CN204888905U - Wear -resisting sole of antiskid - Google Patents

Abstract

The utility model provides a wear -resisting sole of antiskid, sole are three layer construction, and from the top down is upper strata, inlayer and bottom surface layer in proper order, and wherein bottom surface layer hardness is the biggest, the hardness of inlayer between bottom surface layer and upper strata, the bilayer structure of bottom surface layer for comprising middle level and bottom, upper strata, inlayer and middle level shape and big or small homogeneous phase be with constituting sole upper portion, and the bottom be the sole lower part, and the edge on sole upper portion is given prominence to in sole lower part component hierarchic structure, the preceding sole of bottom lower surface and heel department are equipped with 3 non -slip raised groups along vertical, and the same each protruding end to end is the corrugate to bellied shape among the middle B of non -slip raised group, all is equipped with the arch connecting block on each trough and all be the quadrangle among the A of non -slip raised group of both sides, or each protrudingly constitutes by two pipe end connection among the B of non -slip raised group, and the axis of two pipes is crossing, the directional toe cap of its contained angle, the difficult wearing and tearing of good, the anti -skidding structure of this sole toughness are and the antiskid is effectual.

Description

A kind of anti-skid wearable sole

Technical field

The utility model relates to a kind of sole, is specifically related to a kind of anti-skid wearable sole.

Background technology

Walking or when standing, biped bears the whole weight of health, therefore the wearing comfort of footwear seems particularly important, it is ventilative comfortable that people require footwear to wear, and have the burden that certain elasticity slows down biped, in shoes, upper of a shoe covers most of area of foot, therefore requires that water-proof breathable properties is good; Sole intermittent flexural deformation during walking, wherein the forefoot place deflection of sole is maximum, therefore requires that sole has good toughness.

The anti-skidding design of conventional soles is and arranges anti-skidding projection on shoe sole bottom, Cleat structures is identical, therefore single with the direction on ground, and after long-time dress, abrasion condition is identical, after this kind of sole uses for a long time, along with its skidproof effect of wearing and tearing of anti-skidding projection reduces gradually.

Summary of the invention

The purpose of this utility model is to solve the deficiencies in the prior art, and provides that a kind of toughness is good, anti-skid structure is not easy to wear and the anti-skid wearable sole of good antiskid effect.

Realizing the technical scheme that the utility model object adopts is, a kind of anti-skid wearable sole, sole is three-decker, be followed successively by upper strata, internal layer and bottom surface layer from top to bottom, wherein bottom surface layer hardness is maximum, and the hardness of internal layer is between bottom surface layer and upper strata, described bottom surface layer is the double-decker be made up of middle level and bottom, upper strata, internal layer and middle level shape and size homogeneous phase are with forming sole top, and bottom is sole bottom, and the edge on sole top protrudes from sole bottom and forms hierarchic structure; The lower surface of bottom is vertically provided with more than 2 anti-skidding convex sets, anti-skidding convex sets comprises the identical projection of more than 2 shapes, and the shape of adjacent two anti-skidding convex sets protrusions is not identical.

Be provided with interlayer between internal layer and the rear portion in middle level, the rear portion of interlayer is relative with heel position and thickness is constant, and the front portion of interlayer is wedge shape, and its thickness increases progressively from front to back successively, and the wedge-like portion of interlayer is corresponding with the position of human body arch of foot.

The thickness of described bottom increases progressively from front to back successively, and the arch of foot place indent of bottom lower surface is curved, and anti-skidding convex sets is positioned at forefoot and the heel place of bottom lower surface.

The lower surface of bottom is vertically provided with 3 anti-skidding convex sets, in the anti-skidding convex sets A of both sides, the shape of each projection is identical and all in quadrangle, each projection all transversely offers open slot; In middle anti-skidding convex sets B, each projection joins end to end in corrugated, and each trough of anti-skidding convex sets B is equipped with arch contiguous block.

The lower surface of bottom is vertically provided with 3 anti-skidding convex sets, the shape of the anti-skidding convex sets A protrusions of both sides is identical and all in quadrangle, in middle anti-skidding convex sets B, each projection connects and composes by two pipe ends, the axes intersect of two pipes, its angle points to toe cap, corner dimension is 90 ° ~ 180 °, and the outer surface of pipe evenly offers groove vertically.

The lower surface of bottom is vertically provided with 3 anti-skidding convex sets, identical and the equal indentation of the shape of the anti-skidding convex sets A protrusions of both sides, in middle anti-skidding convex sets B, each projection is all in arc shaped, be positioned at the arc shaped projection at forefoot and heel place towards different.

The middle part indent at bottom forefoot and heel place, inner concave is provided with anti-skidding convex sets B, in anti-skidding convex sets B, each convex shape is identical and all in polyline shaped, its end face flushes with the lower surface of bottom, and the both sides of bottom inner fovea part all transversely offer curved groove.

The lower surface of bottom is vertically provided with 3 anti-skidding convex sets, in the anti-skidding convex sets A of both sides, the shape of each projection is identical and all in quadrangle, in middle anti-skidding convex sets B, each projection is all in polyline shaped, be positioned at the polyline shaped projection at forefoot and heel place towards different.

The edge of sole upper surface is provided with the trough identical with sole shape, and sole top and the junction of sole bottom are provided with the relative wire casing of receiving with trough position.

As shown from the above technical solution, the anti-skid wearable sole that the utility model provides, the edge on sole top protrudes from sole bottom and forms hierarchic structure, the area on sole top is larger, ensure that there are enough contacts area in sole and vola, sole bottom area is less, alleviates the weight of sole; The anti-skid structure of sole is more than 2 anti-skidding convex sets, the shape of adjacent two anti-skidding convex sets protrusions is not identical, therefore each anti-skidding convex sets is different from the direction of frictional force during earth surface, good antiskid effect, because Impact direction is different, therefore the abrading section of each anti-skidding convex sets is different, and in anti-skidding convex sets, each convex shape is identical, ensures the intensity of each anti-skidding convex sets self.

The main stress point of sole is forefoot and heel place, therefore anti-skidding convex sets is distributed in above-mentioned two places, anti-skidding convex sets is provided with three, the anti-skidding convex shape of anti-skidding convex sets being arranged in both sides is identical, the utility model provides three kinds of Cleat structures, be respectively: 1, the anti-skidding projection of quadrangle, be positioned at the both sides of sole lower surface, each projection all transversely offers open slot, during walking, sole bends, transverse opening groove in the anti-skidding projection of quadrangle increases the surface area of the anti-skidding projection of quadrangle, make it that there is larger elastic force, avoid the anti-skidding convex surfaces drawing crack of quadrangle, 2, the anti-skidding projection of corrugated, be positioned at the middle part of sole lower surface, each trough of the anti-skidding projection of corrugated is equipped with arch contiguous block, arch contiguous block connects adjacent two wave heaves, bear most of pulling force when sole bends, the anti-skidding protruding crest of corrugated protrudes from the surface of arch contiguous block, plays anti-skidding effect, the anti-skidding position of sole is different with advancing side, extends sole and wears the life-span, 3, the anti-skidding projection of bending type tubulose, be positioned at the middle part of sole lower surface, the outer surface of pipe evenly offers groove vertically, groove increases the frictional force on pipe projection and ground, the axes intersect of two pipes is bending, and during owing to walking forward, the stiction on sole and ground forward, therefore designs angle and points to toe cap, namely the opening of angle is towards the heel place of bottom, increases the frictional force on pipe projection and ground, 4, the anti-skidding projection of arc/polyline shaped, is positioned at the middle part of sole lower surface, be positioned at the arc/polyline shaped projection at forefoot and heel place towards different, 5, the anti-skidding projection be separated by curved groove, is positioned at the both sides of sole lower surface.

Interlayer is provided with between internal layer and the rear portion in middle level, interlayer is positioned at that the thickness at heel place is maximum and thickness is constant, remainder gradient thickness is wedge shape, because heel is stressed maximum, this structure can play good cushioning effect to the impact that heel during walking bears, and is that sole has preferably elasticity, increases wearing comfort, the wedge-like portion of interlayer is corresponding with the position of human body arch of foot, provides enough supports to arch of foot; The thickness of bottom increases progressively from front to back successively, and the arch of foot place indent of bottom lower surface is curved, and arc transition ensures the firm of sole arch of foot place and forefoot place and heel place connecting portion.

Trough and fixing for sole and upper of a shoe of wire casing of receiving, trough and wire casing of receiving can play effective protection to connecting line, trough with receive wire casing and be all positioned at sole top, rainwater can be avoided the corrosion of connecting line, make sole durable in use.

Accompanying drawing explanation

The side view of the anti-skid wearable sole that Fig. 1 provides for the utility model.

Fig. 2 is the structural representation of embodiment 1 shoe sole bottom.

Fig. 3 is the structural representation of embodiment 2 shoe sole bottom.

Fig. 4 is the structural representation of embodiment 3 shoe sole bottom.

Fig. 5 is the structural representation of embodiment 4 shoe sole bottom.

Fig. 6 is the structural representation of embodiment 5 shoe sole bottom.

Wherein, 1-upper strata, 2-internal layer, 3-interlayer, 4-receives wire casing, 5-trough, 6-bottom surface layer, the anti-skidding convex sets of 7-, 8-middle level, 9-bottom, 10-sole top, 11-sole bottom, anti-skidding convex sets B, the 14-open slot of 12-anti-skidding convex sets A, 13-, 15-arch contiguous block, 16-groove, 17-curved groove.

Detailed description of the invention

Illustrate in detail the utility model below in conjunction with drawings and Examples, content of the present utility model is not limited to following examples.

Embodiment 1: the anti-skid wearable sole that the utility model provides, its structure as shown in Figure 1, sole is three-decker, be followed successively by upper strata 1 from top to bottom, internal layer 2 and bottom surface layer 6, wherein bottom surface layer hardness is maximum, the hardness of internal layer is between bottom surface layer and upper strata, described bottom surface layer is the double-decker be made up of middle level 8 and bottom 9, upper strata, internal layer and middle level shape and size homogeneous phase are with forming sole top 10, bottom is sole bottom 11, the thickness of bottom increases progressively from front to back successively, the arch of foot place indent of bottom lower surface is curved, the edge on sole top protrudes from sole bottom and forms hierarchic structure, interlayer 3 is provided with between internal layer and the rear portion in middle level, the rear portion of interlayer is relative with heel position and thickness is constant, the front portion of interlayer is wedge shape, its thickness increases progressively from front to back successively, the wedge-like portion of interlayer is corresponding with the position of human body arch of foot, the edge of sole upper surface is provided with the trough 5 identical with sole shape, and sole top and the junction of sole bottom are provided with the relative wire casing 4 of receiving with trough position,

The forefoot of bottom lower surface and heel place are vertically provided with 3 anti-skidding convex sets 7, as shown in Figure 2, anti-skidding convex sets comprises the identical projection of more than 2 shapes, the shape of adjacent two anti-skidding convex sets protrusions is not identical, wherein the shape of the anti-skidding convex sets A12 protrusions of both sides is identical and all in quadrangle, in anti-skidding convex sets A, each projection all transversely offers open slot 14, in middle anti-skidding convex sets B13, each projection joins end to end in corrugated, and each trough of anti-skidding convex sets B is equipped with arch contiguous block 15.

Embodiment 2: the anti-skid wearable sole that the utility model provides, its structure as shown in Figure 1, sole is three-decker, be followed successively by upper strata 1 from top to bottom, internal layer 2 and bottom surface layer 6, wherein bottom surface layer hardness is maximum, the hardness of internal layer is between bottom surface layer and upper strata, described bottom surface layer is the double-decker be made up of middle level 8 and bottom 9, upper strata, internal layer and middle level shape and size homogeneous phase are with forming sole top 10, bottom is sole bottom 11, the thickness of bottom increases progressively from front to back successively, the arch of foot place indent of bottom lower surface is curved, the edge on sole top protrudes from sole bottom and forms hierarchic structure, interlayer 3 is provided with between internal layer and the rear portion in middle level, the rear portion of interlayer is relative with heel position and thickness is constant, the front portion of interlayer is wedge shape, its thickness increases progressively from front to back successively, the wedge-like portion of interlayer is corresponding with the position of human body arch of foot, the edge of sole upper surface is provided with the trough 5 identical with sole shape, and sole top and the junction of sole bottom are provided with the relative wire casing 4 of receiving with trough position,

The forefoot of bottom lower surface and heel place are vertically provided with 3 anti-skidding convex sets 7, as shown in Figure 3, anti-skidding convex sets comprises the identical projection of more than 2 shapes, the shape of adjacent two anti-skidding convex sets protrusions is not identical, wherein the shape of the anti-skidding convex sets A12 protrusions of both sides is identical and all in quadrangle, in anti-skidding convex sets A, each projection all transversely offers open slot 14, in middle anti-skidding convex sets B13, each projection connects and composes by two pipe ends, the axes intersect of two pipes, its angle points to toe cap, corner dimension is 90 ° ~ 180 °, the outer surface of pipe evenly offers groove 16 vertically.

Embodiment 3: the anti-skid wearable sole that the utility model provides, its structure as shown in Figure 1, sole is three-decker, be followed successively by upper strata 1 from top to bottom, internal layer 2 and bottom surface layer 6, wherein bottom surface layer hardness is maximum, the hardness of internal layer is between bottom surface layer and upper strata, described bottom surface layer is the double-decker be made up of middle level 8 and bottom 9, upper strata, internal layer and middle level shape and size homogeneous phase are with forming sole top 10, bottom is sole bottom 11, the thickness of bottom increases progressively from front to back successively, the arch of foot place indent of bottom lower surface is curved, the edge on sole top protrudes from sole bottom and forms hierarchic structure, interlayer 3 is provided with between internal layer and the rear portion in middle level, the rear portion of interlayer is relative with heel position and thickness is constant, the front portion of interlayer is wedge shape, its thickness increases progressively from front to back successively, the wedge-like portion of interlayer is corresponding with the position of human body arch of foot, the edge of sole upper surface is provided with the trough 5 identical with sole shape, and sole top and the junction of sole bottom are provided with the relative wire casing 4 of receiving with trough position,

The forefoot of bottom lower surface and heel place are vertically provided with 3 anti-skidding convex sets 7, as shown in Figure 4, anti-skidding convex sets comprises the identical projection of more than 2 shapes, the shape of adjacent two anti-skidding convex sets protrusions is not identical, the wherein identical and equal indentation of the shape of the anti-skidding convex sets A12 protrusions of both sides, in middle anti-skidding convex sets B13, each projection is all in arc shaped, be positioned at the arc shaped projection at forefoot and heel place towards different.

Embodiment 4: the anti-skid wearable sole that the utility model provides, its structure as shown in Figure 1, sole is three-decker, be followed successively by upper strata 1 from top to bottom, internal layer 2 and bottom surface layer 6, wherein bottom surface layer hardness is maximum, the hardness of internal layer is between bottom surface layer and upper strata, described bottom surface layer is the double-decker be made up of middle level 8 and bottom 9, upper strata, internal layer and middle level shape and size homogeneous phase are with forming sole top 10, bottom is sole bottom 11, the thickness of bottom increases progressively from front to back successively, the arch of foot place indent of bottom lower surface is curved, the edge on sole top protrudes from sole bottom and forms hierarchic structure, interlayer 3 is provided with between internal layer and the rear portion in middle level, the rear portion of interlayer is relative with heel position and thickness is constant, the front portion of interlayer is wedge shape, its thickness increases progressively from front to back successively, the wedge-like portion of interlayer is corresponding with the position of human body arch of foot, the edge of sole upper surface is provided with the trough 5 identical with sole shape, and sole top and the junction of sole bottom are provided with the relative wire casing 4 of receiving with trough position,

The middle part indent at bottom forefoot and heel place, inner concave is provided with anti-skidding convex sets B13, and as shown in Figure 5, in anti-skidding convex sets B, each convex shape is identical and all in polyline shaped, its end face flushes with the lower surface of bottom, and the both sides of bottom inner fovea part all transversely offer curved groove 17.

Embodiment 5: the anti-skid wearable sole that the utility model provides, its structure as shown in Figure 1, sole is three-decker, be followed successively by upper strata 1 from top to bottom, internal layer 2 and bottom surface layer 6, wherein bottom surface layer hardness is maximum, the hardness of internal layer is between bottom surface layer and upper strata, described bottom surface layer is the double-decker be made up of middle level 8 and bottom 9, upper strata, internal layer and middle level shape and size homogeneous phase are with forming sole top 10, bottom is sole bottom 11, the thickness of bottom increases progressively from front to back successively, the arch of foot place indent of bottom lower surface is curved, the edge on sole top protrudes from sole bottom and forms hierarchic structure, interlayer 3 is provided with between internal layer and the rear portion in middle level, the rear portion of interlayer is relative with heel position and thickness is constant, the front portion of interlayer is wedge shape, its thickness increases progressively from front to back successively, the wedge-like portion of interlayer is corresponding with the position of human body arch of foot, the edge of sole upper surface is provided with the trough 5 identical with sole shape, and sole top and the junction of sole bottom are provided with the relative wire casing 4 of receiving with trough position,

The forefoot of bottom lower surface and heel place are vertically provided with 3 anti-skidding convex sets 7, as shown in Figure 6, anti-skidding convex sets comprises the identical projection of more than 2 shapes, the shape of adjacent two anti-skidding convex sets protrusions is not identical, wherein the shape of the anti-skidding convex sets A12 protrusions of both sides is identical and all in quadrangle, in middle anti-skidding convex sets B13, each projection is all in polyline shaped, be positioned at the polyline shaped projection at forefoot and heel place towards different.

Claims (9)

1. an anti-skid wearable sole, sole is three-decker, be followed successively by upper strata, internal layer and bottom surface layer from top to bottom, wherein bottom surface layer hardness is maximum, the hardness of internal layer, between bottom surface layer and upper strata, is characterized in that: described bottom surface layer is the double-decker be made up of middle level and bottom, and upper strata, internal layer and middle level shape and size homogeneous phase are with forming sole top, bottom is sole bottom, and the edge on sole top protrudes from sole bottom and forms hierarchic structure; The lower surface of bottom is vertically provided with more than 2 anti-skidding convex sets, anti-skidding convex sets comprises the identical projection of more than 2 shapes, and the shape of adjacent two anti-skidding convex sets protrusions is not identical.

2. anti-skid wearable sole according to claim 1, it is characterized in that: between internal layer and the rear portion in middle level, be provided with interlayer, the rear portion of interlayer is relative with heel position and thickness is constant, the front portion of interlayer is wedge shape, its thickness increases progressively from front to back successively, and the wedge-like portion of interlayer is corresponding with the position of human body arch of foot.

3. anti-skid wearable sole according to claim 1, is characterized in that: the thickness of described bottom increases progressively from front to back successively, and the arch of foot place indent of bottom lower surface is curved, and anti-skidding convex sets is positioned at forefoot and the heel place of bottom lower surface.

4. anti-skid wearable sole according to claim 3, it is characterized in that: the lower surface of bottom is vertically provided with 3 anti-skidding convex sets, in the anti-skidding convex sets A of both sides, the shape of each projection is identical and all in quadrangle, each projection all transversely offers open slot; In middle anti-skidding convex sets B, each projection joins end to end in corrugated, and each trough of anti-skidding convex sets B is equipped with arch contiguous block.

5. anti-skid wearable sole according to claim 3, it is characterized in that: the lower surface of bottom is vertically provided with 3 anti-skidding convex sets, the shape of the anti-skidding convex sets A protrusions of both sides is identical and all in quadrangle, in middle anti-skidding convex sets B, each projection connects and composes by two pipe ends, the axes intersect of two pipes, its angle points to toe cap, and corner dimension is 90 ° ~ 180 °, and the outer surface of pipe evenly offers groove vertically.

6. anti-skid wearable sole according to claim 3, it is characterized in that: the lower surface of bottom is vertically provided with 3 anti-skidding convex sets, identical and the equal indentation of the shape of the anti-skidding convex sets A protrusions of both sides, in middle anti-skidding convex sets B, each projection is all in arc shaped, be positioned at the arc shaped projection at forefoot and heel place towards different.

7. anti-skid wearable sole according to claim 3, it is characterized in that: the middle part indent at bottom forefoot and heel place, inner concave is provided with anti-skidding convex sets B, in anti-skidding convex sets B, each convex shape is identical and all in polyline shaped, its end face flushes with the lower surface of bottom, and the both sides of bottom inner fovea part all transversely offer curved groove.

8. anti-skid wearable sole according to claim 3, it is characterized in that: the lower surface of bottom is vertically provided with 3 anti-skidding convex sets, in the anti-skidding convex sets A of both sides, the shape of each projection is identical and all in quadrangle, in middle anti-skidding convex sets B, each projection is all in polyline shaped, be positioned at the polyline shaped projection at forefoot and heel place towards different.

9. anti-skid wearable sole according to claim 1, is characterized in that: the edge of sole upper surface is provided with the trough identical with sole shape, and sole top and the junction of sole bottom are provided with the relative wire casing of receiving with trough position.