CN220236185U - Anti-skid high-elastic sports shoes - Google Patents

Abstract

The utility model relates to the technical field of sports shoes, and discloses an anti-skid high-elastic sports shoe, which comprises: a vamp; the sole is connected to the bottom of the vamp; the bottom surface of the sole is hidden and stored with a plurality of anti-slip pads arranged at intervals through an adjustable structure, each anti-slip pad comprises a claw plate which is arranged against the slip direction of the sole, a claw groove is formed between the bottoms, a plurality of claw hooks are arranged on the inner wall of the claw groove at equal intervals, the heads of the claw hooks are provided with hook heads for hooking the ground, and the hook heads are matched with the hook heads at all positions of the bottom surface of the sole to form a net structure for multipoint grabbing the ground to be anti-slip. According to the utility model, the contained anti-slip pad can be adjusted and contained in the sole in a multi-point design manner, the anti-slip pad can be adjusted to extend out of the sole surface when in anti-slip requirement, the claw plate is exposed, the claw hooks with the hook heads are arranged on the inner walls of the claw grooves of the claw plate, the ground can be grabbed after the sole is stepped on, a net-shaped multi-point ground grabbing structure is formed, slipping can be resisted, the anti-slip requirement of wet slipping or ascending and descending road sections in rainy days is met, and the sole is stable to walk.

Description

Anti-skid high-elastic sports shoes

Technical Field

The utility model relates to the technical field of anti-sport shoes, in particular to an anti-skid high-elasticity sport shoe.

Background

An anti-skid athletic shoe is a shoe that provides stability and firm support, and an anti-skid sole material is typically used to enhance friction and grip to reduce the risk of slipping over wet or uneven surfaces. The shoes are suitable for sports fields, outdoor exploration, running and other activities, and are one of the first choice of sports lovers. At present, soles are generally formed by foaming integrally, such as EVA, ETPA and other high-elasticity sole materials, and rubber anti-slip pads are used at the bottoms of soles to improve friction force, so that anti-slip high-elasticity effects of the sports shoes are achieved.

However, in the process of body building and exercise, the conventional soles are easy to slip on asphalt roads in actual use on rainy days or on roads on slopes, the soles are insufficient in ground grabbing force and drift, a sporter is easy to fall down and be injured, and the structure is required to be improved.

Disclosure of Invention

The utility model aims to provide an adjustable anti-skid high-elastic sports shoe, which solves the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an anti-slip high-stretch athletic shoe comprising:

a vamp;

a sole connected to the bottom of the vamp;

the bottom surface of the sole is hidden and accommodated with a plurality of anti-slip pads which are arranged at intervals through an adjustable structure, each anti-slip pad comprises a claw plate which is arranged against the slip direction of the sole to form an upper gathering structure, a claw groove is formed between the bottoms, a plurality of claw hooks are arranged on the inner wall of the claw groove at equal intervals, the heads of the claw hooks are provided with hook heads for hooking the ground, and the hook heads at other positions are matched to form a net structure for multipoint scratching the ground to prevent slip;

and the sum of the bottom areas of all the claw hooks facing the ground is smaller than the vacant bottom area of the sole, and an elastic vamp capable of stably touching the ground is reserved for daily walking.

As an alternative to the anti-slip high-stretch sports shoe of the present utility model, wherein: the sole is provided with EVA or EYPA foamed plastic products, the anti-slip pad is provided with a wear-resistant rubber pad, and the friction coefficient of the anti-slip pad is larger than that of the sole.

As an alternative to the anti-slip high-stretch sports shoe of the present utility model, wherein: two claw plates are symmetrically arranged along the front and rear axis direction of the sole, and trapezoidal claw grooves with the bottoms wider than the upper parts are formed in the two claw plates.

As an alternative to the anti-slip high-stretch sports shoe of the present utility model, wherein: the claw plate is a horn-shaped downward opening, four claw grooves are formed in the front, back, left and right directions of the periphery at equal intervals.

As an alternative to the anti-slip high-stretch sports shoe of the present utility model, wherein: the claw is hooked in a strip-shaped structure, one end of the claw is integrally connected to the inner wall of the claw groove, the other end of the claw is provided with a hook head protruding downwards, the hook head position forms a hook groove for grabbing the ground, and each hook head is arranged to incline downwards.

As an alternative to the anti-slip high-stretch sports shoe of the present utility model, wherein: the hidden groove is formed in the position, corresponding to each anti-slip pad, in the sole, the hidden groove sequentially comprises an installation adjusting groove, a middle groove and a pad groove which are communicated with each other from top to bottom, the anti-slip pad is installed in the installation adjusting groove through a connector, the adjustable structure is located at the middle groove to operate the lifting anti-slip pad, and the pad groove corresponds to a claw plate after stepping on the ground to be stored.

As an alternative to the anti-slip high-stretch sports shoe of the present utility model, wherein: the adjustable structure comprises a reinforcing rope fixedly connected to the connector, a flexible plastic sleeve is fixedly sleeved outside the reinforcing rope, one end of the bottom of the reinforcing rope slides through a sliding hole formed in the top of the anti-slip pad, an adjusting nut is connected to one end of the claw groove in a threaded mode, the adjusting nut is connected to the sliding groove of the clamping plate in a sliding mode through a circular clamping ring connected to the top of the outer side of the adjusting nut, and the top of the clamping plate is connected with the anti-slip pad.

As an alternative to the anti-slip high-stretch sports shoe of the present utility model, wherein: the adjustable structure further comprises an elastic rope fixedly connected between the connector and the anti-skid pad, an air bag block is sleeved outside the elastic rope, the air bag block is fixedly connected in the installation adjusting groove, and the top surface of the anti-skid pad contacts with the bottom surface of the air bag block.

As an alternative to the anti-slip high-stretch sports shoe of the present utility model, wherein: the connector comprises a fixed plate fixedly inlaid at the inner top of the installation adjusting groove, the bottom of the fixed plate protrudes, and the bottom surface is fixedly connected with the reinforcing rope and the elastic rope.

As an alternative to the anti-slip high-stretch sports shoe of the present utility model, wherein: the top of strengthening rope and elastic cord connects the mounting panel jointly, and the top of mounting panel is connected with the screw head the mounting groove has been seted up on the bottom surface of the fixed board of inlaying in the installation adjustment tank top, cooperates the screw head to carry out threaded connection.

Compared with the prior art, the utility model has the beneficial effects that:

1. this anti-skidding high-elastic sports shoes, the multi-point design can adjust the slipmat of accomodating in the sole, and the slipmat can be adjusted when the antiskid demand and extend the sole face, exposes the outwards open claw board of slope, and claw groove inner wall arrangement of claw board has the claw of eave tile to collude, can grab the ground after stepping on the ground, forms net multi-point and grabs ground structure, can resist and skid, satisfies the wet slip of rainy day or the antiskid demand on downhill path section, steady walking.

2. The anti-skid high-elastic sports shoes can be hidden in the soles through the adjusting nuts in the claw grooves and do not protrude, so that the shoes can be used for daily walking; the sole surface can be properly adjusted to protrude, so that the anti-skid use is performed, and the adjustment operation is convenient. Meanwhile, the bottom area of the designed anti-slip pad is smaller than the remaining area of the sole surface, so that the sole surface is ensured to be large enough to meet the high-elasticity requirement of the sole surface for ground contact walking.

3. This anti-skidding high-elastic sports shoes, anti-skidding parts such as slipmat can be dismantled on the sole and trade the maintenance, have guaranteed to adjust the continuation of work and have stabilized, let shoes antiskid performance high-efficient stable, and the removable change of shoes anti-skidding parts lets the user save the use cost of shoes.

Drawings

Fig. 1 is a schematic view showing the bottom structure of a sole according to embodiment 1 of the present utility model.

Fig. 2 is a schematic view showing a partial cross-sectional structure of a connection relationship at a sole in embodiment 1 of the present utility model.

Fig. 3 is a schematic cross-sectional view of a sole according to embodiment 1 of the present utility model.

Fig. 4 is a schematic front view of the connection relationship of the anti-skid pad in embodiment 1 of the present utility model.

Fig. 5 is a schematic view showing a partial cross-sectional structure of the connection relationship of the cleat according to embodiment 1 of the present utility model.

Fig. 6 is an exploded view of a partial cross-sectional structure of the connection relationship at the cleat in embodiment 1 of the present utility model.

Fig. 7 is a schematic front view of the anti-skid pad according to embodiment 2 of the present utility model.

Fig. 8 is an exploded view of one of the connection relations at the connection joint in embodiment 3 of the present utility model.

Fig. 9 is a schematic diagram of a front view structure of the present utility model.

In the figure: 1. a vamp; 2. a sole; 201. hiding the groove; 2011. a middle groove; 2012. a pad groove; 2013. installing an adjusting groove; 3. an anti-slip pad; 301. a claw plate; 3011. a claw groove; 302. a slide hole; 303. a clamping plate; 304. a chute; 4. a claw hook; 401. a hook head; 402. a hooking groove; 5. reinforcing ropes; 6. a plastic sleeve; 7. an adjusting nut; 8. a clasp; 9. an elastic rope; 10. an airbag block; 11. a connector; 1101. a fixing plate; 1102. a mounting plate; 1103. a screw head; 1104. and a mounting groove.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1-6 and 9, the present utility model provides a technical solution: an anti-slip high-stretch athletic shoe comprising:

a vamp;

a sole 2 connected to the bottom of the vamp 1;

wherein, the setting of sole 2 is EVA or EYPA foamed plastic finished piece, and slipmat 3 sets up to wear-resisting rubber pad, and sets up slipmat 3 coefficient of friction and is greater than sole 2 coefficient of friction, lets slipmat 3 itself possess stronger ground friction than sole 2, carries out the multiple spot and grabs ground antiskid and use.

The bottom surface of the sole 2 is hidden and contains a plurality of anti-skid pads 3 which are arranged at intervals through an adjustable structure, each anti-skid pad 3 comprises a claw plate 301 which is arranged against the skidding direction of the sole 2 to form an upper gathering structure, and claw grooves 3011 are formed between the bottoms;

in this embodiment, two claw plates 301 are symmetrically arranged along the front-rear axis direction of the sole, and trapezoidal claw grooves 3011 with the bottoms wider than the upper parts are formed in the two claw plates 301, so that when the two claw plates 301 are stepped on the ground, the two claw plates 301 can be pressed and spread to touch the ground, friction resistance in the forward or backward direction is provided, and the slipping of the feet in the forward or backward direction is avoided.

Referring to fig. 7 again, in another embodiment, referring to the partial structure of embodiment 1, another arrangement mode of the claw plate 301 is adopted in embodiment 2, wherein the claw plate 301 is in a horn shape and is opened downwards, four claw grooves 3011 are formed at equal intervals along the circumferential front-rear left-right direction.

That is, the claw plate 301 in example 2 provides frictional resistance in the right and left side directions of the sole 2, and prevents slipping of the foot in either direction.

A plurality of claw hooks 4 are arranged on the inner wall of the claw groove 3011 at equal intervals, the heads of the claw hooks 4 are provided with hook heads 401 for hooking the ground, and a net structure is formed by matching with the hook heads 401 at other positions to realize multipoint traction and skid resistance;

wherein, claw is colluded 4 and is set up to the bar structure, one end integration is connected at claw groove 3011 inner wall, the other end that claw colluded 4 forms bellied eave tile 401 downwards, eave tile 401 position forms the eave tile 402 that is used for grabbing the ground to set up each eave tile 401 slope down, can let eave tile 401 grasp ground when stepping on the ground contact, improve anti-skidding helping hand, deformation returns when lifting up the foot again, let flexible claw collude 4 can adapt to uneven ground such as many stones, grab ground effect strong.

It should be noted that, the hidden groove 201 is formed in the sole 2 at a position corresponding to each anti-slip pad 3, the hidden groove 201 sequentially includes, from top to bottom, an installation adjusting groove 2013, a middle groove 2011 and a pad groove 2012, the anti-slip pad 3 is installed in the installation adjusting groove 2013 through the connector 11, the adjustable structure is located at the middle groove 2011 to operate the lifting anti-slip pad 3, and the pad groove 2012 corresponds to the claw plate 301 after stepping on the ground to be stored.

That is, the position of the anti-slip mat 3 can be adjusted by manually operating the adjustable structure in the middle groove 2011, and the anti-slip mat 3 is selected to be hidden and folded in the middle groove 2011 or the claw plate 301 at the bottom is protruded, so that the ground is gripped and prevented from slipping during walking.

It is necessary to explain that: the middle groove 2011 corresponds to the shape of the anti-slip pad 3 and is matched with the pad groove 2012, is a rectangular groove and is positioned on the sole surface, the claw plate 301 after stepping on the ground is accommodated, and the depth of the pad groove 2012 is smaller than the thickness of the claw plate 301, so that the bottom surface of the claw plate 301 can protrude out of the sole surface to grip the ground.

The adjustable structure comprises a reinforcing rope 5 fixedly connected to a connector 11, a flexible plastic sleeve 6 is fixedly sleeved outside the reinforcing rope 5, a sliding hole 302 is formed in the top of the anti-slip pad 3 in a sliding mode at one end of the bottom, an adjusting nut 7 is connected to one end of the claw groove 3011 in a threaded mode, the adjusting nut 7 is connected in a sliding groove 304 of the clamping plate 303 in a sliding mode through a circular clamping ring 8 connected to the top of the outer side, and the top of the clamping plate 303 is arranged to be connected with the anti-slip pad 3.

That is, the torsion adjusting nut 7 is screwed on the plastic bush 6, and the height position of the adjusting nut 7 is changed. At this time, the outer side of the adjusting nut 7 rotates and slides in the sliding groove 304 of the clamping plate 303 through the clamping ring 8, and the clamping ring 8 and the clamping plate 303 are also utilized to be hooked in a sliding fit manner, so that the adjusting nut 7 can drive the anti-slip pad 3 to move along with the clamping plate 303 when rotating, the position of the anti-slip pad 3 is adjusted in a lifting manner, and the anti-slip work of hiding and containing or protruding bottom is performed.

Statement: the adjusting nut 7 does not contact the clamping plate 303 when rotating, avoids torsion obstruction, and the clamping plate 303 is arranged to be a rubber part, and the sliding is assisted, so that the adjusting nut 7 is prevented from rotating rapidly under vibration, and the position of the anti-slip pad 3 is spontaneously changed.

Further, the adjustable structure further comprises an elastic rope 9 fixedly connected between the connector 11 and the anti-skid pad 3, an air bag block 10 is sleeved outside the elastic rope 9, the air bag block 10 is fixedly connected in the installation adjusting groove 2013, and the top surface of the anti-skid pad 3 is contacted with the bottom surface of the air bag block 10.

It is necessary to explain that: the reinforcing rope 5 is a steel wire rope, is bent and arranged in the installation adjusting groove 2013, and is provided with a rope portion used for changing the position of the anti-skid pad 3, and the elastic rope 9 is a rubber rope and has elasticity. When the claw plate 301 at the bottom of the anti-slip pad 3 touches the ground, the claw plate 301 can be pulled by the pulling force in the process of touching the ground and walking, the elastic rope 9 is used for assisting, the claw plate 301 can be displaced to a certain extent, the direct damage of the pulling force is reduced, the elastic force returns to a position when the user lifts the ground, the air bag block 10 is utilized for limiting and blocking, the reinforcing rope 5 is used for guaranteeing, the strong anti-slip pulling is avoided, and the anti-slip pad is broken.

That is, the position of the anti-slip mat 3 can be regulated stably and rapidly by adopting the adjustable structure, the daily or powerful anti-slip walking requirement is used, the use quality of the anti-slip mat 3 can be ensured inside, and the anti-slip effect is stable.

And, the slipmat 3 can take out after taking down adjusting nut 7, can change new slipmat 3, guarantees the antiskid effect of shoes.

In this embodiment, the connector 11 includes a fixing plate 1101 fixedly embedded in the inner top of the installation adjusting groove 2013, the bottom of the fixing plate 1101 protrudes, and the bottom surface is fixedly connected with the reinforcing rope 5 and the elastic rope 9.

Wherein, the fixed plate 1101 is provided with a hard plastic block or a stainless steel block, so that the reinforcing rope 5 and the elastic rope 9 are stably connected on the fixed plate 1101 to provide supporting force.

Referring to fig. 8 again, in another embodiment, compared with the above embodiment, another arrangement mode of the connector 11 is adopted in embodiment 3, wherein the top of the reinforcing rope 5 and the elastic rope 9 are connected with the mounting plate 1102 together, the top of the mounting plate 1102 is connected with the screw head 1103, the bottom surface of the fixing plate 1101 fixedly inlaid at the top in the mounting adjusting groove 2013 is provided with the mounting groove 1104, and the bottom rope body is in threaded connection with the screw head 1103, so that the bottom rope body can be detached, replaced and maintained, the continuous stability of the adjusting work is ensured, the anti-skid performance of the shoe is high-efficient and stable, and the user can save the use cost of the shoe by detaching and replacing the anti-skid component of the shoe.

It is necessary to explain that: the sum of the bottom areas of all the claw hooks 4 facing the ground is smaller than the vacant bottom area of the sole 2, and an elastic vamp which can stably touch the ground is reserved for daily walking.

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

Claims (10)

1. An anti-slip high-stretch athletic shoe, comprising:

a vamp;

a sole (2) connected to the bottom of the vamp (1);

the bottom surface of the sole (2) is hidden and accommodates a plurality of anti-slip pads (3) which are arranged at intervals through an adjustable structure, each anti-slip pad (3) comprises a claw plate (301) which is arranged against the slip direction of the sole (2), an upper gathering structure is formed, claw grooves (3011) are formed between the bottoms, a plurality of claw hooks (4) are arranged on the inner wall of each claw groove (3011) at equal intervals, the heads of the claw hooks (4) are provided with hook heads (401) for hooking the ground, and the hook heads (401) at all positions of the bottom surface of the sole (2) are matched to form a net structure for multipoint ground-grabbing and anti-slip;

and the sum of the bottom areas of all the claw hooks (4) facing the ground is smaller than the vacant bottom area of the sole (2), and an elastic vamp which can stably touch the ground is reserved for daily walking.

2. The anti-slip high-stretch sports shoe according to claim 1, wherein: the sole (2) is made of EVA or EYPA foamed plastic, the anti-slip pad (3) is made of a wear-resistant rubber pad, and the friction coefficient of the anti-slip pad (3) is larger than that of the sole (2).

3. An anti-slip high-stretch sports shoe according to claim 2, wherein: two claw plates (301) are symmetrically arranged along the front-back axis direction of the sole, and trapezoidal claw grooves (3011) with the bottoms wider than the upper parts are formed in the two claw plates (301).

4. A non-slip high-stretch sports shoe according to claim 3, wherein: the claw plates (301) are downwards opened in a horn shape, four claw grooves (3011) are formed in the front-back left-right direction of the periphery at equal intervals.

5. A non-slip high-stretch sports shoe according to claim 3, wherein: the claw hook (4) is of a strip-shaped structure, one end of the claw hook is integrally connected to the inner wall of the claw groove (3011), the other end of the claw hook (4) is provided with a hook head (401) protruding downwards, the hook head (401) is provided with a hook groove (402) for grabbing the ground, and each hook head (401) is arranged to incline downwards.

6. An anti-slip high-elastic athletic shoe according to claim 4 or 5, wherein: hidden groove (201) have been seted up in sole (2) with the position that each slipmat (3) corresponds, hidden groove (201) from the top down is including installation adjustment groove (2013), intermediate tank (2011) and pad groove (2012) that are linked together in proper order, install slipmat (3) through connector (11) in installation adjustment groove (2013), adjustable structure is located intermediate tank (2011) department operation lift slipmat (3), claw board (301) after stepping on the ground are accomodate in pad groove (2012) correspondence.

7. The anti-slip high-stretch sports shoe according to claim 6, wherein: the adjustable structure comprises a reinforcing rope (5) fixedly connected to a connector (11), a flexible plastic sleeve (6) is fixedly sleeved outside the reinforcing rope (5), a sliding hole (302) is formed in the top of the anti-slip pad (3) in a sliding mode at one end of the bottom, an adjusting nut (7) is connected to one end of the claw groove (3011) in a threaded mode, the adjusting nut (7) is connected to the inside of a sliding groove (304) of the clamping plate (303) in a sliding mode through a circular clamping ring (8) connected to the top of the outer side, and the top of the clamping plate (303) is arranged to be connected with the anti-slip pad (3).

8. The anti-slip high-stretch sports shoe according to claim 7, wherein: the adjustable structure further comprises an elastic rope (9) fixedly connected between the connector (11) and the anti-slip pad (3), an air bag block (10) is sleeved outside the elastic rope (9), the air bag block (10) is fixedly connected in the installation adjusting groove (2013), and the top surface of the anti-slip pad (3) is in contact with the bottom surface of the air bag block (10).

9. The anti-slip high-stretch sports shoe according to claim 8, wherein: the connector (11) comprises a fixing plate (1101) fixedly inlaid at the inner top of the installation adjusting groove (2013), the bottom of the fixing plate (1101) protrudes, and the bottom surface is fixedly connected with a reinforcing rope (5) and an elastic rope (9).

10. The anti-slip high-stretch sports shoe according to claim 8, wherein: the top of strengthening rope (5) and elastic rope (9) connect mounting panel (1102) jointly, and the top of mounting panel (1102) is connected with screw head (1103) set up mounting groove (1104) on the bottom surface of fixed board (1101) of inlaying in installation adjustment tank (2013) top, cooperate screw head (1103) to carry out threaded connection.