CN205512674U - Insole of high -heeled shoe - Google Patents

Abstract

The utility model discloses an insole of high -heeled shoe, the bottom of sole contact position was equipped with first lug before the shoe -pad body lay in, first lug is made by the bradyseism material, first lug is convex lug, for the thick edge in centre is thin, and bottom circular -arc -transition structure, the middle thickness of first lug is 3~12mm, the compressing deformation rate is less than percent ten and hardness is 20~25 degrees. Sole each compliance in the portion of putting forth effort was the same before the arc lug power of evenly rushing down made, and the first lug of bradyseism material effectively reduces the ground striking of walking to the articular cartilage damage, makes the sole more comfortable tired on foot, adjust first lug thickness and shape according to the different manservants of an official, can the at utmost save the cost under the condition that satisfies the bradyseism demand.

Description

A kind of insole of high-heeled shoe

Technical field

This utility model relates to a kind of high-heel shoes assembly, the especially insole of high-heeled shoe of band shock-absorbing function.

Background technology

High-heel shoes have become as one of indispensable footwear styles of women, and women dotes on high-heel shoes, when wearing high-heel shoes, health can be because heel improves, the health of people can lean forward by nature, can be only achieved the purpose of balance for keeping balance to straight up and keep one's chin up, therefore abdominal part and buttocks tighten up the highest therewith, thus make paces figure more graceful；The existence of heel can increase height, elongates the ratio of lower limb, makes stature more slender, a lot of different types of clothing of therefore can arranging in pairs or groups.

But the behind of beauty, is intended to pay healthy cost.Human body is worn high-heel shoes on foot time leg send the power of walking and decompose, be decomposed into the horizontal component of horizontal direction and the vertical force component of vertical direction, vertical force component is far longer than horizontal component.Horizontal component makes people go ahead by the frictional force of sole with ground；Vertical force component finally affects the spot speed that foot lands, and according to formula F=mV (wherein F be momentum, m be quality, V be spot speed) and the effect of power be mutual, foot ground in the process of walking can be calculated in the face of the impulsive force of foot, impulsive force can pass to each position of the person by foot, impulsive force is mainly absorbed by the articular cartilage in human body, i.e. articular cartilage in human body assume responsibility for vibration-absorbing function, and wearing high-heel shoes too much can seriously increase the injury to articular cartilage on foot.

The sole of people is divided into outside forefoot, sole, heel and arch of foot, forefoot recess when Yongquan acupoint is positioned at sole volume foot, about when before second, third toe toe margin to seam end of vola and heel line 1/3 with after 2/3 intersection point on, in Yongquan acupoint pushes away forward certain limit, put forth effort portion for wear high heels.

Wear high heels stand when, health 60% weight needs forefoot to support, the high-heel shoes of especially 8 centimeter length heels, the most forward sole of human body weight support；Wear high-heel shoes walk when, the stress of foot is had an effect position change, rushed down power by heel and forefoot is had an effect and become forefoot and not only rush down power but also have an effect, the moment that foot contacts with ground, foot component in downward direction is become the component of upward direction by ground reaction force, forefoot will bear double pressure, and therefore forefoot easily turns sour sore.

Back height pursued by high-heel shoes currently on the market, therefore between shoes forefoot shoe pad and the big end, water platform it is provided with by higher for forefoot also respective pads forefoot to reduce the gradient of sole, in the high-heel shoes processing technology of this type general by vamp bottom water platform, again the big end, is fitted in below water platform, the biggest end, clamps the edge of vamp with the bonding of water platform, from can only see vamp and the big end invisible water platform (i.e. waterproof platform is built-in) in appearance, the most more stable water platform that is unlikely to of this structure comes off easily simultaneously.But the setting of water platform too increases the weight of shoe body, during walking, also can increase ground shock power.Existing bradyseism scheme is to spread shoe pad on water platform, then places flexible glue on shoe pad, and high-heel shoes make the foot type of originally fitting exactly of space in footwear and make, and place flexible glue and can reduce space in footwear, therefore exists to use and limits；And flexible glue slides or compression, high-heel shoes are walked and are compared the most difficult grasp balance, and flexible glue slides and makes people more be difficult to grasp balance.

In sum, wear direct shock that human injury is forefoot contact ground generation that high-heel shoes can cause on foot, shock can bring sole pain, and impulsive force is transmitted at person joint increase burden articular cartilage, articular cartilage is easily damaged, and the bradyseism effect of prior art is the highest and has defect.

Therefore need a kind of novel insole of high-heeled shoe badly, as one of assembly making high-heel shoes, can bradyseism structure be rationally set but will not additionally increase space.

Utility model content

The purpose of this utility model be to provide a kind of with set that the collocation of reeded waterproof platform uses can reduce on foot faced by the harmful insole of high-heeled shoe of impacting injury of articular cartilage.

The purpose of this utility model can reach by the following technical solutions:

A kind of insole of high-heeled shoe, including insole body, the bottom of described insole body is provided with the first projection, and described first projection is located at the position that forefoot is relative, and described first projection is made up of bradyseism material；The interior thickness of described first projection is 3～12mm settings.Further, described first projection is circular arc projection, the most described first projection thick middle thin edge, the bottom arc transition of described first projection.

Preferably, the top of described first projection is plane, and the sidepiece of described first projection is cambered surface, and the i.e. first projection is plane eccentric arc projection, is plane in the middle of described plane eccentric arc projection, and the peripheral thickness arc transition of plane is gradually reduced.

Further, the interior thickness maximum point of described first projection is arranged on Yongquan acupoint front 5～～the position of 25mm.

Further, described shoe pad is that bradyseism material is made, and one-body molded with described first projection.

Further, the compression deformation rate of described bradyseism material is less than 10.

Further, the compression deformation rate of described bradyseism material is less than 5 percent.

Further, the hardness of described bradyseism material is 20～25 degree.

Preferably, the upper surface of described shoe pad is provided with the second projection, the top arc transition of described second projection in sole arch of foot position, and described second projection cube structure matches with sole arch depression position.

Compared to existing technology, this utility model has the advantages that

1, arranging the first projection below insole body, carry out bradyseism by the first projection, reduce the shock to articular cartilage of walking and injure and alleviate forefoot twinge, the first projection is arranged on the bottom of insole body, will not take space in footwear.

2, uniform force can be disperseed by the first projection of circular arc so that sole sensation all directions pliability is identical.

3, adjusting the first projection thickness and shape, adjusting bradyseism material thickness according to different manservant of an official's correspondences can be the most cost-effective.

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only embodiments more of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is human foot schematic diagram；

Fig. 2 is the side-looking structural representation of shoe pad；

Fig. 3 be shoe pad look up structural representation；

Fig. 4 is the side-looking structural representation of preferred embodiment shoe pad.

The most each parts are as follows: 100, sole；110, forefoot；120, outside sole；130, heel；140, arch of foot；150, Yongquan acupoint；160, portion is puted forth effort；4, shoe pad；41, the first projection；42, the second projection.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of this utility model protection.

As shown in Figure 1, the sole 100 of people is divided into forefoot 110, outside sole 120, heel 130 and arch of foot 140, forefoot 110 recess when Yongquan acupoint 150 is positioned at sole volume 100 foot, about when vola second, front the 1/3 of 3rd toe toe margin to seam end and heel 130 line with on the intersection point of rear 2/3, for the portion of putting forth effort 160 worn high heels in the range of Yongquan acupoint 150 arrives forward sole of the foot toe line, mainly 120 ground is applied tilting force to reach to adjust the effect of balance outside forefoot 110 and sole when wearing walking shoes, wear outside at the bottom of the high-heel shoes rear foot 120 unsettled, therefore it is difficult to adjust balance.

The embodiment 1 of insole of high-heeled shoe:

As shown in Figures 2 and 3, a kind of insole of high-heeled shoe that the present embodiment is provided, it includes that insole body 4, described insole body 4 are positioned at the bottom of forefoot 110 contact position and are provided with the first projection 41, and described first projection 41 is made for bradyseism material；The interior thickness of described first projection 41 is 3～12mm settings.First projection 41 can match by water platform with groove with the one of one of high-heel shoes assembly, is combined with groove by the first projection 41 so that insole body 4 is combined more stable with water platform, not only realizes bradyseism effect but also do not result in skidding.

Preferably, described first projection 41 is circular arc projection, described circular arc projection thick middle thin edge, bottom arc transition.Preferably, described first projection 41 is plane eccentric arc projection, is plane in the middle of described plane eccentric arc projection, and the peripheral thickness arc transition of plane is gradually reduced.The bradyseism material of circular arc projection uniformly the power of rushing down can make forefoot 110 160 each pliabilitys in the portion of putting forth effort identical.

When the manservant of an official of high-heel shoes is 3cm, owing to the manservant of an official is little, forefoot 110 stress is the most inconspicuous, stress center of gravity is close to Yongquan acupoint 150, the interior thickness of described first projection 41 is set to 3mm and i.e. can reach basic bradyseism effect, the interior thickness maximum point of described first projection 41 is arranged at the 5mm of Yongquan acupoint front, the compression deformation rate 10 of bradyseism material, and hardness is 25 degree can allow sole 100 soft feel comfortable.

Preferably, bradyseism materials'use polyurethane elastomeric materials, more excellent, use fretting map polyurethane.

The embodiment 2 of insole of high-heeled shoe:

The insole of high-heeled shoe of the present embodiment is with the difference of embodiment 1, when the manservant of an official of high-heel shoes is 9cm, owing to the manservant of an official is bigger, forefoot 110 stress is big, ground is weighed in the hand owing to heel 130 tilts almost tiptoe, sole 100 stress center of gravity moves forward, with reference to the foot type with women, owing to the footwear code of women is typically at 34 to 40 yards, therefore the interior thickness maximum point of the first projection 41 is arranged at Yongquan acupoint 15 front 25mm already close to sole of the foot toe line, for clashing into direct position, the interior thickness of described first projection 41 is set to 3mm, the compression deformation rate 10 of the bradyseism material filled, record bradyseism rate through impact test machine and be about 30%；Hardness 20 degree, reduces hardness forefoot 110 the most comfortable.

The embodiment 3 of insole of high-heeled shoe:

The insole of high-heeled shoe of the present embodiment is with the difference of embodiment 1, when the manservant of an official of high-heel shoes is 9cm, the interior thickness maximum point of the first projection 41 is arranged at Yongquan acupoint 150 front 15mm, the interior thickness of described first projection 41 is set to 12mm, the compression deformation rate 10 of the bradyseism material filled, recording bradyseism rate through impact test machine and be about 90%, bradyseism effect reaches outstanding.

Preferably, adjust bradyseism material property, the compression deformation rate of bradyseism material is arranged on 5 percent, can effectively control bradyseism material deflection, it is to avoid occur that sole 100 gradually sink and cause in footwear that space is excessive does not fits.

The embodiment 4 of insole of high-heeled shoe:

The insole of high-heeled shoe of the present embodiment is with the difference of embodiment 1, when the manservant of an official of high-heel shoes is 6cm, the interior thickness maximum point of the first projection 41 is arranged at Yongquan acupoint 150 front 12mm, the interior thickness of described first projection 41 is set to 8mm, the compression deformation rate 10 of bradyseism material, recording bradyseism rate through impact test machine and be about 80%, bradyseism effect reaches good.

The embodiment 5 of insole of high-heeled shoe:

The insole of high-heeled shoe of the present embodiment is with the difference of embodiment 1, when the manservant of an official of high-heel shoes is 6cm, the interior thickness maximum point of the first projection 41 is arranged at Yongquan acupoint 150 front 15mm, the interior thickness of described first projection 41 is set to 5mm, the compression deformation rate 10 of bradyseism material, records bradyseism rate through impact test machine and is about 60%.

The embodiment 6 of insole of high-heeled shoe:

The insole of high-heeled shoe of the present embodiment is with the difference of embodiment 1, when the manservant of an official of high-heel shoes is 3cm, the interior thickness maximum point of the first projection 41 is arranged at Yongquan acupoint 150 front 5mm, the interior thickness of described first projection 41 is set to 12mm, record bradyseism rate through impact test machine and be about 95%, find that the thickness of bradyseism material continues to thicken bradyseism effect promoting after reaching 12mm inconspicuous.

According to upper table, this table is the bradyseism rate statistical table that the manservant of an official and thickness are adjusted recording by impact test machine.Can be seen that the increase along with the manservant of an official, bradyseism effect reduces；Along with the increase of bradyseism material thickness, bradyseism effect promoting, but it is inconspicuous to continue to thicken bradyseism effect promoting after reaching 12mm.Along with the increase of the manservant of an official, the contact point that forefoot 110 and ground are directly clashed into gradually moves forward, and therefore moves forward interior thickness maximum point 23 accordingly to promote sole 100 comfort level.

Preferably, at the face of described insole body 4 in sole 100 arch of foot 140 position, namely the position of bridge location is provided with the second projection 42, described second projection 42 thick middle thin edge, the top arc transition of described second projection 42, its structure matches with sole 100 arch of foot 140 depressed area.Its effect is laminating arch of foot 140, and arch of foot 140 insole body 4 also can be carried out contact adjusting tilting force and then promotes balance of walking.

In shoemaking flow process, comprise the steps of:

1, vamp is sewed up in cutting；

2, the end and water platform in making, described water platform is provided with groove, makes the insole body 4 of the first projection 41 of bradyseism material；

3, the middle end, it is connected with water platform and follows closely on shoe last；

4, vamp is enclosed within shoe last, vamp edge is fitted in below the middle end and water platform；

5, fit at the big end below the middle end and water platform；

6, heel is nailed in heel of a shoe position；

7, taking out shoe last, gluing shoe pad body 4 on the middle end and water table top, wherein the first projection 41 will not increase space in footwear with groove fit.

It is pointed out that the units of measurement of the ASKER-C measuring instrument that unit is industry universal of hardness；Compression deformation rate is the percentage ratio that the volume that compression reduces accounts for original volume；Bradyseism rate is that impact test machine shock numerical value after bradyseism accounts for the percentage ratio of non-bradyseism numerical value.

Above disclosed it is only this utility model preferred embodiment, certainly can not limit the interest field of this utility model, the equivalent variations therefore made according to this utility model claim with this, still belong to the scope that this utility model is contained.

Claims (9)

1. an insole of high-heeled shoe, it is characterised in that including that insole body, the bottom of described insole body are provided with the first projection, described first projection is located at the position that forefoot is relative, and described first projection is made up of bradyseism material；

The interior thickness of described first projection is 3～12mm.

Insole of high-heeled shoe the most according to claim 1, it is characterised in that described first projection is circular arc projection.

Insole of high-heeled shoe the most according to claim 1, it is characterised in that the top of described first projection is plane, sidepiece is cambered surface.

Insole of high-heeled shoe the most according to claim 2, it is characterised in that the interior thickness maximum point of described first projection is arranged on Yongquan acupoint front 5～～the position of 25mm.

Insole of high-heeled shoe the most according to claim 1, it is characterised in that described shoe pad is made up of bradyseism material, and one-body molded with described first projection.

Insole of high-heeled shoe the most according to claim 1, it is characterised in that the compression deformation rate of described bradyseism material is less than 10.

Insole of high-heeled shoe the most according to claim 1, it is characterised in that the compression deformation rate of described bradyseism material is less than 5 percent.

Insole of high-heeled shoe the most according to claim 1, it is characterised in that the hardness of described bradyseism material is 20～25 degree.

Insole of high-heeled shoe the most according to claim 1, it is characterised in that the upper surface of described shoe pad is provided with the second projection, the top arc transition of described second projection at sole arch of foot correspondence position, described second projection cube structure matches with sole arch depression position.