CN204742796U - Ventilative papaw bradyseism sole - Google Patents

Abstract

The utility model relates to a ventilative papaw bradyseism sole, it includes the sole main part, and this sole main part is equipped with the holding chamber, and this sole main part is top open structure, this holding intracavity is equipped with the bradyseism pad that two at least coincide are connected, the top surface and the bottom surface of going up the bradyseism pad are equipped with the blister arch respectively, and the top surface of lower bradyseism pad is equipped with the blister arch, and upward the blister of the rebasing face of bradyseism is protruding with protruding the interlocking of blister that correspond of bradyseism pad top surface is bordered on down. The utility model discloses a structure setting of bradyseism pad can effectively strengthen the effect that sole main part bradyseism performance effectively played good foot bottom massage, and shock attenuation and resilience force are particularly outstanding under the impact of high strength, and the blister arch is contract when the pressurized, absorbs exogenous vibrations and surge pressure, then recovers very fast, provides good shock attenuation effect to convert the impact force into motive force (energy recurrence), the supported effects of the energy resilience that the blister arch provided can effectively improve the sport efficiency, provides lasting motion stability ability.

Description

Ventilative bubble shock absorption soles

Technical field

The utility model relates to a kind of outsole body, refers to a kind of ventilative bubble shock absorption soles especially.

Background technology

The solid construction of the outsole body of existing the shoes multi-layer bonded or individual layer adopting the materials such as MD, RB, EVA to make, though such outsole body possesses certain flexibility, but being carried out bending by existing most of outsole body still needs larger strength more.This is because the outsole body of solid construction is when bending, and the material of bending place extruding can form resistance mutually.And in the process of motion (comprising walking), outsole body needs constantly to bend, namely foot needs to bear certain load.

In addition, although the outsole body of solid construction possesses certain elasticity, there is cushioning effect.But in motion process, outsole body is the recurrent state being constantly in " compression-release "; When foot jams on outsole body, outsole body is compressed, when ground is left by foot, outsole body is in release conditions, due to solid outsole body material between the active force of mutual tractive, make existing most of solid outsole body be in release conditions time resilience effect desirable not to the utmost, if now foot compresses outsole body again, then namely the damping effect of outsole body can weaken.

In addition, mostly the ventilative channel of existing shoes is to be breathed freely by upper of a shoe, and outsole body does not then possess airing function substantially.But, in the wearing process of shoes, vola and the many close contacts of shoe-pad, and under the compacting of foot, the contact of shoe-pad and outsole body is also comparatively tight, this zonal ventilation effect namely can be very undesirable, and this is difficult to discharge in time from the ventilative through hole of upper of a shoe with regard to the sweat making shoe-pad absorb, and affects shoes snugness of fit.

Summary of the invention

The utility model provides a kind of ventilative bubble shock absorption soles, with overcome that existing most of shoes exist wear time foot load large, outsole body resilience is undesirable, and shoe-pad and the undesirable problem of outsole body superposed surfaces air permeable effect.

The utility model adopts following technical scheme:

Ventilative bubble shock absorption soles, comprise outsole body, this outsole body is provided with accommodating cavity, and this outsole body is open top structure; The bradyseism pad of at least two superimposed connections is provided with in this accommodating cavity; End face and the bottom surface of upper bradyseism pad are respectively equipped with blister convex, and the end face of lower bradyseism pad is provided with blister convex, and the blister convex that upper bradyseism is rebasing is staggered adjacent with the corresponding blister convex of lower bradyseism pad end face.Outsole body of the present utility model can directly and upper of a shoe bond and form product shoes.

Further:

Above-mentioned outsole body is provided with at least one ventilative through hole, and above-mentioned accommodating cavity is communicated with this ventilative through hole.

Above-mentioned upper bradyseism pad covers metacarpus and the heel of above-mentioned outsole body, and above-mentioned lower bradyseism pad covers the heel of outsole body.

Above-mentioned blister convex is semielliptical shape.The end face of the above-mentioned blister convex of above-mentioned upper bradyseism pad end face is plane, and the end face of the blister convex of the bottom surface of upper bradyseism pad and the end face of above-mentioned lower bradyseism pad is cambered surface.The above-mentioned blister convex of above-mentioned upper bradyseism pad end face extends along above-mentioned outsole body width, the blister convex that the bottom surface metacarpus of upper bradyseism pad is arranged extends along outsole body width, and the blister convex of the bottom surface heel of upper bradyseism pad and the end face of above-mentioned lower bradyseism pad all extends along outsole body length direction.

Above-mentioned blister convex is solid projection or hollow projection; When this blister convex is hollow projection, be provided with support column in the blister convex of hollow-core construction, support column is vertically arranged.

Above-mentioned upper bradyseism pad is different from above-mentioned lower bradyseism pad hardness.

Above-mentioned ventilative through hole is located at bottom surface or the sidewall of above-mentioned outsole body or is pushed up edge.

From the above-mentioned description to the utility model structure, compared to the prior art, the utility model tool has the following advantages: the vibrational power flow of bradyseism pad of the present utility model effectively can strengthen outsole body bradyseism performance and effectively play the effect of good foot massages, and under the impact of high strength, damping and screen resilience are particularly splendid; And blister convex is shunk when pressurized, absorb external vibrations and surge, then restore very soon, good damping effect is provided, and impulsive force is converted to motive force (energy rebound), the support effect of the energy resilience that blister convex provides effectively can improve sport efficiency, provides lasting motion stabilization performance; In addition, produce deformation dispersive pressure when each unit is stressed, the dispersed arrangement of column, can allow user can experience the feel of dim soft comfortable in any road conditions; In addition, the vibrational power flow of bradyseism pad of the present utility model can provide comprehensive function easy to break, and firm rubber outsole is wear-resisting durable and can provide earth-grasping force on a variety of surfaces, possesses good non-skid property; Finally, the setting of the ventilative through hole of outsole body of the present utility model, the superposed surfaces of shoe-pad and sole is directly ventilated with the external world and (between adjacent blister convex, there is gap, this gap is communicated with this ventilative through hole), be conducive to being discharged by the moisture in sweat or footwear chamber in time, the shoes after washing are when airing, and the air entered in footwear chamber can directly be discharged by ventilative through hole, for the circulation of air builds passage, this is conducive to moisture in Quick-air-drying footwear chamber; And the outer end of this ventilative through hole is arranged on sidewall; such structure makes sole when being subject to impulsive force; the laterally extending portion deforms opposing solid part of ventilative through hole can be more flexible; impulsive force also can be disperseed in the process of ventilative through hole deformation; thus reduce impulsive force to the injury of foot, reach better buffering protection function.

Accompanying drawing explanation

Fig. 1 is the perspective view of outsole body of the present utility model.

Fig. 2 is the plan structure schematic diagram of upper bradyseism pad of the present utility model.

Fig. 3 is the supine structural representation in the end of upper bradyseism pad of the present utility model.

Fig. 4 is the plan structure schematic diagram of lower bradyseism pad of the present utility model.

Fig. 5 is the section structure schematic diagram at bubble shock absorption soles of the present utility model A-A place in the diagram.

Fig. 6 is the section structure schematic diagram of the lower bradyseism pad in Fig. 4 along B-B direction.

Detailed description of the invention

Detailed description of the invention of the present utility model is described with reference to the accompanying drawings.

Ventilative bubble shock absorption soles, with reference to Fig. 1, it comprises outsole body 1, this outsole body 1 is provided with accommodating cavity 10, this outsole body 1 is open top structure, outsole body 1 bottom surface is fixedly connected with the egative film 11 be made up of abrasive rubber, and firm rubber sole sheet 11 is wear-resisting durable and can provide earth-grasping force on a variety of surfaces, possesses good non-skid property.With reference to Fig. 2 to Fig. 5, be provided with the bradyseism pad 2 of two superimposed connections in this accommodating cavity 10, namely go up bradyseism pad 21 and lower bradyseism pad 22; Upper bradyseism pad 21 covers metacarpus and the heel of outsole body 1, and above-mentioned lower bradyseism pad 22 covers the heel of outsole body 1.And upper bradyseism pad 21 is different from lower bradyseism pad 22 hardness; Preferably upper bradyseism pad 21 hardness is less than the hardness of lower bradyseism pad 22; upper bradyseism pad 21 possesses good bradyseism performance and rebound performance; lower bradyseism pad 22 then possesses better impact resistance, makes sole also possess the function of good snugness of fit and protection foot.Continue with reference to Fig. 2 to Fig. 6, end face and the bottom surface of upper bradyseism pad 21 are respectively equipped with blister convex 212, the end face of lower bradyseism pad 22 is provided with blister convex 212, and the blister convex 212 of upper bradyseism pad 21 bottom surface is staggered adjacent with the corresponding blister convex 212 of lower bradyseism pad 22 end face; In addition, upper bradyseism pad 21 bottom surface and lower bradyseism pad 22 end face are also respectively equipped with a plurality of depression 211, upper bradyseism pad 21 and lower bradyseism pad 22 superimposed time, the two blister convex 212 enters in corresponding depression 211 respectively; Such vibrational power flow be conducive to improve both superimposed time frictional force, in reductions bradyseism pad 21 and lower bradyseism pad 22 superimposed time generation relative sliding possibility.In addition, above-mentioned blister convex 212 is in semielliptical shape.The end face of the above-mentioned blister convex 212 of above-mentioned upper bradyseism pad 21 end face is plane, and the end face of the blister convex 212 of the bottom surface of upper bradyseism pad 21 and the end face of above-mentioned lower bradyseism pad 22 is cambered surface.The above-mentioned blister convex 212 of above-mentioned upper bradyseism pad 21 end face extends along above-mentioned outsole body 1 width, the blister convex 212 that the bottom surface metacarpus of upper bradyseism pad 21 is arranged extends along outsole body 1 width, and the blister convex 212 of the bottom surface heel of upper bradyseism pad 21 and the end face of above-mentioned lower bradyseism pad 22 all extends along outsole body 1 length direction.Outsole body 1 of the present utility model can directly and upper of a shoe bond and form product shoes.

In addition, continue with reference to Fig. 1, above-mentioned outsole body 1 both sides sidewall is respectively equipped with 7 ventilative through holes 100 linearly arranged, and above-mentioned accommodating cavity 10 is communicated with this ventilative through hole 100.The setting of the ventilative through hole 100 of outsole body 1 of the present utility model, the superposed surfaces of shoe-pad and sole is directly ventilated with the external world and (between adjacent blister convex 212, there is gap, this gap is communicated with this ventilative through hole 100), be conducive in time the moisture in sweat or footwear chamber being discharged, shoes after washing are when airing, the air entered in footwear chamber can directly be discharged by ventilative through hole 100, and for the circulation of air builds passage, this is conducive to moisture in Quick-air-drying footwear chamber.In addition; when this ventilative through hole 100 is arranged on sidewall; such structure makes sole when being subject to impulsive force; the laterally extending portion deforms opposing solid part of ventilative through hole 100 can be more flexible; impulsive force also can be disperseed in the process of ventilative through hole 100 deformation; thus reduce impulsive force to the injury of foot, reach better buffering protection function.

In addition, above-mentioned blister convex 212 is solid projection or hollow projection.With reference to Fig. 5, when this blister convex 212 is hollow projection, be equipped with support column 221 in the blister convex 212 of each hollow-core construction, support column 221 is vertically arranged; The setting of this support column 221 effectively can promote blister convex 212 bradyseism performance, relatively there is no the blister convex 212 of support column 221, blister convex 212 of the present utility model can bear higher impact force, and power can be pushed back for larger by Quick after blister convex 212 forced compression, to assist foot movement better, improve sport efficiency further.

The vibrational power flow of bradyseism pad 2 of the present utility model effectively can strengthen outsole body 1 bradyseism performance and effectively play the effect of good foot massages, and under the impact of high strength, the effect of damping and screen resilience is particularly evident.And blister convex 212 is shunk when pressurized, absorb external vibrations and surge, then restore very soon, good damping effect is provided, and impulsive force is converted to motive force (energy rebound), the support effect of the energy resilience that blister convex 212 provides effectively can improve sport efficiency, provides lasting motion stabilization performance.In addition, produce deformation dispersive pressure when the blister convex 212 of each upper bradyseism pad 21 end face is stressed, user can be allowed can to experience the feel of dim soft comfortable in any road conditions.In addition, due to blister convex 212 of the present utility model for absolute construction is arranged, certain gap is there is between adjacent two blister convex 212, when there is bending in outsole body 1, the active force of tractive is not had between blister convex 212, this just makes outsole body 1 more soft, and outsole body 1 can provide comprehensive function easy to break.

Above are only detailed description of the invention of the present utility model, but design concept of the present utility model is not limited thereto, all changes utilizing this design the utility model to be carried out to unsubstantiality, all should belong to the behavior of invading the utility model protection domain.

Claims (10)

1. ventilative bubble shock absorption soles, comprise outsole body, it is characterized in that: described outsole body is provided with accommodating cavity, this outsole body is open top structure; The bradyseism pad of at least two superimposed connections is provided with in this accommodating cavity; End face and the bottom surface of upper bradyseism pad are respectively equipped with blister convex, and the end face of lower bradyseism pad is provided with blister convex, and the blister convex that upper bradyseism is rebasing is staggered adjacent with the corresponding blister convex of lower bradyseism pad end face.

2. ventilative bubble shock absorption soles as claimed in claim 1, it is characterized in that: described outsole body is provided with at least one ventilative through hole, described accommodating cavity is communicated with this ventilative through hole.

3. ventilative bubble shock absorption soles as claimed in claim 1, is characterized in that: described upper bradyseism pad covers metacarpus and the heel of described outsole body, and described lower bradyseism pad covers the heel of outsole body.

4. ventilative bubble shock absorption soles as claimed in claim 1, is characterized in that: described blister convex is semielliptical shape.

5. ventilative bubble shock absorption soles as claimed in claim 4, it is characterized in that: the end face of the described blister convex of described upper bradyseism pad end face is plane, the end face of the blister convex of the bottom surface of upper bradyseism pad and the end face of described lower bradyseism pad is cambered surface.

6. ventilative bubble shock absorption soles as claimed in claim 4, it is characterized in that: the described blister convex of described upper bradyseism pad end face extends along described outsole body width, the blister convex that the bottom surface metacarpus of upper bradyseism pad is arranged extends along outsole body width, and the blister convex of the bottom surface heel of upper bradyseism pad and the end face of described lower bradyseism pad all extends along outsole body length direction.

7. ventilative bubble shock absorption soles as claimed in claim 1, is characterized in that: described blister convex is solid projection.

8. ventilative bubble shock absorption soles as claimed in claim 1, is characterized in that: described blister convex is hollow projection, and be provided with support column in the blister convex of hollow-core construction, support column is vertically arranged.

9. ventilative bubble shock absorption soles as claimed in claim 1, is characterized in that: described upper bradyseism pad is different from described lower bradyseism pad hardness.

10. ventilative bubble shock absorption soles as claimed in claim 2, is characterized in that: described ventilative through hole is located at bottom surface or the sidewall of described outsole body or is pushed up edge.