KR20100079598A - Apparatus for sensing a voltage of cell of battery pack and connecting connector - Google Patents

Abstract

PURPOSE: A cell voltage measurement device of a battery pack and a connection connector therefor are provided to prevent the waste of the additional resources using only a simple connection connector without a structural change of an apparatus for charging and discharging. CONSTITUTION: A measure system measures the voltage of each cell by electrically interlinking electrode and electrode connector of each cell comprising the battery pack. A corresponding connector combined to the electrode connector is formed in the end of the voltage sensing line(110) of the measure system. The corresponding connector is connected to the electrode connector site corresponding to the electrode of each cell by a discrete unit. The corresponding connector is formed into an integrated connector of a single structure of a cathode probe joint end and an anode probe joint end. The corresponding connector is formed into a discrete connector(122) independent of the cathode probe joint end and anode probe joint end.

Description

Battery voltage measuring device for battery pack and connecting connector for same {APPARATUS FOR SENSING A VOLTAGE OF CELL OF BATTERY PACK AND CONNECTING CONNECTOR}

The present invention relates to an apparatus for measuring a voltage of a cell constituting a battery pack, and a connection connector therefor, and more particularly, to a corresponding connector corresponding to a structure of an electrode connector for measuring a cell voltage included in a battery pack. Therefore, the present invention relates to a voltage measuring device having a general purpose and a connection connector therefor, which can be effectively applied regardless of the shape of the electrode connector provided in various forms according to the specifications of the battery pack.

The battery pack generally refers to a module in which one or more individual cell batteries are combined. The battery pack is composed of a secondary battery module capable of charging and discharging, and the measurement of the voltage of the battery pack itself or the voltage of individual cells is necessary in order to monitor or determine whether the battery pack is defective.

The conventional process of measuring the actual voltage by the necessity as described above is briefly described with reference to FIGS. 1 and 2 as follows.

First, as shown in FIG. 1, the battery pack 10 having one or more cell batteries in a complex form generally includes an electrode connector 20 connected to electrodes of individual cells.

The electrode connector 20 is also used as an electrode for future charging or discharging, and when mounted on a specific device such as an actual hybrid vehicle, is electrically connected to a battery management system (BMS) and operated according to actual driving. Control by the BMS.

In the case of measuring the voltage of the individual cells of the battery pack 10, a voltage sensing device, which is typically provided auxiliary to the charger and discharger, is used. The main function of the charger and charger is to charge or discharge the battery pack 10. In order to measure the degree of charge or discharge, the charger / discharger is generally provided with an auxiliary device for sensing the magnitude of the voltage.

Since the charge / discharge test of the cell and the measurement of the magnitude of the sensed voltage are generally performed together, the measurement of the cell voltage of the battery pack typically uses such a charger / discharger. As shown in FIG. 2, the charger / discharger 30 is configured as a ring terminal connection terminal, and the ring terminal has a coupling structure of a bolt 31 and a nut 32.

In the case of measuring the cell voltage using the charger / discharger 30, conventionally, an additional conductive line (such as an electric wire) is mediated, and the conductive line is connected to a ring terminal connection terminal of the charger / discharger 30, and an insulating tape or the like is used. After taping, the method of measuring the cell voltage by electrically connecting the other end of the conductive line to the electrode connector 20 of the battery pack 10 is mainly used.

However, the above method requires a considerable time and effort unnecessarily since the above process must be repeated every time the object is changed.

In addition, since it is a human-dependent method, the reliability of repeatability is inevitably reduced, and as the connection relationship becomes complicated, electrical safety problems such as short may occur. There is a problem that it can affect.

The present invention was devised to solve such a problem in the above-mentioned background, and proposes a connection part of the battery cell voltage measuring device in a form that can be coupled to the electrode connector of the battery pack. An object of the present invention is to provide a cell voltage measuring device for a battery pack and a connector therefor that can measure and at the same time increase the reliability of electrical contact and measurement.

Other objects and advantages of the present invention will be described below and will be appreciated by the embodiments of the present invention. In addition, the objects and advantages of the present invention can be realized by the configuration and combination of configurations shown in the claims.

The cell voltage measuring device of the battery pack of the present invention for realizing the above object relates to a measuring device coupled to an electrode connector electrically connected to the electrodes of each cell constituting the battery pack to measure the voltage of each cell. A corresponding connector fitted to the electrode connector is configured to be provided at the end of the voltage sensing line of the measuring device.

In addition, the corresponding connector may be configured in a form that can be connected in an individual unit to the electrode connector corresponding to the electrode of each cell.

In order to implement a preferred embodiment, the corresponding connector may be formed of an integral connector having a single structure in which the negative electrode probe connection terminal and the positive electrode probe connection terminal for voltage measurement, and the negative probe connection terminal and the positive electrode probe connection terminal for voltage measurement It can consist of separate individual connectors.

In addition, the voltage sensing line is branched in a Y-shape, the individual connector may be configured to be provided at each branched Y-shaped end portion, the Y-branched voltage sensing line is the electrode of each individual connector It is more preferred that the length of each individual connector is differently formed so as to be distinguished, or that the electrodes of each individual connector are covered with different colored sheaths to distinguish.

In addition, the measuring device is a charger or charger for charging or discharging a cell of the battery pack, the voltage sensing line is preferably configured as an auxiliary voltage sensing line of the charger.

On the other hand, the contact connector for achieving the object of another aspect of the present invention is interposed between the electrode connector electrically connected to the electrode of each cell constituting the battery pack and the measuring device for measuring the voltage of each of the connection connector and A connection connector for electrically connecting a measuring device, wherein one end of the connection connector is provided with a corresponding ring terminal connection terminal coupled with a ring terminal connection terminal of the measuring device, and the other end of the connection connector is fitted with the electrode connector. The mating connector is configured to be provided.

More preferably, the connection connector is formed in an X-shape, the individual connector and the corresponding ring terminal connection terminal may be configured to be provided at each of the X-shaped connection connector end.

The cell voltage measuring apparatus of the battery pack according to the present invention may provide a general application environment that is not limited to the number, shape, etc. of the cell voltage electrode connectors of the battery pack, which may be configured in various forms.

In addition, by easily realizing the mechanical or physical contact for the electrical connection between the connection terminal, it is possible to overcome the inefficiency by the electrical connection of the human-dependent method, it is possible to realize the voltage measurement process of the desired cell more quickly.

In addition, the above-described method can be realized by only a simple connection connector without changing the structure of the conventional charging and discharging device, thereby preventing additional resource waste and increasing convenience for use of the charging and discharging device. .

Based on the characteristics of the present invention, it is possible to reduce the direct and indirect electrical effects of the target battery pack, thereby further increasing the safety of the battery pack.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

First, referring to FIG. 3, a cell voltage measuring apparatus 100 of a battery pack according to the present invention includes a corresponding connector 120 provided at an end of a voltage sensing line 110, which is a predetermined conductive cable (wire). The corresponding connector 120 is fitted to the electrode connector 20 electrically connected to the electrodes of the cells constituting the battery pack 10.

That is, the corresponding connector 120 may have a form that can be fitted to the electrode connector 20 provided in the battery pack 10, and may be coupled to all or part of the electrode connector 20 according to an embodiment. The corresponding connector can be configured.

The measuring device 100 may be an independent individual device for measuring voltage, but as described above, a charger / charger for charging or discharging a cell of the battery pack is used, and the voltage sensing line is an auxiliary voltage of the charger / charger. By configuring the sensing line, it is possible to provide an effect of increasing convenience in the manufacturing or testing process related to the actual battery pack.

Meanwhile, the corresponding connector 120 illustrated in FIG. 3 may be configured to be coupled to all connection terminals of the electrode connector 20, as described above, as one embodiment according to the present invention.

In addition, as described above, the corresponding connector of the present invention may be coupled to all of the electrode connectors 20, but the electrode connector may be configured in various forms according to the specification or the embodiment of the battery pack. As shown in FIG. 3, the corresponding connector 120 of the present invention is preferably configured to be connected in an individual unit to an electrode connector corresponding to the electrode of each cell.

Typically, the connection connector is composed of a plurality of connection terminals that can be fitted, and each connection terminal is connected to the electrodes of the individual cells, so as to be configured in a single form that can be connected in a separate unit as described above in the connection connector Only electrodes corresponding to individual cells to be measured can be selectively selected and measured.

In addition, as shown in FIG. 4, the corresponding connector 121 may further include a cathode probe connection terminal and a cathode probe connection terminal for voltage measurement as an integrated connector having a single structure.

Since the physical separation distance between the terminals for voltage sensing in the connection connector is constant, when the integrated connector corresponding to the separation distance is configured, the connection efficiency can be increased, and the operation can be performed more simply. have.

Meanwhile, in order to implement another embodiment, the corresponding connector may be configured such that the negative probe connecting end and the positive probe connecting end for voltage measurement are made of independent individual connectors 122 as shown in FIG. 5.

This embodiment is to reflect the structural characteristics of the electrode connector 20 provided in the battery pack, the electrode corresponding to the positive electrode of each cell is provided separately for each cell, but the electrode corresponding to the negative electrode is a common electrode In the case where the physical distance between the positive electrode and the negative electrode may not be the same for each cell, in this case, when configuring the individual connector 122 as shown in FIG. Since the physical distinction between the negative electrode and the positive electrode can be further enhanced, a mistake in the user's electrode discrimination can be prevented.

When the corresponding connector is formed in the structure of the individual connector 122 as described above, as shown in FIG. 5, the voltage sensing line 110 is formed in a Y-shaped branched form, and the individual connector is the branched Y-shaped. It can be configured to be provided at each end.

In order to implement a more preferred embodiment, the voltage sensing line branched into the Y-shaped configuration is configured so that the length of each of the individual connector is different from each other so that the electrodes of each of the individual connectors, or so that the electrodes of each of the individual connectors It is desirable to configure (see 115, 116) to be covered with a different color sheath.

By configuring the user to easily distinguish the electrode as described above, it is possible to induce to prevent the internal short (short) of the battery cell in connection with the connection of the voltage measuring device.

Although the reference numerals of the corresponding connectors of the present invention described above are not given the same, this is only to clearly reflect the efficiency of the description or the characteristics of each embodiment, and does not mean a physically distinct configuration. Self-explanatory

Meanwhile, hereinafter, the connection connector structure that can provide the effect of the present invention as described above while simultaneously using the structure of the charger / discharger having the ring terminal shape will be described with reference to FIGS. 6 and 7.

The connection connector 200 of the present invention is interposed between an electrode connector electrically connected to the electrodes of each cell constituting the battery pack and a measuring device for measuring the voltage of each cell to electrically connect the connection connector and the measuring device. It means the connecting connector.

The measuring device mainly includes the above-described charging and discharging device, but it should be interpreted that an individual measuring device having a terminal in the form of a ring terminal is not limited thereto.

As shown in FIG. 6, one end of the connection connector 200 is provided with a corresponding ring terminal connection terminal 210 that can be coupled to a ring terminal connection terminal of the measuring device. As described above, the corresponding ring terminal connection terminal 210 is not limited as long as it corresponds to a ring terminal structure that is electrically connected to a coupling structure of a nut and a bolt.

In addition, the other end of the connection connector 200 is provided with a corresponding connector 220 is fitted with the electrode connector 20. The connection connector 200 is connected through a predetermined measuring device having a terminal structure having a ring terminal structure and the electrode connector 20 of the battery pack, so that the effects of the present invention can be realized without additional changes to existing equipment. It becomes possible.

As described above, the corresponding connector 220 may be connected to the electrode connector 20 in an individual unit 120 form a single connector 121 having a single structure of a cathode probe connection terminal and a cathode probe connection terminal for voltage measurement, or Of course, it can be composed of individual connectors 122 separated by electrodes.

In order to implement a more preferred embodiment, the structure of the connection connector 200 of the present invention is formed in an X-shaped shape 230 as shown in FIG. 7, and the corresponding connector 220 of the individual connector structure and the Corresponding ring terminal connection terminal 210 may be configured to be provided at the end of the X-shaped connection connector, respectively, as described above may be configured with a different length of each line or covered with a different color coating Of course.

As described above, when the connection connector 200 of the present invention is configured in an X shape, it is possible to reduce the necessity of separately storing or managing to prevent the loss of an individual line for voltage sensing and the like. Can provide benefits that can be performed.

According to an embodiment, the Y-shaped or X-shaped branched corresponding connector, etc. are provided at one end of the added Y-shaped connecting connector after additionally connecting each other through a corresponding Y-shaped connecting connector. Integrated integrated connector may be configured to be connected to the electrode connector (20). That is, it is obvious that various embodiments of the corresponding connector or the connection connector described above may be connected to the electrode connector of the battery pack and sense the voltage in a combined form.

Although the present invention has been described above by means of limited embodiments and drawings, the present invention is not limited thereto and will be described below by the person skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of the claims.

The following drawings, which are attached to this specification, illustrate exemplary embodiments of the present invention, and together with the detailed description of the present invention serve to further understand the technical spirit of the present invention, the present invention includes matters described in such drawings. It should not be construed as limited to.

1 is a view showing the appearance of a battery pack consisting of one or more cells,

2 is a view showing the appearance of the charging and discharging device used in the conventional cell voltage measurement and the shape of the ring terminal provided therein;

3 is a view showing the configuration of a cell voltage measuring apparatus of a battery pack according to the present invention;

4 is a view showing a corresponding connector structure of a measuring apparatus according to the present invention;

5 is a view showing an individual connector structure of the measuring apparatus according to the present invention;

6 is a diagram showing a configuration of a connection connector for another embodiment of the present invention;

7 is a diagram showing a configuration according to another embodiment of the connection connector of the present invention.

Claims (14)

A measurement device coupled to an electrode connector electrically connected to the electrodes of each cell constituting the battery pack to measure the voltage of each cell, And a corresponding connector fitted to the electrode connector is provided at an end of the voltage sensing line of the measuring device. The method of claim 1, wherein the corresponding connector, Cell voltage measuring apparatus of the battery pack, characterized in that the form of the individual unit can be connected to the electrode connector corresponding to the electrode of each cell. The method of claim 2, wherein the corresponding connector, An apparatus for measuring cell voltage of a battery pack, wherein the cathode probe connecting end and the anode probe connecting end for voltage measurement are formed of an integrated connector having a single structure. The method of claim 2, wherein the corresponding connector, An apparatus for measuring cell voltage of a battery pack, characterized in that the cathode probe connection terminal and the anode probe connection terminal for voltage measurement are made of independent individual connectors. The method of claim 4, wherein the voltage sensing line, Branched in a Y shape, The individual connector is a cell voltage measuring device of the battery pack, characterized in that each provided at the branched Y-shaped end portion. The voltage sensing line of claim 5, wherein: The cell voltage measuring device of the battery pack, characterized in that the length is formed differently from each individual connector so that the electrodes of each individual connector are distinguished. The voltage sensing line of claim 5, wherein: The cell voltage measuring device of the battery pack, characterized in that the electrode of each of the individual connectors is covered with a different color coating. The method of claim 1, wherein the measuring device, And a charge / discharger for charging or discharging a cell of the battery pack, wherein the voltage sensing line is an auxiliary voltage sensing line of the charger / discharger. A connection connector interposed between an electrode connector electrically connected to an electrode of each cell constituting a battery pack and a measurement device for measuring the voltage of each cell, and electrically connecting the connection connector and the measurement device, One end of the connection connector is provided with a corresponding ring terminal connection terminal coupled to the ring terminal connection terminal of the measuring device, the other end of the connection connector is provided with a corresponding connector is fitted with the electrode connector Connector for measuring cell voltages. The method of claim 9, wherein the corresponding connector, Connection connector for measuring the cell voltage of the battery pack, characterized in that the form that can be connected to the electrode connector corresponding to the electrode of each cell in individual units. The method of claim 10, wherein the corresponding connector, A connecting connector for measuring the cell voltage of a battery pack, characterized in that the negative electrode probe connection terminal for measuring the voltage and the positive electrode probe connecting terminal comprises an integrated connector having a single structure. The method of claim 10, wherein the corresponding connector, A connector for measuring the cell voltage of a battery pack, characterized in that the negative probe connection terminal and the positive probe connection terminal for voltage measurement is composed of independent individual connectors. The method of claim 12, A cell of a battery pack, characterized in that the distance between the other end of the connection connector provided with each individual connector and one end of the connection connector provided with the corresponding ring terminal connection terminal is not equal so that the electrodes of the individual connector are distinguished. Connector for voltage measurement. The method of claim 12, The connection connector is made of an X shape, And the individual connector and the corresponding ring terminal connection terminal are provided at ends of the X-shaped connection connector, respectively.

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