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A three-dimensional garage system based on bluetooth equipment and li-fi wireless transmission

A three-dimensional garage and wireless transmission technology, which is applied in short-range systems, free-space transmission, electric vehicles, etc., can solve the problems such as the inability of the anti-collision system to absorb energy, the communication of the three-dimensional garage being easily interfered, and the failure of the three-dimensional garage communication.

Active Publication Date: 2020-08-21
乐清市华尊电气有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] In view of the above prior art, the purpose of the present invention is to provide a three-dimensional garage system based on Bluetooth equipment and LI-Fi wireless transmission, to solve the problem of recharging failure of the rechargeable battery of the three-dimensional garage communication equipment in the state where the rechargeable battery is completely exhausted in the prior art , The three-dimensional garage communication is susceptible to interference, the anti-collision system cannot absorb energy to keep running, and the three-dimensional garage has communication failure problems

Method used

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  • A three-dimensional garage system based on bluetooth equipment and li-fi wireless transmission
  • A three-dimensional garage system based on bluetooth equipment and li-fi wireless transmission
  • A three-dimensional garage system based on bluetooth equipment and li-fi wireless transmission

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] A three-dimensional garage system based on Bluetooth equipment and LI-Fi wireless transmission, including:

[0025] The transfer mobile anti-collision unit is installed on the mobile equipment in the three-dimensional garage, and at least one self-charging Li-Fi communication module is installed;

[0026] The fixed anti-collision detection unit is installed at the detection point of the three-dimensional garage, and at least one self-charging Li-Fi communication module is installed;

[0027] Wherein, the transit mobile anti-collision unit or the fixed anti-collision detection unit transmits the anti-collision signal through the self-charging Li-Fi communication module, and the transit mobile anti-collision unit receives the self-charging Li-Fi communication module The output anti-collision signal and the transfer mobile anti-collision unit is selectively displaced corresponding to the anti-collision signal; the transfer mobile anti-collision unit and the fixed anti-coll...

Embodiment 2

[0051] Such as image 3 , the photovoltaic unit PVP and the rechargeable battery V1; the oscillation bootstrap drive circuit BOC receives the current output by the photovoltaic unit PVP and oscillates the output drive current to the rechargeable battery V1; the power tracking control circuit receives the current output by the photovoltaic unit PVP and selectively Output enhanced driving current to rechargeable battery V1.

[0052] In the above solution, the photovoltaic unit PVP includes a foldable photovoltaic panel.

[0053] In the above solution, the rechargeable battery V1 includes a mobile smart terminal battery with a real power of 0%-100%.

[0054] In the above solution, the oscillating bootstrap drive circuit BOC includes: a transformer, a transistor and a flyback rectifier diode. The transistor forms an oscillating feedback loop by connecting the primary winding and the secondary winding of the transformer, and the oscillating feedback loop is periodically turned on ...

Embodiment 3

[0098] A charging circuit for battery repair of intelligent terminal equipment, comprising:

[0099] Rechargeable battery V1 to be repaired and photovoltaic unit PVP with output characteristics less than 100 mW;

[0100] The oscillating bootstrap driving circuit BOC receives the weak current output by the photovoltaic unit PVP and oscillates and outputs the driving current to the rechargeable battery V1 to be repaired.

[0101] The above programs include:

[0102] The third capacitor, one end is connected to the output end of the photovoltaic unit PVP and the other end is grounded;

[0103] a third inductance and a fourth inductance;

[0104] A second transformer, one end of its primary winding is connected to the output end of the photovoltaic unit PVP through the third inductance and one end of the secondary winding is connected to the output end of the photovoltaic unit PVP through the fourth inductance;

[0105] a second transistor, the collector of which is connected t...

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Abstract

The invention discloses a three-dimensional garage system based on Bluetooth equipment and LI-Fi wireless transmission. The invention relates to the technical field of three-dimensional garage circuits and solves the problem of recharging failure of the rechargeable battery of the three-dimensional garage communication equipment in the state where the rechargeable battery is completely exhausted in the prior art. Problems, three-dimensional garage communication is susceptible to interference, the anti-collision system cannot absorb energy to keep running and the three-dimensional garage has communication failure problems. It mainly includes a transfer mobile anti-collision unit, at least one self-charging Li-Fi communication module is installed; a fixed anti-collision detection unit is installed with at least one self-charging Li-Fi communication module; the transfer mobile anti-collision unit and the fixed The anti-collision detection unit is also provided with a Bluetooth compensation unit.

Description

technical field [0001] The invention relates to the technical field of stereo garage circuits, in particular to a stereo garage system based on Bluetooth equipment and LI-Fi wireless transmission. Background technique [0002] Photovoltaic panels are mainly composed of semiconductor diodes, which can convert sunlight into electrical energy. There are many factors affecting the power conversion efficiency, such as light density, temperature and incident direction. Photovoltaic systems using photovoltaic panels usually use inverters to convert the direct current output directly from photovoltaic panels into alternating current and then connect it to the grid for use. Photovoltaic panels in current photovoltaic systems are based on silicon, and the power conversion efficiency can reach about 18%. Existing mobile device charging requires a combination of a charging adapter and a mobile device that is not completely dead. According to different mobile devices, the charging volta...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02J7/35E04H6/42H04B10/116H04W4/80
CPCH04B10/116H04W4/80E04H6/42H02J7/35
Inventor 肖剑
Owner 乐清市华尊电气有限公司