CN210539219U - Anti-slip wear-resistant insole - Google Patents

Abstract

The utility model discloses an anti-slip wear-resistant insole, which relates to the technical field of insoles, and the key points of the technical proposal of the anti-slip wear-resistant insole comprise an insole body, wherein the edge of the insole body is surrounded with rubber strips, the lower ends of the rubber strips are provided with vertical supporting columns, and the tail ends of the supporting columns exceed the side walls of the insole body; the shoe-pad body front end is equipped with anti-skidding district, the rubber strip centers on around anti-skidding district, just be equipped with a large amount of bellied non slipping spur in the anti-skidding district, the utility model discloses stable effect when having good anti-skidding, using.

Description

Anti-slip wear-resistant insole

Technical Field

The utility model relates to a technical field of shoe-pad, more specifically say, it relates to a wear-resisting shoe-pad of anti-skidding.

Background

The insole is used as a daily necessity and is usually matched with a shoe, and the insole can play a role in supporting the foot by being placed in the shoe, so that the stability of the pace is improved; the insole can also prevent the sole from sliding in the shoe, so that the shoe is more comfortable to wear. However, when a user walks or exercises, the insole is easy to slide back to the heel of the shoe, or the insole is easy to slide towards the sole of the shoe during the shoe wearing process.

Chinese patent with publication number CN203105823U in the prior art discloses an insole, which comprises an insole body, wherein the insole body is formed by sewing multiple layers of fabrics through annular routing coils, the annular routing coils comprise a plurality of external reinforcing coils and a plurality of internal fixed connecting coils, the anti-back-sliding sewing coils are close to the edge of the insole body, and the coil distance L5 of the reinforcing coils is smaller than the coil distance L4 of the internal fixed connecting coils. The insole is added with a plurality of high-density reinforcing coils, so that the shape of the insole is kept, and the insole has the functions of skid resistance and no wrinkle. When people wear the insole, the insole can be well matched with shoes, the phenomenon of wrinkling and folding can not occur in the shoes, and the reinforcing coil can enable the edge of the insole to be firm.

However, in the use process of the annular routing coil in the patent, the annular routing coil continuously rubs with the shoe upper, and in the long-time use process of the insole, the surface of the annular routing coil is easy to be gradually ground flat by the shoe upper and becomes smooth, and even the situation of breaking and splitting can be seriously caused; once the loop-shaped winding is worn out, the anti-slip effect of the loop-shaped winding is reduced or even lost.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pair of anti-skid and wear-resistant insoles, which are not enough in the prior art and have good anti-skid and stable effects when in use.

In order to achieve the above purpose, the utility model provides a following technical scheme:

an anti-slip wear-resistant insole comprises an insole body, wherein rubber strips are arranged around the edge of the insole body, vertical support columns are arranged at the lower ends of the rubber strips, and the tail ends of the support columns exceed the side walls of the insole body; the shoe pad is characterized in that an anti-slip area is arranged at the front end of the shoe pad body, the rubber strips surround the anti-slip area, and a large number of raised anti-slip blocks are arranged on the anti-slip area.

By adopting the technical scheme, when a user wears the shoe, the rubber strip is pressed on the vamp, and the edge of the shoe pad body can be tightly attached to the vamp through the rubber strip due to the large friction force on the surface of the rubber strip; the support columns arranged at the lower ends of the rubber strips are tightly supported with the shoe uppers, the edges of the insole body can be limited through the support columns, and the insole is prevented from sliding when a user walks or moves, so that the insole body is more stable; because the user is at the in-process of wearing shoes, preceding sole will produce forward thrust to shoe-pad body front end, can increase the frictional force between shoe-pad body and vamp through the non slipping spur of setting on the antiskid district to can produce the reverse resistance to the shoe-pad body, more effectual preceding smooth of having avoided the shoe-pad body.

The utility model discloses further set up to: the tail end of the anti-slip block is provided with corrugated anti-slip lines.

Through adopting above-mentioned technical scheme, anti-skidding line makes the non slipping spur terminal become roughly to increased the frictional force between non slipping spur and the vamp, makeed the anti-skidding effect of non slipping spur better, user's shoe-pad body also can be more stable when wearing.

The utility model discloses further set up to: the insole body is provided with a large number of through air holes.

By adopting the technical scheme, the air holes can effectively improve the air permeability of the insole body, so that a user can feel more comfortable when wearing the insole; when the insole body is aired, the beriberi can be diffused through the air holes, so that the insole body keeps fresh and cool.

The utility model discloses further set up to: the middle part of the insole body is provided with an arch surface positioned at the arch of the human body, and the arch surface extends and bends upwards.

By adopting the technical scheme, the main function of the human arch is to enable gravity to be dispersed forwards from the ankle joint to the metatarsal capitals through the talus and then transmitted backwards to the calcaneus so as to ensure the stability of sole support when the foot is upright; the elasticity of the arch has a buffering effect on the rhythm between the gravity downward transmission of the body and the ground bounce, and simultaneously has the effects of keeping blood vessels and nerves of the sole from being pressed and the like. The arch surface can be attached to the arch of foot when a user wears the shoe, the arch of foot can be effectively protected through the arch surface, and the phenomenon that some small broken stones enter the shoe to stab the arch of foot is avoided.

The utility model discloses further set up to: an arc-shaped extending part is formed in the middle of the insole body and extends upwards gradually.

By adopting the technical scheme, as the insole body is provided with a plurality of anti-slip structures, when the insole body needs to be taken out of a shoe, the bottom of the insole body is tightly attached to the vamp; the extension part arranged in the middle of the insole body provides an acting point for a user, and the insole body can be conveniently taken out of the shoe by the user through the extension part.

The utility model discloses further set up to: the extension part divides the rubber strip into two relatively independent parts, and longitudinal T-shaped strips are arranged on the side walls of the extension parts, which are deviated from each other.

By adopting the technical scheme, the relatively independent rubber strips can not interfere with each other when being mutually attached to the shoe upper, when one end of the rubber strips slides, the other end of the rubber strips can still keep relatively stable, and the rubber strips at the sliding end can quickly reset under the guiding of the rubber strips at the stable end due to the elasticity of the rubber strips, so that the shoe pad body can keep stable; the T-shaped strips arranged on the side walls of the extending parts can be tightly abutted to the shoe upper, so that the extending parts are prevented from sliding, and the extending parts are more stable.

The utility model discloses further set up to: the insole is characterized in that a concave groove located in a heel is formed in the rear end of the insole body, a vertical supporting column is arranged in the concave groove, a round protruding block is arranged at the upper end of the supporting column, and the round protruding block is located in the concave groove.

By adopting the technical scheme, because the heel of a human body is provided with a plurality of blood vessels and nerves, dizziness can be caused by long-time compression, when a user stands, a certain gap is left between the heel and the insole body through the concave groove, so that the heel can be prevented from being compressed for a long time; it should be mentioned that the round protruding block arranged at the upper end of the support pillar is made of latex, which has high elasticity and good air-permeable and antibacterial effects, thereby making the heel more comfortable.

The utility model discloses further set up to: the insole body also comprises a PVC/NBR rubber layer positioned at the bottom.

By adopting the technical scheme, the PVC/NBR rubber layer is prepared by taking polyvinyl chloride (PVC) and nitrile rubber (NBR) as main raw materials, adding a stabilizer, a plasticizer, a cold-resistant agent and the like, mixing at a high speed and extruding and granulating by a double-screw extruder, and has the advantages of high elasticity, high strength, wear resistance, good finish degree and the like; thereby the insole body is more wear-resistant and more comfortable to wear.

To sum up, the utility model discloses following beneficial effect has:

1. when a user wears the insole, the rubber strip is pressed on the vamp, and the edge of the insole body can be tightly attached to the vamp through the rubber strip due to the large friction force on the surface of the rubber strip; the support columns arranged at the lower ends of the rubber strips are tightly supported with the shoe uppers, the edges of the insole body can be limited through the support columns, and the insole body can be prevented from sliding when a user walks or moves, so that the insole body is more stable; as the front sole can generate forward thrust to the front end of the insole body in the shoe wearing process of a user, the friction force between the insole body and the vamp can be increased through the anti-skidding blocks arranged on the anti-skidding areas, so that reverse resistance can be generated to the insole body, and the forward skidding of the insole body is avoided more effectively;

2. the arch surface can be attached to the arch of foot when a user wears the shoe, the arch of foot can be effectively protected through the arch surface, and the phenomenon that some small broken stones enter the shoe to stab the arch of foot is avoided.

Drawings

FIG. 1 is a schematic view of the overall structure of the bottom of the present invention;

fig. 2 is a schematic view of the overall structure of the front surface of the present invention.

Reference numerals: 1. an insole body; 2. a rubber strip; 3. supporting columns; 4. an anti-slip region; 5. anti-skid blocks; 6. anti-skid lines; 7. air holes are formed; 8. an arcuate surface; 9. an extension portion; 10. t-shaped strips; 11. a support pillar; 12. a round bump; 13. a recessed groove; 14. PVC/NBR rubber layer.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in figure 1, the anti-slip wear-resistant insole comprises an insole body 1, wherein a rubber strip 2 is wound on the upper fixing ring at the outer side edge of the insole body 1, a vertical support column 3 is integrally formed at the lower end of the rubber strip 2, and the support column 3 uniformly surrounds the insole body 1.

As shown in figure 1, the lower side wall of the support column 3 exceeds the lower side wall of the insole body 1, and corrugated anti-skid lines 6 are formed on the side wall of the support column 3 departing from the rubber strip 2. When the lower end of the support column 3 is attached to the vamp, the friction between the support column 3 and the vamp can be increased through the anti-skid lines 6, so that the insole body 1 is more stable.

As shown in figure 1, the insole body 1 further comprises a PVC/NBR rubber layer 14 at the bottom, wherein the PVC/NBR rubber is purchased from special plastics factories in Xinxiang city. The PVC/NBR rubber layer 14 can make the insole body 1 more wear-resistant and more comfortable to wear. The side wall of the front end of the bottom of the insole body 1 is provided with an anti-slip area 4, and the rubber strip 2 surrounds the anti-slip area 4. Three rows of anti-skid blocks 5 which are transversely arranged are fixedly connected to the anti-skid area 4, and the anti-skid blocks 5 are rhombic and are convex in the direction back from the shoe pad body 1.

As shown in fig. 1 and 2, a large number of uniformly distributed and penetrating air holes 7 are formed in the insole body 1, and the air holes 7 can effectively improve the air permeability of the insole body 1, so that a user can feel more comfortable when wearing the insole. An arch surface 8 positioned at the arch of the human body is formed in the middle of the front surface of the insole body 1, and the arch surface 8 gradually bulges and bends towards the upper part of the front surface of the insole body 1. The arch surface 8 can be attached to the arch of foot, and the arch of foot can be effectively protected through the arch surface 8.

As shown in fig. 1, the outer side walls of the two ends of the middle part of the insole body 1 are integrally formed with opposite extending parts 9, the opposite side walls of the two extending parts 9 protrude in the direction away from each other to form an arc shape, the upper ends of the two extending parts 9 gradually extend to the front of the insole body 1, and the extending parts 9 can be attached to the corresponding vamps. The extending part 9 divides the rubber strip 2 into two parts which are relatively independent from each other in the front and back, and the extending part 9 at one side of the cambered surface 8 is connected with the side wall of the cambered surface 8. Three longitudinal T-shaped strips 10 are fixedly adhered to the side walls of the two extending parts 9 which are away from each other. The T-shaped strip 10 has elasticity and can be tightly propped against the shoe upper, and the stability of the extension part 9 can be improved through the T-shaped strip 10.

As shown in fig. 2, the front surface of the insole body 1 is provided with a concave groove 13 located at the heel, the bottom of the concave groove 13 is fixedly connected with three vertical support columns 11, and the support columns 11 are made of rubber and have elasticity. The upper end of the supporting column 11 is fixedly bonded with a circular bump 12, the circular bump 12 is made of latex material, and has high elasticity and good air-permeable antibacterial effect. The round bump 12 is positioned in the concave groove 13 and the upper end is lower than the concave groove 13.

The specific effects of the embodiment are as follows:

when the user is wearing, rubber strip 2 will be compressed tightly on the vamp, because the frictional force on rubber strip 2 surface is great, enable the border of shoe-pad body 1 through rubber strip 2 and hug closely on the vamp. And the support column 3 arranged at the lower end of the rubber strip 2 is also tightly supported with the vamp, the edge of the insole body 1 can be limited through the support column 3, and the user can avoid the sliding of the insole body 1 when walking or moving, so that the insole body 1 is more stable. Because the user is at the in-process of wearing shoes, preceding sole will produce forward thrust to shoe-pad body 1 front end, can increase the frictional force between shoe-pad body 1 and vamp through setting up non slipping spur 5 on antiskid district 4 to can produce the reverse resistance to shoe-pad body 1, more effectual preceding smooth of having avoided shoe-pad body 1. And the arch surface 8 can be attached to the arch of foot when a user wears the shoe, the arch of foot can be effectively protected through the arch surface 8, and the phenomenon that some small broken stones enter the shoe to stab the arch of foot is avoided.

The above description is only the preferred embodiment of the present invention, and is not intended to limit the present invention, any modification, equivalent replacement, or improvement made within the design concept of the present invention should be included within the protection scope of the present invention.

Claims (8)

1. The utility model provides an anti-skidding wear-resisting shoe-pad, includes shoe-pad body (1), characterized by: the edge of the insole body (1) is provided with a rubber strip (2) in a surrounding manner, the lower end of the rubber strip (2) is provided with a vertical supporting column (3), and the tail end of the supporting column (3) exceeds the side wall of the insole body (1); the insole is characterized in that an anti-skid area (4) is arranged at the front end of the insole body (1), the rubber strips (2) surround the anti-skid area (4), and a large number of raised anti-skid blocks (5) are arranged on the anti-skid area (4).

2. The anti-slip wear-resistant insole as claimed in claim 1, wherein: the tail end of the anti-skid block (5) is provided with corrugated anti-skid lines (6).

3. The anti-slip wear-resistant insole as claimed in claim 1, wherein: the insole body (1) is provided with a large number of through air holes (7).

4. The anti-slip wear-resistant insole as claimed in claim 1, wherein: an arch surface (8) positioned at the arch of the human body is formed in the middle of the insole body (1), and the arch surface (8) extends and bends upwards.

5. The anti-slip wear-resistant insole as claimed in claim 4, wherein: an arc-shaped extension part (9) is formed in the middle of the insole body (1), and the extension part (9) gradually extends upwards.

6. The anti-slip wear-resistant insole as claimed in claim 5, wherein: the rubber strip (2) is divided into two relatively independent parts by the extension parts (9), and longitudinal T-shaped strips (10) are arranged on the side walls of the extension parts (9) which are deviated from each other.

7. The anti-slip wear-resistant insole as claimed in claim 1, wherein: the insole is characterized in that a concave groove (13) located in a heel is formed in the rear end of the insole body (1), a vertical supporting column (11) is arranged in the concave groove (13), a round protruding block (12) is arranged at the upper end of the supporting column (11), and the round protruding block (12) is located in the concave groove (13).

8. The anti-slip wear-resistant insole as claimed in claim 1, wherein: the insole body (1) also comprises a PVC/NBR rubber layer (14) positioned at the bottom.

Images