KR102143575B1 - Connector for checking connection state and energy storage module using thereof - Google Patents

Abstract

Disclosed are a connector for checking the connecting state of an energy storage module and a technology for an energy storage module using the same.
A connector for checking a connecting state according to an embodiment of the present invention includes a first connector part connection terminal 312b, 314b for electrical connection, and at least two first connector part check terminals 316b, 318b for checking the connecting state. ) Having a first connector part 310b; And second connector part connection terminals 322b and 324b connected to the first connector part connection terminals 312b and 314b, and the first connector part connection terminals 312b and 314b and the second connector part connection terminal ( When 322b and 324b are normally connected, the second connector comes into contact with the first connector inspection terminals 316b and 318b so that a predetermined voltage value is measured between the first connector inspection terminals 316b and 318b Including the second connector unit 320b having the sub-inspection terminal 326b, it is possible to easily and accurately check the connecting state between a plurality of energy storage cells and respective cell balancing circuits corresponding thereto.

Description

Connector for checking connection state and energy storage module using the same

The present invention relates to a connector for checking a connecting state and an energy storage module using the same, and more particularly, a connecting state capable of simply and efficiently checking a connecting operation state between a plurality of energy storage cells and a corresponding cell balancing circuit. It relates to a connector for inspection and an energy storage module using the same.

Currently, representative energy storage devices used to store electrical energy include batteries and capacitors.

In particular, high-capacitance storage devices including an ultra capacitor, a super capacitor, and an electric double layer capacitor, which are a kind of capacitor, have the mesomagnetic characteristics of an electrolytic capacitor and a secondary battery. As an energy storage device, the Genie corresponds to a next-generation energy storage device that can be used in combination with or as a substitute for a secondary battery due to its high efficiency and semi-permanent life characteristics.

However, such a high-capacitance storage device also has a voltage of only 3[V] per unit cell, and in order to use it as a high-voltage battery of thousands of farads or hundreds of voltages, a number of energy storage cells are electrically connected. Therefore, it is necessary to modularize high voltage. For example, in order to implement such a high voltage module, a high voltage assembly must be configured by connecting a high capacitance storage device, which is each unit energy storage cell, in series as many as necessary. In such a high voltage assembly in which a plurality of high capacitance storage devices are connected in series, a voltage imbalance between each energy storage cell occurs during charging, standby, and discharging. As a result, aging of the cell may be accelerated and the life of the cell may be shortened due to a decrease in the state of charge, and further, the cell may be destroyed or explode due to an overvoltage condition.

To solve this problem, energy storage modules including a plurality of energy storage cells, such as a high capacitance storage device assembly, perform energy balancing for each cell to maintain a voltage balance between each cell. A cell balancing circuit is being used. For example, in the case of an ultra capacitor module, a balancing board, that is, a circuit board in which a cell balancing circuit is configured, is disposed between a plurality of series ultra capacitor cells. In addition, the negative (-) terminal and the positive (+) terminal of each ultracapacitor cell are electrically connected to the cell balancing circuit of the corresponding ultracapacitor cell through a harness. Therefore, when a connection failure or incorrect wiring occurs between the harness and the cell balancing circuit, a normal balancing operation of the corresponding cell balancing circuit cannot be expected, resulting in a result of increasing voltage deviation between cells.

However, as disclosed in Patent Publication Nos. 10-2011-0096202 and 10-2014-0103773, the existing technologies provide no means to directly and simply check the connection state between the harness and the cell balancing circuit. There is a problem that you cannot do.

In addition, when manufacturing an energy storage module including tens to hundreds of energy storage cells, in particular, when manufacturing an energy storage module having a multilayer structure, there is a problem that it is difficult to visually check the overall connecting state.

Moreover, when a separate circuit device is added to check the connecting state of the cell balancing circuit, the manufacturing process becomes complicated and the manufacturing cost is increased.

Accordingly, the technical problem to be solved by the present invention is to be able to conveniently and accurately check the connecting state between the plurality of energy storage cells and each corresponding cell balancing circuit for an energy storage module using a plurality of energy storage cells. It is to provide a connector for checking the connecting state and an energy storage module using the same.

In addition, it is to provide a connector for checking a connecting condition, which can simplify a manufacturing process and reduce manufacturing cost, and an energy storage module using the same.

A connector for checking a connecting state according to an embodiment of the present invention includes a first connector part connection terminal 312b and 314b for electrical connection, and at least two first connector part check terminals 316b and 318b for checking the connecting state. ) Having a first connector part 310b; And second connector part connection terminals 322b and 324b connected to the first connector part connection terminals 312b and 314b, and the first connector part connection terminals 312b and 314b and the second connector part connection terminal ( When 322b and 324b are normally connected, a second connector that comes into contact with the first connector inspection terminals 316b and 318b so that a constant voltage value is measured between the first connector inspection terminals 316b and 318b It includes a second connector portion (320b) having a secondary inspection terminal (326b).

In one embodiment, the second connector part inspection terminal 326b is, when the first connector part connection terminals 312b and 314b and the second connector part connection terminals 322b and 324b are normally connected, the It may be a conductive member that comes into contact with the first connector unit inspection terminals 316b and 318b so that the first connector unit inspection terminals 316b and 318b are short-circuited with each other.

An energy storage module according to an embodiment of the present invention is an energy storage module that stores electrical energy using a plurality of energy storage cells, and is one end of a harness electrically connected to the pole terminal of the corresponding energy storage cell. A harness connector part 310b provided in the; And a plurality of cell balancing circuit connector units 320b that are connected to the harness connector unit 310b and electrically connect the harness to a cell balancing circuit that performs energy balancing of a corresponding energy storage cell, , The harness connector portion 310b includes, respectively, a harness connector portion connection terminal 312b, 314b for electrical connection, and at least two harness connector portion inspection terminals 316b, 318b for checking the connecting state, and the The cell balancing circuit connector part 320b includes a cell balancing circuit connector part connection terminal 322b, 324b connected to the harness connector part connection terminal 312b, 314b, and the harness connector part connection terminal 312b, 314b, respectively. And the cell balancing circuit connector part connection terminals 322b and 324b come into contact with the harness connector part check terminals 316b and 318b when the cell balancing circuit connector part connection terminals 322b and 324b are normally connected to a constant voltage between the harness connector part check terminals 316b and 318b. A cell balancing circuit connector part check terminal 326b is provided to allow the value to be measured.

In one embodiment, the cell balancing circuit connector inspection terminal 326b is, when the harness connector connection terminals 312b and 314b and the cell balancing circuit connector connection terminals 322b and 324b are normally connected, the It may be a conductive member that comes into contact with the harness connector inspection terminals 316b and 318b so that the harness connector inspection terminals 316b and 318b are short-circuited with each other.

In one embodiment, when one of the harness connector inspection terminals 316b and 318b has a first connection energy storage cell that is electrically connected to one pole terminal of the energy storage cell, the The other terminal 318b is electrically connected to the inspection terminal provided in the harness connector 310a of the first connection energy storage cell, and the other terminal 318b of the harness connector inspection terminals 316b and 318b is When there is a second connection energy storage cell electrically connected to the pole terminal, it may be electrically connected to the inspection terminal provided in the harness connector 310c of the second connection energy storage cell.

The connector for checking the connecting state according to the present invention and the energy storage module using the same, with respect to the energy storage module using a plurality of energy storage cells, the connecting operation state between the plurality of stored energy storage cells and respective cell balancing circuits corresponding thereto. Make it easy and accurate to always check.

In addition, since it is not necessary to add a complicated circuit to check the connecting state of the cell balancing circuit, the manufacturing process can be simplified and manufacturing cost can be reduced.

Furthermore, those of ordinary skill in the art to which the present invention pertains will be able to clearly understand from the following description that various embodiments according to the present invention can solve various technical problems not mentioned above.

1A is a view showing an example of an energy storage module to which a connector for checking a connecting state according to the present invention is applied.
1B is a view showing another example of an energy storage module to which the connector for checking the connecting state according to the present invention is applied.
2 is a view showing an energy storage module according to an embodiment of the present invention.
Figure 3 is a view showing a connector for checking the connecting state according to an embodiment of the present invention.
4 is a view showing the operating principle of the connector for checking the connecting state according to an embodiment of the present invention.
5 is a view showing the operating principle of the connector for checking the connecting state according to an embodiment of the present invention.
6 is a view showing an actual application example of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to clarify a solution to the technical problem of the present invention. However, in describing the present invention, if the description of the related known technology rather obscure the subject matter of the present invention, a description thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of designers and manufacturers. Therefore, the definition should be made based on the contents throughout this specification.

1A and 1B illustrate examples of an energy storage module to which a connector for checking a connecting state according to the present invention is applied.

First, as shown in FIG. 1A, the apparatus for checking a cell balancing circuit according to the present invention can be applied to an energy storage module using a plurality of energy storage cells. In such an energy storage module, a plurality of energy storage cells 110, 120, and 130 are connected in series, and a balancing board 124 is coupled to each of the energy storage cells 120. The balancing board 124 is a circuit board on which a cell balancing circuit for performing energy balancing of the corresponding energy storage cell 120 is disposed. Of all the energy storage cells, the negative electrode (-) terminal 121 of the n-th energy storage cell 120 is a positive electrode (+) terminal of the n-1th energy storage cell 110 by the conductive connecting member 122 ( 111) and electrically connected. In addition, the positive electrode terminal 123 of the nth energy storage cell 120 is electrically connected to the positive electrode terminal 131 of the n+1th energy storage cell 130 by a conductive connection member 132.

In order for the balancing board 124 to perform balancing for the corresponding energy storage cell 120, the cell balancing circuit of the balancing board 124 is provided with a negative terminal 121 and a positive electrode of the energy storage cell 120. Each must be electrically connected to the terminal 123. In this case, the negative terminal 121 of the nth energy storage cell 120 has the same potential as the positive terminal 111 of the n-1th energy storage cell 110. In addition, the positive electrode terminal 123 of the nth energy storage cell 120 has the same potential as the negative electrode terminal 131 of the n+1th energy storage cell 130. Accordingly, the cell balancing circuit of the balancing board 125 installed in the n-th energy storage cell 120 is provided with a negative terminal 121 of the n-th energy storage cell 120 through the conductive connection member 122. ) And the positive electrode terminal 123 of the n-th energy storage cell 120 through a harness 125 corresponding to an insulated wire arranged by attaching a terminal so that it can be wired immediately, that is, It may be electrically connected to the negative terminal 131 of the n+1th energy storage cell 130. A connector 126 may be installed on the balancing board 124 to electrically connect the harness 125 and the cell balancing circuit of the balancing board 124.

In addition, as shown in FIG. 1B, the connector for checking the connecting state according to the present invention can be applied to an energy storage module in which a plurality of energy storage cells 140 and 150 are modularized using a busbar 142. Yes, of course. In this case, the terminals 141 and 151 between the energy storage cells are electrically connected through the bus bar 142, and the functions and operating principles of the balancing board 144, the harness 145 and 155, and the connector 146 May be described in the same way as the corresponding configurations of FIG. 1A.

Figure 2 shows an energy storage module according to an embodiment of the present invention.

As shown in FIG. 2, the energy storage module 200 according to the present invention stores electric energy by using a plurality of energy storage cells. Such energy storage cells may include high capacitance storage devices such as an Ultra Capacitor (UC), a Super Capacitor (SC), and an Electric Double Layer Capacitor (EDLC), which are types of capacitors. For example, the energy storage module 200 may be used by connecting a plurality of energy storage cells 210a, 210b, and 210c in series. As mentioned above, balancing boards 212a, 212b, 212c are coupled to each of the energy storage cells 210a, 210b, and 210c. The balancing boards 212a, 212b, and 212c are circuit boards on which a cell balancing circuit for performing energy balancing for corresponding energy storage cells 210a, 210b, and 210c is disposed. Among all the energy storage cells, the negative terminal of the n-th energy storage cell 210b is the cell balancing of the n-1th energy storage cell 210a through the harness 214a, which is an insulated wire arranged with terminals attached to facilitate wiring. It is electrically connected to the circuit 212a. In addition, the negative terminal of the n+1th energy storage cell 210c is electrically connected to the cell balancing circuit 212b of the nth energy storage cell 210b through a harness 214b. Similarly, the negative terminal of the n+2th energy storage cell (not shown) is electrically connected to the cell balancing circuit 212c of the n+1th energy storage cell 210c through the harness 214c. In this case, the energy storage module 200 uses the connectors 300a, 300b, and 300c according to the present invention, and the harnesses 214a, 214b, 214c and the corresponding cell balancing circuits 212a, 212b, respectively. 212c) Can be electrically connected.

3 shows a configuration of a connector for checking a connecting state according to an embodiment of the present invention.

As shown in FIG. 3, the connectors 300a, 300b, and 300c for checking the connecting state according to an embodiment of the present invention include first connector parts 310a, 310b, 310c and second connector parts 320a, respectively. 320b, 320c).

For example, among a plurality of connectors for checking the connecting state including the first connector 300a, the second connector 300b, and the third connector 300c, the first connector part 310b of the second connector 300b is The first connector part connection terminals 312b and 314b for electrical connection with the connector part, that is, the second connector part 320b of the second connector 300b, and the connection state with the second connector part 320b. It may include at least two first connector portion inspection terminals 316b and 318b for inspection. In addition, when the second connector part 320b is connected to the first connector part 310b, the second connector part connection terminals 322b and 324b connected to the first connector part connection terminals 312b and 314b ), when the first connector part connection terminals 312b and 314b and the second connector part connection terminals 322b and 324b are normally connected, the first connector part check terminals 316b and 318b are in contact with each other. A second connector portion inspection terminal 326b is provided for measuring a predetermined voltage value between the first connector portion inspection terminals 316b and 318b. This configuration may be equally applied to a plurality of connectors for checking the connecting state, including the first connector 300a, the second connector 300b, and the third connector 300c.

In the energy storage module 200, the connectors 300a, 300b, and 300c for checking the connecting state according to the present invention each have a harness electrically connected to the pole terminal of the corresponding energy storage cell, and the corresponding energy storage cell. It not only electrically connects the cell balancing circuit that balances energy for energy, but also makes it easy and accurate to check the connection state between the two. For example, the first connector part 310b of the second connector 300b is a harness connector part 310b provided at one end of the harnesses 214a and 214b electrically connected to the pole terminals of the corresponding energy storage cell 210b. Can be In addition, the second connector part 320b of the second connector 300b is connected to the harness connector part 310b to perform energy balancing of the energy storage cell 210b, and the cell balancing circuit 212b and the harness ( It may be a cell balancing circuit connector part 320b electrically connecting the 214a and 214b. In this case, the harness connector part 310b, together with the harness connector part connection terminals 312b and 314b for electrical connection, checks at least two harness connector parts for checking the connection state with the cell balancing circuit connector part 320b It has terminals 316b and 318b. In addition, the cell balancing circuit connector portion 320b, together with the cell balancing circuit connector portion connection terminals 322b, 324b connected to the harness connector portion connection terminals 312b, 314b, and the harness connector portion connection terminals 312b, 314b ) And the cell balancing circuit connector part connection terminals 322b, 324b come into contact with the harness connector part check terminals 316b, 318b, and a constant voltage between the harness connector part check terminals 316b, 318b A cell balancing circuit connector part check terminal 326b is provided to allow the value to be measured.

Referring to FIGS. 2 and 3 in more detail, the harness connector part 310b of the connector 300b applied to the n-th energy storage cell 210b among the plurality of energy storage cells is an n-th energy storage cell 210b. And a first connection terminal 312b having the same potential value (V _n+1 ) as the positive electrode terminal of, that is, the negative electrode terminal of the n+1th energy storage cell 210c. In addition, the harness connector 310b includes a second connection terminal 314b having the same potential value V _n as the negative terminal of the n-th energy storage cell 210b. In addition, the connection terminals 322b and 324b of the cell balancing circuit connector part 320b are respectively connected to the first connection terminal 312b and the second connection terminal 314b when combined with the harness connector part 310. In contact with each other, the potential values V _{n and} V _n+1 are transferred to the cell balancing circuit 212b. In this case, the cell balancing circuit connector 320b may be installed on a cell balancing circuit board, which is a printed circuit board on which the cell balancing circuit 212b is disposed.

On the other hand, when the harness connector 310b and the cell balancing circuit connector 320b are normally coupled and the harnesses 214a and 214b and the cell balancing circuit 212b are electrically connected, the inspection terminal of the harness connector 310b They 316b and 318b come into contact with the inspection terminal 326b of the cell balancing circuit connector part 320b. At this time, the cell balancing circuit connector part inspection terminal 326b allows a predetermined voltage to be measured between the harness connector part inspection terminals 316b and 318b. For example, the cell balancing circuit connector inspection terminal 326b may short between the harness connector inspection terminals 316b and 318b. Accordingly, the harness connector 310b and the cell balancing circuit When the connector part 320b is normally connected, when the voltage value between the harness connector part inspection terminals 316b and 318b is measured by a tester, the measured value will indicate 0 [V]. When the connector portion 310b and the cell balancing circuit connector portion 320b are normally coupled, the harness connector portion inspection terminals 316b and 318b and the cell balancing circuit connector portion inspection terminal 326b contact each other to form a short circuit. To this end, the cell balancing circuit connector part inspection terminal 326b may be composed of a conductive member in contact with the harness connector part inspection terminals 316b and 318b. In this way, the connecting state according to the present invention Since the inspection connector can be manufactured in a simplified form, the manufacturing process can be simplified and manufacturing cost can be reduced.

In addition, one terminal 316b of the inspection terminals 316b and 318b provided in the harness connector 310b of the n-th energy storage cell 210b is one pole terminal of the n-th energy storage cell 210b When there is a first connection energy storage cell electrically connected to, that is, the n-1th energy storage cell 210a, an inspection terminal provided in the harness connector 310a of the n-1th energy storage cell 210a It is electrically connected to 318a through a conducting wire 216a. In addition, the other terminal 318b of the inspection terminals 316b and 318b provided in the harness connector 310b of the n-th energy storage cell 210b is the other terminal of the n-th energy storage cell 210b When there is a second connection energy storage cell electrically connected to the n+1th energy storage cell 210c, the inspection terminal provided on the harness connector 310c of the n+1th energy storage cell 210c It is electrically connected through 316c and a conducting wire 216b.

4 and 5 illustrate a principle of operation of a connector for checking a connecting state according to an embodiment of the present invention.

That is, as shown in FIG. 4, when all of the connectors 300a, 300b, and 300c are normally coupled on the cell balancing circuit boards 212a, 212b, 212c respectively disposed in a plurality of energy storage cells, Terminal 3 and terminal 4, which are inspection terminals of the connectors 300a, 300b, and 300c, are short-circuited with each other. In addition, terminal 4 of the first connector 300a is electrically connected to terminal 3 of the second connector 300b through a conducting wire 216a, and a second terminal shorted to the terminal 3 of the second connector 300b Terminal 4 of the connector 300b is electrically connected to terminal 3 of the third connector 300c through a conducting wire 216b. Therefore, if you measure the voltage value (V _t ) between terminal 3 of the first connector 300a and terminal a, which is equipotential, and terminal b, which is equal potential, and terminal b of the third connector 300c, 0[V] is Is shown.

On the other hand, as shown in FIG. 5, when any one of the connectors 300a, 300b, and 300c is not normally connected, the voltage value V _t between the terminal a and the terminal b appears as a different value. For example, when the harness connector part 310 and the cell balancing circuit connector part 320 of the second connector 300b are removed due to the operator's negligence or external force, the third and fourth terminals of the second connector 300b Since the terminals are open, the voltage measurement value (V _t ) between the terminals a and b may appear as an infinite value.

As described above, according to the present invention, in an energy storage module that stores electrical energy by connecting a plurality of energy storage cells, whether the voltage value between the connector 3 terminal of the first cell and the connector 4 terminal of the last cell appears as 0 [V]. If it is checked, it is possible to check whether the entire cell balancing circuits are connected normally, so that it is possible to conveniently and accurately check the overall connection state of medium and large energy storage modules that are difficult to check with the naked eye.

6 shows an actual application example of the present invention.

As shown in FIG. 6, when a plurality of energy storage cells, for example, 48 energy storage cells are connected in series and an energy storage module is manufactured in a stacked structure of 24, it is difficult to visually check the overall connection state. Occurs. However, according to the present invention, one of the inspection terminals of the connector 300 disposed in the first energy storage cell of the first layer (Layer1) (for example, a terminal corresponding to 316 in FIG. 3) and the second layer (Layer2) ) By measuring the voltage value (V _t ) between one of the inspection terminals of the connector 300n disposed in the last energy storage cell of (for example, the terminal corresponding to 318 in FIG. 3), to check the overall connection state simply and accurately. You will be able to.

On the other hand, as described above, in order to facilitate the checking of the connecting state of the plurality of energy storage cells constituting the energy storage module, the connector for checking the connecting state and the energy storage module according to an embodiment of the present invention, Further, a probe (not shown) is provided to provide a hole in the outer insulating layer so as to contact the probe of the tester with the inspection terminals 316 and 318 or the inspection circuit unit 326 Can include.

As described above, the connector for checking the connecting state according to the present invention and the energy storage module using the same, are connected between the plurality of storage energy storage cells and respective cell balancing circuits corresponding thereto for an energy storage module having a plurality of energy storage cells. It makes it easy and accurate to check the working status at all times. In addition, since it is not necessary to add a complicated circuit to check the connecting state of the cell balancing circuit, the manufacturing process can be simplified and manufacturing cost can be reduced. Furthermore, it goes without saying that various embodiments according to the present invention can solve various technical problems other than those mentioned in the present specification in the related technical field as well as in the relevant technical field.

So far, the present invention has been described with reference to examples. However, those skilled in the art will be able to clearly understand that the present invention can be implemented in various forms within the scope of the essential technical idea of the present invention. Therefore, the disclosed embodiments should be considered in terms of explanation, not limitation. That is, the true technical scope of the present invention is shown in the appended claims, and all differences within the scope of equivalents thereto are to be interpreted as being included in the present invention.

200: energy storage module 212a, 212b, 212c: cell balancing circuit
214a, 214b, 214c: harness 300a, 300b, 300c: connector for checking the connecting condition
310: first connector part 316, 318: first connector part inspection terminal
320: second connector part 326: second connector part inspection terminal

Claims (5)

In the energy storage module for storing electrical energy using a plurality of energy storage cells,
A harness connector 310b provided at one end of a harness that is electrically connected to one pole terminal of the energy storage cell;
A cell balancing circuit connector unit 320b that is connected to the harness connector unit 310b and electrically connects the harness to a cell balancing circuit for performing energy balancing of the energy storage cell; And
As a balancing board on which the cell balancing circuit is arranged and the cell balancing circuit connector part 320b is installed, a plurality of annular balancing boards 212b are inserted into and coupled to the other pole terminal of the energy storage cell, respectively. Including,
The harness connector portion 310b includes, respectively, a harness connector portion connection terminal 312b, 314b for electrical connection, and at least two harness connector portion inspection terminals 316b, 318b for checking the connecting state,
The cell balancing circuit connector part 320b includes a cell balancing circuit connector part connection terminal 322b, 324b connected to the harness connector part connection terminal 312b, 314b, and the harness connector part connection terminal 312b, 314b, respectively. ) And the cell balancing circuit connector part connection terminals 322b and 324b come into contact with the harness connector part check terminals 316b and 318b, so that 0V between the harness connector part check terminals 316b and 318b It has a cell balancing circuit connector part inspection terminal (326b) to measure the voltage,
One terminal 316b of the harness connector inspection terminals 316b and 318b stores the first connection energy when there is a first connection energy storage cell electrically connected to the other pole terminal of the energy storage cell It is electrically connected to the inspection terminal provided in the harness connector part 310a of the cell,
The other terminal 318b of the harness connector inspection terminals 316b and 318b is the second connection energy storage cell when there is a second connection energy storage cell electrically connected to the one pole terminal of the energy storage cell It is electrically connected to the inspection terminal provided in the harness connector part 310c,
The harness connector part 310b or the cell balancing circuit connector part 320b has an outer insulating layer, and the harness connector part check terminals 316b and 318b or the cell balancing circuit connector part check terminal on the outer insulating layer Energy storage module (326b) is provided with a hole (hole) to allow the probe of the tester to contact. The method of claim 1,
The cell balancing circuit connector part inspection terminal 326b,
When the harness connector connection terminals 312b and 314b and the cell balancing circuit connector connection terminals 322b and 324b are normally connected, they come into contact with the harness connector inspection terminals 316b and 318b, and the harness An energy storage module, characterized in that it is a conductive member for shorting the connector part inspection terminals 316b and 318b to each other. delete delete delete

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