Thermoelectricity power generation apparatus for wearable equipment and clothes for charging electric storage power supply

Abstract

The invention discloses a thermoelectricity power generation apparatus for wearable equipment and clothes for charging an electric storage power supply. The thermoelectricity power generation apparatus is used for collecting human body thermal energy and converting the thermal energy into electric energy to support wearable intelligent equipment to operate; the thermoelectricity power generation apparatus comprises a P type semiconductor, an N type semiconductor, a conductive sheet and a wire, wherein the conductive sheet comprises a first conductive sheet and a second conductive sheet; one ends of the P type semiconductor and the N type semiconductor are connected through the first conductive sheet while the other ends of the P type semiconductor and the N type semiconductor are connected with the second conductive sheet separately; the second conductive sheet is connected to the two poles of the electric storage power supply through the wire; the electric storage power supply is used for supplying power to the wearable equipment; and the thermoelectricity power generation apparatus is arranged in clothes. The thermoelectricity power generation apparatus provided by the invention can be implanted in clothes, caps and other daily dresses to collect a large area of human body thermal energy so as to enable the collected electric energy to sufficiently support power consumption of electronic products in daily use.

Description

technical field [0001] The invention relates to the field of smart devices, in particular to a thermoelectric power generation device of a wearable device and clothes for charging a storage power source. Background technique [0002] A thermoelectric material is a material that can realize the alternating conversion of electrical energy and thermal energy. Its advantages are as follows: small size, light weight, strong, and no noise during work; heat source can be recovered and converted into electric energy (energy saving), long service life, easy to control. Based on its good thermoelectric properties, it can be used to provide electrical energy for wearable smart devices. [0003] In the prior art, in the thermoelectric technology for collecting energy for wearable devices, the thermoelectric power generation materials used are all bulk paired P-type and N-type semiconductor groups. In terms of heat conduction, rigid ceramic sheets need to be added, so it is difficult t...

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Problems solved by technology

In terms of heat conduction, rigid ceramic sheets are also required, so it is difficult to make thermoelectric power generation devices that can be used in wearable devices

Moreover, it only has a single thermoelectric power generation element, which can generate too little power to support wearable smart devices to work for a long time

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