KR102233548B1 - Noise-proof shoelace - Google Patents

Abstract

The present invention provides a noise canceling shoe heel which includes a shock absorbing part on a bottom surface of a heel member, wherein the shock absorbing part comprises a body part that is a hard material having a shape consistent with the bottom surface of the heel member and has a certain thickness, and a concave groove part formed on the bottom surface of the body part, and as one end of the shock absorber, which is a soft material, has a structure fixed by an instant adhesive while being accommodated in the concave groove part, so that when walking, the shock transmitted to the user′s feet is mitigated by the shock absorber to reduce noise, feeling when wearing shoes is excellent, and thus it is possible to prevent the shoe heel from sliding on the ground due to the hard material body part, thereby being able to prevent deterioration in durability due to the abrasion of the shoe heel.

Description

Noise-proof shoelace

The present invention relates to a shoe heel capable of preventing noise, and more particularly, by forming a shock absorbing part including a hard material and a soft material on a heel member, which is a shoe heel, while absorbing the impact, the shoe heel is prevented from slipping. It relates to a shoe heel that can prevent wear.

In addition, the present invention relates to a shoe heel that has the above characteristics but can be applied to high heels.

Shoes are equipped with heels to support the heels, and the heels are usually attached and fixed to the lower part of the sole, and these heels are used to comfortably support pedestrians, and are placed on the inner floor of the shoe to give a cushion or acupressure effect when walking in shoes. You are using an insole. Since the existing heel of shoes directly touches the floor and supports weight, relatively hard rubber material is used to solve the problem of wear out easily.When walking in shoes, you cannot expect a cushioning feeling from the heels of the shoes, so you can walk for a long time. In the case, fatigue is accumulated. In other words, the heel of the existing shoe only supports the weight and does not provide a cushioning feeling.

In order to solve this problem, according to Korean Patent Publication No. 10-2004-0078609, as shown in FIG. 1, a rectangular-shaped accommodation chamber 115 ′ in the heel part 113 ′ of the floor window 110 ′. ) Concave and inserting the elastic pad body 120' into the receiving chamber 115', so that most of the shock generated when the heel of the shoe is in contact with the ground is absorbed by the heel of the shoe. The way and its shoes are provided. According to the prior art, the elastic pad body 120 ′ inserted into the receiving chamber 115 ′ has an upper plate 121 ′, a lower plate 123 ′, and a coil having a size suitable for insertion into the receiving chamber 115 ′. It consists of a spring 125'. The upper plate 121 ′ and the lower plate 123 ′ of the elastic pad body 120 ′ are made of different materials from the bottom window 110 ′, and serve as a support for the coil spring, and the pressure applied intensively through the coil spring Urethane material is used in order to withstand sufficiently. Fixing jaws 121a' and 123a' are formed on the upper and lower plates 121' and 123' at predetermined positions to fix the coil spring 125'. The fixed jaws 121a' and 123a' are formed to wrap around the outer diameter of the coil spring. In addition, the coil spring 125 ′ installed between the upper and lower plates 121 ′ and 123 ′ is formed to have a length inserted into the accommodation chamber 115 ′. Since the coil spring 125 ′ has different impacts generated according to the wearer's weight, the coil spring 125 ′ may be formed by varying the thickness of the wire rod and the outer diameter of the coil spring while the inner diameter and the height are the same for this purpose. . According to the described structure, not only should a coil spring suitable for the wearer's weight be selected and manufactured, but the structure is complicated, making it difficult to manufacture, and manufacturing time and cost increase. Furthermore, the heel of the shoe is made of hard material, so when walking, the heel of the shoe easily slides and wears off the floor, which causes the durability of the shoe to deteriorate.

According to the present invention, as the frictional force is increased by the shock absorber protruding from the bottom of the heel of the shoe, it is possible to increase durability by preventing abrasion caused by slipping of the rigid body portion on the floor, as well as to increase durability. It is to provide a shoe heel that can prevent safety accidents, and furthermore, the shock absorber absorbs the impact that occurs when the shoe's heel touches the ground, so that a cushioning feeling can be formed, providing a shoe heel that has a good fit and reduces shoe noise. It is to do.

In addition, the present invention is to provide a shoe heel capable of having the above characteristics even in a shoe heel for a high heel in which the pressure applied per unit area is very large.

In order to achieve the above object, the present invention is a noise-preventing shoe heel comprising a heel member mounted on a heel of a shoe, a shock absorber coupled to a lower portion of the heel member, and a coupling means for coupling the heel member and the shock absorber, The shock absorber has a shape consistent with the bottom of the heel member and has a body having a certain thickness, a concave groove made of one or more grooves concave to have a predetermined area on the bottom of the body, and an impact absorbing material accommodated in the concave groove And, an instant adhesive that is applied to the bottom surface of the concave groove to fix the coupling state of the shock absorber and the concave groove.

The body part is made of a hard material with excellent durability, and the shock absorbing material is made of a soft material. When the shoe is in contact with the ground, the shock absorber is squeezed in the concave groove of the body part by the load and absorbs the shock generated by contact with the ground. When the shoe is in contact with the ground, the shock absorber is squeezed by the elastic force. The shape is restored. The body part is made of durable hard urethane or synthetic resin material. The impact absorbing material is a soft synthetic rubber with a hardness of 50 to 65. The impact absorbing material has a structure in which one end is received in the concave groove and the other end is exposed to protrude from the bottom of the body. The concave groove portion is formed to be spaced 1mm to 3mm from the edge of the bottom surface of the body, and comprises at least one concave groove having a depth of 2mm to 4mm. The coupling means includes one or more first coupling grooves formed on the bottom surface of the heel member, and one or more first coupling protrusions formed on the upper surface of the body portion so that the first coupling groove is received, and the first coupling groove is at the center of the bottom surface of the heel member. It is a concave circular or polygonal groove, and the first coupling protrusion protrudes vertically from the upper surface of the body to have a shape complementary to the shape of the first coupling groove, and the first coupling groove and the first coupling protrusion are provided in the same number. . It is formed on the inner bottom surface of the first coupling groove, is formed at the tip of the first coupling protrusion and the second coupling groove smaller than the inner diameter of the first coupling groove, and has a shape complementary to the second coupling groove so as to be accommodated in the second coupling groove. It further includes a second coupling protrusion having. Further comprising an adhesive for fixing the bonding state of the first coupling groove and the first coupling protrusion, the adhesive is applied to at least one of the bottom surface of the first coupling groove or the front end of the first coupling protrusion. The coupling means is an adhesive that is applied to one or more of the bottom surface of the heel member and the upper surface of the body part to adhere and bond the heel member and the shock absorber, and the body part is applied concave along the edge of the body part to be spaced apart from the upper surface edge of the body part. Includes wealth.

According to the present invention, the noise-preventing shoes for bent high heels, wherein the body portion is injection-molded by inserting a metallic plug for coupling with the heel member, and the bottom surface of the body portion is flat, but at least two fixing protrusions Is protruded downward from the bottom surface, and the impact absorbing material has a flat surface as an upper surface adhered to the bottom surface of the body portion, and may have a perforated hole at a position corresponding to the fixing protrusion.

The impact absorbing material may be a molded plate material cut to correspond to the bottom surface of the body portion, the perforated hole is formed at the same time when the flat material is cut, the fixing protrusion is formed at the edge of the body portion, and the perforated hole is It may be open to the side.

The height of the fixing protrusion is 40% to 80% of the thickness of the impact absorbing material, a plug groove is formed in the bent member to fit the metallic plug, and the outer surface of the metallic plug and the plug groove have a longitudinal direction. Accordingly, a plurality of straight guide grooves for preventing rotation may be formed.

The body portion is composed of hard urethane, and the impact absorbing material may be composed of a soft synthetic rubber having a hardness of 70 to 90.

According to the present invention, a heel member mounted on the heel of a shoe; A method of manufacturing a noise-preventing shoe heel for high heels comprising a shock absorber coupled to a lower portion of the heel member, wherein the shock absorber has a shape matching the bottom surface of the heel member and has a body portion having a predetermined thickness, and the It includes an impact absorbing material coupled to the body portion, the body portion is injection-molded by inserting a metallic plug for coupling with the bent member, and the bottom surface of the body portion has a flat surface, and the impact absorbing material is adhered to the bottom surface of the body portion. A first step of intimately disposing a cover sheet on an impact absorbing material model having a flat surface as the upper surface of the impact absorbing material and having the same or similar upper surface shape as the upper surface of the impact absorbing material; A second step of applying an instantaneous adhesive on the cover sheet; A third step of closely contacting the upper surface of the shock absorber to the upper surface of the shock absorber model so that the applied instantaneous adhesive is transferred to the upper surface of the shock absorber; And a fourth step of bonding the shock absorber and the body portion using the delivered instantaneous adhesive.

Since the cover sheet is vinyl, the instantaneous adhesive may not be bonded to the cover sheet, and the shock absorbing material may be manufactured by forming a flat material by molding and then cutting it to correspond to the bottom surface of the body part.

Features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

According to the present invention, by combining a shock absorber composed of a soft material shock absorbing material and a hard material body part on the bottom of a heel member of various shapes, the shape of the shoe heel is formed smoothly without stepped part due to the combination with the shock absorbing part, and the appearance is improved. There is an effect of being beautiful, and furthermore, the shock absorbing material, which is a soft material, can mitigate the impact that is applied to the shoe when it comes into contact with the ground due to walking, so it has an excellent feeling of wearing even when walking for a long time and can prevent noise, as well as walking. There is an effect of preventing the phenomenon that the rigid body part slips on the floor.

In addition, according to the present invention, when applying the noise-preventing shoe heels to high heels, there is an advantage of enabling production at low cost while maintaining a solid bond during use. In particular, even if the shock absorber is expanded to the left and right due to excessive pressure per unit area, it can expand to the open edge other than the fixing protrusion, so there is no burst phenomenon, and at the same time, the necessary position between the bonded body part and the shock absorber can be fixed and the bond can be maintained. There is this.

In addition, according to the method for manufacturing a noise-preventing shoe heel of the present invention, it is possible to apply an instant adhesive to a low-precision operation or process, while preventing the instantaneous adhesive from sticking out to the interface between the body part and the shock absorber. There is an advantage that can be made as an adhesive surface of an instantaneous adhesive as a whole with respect to the contact surface of.

1 is a perspective view showing the shape of the shoe heel of the prior invention.
2 is an exploded perspective view showing the shape of a noise-preventing shoe heel according to the first embodiment of the present invention.
3 is a side view showing a coupling state between the heel member and the shock absorber of the heel of the noise-preventing shoe according to the first embodiment of the present invention.
4 is a bottom view showing the shape of the shock absorber of the heel of the noise-preventing shoe according to the first embodiment of the present invention.
5 is a cross-sectional view showing the shape of the shock absorber of the heel of the noise-preventing shoe according to the first embodiment of the present invention.
6 is a view showing a state of use of a noise-preventing shoe heel according to the first embodiment of the present invention.
7 is a view showing that applied to the high heel heel to prevent noise according to the second embodiment of the present invention.
FIG. 8 is a view showing a shock absorber of a heel for preventing noise according to a second embodiment of the present invention. FIG. 8(a) is a side view and FIG. 8(b) is a bottom view.
9 is a view showing the shock absorber of the heel of the noise-preventing shoe according to the second embodiment of the present invention, Figure 9 (a) is an exploded perspective view and Figure 9 (b) is a cross-sectional view.
10 and 11 are views showing a process of manufacturing a noise-preventing shoe heel according to a second embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of users or operators. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

In addition, the following examples are not intended to limit the scope of the present invention, but are merely exemplary matters of the elements presented in the claims of the present invention, and are included in the technical idea throughout the specification of the present invention and the constitution of the claims. Embodiments including elements that can be substituted as equivalents in elements may be included in the scope of the present invention.

2 is an exploded perspective view showing the shape of a noise-preventing shoe heel according to the first embodiment of the present invention.

Referring to Figure 2, the heel member 100 mounted on the heel of the bent shoe for noise prevention shoes of the present invention, and the impact generated upon contact with the ground by being combined with the heel member 100 at the bottom of the heel member 100 And a coupling means for coupling the shock absorber 200 and the heel member 100 and the shock absorber 200 to relieve the shock absorber 200, and the shock absorber 200 has a shape matching the bottom surface of the heel member 100 A concave groove portion 220 comprising a body portion 210 having a predetermined thickness while having a predetermined thickness, and one or more grooves formed to be concave so that one or more concave grooves 221 at the bottom of the body portion 210 have a predetermined region, It includes a shock absorber 230 accommodated in the concave groove portion 220 and coupled to the body portion, and an instant adhesive applied to the bottom surface of the concave groove portion to fix the coupling state of the impact absorbing material and the concave groove portion. The body part 210 is made of a hard urethane or synthetic resin material having excellent durability, and the impact absorbing material 230 is a soft synthetic rubber having a hardness of 50 to 65. In general, a shoe heel bonded to a shoe heel should have a hardness of 55 to 65 in an environmental condition where the temperature is 21°C to 25°C and the humidity is 45% to 55%, and the tensile strength is good. It is recommended that it is 120kg/㎠ or more, and it is recommended that the elongation ratio is 500% or more. In addition, it is suitable that the specific gravity is 1.05 to 1.11. The shock absorber of the present invention has a hardness of 63, a tensile strength of 140kg/cm2, an elongation ratio of 550%, and a specific gravity under the same temperature and humidity environmental conditions. ) Is 1.10, which is consistent with the reliability test results described above. Further, as the shock absorber 230 has a structure protruding from the bottom of the body 210, the shock absorber 230 first contacts the ground when walking to absorb the shock, and the body 210 comes into contact with the ground. . When the shoe is in contact with the ground, the shock absorber is squeezed in the concave groove of the body part by the load, and the cushioning feeling is expected by absorbing the shock applied from the heel of the shoe. . According to the described structure, it is possible to solve the problem that the rigid body part 210 slips from the floor and wears out when walking, and the shock absorber is accommodated in the concave groove part 220 of the body part 210 to transform the shape. Can be prevented. Furthermore, the present invention can prevent slippage of a shoe heel without further combining a separate anti-slip means capable of preventing slipping of the shoe heel, so that the shape of the heel can be smooth and provide aesthetics.

3 is a side view showing a coupling state between the heel member 100 and the shock absorber 200 of the noise-preventing shoe heel of the present invention.

3 (a) is a combined state of the heel member 100 and the shock absorber 200 using a coupling means according to a correct embodiment of the present invention.

Referring to Figure 3 (a), the coupling means comprises one or more first coupling grooves 110 formed on the bottom surface of the heel member 100 and one or more first coupling protrusions 211 formed on the upper surface of the body portion 210. It includes, and may further include an adhesive 10 for fixing the bonding state of the first coupling groove 110 and the first coupling protrusion 211. According to the embodiment, the adhesive 10 is applied to one or more of the bottom surface of the first coupling groove 110 or the front end portion of the first coupling protrusion 211. According to the described structure, the first coupling protrusion 211 and the first coupling groove 110 are fitted using an adhesive 10 in a state in which the first coupling protrusion 211 is fitted in the first coupling groove 110. Since the state can be fixed, the heel member 100 and the shock absorber 200 can be easily and reliably coupled. The first coupling groove 110 and the first coupling protrusion 211 are provided in the same number, and when the heel member 100 and the shock absorber 200 are provided to face each other, the first coupling groove 110 and the The first coupling protrusions 211 are formed to be aligned with each other. The first coupling groove 110 is a circular or polygonal groove formed concave in the center of the bottom of the heel member 100, and the first coupling protrusion 211 has a shape complementary to the shape of the first coupling groove 110. It protrudes vertically. Further, a second coupling groove 120 smaller than the inner diameter of the first coupling groove 110 is formed on the inner bottom of the first coupling groove 110, and a second coupling groove 120 is formed at the front end of the first coupling protrusion 211. A second coupling protrusion 212 having a complementary shape to be accommodated in) may be formed. When the second coupling groove 120 is formed, the adhesive 10 may be applied to the bottom of the second coupling groove 120 or the front end of the second coupling protrusion 212.

According to another embodiment of the present invention, a plurality of straight guide grooves 211a formed along the length direction of the first coupling protrusion 211 may be formed on the outer surface of the first coupling protrusion 211 at regular intervals. When the first coupling protrusion 211 on which the guide groove 211a is formed is received in the first coupling groove 110, the adhesive applied to the bottom of the first coupling groove 110 or the front end of the first coupling protrusion 211 ( As 10) is guided by the guide groove 211a, it is possible to securely fix the first coupling protrusion 211 and the first coupling groove 110. FIG. 3(b) is another embodiment of the present invention. It is a combined state of the heel member 100 and the shock absorber 200 using the coupling means according to.

Referring to Figure 3 (b) to describe another embodiment of the present invention, the coupling means is an adhesive 10 for adhesively bonding the heel member 100 and the shock absorber 200. According to the described structure, an adhesive 10 is applied to at least one of the bottom surface of the heel member 100 and the upper surface of the body portion 210, and the bottom surface of the heel member 100 and the top surface of the body portion 210 contact each other. In such a state, the adhesive 10 is dried and cured for a predetermined time or longer to adhesively bond the bending member 100 and the shock absorber 200. Further, it is preferable that the upper surface of the body portion 210 is provided with an application portion 213 concave along the edge so as to be spaced apart from the edge of the body portion at a predetermined interval. The application part 213 has a predetermined area on the upper surface of the body part 210. According to the described structure, when the bottom surface of the heel member 100 and the upper surface of the body portion 210 on which the application portion 213 is formed are in contact with each other, the adhesive 10 is uniformly accommodated in the application portion 213. Since it is cured, it is possible to prevent the adhesive 10 from being separated from and flowing down between the heel member 100 and the shock absorber 200, and a sufficient amount of the adhesive 10 is applied to the heel member 100 with a certain thickness. ) And the shock absorber 200 may be firmly coupled. The adhesive 10 is preferably a shoe-only adhesive 10, an instant adhesive, but is not limited thereto, and the heel member 100 and the body 210, which are widely known to those who practice the present invention, can be bonded to each other. Various adhesives 10 may be used.

4 is a bottom view showing the shape of the shock absorber 200 of the heel of the noise-preventing shoe according to the first embodiment of the present invention.

4, the concave groove 220 is formed to be spaced 1mm to 3mm from the bottom edge of the body portion 210, preferably formed to be spaced 1mm apart from the bottom edge of the body portion 210. Each concave groove 221 is formed such that a part of the shock absorber 230 is accommodated. According to an embodiment, one or more concave grooves 220 may be arranged so that the concave grooves have a predetermined interval, and the shape of the concave grooves may be formed in a straight line or in a circular or polygonal shape (not shown).

5 is a cross-sectional view showing the shape of the shock absorber 200 of the heel of the noise-preventing shoe according to the first embodiment of the present invention.

Referring to FIG. 5, the depth of each concave groove 221 constituting the concave groove portion 220 is 2mm to 4mm, and preferably, the depth of the concave groove 221 is 3mm. The shock absorber 230 accommodated in the concave groove 221 is formed to protrude from the bottom surface of the body part 210, and an instant adhesive at one end of the shock absorber 230 accommodated in the concave groove 221 or the bottom surface of the concave groove 221 By applying 300, the concave groove 221 and the shock absorber 230 are firmly fixed. According to the described structure, the soft shock absorbing material 230 has superior friction with the floor surface than the hard body part 210 so that it can prevent slipping of the shoe on the floor surface and allow the wearer to walk safely. I can. Furthermore, the shock absorber can reduce the noise generated from the heel of the shoe by mitigating the impact that occurs on the shoe's heel the moment it touches the ground, and it can reduce the fatigue applied to the wearer's foot, so it has an excellent fit.

6 is a view showing a state of use of a noise-preventing shoe heel according to the first embodiment of the present invention.

Referring to FIG. 6, when a user wearing shoes generally walks, whenever the user's shoes contact the ground, an impact force caused by the user's load is transmitted to the shoes and noise is generated. The impact force is typically concentrated on the heel member 100 of the shoe. In the present invention, the impact force intensively applied to the heel member 100 is alleviated by the impact absorbing material 230 of the impact absorbing unit 200, and noise due to the impact force can be reduced. If the state of the shock absorber when the shoes come into contact with the ground by walking will be described in detail, the shock absorber 230 protruding from the bottom of the body 210 as shown in region C of FIG. 6 is a region B of FIG. 6 As shown in Figure 6, after absorbing some of the impact force applied to the heel member 100 in the process of being compressed by the load, it is compressed as shown in the area A of FIG. 6 and received all in the concave groove 221, and the impact As the absorbent portion is compressed, the bottom surface of the body portion 210 touches the ground. The body part 210 may disperse the load applied to the shock absorber 230 to the body part 210 so that the shock absorber 230 is not easily worn. When the state in which the shoes are in contact with the ground falls due to walking, the above-described state proceeds in reverse, and the shock absorber 230 compressed by the load is restored to a structure protruding from the bottom of the body 21 by the elastic force. do. According to the described structure, a shock absorber with excellent friction against the ground is provided in the concave groove of the body with good strength, and by preventing slipping, it is possible to prevent abrasion of shoe heels due to slipping, and the shape of the soft shock absorber is modified. The durability is good as it can be minimized.

7 to 9 show noise-preventing shoe heels according to the second embodiment of the present invention, and FIG. 7 shows that the noise-preventing shoe heels according to the second embodiment of the present invention are applied to high heels, and FIG. 8 Fig. 8(a) is a side view, Fig. 8(b) is a bottom view, and Fig. 9 is a second embodiment of the present invention, showing a shock absorber of a noise-preventing shoe heel according to a second embodiment of the present invention. Figure 9 (a) is an exploded perspective view and Figure 9 (b) is a cross-sectional view showing the shock absorber of the heel of the noise prevention shoe according to.

Hereinafter, the description may be omitted for the same or similar parts as the noise-preventing shoe heel according to the first embodiment of the present invention.

The heel member 600 is attached to the heel of a high heel by adhesive or the like, and the shock absorber 700 is coupled to the lower portion of the heel member 600 and has a shape tailored to the design of the heel member 600. It is to do. High heels have a differentiated design as their main sales point, and accordingly, a very large number of types of designs of the heel member 600 and the shock absorber 700 are also slightly different for each high heel.

In the anti-noise shoe heel according to the second embodiment of the present invention, the shock absorber 700 has a shape matching the bottom of the heel member 600 and has a body portion 710 having a predetermined thickness, and a body portion 710 And an adhesive (not shown) that bonds the shock absorber 730 to each other, and the body portion 710 and the shock absorber 730 to each other, and the adhesive may be an instantaneous adhesive.

As in the first embodiment, the body part 710 is made of a hard material and the shock absorbing material 730 is made of a soft material, so when the shoe contacts the ground, the shock absorbing material 730 is brought into contact with the ground by the load. When the shock generated by the shock is absorbed and the state in contact with the ground falls, the shape of the shock absorbing material 730 is restored by the elastic force. The body part 710 is composed of hard urethane except for the plug 711, and the impact absorbing material 730 is composed of soft synthetic rubber having a hardness of 70 to 90. The body portion 710 is injection-molded by inserting a metallic plug 711 for fitting and coupling with the heel member 600, and the metallic plug 711 protrudes long upward from the upper surface of the body portion 710. The bent member 600 is formed with a plug groove (not shown) in the form of a long hole in which the metallic plug 711 is fitted, and the outer surface and the plug groove of the metallic plug 711 are formed to prevent rotation along the length direction. Since a plurality of straight guide grooves are formed, separation and rotation of the shock absorbing part 700 are prevented after the shock absorbing part 700 is fitted to the heel member 600.

In conventional high heels, rigid urethane, which is integrated without distinction between the body part and the shock absorber, has been mainly used. That is, it is common that a top lift having a shape corresponding to the overall appearance of the body portion and the shock absorber is composed of hard urethane. Therefore, in high heels employing a conventional top lift, the hard urethane is a part in contact with the floor, causing high-pitched noise when walking, and wears out early, so that the top lift (corresponding to the combination of the body part and the shock absorber of the present invention) There was a problem with the exchange cycle coming very quickly. When the top lift wears over a certain thickness and reaches or approaches the metallic plug therein, the noise of the metallic plug becomes more severe, and there is a problem in that the impact to the knee joint cannot be absorbed at all when landing with the metallic plug.

By the way, the soft synthetic rubber has superior abrasion resistance compared to the hard urethane, but there is a problem that the rigid urethane and the soft synthetic rubber must be effectively combined and the bonding must be maintained during use of high heels, and such a structure must be manufactured at low cost.

In the high heel shoe heel, in particular, the shock absorber 700 for high heel, the pressure applied per unit area is very high compared to the general shoe heel. For example, when the noise-preventing shoe heel according to the first embodiment of the present invention is applied to a high heel (see FIG. 5), the area of the bottom of the shock absorber 230 becomes very small, and accordingly, the shock absorber having a small floor area The upper and lower shrinkage of the 230 is increased, and the shock absorber 230 contracted in this way generates a strong force that expands in the left and right direction, so that the portion surrounding the circumference of the shock absorber 230 in the concave groove 221 is It has been observed that a problem that easily bursts occurs, and the noise-preventing shoe heel according to the second embodiment of the present invention solves this problem.

The bottom surface 714 of the body portion 710 is a flat surface, but at least two or more fixing protrusions 713 protrude downward from this bottom surface, and as shown, the body portion 710 and the shock absorber are in contact with the edge of the bottom surface. After bonding of the 730, it is formed in contact with the edge so as not to protrude to the side, but inside the edge. The fixing protrusions 713 may be formed on both edges of the bottom surface 714 facing each other, formed at vertices of the edges facing each other, or formed at the four-direction edges of the bottom surface.

The impact absorbing material 730 has a shape corresponding to the body portion 710, and has a flat surface as an upper surface 731 adhered to the bottom surface of the body portion 710, and is perforated at a position corresponding to the fixing protrusion 713. It has a perforated hole 732. The bottom surface of the shock absorber 730 may have a pattern having irregularities as shown. As the name implies, the perforated hole 732 is a perforated hole that completely penetrates the vertical direction of the impact absorbing material 730, and has an open side. The fixing protrusion is formed at the edge of the body, and the perforated hole is open to the side, so that the fixing protrusion and the perforated hole are in contact with the outer surface of the shoe heel.

The height of the fixing protrusion 713 is 40% to 80% of the thickness of the impact absorbing material 730, and as a result, has a separation distance d between the tip of the fixing protrusion 713 and the bottom of the impact absorbing material 730, The separation distance (d) may be 20% to 60% of the thickness of the shock absorber 730.

On the other hand, as the manufacturers and models of high heels are different, the shape of the shock absorber, especially the cross-sectional shape, is likely to vary.Therefore, dozens to hundreds of shock absorbers must be prepared to cope with various high heels. It is common to be injection molded. However, since the mold cost for injection molding of soft rubber is very expensive compared to the mold cost for injection molding of urethane, there is a problem in that the cost of manufacturing an impact absorbing material for responding to various shoe heel shapes becomes excessive.

In the noise-preventing shoe heel according to the second embodiment of the present invention, a unit shock absorber is manufactured at a lower cost without using a mold for manufacturing a unit shock absorber.

First, by molding a soft rubber material, a plate material capable of obtaining a large number of shock absorbers is first manufactured. That is, a flat material having the same thickness as the unit impact absorbing material and having an uneven pattern as the unit impact absorbing material is first manufactured, and such a flat material can be commonly used in shoe heels of various designs. In addition, by cutting such a flat material by CNC or by cutting in a steel shape, it has a shape corresponding to the bottom of the body part. The perforated hole 732 of the shock absorber 730 may be formed at the same time during such cutting of the flat material.

When applying the noise-preventing shoe heel according to the first embodiment of the present invention to a high heel, it was difficult to maintain the coupling between the shock absorber and the body part, but when applying the noise-preventing shoe heel according to the second embodiment of the present invention to a high heel In addition, it has the advantage of being able to maintain a solid bond during use and to be able to produce it at low cost. In particular, even if the shock absorber is expanded to the left and right due to excessive pressure per unit area, it is expandable to an open edge other than the fixed protrusion, so that there is no bursting phenomenon as in the first embodiment, and at the same time, the required position between the bonded body and the shock absorber is fixed and Bonding has the advantage of being able to sustain it.

10 and 11 are views showing a process of manufacturing a noise-preventing shoe heel according to a second embodiment of the present invention.

First, the body portion 710 and the shock absorbing material 730 are prepared in advance, and the body portion 710 is manufactured by injection molding by inserting a metallic plug for coupling with the heel member 600. Then, the impact absorbing material 730 is manufactured by forming a flat plate material capable of obtaining a plurality of unit impact absorbing materials by molding, and then cutting the flat plate material to correspond to the bottom surface of the body portion.

And, as shown in Figure 10 (a), a manufacturing model 810 including a base 811 and a shock absorber model 812 integrally configured thereon is used, wherein the shock absorber model 812 is an impact It has the same or similar upper surface shape as the upper surface of the absorbent material 730. For example, the upper surface of the shock absorber model 812 may have an outer periphery slightly inward than the outer periphery of the upper surface of the shock absorber 730. In addition, the shock absorber model 812 may be an actual shock absorber 730 used as a model. In the manufacturing model 810, a plurality of shock absorber models 812 are configured as an array, so that batch manufacturing may be possible.

First, the cover sheet 820 is placed in close contact on the shock absorber model 812 of the manufacturing model 810 (see FIG. 10(a)). The cover sheet 820 is in close contact with the upper surface of the shock absorber model 812, and the cover sheet 820 is a material that does not adhere to an adhesive (instantaneous adhesive) to be used, and is, for example, vinyl.

In addition, to apply the instantaneous adhesive 830 to the upper surface of the shock absorber model 812 above the cover sheet 820 (see FIG. 10(b)), more away from the upper surface of the shock absorber model 812 It may be applied widely.

In addition, the instantaneous adhesive 830 applied by intimate contact with the upper surface of the actual shock absorber 730 above the shock absorber model 812 is transferred to the upper surface of the shock absorber 730 (see FIG. 11(a)). At this time, the instantaneous adhesive 830 is deposited with a thin thickness only on the upper surface of the shock absorber 730 and does not adhere to the side surface of the shock absorber 730.

In addition, the shock absorber 730 and the body portion 710 are bonded using the delivered instantaneous adhesive (see Fig. 11(b)), for example, the shock absorber with a sieve on which the upper surface of the delivered instantaneous adhesive is exposed. In the state in which the 730 is mounted, the body portion 710 may be pressed against the shock absorber 730 to be coupled.

According to the method for manufacturing a noise-preventing shoe heel of the present invention as described above, it is possible to perform a low-precision operation or process in applying the instantaneous adhesive, while preventing the instantaneous adhesive from protruding into the interface between the body part and the shock absorber. There is an advantage that can be made as an adhesive surface of an instantaneous adhesive as a whole with respect to the contact surface of.

Although the present invention has been described in detail through specific examples, this is for describing the present invention in detail, and the present invention is not limited thereto, and within the technical idea of the present invention, by those of ordinary skill in the art. It is clear that modifications or improvements are possible.

All simple modifications to changes of the present invention belong to the scope of the present invention, and the specific scope of protection of the present invention will be made clear by the appended claims.

10: adhesive 100: heel member
110: first coupling groove 120: second coupling groove
200: shock absorber 210: body
211: first coupling protrusion 211a: guide groove
212: second coupling protrusion 213: application portion
220: concave groove 221: concave groove
230: shock absorber 300: instant adhesive
600: heel member 700: shock absorber
710: body part 711: plug
713: fixing protrusion 714: bottom
730: shock absorber 731: upper surface
732: perforated hole 810: manufacturing model
812: shock absorber model 820: cover sheet
830: Instant glue

Claims (12)

delete delete delete delete A heel member mounted on the heel of the shoe; In the anti-noise shoe heel comprising a shock absorber coupled to the lower portion of the heel member,
The shock absorber,
A body portion having a shape matching the bottom surface of the heel member and having a predetermined thickness,
Consisting of including a shock absorber coupled to the body portion,
As the body part is made of hard material and the shock absorber is made of soft material, when the shoe contacts the ground, the shock absorber absorbs the impact generated by contact with the ground by the load, and the state in contact with the ground drops. In this case, the shape of the shock absorber is restored by the elastic force,
As for the noise-preventing shoes bent high heels,
The body portion is injection-molded by inserting a metallic plug for coupling with the heel member, and the bottom surface of the body portion is flat, and the fixing protrusion protrudes downward from the bottom surface,
The impact absorbing material has a flat surface as an upper surface adhered to the bottom surface of the body portion, and has a perforated hole perforated at a position corresponding to the fixing protrusion,
The impact absorbing material is that the molded flat material is cut to correspond to the bottom surface of the body part,
Anti-noise shoe heel. delete The method of claim 5,
The perforated hole is formed at the same time when the flat material is cut,
The fixing protrusion is formed at the edge of the body portion, and the perforated hole is open to the side,
Anti-noise shoe heel. The method of claim 7,
The height of the fixing protrusion is 40% to 80% of the thickness of the impact absorbing material,
The bent member is formed with a plug groove for fitting the metallic plug, and a plurality of straight guide grooves for preventing rotation along a length direction are formed in the outer surface of the metallic plug and the plug groove,
Anti-noise shoe heel. The method of claim 5,
The body portion is composed of hard urethane, and the impact absorbing material is composed of soft synthetic rubber having a hardness of 70 to 90,
Anti-noise shoe heel. A heel member mounted on the heel of the shoe; A method of manufacturing a high heel noise-preventing shoe heel comprising a shock absorber coupled to a lower portion of the heel member,
The shock absorber includes a body portion having a shape matching the bottom surface of the heel member and having a predetermined thickness and a shock absorbing material coupled to the body portion, and the body portion includes a metallic plug for coupling with the heel member. And injection-molded, and the bottom surface of the body portion has a flat surface, and the impact absorbing material has a flat surface as an upper surface adhered to the bottom surface of the body portion,
A first step of intimately disposing a cover sheet on an impact absorbing material model having the same or similar upper surface shape as the upper surface of the impact absorbing material;
A second step of applying an instantaneous adhesive on the cover sheet;
A third step of bringing the applied instantaneous adhesive to the upper surface of the shock absorbing material by intimate contacting the upper surface of the shock absorbing material with the upper surface of the shock absorbing material model;
Characterized in that it comprises; 4 step of adhering the shock absorber and the body part using the delivered instantaneous adhesive,
Method of manufacturing noise-proof shoe heels. The method of claim 10,
The cover sheet is vinyl so that the instantaneous adhesive does not adhere to the cover sheet,
Method of manufacturing noise-proof shoe heels. The method of claim 10,
The impact absorbing material is manufactured by forming a flat material by molding and then cutting it to correspond to the bottom surface of the body part,
Method of manufacturing noise-proof shoe heels.

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