CN210076709U - Traction shoe assembly fitting foot shape and traction shoe - Google Patents

Abstract

The utility model belongs to the technical field of special shoes, more specifically relate to a tractive shoes subassembly and tractive shoes of laminating foot type, the tractive shoes subassembly the pouring weight sets up the first cavity of vertical direction the light piece sets up the second cavity of vertical direction, can assemble elastic metal, non-metallic member or chinese herbal medicine formula as required in this first cavity and the second cavity, makes the tractive shoes can provide antigravity vibrations under the motion state, strengthens foot blood circulation and acupuncture point unblocked, and can satisfy the tractive shoes heavy burden of arbitrary weight in the 0.5-10kg scope, and the weight adjustment precision is up to 20-50 g. The middle concave design of the fit foot part strengthens the fit degree of the traction shoe component and improves the wearing comfort. The inner wall of the body of the traction shoe using the traction shoe assembly is provided with a limiting structure close to the insole, so that the problem of shaking of the weight of the conventional traction shoe in the vertical direction is effectively solved, and the traction shoe assembly can obtain more stable fixing effect in the vertical direction and the horizontal direction.

Description

Traction shoe assembly fitting foot shape and traction shoe

Technical Field

The utility model belongs to the technical field of special shoes, more specifically relates to a tractive shoes subassembly and tractive shoes of laminating foot type.

Background

Traction shoes, namely weight-bearing sports shoes, are characterized in that sole spaces are dug in soles of the sports shoes, balancing weights are made of regenerated metals with high specific gravity, such as iron, copper and lead, and the like, and the sole weight can be adjusted at will through various combinations by matching with rubber light blocks with the same volume and shape through surface process treatments, such as polishing, plastic dipping, spraying, rubber coating and the like. The existing traction shoes are mainly used for special training of athletes and soldiers in troops and weight-bearing body building of common people, can increase the effects of foot strength and muscle and bone strength, and have certain effects on bounce force, bone stretching and walking speed.

Along with the application of heavy burden sports shoes in people's life and gradually popular, traction shoes on the present market all just simply adjust foot weight and the function that increases, owing to the injecing of shoes body and subassembly groove, traction shoes subassembly can not produce and rock in the horizontal direction, but in vertical direction, owing to only set up the elasticity shoe-pad on traction shoes subassembly upper portion, even if there is people's foot pressure, the subassembly still can produce certain luffing motion under the motion state in vertical direction, the influence is worn and is experienced. In addition, the foot laminating degree of current subassembly is also not good enough, and weight adjustment precision is not high enough, can not satisfy the diversified health care health preserving of consumers in general, comfort level of wearing and interest demand yet.

SUMMERY OF THE UTILITY MODEL

In view of the above problems in the prior art, it is desirable to provide a traction shoe assembly for fitting a foot, which has at least a finer weight adjustment range and a more comfortable feeling of wearing the foot, and which is capable of generating a certain vibration feeling in the foot of a person wearing the traction shoe, thereby promoting blood circulation in the foot and smoothing acupuncture points, and a traction shoe using the same.

In order to achieve the above objects, the present invention provides a traction shoe assembly for fitting a foot, comprising a weight block and a light block, wherein the weight block and the light block have the same shape, and the weight block is provided with a first cavity in a vertical direction, and the first cavity has a first opening facing a foot surface direction.

In a second aspect of the present invention, the inventor further provides a traction shoe, comprising: a shoe body; a outsole; a midsole; subassembly cell body with the first aspect the tractive shoes subassembly, wherein, the appearance shape of tractive shoes subassembly and the inner chamber shape looks adaptation of subassembly cell body, shoes body inner wall is close to the insole position and is provided with limit structure.

Different from the prior art, the technical scheme at least has the following beneficial effects:

the weight of the traction shoe component is provided with a first cavity in the vertical direction, the first cavity is provided with a first opening facing the instep direction, the light block is provided with a second cavity in the vertical direction, the second cavity is also provided with an opening facing the instep direction, and elastic metal, non-metal spiral springs, leaf springs, pressure spring tubes, weight adjusting elements or Chinese herbal medicine formula materials can be assembled in the first cavity and the second cavity according to specific needs, so that the traction shoe can provide antigravity vibration in a motion state, the blood circulation and acupuncture points of the foot are enhanced to be unblocked, the load of the traction shoe with any weight in the range of 0.5-10kg can be met, and the weight adjusting precision is up to 20-50 g. Use the utility model provides a shoes body inner wall of traction shoes subassembly is close to the insole position and is provided with limit structure, has effectively improved the problem of rocking of current traction shoes pouring weight in vertical direction, makes traction shoes subassembly all obtain more stable fixed effect in vertical and horizontal two directions.

Drawings

FIG. 1 is a top view of a foot-conforming tension shoe assembly according to one embodiment;

FIG. 2 is a top view of another foot-conforming tension shoe assembly according to an embodiment;

FIG. 3 is a perspective view of another foot-conforming tension shoe assembly according to the embodiments;

FIG. 4 is a perspective view of another foot-conforming tension shoe assembly according to the embodiments;

FIG. 5 is a front view of another foot-conforming tension shoe assembly according to an embodiment;

FIG. 6 is a front view of another foot-conforming tension shoe assembly according to an embodiment;

FIG. 7 is a schematic diagram of a traction shoe including a compliant foot type traction shoe assembly according to an embodiment;

fig. 8 is an enlarged schematic view of a traction shoe limiting structure including a traction shoe assembly attached to a foot according to an embodiment.

Description of reference numerals:

101. a forefoot weight;

102. a waist weight;

103. a heel weight;

104. a first edge;

105. a second edge;

2. a first cavity;

301. a light front palm part;

302. a light waist block;

303. a heel light block;

4. a second cavity;

5. an elastic member;

501. a cover body;

601. a first midsole;

602. a second midsole;

603. a outsole;

7. shoe-pad;

8. a shoe body;

800. an assembly groove body;

801. a limiting structure;

802. an accommodating cavity;

803. a weight adjustment element;

804. an opening and closing structure.

Detailed Description

The tension shoe assembly of the first aspect and the tension shoe of the second aspect of the present invention are described in detail below.

The utility model provides a traction shoe component. The utility model provides a tractive shoes subassembly of laminating foot type, includes pouring weight and light piece, the shape of pouring weight and light piece is the same, wherein, the pouring weight is provided with the first cavity of vertical direction, first cavity has the first opening towards the instep direction.

The utility model provides a pouring weight and light piece are different from prior art's pouring weight, and the pouring weight is provided with the first cavity of vertical direction, first cavity has the first opening towards the instep direction, right the quantity and the shape of first cavity do not do special restriction, and quantity is 1 at least, and because the face is great with the pouring weight of preceding sole contact, quantity can be fit for increasing to some extent. It will be appreciated that the same size of the weight, the greater number of first cavities without the weight adjustment elements, will have a corresponding reduction in weight, and that a plurality of resilient members or chinese herbal formulations may be provided in the first cavities to enhance the shock and stimulation of the forefoot. The weight of the shoe is greatly related to the comfort and the physical strength of the human body during the exercise. For every 1% increase in shoe weight, physical consumption of a person increases by 3% -10%. The weight and the light block are designed in the same shape, so that different consumers can adjust the weight of the shoe according to self conditions to realize progressive training or adapt to different states and motion modes.

Further, the utility model discloses also carried out suitable improvement to the light piece. It will be appreciated that since the light block is provided as a corresponding replacement for the weight, the light block is provided with a second cavity in the vertical direction, the second cavity being the same shape and size as the first cavity, and an opening towards the instep, with reference to the design of the weight. In the production process, the shapes of the first cavity and the second cavity in the same set of traction shoe assembly are completely consistent, the first cavity and the second cavity after the encapsulation treatment of the heavy block and the light block are filled with corresponding elastic members or weight adjusting elements, and then a cover body can be additionally arranged.

According to the physiological structure characteristics of human bodies, the feet are composed of 26 bones and divided into three parts: heel, lumbar and forefoot. The heel is composed of 7 bones that are responsible for directly bearing body weight, and most of the body weight (50%) falls in the heel. The waist is composed of 5 long bones which are responsible for connecting the half sole and the heel and transferring the weight of the body part to the half sole. The forefoot consists of 14 small bones which can bear the weight and balance the body and grip the ground without the body leaning. In order to support the whole body weight, the bottom of the foot is arched, especially the inner arch is developed, large and firm, the body weight which is added from the upper part is supported for one degree by the talus which is equivalent to the transfer joint through the tibia, and the body weight is completely supported by the tough inner arch which takes the front end of the inner side of the calcaneus bottom and the grounding point of the first foot bone as two base points. Therefore, the design of the traction shoe component needs to be in accordance with the scientific design of human engineering, and the fitting degree and comfort degree of wearing can be further improved. Preferably, the weights include a palm weight, a lumbar weight and a heel weight. Certainly, the waist pouring weight can contain 1 to many pieces, and the piece count is many, and the flexible range of waist pouring weight also increases correspondingly, then can promote this tractive shoes subassembly and tractive shoes suitability in rugged road and the great road of slope, expands the use scene of tractive shoes. Preferably, the weights include a palm weight, a lumbar weight and a heel weight. Similarly, the light blocks also comprise a front palm light block, a waist light block and a heel light block so as to be replaced.

Further, the utility model discloses the collection has studied the physiological structure of a large amount of human soles, for giving the outstanding buffer power in position of half sole bone heel, sets half sole main part central point with half sole pouring weight to have slightly sunken, the slightly higher massive structure in edge. Preferably, the sole weight comprises a first edge, a second edge and a sole main body, the sole main body is of a block structure with a concave middle part, the first edge is an arched curved edge and smoothly encloses the outside of the sole main body with the second edge, and the sole weight gradually reduces along the first edge towards the thickness of the sole main body, so that the design enhances the fitting degree of the traction shoe component and the foot and the wearing comfort.

According to the design concept, it is easy to understand that in a more preferable embodiment, the arch part corresponding to the waist weight or the waist weight group is arranged into an arch with a certain range of upward protrusion, so that the arch part can be well supported and protected. The thickness of the heel weight is increased, so that the purpose of heightening and showing feet can be achieved for a wearer.

Preferably, the thickness of the traction shoe assembly is increased in sequence along the splicing direction of the front palm weight, the waist weight and the heel weight.

Preferably, the thickness of the front palm weight is 3-100mm, the thickness of the waist weight is 4-120mm, and the thickness of the heel weight is 6-160 mm.

Preferably, the length of the front palm weight along the splicing direction of the waist weight and the heel weight is 60-120 mm.

Preferably, the waist weight comprises a first waist weight, a second waist weight, and a third waist weight.

Preferably, the foot massage device further comprises an elastic member, wherein the elastic member is matched with the first cavity and the second cavity and is used for providing antigravity vibration for the foot when the foot moves.

More preferably, the elastic member is selected from one of a coil spring, a leaf spring, and a pressure spring tube.

Preferably, the tension shoe assembly further comprises a cover body, wherein the cover body is connected with the first cavity and/or the second cavity in a clamping manner, in a threaded manner or in a hinged manner, and is used for fixing the elastic member in the first cavity and/or the second cavity.

Preferably, the tension shoe assembly further comprises a weight adjusting element, wherein the weight adjusting element is matched with the first cavity and the second cavity and is used for adjusting the weight of the heavy block and/or the light block.

Next, the traction shoes provided by the second aspect of the present invention will be described. A traction shoe, comprising: a shoe body; a outsole; a midsole; subassembly cell body with the first aspect the tractive shoes subassembly, wherein, the appearance shape of tractive shoes subassembly and the inner chamber shape looks adaptation of subassembly cell body, shoes body inner wall is close to the insole position and is provided with limit structure.

Preferably, the width of the limiting structure is 5-20mm, and the limiting structure is continuously arranged to form a snap ring or is arranged at intervals to form regular or irregular buckles.

Preferably, the insole contains first insole and second insole, sets up the holding chamber between first insole and the second insole, the holding chamber is used for the small-size outdoor emergency device of holding.

Preferably, the traction shoes further comprise an opening and closing structure, wherein the opening and closing structure is arranged on the upper portion of the accommodating cavity and used for regulating and controlling the opening and closing of the accommodating cavity.

To explain technical contents, structural features, and objects and effects of the technical solutions in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments. It should be understood that these examples are for better illustration only and are not intended to limit the scope of the present invention.

Referring to fig. 1, which shows in a top view that the present embodiment provides a traction shoe assembly for fitting foot shape, including a weight set, where the weight set includes a front sole weight 101, a waist weight 102 and a heel weight 103, each weight is provided with a first cavity 2 in a vertical direction, an opening of the first cavity is facing the direction of the instep, and the shape and number of the first cavity 2 on each weight may be different. In this embodiment, waist weight 102 is formed by three parts of first waist weight, second waist weight and third waist weight, but in different embodiments, waist weight 102 may be a single weight integrally formed, or two, four or five parts. In fact, the more the subdivided portion of waist weight 102 is, the easier it is to achieve the free bending of the waist, the more it is advantageous to walk on the wearer in consideration of the physiological configuration of the foot. The aspect of the traction shoe assembly fitting the foot shape is embodied in the configuration design of each weight, that is, the sole weight includes a first edge 104, a second edge 105 and a sole main body, the sole main body is a block-shaped structure with a concave middle part, the first edge 104 is an arched curved edge and smoothly encloses the sole main body with the second edge 105, and the thickness of the sole weight decreases along the first edge toward the sole main body. Waist weight 102 and heel weight 103 also have a curved design with edges higher than the center, but are provided with arches protruding upwards to a certain extent at the corresponding arch positions, so that the fitting degree, the bearing property and the comfort degree of the sole of the foot of the traction shoe component can be greatly improved. Referring to fig. 3 to 6, it can be seen from the perspective view and the front view of the traction shoe assembly that the thickness of the sole weight is gradually increased along the connection direction of the sole weight, the lumbar weight and the heel weight, and specifically, in different embodiments, the thickness of the sole weight is 3 to 100mm, the thickness of the lumbar weight is 4 to 120mm, and the thickness of the heel weight is 6 to 160 mm. As can be seen from fig. 2 to 6, the shape of the first cavity 2 may be circular, square, diamond, ellipse, triangle or other regular or irregular figures in different embodiments, the number of the first cavities may also be adjusted according to the need, and for better distinction, the cavities disposed on the light block are named as second cavities 4, and likewise, the number and the shape of the second cavities 4 may also be specially designed and adjusted according to the need.

Referring to fig. 2, which shows another foot-fitting type traction shoe assembly according to the present embodiment in a top view, the difference from the above traction shoe assembly is that it includes a forefoot light block 301, a waist light block 302 and a heel light block 303, in this embodiment, the forefoot light block 301, the third waist light block 302 and the heel light block 303 are provided with a second cavity 4, and the shape and size of the second cavity 4 are the same as the first cavity provided by the matched weight, so that when the weight and the light block are replaced, the shape and size of the cavity are still adapted to provide an elastic member 5 or a weight adjusting element 803 or a Chinese herbal formula, and the elastic member is selected from one of a coil spring, a leaf spring and a pressure spring tube.

Referring to fig. 3, a perspective view of another traction shoe assembly with a foot shape is shown, which is different from the above traction shoe assembly in that a set of traction shoe assembly with different weights and light blocks is used. The traction shoe component consists of a half sole weight 101, a waist light block 302 and a heel light block 303, wherein the waist light block 302 comprises a first waist light block and a second waist light block, and an arch which protrudes upwards in a certain range is also arranged at the position corresponding to the arch part. The front palm weight 101 is provided with a first cavity 2, and the heel light weight 303 is provided with a second cavity 4.

Referring to fig. 4, another foot-fitted tension shoe assembly provided in this embodiment is shown in a perspective view, which is different from the above-mentioned tension shoe assembly in that it is composed of a light forefoot block 301, a waist weight 102 and a heel weight 103, and in particular, in order to provide more accurate tension shoe loading, a weight adjusting element 803 is placed in the first cavity 2 of the second waist weight, the weight adjusting element 803 may be made of metal or nonmetal, and its accurate weight is marked with reference to the identification of the weight, and of course, in order to meet different requirements, the weight adjusting element may be placed in other cavities on the light forefoot block 301, the waist weight 102 and the heel 103.

Please refer to fig. 5, which shows another foot-fitted traction shoe assembly in a front view, which is different from the above-mentioned traction shoe assembly in that a metal or non-metal elastic member 5 is disposed in the cavity of the weight block/light block of the front sole and the weight block/light block of the waist, a cover 501 with a flat upper end is disposed on the elastic member 5, the cover is connected with the first cavity and/or the second cavity in a snap-fit, screw-connected or hinged manner, the cover is made of silica gel or other soft and thin design, and the elastic member can provide anti-gravity vibration for the wearer of the traction shoe during exercise, so as to play a certain role in smoothing the blood circulation and acupuncture points of the sole, and at the same time, the slight sole vibration is helpful to enhance the entertainment of walking when wearing the traction shoe.

Referring to fig. 6, which shows another foot-fitted traction shoe assembly of this embodiment in a front view, it is different from the above traction shoe assembly in that neither the front sole weight 101 nor the waist weight 102 has a cavity and an elastic member 5, and a weight adjusting element 803 is provided in the second cavity 4 of the heel light block 303, it can be easily understood that the main function of the combined traction shoe assembly is to provide more precise weight loading of the foot, and of course, the weight adjusting element 803 may be replaced with an elastic member 5 to enhance the shock and acupoint massage of the heel.

The utility model provides a tractive shoes subassembly compound mode is not limited to above, the user can be according to the specific needs of oneself, the pouring weight and the light piece of corresponding position of arbitrary collocation to and elastic component and weight adjusting element. The tension shoe assembly of the technical scheme can meet the tension shoe load with any weight within the range of 0.5-10kg, and the weight adjustment precision is as high as 20-50 g.

Referring to fig. 7 and 8, fig. 7 shows a traction shoe including the traction shoe assembly according to the first aspect of the present invention, and fig. 8 is an enlarged schematic view of a limiting structure provided on a shoe body. Shoe body 8, outsole 603, insole (including first insole 601 and second insole 602), subassembly cell body 800 and limit structure 801, first insole 601 and second insole 602 set up holding chamber 802, and holding chamber upper portion sets up opening or closing that open and shut structure 804 is used for controlling holding chamber 802, and holding chamber 802 can hold small-size outdoor emergency device, for example but not limited to devices such as knife, lighter, flashlight, the accommodation space of holding chamber 802 can be the periphery that encircles the shoe body lower part, also can be the space between subassembly cell body 800 and the outsole 603 at tractive shoe assembly place, preferably encircles the periphery of shoe body lower part. The utility model discloses the tractive shoes subassembly of first aspect place in subassembly cell body 800, like this limit structure 801 just blocks in above the tractive shoes subassembly, cover conventional elasticity shoe-pad 7 again on the tractive shoes subassembly, limit structure 801's width is 5-20mm, sets up in succession and forms the buckle that snap ring or interval set up formation rule or irregular shape. This limit structure has effectively improved the problem of rocking that current tractive effort shoes produced at vertical direction pouring weight, makes the tractive effort shoes subassembly all obtain more stable fixed effect in vertical and two directions of level.

It should be noted that, although the above embodiments have been described herein, the scope of the present invention is not limited thereby. Therefore, based on the innovative concept of the present invention, the changes and modifications of the embodiments described herein, or the equivalent structure or equivalent process changes made by the contents of the specification and the drawings of the present invention, directly or indirectly apply the above technical solutions to other related technical fields, all included in the protection scope of the present invention.

Claims (16)

1. The utility model provides a tractive shoes subassembly of laminating foot type, includes pouring weight and light piece, the shape of pouring weight and light piece is the same, its characterized in that, the pouring weight is provided with the first cavity of vertical direction, first cavity has the first opening towards the instep direction.

2. The tension shoe assembly of claim 1, wherein the light block is provided with a vertically oriented second cavity that is the same shape and size as the first cavity.

3. The tension shoe assembly of claim 1, wherein the weights include a forefoot weight, a lumbar weight, and a heel weight.

4. The tension shoe assembly of claim 3, wherein the forefoot weight includes a first edge, a second edge, and a forefoot body, the forefoot body having a centrally concave block-like configuration, the first edge being an arcuate curved edge smoothly circumscribing the forefoot body with the second edge, the forefoot weight decreasing in thickness along the first edge in a direction toward the forefoot body.

5. The tension shoe assembly of claim 3, wherein the thickness of the tension shoe assembly increases in sequence along the direction of the splice of the forefoot weight, the lumbar weight, and the heel weight.

6. The tension shoe assembly of claim 5, wherein the forefoot weight is 3-100mm thick, the lumbar weight is 4-120mm thick, and the heel weight is 6-160mm thick.

7. The tension shoe assembly of claim 6, wherein the length of the forefoot weight in the direction of the splice of the waist weight and the heel weight is 60-120 mm.

8. The tension shoe assembly of claim 3, wherein the lumbar weight comprises a first lumbar weight, a second lumbar weight, and a third lumbar weight.

9. The tension shoe assembly of claim 1, further comprising a resilient member adapted to the first and second cavities for providing anti-gravity shock to the foot during movement.

10. The tension shoe assembly of claim 9, wherein the resilient member is selected from one of a coil spring, a leaf spring, and a compression spring tube.

11. The tension shoe assembly of claim 9, further comprising a cover snap-fit, threaded, or hinged to the first and/or second cavity for securing the resilient member within the first and/or second cavity.

12. Traction shoe assembly according to claim 2, further comprising a weight adjustment element adapted to the first and second cavity for adjusting the weight of the weight and/or the light block.

13. A traction shoe, comprising:

a shoe body;

a outsole;

a midsole; an assembly tank body and

the tension shoe assembly of any one of claims 1-12, wherein the shape of the tension shoe assembly is matched with the shape of the inner cavity of the assembly groove, and a limiting structure is arranged on the inner wall of the shoe body close to the middle sole.

14. The tension shoe as claimed in claim 13, wherein the width of the position-limiting structure is 5-20mm, and the position-limiting structure is continuously arranged to form a snap ring or is arranged at intervals to form regular or irregular shape buckles.

15. The tension shoe of claim 13, wherein the midsole comprises a first midsole and a second midsole, and a receiving cavity is disposed between the first midsole and the second midsole, and the receiving cavity is configured to receive a small outdoor emergency device.

16. The tension shoe as claimed in claim 15, further comprising an opening and closing structure disposed at an upper portion of the accommodating chamber for regulating opening and closing of the accommodating chamber.

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