KR100975053B1 - High heel with shock absorber and high adjuster - Google Patents

Abstract

PURPOSE: A shock-absorbing high-heeled shoes for height control is provided, which enables a user to comfortably walk and can maintain buffering effect. CONSTITUTION: A shock-absorbing high-heeled shoes for height control comprises: a heel(10) which is attached to the rear bottom surface of the high-heeled shoes and in which first and second holes are formed; a piston rod(20) which is inserted into the second hole and includes flange in the top; a shock-absorbing block equipped with an elastic body of the elastic material and a compressed spring; a supporting plate(30) equipped with an insertion bar to be projected upward; and a height control member.

Description

HIGH HEEL WITH SHOCK ABSORBER AND HIGH ADJUSTER}

The present invention, the height of the rear axle can be easily adjusted, and the shock applied when stepping on the foot can be comfortably walked in two stages, and the durability of the configuration mounted for cushioning is excellent, so that the cushioning effect can be long-term use. The present invention relates to a cushioning high heel for height adjustment that can last.

In general, the heel of the high heels is made of a solid material, most of the impact from the ground when walking to pass the foot to the foot and impact on the ankles or knees, giving fatigue and strain on the joints.

In consideration of this point, although the elastic material such as rubber is made small and flat on the bottom of the support plate which is in contact with the ground, sufficient cushioning effect could not be expected, and the elastic material was easily worn and had to be replaced frequently.

As a prior art for solving this problem, Korean Utility Model Publication No. 20-0393493 and Korean Patent Publication No. 10-2009-0096053 have a shock absorbing spring built in the rear axle to absorb the shock applied to the rear axle.

However, since the prior art is configured to absorb a shock by adding a spring, or a check valve and a micro configuration to the spring, the impact received at the moment of landing is increased by a spring that is manufactured according to the impact received at the moment of completion of landing. There was a problem.

That is, in general, the spring is mounted to operate in a linear section, which is a section maintaining the restoring force, in which the deformation amount (displacement) is linearly proportional to the impact amount by making the intrinsic elastic modulus a proportional constant, and the elastic modulus is It is an inherent value that depends on the material and shape of the spring, and it is manufactured considering the maximum amount of impact applied during actual use. Therefore, the initial amount of impact, that is, the amount of impact received at the time of slightly compressing at the beginning, is felt to some extent so that the impact is only generated by the spring. If configured to absorb, the initial impact amount is larger than the desired value. As a result, the spring is impacted by the foot.

In addition, the number of people walking to reach tens of thousands of times a day, so that the long-term use, the restoring force is weakened by the elastic fatigue of the spring, it is desirable to be able to maintain the elastic restoring force to compensate for this, the prior art It did not have a configuration for.

In addition, walking in high heels may cause an unexpectedly strong impact, which may cause the spring to approach the yield point.When the yield point is reached, the spring does not play its role and must be replaced so that the yield point cannot be reached. However, the prior art did not have a configuration for this.

In addition, the prior art has a piston that reciprocates for cushioning, and is not configured to prevent any subsequent breakage that may occur as the piston reciprocates.

On the other hand, wearing high heels is the main reason to make the height look, but if the hind axle is not good for the leg health, sometimes sometimes want to lower the hind axle, it is preferable to be configured to be able to adjust the height of the hind axle.

As the prior art for this purpose, there was a Patent Publication No. 10-2010-0003767 and Utility Model Publication No. 20-1994-0001516, but the prior art is not combined with the configuration for controlling the height and the configuration of the buffer function In addition, it was integrated with the support plate which touched the ground, and had to be replaced together when replacing the support plate.

KR, 20-0393493, Y1, 2005.08.22. KR, 10-2009-0096053, A, 2009.09.10. KR, 10-2010-0003767, A, 2010.01.12. KR, 20-1994-0001516, Y1, March 18, 1994.

Accordingly, an object of the present invention is to provide a high-impact cushioning high heel that absorbs an impact with a spring but absorbs an initial impact with an elastic force less than that of the spring, thereby cushioning it in two stages.

Another object of the present invention is to provide a cushioning high heel for height adjustment that compensates for the elastic fatigue of the spring and prevents reaching the yield point.

Still another object of the present invention is to provide a height-adjusting cushioning high heel that can easily adjust the height of a configuration for piston motion for cushioning and to prevent breakage of the heel according to the piston motion.

In order to achieve the above object, the present invention, in the high heels, is attached to the bottom of the rear side of the high heels, the first and second holes (11, 12) of the two-stage diameter to be formed so as to penetrate up and down, but the upper first hole ( A heel 10 having a step 14 so that 11 is larger than a lower second hole 12, and a cover 13 provided to cover the upper opening of the first hole 11; A piston rod interpolated into the second hole 12 and provided with a flange 21 on the upper end 14 and having a fixing groove 23 into which the insertion rod 31 can be inserted. 20); It is interpolated in the first hole 11, the spring mounting portion 63 is formed in the shape of the reverse cone and the elastic body 60 of the elastic material formed in the upper and lower flanges 61 and 62, respectively, and formed in the shape of the reverse cone A buffer block (50) consisting of a compression spring (70) which is extrapolated to be in close contact with the spring seat (63); A support plate 30 having an insertion rod 31 inserted into the fixing groove 23 to protrude upward; And a through hole 41 penetrating up and down, and when adjusting the insertion rod 31 and the fixing groove 23, the height adjustment to adjust the depth to be extrapolated to the insertion rod 31 Member 40; characterized in that it is configured to include.

The elastic body 60 is provided with an upper flange portion 61 on the upper end side and extrapolated compression spring 70 to the spring mounting portion 63 of the reverse cone shape having a cylindrical projection 64 on the lower side, The projection 64 is characterized in that formed by fitting the lower flange portion 62 of the ring shape.

The protrusions 64 of the elastic body 60 are formed to protrude toward the lower side of the lower flange portion 62, and the grooves 22 are formed on the upper surface of the flange 21 formed on the piston rod 20. By doing so, the protruding lower side of the projection 64 is characterized in that it is fitted to the groove (22).

The lower side of the second hole 12 is broadly formed, and the seal ring 16 and the tubular reinforcement 15 are sequentially inserted in the downward direction, so that the piston rod 20 is the seal ring 16 and the reinforcement material. (15) characterized in that the penetrating.

The fixing groove 23 of the piston rod 20, the through hole 41 of the height adjusting member 40 and the insertion rod 31 of the support plate 30 are formed to have a hexagonal cross section, and the height adjusting member 40 The radial groove 42 is formed on the upper surface of the through hole 41 and the radial protrusion 43 having the same shape as that of the radial groove 42 is formed on the bottom surface of the through hole 41, but the radial protrusion 43 is formed on the radial groove ( 42 and a lower surface of the piston rod 20 to form a projection 24 fitted into the radial groove 42 around the fixing groove 23, and to the support plate. The upper surface of the 30 is characterized in that to form a groove 32 for engaging the radial projection 43 to the center of the insertion rod 31.

1 is a perspective view of a height adjustable buffer high heels according to an embodiment of the present invention.
FIG. 2 is a back sectional view configured to adjust height and absorb shock in an embodiment of the present invention. FIG.
Figure 3 is an exploded perspective view of the heel in an embodiment of the present invention.
4 is a view showing another form of the height adjustment member in an embodiment of the present invention.
5 is an exploded perspective view of the python rod 20, the height adjustment member 40 and the support plate 30 according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or known configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a perspective view of a height adjustment buffer high heels according to an embodiment of the present invention.

Referring to FIG. 1, the high heels according to the present invention constitute a rear shaft such that the reinforcement 15 and the height adjusting member 40 are exposed between the heel 10 and the support plate 30 in an external shape, and the support plate 30 is elastically supported into the rear class 10 when pressed against the ground, and is mounted to be able to enter, so as to absorb the impact applied to the ground at the moment, and the support plate 30 is the rear class 10 It is configured to be separated from) so that the height can be adjusted by replacing the height adjustment member 40 with the desired height.

Hereinafter, embodiments of the present invention for impact relief and height adjustment will be described in detail with reference to FIGS. 2 and 3.

Figure 2 is a cross-sectional view of the rear axle configured to adjust the height and absorb shock in the height-adjusting cushioning high heels according to an embodiment of the present invention.

Figure 3 is a separate perspective view of the rear axle in the height adjustment buffer high heels according to an embodiment of the present invention when showing the heel 10, the piston rod 20 and the height adjustment member 40 is shown to be configured inside Shown in perspective view.

2 and 3, the rear axle of the height adjustment buffer high heels according to an embodiment of the present invention is a buffer block 50 accommodated in the heel 10, the heel 10, the lower portion of the heel 10 Interposed between the piston rod 20 and the support plate 30 fixed to the lower end of the piston rod 20, the piston rod 20 and the support plate 30 to adjust the height of the rear axle, which can be inserted and reciprocated up and down The height adjustment member 40, which is configured to include.

The heel 10 is attached to the bottom surface of the rear side of the high heels, and the first and second holes 11 and 12 having two-stage diameters are formed to penetrate up and down.

Here, the first hole 11 formed in the upper portion has a larger size than that of the second hole 12 formed in the lower portion, whereby the first hole 11 and the second hole 12 communicate with each other. In order to have a step 14, in the embodiment of the present invention the step 14 is inclined. In addition, the first hole 11 is formed in the shape of an inverted cone close to the shape of the elastic block 50, which will be described later to accommodate the elastic block 50, and the piston rod 20 to the second hole ( 12 and the cover 13 is provided to block the upper opening of the first hole 11 after the elastic block 50 is accommodated in the first hole 11.

In addition, the lower side 12a of the second hole 12 is formed wider than the upper side, and the sealing ring 16 and the reinforcing material 15 are sequentially sequentially from the lower side to closely contact the inner surface of the lower side 12a. Direction. Here, when the inner circumferential side of the seal ring 16 is a flat cross section, the piston rod 20 penetrates smoothly and moves up and down smoothly while being the same as the upper end surface of the second hole 12, and at the same time, foreign matter and rain water bleed. Do not lift. In addition, the reinforcing material 15 is formed in a tubular shape to penetrate the piston rod 20, when viewed in a planar cross-section, the inner circumferential side is the same as the outer circumferential side of the piston rod 20. The reinforcing material 15 configured as described above prevents abrasion of the inner surface of the second hole 12 when the piston rod 20 moves up and down while being fitted into the second hole 12 and guided.

Meanwhile, in the embodiment of the present invention, in order to prevent the lower end of the heel 10 from being damaged by the impact, a flange 15a is formed at the lower end of the stiffener 15 so that the flange 15a is the heel 10. The lower edge of, i.e., to surround the lower edge of the opening of the second hole 12.

The piston rod 20 is inserted into the second hole 12 and supported by the shock absorbing block 50 to be described later. The piston rod 20 is moved upward by a shock applied from below and moves downward again when the shock is released. .

In addition, the piston rod 20 is formed in the upper flange 21 to be caught on the inner step 14 of the heel 10 to prevent falling out in the lower direction, fixing grooves that can be screwed Pie 23 in the upper direction to form in the bottom can be fitted to the insertion rod 31 of the support plate 30 to be described later.

In addition, the groove 22 is formed on the upper surface of the piston rod 20 can be fitted to the projection 64 of the elastic body 60 to be described later.

The support plate 30 is a part directly in contact with the ground, and provided with an insertion rod 31 which is fitted into the fixing groove 23 to protrude upward, is fixed to the piston rod 20, the high heels to walk When the shock that comes in contact with the ground at the time is transmitted to the piston rod (20). In addition, since the support plate 30 is fixed to the piston rod 20 by fitting couplings 31 and 23, it can be replaced with a new one when worn.

The height adjustment member 40 is configured to be extrapolated to the insertion rod 31, has a column shape having a bottom surface of the piston rod 20 in the cross-sectional shape to have a shape that continues to the piston rod 20. A through hole 41 penetrates up and down to penetrate the insertion rod 31 through the through hole 41. Therefore, the height adjustment member 40, the insertion rod 31 before fitting the insertion rod 31 and the fixing groove 23 when fixing the support plate 30 to the piston rod 20. Extrapolation to) allows adjustment of the depth of the fitting, ie, the depth at which the insertion rod 31 enters the female yarn 23. In other words, by using the height adjustment member 40 of the appropriate height it is possible to adjust the height of the rear axis of the high heels.

In the embodiment shown in Figures 2 and 3, but shown as a structure for screwing the insertion rod 31 and the fixing groove 23, the present invention is not limited thereto, the embodiment of Figure 5 to be described later It may be configured to fit closely as in.

The buffer block 50 is interpolated to be accommodated in the first hole 11 and is configured to fit the elastic body 60 into the compression spring 70 formed in the shape of an inverted cone.

The compression spring 70 is formed by winding the metallic material in a spiral shape while moving downwards, and is made of a reverse cone shape as a whole by gradually decreasing the winding diameter toward the lower portion. When the compression spring 70 is compressed up and down and contracted, the shrinkage deformation amount is larger than that of the cylindrical spring, and thus the height of the heel 10 may be reduced by increasing the amount of shrinkage deformation while minimizing the space to be occupied.

The elastic body 60 has a spring seating portion 63 formed in the shape of an inverted circumference as a body, and has flanges 61 and 62 formed up and down, respectively, and the spring seating portion 63 has the compression spring. 70 is extrapolated to be in close contact. The elastic body 60 may be made of rubber or a material formed by foaming.

In the embodiment of the present invention, in order to easily fit the compression spring 70 to the spring seating portion 63 of the elastic body 60, as shown in FIG.

That is, the elastic body 60, the spring seating portion 63 is formed in the shape of an inverted cone, the shorter diameter is reduced toward the bottom, and the upper flange portion protruding laterally along the upper edge of the spring seating portion (63) 61, a projection 64 projecting downward at the lower end of the spring seat 63, and a lower flange portion 62 in the form of a ring fitted to the projection 64. Accordingly, the spring fitting portion 63 and the upper flange portion 61 are integrally formed, and then the compression spring 70 is tightly fitted to the spring fitting portion 63 and the lower flange portion 62 is turned to the projection 64. By inserting, the buffer block 50 composed of the compression spring 70 and the elastic body 60 can be completed.

In addition, the protrusion 64 of the elastic body 60 is formed so that the lower portion protrudes in the lower direction of the lower flange portion 62 even when the lower flange portion 62 is fitted, the groove of the piston rod 20 (22).

Then, the height adjustment member 40 and the support plate 30 is inserted into the second hole 12 of the heel 10 in the form of fitting the piston rod 20 fixedly coupled from the top to the bottom, and then The buffer block 50 is accommodated in the first hole 11 of the heel 10 and a cover 13 closes the upper opening of the first hole 11. Then, by fixing the upper surface of the rear class 10 blocked by the cover 13 to the rear bottom of the high heels, it is possible to complete the height adjustment buffer high heels according to an embodiment of the present invention.

<Buffering>

In the embodiment of the present invention configured as described above, it will be described how the buffer is formed as follows.

When wearing a high heel foot according to the present invention, the piston rod 20 is raised by applying an impact through the support plate 30, and the piston rod 20 is supported by the buffer block 50 so that the piston rod ( As the 20 rises, the buffer block 50 is compressed upward.

At this time, since the elastic body 60 is formed by successively connecting the upper flange portion 61, the spring seating portion 63 and the lower flange portion 62, the elastic body 60 is compressed and thinned by the impact applied to the lower portion. . In particular, the spring seating portion 63 is fitted in close contact with the compression spring 70, so that the amount of compression deformation is greater than the amount of compression deformation of the upper flange portion 61 and the lower flange portion 62 by the holding force of the extrusion spring 70. Becomes small. Therefore, when an impact is applied, initially, the upper flange portion 61 and the lower flange portion 62 of the elastic body 60 are mainly compressed.

Next, the upper and lower ends of the compression spring 70 are compressed while digging into the upper flange portion 61 and the lower flange portion 62, respectively, and at the same time, the spring seating portion 63 is also compressed, so that the compression spring 70 and the spring seating are compressed. The strong elastic force by the part 63 is received.

That is, although initially subjected to a weak elastic force by the upper flange portion 61 and the lower flange portion 62, when the amount of compression deformation increases, the compression deformation amount of the upper flange portion 61 and the lower flange portion 62 reaches a limit value close to the limit. In the state is subjected to a strong elastic force by the compression spring 70 and the spring seating portion (63).

The present invention exhibits two-stage elastic force, so that the amount of compressive deformation in the state of sitting on a chair is softly touched by the weak elastic force of the upper flange portion 61 and the lower flange portion 62, thereby improving the landing feeling of the foot.

In addition, the present invention can support the dyed foot smoothly when landing, and the strong elastic force according to the transferred weight when moving the weight on the dyed foot, and the impact at the time of landing more than the compression spring alone It alleviates and cushions the foot, making the foot feel better.

In addition, when the pressing force by the piston rod 20 is released as the foot is lifted, it is initially pushed as if it bounces with strong elastic force by the compression spring 70 and the spring seating portion 63, and then the upper flange portion. It is gently pushed by the weak elastic force by the 61 and the lower flange portion 62, so that the last moment of lifting the foot, it is smoothly connected without feeling hard.

On the other hand, when the compression force is released, the spring seating portion 63 also acts to push the compression spring 70 while returning to the original state, the present invention also extends the life of the compression spring 70 to replace the compression spring 70 Can be used for a long time without.

Specifically, the compression spring 70 has a displacement (deformation amount) proportional to the compressive force, and when expressed as a correlation graph between the compressive force and the displacement, the compression spring 70 has a linearity. It is restored to its original state. However, even if the pressing force in the linear section is repeatedly applied, the restoring force is weakened by the elastic fatigue, at this time does not completely return to the original state. As a result, fatigue life due to elastic fatigue is reached, and the function as an elastic means is weakened and cannot be used.

On the other hand, since the present invention returns while supporting the compression spring 70 by the spring seat 63 of the elastic body 60, it is possible to maintain the return holding ability to maintain the original state for a longer period.

In addition, since the spring seating portion 63 is compressed and compressed inside the compression spring 70 and is no longer compressed below the compressed limit volume, the compression spring 70 compressed with the spring seating portion 63 is It is not compressed below the displacement corresponding to the limit volume of the spring seat (63). Therefore, the compression spring 70 is supported by the spring seat 63 and does not reach the yield point even when a strong shock corresponding to the limiting strain force is applied, thereby preventing the function of the compression spring 70 from being lost by the yield point. . This is because when the yield point reaches the compression spring 70, the restoring force can no longer be exerted.

In addition, the present invention inserts the projection 64 of the elastic body 60 into the groove 22 of the piston rod 20, thereby preventing the buffer block 50 from tilting when repeating contraction and relaxation, and tilted The damage of the compression spring 70 can be prevented.

In addition, the present invention can adjust the height of the rear axle to a desired height by replacing the height adjustment member 40 interposed between the piston rod 20 and the support plate 30, for example, if you want to increase the rear axle height If you want to replace the height adjustment member with a large height and lower the rear axle is to replace the height adjustment member of the lower height.

On the other hand, Figure 4 shows an embodiment of the height adjustment member in the embodiment of the present invention.

That is, even if an impact is applied, the height adjusting member 40 can be used as a height adjusting member so as not to enter the second hole 12, and as can be seen in the embodiment shown in FIG. If the flat cross section of the 40 is made larger than the flat cross section of the second hole 12, the height adjusting member 40 is not caught by the reinforcing material 15 even when an impact is applied. Accordingly, the present invention, by making a variety of height adjustment member 40 can be adjusted in height, even if a shock is applied to only absorb a little shock and can make the key look instead.

5 is a view showing another embodiment according to the present invention, the fixing groove 23 of the piston rod 20, the through-hole 41 of the height adjusting member 40 and the insertion rod 31 of the support plate 30. ) To form a hexagonal cross section so that the support plate 30 and the height adjusting member 40 do not rotate even when an impact is applied.

In addition, the piston rod 20, the height adjusting member 40 and the support plate 30 is fitted by the unevenness to compensate for the impact applied to the insertion rod (31). Specifically, in the height adjusting member 40, the radial groove 42 is formed on the upper surface of the through hole 41, and the radial projection 43 is formed on the bottom surface of the through hole 41. The projections 43 are formed in the same shape as the radial grooves 42 so as to be positioned directly below the radial grooves 42. In addition, a bottom surface of the piston rod 20 is formed with a projection 24 fitted into the radial groove 42 around the fixing groove 23, and the radial projection 43 on the upper surface of the support plate 30. ) To form a groove 32 to engage with the insertion rod (31) as a center. In addition, a plurality of radial grooves 42 and radial projections 43 are provided around the through hole 41, and a plurality of protrusions 24 and grooves 32 are also formed at a position corresponding thereto.

Therefore, when the piston rod 20, the height adjustment member 40 and the support plate 30 is combined, external impact is supported by the fixing groove 23, the through hole 41 and the insertion rod 31 of the intersect end surface ( Even if 30 is applied to the height adjustment member 40 and the support plate 30 is maintained in the engaged state without rotating the insertion rod 31 to the axis.

In addition, the radial grooves 42 and the radial protrusions 43 are engaged with the protrusions 24 and the grooves 32 so that the force exerted in the lateral direction is not applied only to the insertion rod 31, but the engaged portions 24, 42, 43, 32), so it is more firmly combined. Furthermore, since a plurality of radial grooves 42 and radial projections 43 are provided around the through-hole 41, a force dispersion effect can be maintained even when an impact is applied in any direction, and the shape is radial. Therefore, since the force in the lateral direction is effectively distributed, the insertion rod 31 may be configured to have a strength that can be fixed in the vertical direction, so that the size of the insertion rod 31 may be reduced. This increases the size of the support plate 30 when the insertion rod 31 is enlarged, thereby eliminating the limitation that the beauty of high heels could not be improved.

In addition, even when the height adjusting member 40 is not mounted, the protrusions 24 of the piston rod 20 are inserted into the grooves 32 of the support plate 30 to fix the support plate 30 to the piston rod 20. As a result, the height adjustment range of the rear axle can be widened.

Although illustrated and described in the specific embodiments to illustrate the technical spirit of the present invention, the present invention is not limited to the same configuration and operation as the specific embodiment as described above, within the limits that various modifications do not depart from the scope of the invention It can be carried out in. Therefore, such modifications should also be regarded as belonging to the scope of the present invention, and the scope of the present invention should be determined by the claims below.

10: heel 11: first hole 12: second hole
13 cover 14 step 15 reinforcement
16: sealing
20: piston rod 21: flange 22: groove
23: fixing groove
30: support plate 31: insertion rod
40: height adjustment member 41: through hole 42: radial groove
43: radial projection
50: buffer block 60: elastomer 61: upper flange
62: lower flange 63: spring seat 64: projection
70: compression spring

Claims (5)

delete delete In high heels,
It is attached to the bottom of the rear side of the high heels, so that the first and second holes 11 and 12 having two-stage diameters are penetrated up and down, and the upper first hole 11 is larger than the lower second hole 12. A heel 10 having a step 14 and provided with a cover 13 to cover the upper opening of the first hole 11;
A piston rod interpolated into the second hole 12 and provided with a flange 21 on the upper end 14 and having a fixing groove 23 into which the insertion rod 31 can be inserted. 20);
It is interpolated in the first hole 11, the spring mounting portion 63 is formed in the shape of the reverse cone and the elastic body 60 of the elastic material formed in the upper and lower flanges 61 and 62, respectively, and formed in the shape of the reverse cone A buffer block 50 composed of a compression spring 70 which is extrapolated to be in close contact with the spring seat 63;
A support plate 30 having an insertion rod 31 inserted into the fixing groove 23 to protrude upward; And
It is provided with a through hole 41 penetrates up and down, and the height adjustment member for adjusting the depth to be extrapolated to the insertion rod 31 when the insertion rod 31 and the fixing groove 23 is fitted 40;
Consists of including

The buffer block 50 is provided with an upper flange portion 61 on the upper side and the compression spring 70 is extrapolated to the spring mounting portion 63 of the reverse cone shape having a cylindrical projection 64 on the lower side and Is formed by inserting the lower flange portion 62 in the form of a ring to the protrusion 64,

The protrusions 64 of the elastic body 60 are formed to protrude toward the lower side of the lower flange portion 62, and the grooves 22 are formed on the upper surface of the flange 21 formed on the piston rod 20. By doing so, the protruding lower side of the projection 64 is fitted to the groove 22, the height adjustment buffer high heels.
The method of claim 3, wherein
The lower side of the second hole 12 is made wider,
Insert the seal ring 16 and the tubular reinforcement 15 in the downward direction sequentially,
Height-adjusting cushioning high heel, characterized in that the piston rod 20 to penetrate the sealing ring (16) and the reinforcement (15).
The method of claim 4, wherein
The fixing groove 23 of the piston rod 20, the through hole 41 of the height adjusting member 40 and the insertion rod 31 of the support plate 30 are formed to have a hexagonal cross section,
In the height adjusting member 40, a radial groove 42 is formed on the upper surface of the through hole 41, and a radial protrusion 43 having the same shape as that of the radial groove 42 is formed on the bottom surface thereof. 43 is formed so as to be located directly below the radial groove 42, and the projection 24 fitted to the radial groove 42 to be engaged with the bottom surface of the piston rod 20 is fixed to the groove 23. The height adjustment buffer high heel, characterized in that to form a center, and to form a groove (32) for engaging the radial projections 43 on the upper surface of the support plate (30) around the insertion rod (31).

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