CN204838236U - Anti -skid sole - Google Patents

Abstract

The utility model discloses an anti -skid sole, include: sole, non slipping spur and antislip strip, the lower surface at the sole is connected to non slipping spur and antislip strip, the toe cap of sole is located the front end of sole, and the heel of sole is located the rear end of sole. This technical scheme's advantage lies in: set up non slipping spur and antislip strip through the lower surface at the sole, improved the coefficient of friction of sole, and then improved the frictional force of shoes, avoided the phenomenon that the sole skidded, simultaneously, the anti -skidding unit that the non slipping spur is constituteed is arranged through the zigzag, anti -skidding unit can also be improved in the frictional force of all directions, and then the overall anti -skidding effect that has improved anti -skid sole.

Description

A kind of Antiskid sole

Technical field

The utility model relates to footwear, particularly a kind of Antiskid sole.

Background technology

Footwear are dressed in foot, protection wearer foot safety and healthy article, and therefore when walking, especially under comparatively sliding road surface or operating mode, the skid resistance of footwear seems particularly important; Existing footwear most employing in skid resistance selects shoe with beef tendon sole material, and uses the modes such as waveform sole to improve the coefficient of friction of sole; But adopt a certain material to be the manufacture kind that sole understands footwear, and the skidproof effect of waveform sole is mainly reflected in the frictional force of the fore-and-aft direction improving footwear, the lateral of footwear does not almost improve coefficient of friction, is therefore difficult to the anti-skidding demand under satisfied complicated road conditions or working condition.

Utility model content

In order to solve the problem, the utility model provides a kind of Antiskid sole.The technical program, by arranging non-slipping block and tread plate at the lower surface of sole, improves the coefficient of friction of sole, and then improves the frictional force of shoes, avoids the phenomenon that sole skids; Meanwhile, the antiskid unit consisted of zigzag arrangement non-slipping block, can also improve the frictional force of antiskid unit in all directions, and then the overall skidproof effect improving Antiskid sole.

A kind of Antiskid sole in the utility model, comprising: sole, non-slipping block and tread plate; Described non-slipping block and described tread plate are connected to the lower surface of described sole; The toe cap of described sole is positioned at the front end of described sole, and the heel of described sole is positioned at the rear end of described sole.

In such scheme, described non-slipping block comprises front non-slipping block and rear non-slipping block, and described front non-slipping block is positioned at the side of described non-slipping block towards described toe cap, the described side of rear non-slipping block towards described non-slipping block towards described heel; Between described front non-slipping block and described rear non-slipping block, there is occlusion ditch.

In such scheme, described non-slipping block is prismatoid structure, the area of the top end face of described non-slipping block is greater than the bottom face area of described non-slipping block, distance between the top end face of described non-slipping block and bottom face is the height of described non-slipping block, and the top end face of described non-slipping block is connected with the lower surface of described sole.

In such scheme, the diagonal of the bottom face of described non-slipping block is parallel with the fore-and-aft direction of described sole; Described occlusion ditch is positioned at the bottom face of described non-slipping block, and the ditch depth of described occlusion ditch is less than the height of described non-slipping block; Described occlusion ditch is Z-type structure, and two ditch sections be parallel to each other of described occlusion ditch are parallel with the fore-and-aft direction of described sole.

In such scheme, described non-slipping block has several, and non-slipping block described in several forms an antiskid unit along the fore-and-aft direction perpendicular to described sole with zigzag arrangement; Described antiskid unit has several, and antiskid unit described in several is arranged along the fore-and-aft direction of described sole.

In such scheme, described tread plate is arranged between two adjacent described antiskid unit, and the top of described tread plate is connected with the lower surface of described sole; The shape of described tread plate is mated mutually with the shape of described antiskid unit, between two adjacent described non-slipping blocks, and has grip respectively between described tread plate and described antiskid unit.

In such scheme, described tread plate has several, and tread plate described in several is arranged along the fore-and-aft direction of described sole; Described tread plate is elastomeric material, and the bottom of described tread plate and the bottom face of described non-slipping block are in same level.

In such scheme, described front non-slipping block has open front groove, one end of described open front groove is communicated with described grip, and the axis of described open front groove is parallel with the fore-and-aft direction of described sole; Described rear non-slipping block has after-opening groove, and one end of described after-opening groove is communicated with described grip, and the axis of described after-opening groove is parallel with the fore-and-aft direction of described sole.

In such scheme, described non-slipping block is elastomeric material, and the height of described non-slipping block is more than or equal to 2.5mm; Described sole is elastomeric material, and described sole and described non-slipping block and described tread plate are formed in one.

Advantage of the present utility model and beneficial effect are: the utility model provides a kind of Antiskid sole, by arranging non-slipping block and tread plate at the lower surface of sole, improve the coefficient of friction of sole, and then improve the frictional force of shoes, avoid the phenomenon that sole skids; Meanwhile, the antiskid unit consisted of zigzag arrangement non-slipping block, can also improve the frictional force of antiskid unit in all directions, and then the overall skidproof effect improving Antiskid sole.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of a kind of Antiskid sole of the utility model;

Fig. 2 is the antiskid unit of a kind of Antiskid sole of the utility model and the structural representation of tread plate.

In figure: 1, sole 2, non-slipping block 3, tread plate 4, antiskid unit

21, front non-slipping block 22, rear non-slipping block 23, occlusion ditch

24, open front groove 25, after-opening groove 41, grip

Detailed description of the invention

Below in conjunction with drawings and Examples, detailed description of the invention of the present utility model is further described.Following examples only for clearly the technical solution of the utility model being described, and can not limit protection domain of the present utility model with this.

As depicted in figs. 1 and 2, the utility model is a kind of Antiskid sole, comprising: sole 1, non-slipping block 2 and tread plate 3; Non-slipping block 2 and tread plate 3 are connected to the lower surface of sole 1; The toe cap of sole 1 is positioned at the front end of sole 1, and the heel of sole 1 is positioned at the rear end of sole 1.

The operation principle of the technical program is: by arranging non-slipping block 2 and tread plate 3 at the lower surface of sole 1, to increase the coefficient of friction of sole 1, and then improves the frictional force of shoes, avoids the phenomenon that sole 1 skids.

Preferably, non-slipping block 2 comprises front non-slipping block 21 and rear non-slipping block 22, and front non-slipping block 21 is positioned at the side of non-slipping block 2 towards toe cap, and rear non-slipping block 22 is towards non-slipping block 2 towards the side of heel; There is occlusion ditch 23 between front non-slipping block 21 and rear non-slipping block 22; By non-slipping block 2 is set to front non-slipping block 21 and rear non-slipping block 22, and occlusion ditch 23 being set between front non-slipping block 21 and rear non-slipping block 22, for improving the complex structure degree of non-slipping block 2, and then improving the coefficient of friction of non-slipping block 2.

Preferably, non-slipping block 2 is prismatoid structure, and the area of the top end face of non-slipping block 2 is greater than the bottom face area of non-slipping block 2, and the distance between the top end face of non-slipping block 2 and bottom face is the height of non-slipping block 2, and the top end face of non-slipping block 2 is connected with the lower surface of sole 1; The top end face of non-slipping block 2 is connected with the lower surface of sole 1, and top end face area is greater than bottom face area, improves non-slipping block 2 and the connection area of sole 1, improves the firmness that non-slipping block 2 is connected with sole 1.

Preferably, the diagonal of the bottom face of non-slipping block 2 is parallel with the fore-and-aft direction of sole 1; Occlusion ditch 23 is positioned at the bottom face of non-slipping block 2, and the ditch depth of occlusion ditch 23 is less than the height of non-slipping block 2; Occlusion ditch 23 is Z-type structure, and two ditch sections be parallel to each other of occlusion ditch 23 are parallel with the fore-and-aft direction of sole 1; Wherein, the ditch depth of occlusion ditch 23 is less than the height of non-slipping block 2, and therefore, the setting of occlusion ditch 23 can not affect the bonding strength between non-slipping block 2 and sole 1; By occlusion ditch 23 is set to Z-type ditch, that improve non-slipping block 2 with complexity that is ground-contacting position, improve the coefficient of friction of non-slipping block 2.

Preferably, non-slipping block 2 has several, and several non-slipping blocks 2 form an antiskid unit 4 along the fore-and-aft direction perpendicular to sole 1 with zigzag arrangement; Antiskid unit 4 has several, and several antiskid unit 4 are arranged along the fore-and-aft direction of sole 1; Tread plate 3 is arranged between two adjacent antiskid unit 4, and the top of tread plate 3 is connected with the lower surface of sole 1; The shape of tread plate 3 is mated mutually with the shape of antiskid unit 4, between two adjacent non-slipping blocks 2, and has grip 41 respectively between tread plate 3 and antiskid unit 4; By non-slipping block 2 is arranged with zigzag arrangement, and grip 41 is set, make the layout between several non-slipping blocks 2 can be more complicated, and when sole 1 is subject to the power to pressing down, non-slipping block 2 and tread plate 3 can extend to grip 41, increase non-slipping block 2 and tread plate 3 and the contact area on ground, improve the coefficient of friction of non-slipping block 2 and tread plate 3, and then improve the anti-skidding intensity of antiskid unit 4 and tread plate 3; Meanwhile, by making the diagonal of the bottom face of non-slipping block 2 parallel with the fore-and-aft direction of sole 1, in conjunction with the antiskid unit 4 of zigzag arrangement, the frictional force of antiskid unit 4 in all directions can also be improved, and then the overall skidproof effect improving Antiskid sole.

Preferably, tread plate 3 has several, and several tread plates 3 are arranged along the fore-and-aft direction of sole 1; Tread plate 3 is elastomeric material, and the bottom of tread plate 3 and the bottom face of non-slipping block 2 are in same level; Wherein, elastomeric material has higher coefficient of friction, can to offer the best skidproof effect for Antiskid sole; By the bottom of tread plate 3 and the bottom face of non-slipping block 2 in same level, make tread plate 3 and non-slipping block 2 simultaneously for Antiskid sole provides frictional force, skidproof effect can be enhanced.

Preferably, front non-slipping block 21 has open front groove 24, one end of open front groove 24 is communicated with grip 41, and the axis of open front groove 24 is parallel with the fore-and-aft direction of sole 1; Rear non-slipping block 22 has after-opening groove 25, and one end of after-opening groove 25 is communicated with grip 41, and the axis of after-opening groove 25 is parallel with the fore-and-aft direction of sole 1; By arranging open front groove 24 and after-opening groove 25, improve the complexity of non-slipping block 2 bottom face, improve the coefficient of friction of non-slipping block 2.

Preferably, non-slipping block 2 is elastomeric material, and the height of non-slipping block 2 is more than or equal to 2.5mm; Sole 1 is elastomeric material, and sole 1 is formed in one with non-slipping block 2 and tread plate 3; Wherein, elastomeric material has higher coefficient of friction, and therefore using elastomeric material to make non-slipping block 2 can offer the best skidproof effect for Antiskid sole; By the height of non-slipping block 2 is set to be more than or equal to 2.5mm, ensures that non-slipping block 2 has enough thickness and makes it when being subject to downward pressure, can extend to grip 41; By sole 1, non-slipping block 2 and tread plate 3 are set to integrated formed structure, ensure that sole 1 and the bonding strength between non-slipping block 2 and tread plate 3, be also convenient to industrial production, improve the production efficiency of Antiskid sole.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (9)

1. an Antiskid sole, is characterized in that, comprising: sole, non-slipping block and tread plate; Described non-slipping block and described tread plate are connected to the lower surface of described sole; The toe cap of described sole is positioned at the front end of described sole, and the heel of described sole is positioned at the rear end of described sole.

2. a kind of Antiskid sole according to claim 1, it is characterized in that, described non-slipping block comprises front non-slipping block and rear non-slipping block, and described front non-slipping block is positioned at the side of described non-slipping block towards described toe cap, the described side of rear non-slipping block towards described non-slipping block towards described heel; Between described front non-slipping block and described rear non-slipping block, there is occlusion ditch.

3. a kind of Antiskid sole according to claim 1, it is characterized in that, described non-slipping block is prismatoid structure, the area of the top end face of described non-slipping block is greater than the bottom face area of described non-slipping block, distance between the top end face of described non-slipping block and bottom face is the height of described non-slipping block, and the top end face of described non-slipping block is connected with the lower surface of described sole.

4. a kind of Antiskid sole according to claim 2, is characterized in that, the diagonal of the bottom face of described non-slipping block is parallel with the fore-and-aft direction of described sole; Described occlusion ditch is positioned at the bottom face of described non-slipping block, and the ditch depth of described occlusion ditch is less than the height of described non-slipping block; Described occlusion ditch is Z-type structure, and two ditch sections be parallel to each other of described occlusion ditch are parallel with the fore-and-aft direction of described sole.

5. a kind of Antiskid sole according to claim 4, is characterized in that, described non-slipping block has several, and non-slipping block described in several forms an antiskid unit along the fore-and-aft direction perpendicular to described sole with zigzag arrangement; Described antiskid unit has several, and antiskid unit described in several is arranged along the fore-and-aft direction of described sole.

6. a kind of Antiskid sole according to claim 5, is characterized in that, described tread plate is arranged between two adjacent described antiskid unit, and the top of described tread plate is connected with the lower surface of described sole; The shape of described tread plate is mated mutually with the shape of described antiskid unit, between two adjacent described non-slipping blocks, and has grip respectively between described tread plate and described antiskid unit.

7. a kind of Antiskid sole according to claim 6, is characterized in that, described tread plate has several, and tread plate described in several is arranged along the fore-and-aft direction of described sole; Described tread plate is elastomeric material, and the bottom of described tread plate and the bottom face of described non-slipping block are in same level.

8. a kind of Antiskid sole according to claim 7, is characterized in that, described front non-slipping block has open front groove, and one end of described open front groove is communicated with described grip, and the axis of described open front groove is parallel with the fore-and-aft direction of described sole; Described rear non-slipping block has after-opening groove, and one end of described after-opening groove is communicated with described grip, and the axis of described after-opening groove is parallel with the fore-and-aft direction of described sole.

9. a kind of Antiskid sole according to claim 1, is characterized in that, described non-slipping block is elastomeric material, and the height of described non-slipping block is more than or equal to 2.5mm; Described sole is elastomeric material, and described sole and described non-slipping block and described tread plate are formed in one.