KR101108212B1 - Rechargeable apparatus for preventing natural discharge - Google Patents

Abstract

The present invention relates to a charging device for preventing natural discharge, and the charging device for preventing natural discharge according to the present invention includes a rechargeable battery for charging power; A rechargeable battery case on which the rechargeable battery is seated, and having a first (+) terminal and a first (−) terminal connected to the (+) and (−) poles of the rechargeable battery, respectively; And a second (+) terminal and a second (-) terminal corresponding to the first (+) terminal and the first (−) terminal of the rechargeable battery case, respectively, and are attached to one side of the rechargeable battery case. And a cover to isolate the first (+) terminal and the first (−) terminal from the outside, wherein the rechargeable battery case and the cover are connected to the first (+) terminal and the first (−) terminal of the rechargeable battery case. And a state in which the second (+) terminal and the second (-) terminal of the cover are in contact with each other and in a state not in contact with each other.

Description

Rechargeable apparatus for preventing natural discharge

The present invention relates to a charging device for preventing natural discharge, and more particularly, to a charging device capable of preventing natural discharge by always isolating the (+) and (-) pole of the rechargeable battery from the outside.

Rechargeable batteries are also commonly referred to as storage batteries, and are secondary batteries that convert external electrical energy into chemical energy, store it, and generate electricity when needed. Common secondary batteries include lead acid batteries, nickel cadmium (NiCd) batteries, nickel hydride (NiMH) batteries, lithium ion (Li-ion) batteries, and lithium ion polymer (Li-ion polymer) batteries. Has the advantage that you can use it differently.

Such rechargeable batteries (batteries) come in various forms, ranging from small rechargeable batteries used for mobile phones, MP3 players, and the like to large rechargeable batteries used for solar energy generation, wind energy generation, and the like.

However, in general, when the rechargeable battery is not used after being charged, there is a problem in that it is a natural discharge and wastes energy. This is especially the case when the battery is not used immediately after charging, such as a battery used in solar power generation or wind energy generation. There is a more serious problem. Therefore, there is an urgent need for a more efficient charging device that can prevent the natural discharge after charging as long as possible and last a long life.

The present invention has been made to solve the above problems, an object of the present invention to prevent the natural discharge by always isolating the (+) and (-) pole of the rechargeable battery using the rechargeable battery case and cover. It is to provide a charging device for preventing natural discharge.

It is another object of the present invention to provide a charging device for preventing natural discharge, which can efficiently perform charging and power supply by separately providing a terminal for charging and a terminal for supplying power.

It is still another object of the present invention to provide a charging device for preventing natural discharge, by which a repulsive force acts between the rechargeable battery case and the cover so that the terminals of the rechargeable battery case and the terminals of the cover can be easily kept in contact with each other.

For the above purpose, a charging device for preventing natural discharge of one embodiment of the present invention includes a rechargeable battery for charging power; A rechargeable battery case on which the rechargeable battery is seated, and having a first (+) terminal and a first (−) terminal connected to the (+) and (−) poles of the rechargeable battery, respectively; And a second (+) terminal and a second (-) terminal corresponding to the first (+) terminal and the first (−) terminal of the rechargeable battery case, respectively, and are attached to one side of the rechargeable battery case. And a cover to isolate the first (+) terminal and the first (−) terminal from the outside, wherein the rechargeable battery case and the cover are connected to the first (+) terminal and the first (−) terminal of the rechargeable battery case. And a state in which the second (+) terminal and the second (-) terminal of the cover are in contact with each other and in a state not in contact with each other.

And, the charging device for preventing natural discharge according to another aspect of the present invention, a rechargeable battery for charging power; The rechargeable battery is seated, and the first (+) terminal and the third (+) terminal connected to the (+) pole of the rechargeable battery and the first (-) terminal and the third ( A rechargeable battery case having a terminal; And a second (+) terminal and a second (-) terminal corresponding to the first (+) terminal and the first (-) terminal of the rechargeable battery case, respectively, and are attached to one side of the rechargeable battery case. A first cover which isolates the first (+) terminal and the first (−) terminal from the outside; And a fourth (+) terminal and a fourth (-) terminal corresponding to the third (+) terminal and the third (-) terminal of the rechargeable battery case, respectively, and are attached to the other side of the rechargeable battery case to form the rechargeable battery case. And a second cover which isolates the third (+) terminal and the third (−) terminal from the outside, wherein the rechargeable battery case and the first cover are formed of the first (+) terminal and the first (−) terminal of the rechargeable battery case. The terminal and the second (+) terminal and the second (-) terminal of the first cover can be selectively maintained in a state in which they are in contact with each other, respectively, wherein the rechargeable battery case and the second cover is The third (+) terminal and the third (-) terminal of the rechargeable battery case, and the fourth (+) terminal and the fourth (-) terminal of the second cover, respectively, It is characterized by being maintainable.

According to the present invention, the positive and negative electrodes of the rechargeable battery are always isolated from the outside using the rechargeable battery case and the cover to prevent natural discharge, thereby reducing energy loss and using the rechargeable battery for a long time.

In addition, according to the present invention, by separately providing a terminal for charging and a terminal for power supply in the rechargeable battery case, the charging and power supply can be efficiently performed.

In addition, according to the present invention, by providing a permanent magnet and / or elastic body so that the repulsive force acts between the rechargeable battery case and the cover, it is possible to easily maintain the state that the terminals of the rechargeable battery case and the terminals of the cover do not mutually contact each other. Have

1 is a perspective view of a charging device for preventing natural discharge according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view when the natural discharge preventing charging device of FIG. 1 is in a contact state.
3 is a cross-sectional view when the natural discharge preventing charging device of FIG. 1 is in a non-contact state.
4 is a cross-sectional view illustrating that the charging device for preventing natural discharge of FIG. 1 maintains a non-contact state by using a permanent magnet.
FIG. 5 is a cross-sectional view illustrating that the charging device for natural discharge prevention of FIG. 1 maintains a non-contact state using an elastic body.
6 is a perspective view of a charging device for preventing natural discharge according to another embodiment of the present invention.
7 is a cross-sectional view when the natural discharge preventing charging device of FIG. 6 is in a charged state.
8 is a cross-sectional view when the natural discharge preventing charging device of FIG. 6 is in a power supply state.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention unnecessarily obscure.

First, Figure 1 is a perspective view of a charging device for preventing natural discharge according to an embodiment of the present invention. 2 is a cross-sectional view when the natural discharge preventing charging device of FIG. 1 is in a contact state, and FIG. 3 is a cross-sectional view when the natural discharge preventing charging device of FIG. 1 is in a non-contact state.

1 to 3, the charging device for preventing natural discharge according to an embodiment of the present invention includes a rechargeable battery 114, a rechargeable battery case 110 surrounding the rechargeable battery, and one side of the rechargeable battery case. +) And a cover 120 to insulate the (-) terminal from the outside.

In detail, the rechargeable battery 114 is generally known as a lead storage battery, a nickel cadmium (NiCd) battery, a nickel hydride (NiMH) battery, a lithium ion (Li-ion) battery, a lithium ion polymer (Li-ion polymer) battery, and the like. You can use the rechargeable battery.

The rechargeable battery case 110 is formed to allow the rechargeable battery 114 to be seated therein to protect the rechargeable battery and isolate the rechargeable battery from the outside. The rechargeable battery case 110 includes a positive terminal 111 and a negative terminal 112 connected to the positive and negative poles of the rechargeable battery 114, respectively. The natural discharge is prevented by completely separating the pole and (-) pole from the outside. For reference, although the (+) and (-) poles of the rechargeable battery 114 are not explicitly shown in the drawings, the positive and negative electrodes of the rechargeable battery 114 may have It may be formed to be in contact with the (+) terminal 111 and (-) terminal 112, and also the (+) terminal 111 and (-) terminal 112 of the rechargeable battery case 110 using a wire or a conductor, etc. It may be formed to be connected to). In other words, the rechargeable battery case 110 has a positive (+) and negative (-) poles of the rechargeable battery 114 and (+) terminals 111 and (-) terminals 112 of the rechargeable battery case 110 when manufacturing the charging device. It may be formed integrally with the rechargeable battery 114 to be in direct contact, and the (+) terminal 111 of the rechargeable battery case 110 and the (+) and (-) poles of the rechargeable battery 114 using electric wires and the like. After connecting to the (-) terminal 112 may be formed in a form to seal the fixing plate 113 to put the rechargeable battery 114 in the rechargeable battery case 110. As a result, the positive electrode and the negative electrode of the rechargeable battery 114 are completely isolated from the outside.

The cover 120 includes (+) terminal 121 and (−) terminal 122 corresponding to the (+) terminal 111 and the (−) terminal 112 of the rechargeable battery case 110, respectively. Attached to one side of the rechargeable battery case 110 to isolate the (+) terminal 111 and (-) terminal 112 of the rechargeable battery case 110 from the outside. For reference, the (+) terminal 121 and the (-) terminal 122 of the cover 120 is connected to a solar cell when charging, and performs charging, and is connected to an electronic device when supplying power. Power supply. In addition, although not shown in the drawings, a terminal cover (eg, a rubber cover mounted by screwing or fitting) that covers the (+) terminal 121 and the (-) terminal 122 of the cover 120 and is isolated from the outside. It may be provided.

The attachment form of the rechargeable battery case 110 and the cover 120 may be attached by, for example, a screw thread formed on an outer circumferential surface of the rechargeable battery case 110 and a thread formed corresponding to the inner circumferential surface of the cover 120. . Of course, the attachment form of the rechargeable battery case 110 and the cover 120 may use a variety of known methods in addition to the screwing method.

Referring to FIGS. 2 and 3, FIG. 2 shows that the cover 120 is completely screwed into the rechargeable battery case 110 so that the positive terminal 111 and the negative terminal 112 of the rechargeable battery case 110 are covered. It shows a state in contact with the (+) terminal 121 and (-) terminal 122 of (120), Figure 3 is the cover 120 is not fully screwed into the rechargeable battery case 110, the rechargeable battery case 110 (+) Terminal 111 and (-) terminal 112 of the () is shown in a state not in contact with the (+) terminal 121 and (-) terminal 122 of the cover 120.

In detail, the (+) terminal 111 and the (-) terminal 112 of the rechargeable battery case 110 are completely isolated from the outside. In the case of FIG. 2, the (+) terminal 121 of the cover 120 is shown. ) And (-) terminals 122 in contact with the charging or power supply through this, in the case of Figure 3 is the (+) terminal 121 and (-) terminal 122 of the cover 120 ) Can not be charged or powered. That is, the charging device according to the present invention, the (+) terminal 111 and (-) terminal 112 of the rechargeable battery case 110 and the (+) terminal 121 and (-) of the cover 120 in the use state The terminal contacts and performs charging or power supply through the rechargeable battery 114, and when not in use, the positive terminal 111 and the negative terminal 112 of the rechargeable battery case 110 and the cover 120 are not in use. Since the (+) terminal 121 and the (-) terminal of) do not contact each other, the natural discharge is prevented by isolating the (+) terminal 111 and the (-) terminal 112 of the rechargeable battery case 110 from the outside. do. For reference, in this case, the (+) terminal 121 and the (-) terminal 122 of the cover 120 is formed in a size and shape that is easily connected to a solar cell, an electronic device, or the like, and the ( The terminal 111 and the negative terminal 112 are formed to have a small surface area (eg, to have a smaller surface area than the positive terminal 121 and the negative terminal 122 of the cover 120). Therefore, the efficiency of natural discharge can be improved.

On the other hand, according to a preferred embodiment of the present invention, the (+) terminal 111 and (-) terminal 112 of the rechargeable battery case 110 and the (+) terminal 121 and (-) terminal of the cover 120 In order for the 122 to easily maintain a non-contact state, a permanent magnet, an elastic body, or the like may be used (see FIGS. 4 and 5). For example, when the cover 120 is attached to the rechargeable battery case 110 in a manner other than screwing, the positive terminal 111 and the negative terminal 112 and the cover 120 of the rechargeable battery case 110 may be attached. In some cases, it may be difficult for the (+) terminal 121 and the (-) terminal 122 to maintain a non-contact state stably, but in the present invention, a non-contact state using a permanent magnet or an elastic body to solve this problem. (E.g., permanent magnets or elastomers can be applied even when screwed in).

4 is a view illustrating that the rechargeable battery case 110 and the cover 120 easily maintain the non-contact state by using the permanent magnets 115 and 125, and FIG. 5 illustrates the rechargeable battery case 110 and the cover 120. It is a figure explaining that the non-contact state is easily maintained using the elastic body 116. FIG.

Referring to FIG. 4, the rechargeable battery case 110 is provided with a permanent magnet 115 on a surface facing the cover 120, and the cover 120 has a permanent magnet 125 on a surface facing the rechargeable battery case 110. Is provided. In addition, the permanent magnet 115 of the rechargeable battery case 110 and the permanent magnet 125 of the cover 120 are disposed to act on each other, so that the cover 120 is not normally closed in the rechargeable battery case 110 (that is, In this case, the terminals 111 and 112 of the rechargeable battery case 110 and the terminals 121 and 122 of the cover 120 do not come into contact with each other.

Similarly, referring to FIG. 5, an elastic body 116 such as a spring or a sponge is provided between the rechargeable battery case 110 and the cover 120, such that the terminals 111 and 112 and the cover 120 of the rechargeable battery case 110 are provided. Terminals 121 and 122 may be implemented to easily maintain a non-contact state. In addition, by using the permanent magnets (115, 125) and the elastic body 116 together (e.g., the permanent magnets are placed in the center of the surface facing the rechargeable battery case and the cover and the elastic body at the edge), the rechargeable battery The terminals 111 and 112 of the case 110 and the terminals 121 and 122 of the cover 120 may be easily maintained in a non-contact state.

Hereinafter, a charging device for preventing natural discharge according to another embodiment of the present invention will be described with reference to FIGS. 6 to 8. For reference, the charging device for preventing natural discharge shown in FIGS. 6 to 8 includes a case in which a positive terminal and a negative terminal for charging and a negative terminal and a negative terminal for power supply are separately provided. It is illustrated.

6 is a perspective view of a charging device for preventing natural discharge according to another embodiment of the present invention. 7 is a cross-sectional view when the natural discharge preventing charging device of FIG. 6 is in a charged state, and FIG. 8 is a cross-sectional view when the natural discharge preventing charging device of FIG. 6 is in a power supply state.

6 to 8, the charging device for preventing natural discharge according to another embodiment of the present invention includes a rechargeable battery 114, a rechargeable battery case 110 surrounding the rechargeable battery, and one side and the other side of the rechargeable battery case, respectively. It consists of a first cover 120 and a second cover 130 isolating the (+) terminal and (-) terminal of the case from the outside.

In detail, the rechargeable battery 114 is generally known as a lead storage battery, a nickel cadmium (NiCd) battery, a nickel hydride (NiMH) battery, a lithium ion (Li-ion) battery, a lithium ion polymer (Li-ion polymer) battery, and the like. You can use the rechargeable battery.

The rechargeable battery case 110 is formed to allow the rechargeable battery 114 to be seated therein to protect the rechargeable battery and isolate the rechargeable battery from the outside. The rechargeable battery case 110 includes positive terminals 111 and 117 and negative terminals 112 and 118 connected to the positive and negative poles of the rechargeable battery 114, respectively. Natural discharge is prevented by completely separating the positive and negative poles of (114) from the outside. For reference, although the (+) and (-) poles of the rechargeable battery 114 are not explicitly shown in the drawings, the positive and negative electrodes of the rechargeable battery 114 may have It may be formed to be in contact with the (+) terminal (111, 117) and the (-) terminal (112, 118), and also the (+) terminal 111, 117) and (-) terminals 112 and 118. In other words, the rechargeable battery case 110 has a positive (+) terminal and a negative (-) terminal of the rechargeable battery 114 when manufacturing the charging device. The rechargeable battery 114 may be integrally formed with the rechargeable battery 114 to directly contact the 112 and 118. The positive electrode and the negative electrode of the rechargeable battery 114 may be connected to the positive electrode of the rechargeable battery case 110 using wires or the like. After connecting the terminals 111 and 117 and the (-) terminals 112 and 118, the rechargeable battery 114 may be inserted into the rechargeable battery case 110 and sealed with the fixing plates 113 and 119. . As a result, the positive electrode and the negative electrode of the rechargeable battery 114 are completely isolated from the outside.

The first cover 120 has a second (+) terminal 121 and a second (−) corresponding to the first (+) terminal 111 and the first (−) terminal 112 of the rechargeable battery case 110, respectively. The terminal 122 is attached to one side of the rechargeable battery case 110 to isolate the first (+) terminal 111 and the first (−) terminal 112 of the rechargeable battery case 110 from the outside. . For reference, the second (+) terminal 121 and the second (-) terminal 122 of the first cover 120 are connected to an electronic device to perform power supply.

The second cover 130 includes fourth (+) terminals 131 and fourth corresponding to the third (+) terminals 117 and the third (-) terminals 118 of the rechargeable battery case 110, respectively. It is provided with a (-) terminal 132, and is attached to the other side of the rechargeable battery case 110, the third (+) terminal 117 and the third (-) terminal 118 of the rechargeable battery case 110 and the outside Isolate. For reference, the fourth (+) terminal 131 and the fourth (-) terminal 132 of the second cover 120 is connected to a solar cell or the like to perform charging.

The attachment form of the rechargeable battery case 110 and the first and second covers 120 and 130 may include, for example, a thread formed on an outer circumferential surface of the rechargeable battery case 110 and attached to an inner circumferential surface of the first and second covers 120 and 130. Corresponding threads are formed so that they can be attached in a threaded manner. Of course, the attachment form of the rechargeable battery case 110 and the first and second covers 120 and 130 may use various methods known in addition to the screwing method.

Referring to FIG. 7, since the first cover 120 is not completely screwed into the rechargeable battery case 110, the first (+) terminal 111 and the first (−) terminal of the rechargeable battery case 110 ( 112 remains in contact with the second (+) terminal 121 and the second (-) terminal 122 of the first cover 120, and the second cover 130 is the rechargeable battery case 110. The third (+) terminal 117 and the third (-) terminal 118 of the rechargeable battery case 110 are completely screwed into the fourth (+) terminal 131 and the fourth of the second cover 130. It shows that the state in contact with the negative terminal (132). That is, FIG. 7 illustrates the fourth (+) terminal 131 and the fourth (-) terminal 132 of the second cover 130 in which the charging device for preventing natural discharge according to the present invention is connected to a solar cell or the like. The first (+) terminal 111 and the first (-) terminal 112 of the rechargeable battery case 110 is completely isolated from the outside, and the first (+) The natural discharge through the terminal 111 and the first (-) terminal 112 is prevented.

Referring to FIG. 8, FIG. 8 illustrates that the first cover 120 is completely screwed into the rechargeable battery case 110 such that the first (+) terminal 111 and the first (−) terminal 112 of the rechargeable battery case 110 are connected thereto. ) Is in contact with the second (+) terminal 121 and the second (-) terminal 122 of the first cover 120, the second cover 130 is completely in the rechargeable battery case 110 Since the third (+) terminal 117 and the third (-) terminal 118 of the rechargeable battery case 110 are not screwed in, the fourth (+) terminal 131 and the fourth ( It shows that the terminal 132 is not in contact with the state. That is, FIG. 8 is a power supply through the second (+) terminal 121 and the second (-) terminal 122 of the first cover 120 is connected to the electronic device and the like for preventing the natural discharge according to the present invention. In this case, the third (+) terminal 117 and the third (-) terminal 118 of the rechargeable battery case 110 are completely isolated from the outside, and thus the third (+) terminal ( 117 and the natural discharge through the third (-) terminal 118 is prevented.

On the other hand, although not shown in the drawings, the natural discharge preventing charging device according to another embodiment of the present invention can perform the charging and power supply at the same time, the first (+) terminal 111 of the rechargeable battery case 110 And the first (-) terminal 112 maintains a contact state with the second (+) terminal 121 and the second (-) terminal 122 of the first cover 120 and the rechargeable battery case 110. The third (+) terminal 117 and the third (-) terminal 118 are also in contact with the fourth (+) terminal 131 and the fourth (-) terminal 132 of the second cover 130. Keep it. In addition, when charging and power supply are not performed, the first (+) terminal 111 and the first (−) terminal 112 of the rechargeable battery case 110 are connected to the second (+) terminal of the first cover 120. The non-contact state is maintained with the terminal 121 and the second (-) terminal 122, and the third (+) terminal 117 and the third (-) terminal 118 of the rechargeable battery case 110 are also covered by the second cover. The non-contact state is maintained with the fourth (+) terminal 131 and the fourth (-) terminal 132 of the 130.

In addition, although not shown in the drawings, the charging device for preventing natural discharge according to the present invention includes the first (+) terminal 111 and the first (-) terminal 112 and the first cover 120 of the rechargeable battery case 110. The second (+) terminal 121 and the second (-) terminal 122 of the third terminal (117) and the third (+) terminal of the rechargeable battery case 110 and / or to easily maintain a non-contact state. The fourth (+) terminal 131 and the fourth (-) terminal 132 of the (-) terminal 118 and the second cover 130 may use a permanent magnet or an elastic body to easily maintain a non-contact state. Can be. 4 and 5, the method applied to FIGS. 4 and 5 may be similarly or similarly applied to the charging device for preventing natural discharge of FIGS. 6 to 8.

Although the present invention has been described in detail with reference to preferred embodiments, it will be apparent to those skilled in the art that the present invention may be embodied in other specific various forms without changing the technical spirit or essential features of the present invention. One embodiment is to be understood in all respects as illustrative and not restrictive.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. .

Claims (11)

In the charging device for preventing natural discharge,
A rechargeable battery for charging power;
A rechargeable battery case on which the rechargeable battery is seated, and having a first (+) terminal and a first (−) terminal connected to the (+) and (−) poles of the rechargeable battery, respectively; And
And a second (+) terminal and a second (-) terminal corresponding to the first (+) terminal and the first (-) terminal of the rechargeable battery case, respectively, and are attached to one side of the rechargeable battery case. A cover which isolates the first (+) terminal and the first (−) terminal from the outside,
The rechargeable battery case and the cover are in contact with each other when the first (+) terminal and the first (-) terminal of the rechargeable battery case and the second (+) terminal and the second (-) terminal of the cover are in contact with each other. Charging device for preventing natural discharge, characterized in that the state can be selectively maintained. The method of claim 1,
The rechargeable battery case includes a first permanent magnet on a surface facing the cover, and the cover includes a second permanent magnet on a surface opposite the rechargeable battery case so that the first permanent magnet and the repulsive force act. Charging device for preventing natural discharge. The method according to claim 1 or 2,
Charging device for preventing natural discharge, characterized in that an elastic body is provided between the rechargeable battery case and the cover. The method according to claim 1 or 2,
The cover is a natural discharge preventing charging device, characterized in that attached to one side of the rechargeable battery case by screwing. The method according to claim 1 or 2,
The first (+) terminal and the first (-) terminal of the rechargeable battery case, characterized in that the surface area is smaller than the second (+) terminal and the second (-) terminal of the cover. The method according to claim 1 or 2,
And a terminal cover covering the second (+) terminal and the second (-) terminal of the cover. In the charging device for preventing natural discharge,
A rechargeable battery for charging power;
The rechargeable battery is seated, and the first (+) terminal and the third (+) terminal connected to the (+) pole of the rechargeable battery and the first (-) terminal and the third ( A rechargeable battery case having a terminal;
And a second (+) terminal and a second (-) terminal corresponding to the first (+) terminal and the first (-) terminal of the rechargeable battery case, respectively, and are attached to one side of the rechargeable battery case. A first cover which isolates the first (+) terminal and the first (−) terminal from the outside; And
And a fourth (+) terminal and a fourth (-) terminal corresponding to the third (+) terminal and the third (-) terminal of the rechargeable battery case, respectively, and are attached to the other side of the rechargeable battery case. A second cover which isolates the third (+) terminal and the third (-) terminal from the outside,
The rechargeable battery case and the first cover may contact the first (+) terminal and the first (-) terminal of the rechargeable battery case, and the second (+) terminal and the second (-) terminal of the first cover, respectively. Can optionally maintain a state that is not in contact with the state,
The rechargeable battery case and the second cover may contact the third (+) terminal and the third (-) terminal of the rechargeable battery case, and the fourth (+) terminal and the fourth (-) terminal of the second cover, respectively. Charging device for preventing natural discharge, characterized in that it is possible to selectively maintain the state not in contact with each other. The method of claim 7, wherein
The rechargeable battery case includes a first permanent magnet on a surface facing at least one of the first cover and a second cover, and at least one of the first cover and the second cover is disposed on a surface opposite to the rechargeable battery case. 1 is a charging device for preventing natural discharge, characterized in that it comprises a second permanent magnet so that the permanent magnet and the repulsive force acts. The method according to claim 7 or 8,
Charging device for preventing natural discharge, characterized in that an elastic body is provided between the rechargeable battery case and at least one of the first cover and the second cover. The method according to claim 7 or 8,
And the first cover and the second cover are attached to one side and the other side of the rechargeable battery case in a screwing manner, respectively. The method according to claim 7 or 8,
The first (+) terminal and the first (-) terminal of the rechargeable battery case, characterized in that the surface area is smaller than the second (+) terminal and the second (-) terminal of the first cover.

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