KR200450590Y1 - A construction of contact pin in battery jig - Google Patents

Abstract

The present invention relates to a large-capacity battery charging and discharging jig, and in particular, a plurality of the fixed bolts are laminated and fixed to one side of the support, and the lower side is provided with electrode pieces fastening connecting bolts connected to the current supply line Each of the electrode pieces is bent on the upper side to form a close contact piece having a length that becomes shorter as the length is lowered, and then located in the space formed in the center of the electrode pieces are fixed to the support by a fixing bolt and the contact piece on the upper part It is formed by bending and connecting the voltage measuring piece bending the connecting piece connected to the voltage measuring line on the lower part, and the cross-sectional area is widened by the plurality of electrode pieces, which can charge and discharge a large current of more than 150 amperes to the battery. Contact surfaces of different lengths can be bent sequentially to the battery's charge and discharge electrodes. The charging and discharging is performed in close contact, so that the smooth and accurate charging and discharging effect can be obtained, and the electrode piece structure of the large-capacity battery charging and discharging jig can get economical effect by reducing the weight and low production cost. To provide.

Electrode piece, space part, close contact piece, support, current supply line, voltage measurement piece, contact piece, connection piece, voltage measurement line

Description

Electrode piece structure of large capacity battery charging and discharging jig {A CONSTRUCTION OF CONTACT PIN IN BATTERY JIG}

The present invention relates to a large-capacity battery charging and discharging jig, and in particular, a plurality of the fixed bolts are laminated and fixed to one side of the support, and the lower side is provided with electrode pieces fastening connecting bolts connected to the current supply line Each of the electrode pieces is bent on the upper side to form a close contact piece having a length that becomes shorter as the length is lowered, and then located in the space formed in the center of the electrode pieces are fixed to the support by a fixing bolt and the contact piece on the upper part It is formed by bending and connecting the voltage measuring piece bending the connecting piece connected to the voltage measuring line on the lower part, and the cross-sectional area is widened by the plurality of electrode pieces, which can charge and discharge a large current of more than 150 amperes to the battery. Contact surfaces of different lengths can be bent sequentially to the battery's charge and discharge electrodes. The charging and discharging is performed in close contact, so that the smooth and accurate charging and discharging effect can be obtained, and the electrode piece structure of the large-capacity battery charging and discharging jig can get economical effect by reducing the weight and low production cost. It is about.

Conventionally, an electrode piece of a jig for charging and discharging a current of 150 amps or more to a battery was used as one electrode piece having a thick thickness.

In other words, the electrode pieces were brought into contact with the charging and discharging electrodes of the battery to supply current to the battery or to draw current remaining in the battery to the outside.

However, in the above-described prior art, since the thickness of the electrode piece was thick, the site of contact with the charging and discharging electrode of the battery had to be processed very precisely.

This is because the electrode piece must be in close contact with the battery for charging and discharging the battery to properly supply current.

In addition, in the above conventional technology, since the electrode piece was thick, its own elastic force could not be expected.

In other words, even if the electrode piece is not precisely processed, if the elastic force is present, it is forced to be in close contact with each other, thereby achieving the desired purpose.

Therefore, when the processing error of the electrode pieces or foreign matters are attached to the surface and accumulated, the contact failure occurs and leads to a situation in which charging and discharging cannot be performed, which has a problem of frequent maintenance.

In addition, the electrode piece has a problem that the entire weight of the jig is very heavy because the weight of the electrode piece is much weighted as much as the thickness, and the electrode piece is made of the same copper material, so the manufacturing cost is expensive and there is also a problem that there is no economic efficiency.

The purpose of this article to solve and complement these conventional problems,

The cross-sectional area is widened by the plurality of electrode pieces, so that a large current of 150 amps or more can be charged and discharged to the battery, and the contact surfaces having different lengths are bent sequentially, while the charge and discharge are in close contact with the charge and discharge electrodes of the battery. As the discharge is made, smooth and accurate charging and discharging effect can be obtained, and the purpose of obtaining economical effect by reducing weight and low production cost is provided.

The present invention to achieve the above object,

On the one side of the support, a plurality of fixing bolts are laminated and fixed to the lower side, and the lower part includes electrode pieces fastening the connecting bolts connected to the current supply line, and each of the electrode pieces is bent on the upper side thereof, and the length thereof becomes downward. After forming a close contact piece having a shortening length is located in the space formed in the center portion of the electrode pieces are fixed to the support by a fixing bolt, the upper part is bent to form a contact piece, the lower part is bent the connecting piece connected to the voltage measurement line Combining the formed voltage measurement piece can achieve the object of the present invention.

The present invention as described above, the cross-sectional area is widened by a plurality of electrode pieces has the effect of charging and discharging a large current of more than 150 amps to the battery.

The present invention, as described above, bend and discharge in a state in close contact with the charging and discharging electrodes of the battery while sequentially contacting the surfaces of different lengths can achieve a smooth and accurate charging and discharging effect.

According to the present invention, the electrode pieces are manufactured by using a plurality of thin copper sheets, so that the weight reduction effect and the economic effect due to the low production cost can be obtained.

The configuration of the present invention will be described in detail by the accompanying drawings.

In order to charge and discharge a large current of 150 amps or more to the battery 121, a plurality of fixing bolts are stacked and fixed to one side of the support 106 by a connection bolt 104 and connected to the current supply line 107 at the lower side. The electrode pieces 101 fastening 105,

Adhering pieces 103 formed on each of the electrode pieces 101 are bent and shortened as the length thereof goes downward,

Located in the space portion 102 formed in the center portion of the electrode pieces 101 is fixed to the support 106 by a fixing bolt 114, the upper side is bent to form a contact piece 112, the lower portion is measured voltage It is a structure provided with the voltage measuring piece 111 which forms the connecting piece 113 connected with the line 115. As shown in FIG.

Referring to the operation of the present invention as described above is as follows.

First, Figure 1 is a perspective view showing to explain the configuration of the electrode piece and the voltage measuring piece of the present invention, Figure 2 is a cross-sectional view showing a combined configuration of the electrode piece and the voltage measuring piece of the present invention, a plurality of electrodes for current transfer of the present invention The pieces 101 are externally supplied to the outside through the current supply line 107 connected by the connecting bolt 105 at the lower side of the electrode piece 101 in the state of being fixed to the support 106 with the fixing bolt 104. It serves to discharge the remaining current.

In addition, the voltage measurement piece 111 located in the space portion 102 formed at the center of the electrode pieces 101 and fixed to the support 106 with the fixing bolt 114 is connected to the lower connection piece 113 and the voltage measurement. The line 115 is connected to measure the voltage of the battery 121.

That is, with the battery 121 at the center, at one side, the support 106 in which the electrode pieces 101 and the voltage measuring piece 111 are coupled moves to move the charge and discharge electrodes 122 of the battery 121. The side and the contact pieces 103 are in close contact with each other sequentially and the other side is in a state supporting the other side of the charging and discharging electrode 122 by moving the pedestal 123.

On the other hand, the action of the close contact piece 103 is formed on each of the electrode pieces 101 is bent over and the length thereof becomes shorter toward the lower side will be described.

First, as shown in FIG. 3, the contact piece 103 of the electrode piece 101 positioned at the uppermost side contacts the charging and discharging electrode 122 of the battery 121 by the movement of the support base 106. Subsequently, by the subsequent movement of the support base 106, the close contact piece 103 of the electrode piece 101 located second is brought into close contact with each other, as shown in FIG. The close contact piece 103 of 101 is brought into close contact with each other, and the close contact pieces 103 of the electrode pieces 101 located at the fourth and fifth positions are brought into close contact with each other, as shown in FIGS. 6 and 7.

As described above, the adhesive pieces 103 of the present invention are in close contact with the charging and discharging electrodes 122 of the large-capacity battery 121, and the elastic force generated from the electrode pieces 101 is applied to the adhesive pieces 103. Since it is continuously working, it is possible to accurately and smoothly charge and discharge by the five contact pieces 103.

In addition, the contact piece 112 of the voltage measurement piece 111 located in the space portion 102 of the electrode piece 101 is shown in FIG. 8 together with the third contact piece 103 of FIG. 5. As it is curved, the battery 121 adheres to the charging and discharging electrodes 122 of the battery 121, so that accurate voltages can be measured.

1 is a perspective view for explaining the configuration of the electrode piece and the voltage measuring piece

2 is a cross-sectional view showing a combined configuration of the electrode piece and the voltage measuring piece of the present invention

3 to 7 is a functional diagram shown to explain the operation of the subject innovation close contact piece

8 is an operation diagram shown to explain the operation of the subject innovation contact piece

<Code Description of Main Parts of Drawing>

101-electrode piece 102-space part

103-Contact 104-Screws

105-connection bolt 106-support

107-Current Supply Line 111-Voltage Measurement

112-contact piece 113-connection piece

114-fixed bolt 115-voltage measuring line

121-Battery 122-Charge and Discharge Electrode

123-base

Claims (1)

In order to charge and discharge a large current of 150 amps or more to the battery 121, a plurality of fixing bolts are stacked and fixed to one side of the support 106 by a connection bolt 104 and connected to the current supply line 107 at the lower side. The electrode pieces 101 fastening 105, Adhering pieces 103 formed on each of the electrode pieces 101 are bent and shortened as the length thereof goes downward, Located in the space portion 102 formed in the center portion of the electrode pieces 101 is fixed to the support 106 by a fixing bolt 114, the upper side is bent to form a contact piece 112, the lower portion is measured voltage The electrode piece structure of the large-capacity battery charging and discharging jig provided with the voltage measuring piece 111 which forms the connection piece 113 connected to the line 115, and is bent.

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