Wireless self-powered step calculating shoes, step calculating system and step calculating method

A pedometer shoe, self-powered technology, applied to systems, footwear, electrical components, etc. that store electrical energy, can solve problems such as low accuracy and reliability, interruption of pedometer function, user inconvenience, etc. The effect of saving resources and protecting the environment

Active Publication Date: 2015-05-27
NEWNAGY TANGSHAN
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The above-mentioned existing pedometers are generally powered by batteries or external rechargeable power sources. Once the power supply is exhausted, the pedometer function will be interrupted, which brings great inconvenience to users.
In addition, for pedometers installed on the shoe body, the display of sports data is usually also set on the shoe body, which is not conducive to user observation, while for pedometers that use software on mobile devices to count steps, accuracy and reliability Sex is not high

Method used

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  • Wireless self-powered step calculating shoes, step calculating system and step calculating method
  • Wireless self-powered step calculating shoes, step calculating system and step calculating method
  • Wireless self-powered step calculating shoes, step calculating system and step calculating method

Examples

Experimental program
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Effect test

Embodiment 1

[0065] The first structure of the friction generator is as Figure 6a and Figure 6b shown. Figure 6a and Figure 6b A three-dimensional structural schematic diagram and a cross-sectional structural schematic diagram of the first structure of the friction generator are respectively shown. The triboelectric generator includes: a first electrode layer 111 , a first polymer insulation layer 112 , and a second electrode layer 113 which are stacked in sequence. Specifically, the first electrode layer 111 is disposed on the first side surface of the first polymer insulating layer 112; and the second side surface of the first polymer insulating layer 112 is connected to the second electrode layer 113 is arranged opposite to each other, and a friction interface is formed between the first polymer insulating layer 112 and the second electrode layer 113, and the first electrode layer 111 and the second electrode layer 113 constitute the signal output end of the friction generator. ...

Embodiment 2

[0074] The second structure of the friction generator is as Figure 7a and Figure 7b shown. Figure 7a and Figure 7b A three-dimensional structural schematic diagram and a cross-sectional structural schematic diagram of the second structure of the friction generator are respectively shown. The triboelectric generator includes: a first electrode layer 211 , a first high molecular polymer insulating layer 212 , a second high molecular polymer insulating layer 214 and a second electrode layer 213 which are stacked in sequence. Specifically, the first electrode layer 211 is disposed on the first side surface of the first polymer insulating layer 212; the second electrode layer 213 is disposed on the first side surface of the second polymer insulating layer 214; The second side surface of a polymer insulating layer 212 is opposite to the second side surface of the second polymer insulating layer 214, the first polymer insulating layer 212 and the second polymer insulating laye...

Embodiment 3

[0081] In addition to the above two structures, the friction generator can also be realized with a third structure, such as Figure 8a and Figure 8b shown. Figure 8a and Figure 8bA three-dimensional structural schematic diagram and a cross-sectional structural schematic diagram of the third structure of the friction generator are respectively shown. It can be seen from the figure that the third structure adds an intermediate film layer on the basis of the second structure, that is, the triboelectric generator of the third structure includes the first electrode layer 311, the first high The molecular polymer insulating layer 312 , the intermediate film layer 310 , the second polymer insulating layer 314 and the second electrode layer 313 . Specifically, the first electrode layer 311 is disposed on the first side surface of the first polymer insulating layer 312; the second electrode layer 313 is disposed on the first side of the second polymer insulating layer 314 surfac...

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Abstract

A wireless self-powered step counting shoe, a step counting system and a step counting method. The step counting shoe comprises a shoe body, wherein the shoe body further comprises at least one friction electric generator (11) for converting mechanical energy into electric energy, an energy storage module (12) connected with at least one friction electric generator (11) and storing the electric energy produced by the friction electric generator (11), a switch module (13) connected with the energy storage module (12) and outputting the electric energy when the electric energy stored in the energy storage module (12) is detected to be more than or equal to a preset threshold, a processing module (14) connected with the switch module (13) and taking the times of outputting electric energy of the switch module (13) as step counting data and storing the data, and a wireless communication module (15) connected with the processing module (14) and used for receiving the step counting data from the processing module (14) and sending the step counting data to a terminal device (20).

Description

technical field [0001] The invention relates to the technical field of electronic circuits, in particular to a wireless self-powered pedometer shoe, a pedometer system and a pedometer method. Background technique [0002] Along with the continuous development of society, people pay more and more attention to health, and pedometer also becomes the necessity when people exercise. Usually, the pedometer can not only display the number of exercise steps, but also further calculate the exercise distance, calorie consumption and other exercise data, so that the user can adjust the exercise intensity according to the demand to achieve better results. [0003] There are many kinds of pedometers in the prior art, for example, pedometers based on vibration sensors or accelerometers, or pedometers that use the gravity sensing function of mobile devices such as mobile phones to realize the pedometer function through pedometer software. Above-mentioned existing pedometer generally adopt...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A43B3/00G01C22/00H02N1/04H02J15/00A43B3/35
CPCA43B3/38A43B3/34
Inventor 程驰刘永生马志海邱霄孙晓雅王小雄亚瑟·罗杰斯尤里斯·巴里斯吴振海段先胜吴宝荣
Owner NEWNAGY TANGSHAN
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