KR101019220B1 - dischargeable throwaway battery - Google Patents

Abstract

The present invention relates to a battery having a discharging function, and includes a case (100) containing a battery (210) and a control circuit (220) for controlling the battery (210); A display unit 300 attached to one side of the case 100 and emitting a plurality of colors of light according to a control signal; It is installed on one side of the control circuit 220 and detects the output voltage of the battery 210 and compares with the set voltage to generate and output a control signal for controlling the color of light emitted from the display unit 300 according to the result A remaining amount checking unit 400; A first switch 500 installed at one side of the case 100 to connect the circuit 220 of the remaining amount checking unit 400 with the battery 210 to operate the remaining amount checking unit 400; A discharge unit 600 connected to the battery 210 and having a resistance to discharge power by consuming power of the battery 210; A second switch 700 connected to the discharge unit 600 and the battery 210 to discharge the power of the battery 210; and is configured to easily check the remaining amount of the battery 210 and the battery 210 If the remaining amount of) is small, it must be discharged completely before disposal to prevent environmental pollution or fire.

Battery discharge remaining circuit resistance

Description

Battery with discharge function {dischargeable throwaway battery}

The present invention relates to a battery having a discharge function, and more specifically, to compare the output voltage and the set voltage of the battery to check the remaining amount and display it in the color of the light emitting diode. The remaining amount of the battery includes a discharge part including a resistor. The present invention relates to a battery having a discharge function for completely discharging the battery.

Lifeboats or lifeboats use disposable batteries to operate emergency equipment (radios, locators, etc.). The disposable battery should have more than the remaining amount to operate the equipment for a certain period of time, and the battery that falls below that level should be discarded and a new battery used. Normally 8 hours of operation should be followed and discarded below.

Conventional batteries used a method of checking a voltage by connecting a tester to a terminal of the battery to check the remaining amount and comparing it with a set voltage. Therefore, there is a problem in that it is difficult to check in an emergency because the tester must be used to check the remaining amount.

In addition, if the remaining amount is insufficient after checking as described above, there are many cases that cause problems because the remaining amount is left in the battery.

In particular, recent batteries use lithium ions, which not only contaminate the environment when the remaining amount is left, but heat is generated when the terminals of the battery are connected by conductors such as metal chips while the remaining amount is left, causing the battery to explode or catch fire. There is a possibility that the disposal may occur, so there is a problem that care must be taken when disposing.

SUMMARY OF THE INVENTION The present invention has been invented to solve the above problems, and a main object of the present invention is to provide a battery having a discharge function that can easily check the remaining amount of the battery and allow the battery having a low amount to be discharged completely.

The present invention includes a case (100) in which a battery 210 and a control circuit 220 for controlling the battery 210 is stored to achieve the above object; A display unit 300 attached to one side of the case 100 and emitting a plurality of colors of light according to a control signal; Is connected to the control circuit 2220 detects the output voltage of the battery 210 and checks the remaining amount to generate and output a control signal for controlling the color of light emitted from the display unit 300 according to the result according to the result Section 400; A first switch 500 installed at one side of the case 100 to connect the circuit 220 of the remaining amount checking unit 400 with the battery 210 to operate the remaining amount checking unit 400; A discharge unit 600 connected to the control circuit 220 and having a resistance to discharge power by consuming power of the battery 210; A second switch 700 connected to the discharge unit 600 and the battery 210 to discharge the power of the battery 210; and the battery displayed through the remaining amount checking unit 400 ( Checking the remaining amount of the 210 and if the remaining amount is insufficient the battery with a discharge function, characterized in that to discharge the remaining amount of the battery 210 by operating the discharge unit (600).

According to the battery having the discharge function of the present invention, when the first switch on one side of the case is operated, the remaining amount of the battery can be checked according to the color of the light emitted from the display unit, so that a battery having a sufficient remaining amount can be always maintained. .

In addition, when the remaining battery is insufficient, the second switch is operated to completely discharge the battery after the discharge is completed, thereby preventing environmental pollution or fire.

In the embodiment of the present invention will be described with respect to the emergency battery for lifeboats each stored by a sailor or a soldier in a ship or warship. The emergency battery is stored by the individual when the boarding the lifeboat in an emergency such as the sinking of the ship is mounted on the radio mounted on the lifeboat or position transmitter to emit a rescue signal. The emergency battery should be left unused to allow operation for more than 8 hours. If the remaining battery is low, discard it and store a new battery.

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

According to the drawings, the present invention includes a case 100, a display unit 300, a remaining amount checking unit 400, a first switch 500, a discharge unit 600, and a second switch 700.

First, the case 100 will be described. The case 100 houses a battery 210 and a control circuit 220 for controlling the battery 210. The case 100 is provided with a terminal (not shown) for supplying current by connecting to another device (for example, a radio, a position transmitter, etc.) on one side.

Next, the display unit 300 will be described. The display unit 300 emits light in one or more colors according to a control signal to display the state of the battery 210. In the exemplary embodiment of the present invention, the display unit 300 includes a green light emitting diode 310 and a red light emitting diode 320 to emit green and red light according to a control signal.

Since the display unit 300 of the present invention should be visible from the outside, a through hole 102 is formed at one side of the case 100, and the light of the light emitting diode is displayed to the outside through the through hole 102. .

Next, the remaining amount checking unit 400 will be described. The remaining amount checking unit 400 checks the remaining amount of the battery 210 and, if the remaining amount is more than a predetermined capacity, transmits a control signal to the display unit 300 to indicate that the remaining amount is sufficient and the remaining amount is determined. If it remains below the capacity, the control signal is transmitted to indicate the remaining amount.

To this end, the remaining amount checking unit 400 of the present invention checks the voltage of the battery 210 and compares the voltage of the battery 210 with the set voltage to indicate that the remaining amount is sufficient, and when the voltage is low, the remaining amount Make a mark of lack.

In the embodiment of the present invention, the remaining amount check unit 400 emits green light by turning on the green light emitting diode 310 when the remaining amount is sufficient (for example, the emergency radio is operated for 8 hours). When the remaining amount is insufficient, the red light emitting diode 320 emits light.

Since the remaining amount checking unit 400 operates the light emitting diode when it is continuously operated, the power is consumed so that the power is consumed only for a predetermined time (for example, 1 second) and then the circuit is cut off so that unnecessary power consumption can be minimized. It is also worth considering.

Next, the first switch 500 will be described. The first switch 500 is a switch operated by a user to check the remaining amount of the battery 210. When the first switch 500 is operated, the remaining amount checking unit 400 is connected to the remaining amount of the battery 210. Will be confirmed.

In an embodiment of the present invention, the first switch 500 forms a through hole 102 on one side of the case 100 so that a user can easily operate the portion of the first switch 500 through the through hole. It is configured to protrude to the outside of the trough.

In this case, the first switch 500 may return after connecting the circuit of the remaining amount checking unit 400 to block the circuit so that unnecessary power consumption is not exhausted when the remaining amount is confirmed.

Next, the discharge unit 600 will be described. The discharge part 600 is connected to one side of the battery 210 control circuit 220 in the case 100. During the normal storage of the battery 210, the discharge unit 600 and the battery 210 are disconnected and are not operated, and are connected only when the battery 210 is to be discarded. When the discharge unit 600 has a resistor and is connected to the battery 210, the discharge unit 600 consumes power by the resistor to completely discharge the battery 210.

Next, the second switch 700 will be described. The second switch 700 is a switch for connecting the discharge unit 600 and the battery 210. Unlike the first switch 500, the second switch 700 is used only once before being disposed of and should not be operated normally. Therefore, the second switch 700 needs to be configured to be located inside the case 100 so that it is difficult to easily operate.

To this end, in the embodiment of the present invention, the second switch 700 is deeply formed inside the case 100, and thus it is difficult to operate by hand without a tool. In order to operate the second switch 700, a thin rod or the like is used to operate the second switch 700. It is configured to insert in 102.

Hereinafter, with reference to the accompanying drawings will be described in detail the operation and effect of the battery having a discharge function according to an embodiment of the present invention.

First, the battery 210 and the control circuit 220 are fixed to the inside of the case 100 and the lid is coupled. In this case, one side of the case 100 forms a through hole 102 for the first switch 500 and the second switch 700 and two light emitting diodes emitting green and red colors.

In the exemplary embodiment of the present invention, since water may invade through the through hole 102, a problem may occur in the battery 210, and the case may be formed by combining the transparent tape 800 on the surface where the through hole 102 is located. 100) It prevents water from getting inside.

The battery 210 configured as described above is usually stored in a place with little moisture to suppress discharge.

A sailor or soldier who manages the battery 210 checks the color of the light emitted from the display unit 300 by pressing the first switch 500 provided at one side of the battery 210 at predetermined intervals. That is, when the voltage of the current output from the battery 210 is higher than the set voltage, power is supplied to the green light emitting diode 310, and when the voltage is low, the red light emitting diode 320 emits light.

If green light is displayed, it will be kept and red light will be discarded.

Said sailor or soldier removes the tapes 800 and 800 attached to the surface of the case 100 before disposal or inserts a screwdriver, etc., and then flips the second switch 700 to one side. When the second switch 700 is flipped and the circuit 220 of the discharge unit 600 is connected, power is supplied to the resistor and the light emitting diode of the discharge unit 600 so that the resistor and the light emitting diode consume power to discharge. . Since the light emitting diode does not emit light when it is completely discharged, it can be discarded when the light emitting diode is turned off to prevent environmental pollution or fire, which may occur when the remaining amount remains inside the battery 210.

1 is a simplified configuration diagram of a battery having a discharge function according to an embodiment of the present invention.

2 is a perspective view of a battery with a discharge function according to an embodiment of the present invention.

<Description of Symbols Used in Main Parts of Drawing>

100: case 210: battery

220: control circuit 300: display unit

400: remaining amount check unit 500: the first switch

600: discharge part 700: second switch

800 tape

Claims (1)

In the disposable battery used in an emergency, A case 100 in which a battery 210 and a circuit 220 for controlling the battery 210 are accommodated; A display unit 300 attached to one side of the case 100 and configured to emit light of a plurality of colors according to a control signal; The amount of residual power generated on one side of the circuit 220 to generate and output a control signal for detecting the output voltage of the battery 210 and comparing the set voltage and controlling the color of light emitted from the display unit 300 according to the result. Confirmation unit 400; A first switch 500 installed at one side of the case 100 to connect the circuit 220 of the remaining amount checking unit 400 with the battery 210 to operate the remaining amount checking unit 400; A discharge unit 600 connected to the circuit 220 and having a resistance to discharge power by consuming power of the battery 210; The power of the battery 210 is discharged by connecting the discharge unit 600 and the battery 210 so that a current flows to the display unit 300 during operation of the discharge unit 600 to emit light during discharge. And a second switch 700 capable of confirming whether discharge is completed, wherein the display unit 300, the first switch 500, and the second switch 700 are provided at one side of the case 100, respectively. It is installed inside the groove formed in the groove is a transparent tape 800 is bonded, Checking the remaining amount of the battery 210 displayed through the remaining amount check unit 400 and if the remaining amount is insufficient to operate the discharge unit 600 to discharge the remaining amount of the battery 210, characterized in that Disposable battery.

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