A mechanical energy storage battery

An energy storage battery and mechanical technology, applied in the direction of controlling mechanical energy, electromechanical devices, mechanical equipment, etc., can solve the problems of chemical battery pollution, no practical value, consumption, etc.

Inactive Publication Date: 2011-11-30
游图明
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The present invention provides a mechanical energy storage battery, the main purpose of which is to overcome the pollution problem of chemical batteries, and also to overcome the fact that the existing mechanical energy storage power generation device can only consume the mechanical energy stored in the spring at one time, so it has no practical value Shortcomings

Method used

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  • A mechanical energy storage battery
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Examples

Experimental program
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Effect test

specific Embodiment 1

[0018] refer to figure 1 , a mechanical energy storage battery, the main structure includes a spring energy storage device 1 , a deformation drive device 3 , a permanent magnet generator 5 and a casing 10 . The spring energy storage device 1 includes a spring that can store mechanical energy through deformation. The deformation drives the release end 11. The deformation drives the release end 11 to drive the spring to deform through an external force, and the recovery of the spring deformation also drives the release end 11 through the deformation. let go. The deformation driving device 3 is connected with the deformation driving release end 11 of the spring energy storage device 1 through a first transmission device 2 . The rotor of the permanent magnet generator 5 is connected to the deformation drive release end 11 of the above-mentioned spring energy storage device 1 through a second transmission device 4, and its electric output end forms the positive and negative poles ...

specific Embodiment 2

[0024] The structure of this embodiment is basically the same as that of Embodiment 1, the main difference is that the deformation driving device 3 is a slider slidingly arranged on the housing 10, the first transmission device 2 is a rack and pinion rotating device, The slider is connected with the rack of the first transmission device 2 . That is to say, an external force acts on the slider to make it move in a straight line, which is converted into rotation of the spring in the spring energy storage device 1 through the rack and pinion transmission. On the contrary, during the spring reset process in the spring energy storage device 1 , the slider will be driven to move linearly in the opposite direction.

specific Embodiment 3

[0025] refer to figure 2 , a mechanical energy storage battery, the main structure includes a spring energy storage device 1 , a deformation drive device 3 , a permanent magnet generator 5 and a casing 10 . The spring energy storage device 1 includes a spring that can store mechanical energy through deformation, and the deformation drives the release end 11. The deformation drives the release end 11 to drive the spring to deform through an external force, and the recovery of the spring deformation is also released through the deformation drive release end 11. go out. The deformation driving device 3 is connected with the deformation driving release end 11 of the spring energy storage device 1 through a first transmission device 2 . The rotor of the permanent magnet generator 5 is connected to the deformation drive release end 11 of the above-mentioned spring energy storage device 1 through a second transmission device 4, and its electric output end forms the positive and neg...

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PUM

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Abstract

A mechanical energy storage battery, comprising: a spring energy storage device, including a spring capable of storing mechanical energy through deformation, the spring has a deformation drive release end, the deformation drive release end; a deformation drive device, and the deformation drive release The end is connected through a first transmission device; the permanent magnet generator, its rotor is connected with the deformation drive release end of the above-mentioned spring through a second transmission device, and its electric output terminal forms the positive and negative poles of the mechanical energy storage battery; the above-mentioned spring The deformation drive release end is provided with a brake device; the shell is assembled with the above-mentioned parts. The deformation drive release end of the spring in the spring energy storage device is equipped with a brake device, which can prevent the spring reset action at any time during the spring recovery deformation process, so as to achieve the purpose of dividing the mechanical energy stored in the spring deformation into multiple uses. , the braking device is equivalent to providing a switch for the battery, making it practical.

Description

technical field [0001] The invention relates to a power supply device, in particular to a mechanical energy storage battery. Background technique [0002] A battery is a device for energy conversion and storage. Generally speaking, a battery mainly converts chemical energy into electrical energy through chemical reactions. It is a chemical power source consisting of two electrochemically active electrodes with different components. The two electrodes are immersed in the electrolyte that can provide media conduction, and when connected to an external carrier, they provide electrical energy by converting their internal chemical energy. Chemical batteries mainly contain heavy metals such as cadmium, cadmium, lead, nickel, zinc, copper, etc. If waste batteries are discarded at will, it will cause extremely serious pollution and damage to the environmental conditions such as soil and water sources that human beings rely on for survival. [0003] To this end, people are actively ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F03G1/00F03G1/02H02K7/18
CPCH02J15/00F21L13/06F03G1/02H02J7/32H02J15/007
Inventor 游图明
Owner 游图明
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