KR102064745B1 - Battery module fastening device - Google Patents

Abstract

The present invention relates to a battery module fastening apparatus for easily connecting various cables to a battery module. The battery module fastening apparatus comprises: a terminal contact part for supplying power for charging a battery module or measuring the voltage and current of the battery module by being in contact with a terminal of the battery module; a bracket for moving the terminal contact part up and down; and a lever adjusting a position of the bracket to make the terminal contact part and the battery module come in contact with each other at a predetermined pressure.

Description

Battery Module Fastening Unit {BATTERY MODULE FASTENING DEVICE}

The present invention relates to an apparatus for fastening a battery module for various diagnostics of the battery module.

As the demand for automobiles and other portable electronic devices increases, batteries such as secondary batteries are widely used as power sources of these devices. In particular, lithium ion batteries have been widely used because of their high energy density, high operating voltage, relatively high charging capacity, and convenient portability.

Such batteries have a reduced durability as they continue to charge and discharge, resulting in an accident such as an explosion. In addition, as the charging and discharging is repeated, the charging capacity is reduced, thereby reducing the use time.

In order to solve this problem, a user / inspector needs to perform battery life prediction by measuring various information of the battery, and this may involve connecting and dismantling various cables to the battery.

An object of the present invention is to provide a battery module fastening device for easily connecting various cables to the battery module.

The battery module fastening device may be in contact with a terminal of a battery module, thereby supplying power for charging the battery module or a terminal contact part for measuring voltage and current of the battery module, and a bracket for moving the terminal contact part up and down And, by adjusting the vertical position of the bracket, it may include a lever for contacting the terminal contact portion and the battery module at a predetermined pressure.

The vertical position of the bracket may be adjusted based on any one of a toggle clamp method, a hydraulic piston, a pneumatic piston, and a rotary gear.

The terminal contact portion may be configured such that one end of each of the power cable for supplying the power and the sensing cable for transmitting the measured voltage and current information contacts the terminal.

The predetermined pressure may be at least 40 kPa.

The battery module fastening device may further include a support frame for placing the battery module, and a fixing frame for positioning the battery module at a specific position on the upper end of the battery module by being designed based on an appearance of the battery module.

The battery module fastening device may further include a wheel for moving the pedestal.

The battery module fastening device may further include a junction box including a circuit for connecting at least one of the power cable and the sensing cable with the battery diagnostic device.

A battery module fastening device for easily connecting various cables to the battery module may be provided. The user / inspector does not tighten and loosen the cables to connect the various cables to the battery terminals, so there is no risk of disconnection, and the cable arrangement can be easily performed. In addition, by using the battery module fastening device, it is also possible to prevent the (+) polarity and the (-) polarity is reversed when the cable is connected.

1 illustrates a state in which a battery diagnostic apparatus is connected to a battery.
2 is a perspective view of a battery module according to one embodiment.
3 illustrates that the sensing cable and the power cable are coupled to the terminals of the battery module.
4A illustrates a battery fastening device according to an embodiment.
4B illustrates a battery module coupled to a battery fastening device according to an embodiment.
5 is a diagram illustrating various cables connected to a terminal contact portion according to an exemplary embodiment.
6 illustrates a jig portion separated from a pedestal according to one embodiment.
7 illustrates a battery module fastening device further including a junction box, according to an exemplary embodiment.
8A and 8B show that the battery module is coupled to the battery clamping device (arch type) according to an embodiment.

In the following, some embodiments will be described clearly and in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains (hereinafter, those skilled in the art) can easily implement the present invention. will be.

The battery may refer to one battery cell or a battery module in which a plurality of battery cells are electrically connected and modularized. In addition, the battery may include a plurality of battery modules. Each of the plurality of battery modules may include a plurality of cells. The plurality of battery modules may be mixed with each other in series and in parallel. According to an embodiment of the present disclosure, the plurality of battery modules may be a secondary battery such as a lithium ion battery.

In addition, as used herein, the term "unit" may mean a hardware component or a circuit.

1 illustrates a state in which a battery diagnosis apparatus 100 is connected to a battery. Referring to FIG. 1, the battery diagnosis apparatus 100 may be connected to a battery 10 to diagnose a state of the battery 10. The battery 10 may include a terminal 12 and a battery management system (BMS) 11. The battery diagnosis apparatus 100 may be connected to at least one of the terminal 12 and the battery management system 11.

Various cables may be connected or connected to the battery 10 for various diagnosis of the battery 10. For example, the battery diagnosis apparatus 100 and the battery 10 may be connected to each other through a power cable and a sensing cable.

The power cable can charge or discharge the battery 10 by supplying power to the battery 10. For example, the power cable may charge or discharge the battery 10 by connecting the charger and the battery 10 in the battery diagnosis apparatus 100. The power cable may include a power cable having a positive polarity connected to a positive terminal of the terminal 12 and a power cable having a negative polarity connected to a negative terminal of the terminal 12.

The sensing cable may receive the voltage and current information of the battery and transmit it to the outside. For example, the sensing cable may transmit current and voltage information of the battery 10 to the AC impedance analyzer or the battery interface by connecting the AC impedance analyzer or the battery interface in the battery diagnosis apparatus 100 to the battery 10. The sensing cable may include a sensing cable of (+) polarity connected to the (+) terminal of the terminal 12 and a sensing cable of (-) polarity connected to the (-) terminal of the terminal 12.

2 is a perspective view of a battery module according to an exemplary embodiment. As described above with reference to FIG. 1, cables (eg, power cables and sensing cables) for charging and discharging or various types of diagnosis of the battery module 2000 may be connected to the battery module 2000.

3 illustrates a power cable and a sensing cable connected to terminals of a battery module, according to an exemplary embodiment.

Referring to FIG. 3, according to an embodiment, the power cable and the sensing cable may be combined using a torque wrench and a positive terminal and a negative terminal of the battery module, respectively. For example, the user / inspector may use a torque wrench to tighten the bolts based on a predefined torque such that the contact resistance between the power cable and the sensing cable and the terminals of the battery module is within ± 1 m 오차 of the reference resistance value. The cable and sensing cable can be combined with the terminals of the battery module.

However, in this embodiment, the fastening and disassembly of the battery module takes about 3 to 5 minutes, which takes a long time, and a short circuit may occur due to the mixing of (+) polarity and (-) polarity due to direct connection by a person. Can be. In addition, the risk of disconnection may occur as a person tightens and loosens the power and sensing cables.

4A illustrates a battery module fastening device according to an embodiment.

Referring to FIG. 4A, the battery module fastening device 4000 may be in contact with a terminal of the battery module 2000 to supply power to perform charge / discharge of the battery module 2000 or to provide information about the battery module 2000 ( Terminal contact portion 4200 for transmitting voltage, current, etc., bracket 4400 for moving the terminal contact portion 4200 up and down, and up and down positions of the bracket 4400 and the terminal contact portion 4200 and the battery module ( 2000 may include a lever 4600 for contacting at a predetermined pressure. The vertical position of the bracket 4400 may be adjusted based on one of a toggle clamp method, a hydraulic piston, a pneumatic piston, and a rotary gear.

The terminal contact portion 4200 may be configured such that one end of each of the power cable 4900 for supplying power and / or the sensing cable 4800 for transmitting measured voltage and current information contacts the terminal of the battery module 2000. Can be. FIG. 5 is a diagram illustrating an example in which a power cable and a sensing cable are connected to a terminal contact portion 4200. The user / inspector may pull the lever 4600 so that the terminal contact portion 4200 and the terminal of the battery module 2000 come into contact with a predetermined pressure.

In an embodiment using the torque wrench described above with reference to FIG. 3, the predefined torque of the torque wrench may be 100 kgf * cm, which is a terminal contact in an embodiment using the battery module fastening device 4000 of FIG. 4A. 4200 may correspond to contacting the terminal of the battery module 2000 with a pressure of 40 kPa or more. A pressure sensor for detecting a fastening value with the battery module 2000 may be located in the terminal contact portion 4200, and pressure information detected through the pressure sensor may be displayed.

When the user / inspector pulls the lever 4600, the user can move the bracket 4400 down according to any one of a toggle clamp method, a hydraulic piston, a pneumatic piston, and a rotary gear, and thus the terminal contact portion 4200. It can also be moved down. When the user / inspector pulls the lever 4600 completely, the terminal contact 4200 and the terminal of the battery module 2000 may be contacted at the maximum pressure (eg, at least 40 kPa). Accordingly, the power cable 4900 and the sensing cable 4800 may be connected to the terminals of the battery module 2000 at a predetermined pressure (for example, 40 kPa). The user / inspector may further increase the contact pressure by pulling the lever 4600 completely to make contact between the terminal contact portion 4200 and the terminal of the battery module 2000 and then adjusting the bolt (see FIG. 6) using a torque wrench. .

The battery module fastening device 4000 may further include a pedestal 4700 and a fixing frame 4500 for supporting and supporting the battery module 2000. The fixing frame 4500 is a frame for guiding (or guiding) the battery module 2000 to be positioned at a specific position on the upper part of the pedestal 4700. The user / inspector closes the battery module 2000 to the fixing frame 4500. The battery module 2000 may be located at a correct position on the top of the pedestal 4700. According to one embodiment, the top of the pedestal 4700 may be located at a predetermined height from the ground.

The user / inspector can correctly contact the terminal contact portion 4200 and the terminal of the battery module 2000 in close contact with the fixing frame 4500 by pulling the lever 4600. According to an embodiment, the shape of the fixing frame 4500 may be designed in consideration of the external shape (or shape) of the specific battery module 2000. 4B shows that the user / inspector raised the battery module 2000 onto the pedestal 4700 and then adhered to the fixing frame 4500.

According to one embodiment, the jig portion and the base 4700 including the lever 4600, the bracket 4400, the terminal contact portion 4200, the sensing cable 4800, the power cable 4900, the fixing frame (4500) is separated It is possible. Thus, the user / inspector may put the jig portion and the pedestal 4700 into the temperature chamber independently to perform a module test. 6 illustrates the jig part 6000 separated from the pedestal 4700 according to one embodiment.

Referring back to FIG. 4A, the user / inspector places the battery module 2000 to be charged or discharged or diagnosed on the battery module fastening device 4000 and pulls the lever 4600 only to the battery module 2000 and various cables (eg, For example, the power cable 4900, the sensing cable 4800, etc.) can be easily and easily combined.

The user / inspector can combine the battery module 2000 and various cables within about 10 seconds, and dismantle can also be performed in a short time. By using the battery module fastening device 4000, mixing between (+) polarity and (-) polarity does not occur and a short can be prevented. Since the user / inspector does not tighten and loosen the power cable 4900 and the sensing cable 4800, there is no risk of disconnection and the cable can be easily arranged. In addition, since the battery module 2000 and the cable are always coupled at a constant pressure, reproducibility and reproducibility of various measured values for the battery module may be guaranteed.

The battery module fastening device 4000 may further include a first junction box (not shown) including a circuit for connecting at least one of the power cable 4900 and the sensing cable 4800 and the battery diagnosis apparatus 100 to each other. Can be. For example, the first junction box (not shown) may include a circuit for connecting the charger and the power cable 4900 in the battery diagnostic apparatus 100 and / or an AC impedance analyzer and a sensing cable in the battery diagnostic apparatus 100. And circuits for connecting the 4800 to each other. 7 illustrates a battery module fastening device 4000 further including a first junction box under a pedestal 4700, according to an embodiment.

The battery module fastening device 4000 may further include a second junction box (not shown) that provides a circuit for measuring temperature and voltage information of the battery module 2000 from the BMS and transmitting the measured information to the battery diagnostic device 100. have. The second junction box (not shown) may be configured to measure voltage and temperature information for each of the battery cells constituting the battery module 2000.

The descriptions are intended to provide exemplary configurations and operations for implementing the present invention. The technical idea of the present invention will include not only the embodiments described above but also implementations that can be obtained by simply changing or modifying the above embodiments. In addition, the technical idea of the present invention will include implementations that can be achieved by easily changing or modifying the embodiments described above.

Claims (7)

A terminal contact for supplying power for charging the battery module or measuring voltage and current of the battery module by being in contact with a terminal of the battery module;
A bracket for moving the terminal contact portion up and down;
A lever for adjusting the vertical position of the bracket to bring the terminal contact portion into contact with the battery module at a predetermined pressure;
Pedestal for placing the battery module; And
Designed based on the appearance of the battery module, including a fixing frame for positioning the battery module in a specific position on the top of the pedestal,
The battery module is in the correct position on the top of the pedestal by bringing the battery module into close contact with the fixing frame.
The jig portion and the pedestal including the lever, the bracket, the terminal contact portion, the sensing cable, the power cable, and the fixing frame are detachable, and the jig portion and the pedestal are independently put into the temperature chamber to perform a module test. Battery module fastening device, characterized in that. The method of claim 1,
Up and down position of the bracket is a battery module fastening device is adjusted based on any one of a toggle clamp method, a hydraulic piston, a pneumatic piston, and a rotary gear. The method of claim 1,
The terminal contact portion, the battery module fastening device is configured so that one end of each of the power cable for supplying the power and the sensing cable for transmitting the measured voltage and current information is in contact with the terminal. The method of claim 1,
And the predetermined pressure is at least 40 kPa. delete The method of claim 1,
Battery module fastening device further comprising a wheel for moving the pedestal. The method of claim 3,
And a junction box including a circuit for connecting at least one of the power cable and the sensing cable with a battery diagnostic apparatus.

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