KR20170061490A - Smart Phone Parallel Double battery - Google Patents

Abstract

In the present invention, firstly, since the existing smart phone uses a battery connected in series, the capacity of the battery is small. However, if the batteries are connected in parallel, the PCM (Protection Circuit Modules) of the battery may fail and the battery may explode if the batteries are connected in parallel. To prevent this, install a thermal fuse on the overcurrent detection sensor and smartphone back cover on the smartphone current supply part. When the battery's overcurrent flows, the over-current sensor senses it and sends a signal to the thermal fuse and the smartphone speaker. The speaker that receives it emits a beep and the thermal fuse disconnects the battery from the smartphone so that no overcurrent flows.

Description

Smart Phone Parallel Double Battery {Smart Phone Parallel Double battery}

1. Double battery is about battery efficiency. It does not generate heat more than conventional battery, so it is a technology that can last longer battery, and the lifetime of mobile phone board will be longer than before.

2. When replacing the battery, only one of the two batteries can be replaced. (The battery can be replaced by removing only one battery while the power is on.)

3. The overcurrent sensor sends a signal to the speaker and the thermal fuse when the overcurrent due to the battery and charging is flowing.

The mobile phone mounting device and the method of using the mobile phone using the same and the multi-directional battery connector are not equipped with the PCM inside the battery, so there is a high risk of overcharging if the battery is charged.

In order to use the micro USB charging cable abnormality prevention device, it was inconvenient to carry the cable with the above device separately.

The conventional technology has a problem in that when the battery is used in a small amount of battery, the power of the smartphone must be turned off and replaced after the battery is replaced with a spare battery.

In the related art, when the invention is connected in parallel, the efficiency of the battery is improved, but the PCM (Protection Circuit Modules) of the battery is broken and the battery may be detonated.

KR 10-1050332 Title of document: Mobile phone mounting device and method of using mobile phone using it (Publication date: July 12, 2011) Background technology of invention (design): page 3 Claim 8-2 ~ 5 line KR 10-2012-0092117 Title of document: Multi-orientation battery connector (Publication date: Aug. 20, 2012) Background to the invention: KR 20-2013-0007481 Title of document: Overheat prevention device of Micro USB charging cable (Publication date: Mar. 9, 2013) Background technology of invention: page 1 Summary 1 ~ 4 lines

The conventional technology has a problem in that when the battery is used in a small amount of battery, the power of the smartphone must be turned off and replaced after the battery is replaced with a spare battery.

In the related art, when the invention is connected in parallel, the efficiency of the battery is improved, but the PCM (Protection Circuit Modules) of the battery is broken and the battery may be detonated.

And there was an inconvenience to carry the charge prevention cable.

In order to solve the above problems, the present invention increases the capacity of a battery by connecting two batteries in parallel, and allows the batteries to be replaced one by one when the power is turned on.

Connecting the batteries in parallel increases the efficiency of the battery, but there is a risk that the battery's protection circuit modules (PCM) will fail and the battery will explode due to overheating. The over-current sensor attached to the smartphone senses the over-current through the resistor, first informs the alarm through the speaker installed on the back cover, and then sends a signal to the temperature fuse to short-circuit the charging of the smartphone and the battery.

1. If there are only two connectors connected in parallel, if the heat generation is reduced, the battery and the internal board of the smartphone will have a long life.

2. By connecting two batteries in parallel, it is possible to replace only one battery without turning off the power.

3. If the battery of the smartphone is overcharged, the PCM inside will be damaged. In case of failure, the temperature of the battery will rise. The overcurrent sensor senses it and sends a signal to the connected smartphone speaker and thermal fuse. And the battery is short-circuited so that the overcurrent flows to the smartphone so that the PCM does not fail.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a diagram illustrating a battery parallel structure and principle.
FIG. 2 is a diagram of a PCM (Protection Circuit Modules) of a battery.
3 is a thermal fuse-related diagram of the battery.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, the terms used in the specification and claims should not be construed in a dictionary sense, and the inventor may, on the principle that the concept of a term can be properly defined in order to explain its invention in the best way And should be construed in light of the meanings and concepts consistent with the technical idea of the present invention. Therefore, the embodiments shown in the present specification and the drawings are only exemplary embodiments of the present invention, and not all of the technical ideas of the present invention are expressed. Therefore, various equivalents It should be understood that water and variations may exist.

As shown in FIG. 1, when a battery is used for a long period of time, the amount of heat generated by the battery increases and the battery consumption becomes faster. The life span also becomes shorter. However, our double battery uses two batteries connected in parallel, so that the heat is divided into two batteries, which means less battery consumption and longer battery life.

And the PCM (Protection Circuit Modules) of the battery of FIG. 2 will be described. If there is only one existing smartphone battery, there is no problem. However, if two batteries are connected in parallel, In some cases, overcurrent flows when the battery is charged. If the overcurrent flows, the PCM (Protection Circuit Modules) inside the battery will fail. If the battery fails, if the battery becomes too hot, the battery will eventually explode. . In order to prevent this, we installed a temperature sensor on the battery, so that when the battery overcharges when the battery is overcharged, the battery senses heat through the temperature sensor. When the temperature sensor detects the overcharging, the battery is shut off by the thermal fuse and overcurrent flows This prevents PCM (Protection Circuit Modules) from failing. Referring to the thermal fuse diagram of FIG. 3, if the battery is charged while the double batteries are connected in parallel, there is a risk of overcharging. At this time, when the temperature sensor is over 60 ~ 70 degrees, it sends a signal to the speaker to generate a warning sound and then sends a signal to the thermal fuse. The signaled thermal fuse cuts off the power to the battery being charged. Thereby preventing the risk of battery explosion.

① - Smartphone machine
② - Internal power supply
③ - Battery (Parallel connection)
④ - None
⑤ - Over current sensor (temperature sensor)
⑥ - The part that connects the overcurrent prevention sensor of smart case and smart case back case
⑦ - Thermal fuse

Claims (7)

Sensing the overcurrent (temperature) of the battery in a PCM failure and explosion prevention method of two batteries connected in parallel; And
And performing a forced short function to cause an overcurrent to flow to the battery when the sensed overcurrent is generated, thereby preventing an overcurrent of the battery. The method according to claim 1, wherein the forced short is measured when the temperature of each battery is measured, and when the measured temperature is equal to or more than a predetermined temperature limit value, the forced short is executed. The method of claim 1, wherein the forced short circuit is performed through a current cut-off. 2. The battery pack of claim 1, wherein the forced short is made through a resistor connected to an overcurrent (temperature) sensor fixed to the upper end of the battery, and the connected portion has a small length and thickness. How to prevent explosion. An apparatus for preventing explosion of two batteries connected in parallel, comprising: a sensor for sensing an overcurrent (temperature) of the two batteries; an alarm notification unit for responding to the battery,
And a thermal fuse for shutting off the overcurrent to the battery. 6. The method of claim 5, wherein the thermal fuse is self-ignited when the overcurrent (temperature) sensor for the battery exceeds a predetermined temperature, thereby disconnecting the battery and the smartphone from each other And battery explosion prevention device. 6. The apparatus of claim 5, wherein the alarm notification through the speaker detects an over-current (temperature) sensor and warns the user through a smartphone speaker by giving a signal.

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