KR100903994B1 - Charge and discharge system for battery - Google Patents

Abstract

A device for charging and discharging a battery is provided to obtain data accurately in a charging process and a discharging process by reducing capacity deviation of the battery. A current charge/discharge piece(111) increases a contact area between a lift piece(1) and a battery to minimize the heat generated when the lift piece contacts the battery. An assembly and disassembly unit performs the assembly and disassembly between the current charge/discharge piece and the lift piece. The assembly and disassembly unit is comprised of a screw tube(101) and a screw hole(114). A receiving space unit is formed in the lower center of the current charge/discharge piece for receiving the electrode piece of the battery. A contact surface is formed in the lower part of the current charge/discharge piece. The contact surface is in contact with the surface of a fixing nut of the battery.

Description

Battery charging and discharging device {CHARGE AND DISCHARGE SYSTEM FOR BATTERY}

The present invention relates to a battery charging and discharging device, and in particular, the lifting piece coupled to the lifting plate by the lifting operation of the lifting plate is in contact with the surface of the electrode piece of the battery by the elasticity of the outer elastic member to supply the current supplied to the electric current carrying wire. The battery can be charged with the battery or the remaining current of the battery can be discharged through the lifting piece and the current-carrying wire, and the voltage measurement piece of the connecting rod coupled with the through hole inside the lifting piece contacts the surface of the electrode piece of the battery by the elasticity of the inner elastic member. In the battery charging and discharging device for measuring the voltage, the current charging and discharging pieces are provided separately from the elevating piece, and the current charging and discharging pieces are assembled or separated by the assembling and separating means of the elevating piece. It can be used to accommodate the electrode pieces of the battery by the receiving space formed in the center of the bottom of the current charging and discharging pieces, and low The contact surface formed in the contact surface of the fixing nut of the battery can be charged and discharged to increase the contact area between the lifting piece and the battery to minimize the heat generated during contact, so the capacity deviation of the battery Accurate data can be obtained during charging and discharging, and current charging and discharging pieces with contact area suitable for small capacity, medium capacity, and large capacity batteries can be selectively assembled and used on the lifting piece for more efficient charging and discharging. The present invention relates to a battery charging and discharging device that is easy to maintain by replacing a current charging and discharging piece with ease.

Conventional battery charging and discharging device is shown in FIG.

According to the above-described prior art, the elevating piece 1 coupled to the elevating plate 4 by the elevating operation of the elevating plate 4 has the surface of the electrode piece 12 of the battery 11 with the elasticity of the outer elastic member 3. The current supplied to the current-carrying wire 5 in contact with the battery 11 may be charged with the battery 11 or the remaining current of the battery 11 may be discharged through the lifting piece 1 and the current-carrying wire 5. The voltage measuring piece 7 of the connecting rod 6 coupled to the through hole 2 in the elevating piece 1 contacts the surface of the electrode piece 12 of the battery 11 with the elasticity of the inner elastic member 8 so that the voltage It is supposed to measure.

In the prior art as described above, since the bottom part of the elevating piece 1 coupled to the elevating plate 4 was charged and discharged while contacting the surface of the electrode piece 12 of the battery 11, the battery 11 of small capacity was charged. ) Only charging and discharging is possible, but a large capacity or a large capacity battery will be followed.

That is, when the bottom surface portion of the elevating piece 1 comes into contact with the surface of the electrode piece 12 with a small area, the contact resistance increases and a lot of heat is generated.

As described above, when a lot of heat is generated, a large capacity deviation occurs during charging and discharging. Therefore, accurate charging and discharging data cannot be obtained.

In addition, the elevating piece (1) coupled to the elevating plate (4) is formed of a single piece, so it is impossible to replace, so it can be used only for small-capacity batteries, and the contact resistance increases for medium and large-capacity batteries as described above. There was also a problem that can not be selectively used because the heat generated a lot.

And, due to the wear and the like generated in the lower portion of the lifting piece had to replace the entire lifting piece when replacing and had to dismantle all the charge, discharge device had a difficult maintenance and repair.

An object of the present invention for solving and solving such a conventional problem,

Since the contact area between the lifting and lowering parts can be widened to minimize the heat generated during contact, the capacity deviation of the battery can be reduced, so that accurate data can be obtained during charging and discharging. The current charging and discharging pieces can be selectively assembled and used on the elevating piece to provide more efficient charging and discharging, and provide an easy maintenance by replacing the current charging and discharging pieces with ease.

In order to achieve the above object, the present invention,

The elevating piece coupled to the elevating plate by the elevating operation of the elevating plate contacts the surface of the electrode piece of the battery by the elasticity of the outer elastic member to charge the electric current supplied to the current-carrying electric wire with the battery or the remaining current of the battery with the elevating piece. In a battery charging and discharging device for discharging a current through a current-carrying wire and measuring a voltage by contacting a surface of an electrode piece of a battery with the elasticity of the inner elastic member, the voltage measuring piece of the connecting rod coupled with the through hole inside the lifting piece, It is provided with a current charge and a discharge piece formed separately from the current charge, the discharge piece to assemble or separate the current charge, the discharge piece on the lifting piece by means of assembling and separating means and formed in the center of the bottom of the current charge, discharge piece It is possible to accommodate the electrode pieces of the battery by the receiving space, and the fixing nut table of the battery by the contact surface formed at the bottom of the current charging and discharging pieces An electric current so as to contact and allows us to achieve the object of the present invention to be able to charge and discharge.

The present invention as described above, because it is possible to minimize the heat generated during contact by widening the contact area between the lifting piece and the battery can reduce the capacity deviation of the battery has the effect of obtaining accurate data during charging and discharging.

The present invention as described above, the current charge, discharge pieces having a contact area suitable for small capacity, medium capacity, large capacity battery can be selectively assembled to the lifting piece can be used to have a more efficient charging and discharging effect.

The present invention thus achieved has the effect of easy maintenance by easy replacement of current and discharge pieces.

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

The elevating piece 1 coupled to the elevating plate 4 by the elevating operation of the elevating plate 4 is in contact with the surface of the electrode piece 12 of the battery 11 by the elasticity of the outer elastic member 3 to transfer current. The current supplied to the wire 5 can be charged with the battery 11 or the remaining current of the battery 11 can be discharged through the lifting piece 1 and the current-carrying wire 5 and inside the lifting piece 1. Battery charge piece for measuring the voltage by contacting the surface of the electrode piece 12 of the battery 11 with the elasticity of the inner elastic member 8 is the voltage measuring piece 7 of the connecting rod 6 coupled to the through hole (2), In the discharge device,

 A current charge and discharge piece 111 formed to be separated from the elevating piece 1 so as to minimize the heat generated during contact by widening the contact area between the elevating piece 1 and the battery 11;

Assembling and separating means for assembling or separating the current charging and discharging piece 111 to the elevating piece 1;

An accommodating space 115 formed at the center of the bottom of the current charging and discharging piece 111 to accommodate the electrode piece 12 of the battery 11;

The contact surface 113 is formed at the bottom of the current charging and discharging piece 111 to contact the surface of the fixing nut 13 of the battery 11.

And, the assembling and separating means of the current charging and discharging piece is a screw tube 101 is formed in a hollow state at the bottom of the elevating piece (1),

In order to be fastened by the screw tube 101, the current was provided with a screw hole 114 formed at the center of the surface of the charge and discharge piece 111.

In addition, in order to assemble and separate the current charging and discharging piece 111 using a tool such as a spanner, a polygonal part 112 formed of the upper outer peripheral surface of the current charging and discharging piece 111 was further provided.

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

2 is a perspective view showing a current charge and a discharge piece of the battery charging and discharging device of the present invention, Figure 3 is a view for explaining the configuration and assembly process of the current charge, discharge piece of the present invention, The inner hollow tube 101 is formed by selecting one of the current charging and discharging pieces 111 having different contact areas of the contact surface 113 according to the capacity of the battery for charging and discharging. If it is assembled in 1), its use is possible.

For example, when charging and discharging the small-capacity battery 11, a current charging and discharging piece 111 having a small contact area (a) is selected and assembled. b) Select the current charging and discharging pieces 111 with a medium value, and assembling them, and when charging and discharging the large capacity battery 11, the current charging and discharging pieces 111 having a large contact area (c) are selected to charge the current. By assembling and separating means of the discharge piece, its use is possible.

That is, when the screw hole 114 formed at the center of the surface of the current charging and discharging piece 111 is fastened to the screw tube 101 formed at the bottom of the elevating piece 1, the current charging and discharging piece 111 is elevated. It is screwed while compressing the outer elastic member 3, which is installed outward of the piece 1.

At this time, by clamping a tool such as a spanner to the polygonal portion 112 formed by the upper outer circumferential surface portion of the current charging and discharging piece 111 of the present invention, the current charging and discharging piece 111 can be assembled more easily.

As described above, when the elevating plate 4 is lowered in the state where the current charging and discharging piece 111 is assembled, the elevating piece 1 coupled to the elevating plate 4 and the current charging and discharging coupled to the elevating piece 1 are discharged. As all the pieces 111 are lowered, the connecting rod 6 coupled to the through hole 2 of the elevating piece 1 and the voltage measuring piece 7 coupled thereto are also lowered and the battery 11 is lowered as shown in FIG. 4. First contact with the electrode piece 12 is made.

In addition, the accommodation space 115 formed in the center of the bottom of the current charging and discharging piece 111 continues to descend as the lifting piece 1 and the current charging and discharging piece 111 continue to descend by the lifting plate 4. Is inserted outside the electrode piece 12 of the battery 11, and the contact surface 113 formed at the bottom of the current charging and discharging piece 111 has a fixing nut 13 of the battery 11 as shown in FIG. It comes into contact with the surface with a large contact area.

Since the elevating piece 1 is compressed by the lowering piece 1 and the current charging and discharging piece 111 as described above, the elevating piece 1 compresses the inner elastic member 8 that is connected to the connecting rod 6 inside the through hole 2. By this elastic force, the voltage measurement piece 7 measures the voltage in the state which pressed the surface of the electrode piece 12 of the battery 11 with strong elasticity.

In addition, the guide inclined surface 116 formed in the accommodation space 115 may guide the electrode piece 12 of the battery 11 to the center of the accommodation space 115 when the accommodation space 115 descends. It is to play a role.

In addition, the through hole 117 connecting the accommodation space 115 and the screw hole 1140 is a hole through which the connecting rod 6 can pass.

As described above, the contact surface 113 of the current charging and discharging piece 111 is in contact with the surface of the fixing nut 13 of the battery 11, and the voltage measuring piece 7 is the electrode piece 12 of the battery 11. The battery 11 is charged and discharged while being in contact with the surface.

That is, the current supplied to the current carrying wire 5 is charged to the battery 11 through the lifting piece 1 and the current charging and discharging piece 111 or the remaining current of the battery 11 is lifted by the lifting piece 1. ) And the current charging and discharging piece 111 can be discharged to the current-carrying electric wire 5.

In addition, when the charge and discharge of the battery 111 is completed, the lifting plate 4 and the charging and discharging piece 1 and the current charging and discharging piece 111 rise as soon as the lifting plate 4 rises in the opposite operation as described above. (7) also rises to wait for the next charge and discharge.

1 is a view for explaining the configuration and operation of the conventional battery charging and discharging device

Figure 2 is a perspective view showing the current charge, the discharge piece of the battery charging, discharging device of the present invention

Figure 3 is a view for explaining the configuration and assembly process of the current charge, the discharge piece of the present invention

4 and 5 are views for explaining the operation of the current charge, discharge pieces of the present invention

<Code Description of Main Parts of Drawing>

101-screw 111-current charge, discharge

112-polygon 113-contact surface

114-screw 115-accommodating space

116-Slope 117-Through

Claims (3)

The elevating piece coupled to the elevating plate by the elevating operation of the elevating plate contacts the surface of the electrode piece of the battery by the elasticity of the outer elastic member to charge the electric current supplied to the current-carrying electric wire with the battery or the remaining current of the battery with the elevating piece. In the battery charging and discharging device, which can be discharged through a current-carrying electric wire and the voltage measurement piece of the connecting rod coupled to the through hole inside the elevating piece is in contact with the surface of the electrode piece of the battery by the elasticity of the inner elastic member.  A current charge and a discharge piece which are formed separately from the lifting piece so as to widen the contact area between the lifting piece and the battery so as to minimize the heat generated during contact; Assembling and separating means for assembling or separating the current charging and discharging pieces to the elevating piece; A receiving space portion formed at the center of the bottom of the current charging and discharging piece for accommodating the electrode pieces of the battery; Battery charging and discharging device, characterized in that provided with the contact surface formed in the bottom of the current charge, the discharge piece in contact with the surface of the fixing nut of the battery. The method of claim 1, The means for assembling and separating the current charging and discharging pieces is a screw pipe formed in a hollow state at the bottom of the lifting piece; Battery charging and discharging device, characterized in that provided with a screw hole formed in the center of the surface of the current charge, the discharge piece to be fastened by the screw tube. The method of claim 1, Battery charging and discharging device characterized in that it further comprises a polygonal portion formed by the upper peripheral surface portion of the current charging, the discharge piece to assemble and separate the current charge, the discharge piece using a tool such as a spanner.

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