Breathable and degerming insole
Technical Field
The utility model relates to the technical field of insoles, in particular to a breathable and degerming insole.
Background
The insole is generally shaped to fit the outsole and midsole of the shoe, sized to the sole plate or panel, and shaped to correspond to the sole. The insole has various types and functions, and people can select the insole of the shoe, so that the insole has the functional requirements of warm keeping, elastic support, micro-heightening, ventilation, deodorization and the like besides comfortable wearing and exquisite appearance. Breathable, antibacterial and deodorant insoles are the primary choice for those who are prone to perspiration.
The prior insoles usually take a sponge layer or a latex layer as a base layer, and then an anti-skid fabric layer is arranged on the base layer, and some antibacterial substances are added into the prior insoles for antibacterial purposes, but the antibacterial materials added into the prior insoles are mostly incapable of realizing real antibacterial and deodorant effects. Moreover, the sponge layer, the latex layer and the fabric can not really achieve the function of absorbing moisture, bad air permeability can cause odor to be emitted in the shoes to breed bacteria, most of bacteria can be adsorbed on the insoles, and long-term diseases such as foot odor or beriberi can be caused.
The utility model aims to provide a breathable and degerming insole which achieves the functions of ventilation, antibiosis and deodorization.
Disclosure of utility model
In order to solve the above problems, the present utility model provides a breathable and aseptic insole, comprising an insole body 1, wherein the insole body 1 comprises a sole contact layer 2 and a support layer 3 which are sequentially arranged from top to bottom, the support layer 3 is made of a material with an aseptic effect, and is integrated with the sole contact layer 2 through bonding or pressing, a sole support block 31 is formed on the bottom surface of the support layer 3 at least corresponding to the front sole part, a plurality of through holes 32 are arranged on the sole support block 31, and each through hole is covered by the sole contact layer 2 as a breathable mesh on the surface.
According to the utility model, the sole supporting block 31 is formed at the position of the supporting layer 3 corresponding to the front sole, so that a better supporting effect can be provided for the front sole, ventilation meshes are arranged on the sole supporting block 31, the ventilation property of the insole can be improved, moisture is quickly absorbed, bacterial breeding is reduced, and the supporting layer 3 is made of a material with a sterilization effect, so that the effects of inhibiting bacteria and achieving ventilation, antibacterial and deodorant functions are achieved.
Preferably, the support layer 3 is pressed from wula sedge. The supporting layer 3 is formed by pressing the uraria, the uraria has extremely strong inhibition effect on fungi and bacteria, can eliminate fatigue and treat beriberi after being used next to the skin for a long time, has extremely good adsorptivity, absorbs moisture, automatically adjusts and keeps the wetting degree, is warm in winter and cool in summer, and has the effects of fragrant and lasting smell and removing peculiar smell.
Preferably, a heel support block 33 is formed on the bottom surface of the support layer 3 at a position corresponding to the heel. The heel supporting block 33 is arranged at the position of the supporting layer 3 corresponding to the heel, so that the heel can be supported, and the comfort of the heel is improved.
Preferably, the middle portion of the plantar contact layer 2 corresponding to the arch is raised upward to form an arch support 22. The arch is supported by the arch support 22 to protect the arch from being emptied.
Preferably, a first groove 311 is formed on the outer periphery of the region corresponding to the forefoot on the bottom surface of the support layer 3, and the portion inside the first groove 311 serves as the sole support block 31. The sole supporting block 31 is separated from other areas of the supporting layer 3 through the first groove 311, so that the sole supporting block 31 forms an independent block surface on the bottom surface of the supporting layer 3, bending stress can be increased in the walking process, a good supporting effect is achieved on the sole, namely, the first groove 311 is formed around the sole supporting block 31, and the sole supporting block 31 serving as a relatively independent area cannot deform together with the whole insole, so that a better supporting effect is achieved.
Preferably, a second recess 331 is formed on the bottom surface of the support layer 3 at the periphery of the area corresponding to the heel, and a portion within the second recess 331 serves as a heel support block 33. The bottom of the heel supporting block 33 is separated from other areas of the supporting layer 3 through the second groove 331, so that the heel supporting block 33 forms an independent block surface on the bottom surface of the supporting layer 3, bending stress can be increased in the walking process, and a better supporting effect is achieved on the heel.
Preferably, the front half surface of the sole contact layer 2 is uniformly formed with a plurality of circular protruding points 21. The front half part of the sole contact layer is uniformly provided with a plurality of round protruding points 21, so that the sole contact layer can play a role in buffering and damping the sole, has the sole wrapping and massaging functions, and improves the comfort of feet.
Preferably, a plurality of protrusions 23 are formed at the rear portion of the plantar contact layer 2 corresponding to the heel, and the plurality of protrusions 23 are arranged in a cat-foot shaped pattern.
Preferably, the plantar contact layer 2 is constituted by dermis. The sole contact layer is formed by leather, so that better softness and adaptability can be provided, and wearing comfort is improved. The dermis has natural pore structure, so as to regulate the humidity and temperature in the shoes and keep the feet dry and comfortable.
Preferably, the plantar contact layer 2 is constituted by pigskin. The sole contact layer 2 is formed by pigskin, so that the air permeability, softness and elasticity of the insole can be improved, the discharge of moisture at the foot can be assisted, the foot can be kept dry and comfortable, the foot odor and bacteria breeding can be effectively prevented, and the comfort and durability are improved.
Drawings
FIG. 1 is a schematic diagram of the top surface structure of a breathable and degerming insole;
FIG. 2 is a schematic diagram of the bottom surface structure of the breathable and degerming insole;
FIG. 3 is a schematic view of the cross-sectional structure of A-A in FIG. 1.
In the figure, 1 part of the insole body, 2 parts of the plantar contact layer, 21 parts of the round convex points, 22 parts of the arch support block, 23 parts of the convex points, 3 parts of the support layer, 31 parts of the sole support block, 311 parts of the first groove, 32 parts of the through hole, 33 parts of the heel support block and 331 parts of the second groove.
Detailed Description
Preferred embodiments of the present utility model will be described in detail with reference to the accompanying drawings.
As shown in fig. 1, 2 and 3, the breathable and degerming insole comprises an insole body 1, wherein the insole body 1 comprises a sole contact layer 2 and a support layer 3 which are sequentially arranged from top to bottom, and the support layer 3 is combined with the sole contact layer 2 into a whole through bonding or pressing.
The supporting layer 3 is formed by pressing the uraria, has extremely strong inhibition effect on fungi and bacteria, and can eliminate fatigue and treat beriberi after being used next to the skin for a long time. The glaucescent fissistigma root has excellent adsorptivity, absorbs moisture, automatically adjusts and maintains the moisture degree, is warm in winter and cool in summer, and has the effects of fragrance and lasting smell and removing peculiar smell.
The plantar contact layer 2 is the dermis layer. The plantar contact layer 2 in this embodiment is constituted by pigskin. The sole contact layer is formed by pigskin, so that the air permeability, softness and elasticity of the insole can be improved, the discharge of moisture at the foot can be assisted, the foot can be kept dry and comfortable, the foot odor and bacteria breeding can be effectively prevented, and the comfort and durability are improved. In other embodiments the plantar contact layer 2 may also be made of other dermis, such as cowhide, sheep skin, etc.
A plurality of circular protruding points 21 are uniformly arranged on the surface of the front half part of the sole contact layer 2. The round protruding points 21 can play a role in buffering and damping the position of the sole, have the functions of wrapping the sole and massaging, and improve the comfort of the foot.
The foot contact layer 2 is provided with an arch support block 22 at a position corresponding to the arch. The arch is supported by arch support blocks 22 to prevent foot-lifting.
The region of the rear portion of the plantar contact layer 2 corresponding to the heel forms a plurality of bumps 23, and the plurality of bumps 23 are arranged in a cat-foot shaped pattern.
A sole support block 31 is formed on the bottom surface of the support layer 3 at least corresponding to the front sole portion, a plurality of through holes 32 are provided on the sole support block 31, and each through hole is covered by the sole contact layer 2 as a ventilation mesh on the surface.
Through forming sole supporting shoe 31 at the supporting layer 3 corresponding preceding sole position, can carry out better support to preceding sole, set up ventilative mesh on sole supporting shoe 31, improve the shoe-pad gas permeability, absorb moisture fast, reduce bacterial growing.
A first groove 311 is formed on the outer periphery of the corresponding region of the bottom surface of the support layer 3 to the forefoot region, and the region in the first groove 311 serves as the sole support block 31. The bottom of the sole supporting block 31 is separated from other areas of the supporting layer 3 through the first groove 311, so that the sole supporting block 31 forms an independent block surface on the bottom surface of the supporting layer 3, bending stress can be increased in the walking process, and a better local supporting effect is achieved on the sole. That is, the first grooves 311 are formed around the sole support block 31, and the sole support block 31, which is a relatively independent region, does not deform together with the entire insole, thereby performing a better supporting function.
The sizes of the first recess 311 and the second recess 331 in fig. 3 are only schematic, and the sizes in the drawings do not represent actual sizes.
A heel support block 33 is formed on the bottom surface of the support layer 3 at a position corresponding to the heel. The heel supporting block 33 is arranged at the position of the supporting layer 3 corresponding to the heel, so that the heel can be supported, and the comfort of the heel is improved.
A second groove 331 is formed on the outer periphery of the area corresponding to the heel portion on the bottom surface of the support layer 3, and the area in the second groove 331 serves as a heel support block 33. The bottom of the heel supporting block 33 is separated from other areas of the supporting layer 3 through the second grooves 331, so that the heel supporting block 33 forms an independent block surface on the bottom surface of the supporting layer 3, bending stress can be increased in the walking process, and a better local supporting effect is achieved on the heel.
The utility model has the advantages that the supporting layer 3 is arranged at the bottom of the plantar contact layer 2, the supporting layer 3 is formed by pressing the glaucescent fissistigma root, the utility model can play a role in inhibiting fungi and bacteria, can eliminate fatigue and treat beriberi after being used next to the skin for a long time, the product has excellent adsorptivity to moisture, can automatically adjust and maintain the humidity, is warm in winter and cool in summer, and has the effects of fragrance and lasting smell and removing peculiar smell.
It should be noted that the above-mentioned embodiments illustrate rather than limit the utility model.