear.

In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected," "coupled," or "connected. &Quot;

It is to be understood that the present invention may be embodied in many different forms and should not be construed as limited to the exemplary embodiments set forth herein. Rather, 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. The present invention should not be construed as limited to the embodiments described in Figs.

Referring to the drawings, a two-way battery jig according to an embodiment of the present invention is a battery jig in which a bus bar 20 is brought into contact with an electrode tab 4 of a battery 2 during charging and discharging operations of the battery 2, A bus bar 20 provided in the jig base 10 and brought into contact with the electrode tab 4 of the battery 2 so as to be energized so as to be energized; And a moving guider for moving the bus bar (20) relative to the jig base (10) so as to match the position of the electrode tab (4).

The jig base 10 has a structure in which two first jig bases 10A and a second jig base 10B are movably coupled.

The first jig base 10A has a rectangular plate shape. The first jig base 10A is provided with a guide slit 12 extending in the longitudinal direction. The guide slit 12 is formed in an elongated hole communicated from the upper surface to the lower surface of the first jig base 10A. At least two guide slits 12 are provided on the first jig base 10A so as to be spaced apart in the width direction at regular intervals. An auxiliary groove (13) is formed at the outer edge of the guide slit (12). The width of the auxiliary groove 13 is formed to be wider than the width of the guide slit 12. That is, the auxiliary groove 13 in the form of an elongated groove extending in the longitudinal direction of the first jig base 10A is provided with a guide slit 12 in the shape of an elongated hole communicated from the upper surface to the lower surface of the first jig base 10A . In addition, the first jig base 10A is provided with a guide groove 26 in the shape of a long groove in the left-right width direction. The guide grooves 26 are arranged in a direction orthogonal to the guide slit 12. A guide slit 12 extending in the left-right width direction of the first jig base 10A is provided on one of surfaces of the guide grooves 26 and a lower bus bar 22 to be described later have. The guide grooves 12 are provided on both inner surfaces of the guide grooves 26 of the first jig base 10A (the surfaces extending in the left-right width direction of the first jig base 10A and facing each other in parallel) The guide slit 12 has a groove structure spaced upward from the bottom surface of the guide groove 26 of the first jig base 10A.

The second jig base 10B also has a rectangular plate shape. The second jig base 10B is also provided with a guide slit 12 extending in the longitudinal and longitudinal directions. The guide slit 12 of the second jig base 10B is also formed in a shape of an elongated hole communicated from the upper surface to the bottom surface and the guide slit 12 of the second jig base 10B is guided And is disposed at a position facing the slit. The first jig base 10A is disposed at the lower position and the second jig base 10B is disposed at the upper position and the guide slits 12 of the first jig base 10A and the second jig base 10B are vertically And are located at positions facing each other at the position. The auxiliary groove 13 is also formed in the second jig base 10B at a position outside the guide slit 12. That is, the auxiliary groove 13 in the form of an elongated groove extending in the longitudinal direction of the second jig base 10B is provided with a guide slit 12 in the shape of an elongated hole communicated from the upper surface to the lower surface of the second jig base 10B . In addition, a guide groove 26 in the form of a long groove is provided in the right-left width direction of the second jig base 10B. The guide grooves 26 are arranged in a direction orthogonal to the guide slit 12. Like the guide groove 26 of the first jig base 10A, the guide groove 26 of the second jig base 10B is provided with the guide slit 12, and the guide of the second jig base 10B The slit 12 also has a groove structure spaced upward from the bottom surface of the guide groove 26 of the second jig base 10B.

The first jig base 10A and the second jig base 10B are relatively slidably coupled to each other by a relative movement guider so that the longitudinal size of the jig base 10 is expanded and contracted, The relative distance of the third bus bar 20C to the bus bar 20A and the second bus bar 20B is adjusted. At this time, the first jig base 10A and the second jig base 10B are arranged such that the guide slits 12 extending in the longitudinal direction are opposed to each other. The relative movement guides are disposed between the first jig base 10A and the second jig base 10B, And a slide support member 14 provided with slide pins commonly coupled to the guide slits 12 of the base 10B.

When the second jig base 10B is relatively slid relative to the first jig base 10A in the longitudinal direction relative to the slide pin 14 of the second jig base 10B, 12 are moved relative to each other, the size of the first jig base 10A and the second jig base 10B in the longitudinal direction can be increased or decreased. At this time, the first and second jig bases 10A and 10B are formed with auxiliary grooves 13 at the outer positions of the guide slits 12, and the slide support members 14 are supported at the upper and lower ends And a slide supporting piece 15 that is mounted relative to the groove 13 so as to be slidable relative to the groove 13 is provided. When the second jig base 10B relatively moves with respect to the first jig base 10A, the slide support piece 15 at the lower end of the slide support member 14 is engaged with the auxiliary groove The slide pin portion is commonly coupled to a guide slit 12 commonly provided in the first jig base 10A and the second jig base 10B, 14) The slide supporting piece 15 at the upper end portion is slid relative to the auxiliary groove 13 while being seated in the auxiliary groove 13 communicated with the upper surface of the second jig base 10B, The second jig base 10B is stably and relatively moved relative to the first jig base 10B so that the longitudinal length of the jig base 10 can be adjusted. On the other hand, the slide support piece 15 at the lower end of the slide support member 14 is coupled to the inner side surfaces of the auxiliary grooves 13 of the first and second jig bases 10A and 10B so as to apply an appropriate pressing force . That is, at least one of the upper and lower end slide support pieces 15 of the slide support member 14 is formed with a screw hole having a threaded portion on the inner circumferential surface thereof and a threaded portion is formed on the outer circumferential surface of the slide support member 14, Only when an external force acts to tighten the threaded hole of the first jig base 10A relative to the second jig base 10B by tightening the threaded hole of the first jig base 10A to the threaded portion of the outer peripheral surface of the slide support member 14, The slide supporting piece 15 may be slid relative to the auxiliary groove 13 of the second supporting member 10B. That is, in a state in which the second jig base 10B is stopped with respect to the first jig base 10A, the slide supporting pieces 15 of the slide supporting member 14 are pressed against the surfaces of the auxiliary grooves 13 with an appropriate force The relative length of the first jig base 10A and the second jig base 10B is not increased or decreased arbitrarily while the second jig base 10B is moved relative to the first jig base 10A The slide support pieces 15 at least on the upper side among the two slide support pieces 15 of the slide support member 14 are properly slipped on the surface of the auxiliary groove 13 so that the first and second jig bases 10A, And the operation is smoothly performed when the relative length between the base 10B is increased or decreased.

The jig base 10 is provided with a bus bar 20 in contact with the electrode tab 4 of the battery 2 so as to be energized so as to be supplied with current. The bus bar 20 includes a first bus bar 20A and a second bus bar 20B provided on the first jig base 10A and a third bus bar 20C provided on the second jig base 10B. ).

The first bus bar 20A, the second bus bar 20B and the third bus bar 20C include a lower bus bar 22 coupled to the jig base 10 so as to be slidable relative to each other in a left-right width direction, And an upper bus bar 24 disposed on the upper side of the lower bus bar 22 so as to be able to ascend and descend relative to each other.

The first bus bar 20A and the second bus bar 20B are provided on either one of the upper and lower ends of the longitudinal direction of the jig base 10 and at the same time the left and right width directions of the jig base 10 And is relatively slidable in both end directions.

At this time, the moving guider includes a guide groove 26 extending in the left-right width direction of the first jig base 10A and a guide groove 26 extending in the width direction of the guide groove 26 and the lower bus bar 22, And guide slits 27 provided on the other surfaces of the guide grooves 26 and the lower bus bars 22 on opposite sides of the guide slits 27 And a guide piece 28, 7, in the present invention, the guide slits 27 are formed on the inner side surfaces (two inner side surfaces extending in the width direction) of the guide grooves 26 of the first jig base 10A facing each other Guide pieces 28 are provided on the front and rear ends of the respective lower bus bars 22 of the first bus bar 20A and the second bus bar 20B so that the guide pieces of the lower bus bar 22 28 are slidably engaged with the guide slits 27 of the first jig base 10A. On the upper surface of the first jig base 10A, an upper jig base panel is detachably coupled by bolts or the like, and the guide groove 26 and the guide slit 27 are coupled to the upper jig base panel The pair of guide pieces 28 protruding from the front and rear ends of the lower bus bar 22 are engaged with the guide slits 27 formed in the upper jig base panel, The lower guide bar 28 is hooked on the support jaw formed by the guide slit 27 of the upper jig base panel so that the lower bus bar 22 is not released to the upper portion of the first jig base 10A It is possible to stably slide relative to the first jig base 10A in the width direction thereof.

The lower bus bar 22 is provided with a probe contact sector 17 formed in a predetermined area. The probe contact sector 17 may be constituted by a contact block made of an insulating (non-conductive) material (for example, plastic or the like) in a seating groove portion formed in a substantially middle portion of the lower bus bar 22. [

The upper bus bar 24 is provided with a probe contact sector 17 at a position corresponding to the probe contact sector 17 and a voltage sensing probe 18 which is in contact with both surfaces of the electrode tab 4 of the battery 2, Respectively. Such a bolt sensing probe 18 can be lifted and lowered together with the upper bus bar 24 and can be brought into contact with the upper surface of the electrode tab 4 of the battery 2. The upper bus bar 24, When the both surfaces of the electrode tab 4 of the battery 2 are brought into contact with the contact surface of the battery contact 2 and the charging / discharging operation is performed, the voltage sensing probe 18 is brought into contact with the upper surface of the electrode tab 4 of the battery 2, 17 are attached to the lower surface of the electrode tab 4 of the battery 2 to sense a voltage. Of course, the voltage probe is connected to the voltage probe 18.

The support frame 30 is coupled to both ends of the lower bus bars 22 constituting the first bus bar 20A and the second bus bar 20B. The support frame 30 includes an upright support piece 31 extending in parallel to the up and down direction and a bridge support piece 31 having both ends connected to the upright support piece 31 and arranged in a direction parallel to the upper surface of the lower bus bar 22. [ And two parallel upright support pieces 31 of the support frame 30 are connected to both ends of the first bus bar 20A and the second bus bar 20B so that the support frame 30 And is arranged vertically in a vertical direction.

The lift support piece 32 of the support frame 30 is provided with a lifting operation rod 36 having a bolt shaft structure so that the lifting and lowering operation rod 36 is subjected to the screw lifting and rotating operation in the support frame 30. The upper end of the lifting and lowering operation rod 36 is provided with an operating groove such as a wrench so that a driving shaft (not shown) of the lifting and lowering working rod 36 rotating and lifting apparatus disposed on the upper side of the lifting and lowering working rod 36 The lifting operation rod 36 can be moved up and down relative to the lower bus bar 22 with respect to the support frame 30 by engaging with the operating groove at the upper end of the lifting operation rod 36 and rotating the lifting operation rod 36 downward. Of course, the lifting and operating rod 36 can be lifted and lowered by other means.

The two upright support pieces 31 of the support frame 30 are provided with guide rails on the inner side facing each other. The upper and lower support bars 30a, The upper side of the upper bus bar 24 is connected to the guide rails formed at both side ends of the bar 24 so as to be slidable relative to the guide rails formed in the upright support pieces 31 of the support frame 30, The upper bus bar 24 is connected to the lower bus bar 22 as the upper and lower operation rods 36 are driven up and down with respect to the support frame 30, Relative movement.

The second bus bar 20B of the first bus bar 20A has a different polarity from that of the first bus bar 20A and the upper bus bar 24 and the lower bus bar 22 of the first bus bar 20A are connected to the battery 2 (Or the negative electrode tab 4) of the second bus bar 20B are in contact with the upper bus bar 24 of the second bus bar 20B and the lower bus bar 22 of the second bus bar 20B A current is applied through the first bus bar 20A and the second bus bar 20B in a state in which the negative electrode tab 4 (or the bipolar electrode tab 4) Discharging operation is performed.

The third bus bar 20C is provided on the other end side of the longitudinal upper and lower ends of the jig base 10 and is movable relative to the jig base 10 in both right and left width direction end directions of the jig base 10 Respectively.

At this time, the moving guide for guiding the movement of the third bus bar 20C includes a guide groove 26 extending in the left-right width direction of the second jig base 10B, A guide slit 27 provided on any one of the mutually facing surfaces of the guide groove 26 and the lower bus bar 22 and extending in the left and right width direction of the jig base 10; And a guide piece 28 which is provided on the other surface of the opposing surface and is relatively slidably engaged with the guide slit 27. In the present invention, the guide slits 27 are formed on the inner side surfaces (two inner side surfaces extending in the width direction) of the guide grooves 26 of the second jig base 10B, and the third bus bars 20C A guide piece 28 is provided on the front and rear ends of the lower bus bar 22 so that the guide piece 28 of the lower bus bar 22 is engaged with each guide slit 27 of the second jig base 10B. So as to be slidable relative to each other.

The lower jig base panel is detachably coupled to the lower surface of the second jig base 10B by bolts or the like and the guide groove 26 and the guide slit The pair of guide pieces 28 protruding from the front and rear ends of the lower bus bar 22 are engaged with the guide slits 27 formed in the second jig base 10B, A pair of guide pieces 28 of the lower jig base 22 are hooked on and supported by the support jaws formed by the guide slits 27 of the second jig base 10B, Can be stably and relatively slid along the width direction of the second jig base 10B without being released to the upper portion of the first jig base 10B.

The lower bus bar 22 constituting the third bus bar 20C is also provided with a probe contact sector 17 formed in a predetermined area. The probe contact sector 17 may be constituted by a contact block made of an insulating (non-conductive) material (for example, plastic or the like) in a seating groove portion formed in a substantially middle portion of the lower bus bar 22. [

The upper bus bar 24 is provided with a probe contact sector 17 at a position corresponding to the probe contact sector 17 and a voltage sensing probe 18 which is in contact with both surfaces of the electrode tab 4 of the battery 2, Respectively. Such a bolt sensing probe 18 can be lifted and lowered together with the upper bus bar 24 and can be brought into contact with the upper surface of the electrode tab 4 of the battery 2. The upper bus bar 24, When the both surfaces of the electrode tab 4 of the battery 2 are brought into contact with the contact surface of the battery contact 2 and the charging / discharging operation is performed, the voltage sensing probe 18 is brought into contact with the upper surface of the electrode tab 4 of the battery 2, 17 are attached to the lower surface of the electrode tab 4 of the battery 2 to sense a voltage. Of course, a voltage code is also connected to the voltage probe 18 provided in the upper bus bar 24 of the third bus bar 20C.

In addition, at both ends of each of the lower bus bars 22 constituting the third bus bar 20C, they are coupled to the support frame 30. The support frame 30 includes an upright support piece 31 extending in parallel to the up and down direction and a bridge support piece 31 having both ends connected to the upright support piece 31 and arranged in a direction parallel to the upper surface of the lower bus bar 22. [ And the support frame 30 is vertically arranged so that two parallel upright support pieces 31 of the support frame 30 are connected to both ends of the third bus bar 20C I am taking.

The lift support piece 32 of the support frame 30 is provided with a lifting operation rod 36 having a bolt shaft structure so that the lifting and lowering operation rod 36 is subjected to the screw lifting and rotating operation in the support frame 30. The upper end of the lifting and lowering working rod 36 is provided with an operating groove such as a wrench so that the driving shaft of the lifting and lowering working rod 36 disposed on the upper side of the lifting and lowering working rod 36 is connected to the lifting and lowering working rod 36 The lifting operation rod 36 can be raised and lowered relative to the lower bus bar 22 with respect to the support frame 30 by engaging with the operating groove at the upper end.

The two upright support pieces 31 of the support frame 30 are provided with guide rails on the inner side facing each other and the upper bus bar 24 constituting the third bus bar 20C is provided at its both ends And the upper surface of the upper bus bar 24 is connected to the upper end of the lower end of the lifting operation rod 36. [ So that the upper bus bar 24 is relatively moved in the direction of the lower bus bar 22 as the upper and lower operation rods 36 are operated to be screwed up and down with respect to the support frame 30.

The upper bus bar 24 and the lower bus bar 22 of the third bus bar 20C are connected to the bipolar electrode tabs of the battery 2, The upper bus bar 24 and the lower bus bar 22 of the first bus bar 20A or the second bus bar 20B are connected to the battery bus bar 22 via the battery 4 (or the negative electrode tab 4) The third bus bar 20C and the first bus bar 20A or the second bus bar 20B are held in contact with the negative electrode tab 4 (or the bipolar electrode tab 4) A current is applied to the battery 2 to perform charging and discharging operations.

In the present invention having the above-described structure, the length of the jig base 10, which is a portion for supporting the battery 2, can be adjusted, and a plurality of bus bars 20 provided on the jig base 10 can also be fixed to the jig base 10, the position of the battery 2 can be adjusted while moving in the width direction of the battery 2, so that the battery 2 can be charged / discharged compatible with the size of the battery 2 in the longitudinal direction as well as the width direction, The charging and discharging operation of the battery 2 can be easily performed corresponding to the position of the tab 4.

According to the present invention, when the polarity of the battery (2) and the negative electrode tab (4) are provided at one end (one end relative to both longitudinal ends of the battery (2)), The electrode tab 4 of the battery 2 is brought into contact with the lower bus bar 22 of the bar 20A and the upper bus bar 24 of the second bus bar 20B, ) To be charged and discharged.

In the present invention, the first bus bar 20A and the second bus bar 20B, which are main components, are configured to be adjustable in the width direction of the jig base 10, The first bus bar 20A and the second bus bar 20B are moved with respect to the jig base 10 so that the distance between the electrode tabs 4 of two different polarities is changed, Discharge operation can be performed. Therefore, the battery 2 can be charged / discharged compatible with various sizes of the battery 2.

In the case where the positive electrode of the battery 2 and the negative electrode tab 4 are separately provided at both ends (both end portions in the longitudinal direction of the battery 2), the third bus bar 20C and the first bus The two electrode tabs 4 of the battery 2 are brought into contact with the lower bus bars 22 and the upper bus bars 24 of the bar 20A or the second bus bar 20B, Discharging operation for the battery 2 is performed.

The jig base 10 is composed of a first jig base 10A and a second jig base 10B which are capable of relative movement in the longitudinal direction relative to each other, The size of the battery 2 in the longitudinal direction is changed so that the distance between the electrode tabs 4 of two different polarities (i.e., the distance in the longitudinal direction of the battery 2) 10 to adjust the relative movement distance of the third bus bar 20C with respect to the first bus bar 20A and the second bus bar 20B and then to adjust the relative positions of the third bus bar 20C and the first bus bar 20C, The battery 2 is brought into contact with the lower bus bar 22 and the upper bus bar 24 of the bus bar 20A or the second bus bar 20B to perform charging and discharging operations of the battery 2, Compatible with charging and discharging operations of the battery (2) corresponding to various sizes (that is, various lengthwise sizes of electricity) The advantage is had.

The positive electrode tab 4 and the negative electrode tab 4 of the battery 2 are provided separately at both ends of the battery 2 at both ends in the longitudinal direction of the battery 2, The third bus bar 20C is relatively moved in the width direction of the second jig base 10B so that the third bus bar 20C is aligned with the position of one of the electrode tabs 4 of the battery 2 The battery 2 can be charged and discharged.

For example, when the width of the battery 2 is changed, the charging and discharging operations of the battery 2 are smoothly performed, and when the length of the battery 2 varies in the longitudinal direction, 2) It is an invention that is a key feature in making charging and discharging work smooth.

In the meantime, in the present invention, the two upright support pieces 31 of the support frame 30 are provided with guide rails on the inner side facing each other, and the first bus bar 20A and the second bus bar 20B The upper bus bar 24 is formed such that the guide rail grooves formed at both side ends of the upper bus bar 24 are slidable relative to guide rails formed on the upright support pieces 31 of the support frame 30, The upper bus bar 24 is connected to the lower end of the lowering operation rod 36 so that the lower end of the upper bus bar 24 is moved upward and downward relative to the support frame 30, The first bus bar 20A and the second bus bar 20B and the third bus bar 20B are connected to the electrode tabs 4 of the battery 2 while moving relative to each other in the direction of the first bus bar 22, Discharging operation of the battery 2 in the state where the lower bus bars 20 and the upper bus bars 24 of the battery 20C are in contact with each other, The battery 2 can be more stably charged and discharged with higher accuracy in the structure of gripping and contacting and supporting the electrode tab 4 of the battery 2 during charging and discharging operations of the battery 2 You can expect.

It is to be understood that the terms "comprises", "comprising", or "having" as used in the foregoing description mean that a component can be implanted unless specifically stated to the contrary, But should be construed as further including other elements. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Commonly used terms, such as predefined terms, should be interpreted to be consistent with the contextual meanings of the related art, and are not to be construed as ideal or overly formal, unless expressly defined to the contrary.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

2. Battery 4. Electrode tab
10. Jig base 10A. The first jig base
10B. Second jig base 12. Guide slit
13. Auxiliary groove 14. Slide support member
15. Slide support 17. Probe contact sector
18. Voltage sensing probe 20. Bus bar
20A. The first bus bar 20B. The second bus bar
20C. Third bus bar 22. Lower bus bar
23. Contact projection 24. Upper bus bar
25. Concave groove 26. Guide groove
27. Guide slit 28. Guide guide
30. Support frame 31. Upright support piece
32. Bridge support unit 36. Lift operation rod

Claims (8)

In a battery jig in which a bus bar (20) is brought into contact with an electrode tab (4) of a battery (2) during charging and discharging operations of the battery (2)
A jig base 10;
A bus bar 20 provided in the jig base 10 and brought into electric contact with the electrode tab 4 of the battery 2 so as to apply current;
And a moving guider for moving the bus bar (20) relative to the jig base (10) so as to match the position of the electrode tab (4) of the battery (2).
The method according to claim 1,
The bus bar (20)
A first bus provided on one of the upper and lower ends of the jig base in the longitudinal direction and relatively slidable in both left and right width directions of the jig base by the moving guide, A bar 20A and a second bus bar 20B;
A third bus bar (not shown) provided on the other end side in the longitudinal direction upper and lower ends of the jig base 10 and relatively slidable in the left and right width direction end sides of the jig base 10 by the moving guide 20C). ≪ / RTI >
3. The method of claim 2,
The first bus bar 20A, the second bus bar 20B, and the third bus bar 20C,
A lower bus bar 22 coupled to the jig base 10 so as to be relatively slidable in a left-right width direction;
And an upper bus bar (24) disposed on the upper side of the lower bus bar (22)
The moving guide,
A guide groove 26 extending in a left-right width direction of the jig base 10;
Guide slits (12) (27) provided on any one of surfaces of the guide groove (26) and the lower bus bar (22) facing each other and extending in the left and right width direction of the jig base (10);
And guide pieces 28 provided on the other surfaces of the guide grooves 26 and the lower bus bars 22 facing each other to be slidable relative to the guide slits 12 and 27 Wherein the two-way battery jig is a two-way battery jig.
The method of claim 3,
The lower bus bar 22 is supported by the support frame 30 so as to be slidable relative to the jig base 10 in the left and right width directions and the upper bus bar 24 supports the support frame 30 And the support frame 30 is provided with a lifting operation rod 36 having a bolt axis structure connected to the upper bus bar 24 so that the lifting operation rod 36 And the upper bus bar (24) relatively moves in the direction of the lower bus bar (22) by the raising and lowering operation.
5. The method of claim 4,
The lower bus bar 22 and the upper bus bar 24 are provided with a plurality of contact protrusions 23 on the surfaces facing each other and recessed grooves 25 and 36 are formed between the contact protrusions 23 Wherein the two-way battery jig is a two-way battery jig.
3. The method of claim 2,
The jig base (10)
A first jig base 10A having the first bus bar 20A and the second bus bar 20B;
And a second jig base (10B) provided with the third bus bar (20C)
The first jig base 10A and the second jig base 10B are relatively slidably coupled to each other by a relative movement guide so that the longitudinal size of the jig base 10 is expanded and contracted, And the relative distance of the third bus bar (20C) is adjusted with respect to the bus bar (20A) and the second bus bar (20B).
The method according to claim 6,
The first jig base 10A and the second jig base 10B are arranged such that the guide slits 12 extending in the longitudinal direction are opposed to each other, And a slide support member (14) commonly coupled to the guide slit (12) of the second jig base (10B).
8. The method of claim 7,
The first jig base 10A and the second jig base 10B are formed with auxiliary grooves 13 at the outer positions of the guide slits 12 and 27, And a slide supporting piece (15) mounted on the auxiliary groove (13) so as to be slidable relative to the bottom of the auxiliary groove (13).

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