KR101790639B1 - Fixing Jig Used in Charging and Discharging or Test of Secondary Battery - Google Patents

Abstract

A secondary battery fixing jig used for charging / discharging or testing a secondary battery. A secondary battery fixing jig of the present invention includes: a base plate having a rectangular parallelepiped shape having an upper surface, a lower surface, and four side surfaces, and a secondary battery mounted on an upper surface thereof; And a terminal connection port mounted on the base plate for connecting a power source, a load, or a measurement terminal to an electrode terminal of the mounted secondary battery. The base plate is provided with a first slot extending in a tunnel form from the surface of the first side of the four sides toward the opposing second side and a second slot extending from the surface of the third side adjacent to the first side toward the opposed fourth side A second slot extending in the form of a tunnel and a third slot extending in the form of a tunnel from the surface of the fourth side toward the third side are formed. The terminal connection port includes a connecting portion for electrically connecting a power source, a load, or a measuring terminal to an electrode terminal of the secondary battery, and a bar-shaped mounting portion having a size and shape insertable into the slot. So that the terminal fittings are mounted on the base plate, so that the secondary battery having various sizes and electrode protruding structures can be easily and stably fixed.

Description

Technical Field [0001] The present invention relates to a secondary battery fixing jig for charging / discharging or testing a secondary battery,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a jig for securing a secondary battery during charging / discharging or testing of the secondary battery.

Unlike a primary battery, which can not be recharged, a secondary battery refers to a battery capable of repeated charge and discharge, and is used as a power source for energy storage systems, electric vehicles, or hybrid vehicles as well as small portable electronic devices such as mobile phones, PDAs, Is also being used.

The secondary battery is manufactured in the form of a cell in which an electrode assembly including an anode, a cathode, and a separator, an electrolyte, and various components such as various additives are sealed in a case. The can is a can type battery and a pouch type battery It is divided. In the can type battery, the above-described components are housed in a rectangular or cylindrical case made of metal, and the pouch type battery includes the above-mentioned components in a pouch made of a sheet in which a synthetic resin covering layer is laminated with aluminum as a main material.

On the other hand, the secondary battery is manufactured through a step of storing an electrode assembly in a case and injecting an electrolyte, followed by a battery activation step. Here, the battery activation step includes charging and discharging the secondary battery under the conditions necessary for activation after mounting the secondary battery in the secondary battery charging / discharging device. Also, the performance of the secondary battery is tested. The performance test of the secondary battery is performed by charging the secondary battery to the charging / discharging device used in the activation step, and then applying electrical characteristics such as voltage, current, or resistance to the electrode terminal And measuring the electrical characteristics by connecting measurement terminals to be measured.

Therefore, the charging / discharging device or the testing device for activating or testing the battery includes a base for mounting or mounting the secondary battery, a charging power source, a discharging load, or a charging / discharging device for charging the electrode terminal of the secondary battery, And a terminal jig for electrically connecting the terminal to the terminal.

On the other hand, the size of the secondary battery to be subjected to battery activation or testing varies according to the standard, and the projecting or forming position of the electrode terminal may vary. Accordingly, there is a problem that the size and structure of the fixing jig must be variously prepared according to various sizes and electrode terminal structures. In response to such a problem, Patent Documents 1 and 2 propose a jig dedicated to charging a secondary battery as shown in Figs. 1 and 2, respectively.

That is, as shown in FIG. 1, the jig for secondary battery charger disclosed in Patent Document 1 has a base panel 100 on which a terminal support 200 on which a secondary battery is mounted and fixedly supports an electrode terminal is installed, By forming the guide slit 110 for guiding and fixing the support 200, it is possible to charge and discharge the secondary battery with various sizes and various protruding positions of the electrode terminals.

2, the jig for secondary battery charger disclosed in Patent Document 2 has a structure in which the base plate is divided into a first member 120 and a second member 130 to form two end portions 127 and 137 And the width A of the secondary battery overlaps with the length of the secondary battery, thereby making it possible to cope with various secondary batteries of various lengths.

However, the charge-lifting jig disclosed in these patent documents is complicated in structure and large in size. That is, in the case of the jig disclosed in Patent Document 1, the guide slits 111 and 112 should be formed in the horizontal and vertical directions in the base panel 100, and the terminal support 200 should be slidably assembled into the slit so as not to be easily detached It takes a lot of time and money to build a jig. Also, as shown in FIG. 1, the size is basically large in order to be able to cope with various sizes of batteries.

Also, in the case of the jig disclosed in Patent Document 2, the base plate is divided into the first and second members 120 and 130 having the stepped structures, respectively, so that the structure is complicated. As shown in FIG. 2, Basically, its size is big. In addition, the jig disclosed in Patent Document 2 is basically a device suitable for fixing a secondary battery having a terminal structure in which positive and negative terminals protrude from opposite sides of a secondary battery, respectively.

Patent Document 1: Registration No. 10-1418629 Patent Document 2: Registration No. 10-1029019

SUMMARY OF THE INVENTION It is an object of the present invention to provide a secondary battery fixing jig capable of fixing a secondary battery having various sizes and electrode terminal structures while having a simple structure and a small size.

A secondary battery fixing jig according to the present invention for solving the above-mentioned problems is characterized in that a charging power source, a discharging load or a terminal for measuring electrical characteristics is connected to an electrode terminal of a secondary battery to be used for charging, discharging or testing the secondary battery A base plate having a rectangular parallelepiped shape having an upper surface, a lower surface, and four side surfaces, the secondary battery being mounted on the upper surface; And a terminal connector which is mounted on the base plate and connects the power source, the load or the measurement terminal to the electrode terminal of the secondary battery mounted on the base plate, wherein the base plate is provided with a first terminal A first slot extending from the surface of the side surface toward the second side opposite to the first side and a fourth side facing the third side from a surface of the third side surface adjacent to the first side, And a third slot extending from the surface of the fourth side surface in a tunnel shape toward the third side surface is formed on the side surface of the first side surface, A connection portion electrically connected to the electrode terminal of the secondary battery and electrically connecting the electrode terminal to the power source, the load, or the measurement terminal, And a bar-shaped mounting portion having a size and a shape that can be inserted into any one of the first to third slots of the plate. By inserting the mounting portion into any one of the first to third slots, And the terminal connection port is mounted on the plate.

Here, the cross-sectional shape and the cross-sectional size of the first to third slots of the base plate may be the same.

Further, the extension of the second slot and the slot of the third slot may coincide with each other, and further, the second slot and the third slot of the base plate may be in contact with each other, 2 slot and the third slot.

In addition, two of the first slots of the base plate may be formed parallel to each other.

Alternatively, the first slot of the base plate may be formed of a single slot, and the width of the first slot may be formed to be larger than twice the width of the mounting portion of the terminal connector.

In this case, a guide protrusion protruding from the surface is formed on the upper surface or the lower surface of the mounting portion of the terminal connection port, and a ceiling surface or a bottom surface of the first slot of the base plate A plurality of guide grooves are formed spaced apart from each other and each of the plurality of guide grooves has a size and a shape corresponding to the guide protrusions and extends in a direction perpendicular to the first side surface. Here, the 'projection' and the 'groove' may be interchanged.

In addition, an insertion depth adjusting protrusion protruding from the surface is formed on an upper surface or a lower surface of the mounting portion of the terminal connector, and a ceiling surface or a bottom surface of at least one of the first to third slots of the base plate A plurality of adjustment projection receiving grooves are formed at predetermined intervals along a longitudinal direction of the slot and the plurality of adjustment projection receiving grooves are formed in a size and shape corresponding to the insertion depth adjusting projections.

In addition, a locking protrusion protruding to both sides along the width direction or the height direction of the mounting portion is formed at the tip of the mounting portion of the terminal fitting, and at least one of the first to third slots of the base plate And an opening portion may be formed with a latching protrusion for latching the latching protrusion.

The terminal connection port extends along the longitudinal direction of the mounting portion in parallel with the mounting portion and is exposed to the lower surface of the base plate when the mounting portion is inserted into at least one of the first to third slots And a clamping unit for clamping a portion between at least any one of the first to third slots and the lower surface together with the mounting portion.

According to the present invention, the terminal connection port can be inserted into the slot at an appropriate depth in accordance with the size of the secondary battery and the structure and direction of the electrode terminal, and the terminal connection port can be mounted on the base plate. Accordingly, the secondary battery of various structures and sizes can be simply and stably fixed with one fixing jig having a compact and simple structure as a whole.

1 is a plan view showing a jig for charging a secondary battery according to a related art.
FIG. 2 is a perspective view illustrating a base plate of a length-variable structure of a jig dedicated to charging a secondary battery according to another prior art.
3 is a perspective view illustrating a secondary battery fixing jig according to an embodiment of the present invention.
FIGS. 4 and 5 are plan views showing a state of using the secondary battery fixing jig shown in FIG.
6 is a plan view illustrating a secondary battery fixing jig according to another embodiment of the present invention.
7 is a plan view (a) and a partial sectional view (b) of a secondary battery fixing jig according to another embodiment of the present invention.
8 is a partially exploded perspective view illustrating a secondary battery fixing jig according to another embodiment of the present invention.
9 is a partial cross-sectional front view illustrating a secondary battery fixing jig according to another embodiment of the present invention.
10 is a perspective view showing a modification of the terminal connector of the secondary battery fixing jig according to the present invention.
11 is a perspective view showing another modification of the terminal connector of the secondary battery fixing jig according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the 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. It is provided to let you know. It should be noted that the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention so that various equivalents And variations are possible.

It should be noted that the terms indicating the directions such as front, back, left, right, top, bottom, width, height, height, ceiling and floor in the accompanying drawings and the following description, These terms can also be different if they are used but are shown and viewed in different directions. In addition, the size and dimensions of each component shown in the figures may be exaggerated for clarity and may not necessarily correspond to a scale of the actual product.

3 is a perspective view illustrating a secondary battery fixing jig according to an embodiment of the present invention.

Referring to FIG. 3, the secondary battery fixing jig according to the present embodiment includes a base plate 10 and a terminal connection port 30.

The base plate 10 has a rectangular parallelepiped shape having an upper surface 10a and a lower surface 10b and four side surfaces 10c to 10f and is provided on the upper surface 10a of the secondary battery 1 , See Figs. 4 and 5).

The base plate 10 is provided with three slots 20a1, 20a2 and 20b in total, two in the lateral direction (x-axis direction) and one in the longitudinal direction (y-axis direction) (Collectively referred to as reference numeral 20). Concretely, the base plate 10 is provided with a plurality of parallelepipeds extending in the form of a tunnel from the surface of the first side face 10c of the four side faces 10c to 10f toward the second side face 10d opposed to the first side face The first side surface 10a and the second side surface 10b of the first side surface 10c and the third side surface 10e adjacent to the first side surface 10c, Two slots 20b are formed.

Here, the first slots 20a1 and 20a2 are formed in the form of a tunnel extending from the first side face 10c to the second side face 10d, but this is not necessarily required. That is, the first slots 20a1 and 20a2 may be stopped before starting from the first side 10c and reaching the second side 10d. Furthermore, although the first slot is composed of two slots 20a1 and 20a2 parallel to each other, it may be formed as a single slot 20a having a wide width between two slots 20a1 and 20a2 (see FIG. 6) .

The second slot 20b is formed in the form of a tunnel extending from the third side face 10e to the fourth side face 10f. However, like the first slot, (10f). In this case, however, it is necessary to form a third slot starting from the fourth side face 10f at a position opposed to the second slot interposed halfway and extending in a tunnel shape toward the third side face 10e. That is, it is necessary to form the second slot and the third slot which are interrupted so that the extended lines of the second slot and the third slot coincide with each other. This will be described later in detail. However, in the charging / discharging or testing of the secondary battery in which the positive electrode terminal and the negative electrode terminal are protruded or formed on two mutually opposing sides, And the negative terminal must be connected to the power supply, load or measurement terminal. That is, in the case where the second slot 20b of the shape as shown in FIG. 3 is formed independently of the second slot and the third slot interposed halfway as described above, the second slot and the third slot are extended It is the same as what we have met. However, in order to fix a special type secondary battery protruded or formed at positions where the two electrode terminals 2a and 2b of the secondary battery 1 are protruded or formed on opposite sides facing each other, It is necessary to independently form the second slot and the third slot starting from the mutually offset positions of the first side face 10f and the fourth side face 10f and extending toward the fourth side face 10f and the third side face 10e, respectively.

3, the terminal fittings 30 of the same size can be inserted without any distinction. The terminal fittings 30 of the same size can be inserted . However, the cross-sectional shape and size of the slots 20 are not limited to those shown in Fig. That is, the cross-sectional shape of the slots 20 does not necessarily have to be a rectangle, but can be changed into various shapes such as a circle, an ellipse, and a polygon, and the height and width can be changed.

It is preferable that the base plate 10 is formed of plastic which is an insulating hard material. In this case, the base plate 10 on which the slots 20 are formed may be manufactured by injection molding or by cutting the slots 20 in the base plate of the rectangular parallelepiped. Further, it may be manufactured by dividing the upper and lower parts as shown in FIG. 8 and then joining them by fastening protrusions 13 and fastening grooves 14 or fastening means such as screws, bolts, nuts, rivets, or the like.

The terminal connection port 30 is mounted on the base plate 10 and is connected to the electrode terminals 2a and 2b of the secondary battery 1 mounted on the base plate 10 with a charging power source, Which are electrically connected to each other. The terminal connection port 30 is electrically connected to the power source, the load or the measurement terminal and contacts the electrode terminals 2a and 2b of the secondary battery 1 to connect the electrode terminals 2a and 2b to the power source, And a bar-shaped mounting portion 50 having a size and shape that can be inserted into the slots of the base plate 10 described above.

Specifically, the connection portion 40 of the terminal connection port 30 includes an upper pressure plate 43 that can vertically move up and down through a screw 42 mounted on the frame 41, And includes a conductive plate 44 as a main component. Here, the lower conductive plate 44 is electrically connected to the power source, the load, or the measurement terminal through the electric wire 3 (see FIG. 4) or the like. The flat electrode terminals 2a and 2b of the pouch type secondary battery 1 are sandwiched between the upper and lower conductive plates 43 and 44 and the upper electrode plate 43 is pressed and sandwiched by an appropriate pressure, , The load or measurement terminal can be electrically connected to the electrode terminals 2a and 2b of the secondary battery 1. [

On the other hand, the connection portion 40 is not limited to the specific structure shown in Fig. That is, for example, the upper pressure plate 43 may be formed of a conductive material, the lower conductive plate 44 may be omitted, and further, a structure as shown in FIG. 10 may be adopted. 10, the connection portion 40 'of the terminal connection port 30' of the modification may include a hinge portion 40 'instead of the screw 42 of FIG. 3, And is lifted and lowered by a hinge pin 45 and a push rod 46 hinged to each other via shafts 47 and 48. [ On the other hand, reference numeral 49 denotes a compression spring that elastically biases the elevating bar 45 and the upper platen 43 so that the elevating bar 45 and the upper platen 43 are kept downwardly while the pushrod 46 is not pressed.

3, the mounting portion 50 of the terminal fitting 30 has the same rectangular shape as the cross section of the slit 20 and is substantially equal to the cross-sectional size (width and height) of the slit 20 Extending with a slightly smaller cross-sectional dimension. Therefore, the terminal fittings 30 can be mounted on the base plate 10 by inserting the mounting portion 50 into the slit 20 in a slidable manner.

The terminal connection port 30 including the connection portion 40 and the mounting portion 50 is preferably made of an insulating rigid plastic except for the lower conductive plate 44.

The three terminal fittings 30 shown in FIG. 3 all have the same size because the first and second slots 20a1, 20a2 and 20b have the same cross-sectional shape and cross-sectional size as described above When the cross-sectional shape and cross-sectional size of each slot are made different, terminal fittings corresponding to each slot may be provided.

3, three terminal fittings 30 are shown. In actual use, however, two terminal fittings 30 are used in accordance with the number of the electrode terminals 2a and 2b of the secondary battery 1. Hereinafter, a method of using the secondary battery fixing jig of this embodiment will be described with reference to FIGS.

First, Fig. 4 shows an example in which two electrode terminals 2a and 2b of the secondary battery 1 protrude from the same side of the secondary battery. In order to fix the secondary battery 1, one terminal connection port 30 is inserted into each of the first two slots 20a1 and 20a2 and the two electrode terminals 2a and 2b of the secondary battery 1 are connected to each other. Is inserted between the upper pressure plate (43) and the lower conductive plate (44) of the corresponding terminal connection port (30) and the lower pressure plate (43) is appropriately lowered and sandwiched. At this time, the depth of inserting the mounting portion 50 of the terminal fitting 30 into the slots 20a1 and 20a2 is adjusted according to the size of the secondary battery 1.

5 shows an example in which two electrode terminals 2a and 2b of the secondary battery 1 protrude from opposite sides of the secondary battery. In order to fix the secondary battery 1, one terminal connection port 30 is inserted into each of the two sides of the second slot 20b, and the two electrode terminals 2a and 2b of the secondary battery 1 The lower terminal plate 43 and the upper terminal plate 43 of the corresponding terminal connection port 30 of the terminal connector 30 are held and lowered by appropriately lowering the terminal plate. At this time, the depth of inserting the mounting portion 50 of the terminal connector 30 into the slot 20b is adjusted according to the size of the secondary battery 1.

As described above, according to the present embodiment, the terminal fittings 30 can be inserted into the slots 20 in accordance with the size of the secondary battery 1 and the directions of the electrode terminals 2a and 2b, have. Therefore, it is possible to fix the secondary battery of various structures and sizes with one fixing jig having a small and simple structure as a whole.

4, although the distance between the two electrode terminals 2a and 2b of the secondary battery 1 is somewhat different, the degree of coverage is covered by the two terminal connectors 30. Therefore, (1) can be fixed to the jig. However, it is possible to adjust the distance (the distance in the y-axis direction in Fig. 3) between the two terminal fittings 30 in case the distance between the two electrode terminals 2a and 2b of the secondary battery 1 is extremely small or large .

The width of the first slots 20a1 and 20a2 in the y-axis direction is made larger than the width of the mounting portion 50 of the terminal connector 30 so that the terminal connector 30 is inserted into the first slots 20a1 and 20a2 In the width direction of the slot. Alternatively, the two first slots 20a1 and 20a2 may be extended in the width direction to form a single first slot 20a having a large width as shown in FIG.

Hereinafter, another embodiment of the present invention will be described with reference to FIG. 6, focusing on differences from the above-described embodiment. Although the slots 20a and 20b and the guide grooves 21 described later are shown by solid lines for convenience, the slots 20a and 20b and the guide grooves 21 are formed in the base plate 10 And it is not seen. This also applies to Fig.

In this embodiment, only one first slot 20a is formed and its width is larger than the sum of the widths of the mounting portions 50 of the at least two terminal fittings 30. Therefore, the two terminal fittings 30 can be inserted side by side along the width direction of the first slot 20a, and the distance between the two terminal fittings 30 in the first slot 20a can be made shorter than the distance between the secondary battery fittings 30, The distance between the two electrode terminals 2a and 2b can be freely adjusted.

However, in this case, the two terminal fittings 30 in the first slot 20a can not be correctly aligned and can be distorted. Then, the contact state between the two electrode terminals 2a and 2b of the secondary battery 1 is different, and the contact resistance is changed, so that accurate charging and discharging and testing are difficult, or the secondary battery may overheat during charging and discharging or testing.

Therefore, in this embodiment, the guide protrusion 51 and the guide groove 21 are provided to guide the terminal fitting 30 into the single first slot 20a so that the terminal fitting 30 can be accurately inserted in the lateral direction (x-axis direction) . The bottom surface of the first slot 20a of the base plate 10 is provided with a guide protrusion 51 protruding downward from the bottom surface of the mounting portion 50 of the terminal fitting, A guide groove 21 having a size and a cross-sectional shape and extending in the transverse direction is formed. A plurality of guide grooves 21 are formed at predetermined intervals in the longitudinal direction (y-axis direction). Accordingly, the two terminal connection portions 30 are properly spaced apart from each other in accordance with the distance between the two electrode terminals 2a and 2b of the secondary battery 1, and the guide protrusion 51 is inserted into the guide groove 21, (50).

The first slot 20a in the jig of the present embodiment fixes a secondary battery (see Fig. 5) in which the two electrode terminals 2a and 2b of the secondary battery 1 protrude from opposite sides facing each other Can also be used. That is, the secondary battery of this type can be fixed in the longitudinal direction by inserting the terminal connector 30 into both sides of the second slot 20b. However, the terminal connector 30 is inserted into both sides of the first slot 20a It may be fixed in the horizontal direction. Furthermore, in the jig of the present embodiment, the first slot 20a has the above-described special shape, that is, a shape in which the two electrode terminals 2a and 2b of the secondary battery 1 protrude from opposite sides facing each other, And can also be used for fixing the secondary battery. That is, the terminal fittings 30 may be inserted into the first slot 20a of the secondary battery 1 at positions offset from each other on both sides of the first slot 20a to fix the two electrode terminals 2a and 2b of the secondary battery 1.

6, the guide protrusion 51 is formed on the lower surface of the mounting portion 50 and the guide groove 21 is provided on the bottom surface of the first slot 20a. However, the guide protrusion 51 may be formed on the bottom surface of the mounting portion 50 And the guide groove 21 may be provided on the ceiling of the first slot 20a. It goes without saying that guide grooves may be formed in the mounting portion 50 and guide protrusions may be provided in the first slot 20a.

Next, a secondary battery fixing jig according to another embodiment of the present invention will be described with reference to FIG. 7, focusing on differences from the above embodiment.

Referring to FIG. 7, an insertion depth adjusting protrusion 52 protruding from the surface of the mounting portion 50 of the terminal fitting 30 is formed on the bottom surface of the slots 20 of the base plate 10, A plurality of adjustment projection receiving grooves 22 are formed at predetermined intervals along the longitudinal direction of the slot. When the terminal fitting 30 is inserted into the slot 20, the insertion depth adjusting protrusion 52 is inserted into the adjusting protrusion 52, When the terminal fitting 30 is inserted into the slot 20 with a stronger force, the insertion depth adjusting protrusion 52 is detached from the adjusting protrusion receiving groove 22, The terminal fittings 30 can be inserted in a manner that the terminal fittings 30 are seated in the adjusting projection receiving grooves 22.

Therefore, by using the jig of this embodiment, it is possible to easily adjust the insertion depth of the terminal connector 30 according to the size of the secondary battery 1 in a stepwise manner. Particularly, when the jig of the present embodiment is used, the secondary battery 1 (see Fig. 4) having two electrode terminals 2a and 2b protruded to the same side has two The insertion depths of the two terminal fittings 30 inserted into the first slots 20a1 and 20a2 can be adjusted in the same manner and the insertion depths of the two terminal fittings 30 are different from each other Problems such as precise charging / discharging, difficulty in testing, overheating of the secondary battery during charging / discharging and testing) are prevented.

7 (b), which is a cross-sectional view taken along the line BB of Fig. 7 (a), the insertion depth adjusting projection 52 is projected from the lower surface of the mounting portion 50 and is projected by the spring 53 And may be composed of an elastically biased ball 52.

7 is formed on the lower surface of the mounting portion 50 and the adjustment projection receiving groove 22 is formed on the bottom surface of the slot 20, the insertion depth adjusting projection 52 is formed on the bottom surface of the mounting portion 50, And the adjustment projection receiving grooves 22 may be formed on the ceiling of the slot 20. In addition, the 'protrusion' and the 'groove' may be interchanged. 7, the adjustment projection receiving grooves 22 are formed in both the first slots 20a1 and 20a2 and the second slots 20b. However, the adjustment projection receiving grooves 22 may be formed in only some slots .

Next, a secondary battery fixing jig according to another embodiment will be described with reference to FIG. 8, focusing on differences from the above-described embodiment.

8, locking protrusions 54 protruding from both sides along the width direction of the mounting portion are formed at the front end of the mounting portion 50 of the terminal fitting 30, and correspondingly, 20 are formed with hooking protrusions 24 to which the latching protrusions 54 are caught. Therefore, even if the terminal fitting 30 is pulled out of the slot 20 in the state where the terminal fitting 30 is inserted into the slot 20, the fitting protrusion 54 and the latching jaw 24 can not completely separate the terminal fitting 30 from the terminal 20, It is possible to prevent the connector 30 from being lost or the like.

8, the base plate 10 is fixed to the lower plate 11 having the slot 20 and the engagement protuberances 24 and the upper plate 12 of the simple plate type The mounting portions 50 of the terminal fittings 30 are formed in the slots (20a1, 20a2) in the slots (20a1, 20a2) And the upper and lower plates 11 and 12 are coupled to each other by means of fastening protrusions 13 and fastening grooves 14 or fastening means such as screws, bolts, nuts and rivets, (10) are combined with each other.

However, the structure of the upper and lower plates 11 and 12 can be changed (that is, a slot and a latching protrusion can be formed on the lower surface of the upper plate and the lower plate can be made into a simple plate type) (That is, a structure in which a half-height slot and a latching jaw are formed on the lower surface of the upper plate and a slot and a latching jaw of the remaining height are formed on the upper surface of the lower plate). 8, the latching protrusions 54 and the latching protrusions 24 may protrude in the longitudinal direction (y-axis direction) or may protrude in the height direction (z-axis direction).

Next, a secondary battery fixing jig according to another embodiment will be described with reference to FIG. 9, focusing on differences from the above-described embodiment. 9, only the base plate 10 is shown in cross section for convenience of explanation.

9, the terminal fitting 30 extends along the longitudinal direction of the mounting portion in parallel with the mounting portion 50, and when the mounting portion 50 is inserted into the slot 20, And the clamping portion 60 is exposed to the outside. The clamping portion 60 is coupled to the lower end of the base end portion of the mounting portion 50 via the hinge shaft 61 and the spring 62. The mounting portion 50 and the clamping portion 60 have the same structure as the clamp. When the terminal fitting 30 is mounted on the base plate 10, the clamping portion 60 together with the mounting portion 50 sandwiches a portion between the slot 20 and the bottom surface of the base plate 10. The terminal connection port 30 is separated from the base plate 10 or moved in the slot 20 due to carelessness or vibration during the charging or discharging of the secondary battery 1 or the test to release the fixing of the secondary battery, And the like.

While the pouch type secondary battery having the flat electrode terminals 2a and 2b has been described as an example in the above embodiment, the present invention is not limited to the pouch type secondary battery. That is, in the case of the can-type secondary battery, the electrode terminal may be formed in a cylindrical shape protruding from the side surface of the battery, or may be formed on the side surface of the battery itself or on the same surface as the side surface, The secondary battery fixing jig of the present invention is also applicable to this case.

11 showing another modification of the terminal connection port for this purpose, the terminal connection port 30 "of the present modification differs from the terminal connection port 30, 30 'of the above-described embodiments in particular in the configuration of the connection portion 40" . Specifically, the connecting portion 40 "of the present modification example can be brought into contact with the electrode terminal of the above-mentioned can-type secondary battery on the surface of the mounting portion 50 side of the lifting plate 43 'vertically movably coupled to the frame 41 Type probe 44 'is mounted on the tip of the can 44. The probe 44' is electrically connected to a power source, a load or a measuring terminal so that the probe 44 'is brought into contact with the electrode terminal of the can- 11, the reference numeral 42 'denotes a screw for fixing the lift plate 43' after lifting the lift plate 43 'to a proper height and fixing it to the base plate 10 to match the height of the probe 44 'with the electrode terminal of the secondary battery.

Although the preferred embodiments of the present invention have been shown and described, the present invention is not limited to the specific preferred embodiments described above. In particular, the characteristic configurations of the above-described embodiments can be implemented by combining features described in two or more embodiments, unless they are mutually contradictory. Accordingly, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents. Lt; / RTI >

1 ... Secondary battery 2, 2a, 2b ... Electrode terminal
10 ... base plate 10a ... upper surface
10b ... 10c ... first side
10d ... second side 10e ... third side
10f ... fourth side 20 ... slot
20a, 20a1, 20a2 ... First slot 20b ... Second slot
30 ... terminal connection port 40 ... connection
41 ... frame 42 ... screw
43 ... upper pressure plate 44 ... lower conductive plate
50 ... mounting portion

Claims (12)

A secondary battery fixing jig used for charging, discharging, or testing the secondary battery by connecting a charging power source, a discharging load, or an electric characteristic measuring terminal to an electrode terminal of the secondary battery,
A base plate having a rectangular parallelepiped shape having an upper surface, a lower surface, and four side surfaces and on which the secondary battery is mounted; And
And a terminal connection port mounted on the base plate for connecting the power source, the load, or the measurement terminal to the electrode terminal of the secondary battery mounted on the base plate,
The base plate includes a first slot extending in a tunnel shape from a surface of a first one of the four sides toward a second side opposite to the first side, and a second slot extending from the surface of the third side adjacent to the first side A second slot extending in the form of a tunnel toward the fourth side opposite to the third side and a third slot extending in the form of a tunnel from the surface of the fourth side toward the third side,
The terminal connection port includes a connection part electrically connected to the power source, the load, or the measurement terminal and electrically connecting the electrode terminal to the power source, the load, or the measurement terminal by making contact with the electrode terminal of the secondary battery, And a bar-shaped mounting portion having a size and shape insertable into any one of the first to third slots of the slot,
And the terminal fittings are mounted on the base plate by inserting the mounting portions into any one of the first to third slots,
An insertion depth adjusting protrusion protruding from a surface of the mounting portion of the terminal fitting is formed on an upper surface or a lower surface of the mounting portion,
Wherein at least one of the first to third slots of the base plate has a plurality of adjustment projection receiving grooves spaced apart from each other along the longitudinal direction of the slot,
Wherein the plurality of adjustment projection receiving grooves have a size and shape corresponding to the insertion depth adjusting projections. The method according to claim 1,
Wherein a cross-sectional shape and a cross-sectional size of the first to third slots of the base plate are the same. The method according to claim 1,
And an extension line of the second slot and the third slot of the base plate coincide with each other. The method of claim 3,
Wherein the second slot and the third slot of the base plate are in contact with each other, and the third side and the fourth side are penetrated by the second slot and the third slot. The method according to claim 1,
And the first slots of the base plate are formed in parallel with each other. The method according to claim 1,
Wherein the first slot of the base plate has a single slot and the width of the first slot is greater than twice the width of the mounting portion of the terminal connector. The method according to claim 6,
A guide protrusion protruding from the surface is formed on an upper surface or a lower surface of the mounting portion of the terminal fitting,
Wherein a plurality of guide grooves are formed on a ceiling surface or bottom surface of the first slot of the base plate, the guide grooves being spaced apart from each other in a direction parallel to the first side surface,
Wherein each of the plurality of guide grooves has a size and shape corresponding to the guide protrusions and extends in a direction perpendicular to the first side surface. The method according to claim 6,
Wherein a guide groove recessed from a surface of the mounting portion of the terminal connection port is formed on an upper surface or a lower surface of the mounting portion of the terminal connection port so as to extend in the longitudinal direction of the mounting portion,
Wherein a plurality of guide protrusions are formed on a ceiling surface or bottom surface of the first slot of the base plate, the guide protrusions being spaced from each other in a direction parallel to the first side surface,
Wherein each of the plurality of guide projections has a size and shape corresponding to the guide grooves. delete The method according to claim 1,
Wherein the insertion depth adjusting protrusion is made of a ball that is elastically biased in a direction protruding from a surface of an upper surface or a lower surface of the mounting portion. The method according to claim 1,
A locking protrusion protruding to both sides along the width direction or the height direction of the mounting portion is formed at the tip of the mounting portion of the terminal fitting,
Wherein an engaging projection is formed on an inlet of at least one of the first to third slots of the base plate to engage with the engaging projection. The method according to claim 1,
The terminal connector
Wherein the base plate is exposed to the lower surface of the base plate when the mounting portion is inserted into at least one of the slots of the first to third slots, Further comprising a clamping portion for holding a portion between at least any one of the first to third slots and the lower surface of the jig.

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