KR20140008784A - Battery sharing apparatus - Google Patents

Abstract

A battery sharing device comprises a first connector which is connected to a first terminal having a first battery mounted therein; a second connector which is connected to a second terminal having a second battery mounted therein; an input unit for receiving a charging current amount being transmitted from the first battery to the second battery; and a control unit for controlling charging current flow from the first connector to the second connector and blocking the charging current flow when transmitting the charging current as much as the charging current amount inputted in the input unit. The battery sharing device according to the present invention allows two batteries to share the charging current so that the discharged battery can be charged without separate charging power. Furthermore, the charging current supply can be set in advance, thereby accurately charging the battery as desired by a user and simply adjusting the charging current supply while numerically checking the same.

Description

Battery Sharing App {Battery Sharing Apparatus}

The present invention relates to an apparatus for sharing charging current between different batteries, and more particularly, configured to allow a user to select a charging current transmission amount in advance, so that the charging amount of each battery can be set to a desired level. The present invention relates to a battery sharing device.

The portable terminal uses a battery as a power source to increase portability. The battery used in the portable terminal is a rechargeable battery that can be repeatedly charged. In this case, when a function such as a smart phone is provided with various functions such as internet, digital media broadcasting (DMB) reception, and camera function as well as a call function, a feature phone or MP3 player (MP3-) Compared to a terminal that performs only one unique function, such as a player, the battery power is consumed much more relatively. Therefore, a mobile terminal such as a smart phone is more frequently discharged from the battery, and when the user is in a place where the charger cannot be used, such as outdoors, a battery discharge occurs frequently when the terminal is no longer used. For example, if you need to urgently call the number stored in the phone book, but the battery is discharged as above, there is a problem that you can not make a call unless you find a place where the charger can be used to charge the discharged battery.

Of course, if you have a spare battery, or if you have an emergency charger that can charge the battery with a normal alkaline battery, the terminal can be used in the outdoor power supply, but the terminal is a model that can not replace the battery If a normal alkaline battery is not available, there is a problem that the terminal is still unavailable.

In order to solve such a problem, a battery sharing device capable of urgently charging between portable terminals has been disclosed. By using this apparatus, even when the battery of one portable terminal is discharged, it is possible to make an emergency charge from the other portable terminal, so that the discharged portable terminal can be used for a short time. However, such a conventional battery sharing device merely performs a function of charging a discharged battery to some extent by simply flowing a current from a battery having a high charge amount to a battery (discharged battery) having a low charge amount, and precisely adjusting the charge amount. There is a problem that can not be. For example, if you want to charge someone's portable terminal battery with the battery of your portable terminal, you need to charge someone's portable terminal battery only when the battery of your portable terminal is not enough. Since the charge can not be adjusted with the sharing device, it may occur that the user cannot use even a portable terminal.

The present invention has been proposed to solve the above problems, while supplying the charging current of one battery to the other battery, the charging current supply amount can be set in advance, the charge current when the charge amount set in advance The purpose of the present invention is to provide a battery sharing device that can be cut off and can be easily adjusted while checking the charging current supply ratio numerically.

Battery sharing apparatus according to the present invention for achieving the above object, the first connector is connected to the first terminal in which the first battery is embedded; A second connector connected to a second terminal having a second battery embedded therein; An input unit configured to receive an amount of charging current to be transmitted from the first battery to the second battery; And a control unit controlling the flow of the charging current from the first connector to the second connector and blocking the flow of the charging current when the charging current is transmitted by the amount of the charging current input to the input unit.

The input unit is configured to receive the charge current amount as a ratio with respect to the initial charge amount of the first battery.

The input unit may be configured to receive the charge current amount in at least one of a desired desired charge amount of the first battery and a target charge amount of the second battery.

The input unit includes a first output window for displaying the remaining desired charge amount, a second output window for displaying the target charge amount, and a setting button for adjusting the size of the remaining desired charge amount and the target charge amount.

The first output window and the second output window each display the initial charge amount of the first battery and the second battery until the user operates the setting button, and when the user operates the setting button, the remaining desire The filling amount and the target filling amount are displayed.

The amount of increase and decrease of the remaining desired charge of the first battery and the amount of increase and decrease of the target charge of the second battery are inversely proportional to each other, and the setting button includes: a first setting button for increasing the amount of remaining desired charge of the first battery; And a second setting button for raising the target charge amount.

The input unit includes a slide rail and a slide block movable along the slide rail, and configured to input a charging current amount having a different size according to the position of the slide block.

It further includes an operation display unit for displaying whether or not the charging progress.

The input unit includes two or more selection buttons each of which is assigned different amounts of charging current.

The apparatus may further include a plurality of operation display units installed to surround the plurality of selection buttons, respectively, to indicate whether charging is in progress. When the selection button is selected by the user, the operation display unit surrounding the selected selection button is operated.

It further comprises an operation button for turning on / off the charging current flow from the first battery to the second battery.

It is installed so as to surround the operation button, and further includes an operation display unit for displaying whether the charging progress.

And a body in which the input unit and the control unit are installed, wherein the first connector and the second connector are fixedly coupled to the left and right sides of the body, respectively.

By using the battery sharing apparatus according to the present invention, two batteries can share a charging current, so that the discharged battery can be charged without a separate charging power, and the charging current supply amount can be set in advance so that the user only wants to. It can be charged accurately, and it can be easily adjusted while checking the charging current supply value numerically.

1 is a block diagram of a battery sharing apparatus according to the present invention.
2 is a state diagram of use of the battery sharing apparatus according to the present invention.
3 is an enlarged view of a body included in the battery sharing apparatus according to the present invention.
4 is a state diagram of use of the battery sharing apparatus according to the present invention showing a state in which the charging current transmission is completed.
5 is an enlarged view of a body included in the second embodiment of the battery sharing apparatus according to the present invention.
6 is an enlarged view of a body included in the third embodiment of the battery sharing apparatus according to the present invention.
7 to 9 sequentially illustrate the operation of the body included in the third embodiment of the battery sharing apparatus according to the present invention.
10 to 12 are use state diagrams of a fourth embodiment of the battery sharing apparatus according to the present invention.

Hereinafter, an embodiment of a battery sharing apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a battery sharing apparatus according to the present invention, FIG. 2 is a state diagram of a battery sharing apparatus according to the present invention, and FIG. 3 is an enlarged view of a body included in the battery sharing apparatus according to the present invention. 4 is a state diagram of use of the battery sharing apparatus according to the present invention showing a state in which the charging current transmission is completed.

The battery sharing apparatus according to the present invention is an apparatus for electrically connecting two different terminals so as to be able to transmit and receive a charging current between batteries built in each terminal, and the terminal on the side for supplying the charging current. One side may be coupled to a terminal in which the battery is sufficiently charged, and the other side may be coupled to a terminal (terminal requiring battery charging) for receiving a charging current.

For example, when the first portable terminal illustrated in FIG. 2 is a terminal for supplying a charging current and the second portable terminal is a terminal for receiving a charging current, the battery sharing apparatus according to the present invention may include a first portable terminal ( More specifically, a first connector 110 coupled to a first battery (not shown) embedded in the first portable terminal, and a second portable terminal (more specifically, a second embedded in the second portable terminal). A second connector 120 coupled to a battery (not shown), and connected to the first connector 110 and the second connector 120 to connect the second connector 120 to the first connector 110. It is configured to include a control unit 210 for controlling the flow of the charging current flowing to the. The controller 210 is provided in the body 200 that is connected to the first connector 110 and the second connector 120 through a wire.

In this case, the battery sharing apparatus according to the present invention does not merely serve to transfer the charging current from the first portable terminal to the second portable terminal, but when the battery is charged by a predetermined amount, the charging current flows so that the battery is no longer charged. It is characterized in that it further has a function to block the. The battery sharing apparatus according to the present invention may further include an input unit 220 which receives an input of how much charging current is to be transmitted from the first battery to the second battery. 210 is configured to block the flow of the charging current when the charging current is transmitted from the first battery to the second battery by the amount input to the input unit 220. At this time, the technology for blocking the flow of current in accordance with a predetermined condition, since the present invention is already commercially available in the art, a detailed description related to the charging current blocking of the control unit 210 will be omitted. .

In the conventional battery sharing apparatus, only a function of transferring a charging current from a battery having a high charge amount to a battery having a low charge amount is not provided, but a function of controlling a charge current transfer amount is not provided, so that the battery which needs to be charged to some extent There is a disadvantage that the user can not select whether to charge until. However, the battery sharing apparatus according to the present invention can set how much charge current is to be transmitted from the first battery to the second battery as described above, so that the battery discharged as much as the user wants, that is, the second battery The advantage is that it can be charged.

As described above, the battery sharing apparatus according to the present invention has an advantage in that the charging current of the first battery is excessively transmitted to the second battery, thereby preventing a state of deterioration of the state of charge up to the first battery. Of course, even in the case of using a conventional battery sharing device, if the second battery is charged while continuously checking the charge amount of the first battery and the charge amount of the second battery, the second battery can be charged only as much as desired by the user. Since the charge amount of the first battery and the second battery must be constantly monitored, there is a problem that a lot of labor is required for the charging operation.

Meanwhile, when inputting how much to charge the second battery built in the second terminal 20, the charging current to be transmitted from the first battery to the second battery may be input in mAh (milli Ampere hour) unit. When inputting the charging current in mAh unit, it is difficult for the user to intuitively grasp the amount of charging current. Therefore, the battery sharing apparatus according to the present invention may be configured to select what percentage of the charging current currently stored in the first battery to be transmitted to the second battery.

For example, as shown in FIG. 2, when the first battery having the charging capacity, that is, the maximum charging current amount of 2000mAh is fully charged, and the second battery having the maximum charging current amount of 2000mAh is charged about 10%, When charging current transmission is set after setting the charging current amount to be transferred from the battery to the second battery (hereinafter referred to as 'charging current amount') to 40%, it corresponds to 40% of the charging current charged in the first battery. A charge current of 800 mAh is transferred to the second battery so that the first battery is in a state of being 60% charged and the second battery is in a state of 50% (see FIG. 4). At this time, when the charging current transmission is operated after setting the charging current amount to 40% while the first battery is 80% charged and the second battery is 10% charged, the 1600mAh charging current of the first battery is charged. Only 640mAh of charge current, equivalent to 40%, is transferred to the second battery. Therefore, the first battery is in a state where the charging current of 960 mAh is stored, that is, 48% is charged, and the second battery receives the 640 mAh from the first 200 mAh, so that the charging current of 840 mAh is stored, that is, 42 % Is charged.

Meanwhile, the input unit 220 for inputting a charging current amount may be configured to include a slide rail 222 formed on the body 200 and a slide block 223 movable along the slide rail 222. . The slide rails 222 are assigned different amounts of charging current along the length direction (horizontal direction in FIG. 3), and thus may be transferred from the first battery to the second battery according to where the slide block 223 is located. The amount of charging current is determined differently.

In this embodiment, only the case where the charge current allocated to the slide rail 222 is displayed as a ratio to the initial charge amount (charge amount before the charge current transmission is made) of the first battery, the input unit 220 When the amount of charge current input to the scalar amount is equal to mAh, the amount of charge current may be allocated to the slide rail 222 as a scalar amount. For example, when 200 mAh is allocated to the slide rail 222 at the point where the slide block 223 is located, the controller 210 is charged when the charging current of 200 mAh is transferred from the first battery to the second battery. It may be configured to block the transmission.

In addition, the battery sharing apparatus according to the present invention may be configured to start charging current transmission immediately after coupling the first connector 110 and the second connector 120 to the first terminal 10 and the second terminal 20. Alternatively, the operation of coupling the first connector 110 and the second connector 120 to the first terminal 10 and the second terminal 20 separately from the first battery to select whether or not to transmit the charging current An operation button 230 for turning on / off the charging current flow to the second battery may be further provided. The display device may further include an operation display unit 240 that displays whether the charging of the second battery is currently in progress. For example, the operation display unit 240 may be configured to emit red light when charging is in progress, and emit green light when charging is completed, so that the user can immediately recognize whether charging is in progress. .

5 is an enlarged view of the body 200 included in the battery sharing apparatus according to the second embodiment of the present invention.

As shown in FIG. 3, the input unit 220 may include a slide rail 222 and a slide block 223, and two or more selection buttons to which charge current amounts having different values are respectively assigned as shown in FIG. 4. 225a to 225e. As such, when the input unit 220 includes a plurality of selection buttons 225a to 225e, the user can quickly and accurately select how much charging current is to be transferred to the second battery. In addition, the embodiment of the structure shown in Figure 3 is that the external current is applied to the slide block 223 due to carelessness of the user may change the amount of charge current applied to the second battery when the slide block 223 is moved. Although there is a problem, the embodiment of the structure shown in FIG. 4 has the advantage that the amount of charge current change is significantly reduced in opposition to the user's intention.

On the other hand, when the input unit 220 is composed of a plurality of selection buttons (225a ~ 225e), as shown in this embodiment, the operation display unit 240 is provided with a plurality so as to surround each of the plurality of selection buttons (225a ~ 225e) Can be. When the user selects any one selection button, the operation display unit 240 surrounding the selection button is configured to emit light, not only to indicate charging progress but also to indicate which selection button is selected by the user. Can be. In addition, in this embodiment, only the case where the input unit 220 is composed of five selection buttons (225a ~ 225e), the number of the selection buttons (225a ~ 225e) can be changed in various ways according to various conditions Can be.

6 is an enlarged view of the body 200 included in the third embodiment of the battery sharing apparatus according to the present invention, and FIGS. 7 to 9 are the body 200 included in the third embodiment of the battery sharing apparatus according to the present invention. The operation process of is shown in sequence.

The battery sharing apparatus according to the present invention may be configured to receive information on what percentage of the current charging current of the first battery is to be transmitted to the second battery, as shown in FIGS. 1 to 5. The charging current transmission may be configured to continue until the charge amount of the first battery is reduced by several percent, or the charging current transmission may be continued until the charging ratio of the second battery is increased to several percent. That is, the input unit 220 indicates a desired charge amount (hereinafter, referred to as 'remaining desired charge amount') or a charge current indicating how much charge current is desired to remain in the first battery when the charge current transmission is completed. The controller 210 is configured to receive a target charge amount (hereinafter, abbreviated as 'target charge amount') indicating how much the second battery is desired to be charged when the transmission is completed. It is configured to block the flow of the charging current when the charge amount reaches the remaining desired charge amount input to the input unit 220 or to block the flow of the charging current when the charge amount of the second battery reaches the target charge amount input to the input unit 220. Can be.

For example, when the maximum charge current amount of the first battery is 2000mAh and the remaining desired charge amount input to the input unit 220 is 25%, until the charge current amount of 500mAh corresponding to 25% of the 2000mAh remains in the first battery The charging current may be configured to be transmitted. In this case, the remaining desired charge amount is not a ratio based on the amount of charge current currently stored in the first battery, but a ratio based on the maximum charge current amount of the first battery, and thus the remaining desired charge amount input to the input unit 220 is 25. Even if the current charge current amount of the first battery is 1000mAh, the charging current of 500mAh corresponding to half of the current charge current amount is transmitted.

In addition, when the maximum charge current amount of the second battery is 2000mAh and the target charge amount input to the input unit 220 is 10%, the charging current until the charge current of 200mAh corresponding to 10% of 2000mAh is charged in the second battery The transmission may be configured to continue. In this case, since the target charging amount is not a ratio based on the charging current amount stored in the second battery but a ratio based on the maximum charging current amount of the second battery, the current charging current amount of the second battery is 100 mAh. Even if the target charging amount input to 220 is 10%, only the charging current of 100mAh corresponding to the current charging current amount is transmitted.

As mentioned above, when the amount of charge current transmitted from the first battery to the second battery is input as the remaining desired charge amount of the first battery or the target charge amount of the second battery, the user may determine how much the first battery is when the charging is completed. There is an advantage in that the charge ratio will remain and the second battery can intuitively easily grasp to what extent. In addition, since the remaining desired charge amount and the target charge amount have an inverse relationship with each other, the input unit 220 may be configured to selectively receive only one of the remaining desired charge amount and the target charge amount.

On the other hand, the input unit 220 is not merely receiving the desired residual charge amount or the target charge amount, the charge amount of the first battery and the second battery (hereinafter referred to as 'first charge amount') before the charging current transmission to some extent, When the charge is completed by selecting the remaining desired charge amount or the target charge amount, the first battery and the second battery may be configured to indicate numerically how much the state is to be charged. That is, the input unit 220, the first connector 110 and when the second connector 120 is connected to the first battery and the second battery, respectively, the first charging amount of the first battery and the second battery, respectively And a first output window 228a and a second output window 228b, and a setting button 227 for setting a desired charge amount of the first battery and a target charge amount of the second battery. Currently commercially available mobile communication terminals and the like has a function to calculate the charge amount of the built-in battery, that is, the first battery and the second battery, the input unit 220 is a battery calculated by each terminal (10, 20) The charging amount data is configured to be output through the first output window 228a and the second output window 228b. The technology for outputting the battery charge amount data calculated in each terminal 10, 20 is already widely used in the field of the present invention, a detailed description thereof will be omitted.

In this case, the setting button 227 may include a first setting button 227 (in this embodiment, a left setting button 227) that increases a target charge amount of the first battery, and a second charge that increases a target charge amount of the second battery. It may be configured to include a setting button 227 (right setting button 227 in this embodiment). Until the user operates the setting button 227, that is, until the remaining desired charge amount and the target charge amount are input, the first and second batteries of the first battery and the second battery are displayed in the first output window 228a and the second output window 228b. Each of the charge amounts may be displayed, and when the user inputs the remaining desired charge amount and the target charge amount by operating the setting button 227, the remaining desired charge amount of the first battery and the target charge amount of the second battery may be displayed.

For example, when the initial charge amount of the first battery is 99% and the initial charge amount of the second battery is 12%, the first connector 110 and the second connector 120 are connected to the first terminal 10 and the second terminal ( As shown in FIG. 7, 99% is output to the first output window 228a and 12% is output to the second output window 228b. In this case, when the first battery and the second battery have the same charging capacity, if the target charge amount of the second battery is set to 51% by pressing the setting button 227 in the state shown in FIG. When the amount is adjusted upward by 39%, the remaining desired charge amount of the first battery is lowered by 39% to 60% (see FIG. 8).

When the operation button 230 is started by pressing the operation button 230 in the state shown in FIG. 8, the operation display unit 240 emits red light as shown in FIG. 9. In this case, the operation display unit 240 may be installed separately from the operation button 230, as shown in the embodiment shown in Figure 3, may be installed to surround the operation button 230, as shown in FIG. . However, as shown in this embodiment, when the operation display unit 240 is installed to surround the operation button 230, the position of the operation button 230 is accurately displayed by the light emitted from the operation display unit 240, so that the user Advantageously, even in a dark space, the operation button 230 can be accurately pressed.

10 to 12 are use state diagrams of a fourth embodiment of the battery sharing apparatus according to the present invention.

The battery sharing apparatus according to the present invention may be configured such that the first connector 110 and the second connector 120 are electrically connected to the body 200 by separate wires, as shown in FIGS. 10 to 12. As described above, the first connector 110 and the second connector 120 may be fixedly coupled to the left and right sides of the body 200 so that the wires may be omitted. Even in this case, the first output window 228a and the second output window until the first connector 110 and the second connector 120 are connected to the first terminal 10 and the second terminal 20. If no value is output to 228b, the first connector 110 and the second connector 120 are connected to the first terminal 10 and the second terminal 20, as shown in FIG. The first charge amount of the first battery and the first charge amount of the second battery are output to the first output window 228a and the second output window 228b, and when the charging current transmission is completed, the first output as shown in FIG. 12. The amount of charge of the first battery and the amount of charge of the second battery may be output to the window 228a and the second output window 228b in numerical values.

The battery sharing apparatus according to the present invention has a structure in which wires can be omitted as shown in this embodiment, that is, the first connector 110 and the second connector 120 are fixedly coupled to the left and right sides of the body 200, respectively. When configured, not only the manufacturing cost is reduced as the wire is omitted, but also the product can be miniaturized, thereby increasing the product competitiveness. In this case, even in the case where the wire is omitted, the operation of each sub-operation and the charging current is the same as the embodiment shown in Figures 1 to 9, a detailed description thereof will be omitted.

In addition, the structure in which the first connector 110 and the second connector 120 are directly coupled to the left and right sides of the body 200 as described above has an input unit 220 having a first output window as shown in FIGS. 10 to 12. 228a and the second output window 228b, the first setting button 227 and the second setting button 227 can also be applied, as shown in Figure 2 the input unit 220 is a slide The present invention may also be applied to the case in which the rail 222 and the slide block 223 are configured, and may also be applied to the case in which the input unit 220 includes a plurality of selection buttons as shown in FIG. 5.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the present invention is not limited to the disclosed exemplary embodiments. It will also be appreciated that many modifications and variations will be apparent to those skilled in the art without departing from the scope of the present invention.

10: first terminal 20: second terminal
110: first connector 120: second connector
200: body 210: control unit
220: input unit 222: slide rail
223: slide block 225: selection button
227: setting button 228: output window
230: operation unit 240: operation display unit

Claims (13)

A first connector connected to a first terminal in which a first battery is embedded;
A second connector connected to a second terminal having a second battery embedded therein;
An input unit configured to receive an amount of charging current to be transmitted from the first battery to the second battery;
A control unit controlling the flow of the charging current from the first connector to the second connector and blocking the flow of the charging current when the charging current is transmitted by the amount of charging current input to the input unit;
Battery sharing device comprising a.
The method of claim 1,
The input unit, the battery sharing device, characterized in that for receiving the charge current amount as a ratio to the initial charge amount of the first battery.
The method of claim 1,
The input unit, the battery sharing device, characterized in that for receiving at least one of the desired charging amount of the remaining charge of the first battery and the second battery in the form of the input.
The method of claim 3,
The input unit may include a first output window for displaying the remaining desired charge amount, a second output window for displaying the target charge amount, and a setting button for adjusting the size of the remaining desired charge amount and the target charge amount. Device.
5. The method of claim 4,
The first output window and the second output window each display the initial charge amount of the first battery and the second battery until the user operates the setting button, and when the user operates the setting button, the remaining desire The battery sharing device, characterized in that the charge amount and the target charge amount is displayed.
5. The method of claim 4,
The desired amount of increase and decrease of the remaining desired charge amount of the first battery and the target amount of increase and decrease of the second battery are inversely proportional to each other,
The setting button may include a first setting button for increasing the remaining desired charge amount of the first battery, and a second setting button for increasing the target charge amount of the second battery.
The method of claim 1,
The input unit includes a slide rail and a slide block movable along the slide rail, the battery sharing apparatus, characterized in that configured to input a different amount of charging current according to the position of the slide block.
The method of claim 1,
The battery sharing device further comprises an operation display unit for displaying whether or not the charging progress.
The method of claim 1,
The input unit includes a battery sharing device, characterized in that it comprises at least two selection buttons, each of which is assigned a different amount of charge current.
10. The method of claim 9,
And a plurality of operation display units installed to surround the plurality of selection buttons, respectively, to indicate whether the charging is in progress. When the selection button is selected by the user, an operation display unit surrounding the selected selection button is operated. Battery Sharing Device.
The method of claim 1,
And a control button for turning on / off a charging current flow from the first battery to the second battery.
12. The method of claim 11,
The battery sharing apparatus is installed to surround the operation button, further comprising an operation display unit for displaying whether or not the charging progress.
13. The method according to any one of claims 1 to 12,
Further comprising a body in which the input unit and the control unit is installed,
And the first connector and the second connector are fixedly coupled to the left and right sides of the body, respectively.

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