CN109962517A - A portable flush battery - Google Patents

Abstract

Portable battery is flung the invention discloses a kind of, including input interface, charge control module, battery and mobile device, the output end of battery and the input terminal of power transmission coil are unidirectionally electrically connected, mobile device includes mobile device battery and power receiving coil, and power transmission coil and power receiving coil are that mobile device battery charges by magnetic resonance mode.The present invention is by power transmission coil and power receiving coil the two coils as resonator, transmitting terminal, which is vibrated with fixed frequency to surrounding, exhales electromagnetic field, and receiving terminal needs equally with frequency vibration, to receive this energy passed over, compared to electromagnetic induction, mode based on magnetic resonance, wireless charging realizes longer transmission distance, efficient power supply, it and is one-to-many power supply mode, solving existing battery mobile device during to charging of mobile devices must in succession data line, not only charging is inconvenient, and during the charging process using the problem of mobile device also inconvenience.

Description

A portable flush battery

technical field

The present invention relates to the technical field of batteries, in particular to a portable direct flush battery.

Background technique

With the advancement of technology, portable terminal electronic products have been greatly enriched. In order to use these portable electronic products for a long time, people need a continuous supply of electricity of huge capacity. A common practice in the field is to carry spare batteries to increase the battery life of the electronics. The backup battery is an embedded battery designed according to the original size specification. The existing battery is mainly composed of a battery and a protection circuit, and the electric energy in the battery is transmitted to the portable electronic product through the protection circuit. This kind of battery charging usually charges the battery through the interface of the portable electronic product, and also charges the battery through another charging device, such as a cradle charger, which usually has a built-in transformer or protection circuit. Such devices are often bulky and bulky, inconvenient to carry, inconvenient to charge the battery, and require a power outlet. In addition, batteries of different specifications need to be equipped with different cradle chargers. The problem that arises when replacing different terminals is that the entire set of charging devices needs to be replaced, which is wasteful and environmentally friendly, and the use cost is relatively high.

Some existing batteries can use a USB data cable to charge the battery, and can also charge the mobile device through the USB data cable, so that the user only needs to bring a data cable when carrying the mobile power supply. It is still necessary to carry a data cable for charging. Once you forget to bring the data cable, it will lead to inability to charge, and the mobile device must be connected to the data cable during the charging process, which is not only inconvenient to charge, but also inconvenient to use the mobile device during the charging process. Therefore, we propose a portable flush battery.

SUMMARY OF THE INVENTION

Based on the technical problems existing in the background art, the present invention proposes a portable direct flush battery, which has the characteristics of charging the mobile device through the battery without using a charging cable, and solves the problem that the mobile device must be connected to the existing battery during the charging process of the mobile device. With the data cable, it is not only inconvenient to charge, but also inconvenient to use the mobile device during the charging process.

The present invention provides the following technical solutions: a portable direct-flow battery, comprising an input interface, a charging control module, a storage battery and a mobile device, wherein the output end of the input interface is unidirectionally electrically connected to the input end of the charging control module, and the charging The output end of the control module is unidirectionally electrically connected to the input end of the battery, the output end of the battery is unidirectionally electrically connected to the input end of the protection module, and the output end of the protection module is unidirectionally connected to the input end of the first sub-switch. The output terminal of the battery is electrically connected to the input terminal of the first sub-switch in one direction, the output terminal of the storage battery is electrically connected to the input terminal of the power transmission coil in one direction, and the mobile device includes a mobile device. The device battery and the power receiving coil, the power transmitting coil and the power receiving coil charge the mobile device battery by magnetic resonance, the charging control module and the control unit are electrically connected in both directions, and the input end of the control unit is connected to the switch module. The output end is unidirectionally electrically connected, and the output end of the control unit is unidirectionally electrically connected to the input end of the prompting module.

Preferably, the output end of the battery is electrically connected to the input end of the output interface in one direction, and the mobile device further includes a mobile device input interface.

Preferably, the output end of the battery is unidirectionally electrically connected to the input end of the output interface, the output end of the output interface is unidirectionally electrically connected to the input end of the input interface of the mobile device, and the input interface of the mobile device is a mobile device. The device battery is charged.

Preferably, the input interface includes a first prompt light, a second prompt light, a third prompt light, a fourth prompt light and a switch prompt light, the first prompt light, the second prompt light, the third prompt light, the first prompt light The input ends of the four prompt lights and the switch prompt lights are all unidirectionally electrically connected to the output end of the control unit.

Preferably, the first prompt light, the second prompt light, the third prompt light and the fourth prompt light all indicate a quarter of the power, and the switch prompt light glows when the battery is charging the battery of the mobile device.

Preferably, the switch module includes a charging switch module and an indicator light switch module, and the output ends of the charging switch module and the indicator light switch module are all unidirectionally electrically connected to the input end of the control unit.

The invention provides a portable direct-flow battery. By arranging a power transmission coil and a power reception coil, the two coils of the power transmission coil and the power reception coil are used as resonators. The electromagnetic field is emitted, and the receiving end needs to vibrate at the same frequency (10MHz) to receive the transmitted energy. Compared with electromagnetic induction, based on magnetic resonance, wireless charging achieves long transmission distance, efficient power supply, and It is a one-to-many power supply mode, which solves the problem that the mobile device must be connected to the data cable during the charging process of the existing battery, which is not only inconvenient to charge, but also inconvenient to use the mobile device during the charging process.

Description of drawings

FIG. 1 is a schematic diagram of the wireless charging system of the present invention;

FIG. 2 is a schematic diagram of the wired charging system of the present invention;

3 is a schematic diagram of a prompt module system of the present invention;

FIG. 4 is a schematic diagram of the switch module system of the present invention.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, but not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

1-4, the present invention provides a technical solution: a portable direct flush battery, including an input interface, a charging control module, a storage battery and a mobile device, the output end of the input interface and the input end of the charging control module are unidirectionally connected The output terminal of the charging control module is unidirectionally connected to the input terminal of the battery, the output terminal of the battery is unidirectionally connected to the input terminal of the protection module, and the output terminal of the protection module is unidirectionally connected to the input terminal of the first sub-switch. The output terminal of the battery is electrically connected to the input terminal of the first sub-switch in one direction, and the output terminal of the storage battery is electrically connected to the input terminal of the power transmission coil in one direction. The mobile device includes the mobile device battery and the power receiving coil. , the power transmission coil and the power receiving coil charge the battery of the mobile device through magnetic resonance, the charging control module and the control unit are electrically connected in two directions, the input end of the control unit is electrically connected with the output end of the switch module in one direction, and the output end of the control unit is electrically connected in one direction. The terminal is electrically connected to the input terminal of the prompt module in one direction.

Example 1:

A portable direct-flow battery includes an input interface, a charging control module, a storage battery and a mobile device. The output terminal of the battery is electrically connected to the input terminal of the protection module in one direction, the output terminal of the protection module is electrically connected to the input terminal of the first sub-switch in one direction, and the output terminal of the storage battery is electrically connected to the input terminal of the first sub-switch. The input terminal is electrically connected in one direction, the output terminal of the battery is electrically connected to the input terminal of the power transmission coil in one direction, and the mobile device includes the mobile device battery and the power receiving coil. For battery charging, the charging control module is electrically connected to the control unit in both directions, the input end of the control unit is electrically connected to the output end of the switch module in one direction, and the output end of the control unit is electrically connected to the input end of the prompt module in one direction.

Embodiment 2:

A portable direct-flow battery includes an input interface, a charging control module, a storage battery and a mobile device. The output terminal of the battery is electrically connected to the input terminal of the protection module in one direction, the output terminal of the protection module is electrically connected to the input terminal of the first sub-switch in one direction, and the output terminal of the storage battery is electrically connected to the input terminal of the first sub-switch. The input terminal is electrically connected in one direction, the output terminal of the battery is electrically connected to the input terminal of the power transmission coil in one direction, and the mobile device includes the mobile device battery and the power receiving coil. For battery charging, the charging control module is electrically connected to the control unit in both directions, the input terminal of the control unit is electrically connected to the output terminal of the switch module in one direction, and the output terminal of the control unit is electrically connected to the input terminal of the prompt module in one direction. The output end is unidirectionally electrically connected to the input end of the output interface, the mobile device also includes an input interface of the mobile device, the output end of the battery is unidirectionally electrically connected to the input end of the output interface, and the output end of the output interface is connected to the input interface of the mobile device. The input end is electrically connected in one direction, and the mobile device input interface charges the battery of the mobile device.

Embodiment three:

A portable direct-flow battery includes an input interface, a charging control module, a storage battery and a mobile device. The output terminal of the battery is electrically connected to the input terminal of the protection module in one direction, the output terminal of the protection module is electrically connected to the input terminal of the first sub-switch in one direction, and the output terminal of the storage battery is electrically connected to the input terminal of the first sub-switch. The input terminal is electrically connected in one direction, the output terminal of the battery is electrically connected to the input terminal of the power transmission coil in one direction, and the mobile device includes the mobile device battery and the power receiving coil. For battery charging, the charging control module is electrically connected to the control unit in both directions, the input terminal of the control unit is electrically connected to the output terminal of the switch module in one direction, and the output terminal of the control unit is electrically connected to the input terminal of the prompt module in one direction. The output end is unidirectionally electrically connected to the input end of the output interface, the mobile device also includes an input interface of the mobile device, the output end of the battery is unidirectionally electrically connected to the input end of the output interface, and the output end of the output interface is connected to the input interface of the mobile device. The input end is electrically connected in one direction, and the mobile device input interface charges the mobile device battery. The input interface includes a first prompt light, a second prompt light, a third prompt light, a fourth prompt light and a switch prompt light. The first prompt light, The input ends of the second prompt light, the third prompt light, the fourth prompt light and the switch prompt light are all unidirectionally connected to the output end of the control unit. The first prompt light, the second prompt light, the third prompt light and the first prompt light The four prompt lights all indicate a quarter of the power. The switch prompt light glows when the battery is charging the battery of the mobile device. The switch module includes a charging switch module and an indicator light switch module. The output terminals of the charging switch module and the indicator light switch module are both connected to The input end of the control unit is electrically connected in one direction.

In the present invention, by setting the power transmission coil and the power reception coil, the two coils of the power transmission coil and the power reception coil are used as resonators. It also vibrates at this frequency (10MHz) to receive the transmitted energy. Compared with electromagnetic induction, based on magnetic resonance, wireless charging realizes long transmission distance, efficient power supply, and is a one-to-many power supply method. , which solves the problem that the mobile device must be connected to the data cable during the charging process of the existing battery, which is not only inconvenient to charge, but also inconvenient to use the mobile device during the charging process.

The above description is only a preferred embodiment of the present invention, but the protection scope of the present invention is not limited to this. The equivalent replacement or change of the inventive concept thereof shall be included within the protection scope of the present invention.

Claims (6)

1. A portable direct flush battery, comprising an input interface, a charging control module, a storage battery and a mobile device, an output end of the input interface is electrically connected to an input end of a charging control module in one direction, and an output end of the charging control module is electrically connected in one direction. is unidirectionally electrically connected to the input end of the battery, the output end of the battery is unidirectionally electrically connected to the input end of the protection module, and the output end of the protection module is unidirectionally electrically connected to the input end of the first sub-switch, The output end of the battery is unidirectionally electrically connected to the input end of the first sub-switch, and it is characterized in that: the output end of the battery is unidirectionally electrically connected to the input end of the power transmission coil, and the mobile device includes a mobile device A battery and a power receiving coil, the power transmitting coil and the power receiving coil charge the battery of the mobile device by magnetic resonance, the charging control module and the control unit are electrically connected in both directions, and the input end of the control unit is connected to the output of the switch module The terminal is unidirectionally electrically connected, and the output terminal of the control unit is unidirectionally electrically connected to the input terminal of the prompting module. 2 . The portable flush battery according to claim 1 , wherein the output end of the storage battery is electrically connected to the input end of the output interface in one direction, and the mobile device further comprises a mobile device input interface. 3 . 3 . The portable direct flush battery according to claim 2 , wherein the output end of the storage battery is unidirectionally electrically connected to the input end of the output interface, and the output end of the output interface is connected to the input interface of the mobile device. 4 . The input terminal of the mobile device is unidirectionally electrically connected, and the mobile device input interface charges the mobile device battery. 4 . The portable direct flush battery according to claim 1 , wherein the input interface comprises a first prompt light, a second prompt light, a third prompt light, a fourth prompt light and a switch prompt light, and the The input ends of the first prompt light, the second prompt light, the third prompt light, the fourth prompt light and the switch prompt light are all unidirectionally electrically connected to the output end of the control unit. 5 . The portable flush-through battery according to claim 4 , wherein the first prompt light, the second prompt light, the third prompt light and the fourth prompt light all indicate a quarter of the power, 5 . The switch prompt light illuminates when the battery is charging the battery of the mobile device. 6 . The portable direct flush battery according to claim 1 , wherein the switch module comprises a charging switch module and an indicator light switch module, and the output ends of the charging switch module and the indicator light switch module are connected to the control The input end of the unit is electrically connected in one direction.