CN103783726A - Heel liner and manufacturing method of heel liner - Google Patents

Abstract

The invention discloses a heel liner which is arranged at the position, corresponding to the heel, in a shoe. The heel liner comprises a base body, the base body has two faces, a protruding layer is arranged on one face of the base body and comprises at least one protrusion, when the foot moves, the foot is in contact with the heel liner to apply pressure to the heel liner, and the applied pressure enables the protrusion to generate compression deformation in the normal direction and bending deformation perpendicular to the normal direction. The invention further provides a method for manufacturing the heel liner, and protruding materials with the shore hardness A ranging from 10 degrees to 50 degrees are pressed to one face of the base body with a heating, pressing and injection molding method. According to the heel liner, the protruding layer is arranged on the base body, the height of the protruding layer is reasonably planned, the good buffering effect and the good anti-skidding effect are achieved, and the comfort degree of the heel of the human body is improved. A large number of gaps are reserved in the columnar protruding layer, and therefore the heel liner has various functions of ventilating, massaging the foot and protecting the skin of the foot.

Description

Rear follow-up post and manufacture method thereof

[technical field]

The present invention relates to a kind of after follow-up post, particularly relate to one and there is anti-skidding, buffering, multi-functional rear follow-up post and the manufacture method thereof such as ventilative.

[background technology]

Modern society, people are more and more higher to the pursuit of quality of the life, and the comfort level that is through the shoes on pin has also been had to higher requirement.Because shoes are all large quantities of a large amount of according to same dimensions, identical technique is made, and that people's pin shape varies is different, so the shoes of buying also guarantee to meet proprietary pin type unavoidably.Particularly Ms is in the time wearing high heels, and the heel place of high-heeled shoes often can leave space, causes pin often can depart from high-heeled shoes, and shoes easily drop.Even without dropping, also can cause constantly friction between heel and footwear, this can cause damage to heel, and affects the comfort level of pin.Though the mode such as cloth or toilet paper can play a role on heel place pad, cloth and toilet paper are fixing, and in the process of walking about, friction is easily deviate from repeatedly, and this method only can be used as interim emergent use.

Referring to Fig. 1-Fig. 2, is follow-up post 10 after the disclosed one of prior art.It comprises matrix 101 and boss 103, and matrix 101 is microscler sheet, and two ends are wider, and centre is slightly narrow.Boss 103 is placed in matrix 101 front mid portions, and it is corresponding to the position of human foot heel indent.These rear follow-up post 10 back sides scribble glue layer (not shown), for this rear follow-up post 10 being affixed on to the corresponding calcaneal position of shoes.Owing to being provided with boss 103 in rear follow-up post 10 centre positions, this boss 103 can prevent that pin from deviating from shoes.

But above-mentioned rear follow-up post 10 does not reasonably design the height of boss 103, be all unified height, can not adapt to the pin size shape different from shoes.In addition, in the time that people's pin puts in shoes, easily this rear follow-up post 10 is stepped on rear follow-up post 10 is come off, when carrying on pin, to calcaneal frictional force not enough, while still easily causing walking, pin is deviate from shoes to boss 103.

In view of the above problems, provide a kind of novel heel sturdy for necessary.

[summary of the invention]

Bad for overcoming the shoes gas permeability of prior art, skidproof effect is not good, does not have massage functions, and shoes such as easily deviate from the technical problem, the invention provides a kind of rear follow-up post and manufacture method thereof with functions such as ventilative, massage, buffering, anti-skidding and scratch resistant pin.

The technical scheme that the present invention solves prior art problem is to provide a kind of rear follow-up post, be arranged on corresponding calcaneal position in shoes, it comprises a matrix, matrix is divided into two sides, the wherein one side of matrix arranges convexity layer, convexity layer comprises at least one projection, and when foot moves, foot contacts this rear follow-up post makes this projection produce the compressive deformation of normal orientation and the Bending Deformation perpendicular to normal orientation to its applied pressure.

Preferably, the wherein one side of matrix arranges multiple projections, protruding ring around be distributed in calcaneal around, projection in the time that rear follow-up post comes in contact from foot can because of and foot between distance differently there is different deformation, to make rear follow-up post adapt to better the shape of pin.

Preferably, be provided with gap between projection, this gap is enough to guarantee that projection has the space of enough generation deformation in the time contacting with heel.

Preferably, projection is subject to, after calcaneal active force, deformation occurs, and after calcaneal active force disappears, projection is recovered the shape under reset condition.

Preferably, projection is 1-3mm higher than the height of matrix, or 3-5mm, or 5-10mm.

Preferably, projection is cylindrical bump, and this protruding percentage elongation is 200%-800%.

Preferably, the material of projection is silicon rubber, or PVC, or thermoplastic inks, or EVA, or high recovery sponge, or TPU, or PU, the material of matrix is silicon rubber, or PVC, or thermoplastic inks, or high recovery sponge, or TPU, or PU, or pure cotton cloth, or super fine cloth, or velvet.

Preferably, the cross-sectional area of convexity layer is less than the cross-sectional area of matrix.

Preferably, this heel pastes and further comprises a substrate, and adhesive-layer is set in substrate, matrix wherein in one side, multiple projections are set, on another side, connect substrate.

The present invention also provides a kind of manufacture method of rear follow-up post, the method with heating for raised material that shore hardness A is 10-50 degree, pressure, injection moulding is compressed in the wherein one side of matrix.

Compared with prior art, when rear follow-up post provided by the invention moves in foot by convexity layer is set on matrix, make foot contact this rear follow-up post and make this projection produce the compressive deformation of normal orientation and the Bending Deformation perpendicular to normal orientation to its applied pressure, thereby reaching anti-skidding and comfortable effect.By reasonably planning the height of convexity layer, adapt to the different needs of user, and reached good buffering effect and skidproof effect, improve the comfort level of human foot rear heel, make to use rear follow-up post no longer just necessary, especially a kind of enjoyment.In addition, after making provided by the invention, the ageing-resistant performance of the material silicon rubber brilliance of follow-up post has increased the durability of rear follow-up post.Rear follow-up post often directly contacts with foot skin, and the stability of silicon rubber has also guaranteed that Ta Buhuidui foot skin produces to stimulate, and has increased security.After the making providing, the method for follow-up post is convenient to the production that it is carried out to scale in enormous quantities, improves its commercial value.

[accompanying drawing explanation]

Fig. 1 is the schematic diagram of the rear follow-up post that provides of prior art.

Fig. 2 is the cutaway view of the rear follow-up post that provides of prior art.

Fig. 3 is the schematic diagram of the rear follow-up post that provides of first embodiment of the invention.

Fig. 4 is the cut away view of the rear follow-up post vertical direction that provides of first embodiment of the invention.

Fig. 5 is the schematic diagram of the rear follow-up post that provides of second embodiment of the invention.

Fig. 6 is the cut away view of the vertical direction of the rear follow-up post that provides of second embodiment of the invention.。

Fig. 7 is rear follow-up post that second embodiment of the invention the provides stress schematic diagram while wearing footwear.

Fig. 8 is rear follow-up post that second embodiment of the invention the provides stress schematic diagram while taking off one's shoes.

Fig. 9 is that the rear follow-up post that second embodiment of the invention provides is used state vertical direction cutaway view.

Figure 10 is that the rear follow-up post that second embodiment of the invention provides is used status level direction cutaway view.

Figure 11 is that the heel that second embodiment of the invention provides pastes tangent bending schematic diagram in use.

Figure 12 is that the heel that second embodiment of the invention provides pastes normal direction compression schematic diagram in use.

Figure 13 is the schematic diagram of second embodiment of the invention distressed structure one.

Figure 14 is the schematic diagram of second embodiment of the invention distressed structure two.

Figure 15 is the schematic diagram of the rear follow-up post that provides of third embodiment of the invention.

Figure 16 is the cutaway view of the vertical direction of the rear follow-up post that provides of third embodiment of the invention.

Figure 17 is the schematic diagram of the rear follow-up post that provides of the distressed structure of third embodiment of the invention.

Figure 18 is the cutaway view of the rear follow-up post vertical direction that provides of the distressed structure of third embodiment of the invention.

Figure 19 is the schematic diagram of the rear follow-up post that provides of fourth embodiment of the invention.

Figure 20 is the schematic diagram of fourth embodiment of the invention distressed structure one.

Figure 21 is the schematic diagram of fourth embodiment of the invention distressed structure two.

Figure 22 is the schematic diagram of fourth embodiment of the invention distressed structure three.

Figure 23 is the schematic diagram of fourth embodiment of the invention distressed structure four.

[specific embodiment]

In order to make object of the present invention, technical scheme and advantage are clearer, below in conjunction with drawings and Examples, the present invention are further elaborated.Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.

Refer to Fig. 3 and Fig. 4, follow-up post 20 after the one providing for first embodiment of the invention, it comprises matrix 201 and is arranged on the convexity layer 203 on matrix 201.Matrix 201 is microscler sheet, and two ends are wider, and centre is slightly narrow.Convexity layer 203 is placed in matrix 201 front mid portions, and it is corresponding to the position of human foot heel indent.These rear follow-up post 20 back sides are provided with double faced adhesive tape, for this rear follow-up post 20 being affixed on to the corresponding calcaneal position of shoes.Wherein, convexity layer 203 is 1-3mm higher than the height of matrix 201, or 3-5mm, or 5-10mm.The thickness of matrix 201 is 0.5-10mm.

The material of matrix 201 and convexity layer 203 is all selected silicon rubber, the shore hardness A of silicon rubber is 10-50 degree, preferably 20 degree, percentage elongation is 200%-800%, also can be: matrix 201 and convexity layer 203 adopt PVC (Polyvinyl chloride polymer, polyvinyl chloride), thermoplastic inks, EVA (Ethylene-vinyl acetate copo, ethylene-vinyl acetate copolymer), high recovery sponge, TPU (Thermoplastic polyurethanes, TPUE), PU (Polyurethane, polyurethanes) etc. flexible resilient material.

The material of matrix 201 also can be selected the fine fibered collapsible flexible materials of single or double band such as pure cotton cloth, super fine cloth, velvet, preferably velvet.The back side of matrix 201 is provided with adhesive-layer (not shown), and adhesive-layer is the cohesive materials such as adhesive or double faced adhesive tape.

Refer to Fig. 5-Fig. 6, second embodiment of the invention provides a kind of rear follow-up post 30, comprise matrix 301 and convexity layer 303, convexity layer 303 comprises multiple cylinder projections 3031, cylinder projection 3031 is evenly distributed on matrix 301, and its top is dome structure, and its height higher than matrix 301 is 1-3mm, or 3-5mm, or 5-10mm.The cross-sectional diameter of cylinder projection 3031 is 1-10mm.Between cylinder projection 3031, have gap, the gap between adjacent column body projection 3031 is 1-10mm.The cross-sectional area that we specify convexity layer 303 is the area that the cylinder projection 3031 at convexity layer 303 edges surrounds, and in the present embodiment, this area is 100% of matrix 301 cross-sectional areas.

The material of matrix 301 and cylinder projection 3031 is all selected silicon rubber, the shore hardness A of silicon rubber is 10-50 degree, preferably 20 degree, percentage elongation is 200%-800%, also can be: matrix 301 and cylinder projection 3031 adopt PVC (Polyvinyl chloride polymer, polyvinyl chloride), thermoplastic inks, EVA (Ethylene-vinyl acetate copo, ethylene-vinyl acetate copolymer), high recovery sponge, TPU (Thermoplastic polyurethanes, TPUE), PU (Polyurethane, polyurethanes) etc. flexible resilient material.

The material of matrix 301 also can be selected the fine fibered collapsible flexible materials of single or double band such as pure cotton cloth, super fine cloth, velvet, preferably velvet.The back side of matrix 301 is provided with adhesive-layer (not shown), and adhesive-layer is the cohesive materials such as adhesive or double faced adhesive tape.

Refer to Fig. 7 in the time that people wears shoes, heel contacts with this rear follow-up post 30, stressed downward bending after the cylinder projection 3031 in rear follow-up post 30 contacts with heel, like this, by the buffering of this bending function, this rear follow-up post 30 can avoid pin that this rear follow-up post 30 is stepped on and it is come off.

Refer to Fig. 8, when people takes off one's shoes sub-time, heel contacts with this rear follow-up post 30, stressed upwards bending after cylinder projection 3031 in rear follow-up post 30 contacts with heel, like this, by the buffering of this bending function, can increase the resistance of pin and shoes, avoid pin in walking, to deviate from shoes.

In the process of walking, heel and rear follow-up post 30 are directly had an effect, and cylinder projection 3031 occurs perpendicular to the deformation in sole direction, thereby heel is produced to elastic deformation power.The reaction force of this elastic deformation power directly acts on rear follow-up post 30 and shoes, thereby prevents shoes landing from pin, plays good skidproof effect.Because the material of cylinder projection 3031 is softer, it can produce good buffering effect to foot simultaneously.

Refer to Fig. 9, after use, when follow-up post 30, foot 1 comes in contact with rear follow-up post 30, and deformation ceaselessly occurs the shape that the cylinder projection 3031 on convexity layer 303 adapts to foots 1.Wherein, the part that part cylinder projection 3031 caves at foot 1 is outstanding, fills up the part of depression, and foot 1 can be subject to stopping of this part cylinder projection 3031 in the process of upwards lifting, and produces pressure, thereby stops foot 1 to deviate from shoes.Under our regulation cylinder projection 3031 natures, be normal orientation perpendicular to the direction of matrix 301, while taking off one's shoes, the direction of relative movement of heel and heel of a shoe is tangential direction.Foot 1 comes in contact with rear follow-up post 30, and top bump 30311, to tangential direction motion, produces Bending Deformation; In normal orientation, there is compressive deformation in middle part protruding block 30312.Can both there is the deformation of tangential direction in part cylinder projection 3031, the compression in normal orientation occurs again as upper lobes 30313.The part of making a concerted effort of the elastic force that these deformation produce is used for the pressure of balancing leg, and another part provides frictional force to come off for preventing shoes.Between cylinder projection 3031, leave enough spaces, so that the space of tangential deformation to be provided.

Refer to Figure 10, except tangential direction, in the direction around around heel, in other directions perpendicular to normal orientation, cylinder projection 3031 also can bend deformation and compressive deformation, thus the shape that adapts to foot 1 forms the parcel to foot 1 around heel.Because convexity layer 303 is made up of multiple cylinder projections 3031, can there is different compressive deformations and Bending Deformation in the different corresponding orientation of foot 1 in cylinder projection 3031, the space of 3031 settings of cylinder projection can guarantee to provide enough spaces for the deformation of cylinder projection 3031, it can be more comprehensive to the parcel of foot 1, increases anti-skidding and comfortable effect.Around also leaving enough spaces between calcaneal same row's cylinder projection 3031, so that the space perpendicular to the deformation in other directions of direction direction to be provided.

Refer to Figure 11, in the time that cylinder projection 3031 bends deformation, cylinder projection 3031 can produce " restoring force " that recover original state.Our angle of specified cylinder projection 3031 bendings is Bending Deformation angle, i.e. α in figure.In the process of walking, although the Bending Deformation angle of cylinder projection 3031 constantly changes with stressed difference, but the part that can provide with joint efforts in its tangential direction prevents the power that footwear drop, produce dynamic equilibrium, maintain the relative position between heel and rear follow-up post 30.In addition, its Bending Deformation constantly changing cushion effect of foot that also can provide support.

Refer to Figure 12, in the time of compressive deformation that cylinder projection 3031 occurs in normal orientation, the pressure that cylinder projection 3031 is subject to foot produces the cushion effect of supporting foot, produces the frictional force in tangential direction simultaneously.At this moment, our displacement of specified cylinder projection top 30310 normal orientation is the normal deformation amount of cylinder projection 3031, i.e. b in figure.

Complete the deformation of cylinder projection 3031, or producing enough large bounce (being also frictional force) needs cylinder projection 3031 to have certain elasticity, meanwhile, when the cylinder projection 3031 that silastic material is made does not contact with this projection in foot, also want the reset condition that can reply, guarantee can reach smoothly the effect of " fitting well " at every turn in the time wearing footwear like this.And in hardness best preferably silicon rubber, shore hardness A is 10-50 degree, is preferably 20 degree.

Certainly, because silastic material is relatively soft, and be cylindrical, in the time being subject to foot's externally applied forces, its deformation direction can be multiple, and its deformation quantity can be also multiple, and cylinder projection 3031 is subject to normal deformation amount after foot pressure and is preferably the 10%-60% of cylinder projection 3031 original height, Bending Deformation angle is 0-90 °, in the time of normal use, is 10 °-70 °.

Refer to Figure 13, second embodiment of the invention distressed structure one provides a kind of rear follow-up post 40, and its structure is substantially identical with the second embodiment, and it comprises matrix 401, is arranged on the convexity layer 403 at matrix 401 tops.Difference is, convexity layer 403 comprises multiple prism projections 4031.The structure of matrix 401 and material are consistent with the matrix 301 in the second embodiment.Deformation quantity, gap and the material of prism projection 4031 is consistent with the cylinder projection 3031 in the second embodiment.

Refer to Figure 14, follow-up post 50 after the one providing for second embodiment of the invention distressed structure two, its structure is substantially identical with the second embodiment, comprises matrix 501 and is arranged on the convexity layer 503 on matrix 501, and convexity layer 503 comprises multiple protruding 5031.Deformation quantity, gap and the material of projection 5031 is consistent with the projection 3031 of the cylinder in the second embodiment.The structure of matrix 501 and material are consistent with the matrix 301 in the second embodiment.Difference is, the column structure that projection 5031 is five-pointed star for cross section.

Refer to Figure 15-Figure 16, third embodiment of the invention provides a kind of rear follow-up post 60, its structure is substantially identical with the rear follow-up post 30 of second embodiment of the invention, this rear follow-up post 60 also comprises matrix 601, convexity layer 603, convexity layer 603 comprises multiple cylinder projections 6031, and deformation quantity, gap and the material of cylinder projection 6031 is consistent with the cylinder projection 3031 in the second embodiment.The structure of matrix 601 and material are consistent with the matrix 301 in the second embodiment.Difference is that cylinder projection 6031 is only positioned at the top of matrix 601, middle part or bottom, and other positions of matrix 601 do not have cylinder projection 6031.The cross-sectional area of convexity layer 603 is the 10%-80% of matrix 601 cross-sectional areas.The height of matrix 601 is expanded further to the area that is conducive to increase the adhesive-layer (not shown) that is arranged on the matrix back side, after further increasing, the follow-up post 60 firm degree bonding with shoes, increases the service life.

Refer to Figure 17-Figure 18, the distressed structure of third embodiment of the invention provides a kind of rear follow-up post 600, its structure is substantially identical with the rear follow-up post 60 of third embodiment of the invention, difference is, matrix 6001 is connected with substrate 6005, substrate 6005 covers on matrix 6001 completely, and shape is identical with matrix 6001.The wherein one side of matrix 6001 is one-body molded with multiple cylinder projections 60031, connects substrate 6005 on another side.The material of substrate 6005 can be the fine fibered collapsible flexible materials of single or double band such as pure cotton cloth, super fine cloth, velvet, preferably velvet, on it, be provided with adhesive-layer (not shown), the structure of matrix 6001 and material are consistent with the matrix 301 in the second embodiment.Deformation quantity, gap and the material of cylinder projection 60031 is consistent with the cylinder projection 3031 in the second embodiment.The structure of this substrate 6005 is applicable to other embodiment of the present invention and distortion thereof.

Refer to Figure 19, the fourth embodiment of the present invention provides a kind of rear follow-up post 70, rear follow-up post 70 comprises a convexity layer 703 and matrix 701, convexity layer 703 comprises multiple horizontal strip projected parts 7031, and wherein horizontal strip projected parts 7031 is consistent with the cylinder projection 6031 in the 3rd embodiment higher than height and the material of matrix 701.The structure of matrix 701 and material are consistent with the matrix 601 in the 3rd embodiment.

Refer to Figure 20, fourth embodiment of the present invention distressed structure one provides a kind of rear follow-up post 80, rear follow-up post 80 comprises a convexity layer 803 and matrix 801, convexity layer 803 comprises multiple arc convex 8031, and wherein arc convex 8031 is consistent with the cylinder projection 6031 in the 3rd embodiment higher than height and the material of matrix 801.The structure of matrix 801 and material are consistent with the matrix 601 in the 3rd embodiment.

Refer to Figure 21, fourth embodiment of the present invention distressed structure two provides a kind of rear follow-up post 90, rear follow-up post 90 comprises a convexity layer 903 and matrix 901, convexity layer 903 comprises multiple wave projections 9031, the cross section of wave projection 9031 is flexure plane, and wherein wave projection 9031 is consistent with the cylinder projection 6031 in the 3rd embodiment higher than height and the material of matrix 901.The structure of matrix 901 and material are consistent with the matrix 601 in the 3rd embodiment.

Refer to Figure 22, fourth embodiment of the present invention distressed structure three provides a kind of rear follow-up post 100, rear follow-up post 100 comprises a convexity layer 1003 and matrix 1001, convexity layer 1003 comprises multiple short strip shape projections 10031, and wherein short strip shape projection 10031 is consistent with the cylinder projection 6031 in the 3rd embodiment higher than height and the material of matrix 1001.The structure of matrix 1001 and material are consistent with the matrix 601 in the 3rd embodiment.

Refer to Figure 23, fourth embodiment of the present invention distressed structure four provides a kind of rear follow-up post 200, rear follow-up post 200 comprises a convexity layer 2003 and matrix 2001, convexity layer 2003 comprises multiple protruding 20031, the shape of projection 20031 has the various shapes such as wave, horizontal stripe, arc, letter, cylinder, five-pointed star, prism, and its protrusions 20031 is consistent with the cylinder projection 6031 in the 3rd embodiment higher than height and the material of matrix 2001.The structure of matrix 2001 and material are consistent with the matrix 601 in the 3rd embodiment.

Rear follow- up post 30,40,50,60,600,70,80,90,100,200 provided by the invention can also have various deformation structure, such as convexity layer 303,403,503,603,6003,703,803,903,1003,2003 can also be to be divided into several regions or difformity and height, the projection of different size or different arranging rule is to contact with people's heel better.

Manufacture rear follow-up post provided by the invention at 20,30,40,50,60,600,70,80,90,100,200 o'clock, can adopt following methods:

Method one: the material of making convexity layer 203,303,403,503,603,6003,703,803,903,1003,2003 is passed through to machinery, mould, be compressed on matrix 201,301,401,501,601,6001,701,801,901,1001,2001 by the method for heating, pressure, injection moulding, then by adhesive-layer gum on matrix 201,301,401,501,601,6001,701,801,901,1001,2001.

Method two: the material of making convexity layer 203,303,403,503,603,6003,703,803,903,1003,2003 is passed through to machinery, mould, by the method for heating, pressure, injection moulding, make rear follow- up post 20,30,40,50,60,600,70,80,90,100,200.Again by adhesive-layer gum on matrix 201,301,401,501,601,6001,701,801,901,1001,2001.

Method three: the material of making convexity layer 203,303,403,503,603,6003,703,803,903,1003,2003 is passed through to machinery, mould, by the method for heating, pressure, injection moulding, make rear follow- up post 20,30,40,50,60,600,70,80,90,100,200, rear follow- up post 20,30,40,50,60,600,70,80,90,100,200 carries viscose glue power.

In use, because shoes are all large quantities of a large amount of according to same dimensions, identical technique is made, and that people's pin shape varies is different, so the shoes of buying also guarantee to meet proprietary pin type unavoidably.In the time that pin type is less than shoes itself big or small, the shoes of putting on just easily fall.Now, the shoes that stick rear follow-up post 20,30,40,50,60,600,70,80,90,100,200 can adapt to the size of people's pin preferably.Coordinate pin type to be less than the degree of shoes, it is 1-3mm higher than the height of matrix 201,301,401,501,601,6001,701,801,901,1001,2001 that convexity layer 203,303,403,503,603,6003,703,803,903,1003,2003 is provided, tri-kinds of specifications of 3-5mm and 5-10mm, so that user selects to be applicable to the rear follow-up post 20,30,40,50,60,600,70,80,90,100,200 of oneself according to the size of the pin type of oneself and shoes.Also can realize same effect by the thickness that changes matrix 201,301,401,501,601,6001,701,801,901,1001,2001, its thickness can be selected 0.5-10mm simultaneously.And, when convexity layer 203, 303, 403, 503, 603, 6003, 703, 803, 903, 1003, 2003 higher than matrix 201, 301, 401, 501, 601, 6001, 701, 801, 901, 1001, when 2001 height is 1-3mm, particularly when 2.5mm, rear follow-up post 20, 30, 40, 50, 60, 600, 70, 80, 90, 100, 200 skidproof effect is comparatively outstanding, now convexity layer 203, 303, 403, 503, 603, 6003, 703, 803, 903, 1003, 2003 only can produce less deformation and displacement in the time that generation contacts and has an effect with heel, can catch firmly heel.When convexity layer 203, 303, 403, 503, 603, 6003, 703, 803, 903, 1003, 2003 higher than matrix 201, 301, 401, 501, 601, 6001, 701, 801, 901, 1001, when 2001 height is 5-10mm, particularly when 5.5mm, rear follow-up post 20, 30, 40, 50, 60, 600, 70, 80, 90, 100, 200 buffering effect is comparatively outstanding, now convexity layer 203, 303, 403, 503, 603, 6003, 703, 803, 903, 1003, 2003 can produce larger deformation and displacement in the time having an effect with heel, make heel parts have soft sensation, contribute to improve comfort level and protection heel.When convexity layer 203, 303, 403, 503, 603, 6003, 703, 803, 903, 1003, 2003 higher than matrix 201, 301, 401, 501, 601, 6001, 701, 801, 901, 1001, when 2001 height is 3-5mm, particularly when 3.5mm, rear follow-up post 20, 30, 40, 50, 60, 600, 70, 80, 90, 100, 200 have good skidproof effect and good buffering effect concurrently, now convexity layer 203, 303, 403, 503, 603, 6003, 703, 803, 903, 1003, 2003 can produce comparatively moderate deformation and displacement in the time having an effect with heel, both can catch firmly heel, can improve again comfort level and protection heel.

Compared with prior art, rear follow-up post 30 provided by the invention, 40, 50, 60, 600, 70, 80, 90, 100, 200 pass through at matrix 301, 401, 501, 601, 6001, 701, 801, 901, 1001, convexity layer 303 is set on 2001, 403, 503, 603, 6003, 703, 803, 903, 1003, 2003, in the time that foot moves, make foot contact this rear follow-up post 30, 40, 50, 60, 600, 70, 80, 90, 100, 200 and make this projection produce the compressive deformation of normal orientation and the Bending Deformation perpendicular to normal orientation to its applied pressure, thereby reach anti-skidding and comfortable effect.Convexity layer 303,403,503,603,6003,703,803,903,1003,2003 around be distributed in calcaneal around, convexity layer 303,403,503,603,6003,703,803,903,1003,2003 in the time that rear follow-up post 30,40,50,60,600,70,80,90,100,200 comes in contact from foot can because of and foot between distance differently there is different deformation, thereby make fit the better shape of pin of rear follow-up post, increase comfort level.Gap between projection is enough to guarantee that projection has the space of enough generation deformation in the time contacting with heel.Projection is subject to, after calcaneal active force, deformation occurs, and after calcaneal active force disappears, projection is recovered the shape under reset condition, can make heel be attached to and while use, have same anti-skidding and comfortable effect next time.In addition, after making provided by the invention, the ageing-resistant performance of the material silicon rubber brilliance of follow-up post has increased the durability of rear follow-up post 20,30,40,50,60,600,70,80,90,100,200.Rear follow-up post 20,30,40,50,60,600,70,80,90,100,200 often directly contacts with foot skin, and the stability of silicon rubber has also guaranteed that Ta Buhuidui foot skin produces to stimulate, and has increased security.On the basis that guarantees convexity layer 303,403,503,603,6003,703,803,903,1003,2003 structures, suitably expand the area of matrix 301,401,501,601,6001,701,801,901,1001,2001, expand the area of adhesive-layer simultaneously, be conducive to rear follow-up post 20,30,40,50,60,600,70,80,90,100,200 and shoes bonding more firmly.At the back side of rear follow-up post 600, substrate 6005 is set, can be conducive to, in substrate 6005, adhesive-layer is set, increase the adhesive attraction of adhesive-layer and rear follow-up post 600.After the making providing, the method for follow-up post 20,30,40,50,60,600,70,80,90,100,200 is convenient to the production that it is carried out to scale in enormous quantities, improves its commercial value.

Using rear follow-up post provided by the invention 20,30,40,50,60,600,70,80,90,100,200 o'clock, rear follow- up post 20,30,40,50,60,600,70,80,90,100,200 is put into footwear, stick on the position corresponding with heel.After firm pasting, can use.Simple to operation, save the overall time of wearing footwear.

Using rear follow-up post provided by the invention 20,30,40,50,60,600,70,80,90,100,200 o'clock, the frictionally damage of the heel parts that can effectively alleviate wears high heels for a long time brings, effectively alleviates the muscle discomfort of heel parts.Because it is soft and anti-skidding characteristic, be more suitable for the crowd that often need to wear high heels.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any modifications of doing within principle of the present invention, are equal to and replace and within improvement etc. all should be included in protection scope of the present invention.

Claims (10)

1. follow-up post after a kind, be arranged on corresponding calcaneal position in shoes, it comprises a matrix, matrix is divided into two sides, the wherein one side of matrix arranges convexity layer, convexity layer comprises at least one projection, it is characterized in that: when foot moves, foot contacts this rear follow-up post makes this projection produce the compressive deformation of normal orientation and the Bending Deformation perpendicular to normal orientation to its applied pressure.

2. rear follow-up post as claimed in claim 1, it is characterized in that: the wherein one side of matrix arranges multiple projections, protruding ring around be distributed in calcaneal around, projection in the time that rear follow-up post comes in contact from foot can because of and foot between distance differently there is different deformation, to make rear follow-up post adapt to better the shape of pin.

3. rear follow-up post as claimed in claim 2, is characterized in that: between projection, be provided with gap, this gap is enough to guarantee that projection has the space of enough generation deformation in the time contacting with heel.

4. rear follow-up post as claimed in claim 1, is characterized in that: projection is subject to, after calcaneal active force, deformation occurs, and after calcaneal active force disappears, projection is recovered the shape under reset condition.

5. the rear follow-up post as described in claim 1-4 any one, is characterized in that: projection is 1-3mm higher than the height of matrix, or 3-5mm, or 5-10mm.

6. the rear follow-up post as described in claim 1-4 any one, is characterized in that: projection is cylindrical bump, and this protruding percentage elongation is 200%-800%.

7. the rear follow-up post as described in claim 1-4 any one, is characterized in that: the material of projection is silicon rubber, or PVC, or thermoplastic inks, or EVA, or high recovery sponge, or TPU, or PU, the material of matrix is silicon rubber, or PVC, or thermoplastic inks, or high recovery sponge, or TPU, or PU, or pure cotton cloth, or super fine cloth, or velvet.

8. the rear follow-up post as described in claim 1-4 any one, is characterized in that: the cross-sectional area of convexity layer is less than the cross-sectional area of matrix.

9. the rear follow-up post as described in claim 1-4 any one, is characterized in that: this heel pastes and further comprises a substrate, and adhesive-layer is set in substrate, matrix wherein in one side, multiple projections are set, on another side, connect substrate.

10. make the method for rear follow-up post as claimed in claim 1, it is characterized in that: by the method with heating raised material for that shore hardness A is 10-50 degree, pressure, injection moulding be compressed on matrix wherein simultaneously on.

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