CN212938300U - Portable sports shoe sole - Google Patents

Abstract

The utility model discloses a portable sports shoes sole, including sole and water drainage tank, the cross current groove has been seted up to water drainage tank's below, and the below in cross current groove is provided with the non slipping spur, the guiding gutter has been seted up to the inside of non slipping spur, and the below of guiding gutter is provided with first buffering air cushion, the below of first buffering air cushion is provided with second buffering air cushion, the top of sole is provided with the sponge layer, and the lower terminal surface on sponge layer is provided with the bradyseism layer, and the lower terminal surface on bradyseism layer is provided with the wearing layer, the inside on bradyseism layer is provided with first bradyseism unit, and the inside of first bradyseism unit is provided with second bradyseism unit. This light sports shoes sole, the structure sets up rationally, and the inside suit second bradyseism unit of first bradyseism unit that sets up to utilize triangular dislocation set, realize the balanced support to the sole, add the buffering air cushion again in the bradyseism layer, and fill EVA rubber particle ball around the buffering air cushion, reach the effect of bradyseism.

Description

Portable sports shoe sole

Technical Field

The utility model relates to a shoes part technical field specifically is a light sports shoes sole.

Background

Along with the continuous improvement of living standard of people, people pursue shoes more and more, the existing soles are generally provided with air cushions or silica gel cushions at heel parts to improve the cushioning performance of the soles, but along with the improvement of requirements of people on the soles, the soles also need to take into account the protection of feet of people, and the like, people need to have certain support to the arch parts of feet and play the cushioning effect to the heel parts in running, jumping and other processes, the soles of the existing cushioning cushions with flexible material arranged at the heel parts are mostly common rubber films, the rubber films do not have deformation spaces between the heel parts and the middle parts of the soles, and the rubber films can not guide the bending of the middle rear parts of the soles in the process that the cushioning cushions are pressed to deform in the motion state of people, so that the support of the soles, particularly the middle parts of the soles to the arch parts of the feet of the shoes is influenced and the cushioning effect of the cushioning cushions is influenced, the buffering pad that current a flexible material for sole heel adopts solid silica gel material mostly, and this kind of sets up extravagant material to owing to do not have the reason in deformation space, the buffering effect is unsatisfactory, and it is unanimous to set up the supporting effect of mode again to people heel both sides and heel middle supporting effect, and when people's focus was unbalanced or the motion state under the foot was unbalanced like this, it was easy because lack the support of side direction and sprained the foot or fallen down.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a light sports shoes sole to the rubber film who provides buckles and the bradyseism pad pressurized production deformation's in-process in solving above-mentioned background art, the rubber film can not guide the buckling at rear portion in the sole, thereby has influenced the support of sole especially sole middle part to people arch of foot portion and has influenced the bradyseism of bradyseism pad, and lacks the balanced support problem to the foot.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a light sports shoe sole, includes sole and water drainage tank, the cross current groove has been seted up to water drainage tank's below, and the below in cross current groove is provided with the non slipping spur, the guiding gutter has been seted up to the inside of non slipping spur, and the below of guiding gutter is provided with first buffering air cushion, the below of first buffering air cushion is provided with second buffering air cushion, and the below of second buffering air cushion is provided with the left wing pad, the right side of left wing pad is provided with the right wing pad, the top of sole is provided with the sponge layer, and the lower terminal surface on sponge layer is provided with the bradyseism layer, and the lower terminal surface on bradyseism layer is provided with the wearing layer, the inside on bradyseism layer is provided with first bradyseism unit, and the inside of first bradyseism unit is provided with second bradyseism unit, perpendicular chute has been seted up to the lower terminal surface.

Preferably, the inside filler on sponge layer is anomalous porous wood fiber ball, the inside filler on bradyseism layer is regular EVA rubber particle ball, and rubber particle ball fixes the bottom surface on bradyseism layer, the inside filler on wearing layer is artificial soft rubber, and between sponge layer and the bradyseism layer, bonds from top to bottom and separates between bradyseism layer and the wearing layer all to be provided with the non-woven fabrics.

Preferably, the cross section of the first buffer air cushion is oval, and an oval ball structure filled with inert gas is arranged inside the first buffer air cushion, the cross section of the second buffer air cushion is round, and a cylinder structure filled with inert gas is arranged inside the second buffer air cushion, EVA rubber strips are bonded between the first buffer air cushion and the second buffer air cushion, and the first buffer air cushion and the second buffer air cushion are fixed on the bottom surface of the cushioning layer.

Preferably, the first cushioning unit is of an inverted triangular structure, three vertexes of the triangle are first cushioning cushions with the same size, the second cushioning unit is of a triangular structure, and the diameter of the second cushioning cushion at the vertex of the triangle is three times that of the other two vertexes.

Preferably, the bottommost surfaces of the first buffer air cushion and the second buffer air cushion are flush with the bottom surface of the wear-resistant layer, the left wing cushion and the right wing cushion are made of the same material as the wear-resistant layer, a gap is reserved between the left wing cushion and the first buffer air cushion at the lowest end, the left wing cushion and the right wing cushion are of irregular triangular structures, and the material usage amount is equal.

Preferably, the anti-skid block is of an irregular quadrilateral structure, the diversion trench in the quadrilateral is of a Y-shaped structure, the branch end of the Y shape is connected with the cross flow trench, and the number of the cross flow trenches is two.

Compared with the prior art, the beneficial effects of the utility model are that: this light sports shoes sole, the structure sets up rationally, and the inside suit second bradyseism unit of first bradyseism unit that sets up to utilize triangular dislocation set, realize the balanced support to the sole, add the buffering air cushion again in the bradyseism layer, and fill EVA rubber particle ball around the buffering air cushion, reach the effect of bradyseism, and it is more light, be fit for sports shoes's use.

Drawings

FIG. 1 is a schematic view of the sole of the present invention;

FIG. 2 is a schematic view of a first cushioning unit of the present invention;

FIG. 3 is a schematic view of a second cushioning unit of the present invention;

fig. 4 is a schematic side view of the sole of the present invention.

In the figure: 1. a sole; 2. a sponge layer; 3. a cushioning layer; 4. a wear layer; 5. a water discharge tank; 6. anti-skid blocks; 7. a first cushion air cushion; 8. a diversion trench; 9. a second buffer air cushion; 10. a left wing pad; 11. a right wing pad; 12. a second cushioning unit; 13. a first cushioning unit; 801. A cross flow trough; 802. a vertical runner.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a portable sports shoe sole comprises a sole 1 and a drainage channel 5, wherein a cross flow channel 801 is arranged below the drainage channel 5 to increase transverse drainage, an anti-skid block 6 is arranged below the cross flow channel 801, a diversion channel 8 is arranged inside the anti-skid block 6, the diversion channel 8 plays a role of anti-skid drainage in rainy days, a first buffering air cushion 7 is arranged below the diversion channel 8, a second buffering air cushion 9 is arranged below the first buffering air cushion 7, a left wing cushion 10 is arranged below the second buffering air cushion 9, a right wing cushion 11 is arranged on the right side of the left wing cushion 10, a sponge layer 2 is arranged at the uppermost end of the sole 1, a cushioning layer 3 is arranged on the lower end surface of the sponge layer 2, a wear-resistant layer 4 is arranged on the lower end surface of the cushioning layer 3, a first cushioning unit 13 is arranged inside the cushioning layer 3, and a second cushioning unit 12 is arranged inside the first cushioning unit 13, the lower end face of the wear-resistant layer 4 is provided with a vertical flow groove 802 for increasing vertical drainage, the internal filler of the sponge layer 2 is an irregular porous wood fiber ball, the ventilation property is increased during the notification of the shock absorption, the internal filler of the shock absorption layer 3 is a regular EVA rubber particle ball, the rubber particle ball is fixed on the bottom face of the shock absorption layer 3, the EVA rubber particle ball has the characteristics of light weight and good elasticity, the internal filler of the wear-resistant layer 4 is artificial soft rubber and has good shock absorption and ground grabbing effects, a non-woven fabric is arranged between the sponge layer 2 and the shock absorption layer 3 and between the shock absorption layer 3 and the wear-resistant layer 4 for up-down adhesion and separation, the first buffer air cushion 7 is oval in cross section and is of an oval ball structure filled with inert gas, the second buffer air cushion 9 is round in cross section and is of a cylinder structure filled with inert gas, so that when the sole 1 is under pressure, the rebound speed is high, the stability is high, EVA rubber strips are bonded between the first buffer air cushions 7 and the second buffer air cushions 9, the first buffer air cushions 7 and the second buffer air cushions 9 are fixed on the bottom surfaces of the buffer layers 3, the first buffer units 13 are of inverted triangle structures, three vertexes of the triangle are the first buffer air cushions 7 with the same size, the second buffer units 12 are of triangle structures, the diameter of the second buffer air cushions 9 at the vertexes of the triangle is three times that of the other two vertexes, the bottommost surfaces of the first buffer air cushions 7 and the second buffer air cushions 9 are flush with the bottom surface of the wear-resistant layer 4, the left wing cushion 10 and the right wing cushion 11 are made of the same material as the wear-resistant layer 4, and a gap is reserved between the left wing cushion 10 and the first buffer air cushion 7 at the lowest end in order that the buffer air cushions do not block when the buffer air cushions expand to the periphery under pressure, and the left wing cushion 10 and the right wing cushion 11 are of irregular triangle structures, the amount of the material is equal to the weight of the material, the anti-skid block 6 is of an irregular quadrilateral structure, the diversion trench 8 in the quadrilateral is of a Y-shaped structure, the branch end of the Y shape is connected with the cross flow trench 801, and the number of the vertical flow trenches 802 is two and is connected with the cross flow trench 801.

When the portable sports shoe sole is used, when the sole 1 is under ground pressure, due to incompressibility of air, the first buffer air cushion 7 and the second buffer air cushion 9 expand towards the periphery, the first cushioning unit 13 and the second cushioning unit 12 are connected to expand towards the periphery, rubber particle balls inside the cushioning layer 3 deform under pressure, first pressure relief is realized, when the pressure reaches the sponge layer 2, porous wood fiber balls inside the sponge layer 2 deform, second pressure relief is realized, when general walking is carried out, the heel touches the ground first, so that in the pressure relief and cushioning process, the first buffer air cushion 7 at the lower end of the first cushioning unit 13 deforms and expands towards the periphery first under pressure, when the deformation is too large, the left wing cushion 10 and the right wing cushion 11 form an inclusion clamp for the first buffer air cushion 7 to reach a stable state, and then the two second buffer air cushions 9 at the lowest ends of the second cushioning unit 12 deform under pressure, because two air cushions of lower extreme are less, and deformation is great, and heel focus reduces, and is more stable, and first bradyseism unit 13 is connected with the inside triangle-shaped of second bradyseism unit 12, when receiving pressure, and pressure spreads to triangle-shaped's both sides, reaches the effect that the balance supported. This is the entire process of working the sole of the portable sports shoe.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a portable sports shoes sole, includes sole (1) and water drainage tank (5), its characterized in that: the damping device is characterized in that a cross flow groove (801) is formed below the drainage groove (5), an anti-skid block (6) is arranged below the cross flow groove (801), a diversion groove (8) is formed inside the anti-skid block (6), a first buffering air cushion (7) is arranged below the diversion groove (8), a second buffering air cushion (9) is arranged below the first buffering air cushion (7), a left wing cushion (10) is arranged below the second buffering air cushion (9), a right wing cushion (11) is arranged on the right side of the left wing cushion (10), a sponge layer (2) is arranged at the uppermost end of the sole (1), a damping layer (3) is arranged on the lower end face of the sponge layer (2), a wear-resistant layer (4) is arranged on the lower end face of the damping layer (3), a first damping unit (13) is arranged inside the damping layer (3), and a second damping unit (12) is arranged inside the first damping unit (13), the lower end face of the wear-resistant layer (4) is provided with a vertical runner (802).

2. A portable sports shoe sole as claimed in claim 1, wherein: the inside filler of sponge layer (2) is anomalous porous wood fiber ball, the inside filler of bradyseism layer (3) is regular EVA rubber particle ball, and rubber particle ball fixes the bottom surface at bradyseism layer (3), the inside filler of wearing layer (4) is artificial soft rubber, and between sponge layer (2) and bradyseism layer (3), bonds about all being provided with the non-woven fabrics between bradyseism layer (3) and wearing layer (4) and separates.

3. A portable sports shoe sole as claimed in claim 1, wherein: first buffering air cushion (7) are oval for the cross section, and inside is filled with inert gas's oval-shaped ball structure, second buffering air cushion (9) are circular for the cross section, and inside is filled with inert gas's cylinder structure, and all have the EVA rubber strip to bond between first buffering air cushion (7) and between second buffering air cushion (9), and first buffering air cushion (7) and second buffering air cushion (9) all fix the bottom surface in bradyseism layer (3).

4. A portable sports shoe sole as claimed in claim 1, wherein: the first cushioning unit (13) is of an inverted triangle structure, three vertexes of the triangle are first cushioning air cushions (7) with the same size, the second cushioning unit (12) is of a triangle structure, and the diameter of the second cushioning air cushion (9) at the vertexes of the triangle is three times that of the other two vertexes.

5. A portable sports shoe sole as claimed in claim 1, wherein: the bottom surfaces of the first buffer air cushion (7) and the second buffer air cushion (9) are flush with the bottom surface of the wear-resistant layer (4), the left wing cushion (10) and the right wing cushion (11) are made of the same material as the wear-resistant layer (4), a gap is reserved between the left wing cushion (10) and the first buffer air cushion (7) at the lowest end, the left wing cushion (10) and the right wing cushion (11) are of irregular triangular structures, and the material consumption is equal.

6. A portable sports shoe sole as claimed in claim 1, wherein: the antiskid blocks (6) are of irregular quadrilateral structures, the diversion trenches (8) in the quadrilateral structures are Y-shaped structures, branch ends of the Y shapes are connected with the transverse flow trenches (801), and the vertical flow trenches (802) are two and connected with the transverse flow trenches (801).

Images