CN223298647U - Breathable sole and shoe - Google Patents

Abstract

The utility model provides a breathable sole and shoe. A through hole is provided on the sole body and connected to a shaping block made of hard plastic. The hardness of the shaping block is greater than that of the sole body, which not only ensures the breathability but also solves the problem of easy deformation and collapse at the through hole, ensuring the stability and durability of the sole. The fabric layer covering the upper side of the sole body increases softness and protection, and the mesh cloth layer prevents debris from entering the shoe, improving comfort. The front and rear connecting strips at the lower end of the shaping block are combined with the connecting grooves on the lower side of the sole body to enhance the structural strength and connection firmness of the bottom surface of the sole body, improving the stability and durability of the shoe. The ventilation grooves and notches on the lower side of the shaping block and the connecting strip are connected to the ventilation holes, improving air flow capacity, avoiding ground blocking of the ventilation holes, and ensuring good breathability. This breathable shoe can bring a comfortable experience in both sports and daily life, and has broad market application prospects.

Description

Breathable sole and shoe

Technical Field

The utility model relates to the technical field of shoes, in particular to a breathable sole and a shoe.

Background

Shoes are an indispensable article for people in daily life. The breathability of the shoe directly affects the comfort of the wearer. The good air permeability can keep the inside of the shoe dry, reduce bacterial breeding, prevent the generation of foot odor and the like, and simultaneously, the foot can be more comfortable in the wearing process, and discomfort caused by sultry and dampness is avoided.

The prior breathable sole mainly realizes the breathable function by arranging through holes penetrating through the upper side and the lower side of the sole. The through holes can be directly communicated with the inside and the outside of the shoe, so that air can freely circulate between the inside of the shoe and the outside environment, and a good ventilation effect is achieved.

However, this design has significant drawbacks. At the position of the through hole, the sole is easy to deform, collapse and the like. This is because the presence of the through holes weakens the structural strength of the sole. When a person walks or performs other activities while wearing the shoe, the sole is subjected to pressure from the body and reaction forces from the ground. Under these forces, the sole material around the through holes is easily deformed, and even collapse may occur after long-term use.

Such deformation and collapse not only affects the appearance of the shoe, but also, more importantly, reduces the comfort and stability of the shoe. The deformed sole may not provide good support for the foot, resulting in fatigue and pain to the foot. At the same time, the collapsed sole may also affect the overall performance of the shoe, such as slip resistance, shock absorption, etc.

In view of the foregoing problems with the prior art vapor-permeable soles, there is a need for an improved novel vapor-permeable sole and shoe that provides both good vapor-permeability and avoids deformation and collapse of the sole. Therefore, the requirements of people on the comfort of the footwear products can be met, the quality of the shoes can be improved, the service life of the shoes can be prolonged, and the shoes have important practical significance.

Disclosure of Invention

The utility model provides a breathable sole and a shoe, aiming at the problems pointed out in the background art, so as to solve the technical problems.

The technical scheme of the utility model is realized as follows:

The utility model provides a ventilative sole, includes the sole body, the sole body on be equipped with the through-hole that runs through its upper and lower both sides, the through-hole in be connected with the design piece, the design piece on be equipped with the bleeder vent that runs through its upper and lower both sides, the design piece be made by hard plastics, the hardness of design piece be greater than the hardness of sole body.

The utility model is further characterized in that a fabric layer is fixedly arranged on the upper side surface of the sole body, openings corresponding to the air holes are formed in the fabric layer, and a mesh cloth layer is arranged on the upper side surface of the fabric layer.

The utility model is further provided with the air holes in a strip shape, the air holes are arranged along the front-back direction, and the width of the air holes is gradually reduced from front to back.

The utility model is further arranged that the left side and the right side of the front side of the lower end of the shaping block respectively extend forwards to form a front connecting strip, the rear side of the lower end of the shaping block extends backwards to form a rear connecting strip, and the front connecting strip and the rear connecting strip are fixedly connected with the lower side surface of the sole body.

The utility model is further arranged that the lower side surface of the sole body is provided with a connecting groove connected with the front connecting strip and the rear connecting strip.

The utility model is further characterized in that the lower side surfaces of the shaping block, the front connecting strip and the rear connecting strip are provided with upwards concave ventilation grooves which are communicated with the ventilation holes.

The utility model is further characterized in that the outer side wall of the ventilation groove is provided with a notch.

The utility model is further arranged that the bottom surface of the sole body is provided with anti-skid lines.

The utility model further provides that the sole body is made of rubber material or foam material.

A breathable shoe comprises a sole and a vamp, wherein the sole is the breathable sole.

By adopting the technical scheme, the utility model has the beneficial effects that:

Through set up the through-hole and cooperate the design piece at the sole, when guaranteeing good air permeability, solved the easy problem of yielding of sole in through-hole department, subside. The hardness of the shaping block is greater than that of the sole body, so that the through hole position can be effectively structurally supported and reinforced, and the stability and durability of the sole are ensured.

The fabric layer on the upper side surface of the sole body plays a role in cladding, so that the softness and the protection of the sole are improved. The mesh cloth layer can prevent sundries from entering the shoe through the air holes, keep the shoe clean, and improve wearing comfort.

The front connecting strip and the rear connecting strip at the lower end of the shaping block are combined with the connecting groove at the lower side surface of the sole body, so that the structural strength of the bottom surface of the sole body and the firmness of the connection of the shaping block and the sole body are enhanced, and the stability and the durability of the shoe are improved.

The shaping block, the vent grooves on the lower sides of the front connecting strip and the rear connecting strip and the notched opening on the outer side wall are communicated with the vent holes, so that the air flow capacity is improved, the vent holes are blocked by the ground when the sole is prevented from being contacted with the ground, and the shoe is ensured to have good air permeability all the time. The breathable shoes can bring comfortable wearing experience for users in sports occasions and daily life, and have wide market application prospects.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic view of the bottom surface of the sole of the present utility model.

Fig. 2 is a schematic structural view of the shaping block of the present utility model.

Fig. 3 is a bottom view of the inventive shaped block.

Fig. 4 is a schematic structural view of the ventilation shoe of the present utility model.

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.

The utility model is illustrated below with reference to fig. 1-4:

An air-permeable sole comprises a sole body 1, wherein the sole body 1 is made of rubber materials or foam materials.

The middle position of the sole body 1 is provided with a through hole 2 penetrating through the upper side and the lower side of the sole body, and the through hole is used for communicating the inside and the outside of the shoe, so that air can freely circulate between the inside of the shoe and the outside environment, and the ventilation function is realized. However, the presence of through holes also presents some problems. Since the through hole penetrates the sole body, it weakens the structural strength of the sole. In the wearing process, the sole can bear the pressure from a human body and the reaction force of the ground, the sole material around the through holes is easy to deform, and even collapse can occur after long-term use.

The shaping block 3 is connected in the through hole 2, the shaping block 3 is made of hard plastic, and the hardness of the shaping block 3 is larger than that of the sole body 1. The shaping block 3 is provided with ventilation holes 4 penetrating through the upper side and the lower side of the shaping block.

In order to solve the problem caused by the through holes, a shaping block 3 is connected to the through holes 2. The shaping block 3 is made of hard plastic, and the hardness of the shaping block is larger than that of the sole body 1. The hard plastic has higher strength and rigidity, and can bear larger pressure without easy deformation. The shaping block 3 is provided with ventilation holes 4 penetrating through the upper side and the lower side of the shaping block. The ventilation holes 4 are communicated with the upper side and the lower side of the sole body 1, and play a role in ventilation. Simultaneously, the hardness of design piece is greater than the hardness of sole body, and it can carry out structural support to the sole body of through-hole position and strengthen. During the wearing process, the shaping block can bear the pressure from a human body and the reaction force of the ground, so that the sole material around the through holes is prevented from deforming and collapsing.

When people walk or perform other activities by wearing shoes, air can freely circulate between the inside of the shoes and the external environment through the air holes on the shaping blocks. Because the hardness of the shaping block is greater than that of the sole body, the shaping block can keep the shape and the structure of the through hole stable, and can not deform and collapse due to the action of external force.

The air-permeable shoe has good air permeability, and the free circulation of air in the shoe is realized by arranging the through holes and the air holes, so that the drying and comfort in the shoe are maintained.

The sole structure is stable and reliable, the problem that the sole is easy to deform and collapse at the position of the through hole is effectively solved by adding the shaping block, and the structural strength and stability of the sole are improved.

The comfortable wearing experience is that the sole body is made of rubber materials or foam materials, has good elasticity and buffering performance, and can provide comfortable wearing experience for the wearer. Meanwhile, the hardness of the shaping block is moderate, and discomfort can not be caused to the foot.

The long service life is that the sole is stable and reliable in structure and is not easy to deform and collapse, so that the service life of the shoes can be prolonged.

The upper side of the sole body 1 is fixedly provided with a fabric layer 5, the fabric layer 5 is provided with openings 6 corresponding to the air holes 4, and the upper side of the fabric layer 5 is provided with a mesh cloth layer 7.

The fabric layer can be firmly fixed on the sole body by means of gluing, stitching and the like so as to ensure that the fabric layer cannot fall off easily in the use process. The fabric layer serves to cover the upper side of the sole body 1. In one aspect, the fabric may provide some flexibility and cushioning to the sole so that the wearer feels more comfortable to the foot during walking or movement. On the other hand, the fabric layer can play a certain role in protecting the sole body, so that the direct friction and abrasion between the sole body and the outside are reduced, and the service life of the sole is prolonged.

The mesh cloth layer is positioned on the fabric layer and is tightly combined with the fabric layer. The mesh cloth layer 7 plays a role in preventing some sundries from entering the shoe through the ventilation holes 4. In daily life we may walk in various different environments like streets, grasslands, sand etc. Dust, small particles, sand, and the like may be present in these environments. If the blocking of the mesh cloth layer is not achieved, the sundries can easily enter the shoe through the air holes, so that the comfort of wearing can be affected, and the foot can be possibly injured. The mesh size of the mesh cloth layer can be designed according to actual needs, so that good air permeability is ensured, and sundries can be effectively prevented from entering the shoe.

The fabric layer, the mesh cloth layer, the sole body and the shaping block together form a complete breathable sole system. In this system, the layers cooperate with each other to perform their respective functions.

The sole body provides basic support and buffering function, realizes the air permeability through-hole and design piece simultaneously.

The fabric layer coats the upper side surface of the sole body, so that the softness and the protection of the sole are improved.

The mesh cloth layer effectively prevents sundries from entering the shoe on the premise of ensuring ventilation.

The air holes 4 are positioned in the middle of the sole body 1, the air holes 4 are in a long strip shape, the air holes 4 are arranged along the front-back direction, and the width of the air holes 4 gradually becomes smaller from front to back. The ventilation holes are arranged in the middle of the sole body 1, so that the pressure of the sole can be more uniformly dispersed when the sole is stressed. When people walk or exercise, the pressure of feet on the soles is mainly concentrated on the soles and the heels, and the middle positions of the soles are relatively stressed less. Therefore, the ventilation holes are arranged at the middle position, so that the possibility of deformation or blockage of the ventilation holes caused by pressure concentration can be reduced, and the stability of ventilation performance is ensured.

The left and right sides of the front side of the lower end of the shaping block 3 extend forward respectively to form front connecting strips 8, and the front connecting strips extend forward from one side of the shaping block close to the toe, and the front connecting strips on the left and right sides coact to provide additional support and structural reinforcement for the front part of the sole.

The rear side of the lower end of the shaped block 3 extends back to form a rear connecting strip 9 which extends back from the side of the shaped block close to the heel to provide support and structural reinforcement for the rear part of the sole.

The front connecting strip 8 and the rear connecting strip 9 are fixedly connected with the lower side surface of the sole body 1.

The lower side surface of the sole body 1 is provided with a connecting groove 10 connected with the front connecting strip 8 and the rear connecting strip 9. The positions of the connecting grooves correspond to the front connecting strip and the rear connecting strip, so that the connecting strips can be embedded into the connecting grooves, and firm connection is realized.

The function of the connecting groove mainly comprises the following points:

The accurate connecting position is provided, namely the front connecting strip and the rear connecting strip can be accurately connected with the sole body, and deviation of the connecting position is avoided, so that the firmness and the stability of connection are ensured.

The contact area of the connection is increased, the contact area of the connecting strip and the sole body can be increased by the connecting grooves, and the connection strength is improved. The greater contact area means that the connecting strip is better able to withstand compressive and tensile forces from the sole, reducing the likelihood of loosening or breakage of the connection.

The connecting grooves can hide the connecting strips in the sole, so that the appearance of the sole is tidier and more attractive. Meanwhile, the hidden connecting structure can reduce the influence of the external environment on the connecting part, such as dust, moisture and the like, so that the service life of the connection is prolonged.

The structural strength of the bottom surface of the sole body is enhanced:

The presence of the front and rear connecting straps provides additional support to the bottom surface of the sole body. When a person walks or moves while wearing the shoe, the sole receives a reaction force from the ground and a pressure of the body. The connecting strips can disperse the forces to a larger area, so that the situation that the local stress of the sole is overlarge is reduced, and the structural strength of the bottom surface of the sole body is enhanced.

The connecting strip is made of hard plastic and has high strength and rigidity, and the connecting strip is made of the same material as the shaping block. The connecting strip made of the material can bear larger force and is not easy to deform, and reliable support is provided for the sole.

The firmness of the connection of the reinforcing shaping block and the sole body:

The front connecting strip and the rear connecting strip are fixedly connected with the lower side face of the sole body, and the connecting points between the shaping blocks and the sole body are increased. The multi-point connection mode can enable the shaping block to be firmly fixed on the sole body, and the possibility of loosening or falling off in the use process is reduced.

The fixed connection between the connecting strip and the sole body can be achieved in various ways, such as gluing, welding, embedding, etc. The connection modes can be selected according to actual conditions so as to ensure the firmness and the reliability of connection. For example, gluing can provide a strong adhesive force suitable for larger connection areas, welding can achieve a secure connection, but requires specialized equipment and techniques, and inlay can embed the connecting strip into the sole body to provide a more concealed and secure connection.

The lower side surfaces of the shaping block 3, the front connecting strip 8 and the rear connecting strip 9 are provided with upwards concave ventilation grooves 11, and the design ensures that the ventilation grooves and other parts of the sole form certain space difference, thereby providing a special channel for air circulation. The ventilation groove 11 is communicated with the ventilation holes 4. The concave shape of the vent grooves can increase the contact area between the vent grooves and the air, thereby improving the flow efficiency of the air in the vent grooves. Meanwhile, the concave design is also helpful for protecting the ventilation groove from direct impact and abrasion of external objects, and prolonging the service life of the ventilation groove.

The outer side wall of the ventilation groove 11 is provided with a notch 12. The number and the size of the notched openings can be adjusted according to actual needs so as to achieve the optimal ventilation effect. The primary function of the notching is to further enhance the air flow capacity. When the sole is contacted with the ground, the notch can enable air to enter the ventilation groove from different directions, so that the ground is prevented from forming complete blocking of the ventilation holes 4. Thus, even under the condition that the sole is in contact with the ground, air can still enter the ventilation groove through the notch, and then enter the shoe through the ventilation holes, so that the ventilation performance of the shoe is ensured.

Increasing the air circulation channel:

The ventilation groove 11 is communicated with the ventilation holes 4 to form a complete ventilation channel. Air can enter the ventilation groove from the ventilation holes and then exchange with the external environment through the notch. This multi-channel design greatly increases the flow path of the air and improves the flow capacity of the air.

The ventilation grooves and the notched openings enable air to flow more smoothly in the sole, and the resistance of air flow is reduced. This helps to quickly carry away moisture and heat from the interior of the shoe, keeping the interior of the shoe dry and comfortable.

Avoid the influence of ground shutoff:

In actual wear, contact of the sole with the ground is unavoidable. Without the vent and notched design, the ground is likely to form a seal against the vent, thereby affecting the flow of air. The vent grooves and the notched openings can effectively avoid the occurrence of the situation.

When the sole is in contact with the ground, the notched opening can enable air to enter the ventilation groove from the side surface, so that the blocking of the ground is bypassed. Therefore, even if the sole is in contact with the ground, the ventilation holes can still keep certain ventilation capacity, and the ventilation performance of the shoes is not affected.

The bottom surface of the sole body 1 is provided with anti-skid lines.

A breathable shoe comprises a sole and a vamp, wherein the sole is the breathable sole.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather to enable any modification, equivalent replacement, improvement or the like to be made within the spirit and principles of the utility model.

Claims (10)

1. The breathable sole comprises a sole body (1) and is characterized in that through holes (2) penetrating through the upper side and the lower side of the sole body (1) are formed in the sole body (1), shaping blocks (3) are connected in the through holes (2), ventilation holes (4) penetrating through the upper side and the lower side of the shaping blocks are formed in the shaping blocks (3), the shaping blocks (3) are made of hard plastics, and the hardness of the shaping blocks (3) is larger than that of the sole body (1).

2. The breathable sole of claim 1, characterized in that a fabric layer (5) is fixedly arranged on the upper side surface of the sole body (1), an opening (6) corresponding to the ventilation hole (4) is arranged on the fabric layer (5), and a mesh cloth layer (7) is arranged on the upper side surface of the fabric layer (5).

3. The vapor-permeable sole according to claim 1, characterized in that the vapor-permeable holes (4) are elongated, the vapor-permeable holes (4) are arranged along the front-back direction, and the width of the vapor-permeable holes (4) is gradually reduced from front to back.

4. The breathable sole of claim 1, wherein the left side and the right side of the front side of the lower end of the shaping block (3) are respectively extended forward to form a front connecting strip (8), the rear side of the lower end of the shaping block (3) is extended backward to form a rear connecting strip (9), and the front connecting strip (8) and the rear connecting strip (9) are fixedly connected with the lower side surface of the sole body (1).

5. A breathable sole according to claim 4, characterized in that the underside of the sole body (1) is provided with a connecting groove (10) for connecting with the front connecting strip (8) and the rear connecting strip (9).

6. The breathable sole of claim 4, characterized in that the lower side surfaces of the shaping block (3), the front connecting strip (8) and the rear connecting strip (9) are provided with upwards concave ventilation grooves (11), and the ventilation grooves (11) are communicated with the ventilation holes (4).

7. A breathable sole according to claim 6, characterized in that the lateral wall of the ventilation groove (11) is provided with a notch (12).

8. The breathable sole according to claim 1, characterized in that the bottom surface of the sole body (1) is provided with anti-slip lines.

9. A vapor-permeable sole according to claim 1, characterized in that said sole body (1) is made of rubber material or foam material.

10. A breathable shoe comprising a sole and an upper, characterized in that said sole is a breathable sole according to any one of the preceding claims 1-9.