CN208211594U - Non-slip insole structure - Google Patents

Abstract

The utility model relates to a non-slip insole structure, which is mainly provided with an insole main body which is movably arranged in a shoe body or combined in the shoe body, wherein the insole main body is provided with a forefoot area, a middle foot area and a rearfoot area which correspond to feet of a human body, and the proper positions of the forefoot area, the middle foot area and the rearfoot area are provided with non-slip insole bodies which have non-slip, soft and elastic degrees; therefore, when a user walks and exercises by wearing the shoe body, the foot can be accurately positioned at the corresponding position without slipping, and the effect of effectively protecting the dynamic safety of the foot is achieved.

Description

Non-slip insole structure

technical field

The utility model relates to an anti-slip insole structure, in particular to an anti-slip insole structure which can allow the foot to be positioned in the correct position and not slide arbitrarily due to dynamic postures.

Background technique

Because the foot must bear the weight of the body and all the loads, no matter when walking or running, there will be pedaling force and impact force acting on the foot. Because the structure of the sole of the human body is very complicated, the sole of the normal human body is mainly composed of 3 parts- Forefoot, middle foot, and rear foot, and the arches corresponding to the three feet are arched under the soles of the feet. These arches provide the feet with extremely high stability and mobility, and human beings can produce standing stability and walking activity.

However, when humans are engaged in daily activities, they often need to rely on their feet to walk, especially when walking for a long time, going up and down stairs, or running and jumping, etc., which are more likely to cause burden on the soles of the feet, and cause fatigue and discomfort of the feet. In recent years, people's awareness of foot health has increased, so insoles are often placed in shoes to protect the feet. Since the human body uses the soles of the feet as support points when standing, and relies on the arches of the feet to support the body, when the human body walks or runs, it will rely on the above-mentioned parts of the human body to provide the body's own elasticity and torsion and absorb the reaction force of the ground to adapt Various terrains can achieve shock-absorbing effect, and it is not easy to fatigue if it is elastic. If the force applied to the above parts is uneven, it is easy for the foot to slip when walking, running and jumping, and the center of gravity of the body cannot be smoothly transferred to the correct position, which is likely to cause body imbalance. Therefore, choose a pair with good support and elasticity. Shoes are very important.

The insole is an item placed on the inner bottom of the shoe. It has appropriate elasticity and needs to withstand the friction of the soles of the feet and the pressure of the body weight to buffer the impact pressure of the user during walking, so as to achieve the effect of shock absorption and cushioning on the soles of the feet; Therefore, developing a good pair of insoles has become one of the most important issues for the industry.

Now, the designer has been adhering to years of rich experience in design, development and actual production in this related industry, and specially provides a non-slip insole structure in order to achieve better practical value.

Utility model content

The purpose of this utility model is to provide an anti-slip insole structure, especially an anti-slip insole structure that can allow the foot to be positioned in the correct position and not slide arbitrarily due to dynamic postures.

In order to achieve the above object, the utility model provides an anti-slip insole structure, which includes an insole main body, and the insole main body is provided with a forefoot area, a middle foot area and a rear foot area corresponding to human feet, and the forefoot area includes There are hallux balls, hallux bones, and toe bones corresponding to each toe joint of the foot. The midfoot area includes the arch of the foot on the inside and the side edge on the outside. On the main body of the insole At least one anti-slip pad body capable of preventing the foot from slipping is provided, and the anti-slip pad body is arranged on the forefoot area, and/or the middle foot area, and/or the rear foot area.

Anti-slip pads are provided at appropriate positions in these areas, and the anti-slip pads are anti-slip, soft and elastic; thereby, the feet can be accurately positioned when the user wears the shoes while walking or exercising. It should be in the position without slipping, so as to effectively protect the dynamic safety of the foot.

In a preferred embodiment of the anti-slip insole structure as described above, the anti-slip pad body is arranged at the area where the forefoot region extends to the side portion of the midfoot region.

In the preferred embodiment of the anti-slip insole structure as described above, the anti-slip pad body is correspondingly arranged in the area of the rear foot region.

A preferred embodiment of the anti-slip insole structure as described above, wherein the anti-slip pad body is correspondingly arranged on the bone of the big toe in the forefoot area and extends to the ball of the big toe and is connected to the side of the middle foot area regional location.

In the preferred embodiment of the anti-slip insole structure described above, the anti-slip pad body is correspondingly arranged at the position of the big toe bone in the forefoot region.

In a preferred embodiment of the anti-slip insole structure described above, the positions of the bone of the big toe, the ball of the big toe, the side of the middle foot, and the rear foot in the forefoot area are respectively The anti-slip pad body is provided.

In a preferred embodiment of the anti-slip insole structure described above, the main body of the insole is movably placed in a shoe body, or combined in a shoe body.

A preferred embodiment of the anti-slip insole structure as described above, wherein the anti-slip pad body is directly combined with the main body of the insole.

In a preferred embodiment of the anti-slip insole structure described above, a plurality of anti-slip pads are provided on the main body of the insole, and the anti-slip pads are respectively arranged on the big toe bone and the big toe of the forefoot area. The area position of the ball portion and the side portion of the midfoot area.

In a preferred embodiment of the above-mentioned anti-slip insole structure, wherein the insole body corresponds to the area where the anti-slip pad is disposed, forming a concave portion for the anti-slip pad to be inserted and combined to form a flat surface.

Through the above, it can be seen from the composition and use implementation description of the structure of the present utility model that the utility model has the following advantages compared with the existing structure:

1. The anti-slip insole structure of the present utility model can prevent the foot from slipping in the shoe body during activities through the arrangement of the anti-slip pad body, and achieve the effect and safety of protecting the foot from displacement and extrusion.

2. The non-slip insole structure of the utility model, through the setting of the anti-slip pad body, allows the user to walk and exercise wearing the shoe body, so that the foot can be accurately positioned at the proper position without slipping, so as to effectively protect the foot The effect of dynamic security.

3. The anti-slip insole structure of the utility model is provided with a soft and elastic anti-slip pad body, so that the user can maintain a sense of comfort when walking and exercising while wearing the shoe body.

4. The non-slip insole structure of the utility model is provided with a soft and elastic anti-slip pad body, which can reduce the consumption of kinetic energy and improve the efficiency of muscle use under the condition that the foot does not slip during dynamic movements, so that it can be worn for a long time The shoe body can be more comfortable and improve sports performance.

Description of drawings

The following drawings are only intended to illustrate and explain the utility model schematically, and do not limit the scope of the utility model. in:

Figure 1: a schematic diagram of the three-dimensional appearance of the utility model;

Figure 2: a schematic diagram of the implementation state of the utility model one;

Fig. 3: the second schematic diagram of the implementation state of the utility model;

Figure 4: a schematic diagram of the implementation state of the utility model three;

Fig. 5: Schematic diagram four of the implementation state of the utility model;

Figure 6: Schematic diagram five of the implementation state of the utility model;

Figure 7: Schematic diagram six of the implementation state of the utility model;

Figure 8: A schematic diagram of the three-dimensional appearance of another embodiment of the utility model;

Fig. 9: A schematic cross-sectional view of another embodiment of the present invention.

Explanation of reference numbers:

The utility model:

1 Insole body

11 Forefoot area

111 Ball of the great toe

112 Bone of hallux toe

113 Toe bone

12 midfoot area

121 Arch of foot

122 side part

13 rear foot area

2 non-slip pad body

A depression

Detailed ways

In order to have a more complete and clear disclosure of the technical content, purpose and achieved effects of the utility model, it is now described in detail below, and please also refer to the disclosed drawings and figure numbers:

First of all, please refer to Figures 1 to 2, which are schematic diagrams of the three-dimensional appearance and use state of the anti-slip insole structure of the present invention. The insole main body 1 is provided with a forefoot area 11, a middle foot area 12 and a rear foot area 13 corresponding to human feet, wherein:

The forefoot area 11 includes the ball of the big toe 111, the bone of the big toe 112 and the bone of the toe 113 corresponding to each toe joint of the foot, and the midfoot area 12 includes the arch of the foot 121 on the inside and the arch on the outside. Side portion 122; further, a non-slip pad body 2 is provided at the area where the big toe bone portion 112 of the forefoot region 11 extends to the big toe ball portion 111 and is connected to the side portion 122 of the midfoot region 12, The anti-slip pad body 2 has the function of preventing the foot from slipping, and has softness and elasticity at the same time.

Please refer to FIG. 3 , in addition to the anti-slip pad body 2 that can be installed in the above-mentioned area, it can also be installed at the area where the forefoot area 11 extends to the side portion 122 of the mid-foot area 12. The anti-slip pad body 2; or as shown in Figure 4, the anti-slip pad body 2 is only provided at the regional position of the rear foot area 13; or as shown in Figure 5, at the front foot area 11 The position of the big toe bone 112 area is provided with the anti-slip pad body 2; or as shown in Figure 6, a plurality of anti-slip pad bodies 2 are provided on the insole main body 1, and the plurality of anti-slip pad bodies 2 are respectively Set in the area of the big toe bone 112 of the forefoot region 11, the ball of the big toe 111 and the side part 122 of the midfoot region 12; or as shown in Figure 7, a plurality of Anti-slip pads 2, a plurality of anti-slip pads 2 are respectively arranged on the big toe bone part 112, the big toe ball part 111, the side part 122 of the middle foot area 12 and the rear foot area of the forefoot area 11 13 regional locations.

For the above explanation, the insole main body 1 corresponds to the range of the forefoot region 11, the middle foot region 12 and the rear foot region 13 of the human foot, and the forefoot region 11 includes the ball of the big toe 111, the bone of the big toe 112 and the toes Bone part 113, the ball part of the big toe 111 refers to the joint where the forefoot of the corresponding foot connects each toe, and the big toe bone part 112 is the big toe part of the corresponding foot, and the toe bone part 113 is Corresponding to the other four toes of the foot; the midfoot region 12 includes an arch portion 121 located on the inside and a side portion 122 located on the outside, the arch portion 121 is the arch portion of the corresponding foot, and the side portion The portion 122 is on the side opposite to the arch of the foot.

Please refer to Fig. 1 and Fig. 8 to Fig. 9 together. In actual production and use, when the anti-slip pad body 2 is combined with the insole body 1, it can be like the area shown in Fig. 2 to Fig. 7 The position is directly combined with the anti-slip pad body 2, so that as shown in Figure 1, the anti-slip pad body 2 slightly embosses the end face of the insole main body 1, of course, the edge of the anti-slip pad body 2 will The insole main body 1 is trimmed and flat; or as shown in Figures 8 to 9, a depression A is formed at the position of the insole main body 1 corresponding to the anti-slip pad body 2, and the depression A is provided for the The anti-skid pad body 2 is inserted and combined to form a flat surface.

Through the above, it can be seen from the composition and use implementation description of the structure of the present utility model that the utility model has the following advantages compared with the existing structure:

1. The anti-slip insole structure of the present utility model can prevent the foot from slipping in the shoe body during activities through the arrangement of the anti-slip pad body, and achieve the effect and safety of protecting the foot from displacement and extrusion.

2. The non-slip insole structure of the utility model, through the setting of the anti-slip pad body, allows the user to walk and exercise wearing the shoe body, so that the foot can be accurately positioned at the proper position without slipping, so as to effectively protect the foot The effect of dynamic security.

3. The anti-slip insole structure of the present utility model is provided with a soft and elastic anti-slip pad body, so that the user can maintain a sense of comfort when walking and exercising while wearing the shoe body.

4. The non-slip insole structure of the utility model is provided with a soft and elastic anti-slip pad body, which can reduce the consumption of kinetic energy and improve the efficiency of muscle use under the condition that the foot does not slip during dynamic movements, so that it can be worn for a long time The shoe body can be more comfortable and improve sports performance.

The above descriptions are only illustrative specific implementations of the present utility model, and are not intended to limit the scope of the present utility model. Any equivalent changes and modifications made by those skilled in the art without departing from the concept and principles of the present invention shall fall within the protection scope of the present invention. And it should be noted that each component of the utility model is not limited to the above-mentioned overall application, and each technical feature described in the specification of the utility model can be selected to be used alone or in combination according to actual needs. Therefore, The utility model naturally covers other combinations and specific applications related to the invention point of the case.

Claims (10)

1. An anti-slip insole structure, characterized in that, the anti-slip insole structure includes an insole main body, and the insole main body is provided with a front foot area, a middle foot area and a rear foot area corresponding to human feet, and the front foot The area includes the ball of the big toe, the bone of the big toe and the bone of the toe corresponding to each toe joint of the foot, and the midfoot area includes the arch of the foot on the inside and the side of the foot on the outside; wherein: At least one anti-slip pad body that can prevent the foot from slipping is provided on the insole body, and the anti-slip pad body is arranged on the front foot area, and/or the middle foot area, and/or the rear foot area. foot area. 2. The anti-slip insole structure according to claim 1, wherein the anti-slip pad body is arranged on the bone of the big toe in the forefoot area and extends to the ball of the big toe and is connected to the middle foot area at the position of the side of the area. 3. The anti-slip insole structure as claimed in claim 1, characterized in that, the area positions of the bone of the big toe, the ball of the big toe, and the side of the middle foot area of the forefoot area are respectively provided with Described anti-slip pad body. 4 . The anti-slip insole structure according to claim 1 , wherein the anti-slip pad body is arranged at a region where the forefoot region extends to the side portion of the midfoot region. 5. The anti-slip insole structure according to claim 1, characterized in that, the anti-slip pad body is arranged at the area of the rear foot area. 6 . The anti-slip insole structure according to claim 1 , wherein the anti-slip pad body is arranged at the position of the big toe bone in the forefoot region. 7 . 7. The anti-slip insole structure according to claim 1, characterized in that, in the bone portion of the big toe, the ball of the big toe, the side of the middle foot region, and the rear foot region of the forefoot region The anti-slip pads are respectively provided at the regional positions. 8. The anti-slip insole structure according to any one of claims 1 to 7, wherein the main body of the insole is movably inserted into a shoe body, or combined into a shoe body. 9. The anti-slip insole structure according to any one of claims 1 to 7, wherein the anti-slip pad body is directly combined with the insole main body for positioning. 10. The anti-slip insole structure according to any one of claims 1 to 7, characterized in that, at the position of the insole main body where the anti-slip pad body is correspondingly arranged, an area for the anti-slip pad body to be placed is formed. Into the flat joint of the concave part.