CN104302200A - Heel for a women's shoe with a high heel - Google Patents

Abstract

A heel (2) for a women's shoe (1) with a high heel is provided. The heel (2) has a main structure (3) provided with at least a first slit (8) which is horizontally oriented, extends from side to side through the main structure (3) along a longitudinal direction (9), and is blind along a transverse direction (10) perpendicular to the longitudinal direction (9) starting from an inner portion of the main structure (3) and ending in correspondence to a first side (11) of the main structure (3); and at least a second slit (12) which is horizontally oriented, extends from side to side through the main structure (3) along the longitudinal direction (9), and is blind along the transverse direction (10) that is perpendicular to the longitudinal direction (9) starting from an inner portion of the main structure (3) and ending in correspondence to a second side (13) of the main structure (3) that is opposite to the first side (11).

Description

For the heel of Ms's high-heeled shoes

Technical field

The present invention relates to the heel (that is: being highly greater than the heel of 5cm) of Ms's high-heeled shoes.

Background technology

In order to increase the comfort level (that is: reducing the Ms high-heeled shoes mechanical stress that is subject to of foot when walking) of Ms's high-heeled shoes, suggestion makes heel have vertical spring (that is: advising introducing heel the elasticity of vertical direction).

Vertical spring in order to make heel have, advise heel to be divided into upper and lower, this upper and lower can vertically movement toward each other, and elastic body can be placed between these two parts, and this elastic body establishes mechanical connection between these two parts; This elastic body can be made up of metal spring (such as: as described in patent application FR2235655A1), or can be made up of (such as: as described in patent application DE8316581U1) " softness " element of plastic material.But these known methods have a lot of shortcoming, such as: need many extra parts, the level of production result in significant complexity, and the method is only confined to limited heel kind.

Describe a kind of Ms's footwear in patent application FR1002135A1, it has such heel: be formed with multiple horizontal joint in this heel, and these horizontal joints give heel certain vertical spring; But this scheme in this application does not obtain best walking comfort, because user clearly notices " transverse instability " (that is: perpendicular to direction of travel).

Patent application CH212632A, GB238134A and FR1247874A1 describes Ms's footwear with such heel, in this heel, in outer surface, there is multiple level trough, these level troughs have the more shallow degree of depth (generally no more than 1 or 2 millimeter), and be " U " type, surround whole outer surface with this; But these schemes of above-mentioned patent application do not make heel provide a kind of enough vertical spring.

Summary of the invention

The object of the present invention is to provide a kind of heel not having Ms's high-heeled shoes of above-mentioned defect, it easily manufactures simultaneously, low price.

According to the present invention, the heel of Ms's high-heeled shoes as defined in the claims.

Accompanying drawing explanation

Describe the present invention in detail below in conjunction with accompanying drawing, accompanying drawing provide only nonrestrictive embodiment.

Fig. 1 schematically show the Ms's high-heeled shoes had according to heel of the present invention;

Fig. 2 and Fig. 3 is two different perspective views of Fig. 1;

Fig. 4,5 and 6 right views being respectively Fig. 1, rearview and left view;

Fig. 7 is the enlarged drawing of Fig. 5 detail section;

Fig. 8 is perspective and the vertical sectional view of the alternate embodiment of Fig. 1 heel;

Fig. 9 is the enlarged drawing of Fig. 8 detail section according to alternate embodiment manufacture;

Figure 10 is the perspective view of the alternate embodiment of Fig. 1 heel;

Figure 11 is the perspective view of the further embodiment of Fig. 1;

Figure 12 is the rearview of Figure 11 heel;

Figure 13 is perspective and the vertical sectional view of Figure 12 heel;

Figure 14 and 15 is the perspective view that two of the further embodiment of Fig. 1 are different;

Figure 16 is the enlarged drawing of the detail section of Figure 15;

Figure 17 is perspective and the vertical sectional view of the further embodiment of Fig. 1 heel;

Figure 18 is the perspective view reinforcing pin in Figure 17;

Figure 19 is the enlarged drawing of Figure 17 detail section;

Figure 20 is the perspective view of the further embodiment of Fig. 1 heel;

Figure 21 is the rearview of Figure 20;

Figure 22 is perspective and the vertical sectional view of Figure 20 heel;

Figure 23 is the enlarged drawing of Figure 22 detail section;

Figure 24 is perspective and the vertical sectional view of the variation of Figure 20 heel;

Figure 25 is the perspective view of the further embodiment of Fig. 1 heel;

Figure 26 is the rearview of Figure 25 heel;

Figure 27 is perspective and the vertical sectional view of Figure 25 heel;

Figure 28 is the enlarged drawing of Figure 27 detail section; And

Figure 29 schematically show different, has Ms's high-heeled shoes of the heel obtained according to the present invention.

Detailed description of the invention

In Fig. 11 represents whole Ms's high-heeled shoes with heel 2.Preferably, this heel 2 is highly greater than 5cm.

According to Fig. 2 and Fig. 3, heel 2 includes oval main structure 3, and it extends along vertical axis 4.Be adapted to be shelved on the ground with 5 corresponding main structures 3 of going to the bottom, and the main structure 3 corresponding with 5 contrary upper bases 6 of going to the bottom is suitable for being fitted to sole 7 place of footwear 1.

According to Fig. 2-7, main heel structure 3 comprises two seams 8, and these two seam 8 horizontal directions arrange (that is: vertical with vertical axis 4), and be vertically in staggered distribution (that is: the certain vertical range of mutual spacing).9(is namely in a longitudinal direction for each seam 8: be parallel to direction of travel) in whole main structure 3, extend to opposite side from side, and along horizontal direction 10(namely: perpendicular to direction of travel, and therefore perpendicular to longitudinal direction 9) for what cover, from the inside of main structure 3, and side 11 place corresponding to this main structure 3 terminates.

In addition, this main heel structure 3 comprises two seams 12, and these two seams 12 are for being horizontally disposed with (that is: perpendicular to vertical axis 4), and vertical off setting (that is: apart from one another by certain vertical range).Each seam 12 in a longitudinal direction 9, opposite side is extended to from side in whole main structure 3, and along the horizontal direction 10 perpendicular to longitudinal direction 9 for covering, from the inside of main structure 3, and in the opposition side of side 11, side 13 place corresponding to this main structure 3 terminates.

Preferably, described seam 8 is vertical with described seam 12 to replace, that is: before seam 8 is vertically positioned at seam 12, and/or after being positioned at seam 12.In the embodiment that Fig. 1-7 shows, two seams 8 are set to vertical replacing with two seams 12; According to different embodiments, the quantity of seam 8 and/or seam 12 differently (such as, can only have one to stitch 8 and only have one to stitch 12, one can be had to stitch 8 and two seams 12, also two can be had to stitch 8 and three seams 12, three can also be had to stitch 8 and three seams 12, etc.).

According to a preferred embodiment, along horizontal direction 10, each seam 8 and 12 relate to the main structure 3 more than half.

Seam 8 and seam 12 decrease the vertical stiffness of main structure 3, and therefore provide vertical spring to this main structure 3.Significantly, stitch the quantity of 8 and 12 and the selection of size should compromise between structural strength (can not ether little) and deformability (that is: elasticity).Such as, the thickness of 8 and 12 is stitched between 0.5-4mm.Thanked to the existence of seam 8 and 12, the main structure 3 of heel 2 integrally can be used as Compress Spring, if when making that normal load is more than a limiting value in the process of walking, " coil " of " spring " can reciprocally vertical compression, prevents the destruction of this main structure 3.In order to avoid the lateral deflection of (or at least limiting) heel 2 main structure 3, the pattern of seam 8 and 12 is very important.In general, the total quantity of seam 8 and 12 is preferably impartial (that is: relative to the fore-and-aft plane of main structure 3, that is: being parallel to longitudinal direction 9, symmetrically pattern), because can avoid less desirable bending generation like this.

The main structure 3 of heel 2 can be made up of many materials.Such as, the main structure 3 of heel 2 can be made up of plastic material (ABS of final load glass fibre or thermoplastic technology's base polymer), the generally injection mo(u)lding in last shape of this material, or, the main structure 3 of heel 2 also can be made up of metal material (being generally aluminum in order to light), and it generally carries out solid-state processing by removing material.

Depend on that used material is to obtain the main structure 3 of heel 2, in order to increase the structural strength of main structure 3 lateral load (that is: along horizontal direction 10) further, a kind of reinforcing pin 14(can be set as shown in Figure 8), this reinforcing pin is made up of high abrasion resisting material (such as: stainless steel), and inserting in main structure 3, it also achieves the function supporting heel layer.Preferably, when the main structure 3 of heel 2 is made by low wear resistant plastic material, this reinforcing pin 14 can be used.

According to the embodiment that Fig. 8 shows, heel 2 comprises reinforces pin 14, and this reinforcing pin is cylindrical, coaxially extends with vertical axis 4, and is inserted into the inside of cylindrical seat 15, and this cylindrical seat 15 is arranged on the center of this main structure 3.According to preferred embodiment, this reinforcing pin 14 is integrated with the bottom 16 of the main structure 3 be arranged under seam 8 and 12, that is: for rigidly fixing (such as: by gummed), and can slide relative to the top 17 of the main structure 3 be arranged on seam 8 and 12.

Preferably, at core 18 place (that is: between the bottom 16 and top 17 of main structure 3) of the main structure 3 corresponding to seam 8 and 12, the external diameter that this reinforcing pin 14 has is less than the internal diameter of seat 15, can avoid the wall touching seat 15 like this.Especially, corresponding to the core 18 of main structure 3, this reinforcing pin 14 presents the reduction of external diameter partly.

According to the embodiment that Fig. 9 shows, corresponding to the top 17 of main structure 3, seat 15 is internally equipped with anti-friction sleeve 19, and this anti-friction sleeve 19 is integral with main structure 3 (such as: by glue together) externally, and internally accommodates reinforcing pin 14 with slidably form.Even if when temporary deformity appears in top 17 (this may occur completely under the effect of the mechanical stress of walking generation), the existence of this anti-friction sleeve 19 ensure that reinforces the better slip of pin 14 relative to the top 17 of main structure 3.

According to the embodiment of Figure 10 and 12, in the inside of main structure 3, each seam 8 or 12 terminates with cylindrical surface, and this surface is parallel with longitudinal direction 9; Described cylindrical surface avoids the existence of the inner sharp edges of seam 8 or 12, improves fatigue strength with this.According to the variation of Figure 10, in each seam 8 or 12, the diameter of this cylindrical surface is greater than seam 8 or 12 perpendicular diameter; If this seam 8 or 12 is by instrument from solid processing, this scheme is desirable.According to the variation of Figure 12, in each seam 8 or 12, the diameter of this periphery equals the perpendicular diameter of seam 8 or 12, if seam 8 and 12 is directly obtained by the injection moulding of main structure 3, this scheme then than more preferably, is out of shape because it avoid undercutting.

Embodiment according to Figure 11-13, only be provided with a seam 8 and a seam 12, and provide reinforcing pin 14, this reinforcing pin 14 is connected with anti-friction sleeve 19 slidably, this anti-friction sleeve corresponds to the top 17 of main structure 3, outside integral with this main structure 3.

Embodiment according to Figure 14-16, this main structure 3 comprises through hole 20, and this through hole, in whole main structure 3,10 is stretched over opposite side from side in a longitudinal direction, and be arranged on center (such as, corresponding to the core 18 of main structure 3) corresponding to seam 8 and 12.Preferably, this through hole 20 has the cross section of elongation, and this cross section has the large-size (that is: being parallel to vertical axis 4) of vertically-guided.

Through hole 20 vertically main structure 3 is divided into two be parallel to each other and an aspectant half structure 3a and 3b(or be divided into two column 3a and 3b).According to preferred embodiment, each half structure 3a and 3b comprises at least one seam 8 and at least one seam 12, and in a half structure 3a/3b, seam 12 vertical alignment of this seam 8 and another half structure 3b/3a, and stitch 12 and align with the seam 8 in another half structure 3b/3a.

In the embodiment of Figure 14-16, the seam 8 and 12 of Odd number can be selected, change over a half structure 3a and 3b owing to stitching 8 and 12, provide the symmetry that main structure 3 is as a whole enough relative to fore-and-aft plane (that is: parallel with longitudinal direction 9 face).It should be noted that the transverse pressure tending to the seam 8 and 12 opened in a half structure 3a/3b can close the seam 8 and 12 in another half structure 3b/3a, like this by compression, provide enough mechanical seal; On the contrary, longitudinal pressure (that is: along the longitudinal direction, face 9) is supported by the coil vertical compression of the half structure 3a or 3b that bear compression stress.

The material used in Figure 14-16 is preferably the material of metal species, even if the material of this metal species can obtain enough mechanical strengths when transverse gage reduces in a large number.

According to rational embodiment, at least part of seam 8 and 12(be namely: all seams 8 and 12, or only some stitch 8 and 12) available viscoelastic material (or middle rheological behaviour can be shown, be contained between " pure viscosity material " and " elastomeric material ") produce effectiveness in vibration suppression, be conducive to comfortable walking.

According to another embodiment, each seam 8 or 12 terminates with cylindrical surface, and this cylindrical surface is parallel to longitudinal direction 9, and its diameter is preferably greater than the perpendicular diameter of seam 8 or 12.

In the embodiment of Figure 17-19, seam 8 and 12(provide vertical spring) transferred to by the main structure 3 of heel 2 and reinforce pin 14 place.In this embodiment, this reinforcing pin 14 comprises top 21, and this top 21 is integrated with 17 one-tenth, the top of main structure 3 (such as by pasting or being mechanically connected); Bottom 22, this bottom 22 is integrated with 16 one-tenth, the bottom of main structure 3 (such as by pasting or being mechanically connected); And mid portion 23, bottom 22 and top 21 couple together by this mid portion 23 with having no space, and have vertical spring because of the existence of seam 8 and 12.The mid portion 23 of this reinforcing pin 14 comprises seam 8 and 12, and seam 8 and 12 provides the vertical spring of this mid portion 23, and has above-mentioned architectural feature.

In enforcement, in the embodiment of Figure 17-19, this reinforcing pin 14 comprises top 21, the top 17 of this top 21 and main structure 3 and mechanical connection (especially can become to be integrated); Bottom 22, this bottom 22 is integrated with 16 one-tenth, the bottom of main structure 3, and elastic device, and this elastic device provides vertical spring, and is connected with reinforcing pin 14, is connected on the top 17 of main body 3 by vertical spring with the bottom 16 of main body 3.In this embodiment, the top 17 of main body 3 is integrated with 21 one-tenths, the top reinforcing pin 14, and reinforces pin 14 and comprise mid portion 23, and bottom 22 and top 21 couple together by this mid portion 23 with having no space, and make elastic device integrated therein.Described elastic device is formed by stitching 8 and 12, and described seam 8 and 12 is formed at the mid portion 23 of described fastening element 14.

When use reinforce pin 14 time, this main structure 3 can be made up of traditional plastic material (such as: ABS), and reinforces pin 14 and can be made up of special steel.

In the heel 2 of above-mentioned discussion, in its variant embodiment, effectiveness in vibration suppression is therefore by seam 8 and 12, by structurally unload main structure 3(or, alternatively, reinforce pin 14) realize, this seam 8 and 12 can reduce the extension of vertical stiffness, and reduces the possibility of movement simultaneously.

In the alternate embodiment of Figure 20-24, this reinforcing pin 14 comprises top 21, described top 21 is mechanically connected (especially in a sliding manner) with the top 17 of main structure 3, bottom 22, this bottom 22 is integrated with 16 one-tenth, the bottom of main structure 3, and elastic device, and described elastic device shows vertical spring, and be connected with reinforcing pin 14, with vertical spring, the top 17 of main structure 3 is connected with the bottom 16 of main structure 3.In these embodiments, the top 17 of this main structure 3 can vertical sliding motion relative to the top 21 reinforcing pin 14, and elastic device by least one spring 24(preferably, but also optionally, for disc spring) form, this spring 24 is placed between the adjacent wall 25 on the top 17 reinforcing pin 14 and main structure 3.It should be noted that the quantity by changing the spring 24 used, by the maximum dynamics of equal applying, effectiveness in vibration suppression is changed by the vertical displacement increasing or reduce heel 2.

Preferably, the adjacent wall 25 on the top 17 of main structure 3 is made up of metal assembly sleeve pipe 26, and this metal assembly sleeve pipe 26 is integrated with 17 one-tenth, top, and is and then placed under sole assembly.Generally provide fixed head 27, this fixed head 27 generally reinforcing the top locking of pin 14, against assembly sleeve pipe 26, and preventing locking pin 14 landing and rotating above.Such as, this fixed head 27 is reinforcing the top locking of pin 14 by screw (not shown), and this screw engages with the screwed hole 28 being formed in the top 21 reinforcing pin 14.

According to preferred embodiment, between the adjacent wall 25 of spring 24 on main structure 3 top 17 and the annular shoulder 29 reinforcing pin 14; Described annular shoulder 29 realizes by making reinforcing pin 14 head refinement gradually (attenuating).

According to preferred embodiment, corresponding to the top 17 of main structure 3, seat 15 is internally equipped with at least one anti-friction sleeve 19, and this anti-friction sleeve 19 is externally integral with main structure 3, and internally holds described reinforcing pin 14 in a sliding manner.

In the embodiment shown in Figure 20-24, the bottom 16 of main structure 3 is separated from the top 17 of this main structure 3 by otch 30, this open otch between two parts 16 and 17 without any the condition of contact point under be separated these two parts (this situation is as the situation in Figure 17-19) completely.

In the embodiment shown in Figure 20-23, this reinforcing pin 14 has two diameter Changing Patterns, which ensure that and the necessary structural strength that the last refinement of heel 2 is consistent.

In the variant embodiment of Figure 24, the bottom 16 of this main structure 3 is integrated (forming entirety) with reinforcing pin 14, and that is, the bottom 16 of this main structure 3 constitutes the elongated portion of the bottom 22 of this reinforcing pin 14.On the other hand, the bottom 16 of main structure 3 is incorporated in the bottom 22 of reinforcing pin 14.This distortion can reduce assembly cost, because so just do not need the bottom 16 of main structure 3 to be connected with the bottom 22 reinforcing pin 14, makes the bottom 16 of main structure 3 be integrated with 22 one-tenth, the bottom reinforcing pin 14 simultaneously.The bottom 16 of this reinforcing pin 14(and main structure 3 is integral) to be made up of high-strength structure material (aluminium or steel part) significantly, the remaining part of this main structure 3 then uses the plastic material of unstructuredness (being generally ABS) to make.This feature (integral with the bottom 16 reinforcing pin 14 and main structure 3) represented in fig. 24 is same to be embodied in the embodiment of Figure 17-19.

Embodiment in Figure 25-28 constitutes the change of Fig. 8-9 and 11-13 embodiment, in the embodiment that Figure 25-28 shows, the main structure 3 of heel 2 has seam 8 and 12, when reinforcing pin 14 and being connected with a series of disc spring 24, this disc spring 24 mates with the deformation of reinforcing pin 14 completely, as illustrated in figs. 20-24.Main structure 3 has three seams 8 and 12, their mutual alternating orthogonal (especially two seams 12 and a seam 8 alternating orthogonal between two seams 8); Described seam 8 and 12 has above-mentioned design feature, and therefore their minutia as described above.The reinforcing pin be connected with some row disc springs 24 completely and the reinforcing pin 14 shown in Figure 20-24 roughly the same, therefore, their minutia is as described above.

Above-mentioned heel 2 has lot of advantages.

First, above-mentioned heel 2 has desirable vertical spring, when not producing distortion, person capable of reducing using when wearing footwear 1 for the negative pressure of foot and leg, simultaneously, " nature " (that is: walking does not have disturbed, or the elasticity do not produced because of vertical lap seam 8 and 12 is subject to negative effect) can be kept.This result thanks to seam 8 and 12 that is dissimilar and that mutually replace, and this form provides enough resistances to lateral load.

In addition, above-mentioned heel 2 can be used for the type of any footwear 1, and does not have significant structural complexity, and such as, the heel of Ms's high-heeled shoes of Figure 29 can be the heel 2 of above-mentioned any type, and can be completely different with the footwear 1 shown in Fig. 1.

Finally, the production process that obtain above-mentioned heel 2 is very simple and quick, very economical.Above-mentioned heel 2 is adapted to the external world in particular, and this is just because of the Morphologic Characteristics of its inherence, and without any additional equipment.Reinforcing the use of pin 14 does not make production process complicated especially, because the heel of reinforcing pin very general Mrs's Yu high-heeled shoes.

Advantage of the present invention for high heel clearly, that is: be greater than 5cm when heel 2 has.Therefore, the application is advantageously applied to the heel 2 of Ms's high-heeled shoes 1, and this heel 2 has the height being greater than 5cm.

Claims (38)

1., for the heel (2) of Ms's high-heeled shoes (1), described heel (2) comprising:

There is the main structure (3) of elliptical shape, described main structure (3) corresponding to go to the bottom (5) is suitable for shelving on the ground, and the described main structure (3) corresponding to go to the bottom with described (5) contrary upper base (6) is suitable for being fitted to sole (7) place of footwear (1);

At least one first seam (8), described first seam (8) is horizontally-guided, (9) are stretched over opposite side from side in whole main structure (3) in a longitudinal direction, and along the horizontal direction (10) perpendicular to longitudinal direction (9), there is cecum, thus, described first seam (8) originates in the inside of described main structure (3), terminates corresponding to first side (11) of described main structure (3); And

At least one second seam (12), described second seam is horizontally-guided, (9) are stretched over opposite side from side in whole main structure (3) in a longitudinal direction, and along the horizontal direction (10) perpendicular to longitudinal direction (9), there is cecum, thus, described second seam (12) originates in the inside of described main structure (3), corresponding to described main structure (3), second side (13) contrary with described first side (11) and terminating;

The feature of described heel (2) is:

Each seam (8,12) relates to the over half of described main structure (3) along horizontal direction (10); And

Each described first seam (8) is vertical dislocation relative to described second seam (12).

2. heel according to claim 1 (2), is characterized in that,

Described heel (2) has and has two first seams (8) and/or at least two second seams (12) at least; And

Described first seam (8) stitches (12) with described second be vertical replacing.

3. heel according to claim 1 and 2 (2), is characterized in that, described heel (2) comprises reinforces pin (14), and described reinforcing pin (14) is inserted in seat (15), and described seat (15) is arranged on the center of described main structure (3).

4. heel according to claim 3 (2), it is characterized in that, described reinforcing pin (14) is integrally arranged, namely rigidity fit in described seam (8,12) in the bottom (16) of the described main structure (3) below, and be installed as top (17) slip of the described main structure (3) relative to described seam (8,12) top.

5. heel according to claim 4 (2), it is characterized in that, corresponding to the top (17) of described main structure (3), described seat (15) inside lining is with anti-friction sleeve (19), described anti-friction sleeve (19) is externally integral with described main structure (3), and inside accommodates described reinforcing pin (14) in a sliding manner.

6. the heel (2) according to claim 3,4 or 5, it is characterized in that, at core (18) place of the main structure (3) corresponding to described seam (8,12), the external diameter of described reinforcing pin (14) is less than the internal diameter of described seat (15), to avoid the wall touching seat (15).

7. heel according to claim 6 (2), is characterized in that, described reinforcing pin (14) comprises top (21), and described top (21) are mechanically connected with the top (17) of main structure (3); Bottom (22), described bottom (22) become to be integrated with the bottom (16) of described main structure (3); And elastic device, described elastic device provides vertical spring, and is connected with described reinforcing pin (14), is connected with the bottom (16) of described main structure (3) to utilize the vertical spring top by described main structure (3) (17).

8. heel according to claim 7 (2), is characterized in that,

The top (17) of described main structure (3) is slidably relative to the top (21) of described reinforcing pin (14); And

Described elastic device is made up of at least one spring (24), and described spring is placed between the adjacent wall (25) on the top (17) of described reinforcing pin (14) and described main structure (3).

9. heel according to claim 8 (2), is characterized in that, the adjacent wall (25) on the top (17) of described main structure (3) is formed by with described metal top (17) all-in-one-piece assembly sleeve pipe (26).

10. heel according to claim 9 (2), it is characterized in that, described heel (2) comprises fixed head (27), described fixed head (27) is locked at the top of described reinforcing pin (14), place against described assembly sleeve pipe (26), and prevent described reinforcing pin (14) landing and rotate up.

11. want the heel (2) described in 7,8 or 9 according to right, it is characterized in that, described spring (24) compresses between the adjacent wall (25) and the annular shoulder (29) of described reinforcing pin (14) on the top (17) of described main structure (3).

12. heels (2) according to any one of claim 7-11, it is characterized in that, described spring (24) is disc spring (24).

13. heels (2) according to any one of claim 7-12, it is characterized in that, corresponding to the top (17) of described main structure (3), described seat (15) is internally equipped with at least one anti-friction sleeve (19), this anti-friction sleeve (19) is externally integral with main described body structure (3), and holds described reinforcing pin (14) with the form of sliding inside.

14. heels (2) according to any one of claim 1-13, it is characterized in that, described main structure (3) comprises through hole (20), described through hole (20) in a longitudinal direction (9) extends to opposite side from side in whole main structure (3), and be arranged on center corresponding to described seam (8,12).

15. heels according to claim 9 (2), it is characterized in that, described through hole (20) has oval cross section, described oval cross section has the longer side of vertically-guided.

16. heels (2) according to claims 14 or 15, it is characterized in that, described main structure (3) is vertically divided into two half structure (3a, 3b) by described through hole (20), and described two half structure are parallel to each other, mutually towards;

Each half structure (3a, 3b) comprises at least one first seam (8) and at least one the second seam (12); And

At a half structure (3a, 3b), described first seam (8) stitches (12) vertical alignment with second of another half structure (3b, 3a), described second seam (12) then stitches (8) vertical alignment with first of another half structure (3b, 3a).

17. heels (2) according to any one of claim 1-16, it is characterized in that, in described main structure (3), each described seam (8,12) terminates with periphery, and this periphery is parallel with longitudinal direction (9).

18. heels according to claim 17 (2), is characterized in that, in each described seam (8,12), the diameter of described periphery is greater than the perpendicular diameter of described seam.

19. heels (2) according to any one of claim 1-18, it is characterized in that, at least part of described seam (8,12) is filled with viscoelastic material.

20. for the heel (2) of Ms's high-heeled shoes, and described heel (2) comprising:

There is the main structure (3) of elliptical shape, described main structure (3) corresponding to go to the bottom (5) is suitable for shelving on the ground, and the described main structure (3) corresponding to go to the bottom with described (5) contrary upper base (6) is suitable for being fitted to sole (7) place of footwear (1), described main structure (3) is divided into bottom (16) and top (17), described bottom (16) and top (17) orthogonal slip; And

Reinforce pin (14), described reinforcing pin (14) center of being inserted into is arranged in the seat (15) in described main structure (3);

The feature of described heel (2) is, described reinforcing pin (14) comprises top (21), and described top (21) are mechanically connected with the top (17) of described main structure (3); Bottom (22), described bottom (22) becomes to be integrated with the bottom (16) of described main structure (3), and elastic device, described elastic device has vertical spring, and be connected with described reinforcing pin (14), be connected with the bottom (16) of described main structure (3) with the vertical spring top by described main structure (3) (17).

21. heels according to claim 20 (2), is characterized in that,

The top (17) of described main structure (3) becomes to be integrated with the top (21) of described reinforcing pin (14); And described reinforcing pin (14) comprises mid portion (23), bottom (22) and top (21) couple together by described mid portion (23) with having no space, and become to be integrated with elastic device therein.

22. heels according to claim 21 (2), is characterized in that, the mid portion (23) of described reinforcing pin (14) comprising:

At least one first seam (8), described first seam (8) becomes horizontally-guided, and (9) are stretched over opposite side from side in whole main structure (3) in a longitudinal direction, and transversely direction (10) have cecum, this horizontal direction is perpendicular to longitudinal direction (9), and therefore from the inside of described main structure (3), the first side (11) place corresponding to described main structure (3) terminates; And

At least one second seam (12), described second seam is horizontally-guided, and (9) are stretched over opposite side from side in whole main structure (3) in a longitudinal direction, and along horizontal direction (10), there is cecum, described horizontal direction (10) is vertical with longitudinal direction (9), therefore, this direction, from the inside of main structure (3), is terminated at the second side (13) place contrary with the first side (11) corresponding to described main structure (3).

23. heels according to claim 22 (2), is characterized in that, described each first seam (8) is vertical dislocation setting relative to described second seam (12).

24. heels (2) according to claim 22 or 23, is characterized in that,

Described heel (2) at least has two first seams (8), and at least two second seams (12); And

Described first seam (8) stitches with described second that (12) are vertical to replace.

25. heels (2) according to claim 22,23 or 24, it is characterized in that, each described seam (8,12) relates to the over half of described main structure along horizontal direction (10).

26. heels (2) according to any one of claim 22-25, it is characterized in that, corresponding to described seam (8,12) in the core (18) of described main structure (3), the external diameter of described reinforcing pin (14) is less than the internal diameter of described seat (15), to avoid the wall touching described seat (15).

27. heels (2) according to any one of claim 22-26, it is characterized in that, in the mid portion (23) of described reinforcing pin (14), each described seam (8,12) all with cylindrical surface termination, described cylindrical surface is parallel with longitudinal direction (9).

28. heels according to claim 27 (2), is characterized in that, in each described seam (8,12), the diameter that described cylindrical surface has is greater than the perpendicular diameter of described seam.

29. heels (2) according to any one of claim 22-28, it is characterized in that, at least part of described seam (8,12) is filled with viscoelastic material.

30. heels according to claim 20 (2), is characterized in that,

The top (17) of described main structure (3) is vertically slidably relative to the top (21) of described reinforcing pin (14); And

Described elastic device is made up of at least one spring (24), and described spring is placed between the adjacent wall (25) on the top (17) of described reinforcing pin (14) and described main structure (3).

31. heels according to claim 30 (2), is characterized in that, the adjacent wall (25) on the top (17) of described main structure (3) is formed by with the metal assembly sleeve pipe (26) that top (17) become to be integrated.

32. heels according to claim 31 (2), it is characterized in that, described heel (2) comprises fixed head (27), and described fixed head (27) is locked at the top of described reinforcing pin (14), against assembly sleeve pipe (26), and prevent described reinforcing pin (14) landing or rotate above.

33. heels according to claim 32 (2), it is characterized in that, described fixed head (27) is locked at the top of described reinforcing pin (14) by the mode of screw, and the screwed hole (28) that described screw is formed with through described reinforcing pin (14) top (21) engages.

34. heels (2) according to any one of claim 30-33, it is characterized in that, described spring (24) compresses between the adjacent wall (25) and the annular shoulder (29) of described reinforcing pin (14) on the top (17) of described main structure (3).

35. heels (2) according to any one of claim 30-34, it is characterized in that, described spring (24) is disc spring (24).

36. heels (2) according to any one of claim 30-35, it is characterized in that, corresponding to the top (17) of main structure (3), described seat (15) is internally equipped with at least one anti-friction sleeve (19), described anti-friction sleeve (19) is integrated from outside with described main structure (3), and inside holds described reinforcing pin (14) in a sliding manner.

37. heels (2) according to any one of claim 20-36, it is characterized in that, the bottom (16) of described main structure (3) is separated by the top (17) of otch (30) from described main structure (3), described otch (30) is at two parts (16,17) between by described two parts (16,17) without any being separated completely contiguously.

38. heels (2) according to any one of claim 20-37, it is characterized in that, the bottom (22) of described reinforcing pin (14) and the bottom (16) of described main structure (3) are that single-piece is made, and therefore to reinforce the bottom (22) of pin (14) with the bottom (16) of described main structure (3) be integral type.