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Self power supply magnetorheological liquid high-heeled shoes

A magnetorheological fluid, high-heeled shoe technology, applied in footwear, heels, heel pads and other directions, can solve the problems of forward movement of the human body's center of gravity, affecting joint flexibility, phalangeal fractures, etc., achieving strong practicability and avoiding telescopic rods Breaking, energy saving effect

Active Publication Date: 2016-05-11
CHONGQING TECH & BUSINESS UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0008] However, when wearing high-heeled shoes, the center of gravity of the human body moves forward, and the body weight will be concentrated on the forefoot, and the phalanges will be overburdened. This not only affects the flexibility of the joints, but may also cause phalanx fractures.

Method used

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  • Self power supply magnetorheological liquid high-heeled shoes
  • Self power supply magnetorheological liquid high-heeled shoes
  • Self power supply magnetorheological liquid high-heeled shoes

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0037] Such as figure 1 , figure 2 , image 3 , Figure 4 , Figure 5 , Image 6 As shown, the high-heeled shoes with self-supply electromagnetic rheological fluid include sole 1, heel 2 located below sole 1, upper 3 located above sole 1, insole 4, toe cap 5, power supply assembly 6, control switch 7 And the magneto-rheological fluid device assembly 8, the power supply device assembly 6 is embedded inside the heel 2, the power supply device assembly 6 includes a micro-expansion device 9, a telescopic control switch 10 for controlling the micro-expansion device 9, and a piston cylinder 11 And the energy storage 12, the energy storage 12 is connected above the miniature stretcher 9; the magnetorheological fluid device assembly 8 includes a magnetic field coil 13 for generating the magnetorheological fluid effect, a magnetorheological fluid control switch 14, located at the toe cap The magnetorheological fluid reaction chamber 15 of 5, the energy transmission channel 16 for...

Embodiment 2

[0039] Such as figure 1 , figure 2 , image 3 , Figure 4 , Figure 5 , Image 6 As shown, the high-heeled shoes with self-supply electromagnetic rheological fluid include sole 1, heel 2 located below sole 1, upper 3 located above sole 1, insole 4, toe cap 5, power supply assembly 6, control switch 7 And the magneto-rheological fluid device assembly 8, the power supply device assembly 6 is embedded inside the heel 2, and the power supply device assembly 6 includes a micro-extractor 9, a telescopic control switch 10 for controlling the micro-expansion device 9, and a piston cylinder 11 And the energy storage 12, the energy storage 12 is connected above the miniature retractor 9; the magnetorheological fluid device assembly 8 includes a magnetic field coil 13 for generating the magnetorheological fluid effect, a magnetorheological fluid control switch 14, located at the toe cap The magnetorheological fluid reaction chamber 15 of 5, the energy transmission channel 16 for co...

Embodiment 3

[0043] Such as figure 1 , figure 2 , image 3 , Figure 4 , Figure 5 , Image 6 As shown, the high-heeled shoes with self-supply electromagnetic rheological fluid include sole 1, heel 2 located below sole 1, upper 3 located above sole 1, insole 4, toe cap 5, power supply assembly 6, control switch 7 And the magneto-rheological fluid device assembly 8, the power supply device assembly 6 is embedded inside the heel 2, and the power supply device assembly 6 includes a micro-extractor 9, a telescopic control switch 10 for controlling the micro-expansion device 9, and a piston cylinder 11 And the energy storage 12, the energy storage 12 is connected above the miniature retractor 9; the magnetorheological fluid device assembly 8 includes a magnetic field coil 13 for generating the magnetorheological fluid effect, a magnetorheological fluid control switch 14, located at the toe cap The magnetorheological fluid reaction chamber 15 of 5, the energy transmission channel 16 for co...

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Abstract

The invention discloses a pair of self power supply magnetorheological liquid high-heeled shoes, and relates to a pair of shoes used for solving the problems that conventional lady's high-heeled shoes cannot storage energy, so that a wearer can easily catch tarsoptosia or spasmodic podalgia. Each self power supply magnetorheological liquid high-heeled shoe comprises a sole, a heel, a vamp, an insole, a shoe head, a power supply device assembly, a control conversion switch and a magnetorheological liquid device assembly, wherein the heel is positioned under the sole; the vamp is positioned above the sole; the power supply device assembly is embedded inside the heel; the power supply device assembly comprises a miniature telescopic device, a telescopic control switch, a piston cylinder and an energy storage device; the telescopic control switch is used for controlling the miniature telescopic device; the energy storage device is connected above the miniature telescopic device; the magnetorheological liquid device assembly comprises a magnetic field coil, a magnetorheological liquid control switch, a magnetorheological liquid reaction chamber and an energy transmission passage; the magnetic filed coil is used for generating a magnetorheological liquid effect; the magnetorheological liquid reaction chamber is positioned at the shoe head; and the energy transmission passage is used for communicating the energy storage device and the magnetorheological liquid reaction chamber. By using the technical scheme, the self power supply magnetorheological liquid high-heeled shoes have the advantages that the energy generated during sports at ordinary times can be stored; the foot soles feel comfortable; and the self power supply is realized.

Description

technical field [0001] The invention relates to a shoe, in particular to a high-heeled shoe that self-supplies electromagnetic rheological fluid. Background technique [0002] Rheological fluid (Magnetorheological Fluid, referred to as MR fluid) is a controllable fluid, which is a relatively active research in smart materials. Magnetorheological fluid is a suspension formed by mixing tiny soft magnetic particles with high magnetic permeability and low magnetic hysteresis and non-magnetic liquid. [0003] This kind of suspension exhibits low-viscosity Newtonian fluid characteristics under the condition of zero magnetic field; while under the action of strong magnetic field, it presents high-viscosity, low-fluidity Bingham fluid characteristics. [0004] It is a suspension formed by dispersing micron-sized magnetically polarized particles in a non-magnetic liquid (mineral oil, silicone oil, etc.). In the case of zero field, the magnetorheological fluid behaves as a liquid wi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A43B7/38A43B21/26
CPCA43B7/38A43B21/265
Inventor 喻其炳姚行艳李勇李川
Owner CHONGQING TECH & BUSINESS UNIV
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