Boosting air-jetting shoe-pad
阅读说明:本技术 助力喷气鞋垫 (Boosting air-jetting shoe-pad ) 是由 王金州 章勤华 于 2020-07-20 设计创作,主要内容包括:本发明公开了一种助力喷气鞋垫,包括有鞋垫基部,鞋垫基部上设置有多个可基于踩踏压力产生气流的挤压出气单元,所述挤压出气单元包括有用于滞留气体的腔室,鞋垫基部上部设置有与腔室相连通的上气孔,鞋垫基部下部设置有基于踩踏压力弹性形变及复位的囊部,基于所述囊部的弹性形变及复位可改变所述腔室的容积。本发明的助力喷气鞋垫较常规的鞋垫而言具有更好的透气性,具有更好的助力效果,穿着起来更为舒适。(The invention discloses a power-assisted air injection insole which comprises an insole base part, wherein a plurality of extrusion air outlet units capable of generating air flow based on treading pressure are arranged on the insole base part, each extrusion air outlet unit comprises a cavity used for retaining air, an upper air hole communicated with the cavity is formed in the upper part of the insole base part, a bag part which is elastically deformed and reset based on the treading pressure is arranged at the lower part of the insole base part, and the volume of the cavity can be changed based on the elastic deformation and the reset of the bag part. Compared with the conventional insole, the boosting air injection insole has better air permeability and better boosting effect and is more comfortable to wear.)
1. A power-assisted air injection insole is characterized in that: including shoe-pad base portion (1), be provided with a plurality of extrusion units of giving vent to anger (2) that can produce the air current based on trampling pressure on shoe-pad base portion (1), extrusion unit of giving vent to anger (2) is including being used for staying gaseous cavity (21), and shoe-pad base portion (1) upper portion is provided with last gas pocket (22) that are linked together with cavity (21), and shoe-pad base portion (1) lower part is provided with bag portion (23) based on trampling pressure elastic deformation and reset, can change based on the elastic deformation and the reset of bag portion (23) the volume of cavity (21).
2. A power assisted pneumatic insole as claimed in claim 1, wherein: the lower extreme of bag portion (23) is provided with based on trample pressure up-and-down motion's projection (24), cavity (21) from the top down can be divided into upper chamber portion (21 a) and lower chamber portion (21 b), and the upper end of upper chamber portion (21 a) is connected with last gas pocket (22), and the internal diameter of upper chamber portion (21 a) gradually widens from the top down and is formed with bowl-shaped accommodation space (210), accommodation space (210) can be at least can the upper end of holding projection (24) when projection (24) are driven upward movement, bag portion (23) including annular elasticity thin wall, lower chamber portion (21 b) by elasticity thin wall is around forming, and the internal diameter of lower chamber portion (21 b) gradually narrows from the top down, the lower extreme of chamber portion (21 b) with projection (24) are connected.
3. A power assisted pneumatic insole according to claim 2, wherein: the insole is characterized in that a plurality of first concave pits (11) used for accommodating bag parts of the extrusion air outlet units (2) are arranged at the lower part of the insole base part (1), and gaps (110) for elastic deformation of the bag parts are formed between the peripheral side walls of the first concave pits (11) and the bag parts (23) at intervals.
4. A power assisted pneumatic insole according to claim 3, wherein: the first concave pits (11) are formed by surrounding convex ribs (12) arranged at the lower part of the insole base (1), the peripheral side walls of the first concave pits (11) are provided by the convex ribs (12), the same convex ribs (12) are used as the side walls between the adjacent first concave pits (11), and the plurality of first concave pits (11) are distributed in a grid shape.
5. A power assisted pneumatic insole according to claim 4, wherein: a plurality of extrusion units of giving vent to anger (2) intensive distribution leaves annular blank region (1 d) between half sole region (1 a) and heel region (1 c) of shoe-pad base portion (1), the distribution area of extrusion unit of giving vent to anger (2) and shoe-pad base portion (1) all around between the edge, the middle part both sides and the blank region department at rear portion of shoe-pad base portion (1) upwards perk slightly and be formed with can with the middle part both sides of foot and cladding portion (13) of heel profile adaptation.
6. A power assisted pneumatic insole according to claim 5, wherein: the insole is characterized in that a plurality of second pits (14) which are not provided with the air outlet extrusion units (2) are arranged at the lower part of the insole base (1) corresponding to the blank area (1 d), the second pits (14) are distributed between the first pits (11) and the peripheral edge of the insole base (1), the shape and structure of the second pits (14) are the same as those of the first pits (11) and are formed by the surrounding of the convex ribs (12), and the height of the convex ribs (12) forming the second pits (14) is gradually reduced towards the peripheral edge of the insole base (1).
7. A power assisted pneumatic insole according to claim 5, wherein: the insole is characterized in that a plurality of third pits (15) which are not provided with the air outlet extrusion units (2) are formed in the lower portion of the insole base portion (1), the shape and structure of the third pits (15) are the same as those of the first pits (11) and are formed by the protruding ribs (12) in a surrounding mode, massage bulges (3) are arranged on the upper portion of the insole base portion (1) corresponding to the third pits (15), and magnets (31) are arranged in the massage bulges (3).
8. A power assisted pneumatic insole according to claim 5, wherein: the heights of the convex columns (24) of the plurality of extruded air outlet units (2) arranged corresponding to the half sole area (1 a) are distributed in a gradually-decreasing mode towards the front end direction of the insole base portion (1), a middle area (1 b) is arranged between the half sole area (1 a) and the heel area (1 c) of the insole base portion (1), and the heights of the convex columns (24) of the plurality of extruded air outlet units (2) arranged corresponding to the middle area (1 b) are distributed in a gradually-decreasing mode towards the two side directions of the insole base portion (1).
9. A power assisted pneumatic insole according to any of claims 2 to 8, wherein: the lower end of the convex column (24) is provided with a lower air hole (241) communicated with the cavity (21).
10. A power assisted pneumatic insole according to claim 9, wherein: the lower end of the convex column (24) is provided with an adsorption disc, and the lower air hole (241) is formed in the adsorption disc.
Technical Field
The invention relates to a power-assisted air injection insole.
Background
The insole is a common daily use article, which is generally disposed inside a shoe and is used to contact with the sole of the foot, and currently, the insole in the market is generally made of materials such as silica gel, sponge, and the like. In addition to improving the air permeability of the insole, some manufacturers generally increase the resilience and cushioning of the foot during stepping by increasing the thickness of the insole, but this increases the consumption of the insole material and makes the insole thicker.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides the power-assisted air injection insole which has better air permeability, better power-assisted effect and more comfortable wearing.
In order to achieve the purpose, the invention provides a power-assisted air injection insole which comprises an insole base part, wherein a plurality of extrusion air outlet units capable of generating air flow based on treading pressure are arranged on the insole base part, each extrusion air outlet unit comprises a cavity for retaining air, an upper air hole communicated with the cavity is formed in the upper part of the insole base part, a bag part capable of elastically deforming and resetting based on the treading pressure is arranged in the lower part of the insole base part, and the volume of the cavity can be changed based on the elastic deformation and the resetting of the bag part.
The invention has the beneficial effects that: when feet trample, the bag part at the lower part of the insole base part and the sole deform in an extruding way, so that air in the cavity can be discharged to the direction of the sole plate along the air outlet hole, the generated air flow can directly act on the sole plate, a user can intuitively feel the ventilation effect of the power-assisted air injection insole, and the bag part sucks the air into the cavity again after the deformation is reset, so that the air can be conveniently discharged continuously next time; in addition, the elasticity of the base part of the insole, the elastic deformation capacity of the bag part and the reaction force generated by air compression in the cavity can provide certain boosting effect for the boosting air injection insole when the boosting air injection insole is worn to walk, and the comfort level in use can be improved.
Further, the lower extreme of bag portion is provided with the projection based on trampling pressure up-and-down motion, the cavity from top to bottom can divide into upper chamber portion and lower chamber portion, and the upper end and the last gas vent of upper chamber portion are connected, and the internal diameter of upper chamber portion gradually widens from top to bottom and is formed with the accommodation space of bowl form, the accommodation space can be at least can the upper end of holding the projection when the projection is driven upward movement, bag portion is including annular elasticity thin wall, lower chamber portion by the elasticity thin wall is around forming, and the internal diameter of lower chamber portion gradually narrows from top to bottom, the lower extreme of lower chamber portion with the projection is connected.
The further setting brings the following effects: the lower extreme and the sole of projection conflict cooperation, and the projection can trample the motion and up-and-down motion along with the foot, can order about bag portion to produce extrusion deformation and during its upper end can upwards insert the accommodation space of upper chamber portion simultaneously at least when the projection upward movement, improved the motion stroke of projection to improved the volumetric change degree of cavity, consequently can improve exhaust effect, the convex part can also improve the deformation effect of bag portion in addition.
Furthermore, the lower part of the insole base is provided with a plurality of first pits for accommodating the bag parts of the extruded air outlet units, and gaps for elastic deformation of the bag parts are formed between the peripheral side walls of the first pits and the bag parts at intervals.
The further setting brings the following effects: the unit is given vent to anger in the configuration of first pit, and the lateral wall all around of first pit can be spacing to it when the bag portion is protruding to direction deformation all around, restriction its deformation degree to can improve the deformation of bag portion and reset the effect, improve the stability and the durability of bag portion deformation.
Furthermore, the first concave pits are formed by being surrounded by convex ribs arranged at the lower part of the insole base, the peripheral side walls of the first concave pits are provided by the convex ribs, the same convex rib is used as the side wall between every two adjacent first concave pits, and the plurality of first concave pits are distributed in a grid shape.
The further setting brings the following effects: adopt the protruding muscle that sets up in shoe-pad basal portion lower part to come around forming first pit makes things convenient for machine-shaping, and adjacent first pit uses same protruding muscle to improve the intensive degree between the first pit as the lateral wall, and then can make adjacent extrusion give vent to anger to be close to more between the unit, sets up more extrusion ventilative units on the shoe-pad basal portion, improves ventilative effect.
Furthermore, the plurality of extruded air outlet units are densely distributed between the half sole area and the heel area of the insole base part, annular blank areas are reserved between the distribution areas of the extruded air outlet units and the peripheral edges of the insole base part, and the blank areas on the two sides of the middle part and the rear part of the insole base part slightly tilt upwards and form coating parts which can be matched with the two sides of the middle part of the foot and the outline of the heel.
The further setting brings the following effects: the sole region and the heel region of the insole base portion are the main regions of the foot portion and the insole, the plurality of extrusion air outlet units are densely distributed in the region of the insole base portion and accord with the human engineering design, each extrusion air outlet unit can generate a corresponding air exhaust effect, the arrangement of the coating portion can enable the insole and the foot, particularly the two sides of the middle of the foot and the heel to be more comfortable, and the comfort is improved.
Furthermore, a plurality of second concave pits which are not provided with the air extrusion units are arranged at the lower part of the insole base part corresponding to the blank area, the second concave pits are distributed between the first concave pits and the peripheral edge of the insole base part, the shape and the structure of the second concave pits are the same as those of the first concave pits and are formed by the protruding ribs in a surrounding mode, and the height of the protruding ribs surrounding the second concave pits is gradually reduced towards the peripheral edge of the insole base part.
The further setting brings the following effects: the setting of second pit can improve the aesthetic property of shoe-pad basal portion, also can improve the antiskid effect between shoe-pad basal portion and the sole simultaneously to because its highly all around edge direction of shoe-pad basal portion of its height of protruding muscle of a plurality of second pits is little gradually set up, make around the shoe-pad and between the shoe-pad more obedient, can improve the travelling comfort.
Furthermore, the lower part of the insole base is provided with a plurality of third pits which are not provided with the air outlet extrusion units, the shape and structure of the third pits are the same as those of the first pits and are formed by being surrounded by the convex ribs, the upper part of the insole base corresponding to the third pits is provided with massage bulges, and magnets are arranged in the massage bulges.
The further setting brings the following effects: the arrangement of the massage bulges can realize stimulation and massage on the sole acupuncture points, improve the comfort and ensure that the insole has a health care function.
Furthermore, the heights of the convex columns of the plurality of extruded air outlet units arranged corresponding to the half sole area are distributed in a gradually-decreasing mode towards the front end direction of the insole base portion, a middle area is arranged between the half sole area and the heel area of the insole base portion, and the heights of the convex columns of the plurality of extruded air outlet units arranged corresponding to the middle area are distributed in a gradually-decreasing mode towards the two side directions of the insole base portion.
The further setting brings the following effects: the higher convex columns are distributed in the area with larger force application between the sole and the insole, and the lower convex columns are distributed in the area with smaller force application, so that the thickness change of different areas of the insole is different when the insole is trampled, and the insole is more in line with the ergonomic design, thereby improving the comfort when being worn.
Furthermore, the lower end of the convex column is provided with a lower air hole communicated with the cavity.
The further setting brings the following effects: the setting of lower gas pocket can be some gas of discharge downwards when bag portion extrusion deformation, also can be used to admit air simultaneously, improves the deformation effect that resets of bag portion.
Furthermore, the lower extreme of projection is provided with the adsorption disc, lower gas pocket setting is on the adsorption disc.
The further setting brings the following effects: the adsorption disc can generate certain suction force when the foot is trampled, and the anti-skidding effect between the insole and the sole is improved.
Drawings
FIG. 1 is a top view of an embodiment of the present invention;
FIG. 2 is a bottom view of an embodiment of the present invention;
FIG. 3 is a longitudinal, partial cross-sectional view of an embodiment of the present invention;
FIG. 4 is a transverse, partial cross-sectional view of an embodiment of the present invention;
FIG. 5 is a schematic structural diagram of an extruded air outlet cell according to an embodiment of the present invention;
FIG. 6 is a schematic structural view of another use state of FIG. 5;
FIG. 7 is a schematic structural view of a massage protrusion according to an embodiment of the present invention;
FIG. 8 is a schematic structural diagram of a second embodiment of an extruded air outlet cell according to the present invention;
fig. 9 is a schematic structural view of a third embodiment of an extruded air outlet cell according to the present invention.
Detailed Description
Embodiments of the power assisted air-jet insole of the invention are shown in figures 1-7: the shoe pad comprises a shoe
The lower end of the
The lower part of shoe-pad
The first
As shown in fig. 1 and 2, the
As shown in fig. 2, a plurality of second
The lower part of the
The heights of the
The lower extreme of
In order to improve the antibacterial and heat-insulating performances of the insole, a bacterium layer or a heat-insulating
The air outlet unit of the present invention may also adopt a structure as shown in fig. 8, the lower end of the
The air outlet unit of the present invention can also adopt the structure as shown in fig. 9, the
The above embodiment is only one of the preferred embodiments of the present invention, and general changes and substitutions by those skilled in the art within the technical scope of the present invention are included in the protection scope of the present invention.
- 上一篇:一种医用注射器针头装配设备
- 下一篇:一种弹力免绑鞋带