KR101155522B1 - Charging clamp having temperature sensing function and charging system having the same - Google Patents

Abstract

The clamp for charging according to the present invention includes a pair of forceps pieces coupled in a rotatable structure, the forceps pieces being coupled to the forceps pieces and contacting the battery terminals when the pair of forceps pieces are bitten by the battery terminals of the secondary battery. And a temperature sensing means for sensing a temperature of the electrode contact terminal or the battery terminal when a charging current is transferred from the electrode contact terminal to the battery terminal. By using the charging clamp and the charging system having the same according to the present invention, since the temperature of the secondary battery can be detected directly or indirectly during charging, the overheating of the secondary battery can be notified to the outside, and the temperature of the secondary battery is set to a set value. Since the supply of the charging current to the secondary battery is cut off when heated above, there is an advantage that the explosion of the secondary battery can be prevented.

Description

Charging clamp having temperature sensing function and charging system having the same {charging clamp having temperature sensing function and charging system having the same}

The present invention relates to a charging clamp for delivering a charging current to a secondary battery coupled to a battery terminal of a secondary battery and a charging system having the same, and more particularly, to prevent explosion of a secondary battery due to overheating during charging. The present invention relates to a charging clamp having a temperature sensing function and a charging system having the same.

In general, a secondary battery is a battery that can be repeatedly used when charged, unlike a disposable battery, and is mainly used as a main power source for mobile devices for communication, information processing, and audio / video. The main reason for the recent interest in secondary batteries and rapid development is that secondary batteries are ultralight, high energy density, high output voltage, low self-discharge rate, environmentally friendly battery and long lifespan.

Secondary batteries are divided into nickel-hydrogen (Ni-MH) batteries and lithium-ion (Li-ion) batteries according to electrode active materials. Lithium-ion batteries, in particular, use a liquid electrolyte or a solid polymer electrolyte or gel depending on the type of electrolyte. It can be divided into the case of using the electrolyte of the phase. In addition, it is divided into various types such as can type and pouch type according to the shape of the container in which the electrode assembly is accommodated.

On the other hand, such a rechargeable secondary battery is used by mounting a plurality of secondary batteries in a pack, such as a notebook PC. In addition, such a battery pack type secondary battery has a charge / discharge control circuit built therein to control matters related to charge and discharge. The charge / discharge control circuit turns on / off the charge / discharge switching element of the secondary battery to connect or disconnect the charge / discharge path, thereby causing the battery pack to charge / discharge. If the charge / discharge switching element is not operated while the battery pack is being charged or discharged, the battery pack is overcharged or overdischarged, and there is a risk of overheating and explosion.

Of course, if the secondary battery is overheated during the charging, the charging stops when the secondary battery is overheated, but it can prevent the explosion of the secondary battery. When the overheating is not provided with a function to stop the supply of the charging current, there is a problem that the explosion of the above-mentioned secondary battery can not be prevented.

The present invention has been proposed to solve the above problems, the charging clamp configured to detect the temperature of the secondary battery during charging, and the charging current to the secondary battery when the temperature of the secondary battery is heated above the set value It is an object of the present invention to provide a secondary battery charging system configured to stop supply.

Charging clamp according to the present invention for achieving the above object, a pair of forceps pieces coupled in a rotatable structure; An electrode contact terminal coupled to the tongs piece, the pair of tongs being in contact with the battery terminals when the pair of tongs are bitten by the battery terminals of the secondary battery to transfer a charging current to the battery terminals; And temperature sensing means for sensing a temperature of the electrode contact terminal or the battery terminal when a charging current is transferred from the electrode contact terminal to the battery terminal.

The temperature sensing means is located between the forceps piece and the electrode contact terminal, it is coupled to contact with the electrode contact terminal.

The temperature sensing means is coupled to be in contact with the electrode contact terminal, and is in contact with the battery terminal when the electrode contact terminal is in contact with the battery terminal.

The temperature sensing means is coupled to the forceps piece so as to be spaced apart from the electrode contact terminal, and the electrode contact terminal contacts the battery terminal when the electrode contact terminal contacts the battery terminal.

The temperature sensing means is applied in a thermocouple.

The electrode contact terminal is made of a metal plate having elasticity, and the end contacting the battery terminal is formed in a bent or curved shape.

The overheat prevention charging system according to the present invention includes a clamp for charging composed of the above-mentioned structure; A charging current supply unit supplying a charging current to the electrode contact terminal; And a control unit which receives the detection signal from the temperature sensing means and controls the charging current supply unit such that the charging current is not supplied to the electrode contact terminal when the temperature sensed by the temperature sensing means is greater than or equal to a predetermined value. .

The control unit controls the charging current supply unit such that the charging current is not supplied to the electrode contact terminal when the temperature sensed by the temperature sensing means is 80 ° C. or higher.

By using the clamp for charging according to the present invention can directly or indirectly detect the temperature of the secondary battery during charging, it is possible to notify the overheat of the secondary battery to the outside, the secondary battery using the secondary battery charging system according to the present invention Since the supply of the charging current to the secondary battery is cut off when the temperature is higher than the set value, there is an advantage that the explosion of the secondary battery can be prevented.

1 is a plan view of a clamp for charging according to the present invention.
2 is a side cross-sectional view of the clamp for charging according to the present invention.
3 is a side cross-sectional view showing an example of use of the clamp for charging according to the present invention.
Fig. 4 is a side sectional view showing an example of use of the second embodiment of the charging clamp according to the present invention.
5 is a schematic view of a secondary battery charging system according to the present invention.

Hereinafter, an embodiment of a charging clamp having a temperature sensing function and an overheating charging system having the same according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a plan view of a clamp for charging according to the present invention, FIG. 2 is a side cross-sectional view of the clamp for charging according to the present invention, and FIG. 3 is a side cross-sectional view showing an example of use of the clamp for charging according to the present invention.

The clamp 100 for charging according to the present invention is a pair of forceps pieces 110 coupled to the rotatable structure and secondary charge currents supplied from the charge current supply line 130 coupled to the forceps pieces 110. The electrode contact terminal 120 to be transferred to the battery terminal 210 of the battery 200 and the electrode contact terminal 120 or when the charging current is transferred from the electrode contact terminal 120 to the battery terminal 210. It comprises a temperature sensing means 150 for sensing the temperature of the battery terminal 210. In this case, the charging current supply line 130 and the electrode contact terminal 120 may be coupled by a separate fastening means 140, as shown in this embodiment, may be coupled by welding or soldering method. That is, the coupling between the charging current supply line 130 and the electrode contact terminal 120 may be any structure as long as the charging current can be transferred.

When the external force is applied to the rear end side (left side in this embodiment) to retract the pair of tong pieces 110, the front end side (right side in this embodiment) is opened as shown in FIG. When the external force is released, a separate resilient elastic means (not shown) is provided on the tong piece 110 so that the tip side is closed. The restoring elastic means is typically applied as a coiled spring or a pin spring, the restoration to apply an elastic force to the pair of forceps piece 110 in the direction in which the tip side of the pair of forceps piece 110 is pinched. Elastic means is used in a wide variety of types, a detailed description thereof will be omitted.

On the other hand, the electrode contact terminal 120, the pair of tong pieces 110 so that the contact with the battery terminal 210 when the battery terminal 210 of the secondary battery 200, the clip pieces 110 ), That is, the pair of tong pieces 110 are mounted on the side facing each other. In addition, the electrode contact terminal 120 is made of a metal plate having elasticity to secure a wider contact area with the battery terminal 210, the contact so that the contact with the battery terminal 210 can be more stably maintained An end contacting the battery terminal 210 is formed in a bent or curved shape. When the end of the electrode contact terminal 120 is formed in a bent or curved shape as described above, when the pair of tong pieces 110 bit the battery terminal 210, the electrode contact terminal 120 is bent or curved The portion is elastically bent in the process of being pressed by the battery terminal 210. Therefore, even if an external force such as vibration is applied from the outside and the tip side of the pair of tong pieces 110 is slightly opened, the electrode contact terminal 120 is bent or curved to be unfolded by its elastic force so that the battery terminal ( 210 can be stably maintained in contact with the state.

In addition, the secondary battery 200 undergoes a process of overheating before an explosion occurs during charging, and the temperature sensing unit 150 senses overheating of the secondary battery 200 as described above. To prevent explosions.

At this time, when the secondary battery 200 is overheated, the battery terminal 210 and the electrode contact terminal 120 in contact therewith are also heated to a high temperature, and the temperature sensing means 150 is the battery terminal 210 or the electrode contact terminal. It is determined whether the secondary battery 200 is overheated by measuring the temperature of 120. When the temperature sensing means 150 is configured to measure the temperature of the electrode contact terminal 120, the temperature sensing means 150 is in contact with the electrode contact terminal 120 as shown in FIGS. 2 and 3. Is coupled to, but may be located between the clamping piece 110 and the electrode contact terminal 120 so as not to interfere the contact between the electrode contact terminal 120 and the battery terminal 210.

That is, when the secondary battery 200 is overheated in a state where the pair of tongs 110 clamp the battery terminal 210 and the electrode contact terminal 120 and the battery terminal 210 are in contact with each other, the secondary battery 200 The heat generated from) is transferred to the electrode contact terminal 120 through the battery terminal 210, the temperature sensing means 150 senses the heat transferred to the electrode contact terminal 120 to overheat the secondary battery 200 Determine if Of course, in this case, the electrode contact terminal 120 should be made of a metal or an alloy thereof having excellent thermal conductivity as well as conductivity such as silver (Al) or copper (Cu).

The temperature sensing means 150 may be configured in any structure as long as it can measure the temperature of the electrode contact terminal 120, but it is applied to a thermocouple to more accurately measure the temperature and to facilitate installation. This is preferred. Since the thermocouple can measure a wide range of temperature from -200 ° C to 1700 ° C with an error of 0.1 to 1%, the electrode contact terminal 120 can be measured more accurately and stably, and has a mechanical flexibility. Since it can be changed suitably according to the use site has the advantage that it can be easily mounted.

Meanwhile, in the present embodiment, the temperature sensing means 150 is shown only between the forceps piece 110 and the electrode contact terminal 120, that is, a structure mounted on the upper surface of the electrode contact terminal 120, the temperature sensing means 150 may be mounted on an opposite surface of the electrode contact terminal 120 toward the forceps piece 110, that is, the bottom surface of the electrode contact terminal 120. When the temperature sensing means 150 is mounted between the forceps piece 110 and the electrode contact terminal 120, there is an advantage that the coupling of the temperature sensing means 150 can be more stably maintained, and the temperature sensing means ( When the 150 is mounted on the bottom surface of the electrode contact terminal 120, there is an advantage that the temperature sensing means 150 can be more easily mounted. The mounting position of the temperature sensing means 150 is a charging clamp 100. It can be variously changed according to various conditions such as the characteristics and uses of the.

4 is a side sectional view showing an example of use of the second embodiment of the charging clamp 100 according to the present invention.

The temperature sensing means 150 may be configured to be in contact with the electrode contact terminal 120 to measure the temperature of the electrode contact terminal 120, as shown in the embodiment shown in Figs. As described above, it may be configured to be in contact with the battery terminal 210 to measure the temperature of the battery terminal 210. At this time, when the temperature sensing means 150 is excessively thick or large, the temperature sensing means 150 is in contact with the battery terminal 210 when the pair of tong pieces 110 bit the battery terminal 210. Since the electrode contact terminal 120 does not contact the battery terminal 210, the secondary battery 200 may not be charged. Accordingly, when the pair of tong pieces 110 bit the battery terminal 210, the electrode contact terminal 120 is in contact with the battery terminal 210 and the temperature sensing means 150 is also in contact with the battery terminal 210. In order to achieve this, the shape and mounting position of the temperature sensing means 150 should be appropriately set according to the size or shape of each component.

When the temperature sensing means 150 is configured to measure the temperature of the battery terminal 210 directly, rather than indirectly measuring the heat generated by the secondary battery 200 through the electrode contact terminal 120, the There is an advantage that it is possible to detect whether the secondary battery 200 overheated more quickly and accurately.

On the other hand, when the temperature sensing means 150 is configured to be in contact with the battery terminal 210, the temperature sensing means 150 may be coupled to contact with the electrode contact terminal 120 as shown in FIG. It may be coupled to the forceps piece 110 so as to be spaced apart from the electrode contact terminal 120. When the temperature sensing means 150 is configured to be spaced apart from the electrode contact terminal 120 as described above, the charging current transmitted through the electrode contact terminal 120 may be prevented from leaking through the temperature sensing means 150. , Since the coupling position of the temperature sensing means 150 can be changed to the outside of the forceps piece 110, there is an advantage that the temperature sensing means 150 can be more easily mounted.

5 is a schematic diagram of a secondary battery 200 charging system according to the present invention.

The overheat prevention charging system according to the present invention is for preventing the explosion of the secondary battery 200 by blocking the charging current supplied to the secondary battery 200 when the secondary battery 200 is overheated. The charging clamp 100 is configured to, the charging current supply unit 300 for supplying a charging current to the electrode contact terminal 120, and receives the detection signal from the temperature sensing means 150 the temperature sensing means ( If the temperature detected by the 150 is more than the set value is configured to include a control unit 400 for controlling the charging current supply unit 300 so that the charging current is not supplied to the electrode contact terminal 120.

In this case, the secondary battery 200 typically has explosions when the state of heating to 80 ° C. or more is maintained for a predetermined time or more. When the temperature measured by the temperature sensing unit is 80 ° C. or more, the controller 400 is used. The controller controls the operation of the charging current supply unit 300 such that the charging current is not supplied to the electrode contact terminal 120. Of course, according to the characteristics of the secondary battery 200, the charging system according to the present invention may be configured to block the supply of the charging current even when the temperature measured by the temperature sensing unit is less than 80 ℃, by the temperature sensing unit It may be configured to continue supplying the charging current even if the measured temperature is 80 ° C. or higher. That is, the time point at which the supply of the charging current is cut off may be variously changed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the present invention is not limited to the disclosed exemplary embodiments. In addition, those skilled in the art should understand that many modifications and variations are possible without departing from the scope of the present invention.

100: charging clamp 110: tongs
120: contact terminal 130: charging current supply line
140: fastening means 150: temperature sensing means
200: secondary battery 210: battery terminal
300: charging current supply unit 400: control unit

Claims (8)

delete A pair of forceps pieces coupled to a rotatable structure;
An electrode contact terminal coupled to the tongs piece, the pair of tongs being in contact with the battery terminals when the pair of tongs are bitten by the battery terminals of the secondary battery to transfer a charging current to the battery terminals;
Temperature sensing means for sensing a temperature of the electrode contact terminal or the battery terminal when a charging current is transferred from the electrode contact terminal to the battery terminal;
Including,
The temperature sensing means is located between the clamping piece and the electrode contact terminal, characterized in that the coupling for contact with the electrode contact terminal.
A pair of forceps pieces coupled to a rotatable structure;
An electrode contact terminal coupled to the tongs piece, the pair of tongs being in contact with the battery terminals when the pair of tongs are bitten by the battery terminals of the secondary battery to transfer a charging current to the battery terminals;
Temperature sensing means for sensing a temperature of the electrode contact terminal or the battery terminal when a charging current is transferred from the electrode contact terminal to the battery terminal;
Including,
The temperature sensing means is coupled to contact with the electrode contact terminal, the charging clamp, characterized in that the contact with the battery terminal when the electrode contact terminal is in contact with the battery terminal.
A pair of forceps pieces coupled to a rotatable structure;
An electrode contact terminal coupled to the tongs piece, the pair of tongs being in contact with the battery terminals when the pair of tongs are bitten by the battery terminals of the secondary battery to transfer a charging current to the battery terminals;
Temperature sensing means for sensing a temperature of the electrode contact terminal or the battery terminal when a charging current is transferred from the electrode contact terminal to the battery terminal;
Including,
The temperature sensing means is coupled to the clamping piece so as to be spaced apart from the electrode contact terminal, when the electrode contact terminal is in contact with the battery terminal, the charging clamp, characterized in that the contact.
The method according to any one of claims 2 to 4,
The temperature sensing means is a charging clamp, characterized in that the thermocouple (Thermo couple).
The method according to any one of claims 2 to 4,
The electrode contact terminal is made of a metal plate having elasticity, the end of contact with the battery terminal is a charging clamp, characterized in that formed in a bent or curved shape.
A clamp for charging according to any one of claims 2 to 4;
A charging current supply unit supplying a charging current to the electrode contact terminal;
A control unit which receives the detection signal from the temperature sensing means and controls the charging current supply unit such that the charging current is not supplied to the electrode contact terminal when the temperature sensed by the temperature sensing means is greater than or equal to a set value;
Charging system, characterized in that configured to include.
The method of claim 7, wherein
The control unit, characterized in that for controlling the charging current supply unit so that the charging current is not supplied to the electrode contact terminal when the temperature sensed by the temperature sensing means is 80 ℃ or more.

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