JP2002117821A - Storage battery housing cabinet and connecting method of storage battery housing - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a storage battery housing cabinet and a connecting method of a storage battery housing to make it possible to easily, safely and surely perform an exchange of a storage battery module. SOLUTION: This is the cabinet 1 having a plug-in unit 13 consisting of that which is to house a plurality of storage batteries 6. The plug-in unit 13 has a connector 17 for the unit having receptacle contacts 17a to be respectively fitted into pin contacts 20 for the storage battery respectively installed at connecting lines 23, 23' respectively connected with positive electrodes and negative electrodes of the storage batteries 6, and pin contacts 17b which are to be respectively connected with the positive electrodes and the negative electrode of the storage batteries 6 via the receptacle contacts 17a and which are arranged penetrating through a side plate 13' of the plug-in unit 13 in an insulating state.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a technology for integrating a plurality of storage batteries (modules) and installing the storage batteries in a cabinet as a storage battery module, and more particularly to a storage battery module installed on a cabinet shelf. And a storage battery storage cabinet that enables normal operation without being affected by other storage battery modules even when some storage battery modules are removed from the cabinet. It relates to a storage battery storage connection method.

[0002]

2. Description of the Related Art It is known that a plurality of storage batteries (also referred to as a plurality of storage battery cells) are housed in a standard cabinet of an exchange in a communication system, and a storage battery and an exchange are installed in parallel. In such a configuration in which storage batteries are housed in a cabinet, a plurality of storage batteries are usually connected in series and used in a boosted state. That is,
A positive electrode and a negative electrode of each storage battery are sequentially connected to an adjacent storage battery to form a storage battery module in which a fixed number of storage batteries are connected in series. In order to reduce the floor area required for the entire storage battery module, shelves are provided in a cabinet, and storage batteries are stacked and installed vertically in the cabinet.

In recent years, sealed storage batteries such as sealed lead storage batteries have been developed, and the possibility of releasing harmful gas to the periphery has been reduced. Therefore, the storage batteries are housed in a sealed cabinet (also called a housing or a frame). It became possible. In a communication system, a storage battery storage cabinet, which is a cabinet for storing storage batteries, is installed adjacent to a switchboard and a transmission device serving as loads, so that power loss and voltage drop in power wiring due to low voltage and large current can be reduced. Since it can be reduced, the effect of storing the storage battery in the cabinet is great.

Further, by making the size of the storage battery storage cabinet equal to that of the exchange and the transmission device, it becomes possible to design the equipment using standard dimensions, so that the labor of the dimension design and the design of the floor load are uniform. And other advantages.

FIG. 11 is an external perspective view of a conventional storage battery storage cabinet. In this figure, a plurality of storage batteries 106
Is stored in a cabinet 101 and is called a British Telecom system X. Here, the plurality of storage batteries 106 are connected to the rectifier 10.
2. Cabinet 101 with power devices such as connection panel 103, monitoring device 104 and DC / DC converter 105
It is stored in.

[0006] The plurality of storage batteries 106 are
In FIG. 1, a plurality of shelves 108 provided vertically are arranged and stored. By stacking the storage batteries 106 in this manner, the floor area of the entire storage batteries 106 (the installation area of the entire storage batteries 106) is reduced.

Each storage battery 106 is connected in series, and is boosted to a voltage required for a load. For example, around 23 sealed lead-acid batteries are used in series in order to obtain a power supply voltage of 48 V for a communication device.

FIG. 12 is an external perspective view showing a conventional method of connecting the storage batteries 106. Each such storage battery 106
Is disclosed in Japanese Patent Application Laid-Open No. 11-16555, entitled "Tray for Storage Battery and Box for Power Supply". As an outline, the anode of one storage battery 6 and the cathode of the other storage battery 106 are sequentially connected by a connection line 109, and each shelf 10
8, the electrodes 10 of the storage battery 106 'arranged at both ends.
7 (anode or cathode) is connected to a connection line 109 ', respectively.
06 ′ and the storage battery 106 ′ of the lower shelf 108 are connected.

The connection between the electrode 107 and the connection line 109 in each storage battery 106 is usually made by screwing. Note that the plurality of storage batteries 1 arranged on one shelf 108
Reference numeral 06 denotes a storage battery module 111
Is formed.

FIG. 13 is an external perspective view showing the back surface of another conventional storage battery storage cabinet 101. In the storage battery storage cabinet 101, a plurality of storage batteries 106 are mounted on a storage battery module mounting unit 113.
In addition, the storage battery module mounting unit 113 is also called a subrack & plug-in unit.

The anode or cathode electrode 107 of the storage battery 106 ′ disposed at both ends of the storage battery module mounting unit 113 of each shelf 108 is connected to the anode terminal 114 or the cathode terminal provided on the back panel 112 of the storage battery module mounting unit 113. Connected to terminal 115. Further, the cathode terminal 115 of a certain storage battery module mounting unit 113 is
Other battery module mounted unit 1 placed under
Thirteen anode terminals 114 are connected.

Here, an anode terminal 114 and a cathode terminal 115
Is performed using a connection line 109 'or a connection plate. The connection between the anode terminal 114 or the cathode terminal 115 and the connection line 109 ′ is performed using a screw 116.

Such a storage battery storage cabinet 101
Are described, for example, in [Nikkan Kogyo Shimbun, "Latest practical secondary battery", November 1999, 2nd edition, pp. 50-52]. In this storage battery storage cabinet 101,
Compared with the method of connecting the storage batteries 106 shown in FIG. 12, the amount of wiring (overall length) of the connection line 109 connecting the storage batteries 106 can be reduced.

Further, an anode terminal 114 and a cathode terminal 115
By disconnecting the connection line 109 'from the storage battery module mounting unit 113, the storage battery module mounting unit 113 can be pulled out from the storage battery storage cabinet 101, so that it is possible to easily replace the storage battery module 111 unit.

Conventional storage battery storage cabinets other than those described above include [NTT R & D, vol. 38, no. 1
0, pages 1193 to 1202 "Digital communication device high-density mounting method"]. This storage battery storage cabinet is provided with a fan / plug-in unit as appropriate to perform forced air cooling.

[0016]

However, in the storage battery storage cabinet as described above, the connection between the storage battery 106 or the storage battery module 111 installed on each shelf 108 is made using the connection line 109 or the connection plate. Therefore, there is a problem that a large amount of manual work such as screwing is required to connect the storage batteries 106 or the storage battery modules 111.

When connecting between the storage battery modules 111, it is necessary to connect a hot wire of another storage battery module 111 to a wiring (hot wire) to which the voltage of the storage battery 106 is applied. There was a possibility of causing a short circuit accident due to wiring or a ground fault between the exposed portion of the conductor and the ground in the wiring.

Furthermore, some storage battery modules 111
Is removed from the storage battery storage cabinet 101 for replacement, the series circuit composed of the storage battery module 111 and another storage battery module 111 is disconnected, and the remaining storage battery module 111 may perform its original function. There was also a problem that it was not possible.

Here, the main objects to be solved by the present invention are as follows. That is, a first object of the present invention is to provide a storage battery storage cabinet and a storage battery storage connection method capable of facilitating replacement of a storage battery module.

A second object of the present invention is to provide a storage battery storage cabinet and a storage battery storage connection method that enable safe replacement of storage battery modules.

A third object of the present invention is to provide a storage battery storage cabinet and a storage battery storage connection method which enable the remaining storage battery modules to continue their original operation even when some of the storage battery modules are replaced. Is what you do.

Other objects of the present invention will become apparent from the description of the specification, the drawings, and particularly from the description of each claim in the claims.

[0023]

In order to solve the above-mentioned problems, the present invention provides a socket in which a plug-in unit comprising a storage battery is connected to each of a positive electrode and a negative electrode of the storage battery via a connector or the like. The present invention is characterized in that a configuration means having a unit connector including a contact and a pin contact connected to each of the positive electrode and the negative electrode of the storage battery via the socket contact is provided.

The method of the present invention solves the above-mentioned problems.
A pin contact for the storage battery is attached to the positive electrode and the negative electrode of each storage battery via a connection line, the storage battery is arranged in a plug-in unit formed of a box-shaped member, and the pin contact for the storage battery of the storage battery is connected to the plug-in unit. It has a feature of adopting a configuration technique in which the connector is fitted to a unit connector which is a connector provided on a side plate.

More specifically, in order to solve the problem, the present invention achieves the above object by adopting a novel characteristic configuration method or means from the upper concept to the lower concept enumerated below. It is done as follows.

That is, a first feature of the device of the present invention is a storage battery storage cabinet in which a plurality of plug-in units each of which stores one or more storage batteries are stored, wherein the plug-in unit is provided with each of the storage batteries. And a socket contact that is respectively fitted to the battery pin contact provided at the tip of the connection wire connected to each of the positive electrode and the negative electrode, and connected to each of the positive electrode and the negative electrode of the storage battery via the socket contact. The present invention also provides a configuration of a storage battery storage cabinet having a unit connector integrally formed with a pin contact disposed so as to penetrate the side plate of the plug-in unit in an insulated state.

A second feature of the device of the present invention resides in that the battery storage cabinet in the first feature of the above-described device of the present invention is provided with a plurality of cables in the rack having connectors which are detachably fitted to the pin contacts. By connecting the pin contacts, the storage battery is connected either in series or in parallel, and the storage cable is formed so as to be able to supply the power of the stored storage battery by the cable in the rack. is there.

A third feature of the device of the present invention resides in that the side plate of the plug-in unit in the first feature of the device of the present invention is formed by a conductive pattern for connecting predetermined ones of the plurality of unit connectors. The storage battery has a connection pattern, and the storage batteries are connected in series or in parallel by the connection pattern.

A fourth feature of the device of the present invention is that the storage battery storage cabinet in the first, second or third feature of the above-described device of the present invention comprises a plurality of storage battery storage cabinets. An on-board cable having a connector removably fitted to a contact, an on-board connector for removably connecting the on-board cable, and a connector for detachably connecting to the on-board connector at one end; A bridge cable for detachably connecting the other end between the bridge connector of the storage battery storage cabinet and the bridge connector of another storage battery storage cabinet, the cable in the rack, the bridge connector And a storage battery storage cabinet in which the storage batteries stored in the respective storage battery storage cabinets are connected in series or in parallel using the inter-overhead cable. Tsu in the configuration adoption of the door.

A fifth feature of the device of the present invention is that the storage battery storage cabinet in the first, second, third or fourth feature of the device of the present invention connects the storage battery and the connector for the unit. An electric circuit to be formed is to adopt a configuration of a storage battery storage cabinet having a shut-off mechanism capable of shutting and conducting.

A sixth feature of the device of the present invention resides in that, in the fifth feature of the device of the present invention, the interrupting mechanism is a parallel control pin which is a rod-shaped conductor electrically contacting the connector for the unit; A parallel power supply pin, which is two or more conductors electrically contacting each of the connector for the unit and the other connector for the unit, a housing for holding the parallel control pin and the parallel power supply pin substantially vertically, respectively, A detection circuit for detecting whether or not the parallel control pin is in electrical contact with the unit connector;
A power supply circuit that supplies the detection circuit with power taken from the parallel power supply pin, and an opening / closing circuit that electrically connects and disconnects the unit connectors based on a signal detected by the detection circuit. The parallel power supply pin has a length protruding from the outer surface of the holding member and is longer than the control pin protruding length.

A seventh feature of the device of the present invention is that the storage battery storage cabinet in the first, second, third, fourth, fifth or sixth feature of the device of the present invention is arranged in parallel with the storage battery. When the storage battery is removed from the plug-in unit, a bypass circuit that conducts between the positive electrode side and the negative electrode side where the storage battery is connected in the plug-in unit, A determination circuit that controls the bypass circuit to conduct between the positive electrode side and the negative electrode side when receiving a removal signal indicating that the storage battery has been removed from the plug-in unit. The configuration of the storage battery storage cabinet is adopted.

According to an eighth aspect of the present invention, the storage battery storage cabinet in the seventh aspect of the present invention is characterized in that the storage battery storage cabinet is connected to the socket contact connected to the positive electrode side of the storage battery and to the negative electrode side of the storage battery. A voltage between the socket contact and a voltage detection circuit that transmits the removal signal to the determination circuit when the voltage becomes a predetermined value or less. In the configuration adoption.

A ninth feature of the device of the present invention is that the storage battery storage cabinet in the first, second, third, fourth, fifth, sixth, seventh or eighth feature of the above-described device of the present invention is: A power supply connected in parallel to the storage battery, a voltage detection unit for detecting a voltage of the power supply, and control for controlling any one of an output voltage and an output current of the power supply using a detection result of the voltage detection unit And a connection unit for connecting the power supply between the positive electrode side and the negative electrode side where the storage battery was connected in the plug-in unit when the storage battery was removed from the plug-in unit. In the configuration of the storage battery storage cabinet.

A tenth feature of the device of the present invention is that the storage battery housing according to the first, second, third, fourth, fifth, sixth, seventh, eighth or ninth feature of the above-described device of the present invention. The cabinet employs a configuration of a storage battery storage cabinet including a transmission unit that detects a voltage between the unit connector and another of the unit connectors and transmits the detected value to the outside of the storage battery storage cabinet. It is in.

A first feature of the method of the present invention is a storage battery storage and connection method for storing one or more storage batteries in a cabinet, wherein one end of a connection line is connected to each of the positive electrode and the negative electrode of the storage battery. At each other end of the connection line, a storage battery pin contact as a connector is attached, and the storage battery to which the connection wire and the storage battery pin contact are connected is arranged in a plug-in unit formed of a box-shaped member. A storage battery in which the plug-in units in which the storage battery pin contacts of the storage batteries arranged in the plug-in unit are fitted to unit connectors, which are connectors provided on side plates, are arranged in multiple stages in the cabinet. The configuration of the storage connection method is adopted.

A second feature of the method of the present invention is that the storage battery connecting method according to the first feature of the present invention is arranged in the plug-in unit by connecting the unit connectors with conductors. And a storage battery connection method of connecting a plurality of the storage batteries in series or in parallel.

According to a third aspect of the method of the present invention, the storage battery storage and connection method according to the first or second aspect of the method of the present invention is the same as the above, except that the unit connector is connected to the unit connector via a connection line and the storage battery pin contact. Before electrically disconnecting the connected storage battery from the unit connector, electrically disconnecting the unit connectors using a disconnection mechanism for electrically conducting and disconnecting the unit connectors. Therefore, the present invention resides in a configuration of a storage battery storage and connection method in which current conduction is interrupted via the storage battery disconnected from the unit connector.

A fourth feature of the method of the present invention resides in that the storage battery storage and connection method according to the first, second or third feature of the method of the present invention is such that the storage battery not electrically connected to the unit connector. Before electrically connecting to the unit connector, using a blocking mechanism for electrically conducting and blocking the unit connectors, the unit connectors are electrically disconnected from each other. A storage battery storage and connection method comprising connecting the storage battery to a unit connector via a connection line and the storage battery pin contact, and after the connection, electrically connecting the unit connectors to each other using the shut-off mechanism. Configuration adoption.

A fifth feature of the method of the present invention is a rod-shaped conductor in which the interruption of conduction of the interruption mechanism in the third or fourth aspect of the method of the present invention is in electrical contact with the unit connector. By providing a parallel control pin, and a parallel power supply pin having a protruding length longer than the parallel control pin, which is two or more conductors that are in electrical contact with each of the unit connector and each of the other unit connectors, the disconnection is achieved. Pulls out the entire cutoff mechanism by more than the difference of the protruding length to set the parallel control pin off and the parallel power supply pin on state, and the conduction is performed by inserting the entire cutoff mechanism deeply and setting the parallel control pin on and the parallel control pin on. As a state, a detection circuit detects whether the control pin is in electrical contact with the unit connector, and a signal detected by the detection circuit. Based on the opening and closing circuit is in configuration employing battery housing connection comprising electrically brought into conduction and shut off the connectors for the unit.

[0041]

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
Embodiments of the present invention will be described with reference to an example of an apparatus and an example of a method.

In the present invention, a plurality of storage batteries are stored in a plug-in unit, and the plurality of storage batteries are connected to each other via a connector (unit connector) provided in the plug-in unit. Although it is intended to facilitate wiring and reduce erroneous wiring, in the present embodiment, a storage battery module in which a plurality of single storage battery cells are collected to form one battery will be described as a storage battery. The present invention is not limited to a single battery that is one storage battery cell as a storage battery,
The present invention is also applicable to various assembled batteries (rechargeable battery modules) in which one or more single cells are fixed with a tape, a tube exterior, a plastic case, or the like.

(Example of Apparatus) FIG. 1 is a schematic perspective view showing a main part of an example of the present apparatus and a sectional view thereof. FIG. 1A is a schematic perspective view of an opening side of a plug-in unit housed in a storage battery housing cabinet of the present device example. FIG. 1B is a cross-sectional view of the plug-in unit viewed from an arrow AA ′ in FIG.

In the figure, 13 is a plug-in unit for accommodating a plurality of storage batteries, 13 'is a side plate provided on the back of the plug-in unit 13, 17 is a unit connector which is a plurality of connectors mounted on the side plate 13', 19 is a guide for accurately aligning the plug-in unit 13 with the cabinet 1 (see FIG. 4).

The unit connector 17 is provided with a socket contact 17 disposed inside the plug-in unit 13.
a and a pin contact 17b which is electrically and mechanically integrated with the socket contact 17a and penetrates through the side plate 13 'in an insulated state. The unit connector 17 is inserted into a housing (not shown) to insulate the side plate 13 'from the pin contact 17b.

The plug-in unit 13 may be directly installed on the shelf 8 provided in the cabinet 1. However, a pin contact 17b provided on the side plate 13 'of the plug-in unit 13 and a connector provided on the back panel 12 (see FIG. 4) which is a back plate attached to the back of the cabinet 1 are provided. It is desirable to provide a guide 19 at the lower part of the plug-in unit 13 and a guide receiver (not shown) on the shelf 8 in order to accurately align the connector with the connector 17b.

FIG. 2 is a sectional view showing a state where the storage battery 6 is housed in the above. That is, FIG. 2 shows a state in which the storage battery 6 is mounted on the plug-in unit 13 in FIG.

The storage battery 6 is arranged in the plug-in unit 13 and held by the side L-shaped slide reinforcing plate 22 with increased mechanical strength. A positive electrode connection line 23 is connected to the positive electrode of the electrode 7 of the storage battery 6. The negative electrode connection line 23 ′ is connected to the negative electrode of the storage battery 6. The battery connection pin contact 20 is connected to each of the positive electrode connection line 23 and the negative electrode connection line 23 ′. The storage battery pin contact 20 is to be fitted and connected to the socket contact 17a of the unit connector 17 provided on the side plate 13 '.

Thus, the positive electrode and the negative electrode of the electrode 7 of the storage battery 6 are connected to the positive connection line 23 or the negative connection line 23 ′.
And the storage battery pin contact 20 are electrically connected to the unit connector 17 respectively.

The storage battery pin contact 20 described above
Instead, a press-in terminal may be used. In this case, the press-in terminal is connected to the side plate 1 of the plug-in unit 13.
3 'is penetrated so that the electrode 7 of the storage battery 6 and the electric circuit outside the plug-in unit 13 can be connected via the press-in terminal.

FIG. 3 shows the side plate 1 of the plug-in unit 13.
It is a front view of 3 '. The side plate 13 'is provided with a plurality of connection patterns 18 formed of a conductor pattern for connecting predetermined ones of the plurality of socket contacts 17a.

The positive electrode of each storage battery 6 is connected to the upper socket contact 17a of the plurality of socket contacts 17a arranged in two rows, and the negative electrode is connected to the lower socket contact 17a. Therefore, the storage batteries 6 are connected in series by the connection pattern 18.

The connection pattern 18 is formed by an additive method using electroless plating or electrolytic plating, or a subtractive method using etching or the like, similarly to PWB (printed circuit board). The connection pattern 18
You may make using an electric wire.

Without providing the connection pattern 18 on the side plate 13 ′, the pin contact 1
Each storage battery 6 may be connected in series by connecting predetermined unit connectors 17 with each other using a cable having a connector fitted to 7b.

The electrode 7 of the storage battery 6 is connected to the upper right socket contact 17a in FIG. 3 and the lower left socket contact 17a in FIG. The cable that performs the connection is connected.

The side plate 1 of the plug-in unit 13
The pin contacts 17b of the plurality of unit connectors 17 provided on the 3 'are connected to the back panel 12 (FIG. 4) which is the back plate of the cabinet in which the plug-in unit 13 is stored.
(See cable connector 24)
May be connected. Here, back panel 1
The connector 2 is connected to the electrode 7 of the storage battery 6 and to a cable (in-building cable 26, see FIG. 4) that connects to an electric circuit outside the plug-in unit 13.

According to such a configuration, by storing the plug-in unit 13 in the cabinet 1, each battery 6 mounted on the plug-in unit 13 is connected to the connector of the back panel 12, and the plug-in unit 13 is The storage battery 6 can be replaced by pulling it out of the cabinet 1.

In order to collectively remove the storage batteries 6 mounted on the plug-in unit 13, the storage batteries 6 arranged at both ends of the plug-in unit 13 are also connected to the unit connector 17.

FIG. 4 is a schematic perspective view of the cabinet 1 as viewed from the rear side. In this figure, two cabinets 1
Is provided. A back panel 12 is disposed on the back of each of the plurality of plug-in units 13 housed in each cabinet 1. A pair of left and right cable connectors 24 are provided near both ends of each back panel 12.

The cable connector 24 is connected to the unit connector 17 provided on the side plate 13 ′ of the plug-in unit 13, and is also connected to a connector provided at one end of the cable 26 inside the rack.

Each of the back panels 12 is connected in series by a cable connector 24 and an in-building cable 26. Thereby, the storage battery 6 of each back panel 12
Are connected in series.

On the upper surface of each cabinet 1, a pair of left and right frame connectors 25 is mounted. The inter-connector 25 includes an intra-connector cable 24 and an inter-connector cable 27.
Is connected. As a result, the intra-building cable 24 and the inter-building cable 27 are electrically connected. Overhead cable 27
Connects the bridge connector 25 of one cabinet 1 and the bridge connector 25 of the other cabinet 1 so that the storage battery 6 of one cabinet 1 and the storage battery 6 of the other cabinet 1 are connected in parallel or in series. Connected.

As a result, the electrodes 7 of the storage battery 6 are drawn out of the back panel 12 via the cable connector 24 provided on the back panel 12, so that the connection between the plug-in units 13 and the cabinet 1
The connection between them can be easily and reliably performed. Therefore, the series connection and the parallel connection of the plurality of storage batteries 6 can be freely changed.

FIG. 5 is a sectional view showing an example of mounting the cable connector 24. FIG. 5A shows the cable connector 2.
This is an example of a pin contact 24a having a threaded portion 24 '. FIG. 5B shows an example of the cable connector 24 having locking as the pin contact 24a '.

The cable connector 24 has the same structure as the unit connector 17 shown in FIG. 1, and penetrates the back panel 12 in an insulated state. The socket contact 24b of the cable connector 24 is connected to the pin contact 17b of the unit connector 17 provided on the side plate 13 'of the plug-in unit 13. In addition,
The pin contacts 24 a of the cable connector 24 are covered with a cover 28.

FIG. 6 is a schematic front view showing an example of mounting the storage battery module 61. That is, FIG. 6A shows the cabinet 1 as viewed from the front, and FIG.
FIG. 6B is a mounting example, FIG. 6B is a second mounting example, and FIG. 6C is a third mounting example. The storage battery module 61 is obtained by bundling and integrating a plurality of storage batteries 6 (storage cells), and can be formed into various shapes. Size of storage battery 6 and shelf 8
The plurality of storage batteries 6 are divided into storage battery modules 61 having an appropriate shape according to the strength of the storage battery.

FIG. 7 shows the side plate 1 of the plug-in unit 13.
It is a front view of 3 '. The side plate 13 'is provided with a blocking mechanism 70 for conducting or blocking the connection pattern 18 and the connection pattern 18'. That is, the breaking mechanism 70
Is an opening / closing means for cutting off and conducting an electric circuit formed by the storage battery 6 housed in the plug-in unit 13, the unit connector 17 and the connection pattern 18.

The side plate 13 'is provided with a transmitting means 71. The transmitting means 71 is a unit connector 1
7 and the connection pattern 18, the potential difference between the unit connector 17 'located at one end of the electric circuit (series circuit) and the unit connector 17 "located at the other end is detected. , Plug-in unit 13
The voltage of the electric circuit formed by the storage battery 6, the unit connector 17, and the connection pattern 18 housed therein is detected. Then, the transmitting means 71 transmits the detected voltage to the outside of the cabinet 1. As a result, the voltage of the storage battery 6 stored in the plug-in unit 13 can be remotely monitored.

FIG. 8 is a schematic external view of a plug-in unit connector 80 for controlling the shut-off mechanism 70. The plug-in unit connector 80 includes two parallel power supply pins 81, two parallel cutoff mechanism control pins 82, and a housing 83 that holds the parallel power supply pins 81 and the parallel cutoff mechanism control pins 82. I have. The protruding length of the parallel power supply pin 81 is set longer than that of the parallel cutoff mechanism control pin 82.

The plug-in unit connector 80 is attached to the side plate 13 ′ of the plug-in unit 13 shown in FIG. 1 instead of the unit connector 17. The parallel power supply pins 81 correspond to the pin contacts 17b of the unit connector 17 provided vertically on the side plate 13 'of the plug-in unit 13 shown in FIG.
Therefore, the voltage of the storage battery 6 is applied to the parallel power supply pin 81.

Further, although not shown, the side plate 13 'is provided with a socket contact into which the parallel cutoff mechanism control pin 82 is inserted, corresponding to the parallel cutoff mechanism control pin 82. The voltage of the storage battery 6 is applied to the socket contact into which the parallel cutoff mechanism control pin 82 is inserted via the connection pattern 18 or the like. Parallel cutoff mechanism control pin 82
Socket contact and parallel power supply pin 8 into which is inserted
It is desirable to connect the socket contact 1 to an electric circuit (a circuit formed by the storage battery 6 or the like) via a resistor to prevent an inrush current.

The housing 83 supplies a detection circuit 80a for detecting whether or not a voltage equal to or more than a predetermined value is applied to the parallel cutoff mechanism control pin 82, and supplies the power taken from the power supply pin 81 to the detection circuit. Power supply circuit 80b
And a control circuit 80c that opens and closes the shutoff mechanism 70 based on a signal detected by the detection circuit 80a.

(Method Example) Next, using the plug-in unit connector 80 in the above-described apparatus example, the shut-off mechanism 7
The method of controlling 0 will be described below. FIG. 9 is a flowchart showing the execution procedure of the example method.

In FIG. 9A, when the plug-in unit 13 shown in FIG. 4 or the like is pulled out from the cabinet 1, that is, when the plug-in unit 13 is separated from the back panel 12, the plug-in unit connector 80 and the shut-off mechanism 70 are disconnected. The operation is shown.

The plug-in unit 13 is connected to the back panel 1
2 to gradually disconnect the plug-in unit 13
From cabinet 1. Plug-in unit 1
As 3 is pulled out, the side plate 13 'of the plug-in unit 13 and the back panel 12 gradually separate.

Here, the plug-in unit connector 8
0 is integrally attached to the side plate 13 ′ of the plug-in unit 13,
As the distance from the back panel 12 gradually increases, the parallel power supply pin 81 and the parallel cutoff mechanism control pin 8
2 is also pulled out from the connector provided on the back panel 12 (ST1).

Thereafter, the detection circuit 80a determines whether the parallel cutoff mechanism control pin 82 has been completely disconnected from the connector provided on the back panel 12 (ST2). Here, when the parallel cutoff mechanism control pin 82 is not completely disconnected from the connector provided on the back panel 12, the cutoff mechanism 70 is kept closed (on).

Thereafter, the side plate 1 of the plug-in unit 13
The 3 'and the back panel 12 are further separated, and the parallel cut-off mechanism control pin 82 is completely disconnected from the connector provided on the back panel 12. At this time, the plug-in unit connector 80 sends a shutoff signal to the shutoff mechanism 70 to change the shutoff mechanism 70 to an open (off) state (ST3). In this state, the parallel power supply pins 81
Is connected to the connector provided on the back panel 12, so that the plug-in unit connector 80
Is supplied with power via a power supply pin 81.

Thereafter, the side plate 13 ′ of the plug-in unit 13 further moves away from the back panel 12, and the power supply pins 81 are completely disconnected from the connector provided on the back panel 12. The power supply to the power supply 80 is also eliminated (ST4). Above,
The disconnection of the plug-in unit 13 from the back panel 12 is completed.

Thus, before the storage battery 6 in the plug-in unit 13 is electrically disconnected from the connector of the back panel 12 to which the live line is connected, the electric circuit connecting the storage battery 6 to the live line is cut off by the cut-off mechanism 70. As a result, the contact portion of the back panel 12 such as a connector can be prevented from being damaged.

The detection of the complete disconnection of the parallel cut-off mechanism control pin 82 can be detected, for example, by detecting a voltage drop of a resistor connected in series with the cut-off mechanism control pin 82, or by detecting a parallel drop between the parallel power supply pins 81. This is performed by detecting the voltage of the cutoff mechanism control pin 82. If the parallel cutoff mechanism control pin 82 is disconnected, the impedance may increase and noise may occur to cause malfunction. As a method of preventing this malfunction, the parallel power supply pin 81
It is effective to connect a resistor in parallel between the terminals of the parallel cutoff mechanism control pin 82 connected therebetween.

Next, referring to FIG. 9B, the plug-in unit connector 80 and the cutoff when the plug-in unit 13 is housed in the cabinet 1, that is, when the plug-in unit 13 is connected to the back panel 12. Mechanism 7
The operation of 0 will be described.

First, the plug-in unit 13 is gradually inserted into the cabinet 1 (ST11). As a result, the side plate 13 'of the plug-in unit 13 and the back panel 12 gradually approach each other, and the parallel power supply pins 81
And the parallel cutoff mechanism control pin 82 also gradually approaches the connector provided on the back panel 12.

Thereafter, when the plug-in unit 13 is further inserted into the cabinet 1, the parallel power supply pins 81
And the connector provided on the back panel 12 are connected (ST12). At this time, the parallel cutoff mechanism control pin 82
Is shorter than the parallel power supply pin 81 and is not connected to the connector provided on the back panel 12.

Thereafter, while inserting the plug-in unit 13 into the cabinet 1, it is determined whether or not the parallel cutoff mechanism control pin 82 is connected to the connector provided on the back panel 12 (ST13, ST14).

Thereafter, the plug-in unit 13 is further inserted into the cabinet 1, and if it is determined in ST13 that the parallel cut-off mechanism control pin 82 is connected to the connector provided on the back panel 12, the cut-off mechanism 70 To turn off the blocking mechanism 70 (ST15).

Thus, when the plug-in unit 13 is connected to the back panel 12, first, the parallel power supply pins 81 are connected to the connector of the back panel 12, and
Thereafter, the parallel cutoff mechanism control pin 82 is
When the battery 6 is connected to the hot battery, the battery 6 is connected to the hot wire, so that the battery 6 is connected to the hot wire in a state where the connectors other than the connector for the parallel cutoff mechanism control pin 82 are incomplete. This makes it possible to prevent the occurrence of joules when the connector is connected.

FIG. 10 is a conceptual block diagram of a circuit provided on the back panel 12. The back panel 12 includes a voltage detection circuit 31, a determination circuit 32, and a bypass circuit 33. Thus, even when some of the storage battery modules 61 are removed from the plug-in unit 13 or the like, other storage battery modules 61 can operate (backup operation, load leveling operation, or the like).

The bypass circuit 33 is connected to the storage battery module 6
1 in parallel with each other, and when the storage battery module 61 is removed from the plug-in unit 13 or the like, the positive electrode side and the negative electrode side where the storage battery module 61 is connected in the plug-in unit 13 Between the electrodes.

The determination circuit 32 receives a removal signal indicating that the storage battery module 61 has been removed from the plug-in unit 13, and when receiving the removal signal, controls the bypass circuit 33 to control the positive electrode and the negative electrode. It is to conduct between the side.

The voltage detection circuit 31 detects a voltage between the cable connectors 24 of the back panel 12 and, when the voltage becomes lower than a predetermined value, the storage battery module 6
1 is determined to have been removed from the plug-in unit 13, and a removal signal is transmitted to the determination circuit 32.

When the storage battery module 61 is removed from the plug-in unit 13, a parallel circuit of a high-resistance and a small-capacity capacitor is provided between the connectors of the plug-in unit 13 so that noise is not detected. Are preferably connected.

When the storage battery module 61 is detached from the plug-in unit 13, the judgment circuit 32
The bypass circuit 33 is operated. As a specific example of the bypass circuit 33, the drains of two power MOSFETs
Apply a circuit in which the sources are connected in anti-parallel and the operation is controlled by the gate.

Further, instead of the voltage detecting circuit 31 detecting the voltage between the cable connectors 24, the presence or absence of the connection of the plug-in unit 13 is detected by the parallel cut-off mechanism control pin 82 of the plug-in connector 28 shown in FIG. The detection result is determined by the determination circuit 32 and the bypass circuit 3
3 may be operated.

The bypass circuit 33 is connected to the storage battery module 6
1 at the same time that the storage battery module 61 is removed.
However, in this case, it is inevitable that the number of storage battery modules 61 connected in series decreases and the output voltage decreases.

Therefore, instead of the bypass circuit 33, a power storage device 33 'may be provided. Power storage device 33 '
Are a power supply 33a connected in parallel to the storage battery module 61, a voltage detection unit 33b for detecting an output voltage of the power supply 33a, and an output voltage and an output current of the power supply 33a using a detection result of the voltage detection unit 33b. When the storage battery module 61 is detached from the plug-in unit 13, the control unit 33 c for controlling any one of the power sources is connected between the positive electrode side and the negative electrode side to which the storage battery module 61 is connected in the plug-in unit 13. And a connecting portion 33d for connecting the connecting portion 33a.

The power supply 33a includes a secondary battery having a small capacity such as nickel hydride or lithium ion, or an electric double layer capacitor. In addition, the power supply 33a has a regulator that shunts the power output from the secondary battery, the electric double layer capacitor, or the like.

Since the power storage device 33 'is used temporarily, the current flowing in the storage battery module 61 is passed as it is. If the voltage rise or voltage drop of the power storage device 33' is too large, the control unit 33c Is power 3
The voltage of the power storage device 33 'is maintained in a predetermined range by shunting the current to the regulator of 3a or supplying current from the power supply 33a. That is, the control unit 33c controls the voltage detection unit 33b
The voltage of the power storage device 33 'is monitored via the controller. If the voltage rises above a predetermined allowable value, the current is shunted to the regulator of the power supply 33a. If the voltage is lower than the predetermined allowable value, The output voltage of 33a is increased.

The function of shunting the current in the regulator is
You may comprise by an electronic load. The function of supplying current in the regulator may be configured as a charger for the power supply 33a.

The representative apparatus and method of the present invention have been described above, but the present invention is not necessarily limited to the above items. Modifications can be made as appropriate within the scope of achieving the object of the present invention and achieving the following effects. For example, the plug-in unit 13 is not limited to a box-shaped unit, but may be a chassis-shaped unit including only a frame. The back panel 12 is not limited to a plate-shaped unit and may be a chassis-shaped unit. Is possible.

[0101]

As described above, according to the present invention,
Since the connection of the storage battery is made through the unit connector provided in the plug-in unit, not only replacement of the storage battery (storage battery module) is facilitated, but also incorrect connection and short circuit accidents at exposed conductors such as connection wires Etc. can be avoided.

Further, by connecting the plug-in units accommodating the storage batteries via a cable provided on the back panel or the like, a specific plug-in unit can be pulled out of the cabinet simply by removing the cable. Becomes possible.

Further, by connecting a plurality of storage battery storage cabinets via a bridge connector and a bridge cable,
Storage batteries stored in each storage battery storage cabinet can be connected in parallel, and the overall storage battery capacity can be increased.

Further, by providing a shut-off mechanism for opening and closing an electric circuit formed with a storage battery and a unit connector, it is possible to avoid hot-swapping of the storage battery and use it for connecting between storage batteries and the like. It is possible to prevent the contacts of the connector from being damaged.

Also, in order to prevent an open circuit from being formed when the storage battery is removed from the plug-in unit or the like,
By providing a bypass circuit in parallel with the storage battery, the remaining storage battery can continue its original operation even when some storage batteries are replaced, and the backup operation and the load leveling operation can be continued. Becomes

Further, by providing transmission means for detecting the voltage between the unit connectors to which the voltage of the storage battery is applied and transmitting the detected value to the outside of the storage battery storage cabinet, the state of the storage battery and the shut-off mechanism It is possible to remotely monitor the operation state, the connection state of various connectors, and the like.

[Brief description of the drawings]

FIGS. 1A and 1B show a main part of an example of an apparatus according to an embodiment of the present invention, wherein FIG. 1A is a schematic perspective view on an opening side, and FIG.

FIG. 2 is an enlarged sectional view showing a state where the storage battery module 6 is housed in the above.

FIG. 3 is a side plate 1 of the plug-in unit 13 in the same.
It is a front view of 3 '.

FIG. 4 is a schematic perspective view of the cabinet 1 as viewed from the rear side.

FIGS. 5A and 5B are cross-sectional views each showing an example of mounting the cable connector 24 in the above.

FIGS. 6A, 6B, and 6C are schematic front views showing mounting examples of the storage battery module 61 in the above.

FIG. 7 is a side plate 1 of the plug-in unit 13 in the same as above.
It is a front view of 3 '.

FIG. 8 is a schematic external view of a plug-in unit connector 80 for controlling the shut-off mechanism 70 in the same.

FIG. 9 is a flowchart showing an execution procedure of an example of a method using the shut-off mechanism 70 of the above.

FIG. 10 is a conceptual block diagram of a circuit provided on a back panel 12 in the above.

FIG. 11 is an external perspective view of a conventional storage battery storage cabinet.

FIG. 12 is an external perspective view showing a conventional method for connecting storage batteries.

FIG. 13 is an external perspective view showing the back surface of another conventional storage battery storage cabinet 1.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Cabinet 6 ... Storage battery 7 ... Electrode 8 ... Shelf 12 ... Back panel 13 ... Plug-in unit 13 '... Side plate 17 ... Unit connector 17a ... Socket contact 17b ... Pin contact 18 ... Connection pattern 19 ... Guide 20 ... Storage battery pin Contact 22 ... Side L-shaped slide reinforcing plate 23 ... Positive electrode connection line 23 '... Negative electrode connection line 24 ... Cable connector 24' ... Screw 24a ... Pin contact 24b ... Socket contact 25 ... Inter-connector 26 ... In-building cable 27 ... Inter-connector Cable 28 Cover 31 Voltage detection circuit 32 Judgment circuit 33 Bypass circuit 33a Power supply 33b Voltage detection unit 33c Control unit 33d Connection unit 33 'Power storage device 61 Battery module 70 Shutoff mechanism 71 Transmission means 80 ... Plug-in unit connector DESCRIPTION OF SYMBOLS 1 ... Parallel power supply pin 82 ... Parallel cut-off mechanism control pin 83 ... Housing 101 ... Cabinet 102 ... Rectifier 103 ... Connection panel 104 ... Monitoring device 105 ... DC / DC converter 106 ... Storage battery 107 ... Electrode 108 ... Shelf 109, 109 '... Connection line 111: Battery module 112: Back panel 113: Battery module mounting unit 114: Anode terminal 115: Cathode terminal 116: Screw

Claims (15)

[Claims] 1. A storage battery storage cabinet for storing a plurality of plug-in units each of which stores one or more storage batteries, wherein the plug-in unit is connected to each of a positive electrode and a negative electrode of each of the storage batteries. Socket contacts respectively corresponding to the battery pin contacts provided at the ends of the connection wires, and socket contacts respectively fitted thereto, and connected to each of the positive electrode and the negative electrode of the storage battery via the socket contacts, and the side plate of the plug-in unit. A storage battery storage cabinet comprising: a unit connector integrally formed with a pin contact penetrating and disposed in an insulated state. 2. The storage battery storage cabinet according to claim 1, wherein a plurality of said pin contacts are connected to each other by an in-building cable having a connector removably fitted to said pin contacts. The storage battery storage cabinet according to claim 1, wherein the storage battery storage cabinet is formed so as to be able to supply power to the stored storage battery by the cable in the rack. 3. The side plate of the plug-in unit has a connection pattern comprising a conductor pattern for connecting predetermined ones of the plurality of unit connectors, and the storage batteries are connected in series and in parallel by the connection pattern. The storage battery storage cabinet according to claim 1, wherein the storage battery storage cabinet is connected by any one of the following. 4. The storage battery storage cabinet comprises a plurality of the storage battery storage cabinets, wherein an intra-cable provided with a connector removably fitted to the pin contact; And a connector for detachably connecting to the bridge connector at one end, and connecting between the bridge connector of the storage battery storage cabinet and the bridge connector of another storage battery storage cabinet. An inter-connector cable for detachably connecting the other end; and, using the intra-connector cable, the inter-connector and the inter-connector cable, connecting the storage batteries stored in each storage battery storage cabinet in series and in parallel. The storage battery storage cabinet according to claim 1, 2 or 3, wherein the storage battery storage cabinet is connected to any one of the storage cabinets. 5. The storage battery storage cabinet according to claim 1, further comprising a cut-off mechanism that can cut off and conduct an electric circuit formed by connecting the storage battery and the unit connector. The storage battery storage cabinet according to 3 or 4. 6. The interrupting mechanism includes: a parallel control pin which is a rod-shaped conductor electrically contacting the unit connector; and 2 electrically contacting each of the unit connector and another of the unit connectors. A parallel power supply pin that is one or more conductors, a housing that holds the parallel control pin and the parallel power supply pin substantially vertically, and whether the parallel control pin is in electrical contact with the unit connector. And a power supply circuit that supplies the power taken from the parallel power supply pin to the detection circuit, based on a signal detected by the detection circuit, electrically connects and disconnects the unit connectors. An opening / closing circuit for shutting off, wherein the parallel power supply pin has a length protruding from an outer surface of the holding member, the length of the control pin protruding. Longer than the length, battery storage cabinet according to claim 5, characterized in that. 7. The storage battery storage cabinet is connected in parallel to the storage battery, and when the storage battery is removed from the plug-in unit, the storage battery is connected to the plug-in unit. A bypass circuit that conducts between the positive electrode side and the negative electrode side, and when receiving a removal signal indicating that the storage battery has been removed from the plug-in unit, the bypass circuit controls the bypass circuit to connect to the positive electrode side. 7. The storage battery storage cabinet according to claim 1, further comprising: a determination circuit that conducts electricity to a negative electrode side. 8. The storage battery storage cabinet detects a voltage between the socket contact connected to the positive electrode side of the storage battery and the socket contact connected to the negative electrode side of the storage battery, and detects the voltage. The storage battery storage cabinet according to claim 7, further comprising a voltage detection circuit configured to transmit the removal signal to the determination circuit when the value becomes equal to or less than a predetermined value. 9. The storage battery storage cabinet, comprising: a power supply connected in parallel to the storage battery; a voltage detection unit detecting a voltage of the power supply; and an output of the power supply using a detection result of the voltage detection unit. A control unit for controlling any one of the voltage and the output current, when the storage battery is removed from the plug-in unit, the plug-in unit is connected between the positive electrode side and the negative electrode side to which the storage battery is connected. The storage battery storage cabinet according to claim 1, further comprising: a connection portion for connecting a power supply. 10. The storage battery storage cabinet has a transmission means for detecting a voltage between the unit connector and another of the unit connectors and transmitting the detected value to the outside of the storage battery storage cabinet. Claims 1, 2, 3, 4, 5, 6, 7,
10. The storage battery storage cabinet according to 8 or 9. 11. A storage battery storage connection method for storing one or more storage batteries in a cabinet, wherein one end of a connection line is connected to each of the positive electrode and the negative electrode of the storage battery, and the other end of the connection line is connected to each of the other ends of the connection line. A storage battery pin contact, which is a connector, is attached, and the storage battery to which the connection line and the storage battery pin contact are connected is disposed in a plug-in unit formed of a box-shaped member, and disposed in the plug-in unit. The storage battery connection method according to claim 1, wherein the storage battery pin contacts of the storage battery are fitted to unit connectors, which are connectors provided on side plates, and plug-in units are arranged in multiple stages in the cabinet. 12. The storage battery storage and connection method, wherein the unit connectors are connected to each other by a conductor.
The storage battery storage and connection method according to claim 11, wherein a plurality of the storage batteries arranged in the plug-in unit are connected in series or in parallel. 13. The storage battery storage and connection method according to claim 1, wherein the storage battery connected to the unit connector via a connection line and the storage battery pin contact is electrically disconnected from the unit connector. By using a blocking mechanism that electrically connects and disconnects the unit connectors with each other, the unit connectors are electrically cut off, so that current conduction is cut off through the storage battery that is disconnected from the unit connector. The storage battery storage and connection method according to claim 11 or 12, wherein: 14. The storage battery storage and connection method according to claim 1, wherein the storage battery not electrically connected to the unit connector is electrically connected to the unit connector before the storage battery is electrically connected to the unit connector. Using a blocking mechanism for conducting and blocking, the unit connectors are electrically disconnected from each other. In this state, the storage battery is connected to the unit connector via a connection line and the storage battery pin contact. 14. The storage battery storage and connection method according to claim 11, 12 or 13, wherein after the connection, the unit connectors are electrically connected to each other using the cutoff mechanism. 15. The method according to claim 15, further comprising the step of: electrically connecting the unit control connector to the unit connector and the other unit connector; By providing a parallel power supply pin having a protruding length longer than the parallel control pin, which is two or more conductors that are in contact with each other, the shutoff is performed by pulling out the entire shutoff mechanism by the difference of the protruding length or more, and the parallel control pin off; The parallel power supply pin is in the on state, and the conduction is performed by inserting the whole of the shutoff mechanism deeply so that the control pin is in electrical contact with the unit connector as the parallel control pin is on and the parallel power supply pin is on. A detection circuit detects whether or not the unit connectors are electrically connected to each other based on a signal detected by the detection circuit. Conduction and thereby cut off, battery storage connection method according to claim 13 or 14, characterized in that.