CN219679893U - Shock-absorbing sole of mountain-running shoes - Google Patents

Abstract

The utility model discloses a shock-absorbing running shoe sole, which belongs to the technical field of shoes and comprises a bottom layer structure, wherein a middle buffer structure is fixedly arranged at the top of the bottom layer structure, an RB bottom layer is fixedly arranged at the bottom of the middle buffer structure, a ventilation structure is arranged between a sole supporting structure and the middle buffer structure, a shock-absorbing structure is fixedly arranged at the heel of the middle buffer structure, and a split anti-slip structure is arranged at the heel of the bottom layer structure. According to the technical scheme, the damping structure arranged on the middle buffering structure enables the sole to achieve a good damping effect after being worn, and the split type support anti-skid is adopted at the heel of the sole, so that triangular support operation on the sole is guaranteed, the situation that the heel of the sole is deformed during wearing can be reduced, and the regularity of the sole during wearing is guaranteed.

Description

Shock-absorbing sole of mountain-running shoes

Technical Field

The utility model relates to the technical field of shoes, in particular to a shock-absorbing mountain-running shoe sole.

Background

The running shoe is off-road running, and the off-road running shoe is very suitable for hiking and climbing activities with low difficulty besides being capable of being used for off-road running. It is also comfortable if the proper color, style is chosen as a daily commuter shoe. Compared with the common running shoes, the off-road running shoes have the outdoor practical functions of shatter prevention, sand discharge holes, puncture prevention, wear-resistant soles, wet skid, ground grabbing and the like.

The prior art publication No. CN2733951Y provides a sports shoe sole, the middle part of the heel part of the sole is inlaid with a shock-absorbing material, the sole part of the sole, which is close to the outer side of the foot, is inlaid with a small shock-absorbing material, the sole material is EVA MD, and the shock-absorbing material is silica gel. The sole of the sports shoe is formed by combining a sole main material EVA MD with a high-density elastic material, wherein the high-density material is arranged on one side of the sole of the sports shoe close to the inside of the foot and extends from a rear sole to a front sole, and the sole comprises an arch part. However, the overall operation performance of the device and most of the soles of the running shoes on the market is single, the operation requirement of the soles of the running shoes during the wearing period of the running shoes cannot be met well, although the shock absorbing material can absorb shock to the heel part in the prior art CN2733951Y, the shock absorbing material can absorb shock to the outer side part of the foot, the torsion resistance of the soles can be enhanced by the high-density material, but the shock absorbing performance is reduced due to the fact that the overall service life of the single shock absorbing material is insufficient, and the combined shock absorbing operation cannot be carried out in a mode of combining the material and the structure better. In view of this, we propose a shock-absorbing running shoe sole.

Disclosure of Invention

1. Technical problem to be solved

The utility model aims to provide a shock-absorbing running shoe sole for solving the problems in the background technology.

2. Technical proposal

The utility model provides a shock-absorbing running shoe sole, includes the bottom structure, the top fixed mounting of bottom structure has middle buffer structure, the bottom structure includes RB bottom, rubber anti-punch head, arris way, diamond anti-skidding convex tooth one, the bottom fixed mounting of middle buffer structure has the RB bottom, the front side of RB bottom is provided with rubber anti-punch head, the bottom of RB bottom is provided with arris way and diamond anti-skidding convex tooth one, middle buffer structure's sole department is provided with sole bearing structure, be provided with ventilation structure between sole bearing structure and the middle buffer structure, middle buffer structure's heel department fixed mounting has shock-absorbing structure, the heel department of bottom structure bottom is provided with split type anti-skidding structure, and is provided with the nameplate structure between split type anti-skidding structure and the bottom structure.

As an alternative scheme of the technical scheme of the utility model, the middle buffer structure comprises an EVA middle layer and a TPU reinforcing layer, wherein the EVA middle layer is fixedly arranged at the top of the bottom layer structure, and the TPU reinforcing layer is fixedly arranged at the rear side of the EVA middle layer.

As an alternative of the technical scheme of the utility model, the breathable structure comprises a PU filling layer and a filling groove, wherein the filling groove is arranged at the top of the middle buffer structure, and the PU filling layer is filled in the filling groove.

As an alternative scheme of the technical scheme of the utility model, the sole supporting structure comprises a supporting main channel and supporting ribs, the top of the middle buffer structure is provided with the supporting main channel, and the supporting ribs are uniformly distributed on two sides of the supporting main channel.

As an alternative scheme of the technical scheme of the utility model, the damping structure comprises built-in grooves, air cushions and air holes, wherein the heel part at the top of the middle damping structure is provided with the built-in grooves, the air cushions are fixedly arranged in the built-in grooves, and the air holes are arranged in the built-in grooves between the air cushions.

As an alternative scheme of the technical scheme of the utility model, the split type anti-skid structure comprises a split type heel seat and diamond-shaped anti-skid convex teeth II, wherein the split type heel seat is arranged at the heel of the bottom layer structure, and the diamond-shaped anti-skid convex teeth II are uniformly distributed on the split type heel seat.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages that:

1. according to the technical scheme, the damping structure arranged on the middle damping structure enables the sole to achieve a good damping effect after being worn, and when a person wears the sole in a severe motion, the heel of the person is well damped and buffered, so that the working intensity of the person in the mountain running period is increased, and the degree of strain of the foot of the person in the motion period is reduced.

2. According to the technical scheme, the bottom of the sole achieves a good anti-skid effect through the anti-skid structure arranged on the bottom layer structure and the split anti-skid structure, and the split support anti-skid structure is adopted at the heel of the sole, so that triangular support operation on the sole is guaranteed, the situation that the heel of the sole is deformed during wearing can be reduced, and the regularity of the sole during wearing is guaranteed.

Drawings

FIG. 1 is a schematic view of the overall appearance of a shock absorbing running shoe sole according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of an overall split component in a sole of a shock absorbing running shoe according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram showing the overall bottom view of a sole of a shock absorbing running shoe according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram showing the overall top view of a shock absorbing running shoe sole according to an embodiment of the present utility model;

the reference numerals in the figures illustrate: 1. a bottom layer structure; 101. an RB bottom layer; 102. rubber anti-punch head; 103. a prism; 104. diamond-shaped anti-skid convex teeth I; 2. an intermediate buffer structure; 201. an EVA intermediate layer; 202. a TPU reinforcing layer; 3. a nameplate structure; 4. a ventilation structure; 401. a PU filling layer; 402. filling the groove; 5. a sole support structure; 501. supporting a main road; 502. support ribs; 6. a shock absorbing structure; 601. a built-in groove; 602. an air cushion; 603. ventilation holes; 7. a split type anti-skid structure; 701. a split heel seat; 702. and the diamond-shaped anti-skid convex teeth II.

Detailed Description

The utility model provides a technical scheme that:

as shown in fig. 1 and 2, a shock-absorbing running shoe sole comprises a bottom layer structure 1, wherein a middle buffer structure 2 is fixedly arranged at the top of the bottom layer structure 1, the middle buffer structure 2 comprises an EVA middle layer 201 and a TPU reinforcing layer 202, the EVA middle layer 201 is fixedly arranged at the top of the bottom layer structure 1, the TPU reinforcing layer 202 is fixedly arranged at the rear side of the EVA middle layer 201, the bottom layer structure 1 comprises an RB bottom layer 101, a rubber anti-punch 102, a rib 103 and a diamond anti-skid convex tooth 104, the bottom of the middle buffer structure 2 is fixedly provided with the RB bottom layer 101, the rubber anti-punch 102 is arranged at the front side of the RB bottom layer 101, and the rib 103 and the diamond anti-skid convex tooth 104 are arranged at the bottom of the RB bottom layer 101.

In this embodiment, during the preparation operation, the bottom layer structure 1 is used as the basic structure of the sole structure through the RB bottom layer 101, the ribs 103 reduce the overall weight of the RB bottom layer 101 and increase the anti-slip size of the diamond anti-slip first teeth 104, the anti-slip strength of the diamond anti-slip first teeth 104 is ensured, when the RB bottom layer 101 impacts the front end object, the rubber anti-punch 102 can achieve good damping and buffering effects, the middle buffering structure 2 ensures the overall compactness and buffering effects of the sole, the EVA middle layer 201 ensures the overall elastic performance of the sole, and the TPU reinforcing layer 202 plays a role of reinforcing the side plates.

In some technical schemes, as shown in fig. 1 and 3, a split type anti-slip structure 7 is arranged at the heel of the bottom layer structure 1, and a nameplate structure 3 is arranged between the split type anti-slip structure 7 and the bottom layer structure 1.

In this embodiment, during the operation, the split type anti-slip structure 7 is used as a support structure of the heel region, when the heel of the person steps on the middle buffer structure 2, the three-section split type structure on the split type anti-slip structure 7 completes the support operation of the heel, and the person can annotate on the nameplate structure 3 according to the generated information of the sole.

In some technical schemes, the split anti-slip structure 7 comprises a split heel seat 701 and a second diamond anti-slip convex tooth 702, the split heel seat 701 is arranged at the heel of the bottom layer structure 1, and the second diamond anti-slip convex tooth 702 is uniformly distributed on the split heel seat 701.

In this embodiment, during operation, the three-section split structure on the split type anti-slip structure 7 completes the support operation for the heel, the split type anti-slip structure 7 is used as the support structure for the heel region, when the heel of a person steps on the intermediate buffer structure 2, the intermediate buffer structure 2 presses down the split type heel seat 701, supports through the split type heel seat 701, and performs the corresponding anti-slip operation through the diamond-shaped anti-slip convex teeth two 702 on the split type heel seat 701. The bottom of the sole reaches good anti-slip effect through the anti-slip structure on the bottom layer structure 1 and the split type anti-slip structure 7, and split type support anti-slip is adopted at the heel of the sole, so that triangular support operation on the sole is guaranteed, the situation that the heel of the sole is deformed during wearing can be reduced, and the regularity of the sole during wearing is guaranteed.

In some technical schemes, as shown in fig. 1 and 4, a sole supporting structure 5 is arranged at the sole of the middle buffer structure 2, the sole supporting structure 5 comprises a supporting main channel 501 and supporting ribs 502, the top of the middle buffer structure 2 is provided with the supporting main channel 501, supporting ribs 502 are uniformly distributed on two sides of the supporting main channel 501, an air permeable structure 4 is arranged between the sole supporting structure 5 and the middle buffer structure 2, the air permeable structure 4 comprises a PU filling layer 401 and a filling groove 402, the top of the middle buffer structure 2 is provided with the filling groove 402, the filling groove 402 is filled with the PU filling layer 401, a shock absorbing structure 6 is fixedly arranged at the heel of the middle buffer structure 2, the shock absorbing structure 6 comprises a built-in groove 601, an air cushion 602 and air holes 603, an air cushion 602 is fixedly arranged at the heel of the top of the middle buffer structure 2, and an air hole 603 is arranged in the built-in groove 601 between the air cushions 602.

In this embodiment, during operation, the sole of a person steps on the middle buffer structure 2, the sole support structure 5 on the middle buffer structure 2 realizes the support operation to the sole of the person, the support main channel 501 supports the middle part of the sole, the support ribs 502 support the two sides of the sole, and during wearing, the ventilation structure 4 ventilates the sole area, the PU filling layer 401 in the filling groove 402 is not a solid layer, so ventilation operation can be performed through the surface layer at the top of the sole, comfort level of the person during wearing is ensured, then the shock-absorbing structure 6 dampens the heel of the person, the heel presses down the shock-absorbing structure 6, the air cushion 602 in the built-in groove 601 realizes pneumatic buffering shock absorption to the heel of the person, and ventilation effect at the heel can be increased by matching with the ventilation holes 603. The sole reaches a good shock absorption effect after being worn through the shock absorption structure 6 on the middle buffer structure 2, and can reach a good shock absorption buffer effect on the heel of a person when the person wears the sole and makes a more severe movement during the period of wearing, so that the working intensity of the person during mountain running is increased, and the degree of strain of the foot of the person during the period of movement is reduced.

Claims (7)

1. The utility model provides a shock-absorbing running mountain shoe sole, includes bottom structure (1), its characterized in that: an intermediate buffer structure (2) is fixedly arranged at the top of the bottom layer structure (1),

the sole of the middle buffer structure (2) is provided with a sole supporting structure (5), a ventilation structure (4) is arranged between the sole supporting structure (5) and the middle buffer structure (2), and a shock absorption structure (6) is fixedly arranged at the heel of the middle buffer structure (2);

the heel department of substructure (1) bottom is provided with split type antiskid structure (7), and is provided with nameplate structure (3) between split type antiskid structure (7) and substructure (1).

2. The shock absorbing running shoe sole of claim 1, wherein: the bottom structure (1) comprises an RB bottom layer (101), a rubber anti-punch (102), a prism (103) and a diamond anti-slip convex tooth I (104), the RB bottom layer (101) is fixedly arranged at the bottom of the middle buffer structure (2), the rubber anti-punch (102) is arranged at the front side of the RB bottom layer (101), and the prism (103) and the diamond anti-slip convex tooth I (104) are arranged at the bottom of the RB bottom layer (101).

3. The shock absorbing running shoe sole of claim 1, wherein: the middle buffer structure (2) comprises an EVA middle layer (201) and a TPU reinforcing layer (202), wherein the EVA middle layer (201) is fixedly arranged at the top of the bottom layer structure (1), and the TPU reinforcing layer (202) is fixedly arranged at the rear side of the EVA middle layer (201).

4. The shock absorbing running shoe sole of claim 1, wherein: the breathable structure (4) comprises a PU filling layer (401) and a filling groove (402), wherein the filling groove (402) is formed in the top of the middle buffer structure (2), and the PU filling layer (401) is filled in the filling groove (402).

5. The shock absorbing running shoe sole of claim 1, wherein: the sole supporting structure (5) comprises a supporting main channel (501) and supporting ribs (502), the supporting main channel (501) is arranged at the top of the middle buffer structure (2), and the supporting ribs (502) are uniformly distributed on two sides of the supporting main channel (501).

6. The shock absorbing running shoe sole of claim 1, wherein: the shock-absorbing structure (6) comprises an embedded groove (601), air cushions (602) and ventilation holes (603), the heel of the top of the middle buffer structure (2) is provided with the embedded groove (601), the air cushions (602) are fixedly installed in the embedded groove (601), and the ventilation holes (603) are formed in the embedded grooves (601) between the air cushions (602).

7. The shock absorbing running shoe sole of claim 1, wherein: the split type anti-slip structure (7) comprises a split type heel seat (701) and diamond-shaped anti-slip convex teeth II (702), wherein the split type heel seat (701) is arranged at the heel of the bottom layer structure (1), and the diamond-shaped anti-slip convex teeth II (702) are uniformly distributed on the split type heel seat (701).