CN203873100U - Sport shoe and shoe sole of sport shoe - Google Patents
Sport shoe and shoe sole of sport shoe Download PDFInfo
- Publication number
- CN203873100U CN203873100U CN201420322955.4U CN201420322955U CN203873100U CN 203873100 U CN203873100 U CN 203873100U CN 201420322955 U CN201420322955 U CN 201420322955U CN 203873100 U CN203873100 U CN 203873100U
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- bounce
- sole
- back post
- bradyseism
- bradyseism bounce
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Abstract
The utility model discloses a sport shoe and a shoe sole of the sport shoe. A plurality of multi-layer cushioning rebounding columns are evenly arranged in a heelpiece outer-side area, a heelpiece middle area, an arch outer-side area, a sole area and a first toe area on the bottom face of the shoe sole of the sport shoe, a plurality of single-layer cushioning rebounding columns are evenly arranged in a heelpiece inner-side area, an arch inner-side area and a second toe area, and cross sections of the multi-layer cushioning rebounding columns and the single-layer cushioning rebounding columns are in regular hexagon shapes. By means of the sport shoe and the shoe sole of the sport shoe, the impact force can be dispersed by deformation generated when the cushioning rebounding columns on the shoe sole are pressed, and therefore the high damping effect and the high cushioning effect are achieved; the multi-layer cushioning rebounding columns are extruded layer by layer like a spring when being extruded, and therefore the rebounding effect is good; the cushioning rebounding columns are in the regular hexagon shapes, friction force in the multiple directions can be provided by the edges of the cushioning rebounding columns, the shoe sole cannot be braked by cavities between the cushioning rebounding columns due to the fact that over-large friction force is borne by the shoe sole in a certain direction, the anti-sliding performance is improved, and meanwhile the flexibility is guaranteed.
Description
Technical field
The utility model relates to sport footwear, is specifically related to sport footwear and sole thereof.
Background technology
In general, the comfort level of sport footwear is higher, and sole mostly has anti-skidding and shock-absorbing function, and assessment sport footwear performance quality has following common standards: it is good to grab firm, shock-absorbing function and antiskid function, and this all depends on the structural design of sole.General sport footwear is mainly heel and half sole region serious wear after wearing for a long time, and this is mainly because the foot stressed difference of each several part when walking, and sole cannot meet that the needs of foot various piece cause.Prove according to researches on exercise biomechanics, foot walking is a continuous rolling process, contact to earth and be transitioned into successively arch of foot and sole from heel, then firmly push off ground by toe, the power maximum that wherein bear in the region of lateral heel and big toe, and heel and arch of foot outside unavoidably has rollover to a certain degree, this just requires outside heel and arch of foot the bounce-back effect in sole outside better than other regions.
Sport footwear is in the market of a great variety, the structural design variation of sole, but following problem does not also obtain fine improvement:
(1) the regional deformation value in heel sole outside is larger, and the bounce-back power-assisted providing in the time that foot pushes off ground is bigger than normal and discontinuous, cannot meet the continuity requirement of foot walking, bounce-back poor effect;
(2) mostly adopt strip projection and linear recess to carry out anti-skidding, when frictional force is excessive though skid resistance is good, can make sport footwear brake in one direction, flexibility is inadequate.
Utility model content
Technical problem to be solved in the utility model is sole outside bounce-back poor effect and the inadequate problem of sole flexibility of sport footwear.
In order to solve the problems of the technologies described above, the technical scheme that the utility model adopts has been to provide a kind of athletic shoe sole, its bottom surface is divided into lateral heel district, heel middle region, medial heel district, arch of foot medial area, arch of foot LHA, first loe zone at ball area and big toe place and second loe zone at other four toe places, described lateral heel district, heel middle region, arch of foot LHA, in ball area and the first loe zone, be laid with multiple multilayer bradyseism bounce-back posts, described medial heel district, in arch of foot medial area and the second loe zone, be laid with multiple individual layer bradyseism bounce-back posts, the shape of cross section of described multilayer bradyseism bounce-back post and individual layer bradyseism bounce-back post is regular hexagon.
In above-mentioned athletic shoe sole, it is step-like that described multilayer bradyseism bounce-back post is from bottom to top, changes from small to big.
In above-mentioned athletic shoe sole, the wherein limit horizontally set in the regular hexagonal section of described multilayer bradyseism bounce-back post and individual layer bradyseism bounce-back post, consistent with the left and right directions of sole.
In above-mentioned athletic shoe sole, described multilayer bradyseism bounce-back post comprises two-stage step bradyseism bounce-back post and three grades of step bradyseism bounce-back posts, described two-stage step bradyseism bounce-back post is distributed in lateral heel district and the first loe zone, and described three grades of step bradyseism bounce-back post is distributed in heel middle region, arch of foot LHA and ball area.
In above-mentioned athletic shoe sole, the bottom surface of described athletic shoe sole is provided with the first separation trough, the second separation trough and the 3rd separation trough, described separation trough is parallel with the edge of the described bradyseism bounce-back post of its both sides, run through sole both sides along left and right directions, described separation trough is located at respectively the changeover portion of the changeover portion of described heel and described arch of foot, described arch of foot and described sole and the changeover portion in described sole and described the second toe region.
In above-mentioned athletic shoe sole, in described lateral heel, heel middle region and medial heel district, described individual layer bradyseism bounce-back post or multilayer bradyseism bounce-back post are changed from small to big forward gradually by the trailing edge of sole;
At described arch of foot medial area and arch of foot LHA, described individual layer bradyseism bounce-back post or multilayer bradyseism bounce-back post are by backward front elder generation from large to small, change from small to big again, and the multilayer bradyseism of described arch of foot LHA bounce-back post is inwardly changed from small to big by outer rim gradually along the left and right directions of sole;
The multilayer bradyseism bounce-back post of described ball area is inwardly changed from small to big by outer rim gradually along the left and right directions of sole, and approaches described the first loe zone, and multilayer bradyseism bounce-back post is larger;
In described the first loe zone and the second loe zone, individual layer bradyseism bounce-back post or multilayer bradyseism bounce-back post are changed from small to big backward gradually by the leading edge of sole.
In above-mentioned athletic shoe sole, the Area Ratio of the step cross sections at different levels of described three grades of step bradyseism bounce-back post is 2.5:1.7:1, and the Area Ratio of the step cross sections at different levels of described two stage steps bradyseism bounce-back post is 2.5:1.7.
In above-mentioned athletic shoe sole, be made up of abrasive rubber in described lateral heel and described the first toe region.
In above-mentioned athletic shoe sole, be made up of abrasive rubber in described lateral heel and described the first toe region.
The utility model also provides a kind of sport footwear of the athletic shoe sole with said structure.
The utility model, the bottom surface of athletic shoe sole is provided with multiple anti-skidding bradyseism bounce-back posts, in lateral heel district, heel middle region, arch of foot LHA, ball area and the first loe zone, be laid with multiple multilayer bradyseism bounce-back posts, in medial heel district, arch of foot medial area and the second loe zone, be laid with multiple individual layer bradyseism bounce-back posts, the shape of cross section of multilayer bradyseism bounce-back post and individual layer bradyseism bounce-back post is regular hexagon.In the time that people stop over, cavity between bradyseism bounce-back post disperses impulsive force by compressive deformation, make sole there is stronger damping, buffering effect, and multilayer bradyseism bounce-back post is arranged on easy generation rollover and stressed larger region, extrusion type springy layer by layer while being squeezed because of multilayer bradyseism bounce-back post, therefore there is stronger bounce-back effect, can effectively prevent from excessively turning up and continuous moderate bounce-back power-assisted being provided outside sole; Because the cross section of bradyseism bounce-back post is regular hexagon, the flange on parallel two relative limits can strengthen the frictional force on sole and ground, sport footwear is slided in multiple directions and all there is good friction effect, and there is cavity between bradyseism bounce-back post, can not allow sole brake because being subject to excessive frictional force in one direction, when increasing skid resistance, ensure flexibility yet.
Brief description of the drawings
The structural representation of the athletic shoe sole that Fig. 1 provides for the utility model;
The profile of the sports shoes heel that Fig. 2 provides for the utility model.
Detailed description of the invention
The technical scheme that the utility model adopts has been to provide a kind of sport footwear and sole thereof, the bottom surface of athletic shoe sole is provided with multiple anti-skidding bradyseism bounce-back posts, bradyseism bounce-back post is divided into multilayer bradyseism bounce-back post and individual layer bradyseism bounce-back post, lateral heel district, heel middle region, arch of foot LHA, in ball area and the first loe zone, be laid with multiple multilayer bradyseism bounce-back posts, medial heel district, in arch of foot medial area and the second loe zone, be laid with multiple individual layer bradyseism bounce-back posts, the shape of cross section of multilayer bradyseism bounce-back post and individual layer bradyseism bounce-back post is regular hexagon, can effectively prevent from excessively turning up and larger bounce-back power-assisted being provided outside sole, can not allow sole brake because being subject to excessive frictional force in one direction, flexibility while having increased motion.Below in conjunction with specific embodiment and Figure of description, the utility model is described in detail.
As shown in Figure 1, the athletic shoe sole that the utility model provides is divided into eight regions: the first toe region district 7 at lateral heel district 1, heel middle region 2, medial heel 3rd district, arch of foot medial area 4, arch of foot LHA 5, ball area 6, big toe place and the second toe region district 8 at other four toe places, the changeover portion that is provided with separation trough 11, arch of foot and sole at the changeover portion of heel and arch of foot is provided with separation trough 22, is provided with separation trough 33 at sole and the second toe region.Multiple bradyseism bounce-back post continuous distributed are at the regional of sole.
Bradyseism bounce-back post comprises individual layer bradyseism bounce-back post and multilayer bradyseism bounce-back post, multilayer bradyseism bounce-back post comprises again two-stage step bradyseism bounce-back post and three grades of step bradyseism bounce-back posts, the profile of various bradyseism bounce-back posts as shown in Figure 2 above, the shape of cross section of bradyseism bounce-back post is regular hexagon, the longitudinal cross-section at individual layer bradyseism bounce-back place, post axis is shaped as isosceles trapezoid, multilayer bradyseism bounce-back post is formed by stacking by multiple individual layer bradyseism bounce-back posts, the cross section of these multiple individual layer bradyseism bounce-back posts is concentric regular hexagon, diminish gradually from bottom to top, the regular hexagon boss of nexine protrudes from outer boss successively.
Size and the stressed size of bradyseism bounce-back post are proportionate, and stressed when larger, larger bradyseism bounce-back post has better stability and the effect that rebounds, because the deformation quantity of multilayer bradyseism bounce-back post is greater than individual layer bradyseism bounce-back post, after multilayer bradyseism bounce-back post is squeezed, after the regular hexagon boss of internal layer is compressed, can extruding be sequentially arranged in outer field regular hexagon boss, make bradyseism bounce-back post compressed as spring, after impulsive force disappears heeloff time, the deformation of bradyseism bounce-back post savings successively recovers, moderate bounce-back power-assisted can be provided continuously, so that the damping property of multilayer bradyseism bounce-back post and bounce-back better effects if, and the damping property of three grades of step bradyseism bounce-back posts and bounce-back effect are better than two stage steps bradyseism bounce-back post.In addition, through repeatedly parameter experiment discovery, in the time that the Area Ratio of the step cross sections at different levels of the three grades of step bradyseism bounce-back posts Area Ratio that is the step cross sections at different levels of 2.5:1.7:1, two stage steps bradyseism bounce-back post is 2.5:1.7, the damping performance of multilayer bradyseism bounce-back post is best, and be difficult for subsiding, there is longer service life.
In people's walking process, lateral heel district 1 can be subject to larger impulsive force in the time stopping over, and need to have and be provided with multiple two-stage step bradyseism bounce-back posts herein, and become gradually large by the inside bradyseism bounce-back of heel outer rim post.When people stop over, bradyseism bounce-back post can effectively strengthen the earth-catching property of sole, plays the effect of stablizing heel and bumper and absorbing shock, and the calcaneum of protection rear heel, can provide moderate bounce-back power-assisted continuously.In addition, be made up of abrasive rubber in this region, makes lateral heel not easy to wear, has extended the service life of sole.
After lateral heel district 1 lands, heel middle region 2 also transition lands, and heel middle region 2 is provided with multiple three grades of step bradyseism bounce-back posts, becomes gradually large by the inside bradyseism bounce-back of heel outer rim post.Larger body wt will be born in heel middle part 2, and the deformation quantity of three grades of step bradyseism bounce-back posts and bounce-back effect be better than two-stage step bradyseism bounce-back post, makes earth-catching property, damping performance and the bounce-back better effects if of whole heel.
After contacting to earth in medial heel district 3, whole heel all lands, medial heel district 3 is provided with multiple individual layer bradyseism bounce-back posts, can make the stable arch of foot that is transitioned into of foot, prevent that heel from excessively turning up, and after the two-stage step bradyseism bounce-back post in heeloff time and lateral heel district 1 and three grades of step bradyseism bounce-back posts one of heel middle region 2 be all heel bounce-back power-assisted be provided.
After whole heelstrike after, arch of foot LHA 5 and arch of foot medial area 4 can land in succession, wherein arch of foot LHA 5 is stressed larger.Arch of foot LHA 5 is provided with multiple three grades of step bradyseism bounce-back posts, inwardly become gradually large by the outer rim of sole, and bradyseism bounce-back post is diminished to arch of foot middle part gradually by heel, become gradually large by arch of foot middle part to sole, this is because the pressure that foot arch part is subject to is less than heel and sole, and therefore bradyseism bounce-back post is also less than the two.Arch of foot medial area 4 is provided with multiple individual layer bradyseism bounce-back posts, and size setting and the arch of foot LHA 5 of bradyseism bounce-back post are consistent.
After ball area 6 lands, bear the most weight of health therefore stressed larger, be provided with multiple three grades of step bradyseism bounce-back posts, and the bradyseism of ball area 6 bounce-back post is maximum in the All Ranges of sole, energy stable support foot can also provide larger and continuous bounce-back power-assisted in the time that sole pushes off ground.
The first toe region district 7 and the second toe region district 8 are foot last stress areas while pushing off ground, coordinate ball area 6 jointly to push off ground.Wherein the load-bearing in the first toe region district 7 is greater than the second toe region district 8, and when liftoff, provide larger bounce-back power-assisted, therefore be provided with multiple three grades of step bradyseism bounce-back posts, and there is abrasive rubber to make, the second toe region district 8 is provided with multiple individual layer bradyseism bounce-back posts, and more convergence sole leading edge bradyseism bounce-back post is less.
The changeover portion of heel and arch of foot is provided with separation trough 11, separation trough 11 is parallel with the edge of the bradyseism bounce-back post of its both sides, keep the complete form of bradyseism bounce-back post, do not affect damping and the rebound function of bradyseism bounce-back post, heel and arch of foot are divided into two regions that are connected, independence and refrangibility while not only having increased heel and arch of foot motion, also help the continuity and the flexibility that keep athletic shoe sole.Similarly, the changeover portion in the changeover portion of arch of foot and sole, sole and the second toe region is respectively equipped with separation trough 22, separation trough 33.
The utility model is not limited to above-mentioned preferred forms, and anyone should learn the structural change of making under enlightenment of the present utility model, every with the utlity model has identical or close technical scheme, within all falling into protection domain of the present utility model.
Claims (9)
1. athletic shoe sole, its bottom surface is divided into first loe zone at lateral heel district, heel middle region, medial heel district, arch of foot medial area, arch of foot LHA, ball area and big toe place and second loe zone at other four toe places, it is characterized in that:
In described lateral heel district, heel middle region, arch of foot LHA, ball area and the first loe zone, be laid with multiple multilayer bradyseism bounce-back posts, in described medial heel district, arch of foot medial area and the second loe zone, be laid with multiple individual layer bradyseism bounce-back posts, the shape of cross section of described multilayer bradyseism bounce-back post and individual layer bradyseism bounce-back post is regular hexagon.
2. athletic shoe sole as claimed in claim 1, is characterized in that, it is step-like that described multilayer bradyseism bounce-back post is from bottom to top, changes from small to big.
3. athletic shoe sole as claimed in claim 1, is characterized in that, the wherein limit horizontally set in the regular hexagonal section of described multilayer bradyseism bounce-back post and individual layer bradyseism bounce-back post is consistent with the left and right directions of sole.
4. athletic shoe sole as claimed in claim 2, it is characterized in that, described multilayer bradyseism bounce-back post comprises two-stage step bradyseism bounce-back post and three grades of step bradyseism bounce-back posts, described two-stage step bradyseism bounce-back post is distributed in lateral heel district and the first loe zone, and described three grades of step bradyseism bounce-back post is distributed in heel middle region, arch of foot LHA and ball area.
5. athletic shoe sole as claimed in claim 1, it is characterized in that, the bottom surface of described athletic shoe sole is provided with the first separation trough, the second separation trough and the 3rd separation trough, described separation trough is parallel with the edge of the described bradyseism bounce-back post of its both sides, run through sole both sides along left and right directions, described separation trough is located at respectively the changeover portion of the changeover portion of described heel and described arch of foot, described arch of foot and described sole and the changeover portion in described sole and described the second toe region.
6. athletic shoe sole as claimed in claim 1, is characterized in that:
In described lateral heel, heel middle region and medial heel district, described individual layer bradyseism bounce-back post or multilayer bradyseism bounce-back post are changed from small to big forward gradually by the trailing edge of sole;
At described arch of foot medial area and arch of foot LHA, described individual layer bradyseism bounce-back post or multilayer bradyseism bounce-back post are by backward front elder generation from large to small, change from small to big again, and the multilayer bradyseism of described arch of foot LHA bounce-back post is inwardly changed from small to big by outer rim gradually along the left and right directions of sole;
The multilayer bradyseism bounce-back post of described ball area is inwardly changed from small to big by outer rim gradually along the left and right directions of sole, and approaches described the first loe zone, and multilayer bradyseism bounce-back post is larger;
In described the first loe zone and the second loe zone, individual layer bradyseism bounce-back post or multilayer bradyseism bounce-back post are changed from small to big backward gradually by the leading edge of sole.
7. athletic shoe sole as claimed in claim 4, is characterized in that, the Area Ratio of the step cross sections at different levels of described three grades of step bradyseism bounce-back post is 2.5:1.7:1, and the Area Ratio of the step cross sections at different levels of described two stage steps bradyseism bounce-back post is 2.5:1.7.
8. athletic shoe sole as claimed in claim 1, is characterized in that, be made up of abrasive rubber in described lateral heel and described the first toe region.
9. sport footwear, is characterized in that, comprises the athletic shoe sole as described in claim 1-8 any one.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420322955.4U CN203873100U (en) | 2014-06-17 | 2014-06-17 | Sport shoe and shoe sole of sport shoe |
Applications Claiming Priority (1)
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CN201420322955.4U CN203873100U (en) | 2014-06-17 | 2014-06-17 | Sport shoe and shoe sole of sport shoe |
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CN203873100U true CN203873100U (en) | 2014-10-15 |
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CN201420322955.4U Withdrawn - After Issue CN203873100U (en) | 2014-06-17 | 2014-06-17 | Sport shoe and shoe sole of sport shoe |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104013155A (en) * | 2014-06-17 | 2014-09-03 | 泉州鸿荣轻工有限公司 | Sports shoe and sole thereof |
CN106213653A (en) * | 2016-07-29 | 2016-12-14 | 福建起步儿童用品有限公司 | A kind of comfortable protection children's footwear |
CN106235504A (en) * | 2016-07-29 | 2016-12-21 | 福建起步儿童用品有限公司 | A kind of novel footwear |
USD781038S1 (en) * | 2015-12-22 | 2017-03-14 | Nike, Inc. | Shoe outsole |
-
2014
- 2014-06-17 CN CN201420322955.4U patent/CN203873100U/en not_active Withdrawn - After Issue
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104013155A (en) * | 2014-06-17 | 2014-09-03 | 泉州鸿荣轻工有限公司 | Sports shoe and sole thereof |
CN104013155B (en) * | 2014-06-17 | 2016-02-24 | 泉州鸿荣轻工有限公司 | Sport footwear and sole thereof |
USD781038S1 (en) * | 2015-12-22 | 2017-03-14 | Nike, Inc. | Shoe outsole |
CN106213653A (en) * | 2016-07-29 | 2016-12-14 | 福建起步儿童用品有限公司 | A kind of comfortable protection children's footwear |
CN106235504A (en) * | 2016-07-29 | 2016-12-21 | 福建起步儿童用品有限公司 | A kind of novel footwear |
CN106213653B (en) * | 2016-07-29 | 2017-10-20 | 福建起步儿童用品有限公司 | A kind of comfortable protection children's footwear |
CN108741391A (en) * | 2016-07-29 | 2018-11-06 | 福建起步儿童用品有限公司 | A kind of spats children's footwear |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20141015 Effective date of abandoning: 20160224 |
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C25 | Abandonment of patent right or utility model to avoid double patenting |