CN210492879U - Shock attenuation exhaust shoe-pad - Google Patents

Abstract

The utility model provides a shock-absorbing exhaust insole, which comprises an insole body, an energy-absorbing buffer part, a rebound part and an air pad part, wherein the energy-absorbing buffer part is connected with the insole body and is arranged at the heel part of the insole body to absorb the impulsive force generated during walking; the rebound part is connected with the insole body and arranged at the toe part of the insole body, so that the rebound force during walking is increased; the air pad part is connected with the insole body and arranged along the gravity center moving direction during walking, so that ventilation circulation and shock absorption buffering of the insole body are facilitated. The beneficial effects of the utility model are that simple structure has the air pad portion, and this air pad portion has a plurality of buffering gasbags, and a plurality of buffering gasbags set up along focus removal route, and the exhaust passage and the focus moving direction of buffering gasbag are opposite simultaneously for the existing effectual shock attenuation function of buffering of air pad portion has powerful circulation carminative ability again, long service life, preparation low cost, and practical use is extensive.

Description

Shock attenuation exhaust shoe-pad

Technical Field

The utility model belongs to the technical field of the foot protection, especially, relate to a shock attenuation exhaust shoe-pad.

Background

Regarding foot protection technology, currently, insoles are mainly divided into two main categories: one is a functional type emphasizing energy absorption and shock absorption, and the other is a ventilating and air-permeable exhaust type. The exhaust type insole has low market popularization due to the reasons of complex manufacturing process, high cost and the like, and does not have an insole with the functions of energy absorption, shock absorption, ventilation and air permeability in actual use.

Disclosure of Invention

In view of the above problem, the to-be-solved problem of the utility model is to provide a shock attenuation exhaust shoe-pad combines energy-absorbing shock attenuation and ventilation function, has advantages such as simple structure, low cost, longe-lived.

In order to solve the technical problem, the utility model discloses a technical scheme is: a shock-absorbing exhaust insole comprises an insole body, an energy-absorbing buffer part, a rebound part and an air pad part, wherein,

the energy-absorbing buffer part is connected with the insole body and arranged at the heel part of the insole body to absorb the impact force generated during walking;

the rebound part is connected with the insole body and arranged at the toe part of the insole body, so that the rebound force during walking is increased;

the air pad part is connected with the insole body and arranged along the gravity center moving direction during walking, so that ventilation circulation and shock absorption buffering of the insole body are facilitated.

Specifically, the air mat portion includes an air mat body and an air discharge passage,

the exhaust passage is communicated with the air cushion body, the exhaust port of the exhaust passage is superposed with the gravity center moving route, and the exhaust port of the exhaust passage is opposite to the gravity center moving direction, so that the exhaust passage is closed when stepping is performed, and the foot part is opened when lifting.

Furthermore, the air cushion part also comprises an exhaust hole which is communicated with the air cushion body and the insole body, so that the air in the air cushion part can be exhausted conveniently; and the number of the first and second groups,

the exhaust holes are arranged at the bottom of the foot, and when the gravity center moves to the air cushion part, the bottom of the foot can at least shield most of the exhaust holes.

Specifically, the air cushion portion includes a plurality of buffering air bags, and the buffering air bags set gradually along the centre of gravity moving route many times, and a plurality of buffering air bags set gradually from the heel portion to the preceding sole portion of shoe-pad body.

Further, each of the cushion airbags includes a cushion airbag body, a cushion airbag exhaust passage, and a cushion airbag exhaust hole, wherein,

the buffer airbag exhaust passage is communicated with the buffer airbag body, an exhaust port of the buffer airbag exhaust passage is superposed with a gravity center moving route and is opposite to the gravity center moving direction, so that the buffer airbag exhaust passage is closed when stepping is performed, and the foot part is opened when being lifted;

the air vent holes of the buffering air bag are communicated with the buffering air bag body and the insole body, so that the air in the buffering air bag body can be conveniently discharged, and the air vent holes of the buffering air bag are perpendicular to the buffering air bag body.

Furthermore, the energy absorption buffer part is made of artificial cartilage foam, and the buffering energy absorption rate of the artificial cartilage foam is not less than 70%.

Furthermore, the rebound part is arranged at the big toe part of the toe part, the material of the rebound part is artificial spring foam, and the rebound rate of the artificial spring foam is not less than 78%.

Furthermore, the buffering gasbag includes first buffering gasbag, second buffering gasbag and third buffering gasbag, and heel portion is located to first buffering gasbag, and arch of foot portion is located to the second buffering gasbag, and sole department before the third buffering gasbag is located, and the material of first buffering gasbag, second buffering gasbag and third buffering gasbag is silica gel or high-elastic rubber.

Furthermore, the surface layer of the insole body is provided with a moisture absorption quick-drying layer.

Furthermore, the insole body is made of an ACF material with air permeability of more than 90%.

Due to the adoption of the technical scheme, the shock-absorbing and air-exhausting insole is simple in structure, the air pad part is provided with the air cushion parts, the air cushion parts are provided with the plurality of buffering air bags, the plurality of buffering air bags are arranged along the gravity center moving path, and the air exhausting channels of the buffering air bags are opposite to the gravity center moving direction, so that the air pad part has an effective shock-absorbing function and strong circular exhausting capacity, the service life is long, the manufacturing cost is low, and the practical application is wide.

Drawings

Fig. 1 is a schematic side view of an embodiment of the present invention;

fig. 2 is a schematic top view of an embodiment of the present invention;

fig. 3 is a schematic structural view of a first cushion bladder according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of a second cushion bladder according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a third cushion airbag according to an embodiment of the present invention;

fig. 6 is a schematic side view of an exhaust passage of a cushion airbag according to an embodiment of the present invention.

In the figure:

1. insole body 2, energy-absorbing buffer part 3 and first buffer air bag

4. Second cushion airbag 5, third cushion airbag 6, and rebound portion

7. A first buffer air bag vent hole 8, a first buffer air bag vent passage 9 and a second buffer air bag vent

10. A second cushion airbag exhaust passage 11, a third cushion airbag exhaust hole 12, a third cushion airbag exhaust passage

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments.

Fig. 1 and fig. 2 show a schematic structural diagram of an embodiment of the utility model, this embodiment relates to a shock attenuation exhaust shoe-pad, has the buffering gasbag, can be at the walking in-process, and effectual buffering shock attenuation has exhaust ability of circulation again, simple structure, long service life, low in manufacturing cost, application range is wide.

A shock absorption exhaust insole comprises an insole body 1, an energy absorption buffer part 2, a rebound part 6 and an air pad part, wherein the insole body 1 is arranged to facilitate the installation of the energy absorption buffer part 2, the rebound part 6 and the air pad part, the insole body 2 is matched with the sole of a person in shape, the insole body 2 is made of a material with higher air permeability, preferably, the insole body 2 is made of an ACF material with air permeability larger than 90%, the air permeability is good, the elasticity is provided, the walking is facilitated, the walking comfort level is improved, meanwhile, a moisture absorption quick-drying layer is arranged on the surface layer of the insole body 1, the moisture absorption quick-drying layer has the performances of moisture absorption, quick drying, skid resistance and wear resistance, the moisture absorption quick-drying layer is in contact with the feet of the person, the moisture absorption quick-drying layer can absorb moisture and be quickly dried after the feet sweat, meanwhile, the sliding cannot be generated, the service life is long, the moisture absorption quick, or can be fixedly arranged on the surface layer 1 of the insole body.

The energy-absorbing buffer part 2 is connected with the insole body 1, and the energy-absorbing buffer part 2 is arranged at the heel part of the insole body 1 and absorbs the impact force generated during walking to play a role in buffering and damping; the energy-absorbing buffer part 2 is an energy-absorbing buffer block and is fixedly arranged at the heel part of the insole body 1, the shape of the energy-absorbing buffer part is selected according to actual requirements, and no specific requirement is made here. This energy-absorbing buffer block can be the joint in the heel portion of shoe-pad body 1, or bond in the heel department of shoe-pad body 1, or other connected mode, selects according to actual demand, does not do the concrete requirement here.

According to the further optimization scheme, the energy-absorbing buffer part 2 is arranged at a first force application point of the heel part of the insole body 1, when a human body walks, the heel part lands on the ground, a contact point is the first force application point when the heel part lands on the ground, and the energy-absorbing buffer part 2 absorbs most of impact force generated when the heel part lands on the ground to play a role in shock absorption and buffering.

The material of this energy-absorbing buffer 2 is artificial cartilage foam, and this artificial cartilage foam's buffering energy-absorbing rate is not less than 70%, can effectually absorb the impulsive force of walking in-process, cushions the shock attenuation, improves the comfort level of walking.

The rebound part 6 is connected with the insole body 1, and the rebound part 6 is arranged at the toe part of the insole body 1, so that the rebound force during walking is increased, walking is facilitated, and the walking comfort level is improved; when a human body walks, the gravity center moves from the heel part to the big toe part, the big toe part is relatively large in stress, preferably, the rebound part 6 is arranged at the big toe part of the toe part to increase the rebound force of the big toe part during walking, the rebound part 6 is made of artificial spring foam, and the rebound rate of the artificial spring foam is not less than 78%; the shape of the springback part 6 is adapted to the shape of the big toe, and the springback part is selected according to actual requirements, and no specific requirement is made here. Meanwhile, the connection mode of the springback part 6 and the insole body 1 can be clamping connection, or can be connected with the insole body 1 through bonding, or other connection modes, and the connection mode is selected according to actual requirements, and no specific requirements are made here.

The air pad part is connected with the insole body 1, and the air pad part is arranged along the gravity center moving direction during walking, so that ventilation circulation and shock absorption buffering of the insole body are facilitated. The connection mode of the air cushion part and the insole body can be clamping connection, or bonding connection, or other connection modes, and the connection mode is selected according to actual requirements and does not make specific requirements.

The air cushion part comprises an air cushion body and an exhaust passage, the exhaust passage is communicated with the air cushion body, an exhaust port of the exhaust passage is superposed with a gravity center moving route, and the exhaust port of the exhaust passage is opposite to the gravity center moving direction, so that the exhaust passage is closed when stepping is performed, and the foot part is opened when being lifted. When a human body walks, the gravity center is sequentially transferred to the front sole from the heel part, namely, when the human body walks, the moving direction of the gravity center is transferred to the front sole from the heel part, and the moving direction of the exhaust passage is opposite to that of the exhaust port of the exhaust passage, so that when the gravity center moves to the air cushion, the exhaust port of the exhaust passage is pressed and closed under the action of gravity, air in the air cushion body is trapped in the air cushion body, and when the gravity center is pressed, the air in the air cushion body plays a role in buffering and damping, and the air cushions and damps the feet during the walking process of the soles, thereby improving the comfort level during the walking process of the feet; the gravity center continues to move forward, the gravity applied to the air cushion part disappears gradually, the air in the air cushion body is naturally discharged through the exhaust passage, and finally the pressure balance with the atmospheric pressure is achieved, so that the air circulation of the insole in the walking process is realized, and the walking comfort is improved.

The air cushion part also comprises an air outlet which is communicated with the air cushion body and the insole body, so that the air in the air cushion part can be conveniently exhausted; the exhaust holes are arranged at the bottom of the foot, and when a human body walks and moves to the air cushion part along with the gravity center, the bottom of the foot can at least shield most of the exhaust holes. The arrangement of the air vents is convenient for discharging air in the air cushion body after the center of gravity moves, and meanwhile, when the center of gravity moves to the air cushion body, most of the air vents are covered by the bottoms of the feet, so that the air in the air cushion body cannot be discharged, the air is trapped in the air cushion body, the impact force generated during walking is buffered and damped, and the comfort level in the walking process is improved; after the center of gravity moves, the bottom of the foot leaves the exhaust hole, so that air in the air cushion body is rapidly exhausted under the action of the exhaust channel and the exhaust hole, the inside of the air cushion body is consistent with the external atmospheric pressure, and the circulation of the air in the air cushion body is realized.

Specifically, air cushion portion includes a plurality of buffering gasbags, and a plurality of buffering gasbags set gradually along centre of gravity moving path, and a plurality of buffering gasbags set gradually from the heel portion of shoe-pad body to preceding sole portion, that is, along centre of gravity moving path, a plurality of buffering gasbags set gradually from heel portion to preceding sole portion. The structures of the plurality of buffering air bags are the same, but the shapes of the different buffering air bags are selected according to the corresponding shapes of the sole parts, and no specific requirement is made here.

Each buffering air bag comprises a buffering air bag body, a buffering air bag exhaust passage and a buffering air bag exhaust hole, wherein the buffering air bag exhaust passage is communicated with the buffering air bag body, an exhaust hole of the buffering air bag exhaust passage is superposed with a gravity center moving route and is opposite to the gravity center moving direction, namely, the exhaust passage opening directions of the multiple buffering air bags face to the heel part, so that the buffering air bag exhaust passage is closed when stepping is realized, and the foot part is opened when being lifted; buffering gasbag exhaust hole and buffering gasbag body and shoe-pad body intercommunication, the gaseous discharge of this internal of buffering gasbag of being convenient for, buffering gasbag exhaust hole sets up with buffering gasbag body is perpendicular, the gaseous discharge of being convenient for. The material of the buffer air bag can be silica gel, high-elastic rubber or other elastic materials, and is selected according to actual requirements, and no specific requirement is made here.

The buffering airbag body comprises a first side surface and a second side surface, the first side surface is fixedly connected with the second side surface, and the buffer air bag exhaust passage is respectively fixedly connected with the first side surface and the second side surface, so that the first side surface and the second side surface form a structure with a space inside, the buffer air bag exhaust passage is arranged, the inner space formed by the first side surface and the second side surface is communicated with the outside, so that air can enter or be discharged from the inner space conveniently, and a plurality of supporting ribs are arranged in the inner space of the buffering airbag body, the supporting ribs are fixedly connected with the first side surface, or the supporting ribs are fixedly connected with the second side surface, or one part of the supporting ribs is fixedly connected with the first side surface, the other part of the supporting ribs is fixedly connected with the second side surface, the support ribs are selected according to actual requirements, and no specific requirement is made here, so that the support ribs can support the inner space formed by the first side face and the second side face; the air inlet and exhaust outlet of the internal space of the buffer air bag exhaust passage is provided with a groove on one side of the buffer air bag exhaust passage, a bulge is arranged on the other side of the buffer air bag exhaust passage and corresponds to the groove, the bulge is inserted into the groove when the buffer air bag exhaust passage is closed, the buffer air bag is closed, and the air in the internal space of the buffer air bag body is prevented from being exhausted. Preferably, the first side and the second side are integrally formed, and the supporting rib is integrally formed with the first side and the second side, so that the buffering airbag is stable in structure and long in service life.

The first side surface or the second side surface is provided with a plurality of buffer air bag vent holes, and the buffer air bag vent holes are communicated with the inner space formed by the first side surface and the second side surface, so that the gas in the inner space can be conveniently discharged. The air vent hole of the buffering air bag is vertically communicated with the buffering air bag body, namely, the air vent hole of the buffering air bag is vertically communicated with the insole body 1, and the opening position of the air vent hole of the buffering air bag ensures that when the gravity center moves to the buffering air bag, the bottom of the foot just covers most of the air vent hole of the buffering air bag, so that when the gravity center moves to the buffering air bag, the air vent hole is covered by the sole part, and meanwhile, the air vent passage of the buffering air bag is closed, so that air is trapped in the buffering air bag to form an air cushion for buffering and damping; after the gravity center moves, the bottom of the foot does not shield the air exhaust hole of the buffering air bag any more, and meanwhile, the air exhaust channel of the buffering air bag is opened, so that the air in the buffering air bag is exhausted through the air exhaust hole of the buffering air bag and the air exhaust channel of the buffering air bag, and ventilation circulation is formed. When a human body walks or runs, the gravity center moves from back to front, the plurality of buffering air bags respectively arranged along the gravity center moving route also close the exhaust passage and the exhaust hole in sequence, and when the buffering air bags are compressed, the compressed air in the buffering air bags plays a role in buffering and damping; when the pressure on the buffering air bag disappears, the compressed air in the buffering air bag is discharged through the exhaust passage and the exhaust hole, and the air circulation plays a role of exhaust circulation. In summary, the energy-absorbing buffer part, the rebound part and the compressed buffer air bag together play a role in buffering and shock absorption, and the exhaust of the buffer air bag plays a role in forming ventilation circulation of the insole body.

In the present embodiment, the cushion airbag includes the first cushion airbag 3, the second cushion airbag 4, and the third cushion airbag 5, the mounting positions of the first cushion airbag 3, the second cushion airbag 4, and the third cushion airbag 5 are set according to the direction of the locus of movement of the center of gravity, and the exhaust passage 8 of the first cushion airbag, the exhaust passage 10 of the second cushion airbag, and the exhaust passage 12 of the third cushion airbag are all opposite to the direction of the path of movement of the center of gravity, that is, the exhaust passage 8 of the first cushion airbag, the exhaust passage 10 of the second cushion airbag, and the exhaust passage 12 of the third cushion airbag all face the heel portion; in addition, the first buffering air bag 3 is installed at the heel part, the shape of the first buffering air bag 3 is matched with that of the heel part, the exhaust passage 8 of the first buffering air bag is opposite to the moving direction of the center of gravity and is arranged perpendicular to the moving track of the center of gravity, and the first buffering air bag 3 is convenient to close and open; the second buffer air bag 4 is arranged at the arch part, the shape of the second buffer air bag 4 is matched with that of the arch part, the exhaust passage 10 of the first buffer air bag is opposite to the moving direction of the center of gravity and is arranged perpendicular to the moving track of the center of gravity, so that the second buffer air bag 4 can be opened and closed conveniently; the third cushion airbag 5 is installed at the front sole, the shape of the third cushion airbag 5 is adapted to the shape of the front sole, and the exhaust passage 12 of the third cushion airbag is opposite to the moving direction of the center of gravity and is arranged perpendicular to the moving track of the center of gravity, so that the third cushion airbag 5 can be closed and opened conveniently.

When the human body walks, the exhaust passage 8 of the first buffering air bag and the partial exhaust hole 7 of the first buffering air bag are pressed and closed along with the forward movement of the gravity center, and then the air in the first buffering air bag 3 is continuously compressed to form an air cushion. The gravity center still moves forward, the pressure applied on the first buffering air bag 3 gradually disappears, and the compressed air in the first buffering air bag 3 is naturally exhausted through the first buffering air bag exhaust passage 8 and the first buffering air bag exhaust hole 7 and finally reaches the pressure balance; when the gravity center continuously moves to the front sole through the arch, the second buffer air bag 4 and the second buffer air bag 5 respectively repeat the working process of the first buffer air bag 3. After stepping, the feet are emptied, the outsides of all the buffering air bags are not stressed, and the internal air pressure of the buffering air bags is consistent with the atmospheric pressure, so that the effects of buffering and damping and ventilation circulation are achieved.

When a human body walks, the heel part firstly lands on the ground, the heel part is provided with an energy absorption buffer part 2 which absorbs most of impulsive force with the heel part, a first buffer air bag 3 is arranged at a position close to the energy absorption buffer part 2, a first buffer air bag exhaust passage 8 is opposite to the energy absorption buffer block 2, and when the gravity center is moved from the energy absorption buffer part 2 to the first buffer air bag 3, the exhaust passage 8 of the first buffer air bag is firstly pressed to close the first buffer air bag; when the gravity center moves forwards continuously, the plurality of first buffering air bag vent holes 7 corresponding to the positions of the first buffering air bags 3 on the insole body 1 are gradually shielded, air in the first buffering air bags 3 is pressurized to form air bags, and the air bags just play a role in energy absorption and shock absorption. The gravity center gradually leaves the first buffering air bag 3, firstly, the first buffering air bag exhaust passage 8 is open after pressure loss, and compressed air in the first buffering air bag 3 is discharged from the passage to form air flow; meanwhile, the first buffer air bag vent hole 7 on the insole body 1 is gradually released to synchronously vent air; when the gravity center continuously moves forwards until the gravity center reaches the front sole, the second buffer air bag 4 and the third buffer air bag 5 repeat the processes of compression closing, air compression, pressure relief and exhaust of the first buffer air bag 3, and in the gravity center moving process, the buffer air bags gradually form air cushions at each stress position to play the roles of energy absorption and shock absorption; when the position is decompressed, the buffering air bag releases pressure and exhausts air to form air flow, so that double effects of energy absorption, shock absorption, pressure release and exhaust are achieved; finally, the gravity center moves to the big toe, and the rebound part 6 arranged at the big toe improves the rebound force, so that the whole stepping process is completed. After stepping is finished, feet are emptied, the outside of each buffering air bag is not stressed, and the internal air pressure of each buffering air bag is consistent with the atmospheric pressure.

Due to the adoption of the technical scheme, the shock-absorbing and air-exhausting insole is simple in structure, the air pad part is provided with the air cushion parts, the air cushion parts are provided with the plurality of buffering air bags, the plurality of buffering air bags are arranged along the gravity center moving path, and the air exhausting channels of the buffering air bags are opposite to the gravity center moving direction, so that the air pad part has an effective shock-absorbing function and strong circular exhausting capacity, the service life is long, the manufacturing cost is low, and the practical application is wide.

The embodiments of the present invention have been described in detail, but the description is only for the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (10)

1. A shock-absorbing and air-exhausting insole is characterized in that: comprises an insole body, an energy-absorbing buffer part, a rebound part and an air cushion part, wherein,

the energy-absorbing buffer part is connected with the insole body and arranged at the heel part of the insole body to absorb the impact force generated during walking;

the rebound part is connected with the insole body and arranged on the toe part of the insole body, so that the rebound force during walking is increased;

the air pad part is connected with the insole body, and the air pad part is arranged along the gravity center moving direction during walking, so that ventilation circulation and shock absorption buffering of the insole body are facilitated.

2. The cushioning air-bleeding insole as claimed in claim 1, wherein: the air cushion portion includes an air cushion body and an air discharge passage,

the exhaust passage is communicated with the air cushion body, the exhaust port of the exhaust passage is superposed with the gravity center moving route, and the exhaust port of the exhaust passage is opposite to the gravity center moving direction, so that the exhaust passage is closed when stepping is performed, and the foot part is opened when lifting.

3. The cushioning air-bleeding insole as claimed in claim 2, wherein: the air cushion part also comprises an air outlet which is communicated with the air cushion body and the insole body, so that air in the air cushion part can be conveniently exhausted; and the number of the first and second groups,

the air vent is arranged at the bottom of the foot, and when the gravity center moves to the air cushion part, the bottom of the foot can at least shield most of the air vent.

4. A shock absorbing and venting insole as claimed in claim 2 or 3, wherein: the air cushion part comprises a plurality of buffering air bags, the buffering air bags are arranged in sequence along the gravity center moving route, and the buffering air bags are arranged in sequence from the heel part to the front sole part of the insole body.

5. The cushioning air-bleeding insole as claimed in claim 4, wherein: each of the cushion airbags includes a cushion airbag body, a cushion airbag exhaust passage, and a cushion airbag exhaust hole, wherein,

the buffer air bag exhaust passage is communicated with the buffer air bag body, an exhaust port of the buffer air bag exhaust passage is superposed with the gravity center moving route and is opposite to the gravity center moving direction, so that the buffer air bag exhaust passage is closed when stepping is performed, and the foot part is opened when lifting;

the buffering air bag exhaust hole is communicated with the buffering air bag body and the insole body, so that the gas in the buffering air bag body can be conveniently discharged, and the buffering air bag exhaust hole is perpendicular to the buffering air bag body.

6. The cushioning air-bleeding insole as claimed in claim 5, wherein: the energy absorption buffer part is made of artificial cartilage foam, and the buffer energy absorption rate of the artificial cartilage foam is not less than 70%.

7. A shock absorbing and venting insole as claimed in claim 5 or 6, wherein: the rebound part is arranged at the big toe part of the toe part, the rebound part is made of artificial spring foam, and the rebound rate of the artificial spring foam is not less than 78%.

8. The cushioning air-bleeding insole as claimed in claim 7, wherein: buffering gasbag includes first buffering gasbag, second buffering gasbag and third buffering gasbag, first buffering gasbag is located the heel portion, arch of foot portion is located to second buffering gasbag, sole department before the third buffering gasbag is located, first buffering gasbag the second buffering gasbag with the material of third buffering gasbag is silica gel or high-elastic rubber.

9. The cushioning air-bleeding insole as claimed in claim 8, wherein: the surface layer of the insole body is provided with a moisture absorption quick-drying layer.

10. The cushioning air-bleeding insole as claimed in claim 1, wherein: the insole body is made of an ACF material with air permeability of more than 90%.

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