CN213215653U - Sole non-slip mat and non-slip sole - Google Patents

Abstract

The technical scheme is that the sole non-slip mat and the non-slip sole belong to the field of soles, and the sole has better non-slip and anti-shock performance at the same time, so that the normal use of accumulated water road conditions is met; this scheme is including being used for fixing the pad body in sole palm department, be equipped with the tip portion on the pad body, be located the relative both sides of tip portion and towards left alar part and the right alar part of sole heel side extension, be located the intermediate part between left alar part and the right arm, still include a plurality of be used for with the burr buffer block of ground contact, a plurality of be used for holding the intaglio buffer block of ponding, the burr buffer block divides the relative both sides of establishing at intermediate part and tip portion, the intermediate part at left alar part, right alar part and tip portion is established to the intaglio buffer block branch.

Description

Sole non-slip mat and non-slip sole

Technical Field

The utility model relates to a sole field, especially a sole slipmat and anti-skidding sole.

Background

The sole has a rather complicated structure, and can comprise all materials forming the bottom, such as an outsole, a midsole and a heel, but whatever the materials, the sole has the characteristics of wear resistance, water resistance, oil resistance, heat resistance, pressure resistance, impact resistance, good elasticity, easy adaptation to the foot shape, difficult deformation after shaping, heat preservation, easy moisture absorption and the like.

In rainy season, people are inevitable to walk on a road surface with accumulated water, the anti-skid performance of the sole is important for the safety of walking, meanwhile, in order to take the comfort of wearing into consideration, the anti-skid function is indispensable, the anti-skid structure of the sole can refer to the technical scheme of patent application No. 201110359217.8, the anti-skid sole comprises an outsole, a groove is arranged on the bottom surface of the heel of the outsole, an anti-skid device is arranged in the groove, spring fixing blocks are arranged on the outsole on two sides of the groove, the anti-skid device comprises a base fixed on the outsole, an anti-skid sheet is arranged on the base, anti-skid teeth are arranged on the back surface of the anti-skid sheet, spring grooves are also arranged on the base, springs are arranged in the spring grooves on two sides of the anti-skid sheet, one end of each spring is fixed on the spring fixing block, the other end of each spring is fixed on a mounting column on the anti-skid, all be provided with bayonet lock mechanism on the big sole that the breach corresponds, bayonet lock mechanism includes the through-hole of horizontal setting on the big sole, and the reset spring who takes breach bayonet lock and cover to establish outside the bayonet lock all sets up in the through-hole, and wherein the one end of bayonet lock is together fixed with the button that sets up outside big sole side face, and the other end of bayonet lock can pass the outside that the through-hole stretches out the through-hole, and reset spring's both ends all restrict in the through-hole, and the breach on the bayonet lock is corresponding with the breach on the antiskid ribbed tile.

Above-mentioned this scheme adopts the method of mechanical type, adds in the sole bottom and establishes the antiskid piece, still is equipped with the spring between antiskid piece and the sole, utilizes the elasticity of spring to push up the antiskid piece tightly on the road surface, increase frictional force to improve anti-skidding performance, though have better anti-skidding effect, nevertheless adopt mechanical type structure, the shockproof effect is extremely poor, does not have the comfort of a little.

At present, in the technical field of soles, few and few soles which simultaneously have anti-skidding and anti-vibration functions cannot meet daily requirements of actual use.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a sole slipmat and anti-skidding sole realizes that the sole has better antiskid and shock resistance performance simultaneously, satisfies the normal use of ponding road conditions.

The utility model provides a technical scheme does: the utility model provides a sole slipmat, is including being used for fixing the pad body in sole department, be equipped with the tip portion on the pad body, be located the relative both sides of tip portion and towards left alar part and the right alar part that sole heel side extends, be located the intermediate part between left alar part and the right arm, still include a plurality of be used for with the burr buffer block of ground contact, a plurality of be used for holding the depressed grain buffer block of ponding, the relative both sides at intermediate part and tip portion are established to the burr buffer block branch, the middle part at left alar part, right alar part and tip portion is established to the depressed grain buffer block branch.

In foretell sole slipmat, the middle part of left alar part and right alar part still is equipped with the burr module that constitutes by a plurality of burr buffer block, the burr module is equipped with a plurality of, and arranges in proper order towards sole heel side.

In the non-slip mat for soles, annular grooves are respectively arranged between the convex pattern modules and the concave pattern buffer blocks on the left wing part and the right wing part.

In the non-slip sole pad, the concave grain buffer block at the toe part and the convex grain buffer block at the middle part are respectively provided with a strip-shaped groove.

In the non-slip mat for the sole, the mat body is also provided with a positioning hole for positioning with the bottom of the sole; the positioning hole is arranged between the left wing part and the middle part and between the right wing part and the middle part.

In the above non-slip mat for shoe sole, the convex patterns of the convex pattern buffer block are circular bosses, and the concave patterns on the concave pattern buffer block are square concave platforms.

The anti-skidding sole comprises a sole, wherein the bottom sole of the sole is fixedly connected with a pad body of an anti-skidding pad of the sole, convex strips penetrating through positioning holes of the pad body are arranged on the sole, and convex line buffer blocks and concave line buffer blocks extend to the outer side of the sole.

In the anti-skidding sole, the anti-skidding sole further comprises a rebound cushion arranged at the bottom heel of the sole; the rebound cushion is of a U-shaped structure, and the opening of the rebound cushion faces to the toe cap side of the sole.

In the anti-slip sole, the bottom of the sole is provided with a supporting strip with an X-shaped structure; one side of the supporting bar extends towards the middle part of the cushion body, and the other side of the supporting bar extends to the inner side of the opening of the rebound cushion.

In the antiskid sole, the sole is made of supercritical physical foaming EVA.

After the technical scheme is adopted in the utility model, its beneficial effect who has is:

according to the scheme, the toe cap part, the left wing part, the right wing part and the middle part are divided from the pad body according to different applied pressures on different parts of the foot of a human body, the two sides and the middle part of the toe cap part form a space triangular structure, and the buffer blocks on the triangular structure are all convex pattern buffer blocks, so that the grounding area is increased; the left wing part, the right wing part and the middle part of the toe cap part also form a space triangular structure, and a buffer block on the triangular structure is an intaglio buffer block, so that accumulated water is pressed into intaglio on the intaglio buffer block, a water mould between the sole and the ground is avoided, and the friction force is increased; two space triangle-shaped structures are crisscross each other, and evenly distributed when the buffer block provides the buffering, has crowded away the water film, has increased area of contact, realizes that the sole has better antiskid and shock resistance performance simultaneously, satisfies the normal use of ponding road conditions.

Drawings

Fig. 1 is a schematic structural view of a shoe sole non-slip mat according to embodiment 1 of the present invention;

fig. 2 is a structural layout view of the non-slip sole pad according to embodiment 1 of the present invention;

fig. 3 is a schematic structural view of an anti-slip sole according to embodiment 2 of the present invention.

Reference numerals: 1. a cushion body; 2. a toe cap portion; 3. a right wing portion; 4. an annular groove; 5. a relief pattern module; 6. an intermediate portion; 7. A left wing portion; 8. positioning holes; 9. a strip-shaped groove; 10. a relief buffer block; 11. a dimpled grain buffer block; 12. a convex strip; 13. a supporting strip; 14. rebound cushion

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the following detailed description, but the present invention is not limited thereto.

Example 1:

as shown in fig. 1-2, a sole non-slip mat, including being used for fixing the pad body 1 at sole palm department, be equipped with tip portion 2 on the pad body 1, be located tip portion 2 relative both sides and towards left wing portion 7 and right wing portion 3 that sole heel side extended, be located the intermediate part 6 between left wing portion 7 and the right arm portion, still include the burr buffer block 10 that a plurality of is used for with ground contact, a plurality of be used for holding ponding intaglio buffer block 11, burr buffer block 10 divide and establish the relative both sides at intermediate part 6 and tip portion 2, intaglio buffer block 11 divides and establishes the middle part at left wing portion 7, right wing portion 3 and tip portion 2.

The sole has the advantages that the sole body 1 is divided into a toe cap part 2, a left wing part 7, a right wing part 3 and a middle part 6 according to different applied pressures on different parts of the foot of a human body, the two sides of the toe cap part 2 and the middle part 6 form a space triangular structure, and the buffer blocks on the triangular structure are all convex pattern buffer blocks 10, so that the grounding area is increased; the left wing part 7, the right wing part 3 and the middle part of the toe cap part 2 also form a space triangular structure, a buffer block on the triangular structure is an intaglio buffer block 11, accumulated water is pressed into intaglio on the intaglio buffer block 11, a water mould between the sole and the ground is avoided, and the friction force is increased; two space triangle-shaped structures are crisscross each other, and evenly distributed when the buffer block provides the buffering, has crowded away the water film, has increased area of contact, realizes that the sole has better antiskid and shock resistance performance simultaneously, satisfies the normal use of ponding road conditions.

The reason why the pattern can increase the frictional force is that, when it rains, a water film is formed between the ground and the sole, which becomes the contact between the ground and the water, the water and the sole contact, the frictional force is greatly reduced, the pattern design of the sole and the tire can quickly drain the water on the contact surface after movement, which becomes the contact between the ground and the rubber, and simultaneously, the pressure of the cavity formed by the original water lines is reduced because the water is drained after the drainage, and the external atmospheric pressure compresses the rubber and the ground to increase the frictional force.

In practical application, the middle part of left alar part 7 and right alar part 3 still is equipped with burr module 5 that constitutes by a plurality of burr buffer block 10, burr module 5 is equipped with a plurality of, and arranges in proper order towards sole heel side.

The left wing part 7 and the right wing part 3 correspond to two sides of the sole, and the contact area with the ground is properly increased by arranging the convex pattern module 5, so that the lack of the ground gripping force caused by the concave pattern buffer block 11 is avoided.

In practical use, the annular grooves 4 are respectively arranged between the convex pattern modules 5 and the concave pattern buffer blocks 11 on the left wing part 7 and the right wing part 3.

The use effect is that, through setting up annular groove 4, the water film is then advanced into annular groove 4 to burr module 5 extrusion, and drainage via annular groove 4 is discharged to increase frictional force.

In a further improvement, the concave pattern buffer block 11 of the toe cap part 2 and the convex pattern buffer block 10 of the middle part 6 are respectively provided with a strip-shaped groove 9.

In order to enhance the water containing capacity of the whole middle part of the cushion body 1, the water containing space is increased by arranging the strip-shaped grooves 9, and the generation of a water film is avoided.

In the installation and production, the cushion body 1 is also provided with a positioning hole 8 for positioning with the bottom of the sole; the positioning holes 8 are provided between the left wing part 7 and the middle part 6, and between the right wing part 3 and the middle part 6.

In order to fix the cushion body 1 at the bottom sole of the sole, the through holes on the cushion body 1 and the bottom of the sole are used for limiting installation, so that the installation accuracy is greatly improved.

The concrete shape is that the convex pattern of the convex pattern buffer block 10 is a circular boss, and the concave pattern on the concave pattern buffer block 11 is a square concave platform.

Circular boss and square concave station are so adopted because circular boss has better stability, and each pressure is equalling, and square concave station then has great space volume, can hold more ponding.

Example 2:

as shown in fig. 1-3, an anti-slip sole comprises a sole, wherein a sole body 1 of an anti-slip sole of the sole is fixedly connected with a sole bottom, a raised line 12 penetrating through a positioning hole 8 of the sole body 1 is arranged on the sole, and a raised line buffer block 10 and a concave line buffer block 11 are arranged in an extending manner towards the outer side of the sole.

In the implementation application, through setting up sand grip 12 on the sole, utilize sand grip 12 to pass the point position hole on filling up body 1, reach the effect of installation location, improve production quality.

In a further refinement of this embodiment, a resilient pad 14 is provided at the bottom heel of the sole; the rebound cushion 14 is of a U-shaped structure, and the opening of the rebound cushion 14 faces to the toe cap side of the sole.

The improvement purpose is that heel department of sole has great application of pressure, and sole material itself is less after having cushioned application of pressure, at rebound cushion 14's supplementary, improves the resilience dynamics of sole heel department, strengthens the feeling of landing of step.

In a further improvement of this embodiment, the bottom of the sole is provided with a support strip 13 in an X-shaped structure; one side of the supporting strip 13 extends towards the middle part 6 of the pad body 1, and the other side of the supporting strip 13 extends to the inner side of the opening of the rebound pad 14.

The improved shoe has the advantages that the shoe achieves excellent effects in the aspects of skid resistance, shock resistance and the like, meanwhile, the space between the sole and the heel is strengthened, the strength of the sole is enhanced, the tolerance is improved, and the service life is prolonged.

In addition, the sole material is supercritical physical foaming EVA.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (10)

1. The utility model provides a sole slipmat, is including being used for fixing the pad body (1) of sole department, be equipped with tip portion (2) on pad body (1), be located tip portion (2) relative both sides and towards left alar part (7) and right alar part (3) that sole heel side extends, be located intermediate part (6) between left alar part (7) and the right arm, its characterized in that still includes burr buffer block (10) that a plurality of is used for contacting with ground, a plurality of is used for holding the intaglio buffer block (11) of ponding, relative both sides at intermediate part (6) and tip portion (2) are established to burr buffer block (10) branch, intaglio buffer block (11) divide the middle part of establishing at left alar part (7), right alar part (3) and tip portion (2).

2. The non-slip mat for shoe soles according to claim 1, characterized in that the middle of the left wing part (7) and the right wing part (3) is further provided with a plurality of relief modules (5) composed of a plurality of relief buffer blocks (10), and the relief modules (5) are provided with a plurality of relief modules and are sequentially arranged towards the heel side of the shoe sole.

3. The non-slip mat for shoe soles according to claim 2, characterized in that the annular grooves (4) are respectively provided between the relief pattern sets (5) and the concave pattern buffer blocks (11) on the left wing part (7) and the right wing part (3).

4. The non-slip sole pad according to claim 1, characterized in that the concave thread buffer blocks (11) of the toe part (2) and the convex thread buffer blocks (10) of the middle part (6) are respectively provided with a strip-shaped groove (9).

5. The non-slip mat for the sole according to claim 1, characterized in that the mat body (1) is further provided with a positioning hole (8) for positioning with the bottom of the sole; the positioning holes (8) are arranged between the left wing part (7) and the middle part (6) and between the right wing part (3) and the middle part (6).

6. The non-slip mat for shoe soles according to any of claims 1 to 5, characterized in that the ridges of the ridge buffer block (10) are circular bosses and the grooves of the groove buffer block (11) are square bosses.

7. An anti-skidding sole, comprising a sole, characterized in that the sole bottom sole is fixedly connected with the pad body (1) of the anti-skidding sole pad according to any one of claims 1 to 6, the sole is provided with a convex strip (12) which passes through a positioning hole (8) of the pad body (1), and the convex strip buffer block (10) and the concave strip buffer block (11) are arranged to extend towards the outer side of the sole.

8. The anti-slip sole according to claim 7, further comprising a resilient pad (14) arranged at the bottom heel of the sole; the rebound cushion (14) is of a U-shaped structure, and the opening of the rebound cushion (14) faces to the toe cap side of the sole.

9. The anti-slip sole as claimed in claim 8, characterized in that the bottom of the sole is provided with a support strip (13) of X-shaped configuration; one side of the supporting strip (13) extends towards the middle part (6) of the cushion body (1), and the other side of the supporting strip (13) extends to the inner side of the opening of the rebound cushion (14).

10. The anti-slip sole according to claim 7, wherein the sole material is supercritical physical foaming EVA.

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