KR102509244B1 - Device for Charging and Discharging of Battery Cell - Google Patents

Abstract

The present invention relates to a battery cell charging and discharging device which minimizes the length of a power cable connecting an electrode of a cell and a power supply unit, minimizes a size of the charging and discharging device to increase efficiency of a charging and discharging apparatus and reduce costs, and reduces an installation space of the charging and discharging device to save investment costs of a battery manufacturing line.

Description

Battery cell charging and discharging device {Device for Charging and Discharging of Battery Cell}

The present invention relates to a battery cell charging and discharging device entering a formation process in a battery manufacturing line.

As the demand for large-capacity batteries is growing rapidly due to the expansion of the electric vehicle market, investments in large-capacity battery production lines are rapidly increasing.

Conventional battery cell charging/discharging devices are composed of a jig unit accommodating a plurality of battery cells and a power supply unit supplying charge/discharge current to each cell. The power supply generally consists of an ac/dc converter that receives three-phase ac power and primarily generates dc and a dc/dc converter that supplies precise charging current to each cell from the dc power. The dc/dc converter is composed of a channel board including one or more charge/discharge circuits and a backplane board accommodating and connecting a plurality of channel boards.

Due to the increase in capacity of battery cells for electric vehicles, the thickness of the power cable connecting between the jig part that clamps the cell electrode and the power supply part becomes thicker, and the distance between the power supply part and the jig part becomes longer, so the length of the power cable becomes longer and the space occupied by the cable increases. There is a problem that the cost goes up and the efficiency goes down.

1 shows an example of a conventional formation device for a cylindrical cell according to the front cable method. Referring to FIG. 1 , it can be seen that the cable 103 connected from the left power supply unit 100 to the electrode of the jig 200 occupies a lot of space.

Similarly, in the case of a conventional pouch cell formation device according to the front cable method, a plurality of channel boards for charging and discharging cells are formed on the side of the jig, and a power cable is connected to the front of the channel board. Again, cables take up a lot of space. 2 and 3 show an example of a conventional pouch cell formation device according to a rear cable method as another example of a formation device for a pouch cell. Referring to Figures 2 and 3, a plurality of channel boards 400 for charging and discharging cells on the side of the jig 200 are configured in two stages in the vertical direction, and an AC / DC converter 900 below them is placed. In this case, the power cable 103 is connected to the rear end of each channel board to simplify the front part 101, but the channel board block can be pushed forward for AS of the power cable 103 connected to the rear part 102. Since it is configured to have a long cable length, it shows that the length of the power cable is long and the space occupied is large.

On the other hand, although there are various requirements for battery cell charging and discharging devices, there are often cases where a fire occurs in the jig part due to a defective cell during charging and discharging. In this case, to protect the power supply part, the jig part and the power supply part must be physically separated. do. In addition, it is preferable that the jig part and the power supply part be thermally separated so that heat generated from the power supply part does not affect the temperature of the plurality of cells during charging and discharging. In addition, since the power cable connecting the electrode of the cell and the output terminal of the power supply unit is burned out in the event of a fire, the power cable must be easily replaceable.

However, in the case of the structure of the conventional battery cell formation device as described above, the size of the power supply unit is large and the length of the power cable is long, resulting in cost increase, low efficiency, and low space efficiency.

The present invention has been made to solve the above problems, and an object of the present invention is to minimize the length of a power cable connecting a cell electrode and a power supply unit in a battery cell charging and discharging device, and to reduce the size of the charging and discharging device. The purpose is to reduce the investment cost of the battery manufacturing line by minimizing the efficiency of the charging and discharging machine, reducing the cost, and reducing the installation space of the charging and discharging device.

In order to achieve the above object, the battery cell charging and discharging device according to the present invention separates the ac/dc converter from the power supply unit into a separate space and attaches a channel board and a backplane board to the inner or outer wall of the enclosure of the charging and discharging device jig unit. By attaching directly, the length of the power cable can be minimized.

More specifically, a channel board including one or more chargers and dischargers and connection connectors; A backplane board including a plurality of power terminals for accommodating a plurality of channel boards through the connection connector and connecting the power cables, wherein the plurality of power terminals are on the front surface (the side where the channel board is inserted) of the backplane board. When the backplane is attached to an inner or outer wall surface of the enclosure, the power cable can be connected and disconnected without disassembling the backplane board.

As another method of the battery cell charging and discharging device according to the present invention, the power terminal is placed on the rear surface of the backplane board, the backplane board is attached to the side of the enclosure of the jig unit, and the enclosure is cut by the power terminal portion to power the inside of the enclosure. By allowing the cable to be directly connected to the power terminal, the length of the power cable can be minimized. When connecting the power cables to the power terminals inside the enclosure, the (+) and (-) cables overlap each other, and the problem of overlapping power cables can be solved by changing the arrangement of the power terminals.

As another method of the battery cell charging and discharging device according to the present invention, a power connector for connecting the output of a charging and discharging device is placed on a channel board, and the backplane board is attached to an inner or outer wall of the charging and discharging device enclosure, and the power connector is The length of the power cable can be minimized by being disposed on the left and right sides of the channel board based on the side where the connection connector is located and directly connecting the power cable to the channel board through the power connector.

In the prior art, the length of the cable is increased by arranging the jig part and the power supply part for accommodating a number of battery cells in a separate space, and the space of the power supply part is large by configuring the AC/DC converter and the DC/DC converter (channel board) together. It had to be.

In the case of the battery cell charging/discharging device according to the present invention, the AC/DC converter is separated and placed in a separate space, the channel board is slimly configured, and the backplane board accommodating the channel board is placed outside or inside the jig unit enclosure By attaching to the wall, it has the advantage of minimizing the length of the power cable, minimizing the size of the power supply unit, and minimizing the overall size of the formation device.

In addition, by minimizing the length of the power cable, it is possible to save electric energy by improving the efficiency during charging and discharging.

1 is a configuration example of a conventional formation device for a cylindrical cell according to a front cable method.
Figure 2 is a configuration example of a conventional pouch cell formation device according to the rear cable method.
Figure 3 is an example of the configuration of the power unit of the formation device of Figure 2.
4 is a configuration diagram of a channel board and a backplane board of the charge/discharge device according to the present invention.
5 is another configuration diagram of a channel board and a backplane board of the charge/discharge device according to the present invention.
6 is a diagram showing the configuration of an external side-attached power supply unit of the charging and discharging device according to the present invention.
FIG. 7 is a diagram illustrating a detailed configuration of the power supply unit of FIG. 6 .
8 is a case in which power terminals are disposed on the front side of the backplane board of the power supply unit according to the present invention and the power cables are not overlapped.
9 is an embodiment of two charging and discharging devices in which two power supply units are arranged to face each other according to the present invention.
10 is an embodiment of a charging and discharging device according to the present invention in which a power supply unit is disposed on an upper surface of an enclosure.
11 is a connection example between a power cable and a power terminal on a backplane board in the charging/discharging device according to the present invention.
12 is an embodiment in which a plurality of charge/discharge devices are stacked and a plurality of AC/DC converters are disposed below.
13 is an example of arrangement of a power unit according to another embodiment of the present invention.
14 is an example of a backplane board of a conventional power supply unit.
15 is a configuration example in which power terminals are arranged on the rear surface of a backplane board of a power supply unit according to another embodiment of the present invention.
16 is a case in which power terminals are disposed on the rear surface of a backplane board of a power supply unit and power cables are not overlapped according to another embodiment of the present invention.
17 is an example of configuring a channel board assembly in which a power connector is disposed on the channel board according to another embodiment of the present invention.
18 is a case in which power connectors are disposed on a channel board according to another embodiment of the present invention and power cables are not overlapped.

A preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. The following detailed description is merely illustrative, and only illustrates a preferred embodiment of the present invention.

A battery cell charging and discharging device according to the present invention is a device for simultaneously charging and discharging a plurality of battery cells, and basically, like the conventional battery cell charging and discharging device, a plurality of cells and a tray accommodating the plurality of cells, a plurality of A power supply unit 100 that independently supplies charging and discharging current to the cells of the cell, a plurality of power contactors 201 connecting the power supply unit 100 to the electrodes of the plurality of cells, and a plurality of power contactors 201 are fixed and tray A jig part 200 for accommodating a plurality of power cables 103 connecting between the power contactor 201 and the power supply part 100 and transferring charge/discharge current, and a charge/discharge device enclosure accommodating the jig part 200 (300) as a basic configuration.

On the other hand, as described above, in the case of the configuration of the conventional battery cell charging and discharging device, the length of the cable is increased by arranging the jig unit and the power supply unit for accommodating a plurality of battery cells in a separate space, and the AC / DC converter and DC By configuring the /DC converter together, there is a limitation that the space of the power supply unit is inevitably configured large.

In order to solve the above problems of the conventional battery cell charging and discharging device, the battery cell charging and discharging device according to the present invention separates the ac / dc converter from the power supply unit into a separate space, and the channel board and the backplane board are installed inside the enclosure of the charging and discharging device jig unit. Alternatively, the length of the power cable can be minimized by directly attaching it to the outer wall.

More specifically, in the battery cell charging and discharging device according to the present invention, the power supply unit 100 includes a plurality of channel boards ( 401) and a plurality of power terminals 502 including a plurality of power terminals 502 for connecting the power cable 103, and a plurality of power terminals 502 on the backplane board 500. There is a difference from conventional battery cell charging and discharging devices in the arrangement structure.

4 shows a configuration diagram of a channel board and a backplane board of the charge/discharge device according to the present invention.

Referring to FIG. 4, in the case of the battery cell charging/discharging device according to the present invention, the channel board 401 is slimly formed and the front side of the backplane board 500 accommodating the channel board 401 (in the direction in which the channel board is inserted) By arranging a plurality of power terminals 502, when the backplane board 500 is attached to the inside or outside wall of the enclosure, the power cable 103 can be connected and separated without disassembling the backplane board 500. In addition, a signal sensing terminal 503 and a DC input terminal 501 may be disposed on the front surface of the backplane board 500 .

5 is another configuration diagram of a channel board and a backplane board of the charge/discharge device according to the present invention.

Referring to FIG. 5 , in this embodiment, a plurality of power terminals 502 on the backplane board 500 may be separated from the backplane board 500 and configured as a separate power terminal block 504 . That is, the plurality of power terminals 502 are arranged to face the front of the backplane board 500, and when the backplane board is attached to the inner or outer wall of the enclosure, the power cable is connected without disassembling the backplane board. can be separated In this case, the backplane board 500 and the power terminal block 504 may be electrically connected to each other through a separate cable 505 .

Hereinafter, the configuration of the power supply unit of the battery cell charging/discharging device having the configuration of the channel board and the backplane board will be described in more detail.

6 is a diagram showing the configuration of an external side-attached power supply unit of the charging and discharging device according to the present invention. FIG. 7 is a diagram illustrating a detailed configuration of the power supply unit of FIG. 6 .

6 and 7, in the power supply unit 100, a backplane board 500 including a plurality of channel boards 401 is attached to the outer side of the enclosure 300, and the power terminal 502 is the backplane board. It can be placed above or below 500.

In addition, one or more long holes 304 are formed in the horizontal direction in the upper, lower, or middle part of the side of the enclosure 300, and the power cable 103 connected to the power contactor passes through the long holes 304 to the outside of the enclosure. It comes out and is connected to the power terminal 502. This provides a structure that enables more efficient inspection and repair of the power cable 103 connected between the output terminal and the electrode terminal of the cell even when the backplane board 500 is attached to the outer wall of the enclosure of the jig unit. In addition, since the length of the power cable is minimized and the size of the power supply unit is minimized, the overall size of the charge/discharge device can be minimized. Here, if the long hole 304 has a structure that can connect the power connector inside the enclosure 300 and the external power terminal 502 with the power cable 103, there are limitations on its shape, quantity and location. no.

On the other hand, the channel board 401 and the backplane board 500 are divided into two tiers, top and bottom, and long holes 304 are formed at the top, bottom, and middle of the enclosure 300 to form the channel board 401. It can be arranged sequentially from the front of the enclosure to the inside.

At this time, the power terminal 502 may be configured in the form of gathering the output (+) terminals of each channel board on the upper side of the backplane board 500 and the (-) terminals on the lower side, or vice versa.

Furthermore, referring to FIG. 8, the channel board and the backplane board composed of upper and lower two stages collect (+) terminals on the upper side of the upper backplane board and (-) terminals on the lower side, and (-) terminals on the upper side of the lower backplane board. By gathering the terminals and gathering the (+) terminals at the bottom or vice versa, the power cables can be configured with the shortest distance so that they do not overlap each other.

The power supply unit 100 may include an exhaust duct 301 in the space behind the backplane board 500 as shown in FIG. 7 , and in addition, in the space behind the backplane board 500, input power cables, communication cables, etc. It may be configured to further include a cable duct 302 capable of accommodating.

Meanwhile, in the present embodiment, when a plurality of battery cell charging and discharging devices are disposed, the battery cell charging and discharging devices may have a structure in which battery cell charging and discharging devices are connected to each other in consideration of utilization of a space where the battery cell charging and discharging devices are disposed. .

9 is an embodiment of two charging and discharging devices in which two power supply units are arranged to face each other according to the present invention.

Referring to FIG. 9 , the battery cell charging/discharging device may be implemented in a form in which an enclosure is connected to another battery cell charging/discharging device adjacent thereto. On the other hand, generally, in order to separate the channel board 401 from the backplane board 500, a space larger than the width of the channel board 401 is required. Considering this point, in the case of the present embodiment, preferably, when connecting the battery cell charging and discharging devices to each other, such a spare space may be configured and implemented in a form in which the power supply unit of the adjacent battery cell charging and discharging devices is shared. More specifically, in order to share the above free space with the power supply unit of the enclosure of the adjacent battery cell charging and discharging device, the power supply unit is disposed on the left side of the battery cell charging and discharging device's enclosure and on the right side of the battery cell charging and discharging device. By connecting the enclosures in such a way that the power supply units face each other, a structure having a common power supply unit 101 assembly can be implemented, and the size of the battery cell charging/discharging device can be significantly reduced.

Meanwhile, a common air duct 303 and a cable duct 302 may be installed in the space remaining behind the backplane board 500, that is, the above-mentioned free space, in a structure in which power supply units of adjacent battery cell charging/discharging devices face each other, In detail, considering the accessibility and maintenance of the power unit, the common air duct 303 and cable duct 302 may be installed at the rear of the power unit.

In addition, in FIG. 9, two power supply units are arranged facing each other, so that a channel board can be separated and removed from each power supply unit, a space equal to or larger than the width of the channel board is provided. and the other side is disposed only at the lower part of the enclosure (not shown in the drawing), the free space for separating the channel board can be further reduced, and the size of the battery cell charging/discharging device can be further reduced.

In the embodiment of the charging and discharging device according to the present invention, the power supply unit 100 may be disposed inside as well as the outside of the enclosure.

10 is an embodiment of a charging and discharging device in the case where the power supply unit is disposed on the upper surface of the enclosure according to the present invention.

Referring to FIG. 10 , in the power supply unit 100, a backplane board 500 is attached to the upper or lower surface inside the enclosure 300, and a plurality of channel boards 401 are installed in the left and right directions with respect to the enclosure 300. and the power terminals 502 may be disposed at both left and right ends of the backplane board 500 . That is, the channel board 401 may be disposed in the same direction as the direction in which the power contactor 201 is disposed.

In this case, the power cable 103 connected to the power contactor 201 is connected to the power terminal 502 along the inner surface of the enclosure 300. Similarly, this structure provides a structure that enables more efficient inspection and repair of the power cable 103 connected between the output terminal and the electrode terminal of the cell inside the enclosure. In addition, since the length of the power cable and the size of the power supply unit can be minimized, the overall size of the charging/discharging device can be minimized.

The power terminals 502 are disposed at both left and right ends of the backplane board 500, and (+) terminals are disposed on one side and (-) terminals are disposed on the opposite side so that the power cables can be connected without overlapping each other.

On the other hand, when several output terminals are disposed on one channel board 401, interference may occur between several power cables. In order to solve this problem, in the case of the present embodiment, as shown in FIG. 11, the power terminals 502 are arranged in a plurality of rows, and the height of the terminals disposed in the inner row is higher than the height of the terminals in the outer row, so that the power cables are mutually compatible with each other. It can be implemented so as not to interfere. Making the difference in height between adjacent power terminals larger than the thickness of the power cable is a way to completely eliminate interference.

In addition, although not shown in the drawing, the assembly of all the channel board 401 and the backplane board 500 according to the present invention may be constructed in a drawer type so that it can be pulled out to the front for repair.

12 is an embodiment in which a plurality of charge/discharge devices are stacked and a plurality of AC/DC converters are disposed below.

Referring to FIG. 12 , the battery cell charging and discharging device according to the present invention may be implemented in a form in which a plurality of charging and discharging devices are stacked. More specifically, as shown in FIG. 9, a stacked structure in which two enclosures of charging and discharging devices are stacked in a plurality of layers so that the power supply units face each other, and the AC / DC converter 900 is disposed at the bottom or top. can be made with

At this time, the AC/DC converter 900 may be composed of a single module that supplies all of the stacked charge/discharge devices, and the AC/DC converter module having the capacity required by each charger/discharger is used by the number of stacked charge/dischargers. Arranged, and may be provided to independently control the output voltage for each.

The DC output of each AC/DC converter 900 is connected to the power supply of each corresponding battery cell charging/discharging device, and the output cable is connected through a cable duct.

13 is an example of arrangement of a power unit according to another embodiment of the present invention.

In the case of a power supply unit according to another embodiment of the present invention, a plurality of power terminals 502 are disposed on the back side of the backplane board 500 (opposite side where the channel board is inserted).

More specifically, in the power supply unit 100, a plurality of power terminals 502 are disposed on the rear surface of the backplane board 500, and when the backplane board 500 is attached to the outer wall of the enclosure, the plurality of power terminals 502 It is implemented so that the power terminal 502 faces the inside of the enclosure so that the power cable 103 can be directly connected to and disconnected from the power terminal 502 inside the enclosure by cutting the enclosure as much as the portion where is disposed. In the case of such a configuration of the power supply unit 100, a structure that enables more efficient inspection and repair of the power cable 103 connected between the output terminal and the electrode terminal of the cell inside the enclosure is provided. In addition, since the length of the power cable and the size of the power supply unit can be minimized, the overall size of the charging/discharging device can be minimized.

14 is an example of a backplane board of a conventional power supply unit. In general, when two-channel charging and discharging circuits are arranged on one channel board, since they are generally arranged on the top and bottom of the channel board, the power terminal on the corresponding backplane board is also one channel on the top of the channel board as shown in FIG. The (+)(-) output terminal of the channel is arranged, and the (+)(-) power terminal of the remaining channels is also arranged at the bottom.

On the other hand, FIG. 15 is a configuration example in which power terminals are disposed on the rear surface of the backplane board of the power supply unit according to another embodiment of the present invention. Even when two channels of charging and discharging circuits are put into one channel board, the (+) terminals of the two channels on the top of the power terminal on the backplane board and the (-) terminals of the two channels on the bottom can be arranged together. and vice versa. In this arrangement, the (+) power cable and the (-) power cable can be connected so that they do not overlap each other.

Referring to FIG. 16, in the power supply unit 100 according to another embodiment of the present invention, a channel board and a backplane board assembly are arranged in two rows above and below, and the power terminals of the upper backplane board gather (+) terminals upward and (-) ) terminals are gathered downward, the (-) terminals of the power terminals of the lower backplane board are gathered upward, and (+) terminals are gathered downward. The arrangement of the power terminals may be reversed according to the arrangement of polarities of the battery cells. Meanwhile, jigs may also be arranged in two rows above and below according to the arrangement of the channel board and the backplane board assembly. At this time, when the (+) polarity of the cell is placed on the opposite side of the channel board, the (+) terminals of the cells connected to the upper jig are connected to the (+) terminal of the upper backplane through the upper duct of the jig and connected to the upper jig. The (-) terminals of the cells plugged in are connected to the (-) terminal of the upper backplane, the (-) terminals of the cells plugged into the lower jig are connected to the (-) terminal of the lower backplane, and the (+) terminals of the cells plugged into the lower jig are connected. The terminal is connected to the (+) terminal of the upper backplane via the lower duct of the jig, so that the power cables can be arranged without overlapping each other. Conversely, even when the (-) polarity of the battery cell is disposed on the opposite side of the channel board, it is possible to configure the power cables not to overlap each other in a similar manner.

17 is a configuration example in which a power connector 403 connecting an output of a charger and a discharger is disposed on a channel board of a power supply unit according to another embodiment of the present invention.

Referring to FIG. 17, the power supply unit 100 is provided through a channel board 401 including a power connector 403 and a connection connector 402 connecting one or more chargers and dischargers to the output of the charger and discharger, and a connection connector 402. It includes a backplane board 500 accommodating a plurality of channel boards 401, but the backplane board 500 is attached to the inner or outer wall of the enclosure of the charging and discharging device, and the power connector 403 is connected to the channel board 401. It may be implemented in a form in which the power cable 103 is directly connected to the channel board through the power connector 403 by being disposed on the left and right sides based on the side where the connection connector 402 is located.

Similarly, this structure provides a structure that enables more efficient inspection and repair of the power cable 103 connected between the output terminal and the electrode terminal of the cell inside or outside the enclosure. In addition, since the power cable 103 can be directly connected on the channel board through the power connector provided on the channel board without configuring a separate power terminal, the length of the power cable can be minimized and the size of the power supply unit can be minimized. The overall size of the charge/discharge device can be minimized.

Meanwhile, the power connector 403 may be disposed in a form in which all (+) connectors are gathered on one side of the channel board and all (-) connectors are gathered on the opposite side.

On the other hand, when the backplane board 500 is attached to the outer side of the enclosure 300, one or more long holes 304 are formed in the horizontal direction in the upper, lower or middle part of the side of the enclosure 300, and the power cable 103 ) comes out of the enclosure through the long hole 304 and is connected to the power connector 403.

In this case, in the power supply unit 100, the backplane board 500 is attached to the outer side of the enclosure of the charging and discharging device in two lines above and below, and the channel board 401 is installed on the backplane board 500 in a vertical direction. , the polarity of the power connector is that the (+) connector is arranged at the top of the upper channel board, the (-) connector is placed at the bottom, the (-) connector is placed at the top of the lower channel board, and the (+) connector is placed at the bottom, or the whole can be placed in reverse.

In addition, referring to FIG. 18, when the cells of the power cable 130 are arranged on the opposite side of the jig part with the (+) polarity of the power supply part, the (+) terminals of the cells connected to the upper jig are connected to the upper part of the jig. It is connected to the (+) terminal of the channel board in the upper row through the duct, the (-) terminal of the cells connected to the upper jig is connected to the (-) terminal of the upper channel board, and the (-) terminal of the cells connected to the lower jig is connected to the (-) terminal of the upper channel board. The terminal is connected to the (-) terminal of the lower channel board, and the (+) terminals of the cells connected to the lower jig are connected to the (+) terminal of the lower channel board through the lower duct of the jig so that the power cables do not overlap each other. can be placed unobtrusively.

As described above, embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they are only used in a general sense to easily explain the technical details of the present invention and help understanding of the present invention. It is not intended to limit the scope of the invention. It is obvious to those skilled in the art that other modified examples based on the technical spirit of the present invention are possible in addition to the embodiments disclosed herein.

100: power supply unit 101: common power supply unit
103: power cable
200: jig part 201: power contactor
300: enclosure 301: air duct
302: cable duct 303: common air duct
304: Janghol
400: channel board assembly 401: channel board
402: connection connector 403: power connector
500: backplane board 501: DC input terminal
502: power terminal 503: sensing signal terminal
504: power terminal block 505: cable
900: AC/DC converter

Claims (24)

In the battery cell charging and discharging device,
a plurality of cells and a tray accommodating the plurality of cells;
a power supply unit supplying charge/discharge current to the plurality of cells independently;
a plurality of power contactors connecting the power source to the electrodes of the plurality of cells;
one or more jigs to which the plurality of power contactors are fixed and to accommodate the tray;
a plurality of power cables connecting between the power contactor and the power supply unit and transferring charge/discharge current; and
Including a charging and discharging device enclosure accommodating the jig,
the power supply,
a channel board including at least one charger/discharger and a connection connector; and
A backplane board including a plurality of power terminals for accommodating a plurality of channel boards through the connection connector and connecting the power cable,
The plurality of power terminals are disposed on the front surface of the backplane board so that the power cable can be connected and disconnected without disassembling the backplane board when the backplane board is attached to an inner or outer wall surface of the enclosure of the charging and discharging device. Battery cell charging and discharging device, characterized in that. According to claim 1,
A plurality of power terminals on the backplane board are separated from the backplane board and configured as a separate power terminal block;
The battery cell charging and discharging device characterized in that the backplane board and the power terminal block are electrically connected to each other. According to claim 1,
the power supply,
A backplane board including the plurality of channel boards is attached to the outer side of the enclosure,
The power terminal is disposed above or below the backplane board,
Constituting one or more long holes in the horizontal direction in the upper, lower, or middle part of the side of the enclosure,
The battery cell charging and discharging device, characterized in that the power cable connected to the power contactor comes out of the enclosure through the long hole and is connected to the power terminal. According to claim 3,
The channel board and the backplane board are divided into two stages, an upper and a lower one, and
Battery cell charging and discharging device characterized in that the long hole is formed in the upper, lower and middle parts of the enclosure. According to claim 1,
The power terminal,
The battery cell charging and discharging device, characterized in that the (+) terminals are gathered on the upper side of the backplane board and (-) terminals are gathered on the lower side or vice versa. According to claim 4,
The power terminal,
Gather the (+) terminals on the upper side of the upper backplane board and the (-) terminals on the lower side.
Collect the (-) terminals on the upper side of the lower backplane board and the (+) terminals on the lower side, or
Conversely, the battery cell charging and discharging device characterized in that the power cables are configured so that they do not overlap each other. According to claim 3,
the power supply,
A battery cell charging and discharging device comprising an exhaust duct in a space behind the backplane board. According to claim 3,
the power supply,
A battery cell charging and discharging device comprising a cable duct capable of accommodating an input power cable and a communication cable in a space behind the backplane board. According to claim 3,
When arranging multiple battery cell charging/discharging devices,
Battery cell charging and discharging characterized in that the power supply unit constitutes a common power unit by connecting the enclosure of the battery cell charging and discharging device disposed on the left side and the enclosure of the battery cell charging and discharging device disposed on the right side so that the two power supply units face each other. Device. According to claim 9,
The battery cell charging and discharging device, characterized in that a common air duct is installed in the remaining space behind the backplane board in a structure in which the power supply units of the battery cell charging and discharging device face each other. According to claim 1,
the power supply,
The backplane board is attached to the upper or lower surface of the enclosure,
The plurality of channel boards are arranged in the left and right directions based on the enclosure
The power terminals are disposed at both left and right ends of the backplane board,
The battery cell charging and discharging device, characterized in that the power cable connected to the power contactor is connected to the power terminal along the inner surface of the enclosure. According to claim 11,
The power terminal,
The battery cell charging/discharging device is disposed at both left and right ends of the backplane board, and (+) terminals are disposed on one side and (-) terminals are disposed on the opposite side. According to claim 1,
The power terminals are arranged in a plurality of rows at both left and right ends based on the side where the connection connector is located on the backplane board,
Battery cell charging and discharging device, characterized in that the height of the power terminals in the inner row is higher than the height of the power terminals in the outer row so that the multiple power cables do not interfere with each other when multiple output terminals are arranged on one channel board. According to claim 1,
The battery cell charging and discharging device, characterized in that the assembly of the channel board and the backplane board is configured in a drawer type so that it can be pulled out to the front part for repair. According to claim 9,
The battery cell charging and discharging device,
Stacking a set of enclosures in which two charge and discharge device enclosures are connected so that the power supply units face each other in a plurality of layers,
A battery cell charging/discharging device characterized in that the AC / DC converter is disposed at the bottom or top. According to claim 15,
The AC/DC converter,
A battery cell charge/discharge device characterized in that AC/DC converter modules having capacities required by each charge/discharge device are arranged as many as the number of charge/discharge devices and output voltages are independently controlled. According to claim 15
The DC output of each AC/DC converter is
A battery cell charging and discharging device characterized in that the output cable is connected to the power supply of each corresponding battery cell charging and discharging device through a cable duct. In the battery cell charging and discharging device,
a plurality of cells and a tray accommodating the plurality of cells;
a power supply unit supplying charge/discharge current to the plurality of cells independently;
a plurality of power contactors connecting the power source to the electrodes of the plurality of cells;
one or more jigs to which the plurality of power contactors are fixed and to accommodate the tray;
a plurality of power cables connecting between the power contactor and the power supply unit and transferring charge/discharge current; and
Including a charging and discharging device enclosure accommodating the jig,
the power supply,
a channel board including at least one charger/discharger and a connection connector; and
A backplane board including a plurality of power terminals for accommodating a plurality of channel boards through the connection connector and connecting the power cable,
The plurality of power terminals are arranged on the rear surface of the backplane board, and when the backplane board is attached to the outer wall surface of the charging and discharging device enclosure by cutting the charging and discharging device enclosure by a portion where the plurality of power terminals are disposed. A battery cell charging and discharging device, characterized in that a plurality of power terminals are disposed facing the inside of the charging and discharging device enclosure so that a power cable can be directly connected to and disconnected from the power terminals inside the charging and discharging device enclosure. According to claim 18,
the power supply,
When the channel board includes multiple chargers and dischargers
The battery cell charging and discharging device, characterized in that the power terminals of the backplane board gather (+) terminals upward and (-) terminals downward. According to claim 19,
the power supply,
The channel board and the backplane board are arranged in two rows above and below,
The power terminals are configured to collect (+) terminals on the upper side of the upper backplane board, collect (-) terminals on the lower side, collect (-) terminals on the upper side of the lower backplane board, and gather (+) terminals on the lower side,
When the (+) polarity of the cell is placed on the opposite side of the channel board, the (+) terminals of the cells connected to the upper jig are connected to the (+) terminal of the upper backplane board through the upper duct of the jig
The (-) terminals of the cells in the upper jig are connected to the (-) terminals of the upper backplane board.
The (-) terminals of the cells connected to the lower jig are connected to the (-) terminals of the lower backplane board.
A battery cell charging and discharging device characterized in that the (+) terminals of the cells bitten by the lower jig are connected to the (+) terminal of the lower backplane board through the lower duct of the jig, and the power cables are arranged so that they do not overlap each other. In the battery cell charging and discharging device,
a plurality of cells and a tray accommodating the plurality of cells;
a power supply unit supplying charge/discharge current to the plurality of cells independently;
a plurality of power contactors connecting the power source to the electrodes of the plurality of cells;
one or more jigs to which the plurality of power contactors are fixed and to accommodate the tray;
a plurality of power cables connecting between the power contactor and the power supply unit and transferring charge/discharge current; and
Including a charging and discharging device enclosure accommodating the jig,
the power supply,
a channel board including at least one charger/discharger, a power connector for outputting the charger/discharger, and a connection connector; and
A backplane board accommodating a plurality of channel boards through the connection connector,
The backplane board is attached to an inner or outer wall of the enclosure of the charge/discharge device, the power connectors are disposed on left and right sides of the channel board based on the side where the connection connector is located, and the power cable connects the power connector. Battery cell charging and discharging device characterized in that directly connected to the channel board through. According to claim 21,
The battery cell charging and discharging device, characterized in that the power connector gathers all (+) connectors on one side of the channel board and all (-) connectors on the opposite side. 23. The method of claim 22,
the power supply,
The backplane board is attached to the outer side of the enclosure in two rows, top and bottom, and the channel board is installed in a vertical direction on the backplane board, and the power connector has a (+) connector on the top of the upper channel board. A battery cell charge/discharge device, characterized in that a (-) connector is disposed on the lower side, a (-) connector is disposed on the upper side of the lower channel board, and a (+) connector is disposed on the lower side, or the entirety is reversed. 24. The method of claim 23,
The power cable,
When cells are arranged in the jig part with (+) polarity on the opposite side of the power supply part, the (+) terminals of the cells connected to the upper jig are connected to the (+) terminal of the upper channel board through the upper duct of the jig. become
The (-) terminals of the cells in the upper jig are connected to the (-) terminals of the upper channel board.
The (-) terminals of the cells connected to the lower jig are connected to the (-) terminals of the lower channel board.
Battery cell charging and discharging device characterized in that the (+) terminals of the cells bitten by the lower jig are connected to the (+) terminal of the lower channel board through the lower duct of the jig, and the power cables are arranged so that they do not overlap each other.

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