CN204838240U

CN204838240U - Bleeder shoe -pad of taking a breath

Info

Publication number: CN204838240U
Application number: CN201520508565.0U
Authority: CN
Inventors: 张�焕; 李其峰
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-07-14
Filing date: 2015-07-14
Publication date: 2015-12-09
Anticipated expiration: 2025-07-14

Abstract

The utility model relates to a bleeder shoe -pad of taking a breath, this shoe -pad include sole a shoe the advance capital for body and the shoe -pad body down of superpose, the down peripheral sealed laminating of lower surface with the advance capital for body of soling a shoe of the upper surface of shoe -pad body, and be formed with first air chamber and second air chamber between the inside that the shoe -pad body and the advance capital for of soling a shoe were personally experienced sth. Part of the body down, still form an interface channel between first air chamber and the second air chamber, and be formed with first check valve membrane at an interface channel, set up the inlet port with first air chamber intercommunication on the advance capital for of the soling a shoe body, the latter half of the advance capital for of the soling a shoe body, lower shoe -pad body do not is equipped with extension and lower extension, forms one and feeds through and outer end open -ended air outlet channel with the second air chamber, and this air outlet channel locates to be equipped with second check valve membrane. The utility model discloses according to the shape characteristics of human foot and people's walking custom, the ingenious bleeder shoe -pad of taking a breath that designs conscientiously can the most genuinely realize that shoes are interior, the replacement of the outer air of shoes.

Description

Air-extracting type air-exchanging shoe-pad

The technical field is as follows:

the utility model relates to the technical field of insoles, in particular to an air exhaust type ventilation insole.

Background art:

the insole is an indispensable article in daily life of people, and the insole on the market is diversified in types. For the shoe-pad, people often pay more attention to functions such as ventilative to the shoe-pad, prevent foot odor, however, general shoe-pad that possesses ventilation performance on the market at present does not realize ventilation from the essence, only makes the air in the shoes produce local flow in inside, does not make the interior air of shoes and the outside air of shoes realize exchanging on a large scale, can not be the heat of the inside, moisture, sweat gas etc. in time discharge, make people when the motion such as walking, jogging, the comfort of wearing of callus on the sole greatly reduced, can't satisfy people's requirement.

The utility model has the following contents:

the utility model aims to overcome the defects of the prior product and provide an air exhaust type ventilation insole.

The utility model adopts the technical proposal that: an air suction type ventilation insole comprises an upper insole body and a lower insole body which are superposed, wherein the periphery of the upper surface of the lower insole body is hermetically attached to the lower surface of the upper insole body, and a first air chamber and a second air chamber are formed between the lower insole body and the inner part of the upper insole body; wherein,

the first air chamber is positioned at the front half part of the insole, the second air chamber is positioned at the rear half part of the insole, a separation part is formed between the first air chamber and the second air chamber, meanwhile, a first connecting channel for communicating the first air chamber and the second air chamber is also formed between the first air chamber and the second air chamber, and a first one-way valve membrane from the first air chamber to the second air chamber is formed at the air outlet end of the first connecting channel; the front half part of the upper insole body is provided with a plurality of air inlets communicated with the first air chamber;

an upper extending part and a lower extending part which extend outwards are respectively arranged on one side of the rear half part of the upper insole body and one side of the rear half part of the lower insole body, the upper extending part is in sealing fit with the front edge and the rear edge of the lower extending part, an air outlet channel with an outer end being opened is formed between the upper extending part and the lower extending part, a second connecting channel communicated with a second air chamber is formed at the inner end of the air outlet channel, and a second one-way valve membrane from the second air chamber to the air outlet channel is formed at the air outlet end of the second connecting channel;

elastic supporting bodies for supporting the upper insole body and the lower insole body are respectively formed in the first air chamber, the second air chamber and the air outlet channel.

A circle of first sealing groove is formed in the edge of the upper surface of the lower insole body, protruding parts are arranged on two sides of the first sealing groove, and a first concave surface is arranged inside each protruding part on the inner side; correspondingly, a first sealing flange matched with the first sealing groove is formed on the lower surface of the upper insole body, a concave edge matched with the outer side protruding part on the lower insole body is formed on the outer side of the first sealing flange, a second concave surface is formed inside the first sealing flange, and a space where the first air chamber and the second air chamber are located is formed by the first concave surface and the second concave surface; .

A plurality of block-shaped elastic supporting bodies are formed in the second concave surface of the lower surface of the upper insole body and in the area where the first air chamber is located, a plurality of communicated air grooves are formed among the block-shaped elastic supporting bodies, and the air inlet holes are formed in the area where the air grooves are located.

And similarly, a plurality of second strip-shaped elastic supporting bodies which are arranged at intervals are formed in the second concave surface of the lower surface of the upper insole body and the area where the second air chamber is positioned, and the angles of the first strip-shaped elastic supporting bodies and the angles of the second strip-shaped elastic supporting bodies are in a staggered mode.

The first strip-shaped elastic support body and the second strip-shaped elastic support body are respectively in a parallel state, and the height of the single strip-shaped elastic support body is gradually reduced from back to front.

The front edges and the rear edges of the upper extension part and the lower extension part are respectively provided with a second sealing flange and a corresponding second sealing groove, the inner side area of the second sealing flange is a third concave surface, the inner side area of the second sealing groove is a fourth concave surface, and the third concave surface and the fourth concave surface form a space where the air outlet channel is located; and a third strip-shaped elastic support body is formed in the air outlet channel.

The first sealing groove and the first sealing flange are respectively in dovetail groove type fit with the second sealing groove and the second sealing flange.

The first one-way valve film and the second one-way valve film are arranged on the lower insole body; the first one-way valve film and the first connecting channel are arranged at the arch part of the insole, and the second one-way valve film and the second connecting channel are arranged at the inner side of the foot pad and close to the rear part of the inner lower side of the ankle; the second connecting channel is arranged on the sealing flange of the upper insole body.

The upper surface of the upper insole body is attached with a breathable cloth layer.

The lower surface of the front end part of the upper insole body is also provided with anti-skid grains.

The utility model discloses according to the shape characteristics of human foot and people's walking custom, ingenious design out air exhaust formula shoe-pad of taking a breath conscientiously, the utility model discloses the shoe-pad can realize in the real meaning the replacement of shoes, the outer air of shoes, keeps dry, low temperature, comfortable in the shoes, uses when especially adapted people daily walk, jogging exercise.

Description of the drawings:

FIG. 1 is a schematic top view of the insole of the present invention;

FIG. 2 is a schematic plan view showing the opened state of the insole of the present invention;

FIGS. 3 and 4 are cross-sectional views A-A, B-B, respectively, of FIG. 1;

fig. 5 and 6 are partial enlarged views at C and D in fig. 3, respectively;

FIG. 7 is an enlarged view of a portion of FIG. 4 at E;

fig. 8 is a cross-sectional view of another embodiment of the present invention.

The specific implementation mode is as follows:

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

As shown in fig. 1, the air-extracting ventilation insole of this embodiment is made of a silica gel material with good elasticity and easy forming, and the silica gel material is environment-friendly, free from peculiar smell, good in touch feeling, easy to clean and long in service life. The insole comprises an upper insole body 1 and a lower insole body 2 which are superposed, and as shown by combining fig. 2 and fig. 3, in the embodiment, the total length of the lower insole body 2 is smaller than that of the upper insole body 1, the periphery of the upper surface of the lower insole body 2 is in sealing fit with the lower surface of the upper insole body 1, and a first air chamber 100 and a second air chamber 200 are formed between the lower insole body 2 and the interior of the upper insole body 1; wherein,

as shown in fig. 3-6, the first air chamber 100 is located in the front half of the insole, the second air chamber 200 is located in the rear half of the insole, a partition 300 is formed between the first air chamber 100 and the second air chamber 200, meanwhile, a first connecting channel 401 is formed between the first air chamber 100 and the second air chamber 200 to connect the two air chambers, a first one-way valve membrane 501 is formed at the air outlet end of the first connecting channel 401 from the first air chamber 100 to the second air chamber 200, and the first one-way valve membrane 501 can cover the air outlet end of the first connecting channel 401 from the outside of the air outlet end, that is, the air flow can only flow from the first air chamber 100 to the second air chamber 200, but can not flow from the second air chamber 200 to the first air chamber 100; the front half part of the upper insole body 1 is provided with a plurality of air inlet holes 101 communicated with the first air chamber 100;

as shown in fig. 2, 4 and 7, an upper extension 11 and a lower extension 21 extending outward are respectively disposed on one side of the rear half portions of the upper insole body 1 and the lower insole body 2, the upper extension 11 is in sealing contact with the front and rear edges of the lower extension 21, an air outlet channel 600 with an outer end open is formed between the upper extension 11 and the lower extension 21, a second connecting channel 402 communicating with the second air chamber 200 is formed at an inner end of the air outlet channel 600, and a second check valve membrane 502 from the second air chamber 200 to the air outlet channel 600 is formed at an air outlet end of the second connecting channel 402; the second check valve film 502 may cover the air outlet end of the second connecting channel 402 from the outside, i.e., the air flow can only flow from the second air cell 200 to the air outlet channel 600, but not from the air outlet channel 600 to the second air cell 200;

elastic support bodies for supporting the upper insole body 1 and the lower insole body 2 are respectively molded in the first air chamber 100, the second air chamber 200, and the air outlet passage 600.

Specifically, as shown in fig. 2, a circle of first sealing grooves 22 is formed at the edge of the upper surface of the lower insole body 2, protruding portions 23 are arranged at two sides of each first sealing groove 22, and a first concave surface 201 is arranged inside each inner protruding portion; correspondingly, a first sealing flange 12 matched with the first sealing groove 22 is formed on the lower surface of the upper insole body 1, a concave edge 13 matched with the outer side protruding part on the lower insole body 2 is formed on the outer side of the first sealing flange 12, a second concave surface 102 is formed inside the first sealing flange 12, and a space where the first air chamber 100 and the second air chamber 200 are located is formed by the first concave surface 201 and the second concave surface 102; the upper insole body 1 and the lower insole body 2 are sealed and attached by coating sealant on the surface of the first sealing groove 22 and the first sealing flange 12 and the peripheral protruding part 23 and the peripheral concave edge 13, coating the sealant on the isolating part 300, aligning and embedding the first sealing groove 22 and the first sealing flange 12, compressing, and forming sealing and attaching after the sealant is dried.

As shown in fig. 2, in this embodiment, the first one-way valve film 501 and the second one-way valve film 502 are both disposed on the lower insole body 2; the first one-way valve film 501 and the first connecting channel 401 are arranged at the arch part of the insole, and the second one-way valve film 502 and the second connecting channel 402 are arranged at the inner side of the insole and the back part of the inner side of the ankle; the second connecting channel 402 opens onto the first sealing flange 12 of the upper insole body 1. The feet of the human body are both in the concave shape at the two parts, so that the feet can not be extruded or can be extruded very little, and smoothness can be ensured.

A plurality of block-shaped elastic supporting bodies 701 are formed in the second concave surface 102 on the lower surface of the upper insole body 1 and in the area where the first air chamber 100 is located, a plurality of communicated vent grooves 103 are formed among the block-shaped elastic supporting bodies 701, and the air inlet holes 101 are arranged in the area where the vent grooves 103 are located; namely, the air inlet hole 101 is not overlapped with the block-shaped elastic support body 701; the first concave surface 201 of the lower insole body 2 and the area of the first air chamber 100 are planar, i.e. elastic support bodies are not required to be formed on the first concave surface; the support body in the first air chamber 100 is in a block shape, because the first air chamber 100 can keep a constant volume without extrusion, and the air inlet holes 101 are arranged in the vent grooves 103, so that the air inlet holes 101 can not be contacted with the surface of the lower insole body 2, and the air flow is ensured to be smooth and not blocked.

A plurality of first strip-shaped elastic support bodies 702 arranged at intervals are formed in the first concave surface 201 of the lower insole body 2 and the area where the second air chamber 200 is located, and similarly, a plurality of second strip-shaped elastic support bodies 703 arranged at intervals are formed in the second concave surface 102 of the lower surface of the upper insole body 1 and the area where the second air chamber 200 is located, and the angles of the first strip-shaped elastic support bodies 702 and the second strip-shaped elastic support bodies 703 are different and are staggered. The second air chamber 200 has a relatively large space through two sets of strip-shaped elastic support bodies which are arranged in a staggered mode, and meanwhile the second air chamber 200 has strong recovery capacity, so that air suction and exhaust effects are enhanced.

As shown in fig. 2, the first strip-shaped elastic support 702 and the second strip-shaped elastic support 703 are respectively in a parallel state, and the heights of the individual strip-shaped elastic supports are distributed in a decreasing manner from back to front, because the areas mainly stressed are in the heel area and the heel area, the second air chamber 200 can generate larger deformation in the areas, so that the air suction and exhaust amount is enhanced, the overall thickness of the insole is in a decreasing manner from back to front, and the insole conforms to the rule of a common insole.

The front and rear edges of the upper extension part 11 and the lower extension part 21 are respectively provided with a second sealing flange 111 and a corresponding second sealing groove 211, the inner side area of the second sealing flange 111 is a third concave surface 601, the inner side area of the second sealing groove 211 is a fourth concave surface 602, and the third concave surface 601 and the fourth concave surface 602 form a space where the air outlet channel 600 is located; the air outlet channel 600 is formed with a third strip-shaped elastic supporting body 704, in this embodiment, the third strip-shaped elastic supporting body 704 is formed on the fourth concave surface 602, and may also be formed on the third concave surface 601 separately or simultaneously, so as to ensure that the air outlet channel 600 is not blocked by the pressing of the upper extending portion 11 and the lower extending portion 21, and keep the air flow smooth.

The first sealing groove 22 and the first sealing flange 12, and the second sealing groove 211 and the second sealing flange 111 are respectively in dovetail groove type fit. Because the whole shoe-pad adopts silica gel material preparation, elasticity is good, can adopt dovetail recess and flange assembly, makes upper shoe-pad body 1 more firm after with lower shoe-pad body 2 bonding.

The lower surface of the front end part of the upper insole body 1 is also provided with anti-skidding lines 14, so that the insole can be prevented from skidding in shoes.

As shown in fig. 8, in another embodiment, a breathable cloth layer 15 is attached to the upper surface of the upper insole body 1, and the breathable cloth layer 15 can improve the touch feeling between the foot of the human body and the insole, and can prevent sand, dust and the like from entering the insole through the air inlet holes, thereby preventing the insole from being blocked and prolonging the service life of the insole.

When the insole of the utility model is used, according to the habit of walking or jogging, the back half part of the foot usually lands first, at this moment, the back half part of the foot extrudes the second air chamber 200 positioned at the back half part of the insole, so that the space of the second air chamber 200 is reduced, and the exhaust process is changed, namely, the gas in the second air chamber 200 is exhausted to the gas outlet channel 600 through the second connecting channel 402 and the second one-way valve membrane 502, because the gas outlet channel 600 has flexibility and can not be blocked, the gas outlet of the gas outlet channel 600 can extend from the shoe side and the inner side of the ankle, so that the gas flowing through the second air chamber 200 of the sole is exhausted out of the shoe;

when the front sole of the foot is grounded and the back half of the foot is lifted, the extrusion of the back half of the foot to the insole is reduced or disappears, under the action of the elastic support body in the second air chamber 200, the space of the second air chamber 200 is restored to be enlarged and becomes an air suction process, namely, the second air chamber 200 sucks air from the first air chamber 100 through the first one-way valve film 501 and the first connecting channel 401, because the first air chamber 100 is connected with the space in the shoe and the front sole through the air inlet hole 101 on the upper insole body 1, moisture and sweat in the shoe can be sucked into the first air chamber 100 and then sucked into the second air chamber 200, finally the moisture and the sweat are discharged out of the shoe along with the walking process, heat, peculiar smell and the like in the shoe are also discharged along with the air flow, and simultaneously, new outside air enters the shoe, so that the dryness and low temperature in the shoe can be maintained, the comfort can be enhanced, and the phenomena of beriberi, foot odor.

Of course, the above is only the preferred embodiment of the present invention, and in the specific implementation process, the size, shape, arrangement, etc. of the insole, the inner structure of the air chamber, the shape and arrangement of the elastic supporting body, and the structure of the upper and lower insole bodies are exchanged, and those skilled in the art can make corresponding equivalent changes according to the technical teaching of the present invention.

Claims

1. An air-extracting type ventilation insole is characterized in that: the insole comprises an upper insole body and a lower insole body which are superposed, wherein the periphery of the upper surface of the lower insole body is in sealing fit with the lower surface of the upper insole body, and a first air chamber and a second air chamber are formed between the lower insole body and the inner part of the upper insole body; wherein:

2. The air extracting ventilation insole according to claim 1, wherein: a circle of first sealing groove is formed in the edge of the upper surface of the lower insole body, protruding parts are arranged on two sides of the first sealing groove, and a first concave surface is arranged inside each protruding part on the inner side; correspondingly, a first sealing flange matched with the first sealing groove is formed on the lower surface of the upper insole body, a concave edge matched with the outer side protruding part on the lower insole body is formed on the outer side of the first sealing flange, a second concave surface is formed inside the first sealing flange, and a space where the first air chamber and the second air chamber are located is formed by the first concave surface and the second concave surface.

3. The air extracting ventilation insole according to claim 2, wherein: a plurality of block-shaped elastic supporting bodies are formed in the second concave surface of the lower surface of the upper insole body and in the area where the first air chamber is located, a plurality of communicated air grooves are formed among the block-shaped elastic supporting bodies, and the air inlet holes are formed in the area where the air grooves are located.

4. The air extracting ventilation insole according to claim 2, wherein: and similarly, a plurality of second strip-shaped elastic supporting bodies which are arranged at intervals are formed in the second concave surface of the lower surface of the upper insole body and the area where the second air chamber is positioned, and the angles of the first strip-shaped elastic supporting bodies and the angles of the second strip-shaped elastic supporting bodies are in a staggered mode.

5. The air extracting ventilation insole according to claim 4, wherein: the first strip-shaped elastic support body and the second strip-shaped elastic support body are respectively in a parallel state, and the height of the single strip-shaped elastic support body is gradually reduced from back to front.

6. The air extracting ventilation insole according to claim 1, wherein: the front edges and the rear edges of the upper extension part and the lower extension part are respectively provided with a second sealing flange and a corresponding second sealing groove, the inner side area of the second sealing flange is a third concave surface, the inner side area of the second sealing groove is a fourth concave surface, and the third concave surface and the fourth concave surface form a space where the air outlet channel is located; and a third strip-shaped elastic support body is formed in the air outlet channel.

7. The air extracting ventilation insole according to claim 2 or 6, wherein: the first sealing groove and the first sealing flange are respectively in dovetail groove type fit with the second sealing groove and the second sealing flange.

8. The air extracting ventilation insole according to claim 1, wherein: the first one-way valve film and the second one-way valve film are arranged on the lower insole body; the first one-way valve film and the first connecting channel are arranged at the arch part of the insole, and the second one-way valve film and the second connecting channel are arranged at the inner side of the foot pad and close to the rear part of the inner lower side of the ankle; the second connecting channel is arranged on the sealing flange of the upper insole body.

9. The air extracting ventilation insole according to claim 1, wherein: the upper surface of the upper insole body is attached with a breathable cloth layer.

10. The air extracting ventilation insole according to claim 1, wherein: the lower surface of the front end part of the upper insole body is also provided with anti-skid grains.