CN206612277U - A kind of buffer structure, the shock-absorbing sole and sport footwear prepared using the buffer structure - Google Patents

Abstract

The utility model discloses a kind of buffer structure, including lower support base, the upper supporting bracket above lower support base and the buffer cell between lower support base and upper supporting bracket；The buffer cell includes some spaced elastic supports, the upper end of each elastic support is connected with the upper supporting bracket, the lower end of each elastic support is connected with the lower support base, and the upper and lower ends of each elastic support are not in same vertical direction, when buffer cell is compressed, resilient support physical efficiency makes buffer cell have an active force resetted.The invention also discloses the shock-absorbing sole and sport footwear prepared using the buffer structure.The buffer structure can be applied in sport footwear, and substantially improves the damping effect of sport footwear.

Description

A kind of buffer structure, the shock-absorbing sole and sport footwear prepared using the buffer structure

Technical field

The utility model is related to shoes technical field, more particularly to a kind of buffer structure, is prepared using the buffer structure Shock-absorbing sole and sport footwear.

Background technology

Shoes as daily necessities indispensable in people's daily life, its function initially be used for protect foot from The injury of external environment, makes the security of walking be protected.The raising of development and people's health consciousness with social level, Various sports are also pursued by broad masses, in motion process, and the sport footwear of a pair of superior performance can not only be reduced The injured risk of people, moreover it is possible to lift the sports achievement of people.The structure of existing sport footwear mainly include shoe last surface, sole and Shoe-pad, the shock-absorbing sport shoes of in the market are typically that air cushion is set in spring heel portion, or prepare sole using expanded material, with This reaches the effect of damping.But, effect of the shock-absorbing sport shoes prepared using aforesaid way in terms of damping performance is not very Good, people often allow people's heel to land feels pain in spring.

Utility model content

In order to overcome the deficiencies in the prior art, one of the purpose of this utility model is to provide a kind of buffer structure, and this delays Rushing structure can be applied in sport footwear, and substantially improve the damping effect of sport footwear.

The two of the purpose of this utility model are to provide a kind of shock-absorbing sole, and the shock-absorbing sole uses the buffer structure system It is standby to form, with excellent damping effect.

The three of the purpose of this utility model, which are to provide in a kind of sport footwear, sport footwear, sets buffering knot of the present utility model Structure, can make sole by lasting bounce, help wearer to mitigate sports fatigue, prevent injury gained in sports.

One of the purpose of this utility model is realized using following technical scheme：

A kind of buffer structure, it is characterized in that, including lower support base, the upper supporting bracket above lower support base and position Buffer cell between lower support base and upper supporting bracket；The buffer cell includes some spaced resilient support Body, the upper end of each elastic support is connected with the upper supporting bracket, the lower end of each elastic support and the lower support bottom Seat connection, and each the upper and lower ends of elastic support are not in same vertical direction, when buffer cell is compressed, elasticity branch Support body can make buffer cell have an active force resetted.

It is preferred that, a connecting portion is additionally provided between the lower support base and the upper supporting bracket；The buffer cell Including the first buffer cell and the second buffer cell, the first buffer cell be arranged on the lower support base and the connecting portion it Between, the second buffer cell is arranged between the upper supporting bracket and the connecting portion.

It is preferred that, perspective plane of the connecting portion in the lower support base and it is described on perspective plane point on supporting bracket It Wei Yu not descend inside support base and inside upper supporting bracket.

It is preferred that, first buffer cell includes some spaced first elastic supports, each first elasticity The upper end of supporter is connected with the connecting portion, the lower end of each first elastic support and the lower support base, and often The upper and lower ends of individual first elastic support are not in same vertical direction；Second buffer cell includes some spaced Second elastic support, the lower end of each second elastic support is connected with the connecting portion, each second elastic support Upper end is connected with the upper supporting bracket, and each second elastic support upper and lower ends not in same vertical direction.

It is preferred that, the elastic support of first buffer cell be shaped as " V " character form structure, " Y " character form structure, Any one or two kinds in " X " character form structure or list structure and more than.

It is preferred that, the elastic support of second buffer cell be shaped as " V " character form structure, " Y " character form structure, Any one or two kinds in " X " character form structure or list structure and more than.

It is preferred that, each first elastic support is provided with the first bending structure.

It is preferred that, each second elastic support is provided with the second bending structure.

It is preferred that, elastic filler is filled between the lower support base and the upper supporting bracket.

It is preferred that, the elastic filler is foamed material layer, rubber layer or some buffer structures.

The two of the purpose of this utility model are realized using following technical scheme：

A kind of shock-absorbing sole prepared using described buffer structure, it is characterized in that, the shock-absorbing sole is will be described slow Rush the shock-absorbing sole prepared by cutting pattern into the shape of sole.

It is preferred that, the lower surface of the lower support base is additionally provided with skid resistant course.

The three of the purpose of this utility model are realized using following technical scheme：

A kind of sport footwear prepared using described buffer structure, including shoe last surface, sole and shoe-pad, it is characterized in that, institute State and the buffer structure is provided with inside sole.

It is preferred that, the buffer structure is embedded inside the sole.

It is preferred that, the sole includes rear heel, middle part and preceding metacarpus；The rear heel be provided with air cushion, air cushion with this after Heel is combined to form seal cavity, and the buffer structure is provided with seal cavity, and the buffer structure is fixed on sole by glue It is interior.

Compared with prior art, the beneficial effects of the utility model are：

1st, the buffer structure that the utility model is provided is machined to the shape matched with sole, can be applied in sport footwear, uses In the damping effect of improvement sport footwear.

2nd, the buffer structure that the utility model is provided can set multiple vibration absorption units, can reach different damping effects； The lower support base and upper supporting bracket that buffer cell is set by two ends are easy to buffer structure being worked into sole, without special Open up positioning hole to fix vibration absorption unit, be easy to processing, it is big with support base at present and the contact area of upper supporting bracket and sole, Enhance the stability of buffer cell.

3rd, the utility model provide buffer structure elastic support use around mode be distributed in lower support base and The surrounding of upper supporting bracket, when buffer cell is deformed by compression, is distributed in around lower support base and upper supporting bracket Flexibly support physical efficiency and absorb substantial amounts of impulsive force, make the buffering and damping effect of sport footwear more obvious, so as to help sporter pre- Antisitic defect, saves physical efficiency, reduction sports fatigue.

4th, when the buffer structure is placed in air cushion, elastic support is controlled to the compression degree of air cushion by impulsive force Compression degree, the impulsive force that the compression and sport footwear for making elastic support are subject to matches, it is ensured that the support of sport footwear and steady Qualitative energy.

Brief description of the drawings

Fig. 1 is the schematic diagram of buffer structure in the utility model embodiment 1.

Fig. 2 is the schematic diagram of buffer structure in the utility model embodiment 2.

Fig. 3 is the schematic diagram of buffer structure in the utility model embodiment 3.

Fig. 4 is the schematic diagram of buffer structure in the utility model embodiment 4.

Fig. 5 is the schematic diagram of buffer structure in the utility model embodiment 5.

Fig. 6 is the schematic diagram of the utility model shock-absorbing sole.

Fig. 7 is the schematic diagram of the utility model sport footwear.

Fig. 8 is the decomposing schematic representation of sole in the utility model embodiment 7.

Fig. 9 is the schematic diagram of lower sole in the utility model embodiment 8.

In figure：

1st, buffer structure；11st, lower support base；12nd, connecting portion；13rd, elastic support；14th, upper supporting bracket；131st, first Elastic support；132nd, the second elastic support；1311st, the first bending structure；1321st, the second bending structure；

2nd, sport footwear；21st, shoe last surface；22nd, sole；23rd, air cushion；221st, upper sole；222nd, lower sole.

Embodiment

Below, with reference to accompanying drawing and embodiment, the utility model is described further：

A kind of buffer structure, including lower support base 11, the upper supporting bracket 14 positioned at the top of lower support base 11 and be located at Buffer cell between lower support base 11 and upper supporting bracket 14；The buffer cell includes some spaced resilient support Body 13, the upper end of each elastic support 13 is connected with the upper supporting bracket 14, the lower end of each elastic support 13 with it is described Lower support base 11 is connected, and each the upper and lower ends of elastic support 13 are not in same vertical direction, when buffer cell quilt During compression, elastic support 13 can make buffer cell have an active force resetted.

Embodiment 1

Shown in Fig. 1, buffer structure 1 disclosed in the present embodiment includes a lower support base 11, a upper and of supporting bracket 14 One buffer cell；The lower support base 11 is circle, and the lower support base 11 can also be square, oval, triangle Or other can be placed on the shape of sole；The shape of the upper supporting bracket 14 is identical with the shape of lower support base 11, upper support The shape of support 14 also can be different from the shape of lower support base 11；The buffer cell include it is some by carbon fibre, aluminium alloy, Elastic support 13 prepared by the light materials such as plastics, the elastic support 13 of the buffer cell can be arranged to strip structure, Any one or two kinds in " V " character form structure, " Y " character form structure or " X " character form structure and more than, the elasticity in the present embodiment Supporter 13 is laminated structure；Shown in Fig. 1, some elastic supports 13 between lower support base 11 and upper supporting bracket 14 are in week To distribution, this setup can make buffer cell absorb substantial amounts of impulsive force, and Stability Analysis of Structures.

Embodiment 2

Shown in Fig. 2, buffer structure 1 disclosed in the present embodiment include lower support base 11, connecting portion 12, one Upper supporting bracket 14 and two buffer cells, the connecting portion 12 are solid cylinder structure or open column shape structure, and the connection Perspective plane of the portion 12 in the lower support base 11 and it is described on perspective plane on supporting bracket 14 be located at lower support base respectively Inside 11 inside and upper supporting bracket 14；Two buffer cells are the first buffer cell and the second buffer cell, the first buffering respectively Unit includes some spaced first elastic supports 131, and the second buffer cell includes some spaced second bullets Property supporter 132, the shape of the first elastic support 131 and the second elastic support 132 shown in Fig. 2 is laminated structure； The upper end of each first elastic support 131 is connected with the lower end of the connecting portion 12, each first resilient support The lower end of body 131 is connected with the lower support base 11, and each first elastic support 131 upper and lower ends not same Vertical direction；The lower end of each second elastic support 132 is connected with the connecting portion 12, each second elastic support 132 Upper end be connected with the upper supporting bracket 14, and each second elastic support 132 upper and lower ends not in same vertical side To when buffer cell is compressed, the first elastic support 131 and the second elastic support 132 can make buffer cell have one The active force of reset；There is one the in order to strengthen on the damping effect of the buffer structure 1, each first elastic support 131 One bending structure 1311, each first bending structure 1311 includes a bending part caved inward, each second elastic support There is second bending structure 1321, each second bending structure 1321 includes a bending part caved inward on 132, if Putting bending part helps to absorb impulsive force.

Embodiment 3

On the basis of embodiment 2, the buffer cell of buffer structure 1 improves to some extent disclosed in the present embodiment, shown in Fig. 3, institute State the first elastic support 131 and the second elastic support 132 be distortion laminated structure, laminated structure includes positive and negative two Face, wherein the front of each first elastic support 131 is connected with connecting portion 12, the reverse side of each first elastic support 131 It is connected with lower support base 11, makes the laminated structure of the first elastic support 131 formation distortion；Each second resilient support The front of body 132 is connected with connecting portion 12, and the reverse side of each second elastic support 132 is connected with upper supporting bracket 14, is made The laminated structure of second elastic support 132 formation distortion.

Embodiment 4

Shown in Fig. 4, buffer structure 1 in the present embodiment includes a lower support base 11, connecting portion 12, on one Supporting bracket 14 and two buffer cells, wherein connecting portion 12 are platy structure；Each first elastic support 131 is inversion " V " character form structure, each second elastic support 132 is " V " character form structure, and the He of the first elastic support 131 It is interspersed between second elastic support 132, the weight of the buffer structure 1 can be mitigated, also ensure that the buffer structure 1 Damping performance；Shown in Fig. 4, the both sides of the first elastic support 131 are respectively equipped with first bending structure 1311, each first Bending structure 1311 includes two bending parts.

Embodiment 5

Shown in Fig. 5, the present embodiment and the difference of embodiment 4 are：Connecting portion 12 in the present embodiment is hollow annular construction, First elastic support 131 and the second elastic support 132 are in circumferentially distributed, and this setup can reduce the weight of buffer structure Amount, lifts the stability of the buffer structure, makes stress more balanced, can also in order to be able to strengthen the service life of the buffer structure 1 Space filling elastic material between lower support base 11 and upper supporting bracket 14, such as expanded material, the elasticity of rubber lightweight Material, can also fill some less buffer structures 1, to maintain the buffering between lower support base 11 and upper supporting bracket 14 The damping performance of structure 1.

Embodiment 6

Shown in Fig. 6, shock-absorbing sole disclosed in the present embodiment is that buffer structure 1 described in the utility model is cut into sole Shape be prepared from, wherein upper supporting bracket 14 is to be used for and plantar contact, lower support base 11 is to be used to contact with ground, Skid resistant course can be set in the lower surface of lower support base 11, to strengthen the service life of the shock-absorbing sole；Shown in Fig. 6, this subtracts Shaking the vibration absorption unit of mid-sole includes the connecting portion 12 and two layers of buffer cell, the buffer cell of lower floor up and down of sheet Include the first elastic support 131 of some inverted " V " character form structures, the buffer cell on upper strata includes some " V " font knots Second elastic support 132 of structure；The vibration absorption unit of shock-absorbing sole described in the present embodiment is not limited to the disclosed knot of the present embodiment Structure, the vibration absorption unit can set a buffer cell, and the shape of elastic support can also be arranged to " Y " character form structure, " X " Any one or two kinds in character form structure or list structure and more than, the space inside the shock-absorbing sole can also set some Less vibration absorption unit, can be with filling-foam material, rubber or other light elastic materials.

Embodiment 7

Shown in Fig. 7, the sport footwear 2 in the present embodiment includes shoe last surface 21, sole 22 and shoe-pad, shown in Fig. 8, the sole 22 include rear heel, middle part and preceding metacarpus；The rear heel is provided with air cushion 23, and air cushion 23 combines to form annular seal space with the rear heel The buffer structure 1 is provided with body, seal cavity, the lower support base 11 of the buffer structure 1 is fixed on air cushion 23 by glue Inside, the upper supporting bracket 14 of the buffer structure 1 is fixedly connected by glue with the upper bottom of sole 221；Further, buffering is tied Structure 1 be prepared into the shape of sole 22, in the same size, buffer structure 1 can be made to be distributed in inside whole sole 22.

Embodiment 8

Shown in Fig. 7, Fig. 9, the sport footwear 2 in the present embodiment includes shoe last surface 21, sole 22 and shoe-pad.In the sole 22 Portion is equipped with two buffer structures 1, and two buffer structures 1 are respectively placed in forefoot and followed by located, the lower branch of two buffer structures 1 Support base 11 is fixedly connected by glue with lower sole 222 respectively, and the upper supporting bracket 14 of two buffer structures 1 passes through glue respectively It is fixedly connected with the upper bottom of sole 221.

It will be apparent to those skilled in the art that technical scheme that can be as described above and design, make other various It is corresponding to change and deformation, and all these change and deformation should all belong to the protection of the utility model claim Within the scope of.

Claims (15)

1. a kind of buffer structure, it is characterized in that, including lower support base, the upper supporting bracket above lower support base and be located at Buffer cell between lower support base and upper supporting bracket；The buffer cell includes some spaced elastic supports, The upper end of each elastic support is connected with the upper supporting bracket, and the lower end of each elastic support connects with the lower support base Connect, and each elastic support upper and lower ends not in same vertical direction, when buffer cell is compressed, elastic support Buffer cell can be made to have the active force of a reset.

2. buffer structure according to claim 1, it is characterized in that, between the lower support base and the upper supporting bracket also Provided with a connecting portion；The buffer cell includes the first buffer cell and the second buffer cell, and the first buffer cell is arranged on Between the lower support base and the connecting portion, the second buffer cell be arranged on the upper supporting bracket and the connecting portion it Between.

3. buffer structure according to claim 2, it is characterized in that, projection of the connecting portion in the lower support base Perspective plane on face and the upper supporting bracket is located inside lower support base and inside upper supporting bracket respectively.

4. buffer structure according to claim 2, it is characterized in that, first buffer cell includes some spaced First elastic support, the upper end of each first elastic support is connected with the connecting portion, each first elastic support Lower end and the lower support base, and each first elastic support upper and lower ends not in same vertical direction；Described Two buffer cells include some spaced second elastic supports, the lower end of each second elastic support and the connection Portion is connected, and the upper end of each second elastic support is connected with the upper supporting bracket, and each second elastic support is upper Lower two ends are not in same vertical direction.

5. buffer structure according to claim 4, it is characterized in that, the shape of the elastic support of first buffer cell For any one in " V " character form structure, " Y " character form structure, " X " character form structure or list structure or two kinds and more than.

6. buffer structure according to claim 4, it is characterized in that, the shape of the elastic support of second buffer cell For any one in " V " character form structure, " Y " character form structure, " X " character form structure or list structure or two kinds and more than.

7. buffer structure according to claim 4, it is characterized in that, each first elastic support is curved provided with first Folded structure.

8. buffer structure according to claim 4, it is characterized in that, each second elastic support is curved provided with second Folded structure.

9. buffer structure according to claim 1, it is characterized in that, filled out between the lower support base and the upper supporting bracket Filled with elastic filler.

10. buffer structure according to claim 9, it is characterized in that, the elastic filler is foamed material layer, rubber layer Or some buffer structures.

11. shock-absorbing sole prepared by the buffer structure in a kind of 1-10 according to claim described in any one, it is characterized in that, institute It is that the buffer structure is cut into the shock-absorbing sole prepared by the shape of sole to state shock-absorbing sole.

12. shock-absorbing sole prepared by buffer structure according to claim 11, it is characterized in that, under the lower support base Surface is additionally provided with skid resistant course.

13. sport footwear prepared by the buffer structure in a kind of 1-10 according to claim described in any one, including shoe last surface, footwear Bottom and shoe-pad, it is characterized in that, the buffer structure is provided with inside the sole.

14. sport footwear prepared by buffer structure according to claim 13, it is characterized in that, the buffer structure is embedded at institute State inside sole.

15. sport footwear prepared by buffer structure according to claim 13, it is characterized in that, the sole include rear heel, Middle part and preceding metacarpus；The rear heel is provided with air cushion, and air cushion is combined to form seal cavity with the rear heel, is provided with seal cavity The buffer structure, the buffer structure is fixed in sole by glue.