CN216796683U - Skateboard shoes - Google Patents

Abstract

The utility model discloses a skateboard shoe, which comprises a sole and an upper, wherein the sole consists of a front palm part, a waist nest part and a heel part, a front bending groove is transversely arranged between the bottoms of the front palm part and the waist nest part for transition, and a rear bending groove is transversely arranged between the bottoms of the waist nest part and the heel part for transition. The skateboard shoes not only have wear resistance and skid resistance, but also have the functions of rebound cushioning, transition cushioning and labor saving.

Description

Skateboard shoes

Technical Field

The utility model relates to a shoe, in particular to a skateboard shoe.

Background

The skateboard sports are nose ancestors of extreme sports, and the common skateboard sports are skills sports of various complex actions such as sliding, jumping, rotating, billowing and the like on different terrains, grounds and specific facilities by a foot of an athlete to step on a sliding device. This activity therefore entails certain performance requirements for the footwear. The bottom of the sole of a common sliding plate shoe on the market is a whole flat anti-skidding piece, so that the sliding plate shoe can be attached to a large area of the sliding plate conveniently, the friction force between the shoe and the sliding plate is increased, and the action is completed. The whole anti-slip sheet only has anti-slip performance, and the flexibility is poor when the shoe is used, so that the requirement of the sports can not be met to the maximum extent.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing the injection-molded shoe with simple structure and double density or multiple density.

Therefore, the skateboard shoe provided by the utility model comprises a sole and an upper, wherein the sole consists of a forefoot part, a waist socket part and a heel part, and is characterized in that: the front bending groove transition is transversely arranged between the bottoms of the front palm part and the waist socket part, and the rear bending groove transition is transversely arranged between the bottoms of the waist socket part and the rear heel part.

Further, the sole has a shock-absorbing plate that extends from the lumbar to the heel.

Further, the sole has the holding tank with the shock attenuation piece adaptation, the holding tank includes slotted hole and inner groovy, and the slotted hole is located the sole bottom, and the inner groovy is located the position that the upper end of sole corresponds with the slotted hole, the slotted hole bottom is located the inner groovy bottom and switches on in the inner groovy.

Furthermore, the bottom of the front palm part is longitudinally provided with a left bending groove and a right bending groove, and the left bending groove and the right bending groove extend from the front palm part to the front bending groove.

Furthermore, the sections of the front bending groove and the rear bending groove are inverted triangles, and elastic buffer layers are arranged in the front bending groove and the rear bending groove.

Furthermore, at least one auxiliary groove is transversely arranged between the front bending groove and the rear bending groove.

Furthermore, the shock absorption sheet is formed by integrally forming an upper shock absorption sheet and a lower shock absorption sheet, the upper shock absorption sheet is matched with the inner groove, the upper shock absorption sheet is arranged in the inner groove, and the lower shock absorption sheet penetrates through the bottom of the inner groove and is arranged in the groove hole.

Furthermore, the inner grooves and the slotted holes are of O-shaped structures, the size of each inner groove is larger than that of each slotted hole, the rear end parts of the slotted holes are located at the heel parts, the front end parts of the slotted holes are located at the waist nest parts, and the radian of the rear end parts of the slotted holes is larger than that of the front end parts.

Furthermore, the depth of the inner wall of the slotted hole is smoothly transited from deep to shallow, and the depth of the rear end part of the slotted hole is greater than that of the front end part of the slotted hole.

Furthermore, anti-skidding patches are fixed to the bottoms of the front palm portion and the rear root portion, and anti-skidding patches are fixed to the parts, close to the front bending grooves, of the waist pit portions.

The utility model has the beneficial effects that:

1. the bottom of the sole is respectively provided with a front bending groove and a rear bending groove, and the front bending groove and the rear bending groove are in an inverted triangle shape. The arrangement of the bending groove is convenient for the sliding plate to move, and the bending is easier and more labor-saving.

2. The auxiliary groove is arranged between the front bending groove and the rear bending groove, so that the phenomenon that the front bending groove and the rear bending groove are too hard to bend when the front bending groove and the rear bending groove are bent in movement is avoided, the effects of transition buffering and labor saving are achieved, and the front bending groove and the rear bending groove are assisted to bend in movement.

3. The half sole part is provided with a left bending groove and a right bending groove, so that a sportsman needs to control the direction by adopting the action of tilting at one side in the movement of the sliding plate, and the left bending groove and the right bending groove are convenient for the sportsman to control the direction by tilting at the left side and the right side more easily.

4. The holding tank is O type structural design, and the last shock attenuation piece of shock attenuation piece is arranged in the inner groovy, and inside lower shock attenuation piece passed the inner groovy bottom and arranged the slotted hole in, by sole bottom direction, lower shock attenuation piece was visual state, and tip radian is greater than preceding tip behind the slotted hole. According to the distribution of human body foot type pressure, the heel is a pressure concentration area, when the body sinks, the pressure of the heel is maximum, the pressure is outwards extruded along the radian of the rear end part of the slotted hole at the heel, the rebound effect is realized when the shape is lifted up again, the larger the radian is, the larger the rebound force is, and the relative speed also becomes fast. The top end of the slotted hole is positioned at the waist socket, the smaller the force borne by the waist socket is, when the heel rebounds, the waist socket can be better driven to rebound, and the rebound effect in the movement of the skateboard is better.

5. The depth of the inner wall of the slotted hole is smoothly transited from deep to shallow, and the depth of the rear end part of the slotted hole is greater than that of the front end part of the slotted hole. When the pressure sinks in the movement, the force borne by the heel is larger, and the deeper the groove hole is, the better and more labor-saving the rebound is.

6. The middle-upper damping sheet of the damping sheet is positioned in the inner groove, and the rebound and cushioning effects of the heel are guaranteed to the maximum extent in the movement of the sliding plate.

7. When the sole is in motion, the front sole part and the heel part are the most easily worn parts, and the wear-resisting, anti-skidding and protecting effects are improved by adding the rubber sheets. Meanwhile, the part of the waist part close to the front bending groove is fixed with an anti-skid paster. In movement, the part of the waist part close to the front bending groove inevitably contacts the ground.

The anti-skid and wear-resistant effects are achieved through the anti-skid paster.

Drawings

FIG. 1 is a schematic view of a sole bottom structure of a skate provided by the present invention;

FIG. 2 is a schematic view of a partial structure of a bent portion of a sole of the skate shown in FIG. 1;

FIG. 3 is a schematic top view of the sole of the skate of FIG. 1;

FIG. 4 is a schematic top view of the skateboard shoe of FIG. 3 showing a state where the bottom sole has no shock absorbing plate;

fig. 5 is a schematic structural view of a shock-absorbing plate of the skateboard shoe of fig. 3.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the skateboard shoe provided by the embodiment of the utility model comprises a sole 1 and an upper, wherein the sole 1 consists of a half sole part 2, a lumbar pit part 3 and a heel part 4. The transition of bending groove 5 before transversely setting up between the bottom of preceding palm portion 2 and flank portion 3, the transition of bending groove 6 after transversely setting up between the bottom of flank portion 3 and heel portion 4. The arrangement of the bending groove is convenient for the sliding plate to move, the bending is easier and more labor-saving, and the feet of the athletes are easier in the movement.

Furthermore, the sections of the front bending groove 5 and the rear bending groove 6 are inverted triangles, and elastic buffer layers 7 are arranged in the front bending groove 5 and the rear bending groove 6. The setting of the inverted triangle makes the whole process of bending to the reply more light and convenient, and the design of the elastic buffer layer makes a buffer in the process of bending or replying, so that the feet of the athlete feel more comfortable, and the user experience is better.

Further, the bottom of the front palm part 2 is longitudinally provided with a left bending groove 8 and a right bending groove 8, and the left bending groove 8 and the right bending groove 8 extend from the front bending groove to the front palm part. In the movement of the sliding plate, the athlete needs to control the direction by adopting the action of tilting at one side, and the design of the left and right bending grooves 8 is convenient for the athlete to control the direction by tilting left and right more easily.

Further, at least one auxiliary groove 9 is transversely arranged between the front bending groove 5 and the rear bending groove 6. The number of the auxiliary grooves 9 is preferably two, and the depth of the auxiliary grooves 9 is smaller than that of the front bending grooves 5 and the rear bending grooves 6. When the bending is carried out in the movement, the auxiliary groove 9 can prevent the front bending groove and the rear bending groove from being bent too hard, so that the effects of transition buffering and labor saving are achieved, and the front bending groove and the rear bending groove are assisted to be bent in the movement.

Further, the sole has a shock absorbing plate 10, and the shock absorbing plate 10 extends from the lumbar portion 3 to the heel portion 4. The shock absorption sheet 10 is composed of a plurality of TPU particles and a gel wrapping layer wrapping the TPU particles. Through the design of shock attenuation piece 10, the effect of reinforcing sole bradyseism and resilience.

Further, the sole 1 has receiving grooves adapted to the shock-absorbing plate 10, the receiving grooves including a groove hole 11 and an inner groove 12. The groove hole 11 is located at the bottom of the sole, the inner groove 12 is located at the position, corresponding to the groove hole 11, of the upper end of the sole, and the bottom of the groove hole 11 is located at the bottom of the inner groove 12 and is communicated with the inner groove 12.

Further, the damping piece 10 is formed by integrally forming an upper damping piece 13 and a lower damping piece 14, the upper damping piece 13 is matched with the inner groove 12, the upper damping piece 13 is arranged in the inner groove 12, and the upper surface of the upper damping piece 13 is flush with the opening of the inner groove. The lower damping piece 14 penetrates through the bottom of the inner groove and is arranged inside the groove hole 11, the outer surface of the lower damping piece 14 is arranged inside the groove hole, the lower damping piece 14 and the groove hole 11 form a groove structure, and the outer surface of the lower damping piece 14 is in a visible state from the bottom direction of the sole. The middle-upper shock absorption piece 13 of the shock absorption piece is positioned in the inner groove 12, and the rebound and shock absorption effects of the heel are guaranteed to the maximum extent in the movement of the sliding plate.

Further, the inner groove 12 and the slot hole 11 are both in an O-shaped structure, the size of the inner groove 12 is larger than that of the slot hole, the rear end part of the slot hole 11 is located at the heel part 4, the front end part of the slot hole 11 is located at the waist socket part 3, and the radian of the rear end part 15 of the slot hole is larger than that of the front end part 16 of the slot hole. The holding tank is the design of O type structure, and slot hole rear end portion 15 and front end portion 16 are the cambered surface design promptly. According to the distribution of human body foot type pressure, the heel is a pressure concentration area, when the body sinks, the pressure of the heel is maximum, the pressure is outwards extruded along the radian of the rear end part of the slotted hole at the heel, the rebound effect is realized when the shape is raised back, the larger the radian of the heel is, the larger the rebound force is, and the relative speed is also increased. And the front end part 16 of the slot hole is positioned at the position of the waist socket, the smaller the force born by the waist socket is, when the heel rebounds, the radian of the front end part is smaller than that of the back root part, so that the waist socket can be better driven to rebound, and the rebounding effect in the sliding plate movement is better.

Furthermore, the depth of the inner wall of the slot 11 is smoothly transited from deep to shallow, and the depth of the rear end part 15 of the slot is greater than that of the front end part 16 of the slot. After the groove structure formed by the lower shock absorbing sheet 14 and the groove hole 11, the depth of the inner wall at the heel part of the groove structure is deepest and gradually becomes shallow towards the side of the waist pit. When the pressure sinks in the movement, the force borne by the heel is larger, and the deeper the groove hole at the heel is, the better and more labor-saving the rebound is.

Furthermore, anti-slip patches 17 are fixed at the bottom of the front palm part 2 and the bottom of the rear root part 2, and anti-slip patches 18 are fixed at the part of the waist part close to the front bending groove. When the sole is in motion, the front sole part and the heel part are the most easily worn parts, and the wear-resisting, anti-skidding and protecting effects are improved by adding the rubber sheets. Meanwhile, the part of the waist part close to the front bending groove is fixed with an antiskid patch 18, and the part of the waist part close to the front bending groove inevitably contacts the ground in movement. The anti-skid and wear-resistant effects are achieved through the anti-skid paster. And the sole main body is made of polyurethane material, so that the whole weight of the sole is reduced, and the resilience performance is good. The skateboard shoes provided by the utility model meet various requirements of bending, left-right dumping, rebounding, shock absorption and the like in the movement of the skateboard.

The above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the scope of the present invention. It should be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model, and are considered to be within the scope of the utility model.

Claims (10)

1. The utility model provides a skateboard shoe, includes sole and upper of a shoe, the sole comprises preceding palm portion, waist nest portion and heel portion, characterized by: the front bending groove transition is transversely arranged between the bottoms of the front palm part and the waist socket part, and the rear bending groove transition is transversely arranged between the bottoms of the waist socket part and the rear heel part.

2. The skate of claim 1 wherein: the sole is provided with a damping sheet which extends from the waist nest part to the heel part.

3. The skateboard shoe as claimed in claim 2, wherein the sole has receiving grooves adapted to the damping piece, the receiving grooves include a groove hole and an inner groove, the groove hole is located at the bottom of the sole, the inner groove is located at the upper end of the sole at a position corresponding to the groove hole, and the bottom of the groove hole is located at the bottom of the inner groove and is communicated with the inner groove.

4. A skateboard shoe as claimed in claim 1, 2 or 3, wherein: the sole portion is vertically provided with left and right bending grooves which extend from the sole portion to the front bending groove.

5. The skate of claim 4 wherein: the front bending groove and the back bending groove are inverted-triangular in cross section, and elastic buffer layers are arranged in the front bending groove and the back bending groove.

6. The skate of claim 5 wherein: at least one auxiliary groove is transversely arranged between the front bending groove and the rear bending groove.

7. The skateboard shoe as claimed in claim 3, wherein the damping sheet is integrally formed of an upper damping sheet fitted into the inner groove and a lower damping sheet disposed inside the groove hole through the bottom of the inner groove.

8. The skate of claim 7 wherein the inner grooves and slots are O-shaped, the inner grooves having a dimension greater than the slots, the rear ends of the slots being located at the heel portion, the front ends of the slots being located at the waist portion, the rear ends of the slots having a greater curvature than the front ends.

9. The skateboard shoe as claimed in claim 3, 7 or 8, wherein the depth of the inner wall of the slot hole is smoothly changed from deep to shallow, and the depth of the rear end portion of the slot hole is greater than that of the front end portion of the slot hole.

10. The skateboard shoe as claimed in claim 1, 2, 3, 5, 6, 7 or 8, wherein the sole of the forefoot portion and the sole of the rear root portion are fixed with anti-slip patches, and the part of the waist portion near the front bending groove is fixed with anti-slip patches.

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