KR200253485Y1 - Variety Multiple Use Battery Charging Set - Google Patents

Abstract

The present invention discloses a multi-purpose battery charging set in which a charging mode is switched according to a battery cell type of a battery pack.

An object of the present invention is to detect the type of battery cell and to apply a suitable charging voltage according to the result, the battery pack is inserted into the charger is formed at least one body, the charging terminal inside the cup In the known, the LED is installed on one side of the body to indicate the charging state, the multi-purpose battery charging set consisting of one or more switches installed on the inner peripheral surface of the cup, and the sensing groove formed on the lower side of the battery pack Suggest.

The present invention as described above is to insert the battery pack into the cup only by recognizing the type of the battery cell is selected in the charging mode is optimally charged is very convenient to use, charging characteristics according to the type of battery cell There is no need to purchase another charger can reduce the economic burden of the consumer, there is a useful effect such as to enable a stable charging without damaging the battery pack or charger.

Description

Multi-use Battery Charging Set {Variety Multiple Use Battery Charging Set}

The present invention relates to a charger for a communication device, and more particularly, to a multi-purpose battery charging set in which the charging mode is converted according to the battery cell type of the battery pack.

In general, a charger for a communication device is used to charge a battery pack that is detached and attached to a communication device, and the battery pack and the charger are illustrated in FIG. 1.

As shown in FIG. 1, the charger 102 for a communication device displays a cup 105 into which the battery pack 100 is inserted, a charging terminal 106 formed inside the cup 105, and a state of charge. LED 104 is installed, and the battery pack 100 has a terminal 101 formed at the bottom of the rear side. When the battery pack 100 is inserted into the cup 105, the terminal 101 and the charging terminal 106 are installed. ) Is connected, and charging power is charged to the battery pack 100 through the charging terminal 106 and the terminal 101.

The battery pack 100 includes a nickel hydride battery, a nickel cadmium battery, a lithium ion battery, a lithium polymer battery, and the like, depending on the type of battery cell, and their charging characteristics are different from each other. 102) must be purchased.

Therefore, the consumer must purchase a charger 102 suitable for a battery cell applied to the communication device when purchasing a new communication device as well as other models, there is a problem of increasing the waste of resources and economic burden.

In addition, as shown in FIG. 2, a plurality of cups 107, 108, 109 and 110 may be formed in the body 103, and different types of battery packs may be inserted into the cups 107, 108, 109 and 110 to be charged. However, it is cumbersome to use and the volume of the charger 111 is not only large, when the battery is inserted into another cup by mistake, there is a high risk of damage to the battery pack 100 and the charger 111.

An object of the present invention is to provide a multi-purpose battery charging set for detecting the type of battery cells and applying a suitable charging voltage according to the result in order to solve the conventional problems as described above.

1 is a perspective view showing a conventional battery pack and a charger.

2 is a plan view of a charger according to another conventional embodiment.

3 is a perspective view of a battery pack according to the present invention.

4 is a plan view of the charger according to the present invention.

5 is a cross-sectional view of the charger according to the present invention.

6 is a state of use of the charger according to the present invention.

Figure 7 a, b, c, d is a cross-sectional view illustrating an embodiment of a battery pack and a charger according to the present invention.

Figure 8 is a schematic diagram showing the electrical configuration applied to the present invention

* Description of the symbols for the main parts of the drawings *

10: charger 11: body 12: LED

13 cup 14 charging terminal 15 switch

16: battery pack 17: terminal 18: detection groove

One or more cups into which a battery pack is inserted are formed in a body, and a charging terminal is formed inside the cup, and an LED installed on one side of the body to indicate a charging state is provided. We propose a multi-purpose battery charging set consisting of a switch installed on the surface and a sensing groove formed on the lower side of the battery pack.

As a result, the present invention can charge several types of battery packs with a single charger, thereby reducing the economic burden of the consumer and enabling stable charging without damaging the battery pack and the charger.

When described in detail based on the accompanying drawings the configuration and operation of the present invention as follows.

According to the present invention, at least one cup 13 into which the battery pack 16 is inserted is formed in the body 11, and the charging terminal 14 connected to the terminal of the battery pack 16 on the inner circumferential surface of the cup 13. In the known charger, which is formed by installing the LED 12 indicating the state of charge on one side of the body 11,

The switch 15 installed at the front and rear of the inner side of the cup 13, the sensing groove 18 formed at the lower side of the battery pack 16, and the switch 15 are connected to each other of the battery pack 16. The microprocessor 19 and the driving circuit 20 for applying the charging voltage to the charging terminal 14 in the mode according to the type.

The detection groove 18 according to the present invention is different in position depending on the type of the battery cell, for example, as shown in a, b, c, d of FIG. The nickel cadmium battery pack is formed at the right rear side, the lithium ion battery pack is formed at the left front side, and the lithium polymer battery pack is formed at the left rear side. In addition, in the present invention, four switches 15 are installed on the inner circumferential surface of the cup 13 at a position corresponding to the position of the sensing groove 18, and the lever 15 'protrudes on the circumferential surface. It is.

When the battery pack 16 is inserted into the cup 13 in this state, the switch 15 on the inner circumferential surface of the cup 13 at the specific position inserted into the sensing groove 18 at the specific position is provided with the lever 15 '. Since it is not pressed, it is in an off state, and the remaining switch 15 is in an on state because the lever 15 'is pressed against the side of the battery pack 16. According to the type of the battery pack 16, the operation state of each switch 15 turned on and off is detected by the microprocessor 19 as shown in FIG. 8 to determine the type of the battery pack 16. According to the result, since the power is supplied to the battery pack 16 through the charging terminal 14 in a suitable form, the optimum charging according to the type of the battery pack 16 can be performed.

That is, in the embodiment shown in FIG. 7, when the nickel-hydrogen battery pack is inserted into the cup 13, only the lever 15 ′ of the switch 15 formed at the right front side thereof is detected. It is located in the groove 18 and is in an off state, and the lever 15 'of the remaining switch 15 is in a state of being in contact with the side of the battery 16 and is in an on state.

Therefore, the state is detected by the microprocessor 19 to determine that the nickel-metal hydride battery pack, and the driving circuit 20 is controlled so that the optimum charging voltage can be supplied to the battery pack through the charging terminal 14. .

In addition, in the case of the nickel cadmium battery pack, when the battery pack 16 is inserted into the cup 13, only the lever 15 'of the switch 15 formed at the right rear side thereof is positioned in the sensing groove 18 so that the off state is reduced. Since the lever 15 'of the remaining switches 15 is pressed against the side of the battery 16, all of them are turned on.

Therefore, the state is detected by the microprocessor 19 to determine that the nickel cadmium battery pack, and the driving circuit 20 is controlled so that the optimum charging voltage can be supplied to the battery pack through the charging terminal 14. .

In addition, in the case of the lithium ion battery pack, when the battery pack 16 is inserted into the cup 13, only the lever 15 'of the switch 15 formed at the front left thereof is located in the sensing groove 18 to be turned off. Since the lever 15 'of the remaining switches 15 is pressed against the side of the battery 16, all of them are turned on.

Therefore, such a state is detected by the microprocessor 19 to determine that the lithium ion battery pack, and to control the driving circuit 20 so that the optimum charging voltage can be supplied to the battery pack through the charging terminal 14. .

In the case of the lithium polymer battery pack, when the battery pack 16 is inserted into the cup 13, only the lever 15 'of the switch 15 formed at the right front thereof is located in the sensing groove 18 to be turned off. Since the lever 15 'of the remaining switches 15 is pressed against the side of the battery 16, all of them are turned on.

Therefore, the state is sensed by the microprocessor 19 to determine that the lithium polymer battery pack, and controls the driving circuit 20 so that the optimum charging voltage can be supplied to the battery pack through the charging terminal (14). .

In addition, the present invention has been described an example that can be charged four types of battery pack, by changing the position or number of the sensing groove 18, by arranging the number of switches 15 corresponding to the corresponding position Of course, it is possible to provide a more various types of battery pack charger, of course, at this time it is necessary to change the program embedded in the microprocessor (19).

As described above, the present invention allows a battery pack made of battery cells having different charging voltages to be charged by one charger, and there is no need to manufacture or purchase a charger having a different charging voltage according to the type of battery cell. To reduce waste and economic burden, and inserting the battery pack into the cup, the charging voltage of the corresponding battery cell is applied and charged, so that stable charging is performed without damaging the battery pack or the charger. Since it is turned on or off, there is a useful effect such as convenience in use.

Claims (2)

In the known one in which at least one cup 13 into which the battery pack 16 is inserted is formed in the body 11 and the charging terminal 14 is formed inside the cup 13, The switch 15 installed at the front and rear of the inner side of the cup 13, the sensing groove 18 formed at the lower side of the battery pack 16, and the switch 15 are connected to each other of the battery pack 16. Multi-purpose battery charging set, characterized in that consisting of a microprocessor 19 and a driving circuit 20 for applying a charging voltage to the charging terminal 14 in the mode according to the type. The method of claim 1, At least one sensing groove 18 is installed around the side of the battery pack 16 according to the type of battery cell, such that the position of the sensing groove 18 is at a position corresponding to the position of any one or more switches 15. Multi-purpose battery charging set characterized in that.