CN220369558U - Stable road running shoes - Google Patents

Abstract

The utility model discloses a stable road running shoe, which belongs to the technical field of running shoes and comprises a sole and a single-layer jacquard vamp, wherein the single-layer jacquard vamp is fixedly connected with the sole, the maximum width of the head of the sole is 1.25 times that of the heel, a first U-shaped grain and a second U-shaped grain are arranged at the lower end of the heel of the sole, the first U-shaped grain and the second U-shaped grain are distributed in an inverted splayed shape, a first expansion groove and a second expansion groove are arranged at the lower end of the middle part of the sole, and the first expansion groove and the second expansion groove are respectively provided with a pair, so that sand grains are avoided at the outer parts of the first U-shaped grain and the second U-shaped grain, the capability of resisting sand grains or accumulated water and skid is improved, and after the front part of the sole is contacted with the ground, the expansion range of the first expansion groove and the second expansion groove is increased by the compression expansion of the first expansion groove and the second expansion groove, and the expansion range of the second expansion groove are increased, and the stability of the front part of the sole is improved at the instant grabbing area of the ground is further, and the practicability is improved.

Description

Stable road running shoes

Technical Field

The utility model belongs to the technical field of running shoes, and particularly relates to a stable road running shoe.

Background

The sports shoes are designed and manufactured according to the characteristics that people participate in sports or travel. The soles of the sport shoes are different from common leather shoes and rubber shoes, are soft and elastic, and can play a certain role in buffering. The elasticity can be enhanced during exercise, and the ankle injury can be prevented. Therefore, in sports, shoes for sports are mostly worn, especially for high-strength physical exercises such as: basketball, running, various daily exercises, and the like.

Because the soles of the conventional running shoes are difficult to expand according to the running state, the stress stability is difficult to be guaranteed at the instant of acceleration, the width of the heads is directly and greatly increased, and the collision rate of the two shoes is increased, so that the problem of lower practicability of the conventional running shoes is caused.

For this reason, we propose a stable running shoe to solve the above problems.

Disclosure of Invention

The utility model aims to solve the problem that the practicability of the conventional running shoes is low, and provides a stable road running shoe.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a stable way running shoes, includes sole and individual layer jacquard vamp, individual layer jacquard vamp and sole fixed connection, the head maximum width of sole is 1.25 times of heel maximum width, first U-shaped line and second U-shaped line have been seted up to the heel lower extreme of sole, first U-shaped line and second U-shaped line are the splayed and distribute, first receipts expansion tank and second receipts expansion tank have been seted up to the middle part lower extreme of sole, first receipts expansion tank and second receipts expansion tank all are equipped with a pair of, the second receives the expansion tank and distributes around, first receipts expansion tank distributes in the second receipts expansion tank both sides. When the heel of the sole is contacted with the ground, in the deceleration process in running, sand grains or water on the road surface are concentrated to gaps between the first U-shaped grains and the second U-shaped grains by utilizing the inverted splayed structure formed by the first U-shaped grains and the second U-shaped grains, so that the outer parts of the first U-shaped grains and the second U-shaped grains avoid the sand grains, and the anti-sand grain or water accumulation anti-skid capability is improved.

Preferably, the lower end of the central part of the sole is provided with concentric annular lines. When the heel is lifted, the front part of the concentric annular lines is enabled to be bent upwards to be contacted with the ground, so that the ground can be conveniently grasped in the process of exerting force.

Preferably, the head of the sole is provided with arc-shaped lines. The upward arc structure of arc line is utilized to cause inward trend force to the ground, and the resultant force action of trend force acts on the arc line to improve the ground grabbing stability of the arc line, thereby guaranteeing the final acceleration stability of a single foot.

Preferably, the lower end of the heel part of the sole is provided with inverted arc-shaped patterns. The reverse arc-shaped lines are utilized to increase the ground grabbing force in the forward direction, so that the ground grabbing force in the braking process is improved.

Preferably, the front end of the sole is fixedly connected with a baffle plate. The baffle is blocked in front of the single-layer Gu Kaxie to replace the friction between the single-layer jacquard vamp and the ground, so that the single-layer jacquard vamp is conveniently protected.

Preferably, a plurality of lofting guide lines are formed at the lateral end of the head part of the sole. The lofting guide lines are used for matching the impact path between the other foot and the sole during the movement, and when the other foot is impacted at the lofting guide lines, friction is reduced by using the lofting guide lines, so that the probability of tripping after the two shoes collide is reduced.

Preferably, the heel of the sole is provided with deformation wrinkles. When the heel of the sole is elastically deformed, the heel is preferentially twisted by the deformed crease, so that the function of guiding the deformed crease is achieved, the formation rate of the new crease is reduced, and the beautiful durability of the heel of the sole is improved.

In summary, the technical effects and advantages of the present utility model are:

1. when the heel of the sole is contacted with the ground, the sole is in a deceleration process in running, sand grains or water on the road surface are concentrated to gaps between the first U-shaped grains and the second U-shaped grains by utilizing an inverted splayed structure formed by the first U-shaped grains and the second U-shaped grains, so that the outer parts of the first U-shaped grains and the second U-shaped grains avoid the sand grains, the sand grain resistance or the water accumulation anti-skid capability is improved, and after the front part of the sole is contacted with the ground, the compression expansion range of the first expansion groove and the second expansion groove is increased by utilizing the compression expansion of the first expansion groove and the second expansion groove and the bending expansion range of the arc-shaped grains, so that the ground grabbing range of the front part of the sole is increased at the moment of grabbing the ground, and the stability is improved, and the practicability is improved.

2. When the heel is lifted, the front part of the concentric annular lines is enabled to be bent upwards to be contacted with the ground, so that the ground can be conveniently grasped in the process of exerting force.

3. The upward arc structure of arc line is utilized to cause inward trend force to the ground, and the resultant force action of trend force acts on the arc line to improve the ground grabbing stability of the arc line, thereby guaranteeing the final acceleration stability of a single foot.

4. The baffle is blocked in front of the single-layer Gu Kaxie to replace the friction between the single-layer jacquard vamp and the ground, so that the single-layer jacquard vamp is conveniently protected.

5. The lofting guide lines are used for matching the impact path between the other foot and the sole during the movement, and when the other foot is impacted at the lofting guide lines, friction is reduced by using the lofting guide lines, so that the probability of tripping after the two shoes collide is reduced.

6. When the heel of the sole is elastically deformed, the heel is preferentially twisted by the deformed crease, so that the function of guiding the deformed crease is achieved, the formation rate of the new crease is reduced, and the beautiful durability of the heel of the sole is improved.

Drawings

FIG. 1 is a schematic view of the bottom surface structure of a sole of the present utility model;

fig. 2 is a schematic side structural view of the sole of the present utility model.

In the figure: 1. a sole; 2. concentric annular lines; 3. arc lines; 4. a first expansion tank; 5. a second expansion tank; 6. inverted arc lines; 7. a first U-shaped vein; 8. a second U-shaped vein; 9. a baffle; 10. lofting guide lines; 11. deformation crease.

Detailed Description

The following description of the technical solutions in the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments.

Referring to fig. 1 and 2, the track shoes on the stable road comprise a sole 1 and a single-layer jacquard vamp, the single-layer jacquard vamp is fixedly connected with the sole 1, the maximum width of the head of the sole 1 is 1.25 times of the maximum width of the heel, the inner reinforcing of the sole 1 increases the sense of wrap by using a keel structure, the heel uses a built-in TPU (thermoplastic polyurethane) sheet to increase the stability of the heel, the inner side of the arch of the sole 1 uses dual-density hard EVA to increase the supportability of the arch, the internal rotation condition of the sport is reduced, the lower end of the heel of the sole 1 is provided with a first U-shaped grain 7 and a second U-shaped grain 8, the first U-shaped grain 7 and the second U-shaped grain 8 are distributed in an inverted splayed shape, the lower end of the middle part of the sole 1 is provided with a first expansion groove 4 and a second expansion groove 5, the first expansion groove 4 and the second expansion groove 5 are both provided with a pair, the first expansion groove 4 is distributed on the front and back sides of the second expansion groove 5. When the heel of the sole 1 is contacted with the ground, in the deceleration process in running, sand grains or water on the road surface are concentrated to gaps between the first U-shaped grains 7 and the second U-shaped grains 8 by utilizing the inverted splayed structure formed by the first U-shaped grains 7 and the second U-shaped grains 8, so that the outer side parts of the first U-shaped grains 7 and the second U-shaped grains 8 keep the ground from being grabbed by the sand grains.

Referring to fig. 1 and 2, the lower end of the central portion of the sole 1 is provided with concentric annular veins 2. When the heel is lifted, the front part of the concentric annular lines 2 is enabled to be bent upwards to be in contact with the ground, so that the grabbing force in the force-exerting process is ensured.

Referring to fig. 1 and 2, the head of the sole 1 is provided with arcuate corrugations 3. The upward arc structure of the arc lines 3 is utilized to cause inward inclined force to the ground, and the resultant force action of the inclined force acts on the arc lines 3 to ensure the ground grabbing stability of the arc lines 3.

Referring to fig. 1 and 2, the lower heel end of the sole 1 is provided with inverted arcuate patterns 6. The reverse arcuate pattern 6 is used to increase the gripping force in the forward direction.

Referring to fig. 1 and 2, a baffle plate 9 is fixedly coupled to the front end of the sole 1. The baffle 9 is blocked in front of the single layer Gu Kaxie to replace the friction between the single layer jacquard vamp and the ground.

Referring to fig. 1 and 2, the head side end of the sole 1 is provided with a plurality of loft guide lines 10. The lofting guide lines 10 are matched with the impact path of the sole 1 when the other foot moves, and when the other foot collides at the lofting guide lines 10, the lofting guide lines 10 are used for guiding to reduce friction.

Referring to fig. 1 and 2, the heel of the sole 1 is provided with deformation folds 11. When the heel of the sole 1 is elastically deformed, the heel is preferentially twisted by the deformation crease 11, and the function of guiding the deformation crease is achieved.

Working principle: when the heel of the sole 1 is contacted with the ground, in the deceleration process in running, sand grains or water on the road surface are concentrated to gaps between the first U-shaped grains 7 and the second U-shaped grains 8 by utilizing the inverted splayed structure formed by the first U-shaped grains 7 and the second U-shaped grains 8, so that the outer side parts of the first U-shaped grains 7 and the second U-shaped grains 8 keep the ground from being grabbed by the sand grains. When the heel is lifted, the front part of the concentric annular lines 2 is enabled to be bent upwards to be in contact with the ground, so that the grabbing force in the force-exerting process is ensured. When the heel of the sole 1 is elastically deformed, the heel is preferentially twisted by the deformation crease 11, and the function of guiding the deformation crease is achieved. The baffle 9 is blocked in front of the single layer Gu Kaxie to replace the friction between the single layer jacquard vamp and the ground. The lofting guide lines 10 are matched with the impact path of the sole 1 when the other foot moves, and when the other foot collides at the lofting guide lines 10, the lofting guide lines 10 are used for guiding to reduce friction.

The foregoing is only a preferred embodiment of the utility model, but the scope of the utility model is not limited thereto, and any person skilled in the art who is in the field of the utility model can apply equivalent substitution or modification to the technical solution and the inventive concept according to the utility model within the scope of the utility model.

The application direction is simply mentioned in the description for the prior art that the utility model is known to the person skilled in the art and has not changed, and the utility model is combined to form the complete technology; techniques well known to those skilled in the art to avoid undue popularity are employed to assist those skilled in the art in quickly understanding the principles of the utility model.

Claims (7)

1. Stable road running shoes, its characterized in that: including sole (1) and individual layer jacquard vamp, individual layer jacquard vamp and sole (1) fixed connection, the head maximum width of sole (1) is 1.25 times of heel maximum width, first U-shaped line (7) and second U-shaped line (8) have been seted up to the heel lower extreme of sole (1), first U-shaped line (7) and second U-shaped line (8) are the distribution of falling eight characters, first receipts expansion tank (4) and second receipts expansion tank (5) have been seted up to the middle part lower extreme of sole (1), first receipts expansion tank (4) and second receipts expansion tank (5) all are equipped with a pair of, the second is received expansion tank (5) and is distributed around, first receipts expansion tank (4) distributes in second receipts expansion tank (5) both sides.

2. The stabilized running shoe of claim 1, wherein: the lower end of the central part of the sole (1) is provided with concentric annular lines (2).

3. The stabilized running shoe of claim 1, wherein: the head of the sole (1) is provided with arc-shaped lines (3).

4. The stabilized running shoe of claim 1, wherein: the lower end of the heel part of the sole (1) is provided with inverted arc-shaped patterns (6).

5. The stabilized running shoe of claim 1, wherein: the front end of the sole (1) is fixedly connected with a baffle (9).

6. The stabilized running shoe of claim 1, wherein: the head side end of the sole (1) is provided with a plurality of lofting guide lines (10).

7. The stabilized running shoe of claim 1, wherein: the heel of the sole (1) is provided with deformation wrinkles (11).