CN105455301B - The multi-direction Antiskid sole of bradyseism resilience - Google Patents

Abstract

The present invention relates to a kind of multi-direction Antiskid sole of bradyseism resilience, its midsole and the bradyseism body for being assemblied in midsole, the bradyseism body by it is a plurality of be sequentially connected it is u-shaped arrangement cell cube constitute, the cell cube be arc-shaped bend be in C fonts elastic component；Bradyseism body bottom surface is viscous to be provided with the 3rd anti-skidding sheet rubber, and the top surface for constituting two ends of the cell cube of metacarpus is tilted obliquely from outside to inside；Constitute the cell cube of heel of bradyseism body or so minute surface symmetrical, and the corresponding cell cube in left and right passes through connection sheet integrally connected.The cell cube of the present invention, bradyseism body possess the frame mode of good bradyseism effect, the configuration of the 3rd anti-skidding sheet rubber and its cell cube of bradyseism body so that sole laterally and on fore-and-aft direction possesses good anti-skidding, anti-rollover ability in left and right；And two ends of cell cube can produce screen resilience diagonally forward to sole, the rebound degree of strength reaches 35~52%, and thrust power-assisted forward is provided for sportsman.

Description

The multi-direction Antiskid sole of bradyseism resilience

Technical field

The present invention relates to a kind of shock absorption soles, a kind of multi-direction Antiskid sole of bradyseism resilience is particularly related to.

Background technology

During motion, the impulsive force born at sporter's heel is three times of its own body weight, and the power can have to people The Sasser of larger harm, makes the tissue such as bone, muscle or joint produce damage and lesion.Therefore, possessing good shock-absorbing function Sole be one of the important channel for solving the problem.Current shock absorption soles are more by setting up such as air cushion, silicagel pad, spring The cushioning device of elastomer, or using the big material of deformation quantity（Such as EVA）Make sole, or by such as honeycomb structure, delay Shake the modes such as raised bradyseism structure and realize bradyseism purpose.They have complicated, complex production process, or exist Sole volume is big, or there is resilience power-assisted effect.

Chinese invention patent such as Application No. " 201120204447.2 " discloses a kind of motion pair of shoes and soles buffering and subtracted Device is shaken, it includes EVA midsoles, the rear foot heel of the EVA midsoles is embedded to be equipped with multiple fore-and-aft directions along the EVA midsoles The column TPU elastomers set gradually, the TPU elastomers are hollow structure and its axis and the front and back of the EVA midsoles To vertical.The shock-damping structure is although fairly simple, but it only plays preferable protective effect, and the thickness of sole to heel Need to be guaranteed, the situation for TPU elastomers " coughing up pin " otherwise easily occur occurs, the TPU of what is more important elliptical cylinder-shape Elastomer screen resilience after deformation is small, and its elastic force auxiliaring effect to motion is less desirable.

Chinese invention patent such as Application No. " 201220260511.3 " discloses one kind and increases shock absorption breathable shoes, including Vamp and sole, the sole from top to bottom include shoe-pad, intermediate course, midsole and egative film, the sole of midsole bottom successively Portion and heel portion are provided with the groove of multiple tracks lateral direction penetrating, and Negative plate paster on the foot palm part and heel portion of midsole with groove together in forming Two ends gas-permeable channels.The structure of the sole possesses certain bradyseism ability, but its sole thickness is big, and sole rebound velocity is slow, And main rebound direction is only limitted to direction perpendicular to the ground, the motion power-assisted effect to foot is undesirable.

The content of the invention

The present invention provides a kind of multi-direction Antiskid sole of bradyseism resilience, is answered with the structure for overcoming existing shock absorption soles to exist Miscellaneous, complex production process, sole volume is big, the problems such as resilience power-assisted effect and undesirable anti-sideslip effect.

The present invention is adopted the following technical scheme that：

The multi-direction Antiskid sole of bradyseism resilience, it includes midsole and is assemblied in the bradyseism body of midsole, and sole is preferably EVA shoe Bottom.The bradyseism body is made up of a plurality of cell cubes, and a plurality of cell cubes are sequentially connected u-shaped arrangement, and the cell cube is arc The breach that bending is between the elastic component of C fonts, two ends of cell cube is the opening of cell cube, and the opening of cell cube is backward Direction, the top surface of two ends of cell cube is Nian Jie with midsole respectively, and two ends of adjoining of two neighboring cell cube integrally connect Connect；Bradyseism body bottom surface is viscous to be provided with the 3rd anti-skidding sheet rubber, and the 3rd anti-skidding sheet rubber bottom surface is provided with a plurality of anti-skid bulges, each Anti-skid bulge is correspondingly arranged at the underface of a cell cube；The bradyseism body is made up of heel and metacarpus, constitutes the list of metacarpus The flatness of the slotted eye of first body from outside to inside is stepped up, and the top surface of two ends of cell cube is tilted obliquely from outside to inside Set；Constitute the cell cube of heel of bradyseism body or so minute surface symmetrical, and the cell cube unit corresponding with right side in left side The same one end of body passes through connection sheet integrally connected.

Further：

Each cell cube is bent to form slotted eye, and slotted eye extends along shoe sole width direction；Midsole bottom surface metacarpus is provided with a plurality of Mounting groove, mounting groove extends along midsole width, and mounting groove is fixed viscous provided with the first anti-slip rubber piece, a plurality of described first Anti-slip rubber piece integrally connected.

Provided with V-shaped depression in the middle part of above-mentioned connection sheet bottom surface；The depression from the front to the back width gradually big, depth is gradually shallow.

At least one cell cube that the metacarpus of above-mentioned bradyseism body is located at arch of foot is provided with anti-skidding convex stupefied, anti-skidding convex stupefied along sole Length direction extends.

Above-mentioned midsole bottom surface forward position is provided with the second anti-slip rubber piece, above-mentioned first anti-slip rubber piece and the second anti-slip rubber piece Bottom surface be respectively equipped with that groove is raised, groove is raised to be extended along midsole width.

Above-mentioned bradyseism body fixes viscous located at above-mentioned midsole bottom surface edge, and bradyseism body encloses jointly with above-mentioned second anti-slip rubber piece Into a cyclic structure, above-mentioned mounting groove is in the cyclic structure.

From the above-mentioned description to structure of the present invention, compared to the prior art, the invention has the advantages that：The present invention Cell cube arc-shaped bend be in C fonts hatch frame mode so that the cell cube possesses good deformability, can be by What sole heel was subject to trample, and pressure decomposes unloads power so that appropriate deformation integrally occurs for cell cube, so cause sole with The deformation of bradyseism body and progressively integral sinking so that sole plays good bradyseism effect, and the foot of sporter is protected well. In addition, the structure setting of the cell cube of metacarpus, enables to trample pressure suffered by it and unloads downwards and to both sides direction fast decoupled Power, while also make it that the encapsulation of sole is more preferable, this, which is not only improved, improves the bradyseism effect of sole metacarpus, improves the guarantor to sole Effect is protected, the left and right of sole metacarpus lateral anti-skidding, anti-rollover ability can be also improved.The structure setting of bradyseism body heel, makes Sole heel is obtained during stress is sunk, connection sheet is bent downwardly and pulls the cell cube of both sides to make it to intermediate, inclined, And then enabling bradyseism body heel stress to unload power to both sides Directional Decomposition, this not only improves the bradyseism effect for improving sole heel Really, improve the protecting effect to heel, can also improve the left and right of sole heel lateral anti-skidding, anti-rollover ability.In addition, anti- Sliding convex stupefied configuration, further enhancing the lateral non-skid property of sole, can effectively reduce sportsman in motion process to Outer sideslip situation occurs.The frame mode of the cell cube of 3rd anti-skidding sheet rubber, anti-skidding convex stupefied configuration and bradyseism body so that footwear Bottom laterally and on fore-and-aft direction possesses good anti-skidding, anti-rollover ability in left and right.Finally, trampling what active force was progressively cancelled During, deformation is restored diagonally forward for two ends of cell cube, and in this process, two ends of cell cube can be to sole An active force diagonally forward is produced, and then provides thrust power-assisted forward, help sportsman's accelerated motion for sportsman；Unit Body is during resilience, and the rebound degree of strength reaches 35~52%.

Brief description of the drawings

Fig. 1 is the bottom surface structure schematic diagram of the sole of the present invention.

Fig. 2 is the main structure diagram of the bradyseism body of the present invention.

Fig. 3 for the present invention bradyseism body bottom surface upward when dimensional structure diagram.

Fig. 4 for the present invention bradyseism body bottom surface down when dimensional structure diagram.

Fig. 5 is the right side structural representation of the sole of the present invention.

Strength conduction schematic diagram when Fig. 6 is pressurized for the bradyseism body of the present invention.

Strength conduction schematic diagram when Fig. 7 is bradyseism body resilience of the invention.

Embodiment

Illustrate the embodiment of the present invention with reference to the accompanying drawings.

Reference picture 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, the multi-direction Antiskid sole of bradyseism resilience, during it includes midsole 2 and is assemblied in The bradyseism body A at bottom 2, midsole 2 is preferably EVA midsoles.The bradyseism body A is made up of a plurality of cell cubes 1, and preferably the cell cube 1 is adopted It is made of TPU materials.A plurality of cell cubes 1 are sequentially connected u-shaped arrangement, and the cell cube 1 is bullet of the arc-shaped bend in C fonts Property part, the opening of cell cube 1 is rearwardly towards the top surface of two ends 11 of cell cube 1 is be bonded with midsole 2 respectively.Such as Fig. 3 to figure Shown in 7 either figures, two integrally connecteds of end 11 of adjoining of two neighboring cell cube 1.Each cell cube 1 is bent to form slotted eye 10, slotted eye 10 extends along the width of midsole 2.The bottom surface metacarpus of midsole 2 is provided with a plurality of mounting grooves 20, and mounting groove 20 is along midsole 2 Width extends, and mounting groove 20 is fixed viscous provided with the first anti-slip rubber piece 21, a plurality of first anti-slip rubber pieces 21 1 Body is connected.

Reference picture 1, Fig. 2, Fig. 3, Fig. 4, above-mentioned bradyseism body A are made up of heel A1 and metacarpus A2.With continued reference to Fig. 2, Fig. 4, The flatness of the slotted eye 10 of composition metacarpus A2 cell cube 1 from outside to inside is stepped up, and the top of two ends 11 of cell cube 1 Face is obliquely installed obliquely from outside to inside, and its gradient is 5~45 degree, and preferably its gradient is 15 degree.Metacarpus A2 cell cube 1 Structure setting, enable to trample pressure suffered by it and unload power downwards and to both sides direction fast decoupled, at the same also cause sole Encapsulation more preferably, this, which is not only improved, improves the bradyseism effect of sole metacarpus, improves to the protecting effect of sole, can also improve The left and right of sole metacarpus lateral anti-skidding, anti-rollover ability.

With continued reference to Fig. 1, Fig. 3, the minute surface of six cell cubes 1 or so for constituting bradyseism body A heel A1 is symmetrical, and with The same one end 11 of the cell cube 1 corresponding with right side of cell cube 1 on the left of portion A1 passes through the integrally connected of connection sheet 12, connection sheet 12 Provided with V-shaped depression 120 in the middle part of bottom surface, and the depression 120 from the front to the back width gradually big, depth is gradually shallow.V-shaped depression 120 Specific structure is set, and can improve the pliable folding endurance and elasticity of connection sheet 12, and the deformation recovery to connection strap 12 has well It is complementary, be conducive to the quick resilience of connection strap 12, further enhance bradyseism body A screen resiliences.

With continued reference to Fig. 1, Fig. 3, two cell cubes 1 that above-mentioned bradyseism body A metacarpus A2 is located at arch of foot are provided with three roads Anti-skidding convex stupefied the 14 of almost parallel arrangement, anti-skidding convex stupefied 14 extend along the length direction of midsole 2.Anti-skidding convex stupefied 14 configuration, enters one Step enhances the lateral non-skid property of sole, can effectively reduce sportsman's outside sideslip situation in motion process and occur.

With continued reference to Fig. 1, Fig. 5, the above-mentioned bottom surface forward position of midsole 2 is provided with the second anti-slip rubber piece 22, above-mentioned first anti-skidding rubber The bottom surface of the anti-slip rubber piece 22 of film 21 and second is respectively equipped with groove projection, and groove is raised to be extended along the width of midsole 2.

With continued reference to Fig. 1, above-mentioned bradyseism body A fixes viscous located at the above-mentioned bottom surface edge of midsole 2, bradyseism body A and above-mentioned second Anti-slip rubber piece 22 surrounds a cyclic structure jointly, and above-mentioned mounting groove 20 is in the cyclic structure.

With continued reference to Fig. 1, Fig. 5, above-mentioned bradyseism body A bottom surfaces are viscous to be provided with the 3rd anti-skidding sheet rubber 15, as shown in figure 1, setting The surface for having anti-skidding convex stupefied 12 two cell cubes 1 is configured without the 3rd anti-skidding sheet rubber 15.The 3rd anti-skidding bottom of sheet rubber 15 Face is provided with a plurality of anti-skid bulges 151, and each anti-skid bulge 151 is correspondingly arranged at the underface of a said units body 1, anti-skidding The surface of projection 151 is provided with a plurality of anti-slip recess.

Reference picture 3, Fig. 4, Fig. 5, Fig. 6, the arc-shaped bend of the cell cube 1 are in the hatch frame mode of C fonts so that the list First body 1 possesses good deformability, as shown in Figure 6 the conduction for the power that middle arrow is indicated, under the active force trampled, cell cube 1 two ends 11 are bent downwardly, and also deformation occurring for the bent portion that cell cube 1 is contacted to earth, and the connection between cell cube 1 Mode so that the pressure direction of arrow as shown in Figure 6 that what sole 2 was subject to trample, which is decomposed, unloads power so that bradyseism body A integrally occurs Appropriate deformation, so cause sole 2 with bradyseism body A deformation progressively integral sinking, and the one of two neighboring cell cube 1 Body connected mode so that the stress between cell cube 1 can each other be transmitted, unload power, and the impulsive force suffered by the heel of sole 2 can lead to Cross the strength transfer mode to metacarpus direction transmit so that the heel of sole 2 can impulsive force suffered by rapid dispersion so that effectively Play excellent bradyseism effect.In addition, bradyseism body A heel A1 cell cube 1 passes through the integral connecting structure of connection sheet 12 so that Sole heel is during stress is sunk, and connection sheet 12 is bent downwardly and pulls the cell cube 1 of both sides to make it to intermediate, inclined, And then enable bradyseism body A stress to unload power to both sides Directional Decomposition, also make it that the encapsulation of heel is more preferable, this, which is not only improved, changes The bradyseism effect of kind sole heel, improve the protecting effect to heel, can also improve sole heel left and right it is lateral it is anti-skidding, Anti-rollover ability.

Reference picture 7, is being trampled during active force progressively cancels, cell cube 1 also carries out deformation recovery, such as Fig. 7 therewith The conduction for the power that shown middle arrow is indicated, deformation is restored diagonally forward for two ends 11 of cell cube 1；In this process, such as Shown in Fig. 7, two ends 11 of cell cube 1 can produce a directed force F diagonally forward to sole 2, and then be provided for sportsman Thrust power-assisted forward（Directed force F 1 and upward directed force F 2 forward as shown in Figure 7）, the deformation recovery of connection sheet 12 Upward thrust can be produced to sole, bradyseism body A power-assisted effect is further enhanced；Cell cube 1 is during resilience, strength Rebound degree reach 35~52%, substantially sportsman can be helped to accelerate.

The embodiment of the present invention is above are only, but the design concept of the present invention is not limited thereto, it is all to utilize this Conceive the change that unsubstantiality is carried out to the present invention, the behavior for invading the scope of the present invention all should be belonged to.

Claims (10)

1. the multi-direction Antiskid sole of bradyseism resilience, including midsole and the bradyseism body for being assemblied in midsole, it is characterised in that：The bradyseism Body is made up of a plurality of cell cubes, and a plurality of cell cubes are sequentially connected the U-shaped arrangement in upper end open, and the cell cube is arc Bending in C fonts elastic component, the opening of cell cube rearwardly towards, two ends at cell cube opening top surface respectively with Bottom is bonded, two end integrally connecteds of the adjoining of two neighboring cell cube；Bradyseism body bottom surface is viscous to be provided with the 3rd anti-skidding sheet rubber, 3rd anti-skidding sheet rubber bottom surface is provided with a plurality of anti-skid bulges, and each anti-skid bulge is being correspondingly arranged at a cell cube just Lower section；The bradyseism body is made up of heel and metacarpus, and the slotted eye flatness from outside to inside for constituting the cell cube of metacarpus is stepped up, And the top surface of two ends of cell cube is obliquely installed obliquely from outside to inside；Constitute the cell cube of heel of bradyseism body or so mirror Face is symmetrical, and the same one end of the cell cube cell cube corresponding with right side in left side passes through connection sheet integrally connected.

2. the multi-direction Antiskid sole of bradyseism resilience as claimed in claim 1, it is characterised in that：Each cell cube Curved Into slotted eye, slotted eye extends along midsole width.

3. the multi-direction Antiskid sole of bradyseism resilience as claimed in claim 1, it is characterised in that：Said midsole bottom surface metacarpus is provided with A plurality of mounting grooves, mounting groove extends along midsole width, and mounting groove is fixed viscous provided with the first anti-slip rubber piece.

4. the multi-direction Antiskid sole of bradyseism resilience as claimed in claim 3, it is characterised in that：A plurality of first anti-skidding rubbers Film integrally connected.

5. the multi-direction Antiskid sole of bradyseism resilience as claimed in claim 3, it is characterised in that：Said midsole bottom surface forward position is provided with The bottom surface of second anti-slip rubber piece, the first anti-slip rubber piece and the second anti-slip rubber piece is respectively equipped with groove projection, groove It is raised to extend along midsole width.

6. the multi-direction Antiskid sole of bradyseism resilience as claimed in claim 5, it is characterised in that：The bradyseism body fixes viscous be located at Said midsole bottom surface edge, bradyseism body surrounds a cyclic structure jointly with the second anti-slip rubber piece, and the mounting groove is located at In the cyclic structure.

7. the multi-direction Antiskid sole of bradyseism resilience as claimed in claim 1, it is characterised in that：Set in the middle part of the connection sheet bottom surface There is V-shaped depression；Width is gradually big from the front to the back and depth is gradually shallow for the depression.

8. the multi-direction Antiskid sole of bradyseism resilience as claimed in claim 1, it is characterised in that：The metacarpus of the bradyseism body is located at At least one cell cube at arch of foot is anti-skidding convex stupefied along the extension of sole length direction provided with anti-skidding convex stupefied.

9. the multi-direction Antiskid sole of bradyseism resilience as claimed in claim 1, it is characterised in that：The cell cube is TPU units Body.

10. the multi-direction Antiskid sole of bradyseism resilience as claimed in claim 1, it is characterised in that：The sole is EVA shoe bottom.