CN208339026U - Insole and shoes with the insole - Google Patents

Abstract

The utility model provides a kind of insole and the shoes with it, is related to the technical field of product in shoes and shoes, solves the technical issues of buffering shoe-pad poor air permeability existing in the prior art.The insole includes: insole body, resilient supporting unit and gas permeable devices, the quantity of resilient supporting unit is multiple, and insole body is set towards in the one side of sole, when insole body bears the pressure of human foot, resilient supporting unit can be compressed, so that insole body is moved towards the direction of sole；After pressure disappears, the direction that resilient supporting unit can make insole body be directed away from sole by restoring deformation is moved；Gas permeable devices are arranged on insole body, and when the distance between insole body and sole change, air of the insole body away from sole side can be circulated with the air of insole body towards sole side by gas permeable devices to be exchanged.The utility model is also able to maintain good airing function while with preferable buffering effect.

Description

Insole and shoes with the insole

Technical field

The utility model relates to technical field of shoe making, more particularly, to a kind of insole and with its shoes.

Background technique

With the continuous improvement of people's living standards, requirement of the people to this daily necessities of insole is higher and higher, pass The insole of system is not able to satisfy the demand of majority of populations increasingly due to having a single function.Such as such as due to most closing shoes Leather shoes, sport footwear are all often more to be tightly wrapped foot, inevitably sufficient air can be made to be not easy to circulate, due in shoes The gas in portion cannot exclude to make in time in shoes it is moist, breed bacterium out make the raw tinea pedis of foot, skin disease etc. to people's health not Benefit.It is ventilative for convenience, it can be arranged on traditional insole for ventilative through-hole, but when people wear shoes, insole is same When contacted with sole and vola, the through-hole on insole is actually also at closed state at this time, cannot play good ventilative work With.

In addition, since the sole center of normal human is all " bow " shape, if sole center position can be contacted with insole, human body foot The pressure that portion is born can be more evenly dispersed on entire insole, and foot can feel more comfortable, and prolonged exercise is not easily tied. But the sole center position of traditional insole, it is usually fixed height after processing, the crowd that can not meet different foot-shapes simultaneously uses, Such as sole centers to the vola lowest surfaces such as talipes cavus, low bow foot, flat foot is larger apart from difference, such as suitable for talipes cavus crowd Insole, flat foot crowd is not available；Suitable for low bow is sufficient or the insole of splayfooted crowd, the sole center of talipes cavus crowd without Method is contacted with insole, cannot be played a supporting role well.

Utility model content

The purpose of this utility model is to provide a kind of insoles, are also able to maintain while having preferable buffering effect good Airing function, to solve the problems, such as that existing insole function is single.

To achieve the above object, the utility model provides following technical scheme:

The utility model provides a kind of insole, comprising:

Insole body, the insole body can be placed on sole, and can support human foot；

Resilient supporting unit, the quantity of the resilient supporting unit are multiple, and are arranged in the insole body towards shoes In the one side at bottom, when the insole body bears the pressure of human foot, the resilient supporting unit can be compressed, so that The insole body is moved towards the direction of sole；After pressure disappears, the resilient supporting unit can be by restoring deformation The insole body is set to be directed away from the direction movement of sole；

Gas permeable devices, the gas permeable devices are arranged on the insole body, when between the insole body and sole When distance changes, the insole body deviates from air of the air of sole side with the insole body towards sole side It can be circulated and be exchanged by the gas permeable devices.

Preferably, the resilient supporting unit is the utricule structure with opening, and the utricule structure is by elastic material Or toughness material is made；The opening is arranged on the insole body, and can be connected to the inner space of the utricule structure And the insole body is towards the space of human foot side.

Preferably, the bottom surface of the utricule structure is additionally provided with pedestal.

Preferably, the utricule structure and the pedestal are column structure, and the diameter of the pedestal is at least below institute State the overall diameter of utricule structure.

Preferably, the gas permeable devices are air hole, and the insole body that is arranged between the utricule structure On region.

Preferably, the insole can be integrally formed by injection molding or 3D printing technique.

Preferably, the insole body is made of elastic material or toughness material.

Preferably, the insole body includes ball area, sole center area and heel area；The utricule structure includes sole capsule Body, sole center utricule and heel utricule, the sole utricule is located at the ball area, the sole center utricule is located at the sole center Area, and the heel utricule is located at the heel area.

Preferably, the sole center utricule at least has there are two types of height, so that the sole center area, which has, adapts to human body sole center Shape, and can with talipes cavus, low bow is sufficient or splayfooted sole center is kept in contact.

Preferably, the height of the sole utricule is lower than the height of the heel utricule.

Preferably, the concentration of the utricule structure is successively by close to thin on the insole body: heel area, sole Area and sole center area.

Preferably, the diameter of the opening of the sole utricule is greater than or equal to the internal diameter of the sole utricule.

Preferably, the diameter of the opening of the sole center utricule is less than the internal diameter of the sole center utricule.

Preferably, the diameter of the opening of the heel utricule is less than the internal diameter of the heel utricule.

Preferably, the insole further includes the clad being fabricated from a flexible material, and the clad can at least cover institute State one side of the insole body towards human foot.

Preferably, the clad is gas permeable material.

The utility model additionally provides a kind of shoes, has insole described in the utility model.

The utility model has the following beneficial effects: insole provided by the utility model passes through resilient supporting unit for insole body It is supported on sole, makes between insole body and insole that there are certain spaces to work as insole in combination with the effect of gas permeable devices When ontology moves up and down in shoes, can promote air between insole body and sole and insole body upper space it is empty into It swaps, so that air in shoes is in the state of circulation, can effectively play the role of heat dissipation, hydrofuge gas.Meanwhile when When human foot steps on the insole, resilient supporting unit can play the role of bumper and absorbing shock, and when lifting on foot, resilient support is filled The elastic potential energy by savings is set, one can be generated to human foot by insole body in restoring deformation process and upward pushed away Power, thus enable people walk, running, jump etc. movement when feel slimmer and more graceful, laborsaving.It is provided by the utility model many Many technical effects elaboration as detailed below that optimal technical scheme in technical solution can be generated.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram of the sufficient body one side of insole direction in embodiment 1；

Fig. 2 be in embodiment 1 insole towards the structural schematic diagram of sole one side；

Fig. 3 is the cross-sectional view in the face A-A when utricule structure is in extended position in Fig. 1；

Fig. 4 is the cross-sectional view in the face B-B when utricule structure is in extended position in Fig. 1；

Fig. 5 is the cross-sectional view in the face B-B when utricule structure is in squeezed state in Fig. 1；

Fig. 6 is the structural schematic diagram of insole body and insole when coating is arranged towards sufficient body one side in embodiment 2；

Fig. 7 is the structural schematic diagram of insole when clad wraps up entire insole body in embodiment 2.

1, insole body in figure；11, ball area；12, sole center area；13, heel area；2, it is open；3, utricule structure；4, bottom Seat；5, air hole；6, clad.

Specific embodiment

To keep the purpose of this utility model, technical solution and advantage clearer, below by the technology to the utility model Scheme is described in detail.Obviously, the described embodiments are only a part of the embodiments of the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not before making creative work Obtained all other embodiment is put, the range that the utility model is protected is belonged to.

Embodiment 1

As shown in Figures 1 to 5, the utility model provides a kind of insole, comprising: insole body 1, resilient supporting unit and Gas permeable devices, insole body 1 can be placed on sole, be used to support human foot；The quantity of resilient supporting unit is multiple, and is set It sets in the one side in insole body 1 towards sole, when insole body 1 bears the pressure of human foot, resilient supporting unit energy It is enough to be compressed, so that insole body 1 is moved towards the direction of sole；After pressure disappears, resilient supporting unit can be by extensive The direction that complex deformation makes insole body 1 be directed away from sole moves；Gas permeable devices are arranged on insole body 1, work as insole body When the distance between 1 and sole change, insole body 1 away from sole side air and insole body 1 towards sole one The air of side can be circulated by gas permeable devices and be exchanged, and insole body 1 is supported on sole by resilient supporting unit, is made There are certain spaces between insole body 1 and insole, in combination with the effect of gas permeable devices, on insole body 1 is in shoes When lower movement, the empty into swapping of air between insole body 1 and sole and 1 upper space of insole body can be promoted, So that air in shoes is in the state of circulation, can effectively play the role of heat dissipation, hydrofuge gas.Meanwhile working as human foot When stepping on the insole, resilient supporting unit can play the role of bumper and absorbing shock, and when lifting on foot, resilient supporting unit passes through product The elastic potential energy of storage can generate a upward thrust to human foot by insole body 1 in restoring deformation process, thus Enable people walk, running, jump etc. movement when feel slimmer and more graceful, laborsaving.

As long as the resilient supporting unit satisfaction in the present embodiment, which awards pressure, to deform, pressure can be restored after disappearing Original state, such as spring, elastic slice etc.；The resilient supporting unit provided in the present embodiment is the utricule knot with opening 2 Structure 3, opening 2 are arranged on insole body 1, and the inner space that can be connected to utricule structure 3 and insole body 1 are towards people The space of body foot side.In order to easy to process, when the opening 2 utricule 3 nature of structure, pass through the bladder walls unfolded Can play the role of supporting shoepad ontology 1, when be squeezed compressed when, since utricule structure 3 is by elastic material or toughness Material is made, and bladder walls can bend, and utricule inner space becomes smaller, and internal air just can be flowed out from opening 2；When pressure disappears It loses, since elasticity or toughness are restored to extended position, 3 inner space of utricule structure increases bladder walls, can be by outside air weight The inner space is newly sucked, due to the presence of multiple utricule structures 3, will be formed between Human Sole and insole body 1 more Locate miniature air stream, further increases ventilative sense, the comfort in vola.In addition, the resilient support using utricule structure 3 fills It sets, utricule structure 3 can be processed with insole body 1 using same material, can process reconnection step by step, can also be using one Processing and forming.

In order to make utricule structure 3 have better supporting role, the bottom surface of utricule structure 3 is additionally provided with pedestal 4.

In order to make utricule structure 3 when being extruded, the curved state of bladder walls is consistent, and keeps utricule structure 3 It deforms in the up-down direction, shown in Fig. 4-5, in the present embodiment, utricule structure 3 and pedestal 4 are column structure, and pedestal 4 diameter is less than the overall diameter of utricule structure 3, naturally it is also possible to while being less than the internal diameter of utricule structure 3, capsule is worked as in this design When body structure 3 is extruded, bladder walls are easy to wrap up from outside by pedestal 4, and compressed utricule structure 3 shown in Fig. 5, is still protected A symmetrical structure is held, the state of left and right twisting is less likely to occur utricule structure 3, and human foot is made to be located at insole body 1 Felt when upper more steady.

In order to easy to process, gas permeable devices are air hole 5, and the insole being arranged between utricule structure 3 in the present embodiment On the region of ontology 1, air hole 5 is arranged more, and gas permeability is better, but the intensity of 1 entirety of insole body may subtract It is weak, by Fig. 1 and Fig. 2 it is found that air hole 5 and utricule structure 3 are distributed on insole body 1, due to human body sole center and sole Region be easy to perspire, therefore the air hole 5 in the present embodiment is also mainly distributed on 11 domain of sole center and ball area.

In order to supporting the entire foot of human body, human foot each section region entirety is made to feel more consistent, more comfortable, In the present embodiment, insole body 1 includes ball area 11, sole center area 12 and heel area 13；Utricule structure 3 include sole utricule, Sole center utricule and heel utricule, sole utricule is located at ball area 11, sole center utricule is located at sole center area 12, and heel utricule is located at Heel area 13.

In order to enable 12 domain of human body sole center area to be kept in contact with insole, sole center utricule at least has there are two types of height, different Height insole body 1 can be supported to different height, thus enable sole center area 12 have adapt to human body sole center shape Shape has height-adjustable property additionally, due to resilient supporting unit, can be according to the crowd of different foot-shapes to insole body 1 Stressed difference is applied, the adjusting of height is carried out, so that insole body 1 can be sufficient or flat with any foot-shape, including talipes cavus, low bow The sole center of flatfoot etc. is kept in contact, in this specific implementations, the sole center area 12 of insole body 1 be arranged on the width there are three utricule Structure 3, as shown in figure 3, and three utricule structures 3 successively reduce.

When usual human body is stood, heel is higher than sole, and what can be stood is more steady, more comfortably, in order to this physiology of human body Habit is adapted, and the height of sole utricule is lower than the height of heel utricule in the present embodiment, can make the position of ball area 11 in this way It sets lower than the position of heel area 13.

Since the ratio that human foot different zones bear human bady gravitational is different, the gravity that usual heel is born is maximum, foot The palm takes second place, and since sole center is usually arch, the gravity that sole center is born actually be will disperse on heel and sole；Therefore in order to more Integral material needed for reasonably distributing the insole, the ratio in insole different zones, utricule structure 3 on insole body 1 Concentration is successively by close to thin: heel area 13, ball area 11 and sole center area 12；Since utricule structure 3 is more intensive, support Ability is stronger, therefore the distribution of utricule structure 3 of heel area 13 is most intensive.

In the present embodiment, the diameter of the opening 2 of sole utricule is greater than or equal to the internal diameter of sole utricule, thus ball area (11) at honeycomb.The diameter of the opening 2 of sole center utricule is less than the internal diameter of sole center utricule；Meanwhile the opening 2 of heel utricule Diameter is less than the internal diameter of heel utricule；Since the opening 2 of sole center utricule and heel utricule is respectively less than the utricule structure 3 of itself, because During deformation occurs, the air of flowing can compare concentration for this, and air-flow sense is stronger.

In the present embodiment, insole body 1 and the equal elastic material of utricule structure 3 or toughness material are made.Such as silica gel, TPU, Polyurethane etc..TPU (Thermoplasticpolyurethanes), the entitled thermoplastic polyurethane elastomer rubber of Chinese；TPU is It is reacted jointly by '-diphenylmethane diisocyanate (MDI), toluene di-isocyanate(TDI) (TDI) and macromolecular polyol, chain extender poly- High molecular material made of conjunction is a kind of plastic material that can soften or change repeatedly under certain temperature, and at normal temperature It can but keep shape invariance that can play a support, protection.Polyurethane full name is polyurethanes, is contained on main chain There is the general designation of the macromolecular compound of repetition carbamate groups；It is by organic diisocyanate or polyisocyanates and two Hydroxyl or polyol addition polymerization form；In polyurethane macromolecular other than carbamate, it can also contain ether, ester, urea, contracting The groups such as two ureas, allophanate.

In order to facilitate processing, insole can be integrally formed by injection molding or 3D printing technique.Injection molding technology is the material that will be melted Material is infused using pressure into plastic product mold, and cooling and shaping obtain wanting product, and this mode is easy to process, and cost is relatively low, Mass production easy to accomplish；3D printing, i.e. one kind of rapid shaping technique, it is one kind based on digital model file, With adhesive materials such as powdery metal or plastics, the technology of object is constructed by layer-by-layer printing, and be usually It is realized using digital technology file printing machine, therefore is easier to realize automation, the product of processing is more accurate.

Embodiment 2

As shown in fig. 6-7, the present embodiment and the difference of embodiment 1 is: insole further includes the cladding being fabricated from a flexible material Layer 6, such human foot with insole body 1 relative to directly contacting, and feeling can be comfortable, to further increase gas permeability, this reality It applies clad 6 in example to be made of gas permeable material, certain absorbing sweat can also be played the role of while ventilative；Such as cloth, be equipped with it is small The cladding or PU material in hole；Clad 6 can at least cover one side of the insole body 1 towards human foot, as Fig. 6 gives The case where coating is set in the one side that insole body 1 is contacted with human foot；Fig. 7 gives entire insole body 1 and elasticity The case where support device is wrapped up by clad 6, such design can preferably protect insole body 1 and resilient support dress It sets, and is not easy to accumulate dust between the gap of resilient supporting unit, while insole is integrally more attractive.

Embodiment 3

A kind of shoes (being not drawn into figure) are present embodiments provided, with the insole that Examples 1 and 2 provide, in the present embodiment The shoes of offer can be any kind of shoes such as leather shoes, sport footwear, cloth shoes, sandals or slippers, insole can add in shoes Working hour is fixed on sole, can also individually process, and insole and sole is made to keep dismountable state.

More than, only specific embodiment of the present utility model, but protection scope of the utility model is not limited thereto, Anyone skilled in the art within the technical scope disclosed by the utility model, can readily occur in variation or replace It changes, should be covered within the scope of the utility model.Therefore, the protection scope of the utility model should be with claim Subject to protection scope.

Claims (10)

1. a kind of insole characterized by comprising

Insole body (1), the insole body (1) can be placed on sole, and can support human foot；

Resilient supporting unit, the quantity of the resilient supporting unit are multiple, and are arranged in the insole body (1) towards sole One side on, when the insole body (1) bear human foot pressure when, the resilient supporting unit can be compressed, with Move the insole body (1) towards the direction of sole；After pressure disappears, the resilient supporting unit can pass through recovery The direction that deformation makes the insole body (1) be directed away from sole moves；

Gas permeable devices, the gas permeable devices are arranged on the insole body (1), when between the insole body (1) and sole Distance when changing, the insole body (1) is away from the air of sole side and the insole body (1) towards sole one The air of side can be circulated by the gas permeable devices and be exchanged.

2. insole according to claim 1, which is characterized in that the resilient supporting unit is the utricule with opening (2) Structure (3), and the utricule structure (3) is made of elastic material or toughness material；The opening (2) is arranged in the insole sheet On body (1), and the inner space that can be connected to the utricule structure (3) and the insole body (1) are towards human foot one The space of side.

3. insole according to claim 2, which is characterized in that the bottom surface of the utricule structure (3) is additionally provided with pedestal (4).

4. insole according to claim 3, which is characterized in that the utricule structure (3) and the pedestal (4) are column Structure, and the diameter of the pedestal (4) is at least below the overall diameter of the utricule structure (3).

5. insole according to claim 2, which is characterized in that the gas permeable devices are air hole (5), and are arranged described On the region of the insole body (1) between utricule structure (3).

6. insole according to claim 2, which is characterized in that the insole can by injection molding or 3D printing technique one at Type；

And/or the insole body (1) is made of elastic material or toughness material.

7. insole according to claim 2, which is characterized in that the insole body (1) includes ball area (11), sole center area (12) and heel area (13)；The utricule structure (3) includes sole utricule, sole center utricule and heel utricule, the sole Utricule is located at the ball area (11), the sole center utricule is located at the sole center area (12), and the heel utricule is positioned at described Heel area (13).

8. insole according to claim 7, which is characterized in that the sole center utricule at least have there are two types of height so that institute Stating sole center area (12) has the shape for adapting to human body sole center, and can with talipes cavus, low bow is sufficient or splayfooted sole center is kept in contact；

And/or the height of the sole utricule is lower than the height of the heel utricule；

And/or the concentration of the utricule structure (3) is successively by close to thin on the insole body (1): heel area (13), ball area (11) and sole center area (12)；

And/or the diameter of the opening (2) of the sole utricule is greater than or equal to the internal diameter of the sole utricule；

And/or the diameter of the opening (2) of the sole center utricule is less than the internal diameter of the sole center utricule；

And/or the diameter of the opening (2) of the heel utricule is less than the internal diameter of the heel utricule.

9. insole according to claim 1, which is characterized in that the insole further includes the clad being fabricated from a flexible material (6)；The clad (6) can at least cover one side and/or the cladding of the insole body (1) towards human foot Layer (6) is gas permeable material.

10. a kind of shoes, which is characterized in that with any insole of claim 1-9.