CN215992931U - Magnetic force helping hand bradyseism sole structure - Google Patents
Magnetic force helping hand bradyseism sole structure Download PDFInfo
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- CN215992931U CN215992931U CN202121729959.0U CN202121729959U CN215992931U CN 215992931 U CN215992931 U CN 215992931U CN 202121729959 U CN202121729959 U CN 202121729959U CN 215992931 U CN215992931 U CN 215992931U
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- elastic layer
- cushioning
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- upper elastic
- bradyseism
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Abstract
The utility model provides a magnetic force helping hand bradyseism sole structure, for solving bradyseism nature and the not enough defect of resilience, technical scheme is: the structure comprises an elastic sole and a power-assisted cushioning mechanism, wherein the power-assisted cushioning mechanism is arranged at the heel position of the elastic sole. Helping hand bradyseism mechanism includes: the device comprises a pressure dispersion layer, an upper elastic layer, a lower elastic layer, an elastic layer limiting wire group and a power-assisted cushioning magnetic block. The pressure dispersion layer is arranged on the upper elastic layer, the upper elastic layer and the lower elastic layer are arranged at intervals, and the elastic layer limiting thread group is fixed with the upper elastic layer and the lower elastic layer respectively. The power-assisted cushioning magnetic blocks are respectively arranged in a group on the upper elastic layer and the lower elastic layer, and one-to-one corresponding structures with different positions and magnetic poles are formed between the cushioning magnetic blocks arranged below the upper elastic layer and above the lower elastic layer. The beneficial effects are that: simple structure, bradyseism nature, rebound elasticity are good, effectively prevent motion foot injury and foot fatigue, to sports multiplicable resilience height more than 10CM, special suitable sports and long distance are on foot and are used.
Description
Technical Field
The utility model relates to shoes necessary for human life, in particular to a magnetic force-assisted cushioning sole structure for sports wear.
Background
In the prior art, when people do sports or physical training or training, the sports shoes worn by people require that the soles have certain softness and cushioning property to prevent sports injury, and also require certain elasticity to increase the rebound height of sports, such as various ball games. The above functions required by the existing sports shoes are all realized by sole materials.
The NIKE corporation of america developed a cushioning technology named ZOOM at the end of the 20 th century. The science and technology claim has excellent shock absorption performance and excellent rebound speed. The main structure is an air cushion with nylon fiber inside.
The American APL company developed a cushioning technology named LOAD N LAUNCH in the beginning of the 20 th century. The technical name can effectively improve the bounce height and the starting speed of the athlete. The main structure of the shock absorber is an elastic shock absorption material embedded with a plurality of springs.
The technical scheme of the sole material, the air cushion with nylon fiber wires arranged inside and the elastic cushioning material of the spring has the technical defects of insufficient cushioning property and rebound resilience.
In order to overcome the technical defects of insufficient cushioning property and rebound resilience in the prior art, the utility model discloses a magnetic force-assisted cushioning sole structure.
SUMMERY OF THE UTILITY MODEL
The utility model adopts the technical scheme that the implementation content of the utility model is as follows: a magnetic force-assisted cushioning sole structure comprises an elastic sole and a force-assisted cushioning mechanism, wherein the force-assisted cushioning mechanism is arranged at the heel position of the elastic sole.
The helping hand bradyseism mechanism include: the device comprises a pressure dispersion layer, an upper elastic layer, a lower elastic layer, an elastic layer limiting wire group and a power-assisted cushioning magnetic block.
The pressure dispersion layer is arranged on the upper elastic layer, the upper elastic layer and the lower elastic layer are arranged at intervals from top to bottom, and two ends of the elastic layer limiting thread group are respectively fixed with the upper elastic layer and the lower elastic layer into a whole.
The power-assisted cushioning magnetic blocks are respectively embedded below the upper elastic layer and above the lower elastic layer to form a group, and one-to-one corresponding structures with different positions and magnetic poles are formed between the cushioning magnetic blocks arranged below the upper elastic layer and above the lower elastic layer.
The utility model has the beneficial effects that: the novel sports wear has the advantages of simple structure, good shock absorption, high resilience, good protection effect on preventing sports foot injury and foot fatigue, durability, and experiments prove that the novel sports wear can increase the rebound height by more than 10CM for sports, and is particularly suitable for sports and long-distance hiking wearing.
The present invention will be described in detail with reference to the accompanying drawings.
Drawings
FIG. 1 is a schematic sectional view of the structure of the present invention.
In the drawings, there is shown in the drawings,
1. the sole comprises a pressure dispersion layer, 2. an upper elastic layer, 3. a lower elastic layer, 4. an elastic layer limiting thread group, 5. a power-assisted cushioning magnetic block and 6. a sole.
Detailed Description
Referring to the drawings, a magnetic force-assisted cushioning sole structure comprises an elastic sole and a force-assisted cushioning mechanism, wherein the force-assisted cushioning mechanism is arranged at the heel position of the elastic sole 6.
The helping hand bradyseism mechanism include: the device comprises a pressure dispersion layer 1, an upper elastic layer 2, a lower elastic layer 3, an elastic layer limiting thread group 4 and a power-assisted cushioning magnetic block 5.
The pressure dispersion layer 1 is arranged on the upper elastic layer 2, the upper elastic layer 2 and the lower elastic layer 3 are arranged at intervals from top to bottom, and two ends of the elastic layer limiting thread group 4 are respectively fixed with the upper elastic layer 2 and the lower elastic layer 3 into a whole.
The assisting and cushioning magnetic blocks 5 are respectively embedded below the upper elastic layer 2 and above the lower elastic layer 3 to form a group, and one-to-one corresponding structures with different positions and magnetic poles are formed between the cushioning magnetic blocks 5 below the upper elastic layer 2 and above the lower elastic layer 3.
The assisting cushioning magnetic blocks 5 are arranged on the upper elastic layer 2 and the lower elastic layer 3 in an embedded mode, so that the assisting cushioning magnetic blocks 5 are prevented from colliding with each other to damage the assisting cushioning magnetic blocks 5 and generate noise.
During the use, when human heel through to pressure dispersion layer 1 when to last elastic layer 2 formation pressure, this pressure forms pressure to the air in the air cavity that forms between elastic layer 2 and the lower elastic layer 3, and the air in the air cavity forms the buffering to human heel, goes up the bradyseism magnetic block 5 that elastic layer 2 and lower elastic layer 3 set up simultaneously and also forms the buffering to human heel because the magnetic pole is different forms mutual repulsion force. When the human heel is pressed to the upper elastic layer 2 through the pressure dispersion layer 1 and disappears (namely the human body forms take-off or the sole leaves the ground when walking), the air in the air cavity recovers to normal pressure, and the magnetic poles of the shock absorption magnetic blocks 5 are different to form mutual repulsion to form upward thrust to the human heel, so that the rebound resilience is improved.
The setting purpose of the elastic layer limiting wire group 4 is as follows: the distance between the upper elastic layer 2 and the lower elastic layer 3 prevents the excessive rebound from influencing the service life of the elastic layer, and increases the impact property of the rebound.
In the implementation of the utility model, the power-assisted shock absorption magnetic block 5 is a neodymium iron boron magnetic block. Reducing the manufacturing cost and keeping the magnetic attraction for a long time.
In the implementation of the utility model, the elastic layer limiting thread group 4 is a group of nylon threads. The nylon wire does not affect the buffering performance, and has high strength and good flexibility.
Claims (3)
1. The utility model provides a magnetic force helping hand bradyseism sole structure, includes elasticity sole and helping hand bradyseism mechanism, and helping hand bradyseism mechanism sets up the heel position at elasticity sole, its characterized in that:
the helping hand bradyseism mechanism include: the device comprises a pressure dispersion layer (1), an upper elastic layer (2), a lower elastic layer (3), an elastic layer limiting thread group (4) and a power-assisted cushioning magnetic block (5);
the pressure dispersion layer (1) is arranged on the upper elastic layer (2), the upper elastic layer (2) and the lower elastic layer (3) are arranged at intervals from top to bottom, and two ends of the elastic layer limiting screw group (4) are respectively fixed with the upper elastic layer (2) and the lower elastic layer (3) into a whole;
the assisting and cushioning magnetic blocks (5) are respectively embedded below the upper elastic layer (2) and above the lower elastic layer (3) to form a group, and one-to-one corresponding structures with different positions and magnetic poles are formed between the cushioning magnetic blocks (5) below the upper elastic layer (2) and above the lower elastic layer (3).
2. The magnetically assisted cushioning sole structure of claim 1, wherein: the power-assisted shock absorption magnetic block (5) is a neodymium iron boron magnet block.
3. A magnetically assisted cushioning sole structure according to claim 1 or 2, wherein: the elastic layer limiting wire group (4) is a group of nylon wires.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202121729959.0U CN215992931U (en) | 2021-07-28 | 2021-07-28 | Magnetic force helping hand bradyseism sole structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202121729959.0U CN215992931U (en) | 2021-07-28 | 2021-07-28 | Magnetic force helping hand bradyseism sole structure |
Publications (1)
Publication Number | Publication Date |
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CN215992931U true CN215992931U (en) | 2022-03-11 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202121729959.0U Active CN215992931U (en) | 2021-07-28 | 2021-07-28 | Magnetic force helping hand bradyseism sole structure |
Country Status (1)
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CN (1) | CN215992931U (en) |
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2021
- 2021-07-28 CN CN202121729959.0U patent/CN215992931U/en active Active
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