KR200332193Y1 - shock-absorbing pad for shoes and shoes including thereof - Google Patents

Abstract

The present invention corresponds up and down at a predetermined interval, and the regular unit structure is the same, including at least two layers of weaving layers each of which warp and weft cross each other in a longitudinal direction and a plurality of filler fibers connecting the at least two layers of weaving layers up and down. A filament coil repeated on the plane; It provides a shoe cushion pad and a shoe built in the sole pad, characterized in that it comprises an envelope sponge of synthetic resin penetrating to the outside in the filament coil and embedded in its interior.

Accordingly, the buffer pad for shoes according to the present invention evenly distributes the pressure applied up and down to have excellent buffering effect, and the shoe with the shock absorbing pad built into the sole of the shoe gives the wearer a more comfortable fit.

Description

Shock absorber pad for shoes and shoes including built-in shoes

The present invention relates to a shoe cushion pad and a shoe with the shock absorbing pad embedded therein, and more specifically, to a shoe cushion pad and the shock absorbing pad comprising a synthetic sponge sponge containing a filament coil having a regular repeating structure. The shoe is built in the outsole to give a more comfortable fit.

Shoes are an indispensable necessity in our daily lives. These are the things we wear on our feet to protect our feet, improve walking and work efficiency, as well as harmonize with clothing. These shoes can be classified in various ways depending on the purpose, function and material, but commonly include a sole that directly touches the floor and the outer sheath that wraps around the instep of the wearer so that the sole is fixed to the sole.

One of the most important role of shoes in recent years is to reduce the shock transmitted to the wearer's foot.In sports or walking, the impact of the wearer's load can cause continuous stress on the foot, resulting in injuries or fatigue and extreme pain. Can provoke

In particular, the impact is concentrated on the heel of the wearer, and for this purpose, a plurality of through holes are alleviated by piercing the sole of the shoe, in particular, the heel, or a fluid such as a liquid or a gas is filled inside. Various attempts continue, such as inserting a closed seal.

However, these conventional methods have a disadvantage in that the buffering effect is not sufficient, but the manufacturing process is somewhat complicated, and due to frequent use, it is easy to break through through holes or seals, and in particular, it is impossible to recover when broken.

The present invention is to solve the problems as described above, excellent shock-absorbing effect, simple configuration of the manufacturing process with a simple configuration, excellent recovery degree even in frequent use, less likely to damage the built-in shoe buffer pad and it is built into the outsole An object of the present invention is to provide shoes with improved fit.

1 is an external perspective view of a shoe with a built-in buffer pad according to the present invention.

Figure 2 is an internal perspective view of a shoe sole with a buffer pad according to the present invention.

Figure 3 is an internal perspective view of the buffer pad according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10: buffer pad 20: filament coil

22: woven layer 22a, 22b: warp and weft

24: filler fiber 30: envelope sponge

The present invention is to correspond to the top and bottom at a predetermined interval in order to achieve the above object, at least two layers of weaving layer formed by the warp and weft cross each other, and a plurality of filler fibers connecting the at least two layers of weaving layer up and down A filament coil including a regular unit structure repeating on the same plane; It provides a shock absorbing pad for the shoe comprising an envelope of synthetic resin penetrating to the inside of the filament coil to be embedded into its interior.

At this time, the filament coil is polyester, polyethylene terephthalate, polyamide, nylon, Kevlar fiberglass, carbon, glass, silk, cotton, wool, urethane, aramid, Dacron, cellulose, rayon, copra, acetate, polyvinyl alcohol, Selected one of polyacryl or a mixture thereof, and the envelope sponge is polyurethane, polyester elastomer, fluoro elastomer, chlorinated polyethylene, polyvinyl chloride, chlorosulfonated polyethylene, polyethylene / ethylene vinyl acetate copolymer, neoprene, butadiene One or a polymer selected from acrylonitrile rubber, butadiene styrene rubber, ethylene propylene polymer, natural rubber, high strength silicone rubber, low density polyethylene, adduct rubber, sulfide rubber, methyl rubber, vulcanized rubber, polyvinyl alcohol, latex Characterized by The.

In another aspect, the present invention provides a shoe, characterized in that the buffer pad for the shoe is built into the outsole, with reference to the accompanying drawings will be described in more detail the present invention.

1 is a perspective view of a shoe according to the present invention, the sole 2 in direct contact with the bottom surface similar to the general case and the sole 2 in the state covered with the foot so that the sole 2 is fixed to the foot It includes a shell (4) which is sealed along the edge of. Therefore, the igniter puts the foot into the outer shell as in the prior art to step on the outsole (2), especially in the sole 2 of the shoe according to the present invention there is a built-in buffer pad that can feel a more comfortable wearing feeling It features.

2 is a perspective view showing only the sole 2 of the shoe with the buffer pad 10 according to the present invention, the internal structure thereof, as shown in the sole 2 of the synthetic resin, etc. The buffer pad 10 according to the invention is built in the form of a block.

In this case, the buffer pad 10 according to the present invention may be built into the front of the sole 2 of the shoe, but preferably, the heel portion, that is, the heel, of which the shock can be most transmitted by the wearer's activity. It can only be built into parts. Furthermore, the type of shoes in which the shock absorbing pad 10 according to the present invention can be used is also applicable to all kinds of shoes, sandals, slippers, boots, work shoes as well as the illustrated sneakers, and will be apparent to those skilled in the art through the following description. It may be true.

Shoe buffer pad 10 according to the present invention is two different materials are closely coupled to each other in different forms, Figure 3 is to explain the shoe buffer pad 10 according to the present invention therein An internal perspective view showing the structure.

At this time, the buffer pad 10 is shown in the simplest form for convenience of explanation, the filament coil (20) and the filament coil 20 is repeated in a regular unit structure on the same plane Envelope Sponge (Envelope Sponge: 30) made of a synthetic resin to be embedded.

More specifically, first, the filament coil 20 includes at least two or more layers of woven layers 22 facing each other at predetermined intervals and a plurality of pillar fibers 24 that vertically connect adjacent woven layers 22 to each other. Preferably, each woven layer 22 is a warp yarn (22a) and weft yarn (22b) on the same plane, each crosses up, down, left and right to form a matrix (Matrix), a plurality of filler fibers ( 24 overlaps and connects the intersection of each woven layer 22 in at least 2 layers or more.

At this time, the warp and weft (22a, 22b) can be completed to weave the layer 22 by tying a bundle of fibers appropriately, the filler fiber body 24 is adjacent to the woven layer 22 up and down In addition to the intersection point of), the intersection points of the adjacent weaving layers 22 which are inclined diagonally may be connected to each other.

Therefore, the unit structure of the filament coil 20 may be more variously modified according to the purpose, but in any case, at least two layers of the woven layer 22 adjacent to each other in the vertical direction and the vertical connection of the woven layer 22 in the vertical direction It includes a plurality of filler fiber body (24).

In addition, the warp yarn 22a, the weft yarn 22b, and the plurality of filler fiber bodies 24 constituting the filament coil 20 may be made of the same material, for example, polyester, polyethylene terephthalate, polyamide, nylon, and kevlar. Fiberglass, carbon, glass, silk, cotton, wool, urethane, aramid, dichlon, cellulose, rayon, copra, acetate, polyvinyl alcohol, polyacryl, or mixtures thereof may be used.

In addition, the envelope sponge 30 surrounding the filament coil is penetrated to the outside in the woven layer 22 and the plurality of filler fiber bodies 24 and is covered with a bar, polyurethane, polyester elastomer, fluoroelastomer, chlorinated polyethylene, Polyvinyl chloride, chlorosulfonated polyethylene, polyethylene / ethylene vinyl acetate copolymer, neoprene, butadiene acrylonitrile rubber, butadiene styrene rubber, ethylene propylene polymer, natural rubber, high strength silicone rubber, low density polyethylene, adduct rubber ), Sulfide rubber, methyl rubber, vulcanizable rubber, polyvinyl alcohol, latex, or a polymer thereof may be used.

Therefore, the envelope sponge 30 basically retains a certain degree or more of elasticity from external pressure, but the filament coil 20 is embedded therein, thereby increasing the elastic force.

That is, in the filament coil 20 having the above-described configuration, at least two or more layers of the woven layer 22 are uniformly dispersed in its entire area with respect to the pressure exerted in the vertical direction, thereby primarily alleviating the impact. Secondary impact is mitigated by a plurality of filler fiber bodies 24 that connect 22 up and down. Since the envelope sponge 30 is enclosed in and out of the woven layer 22 and the filler fiber body 24, the compressive strength and the compressive modulus of elasticity as well as the tensile strength are largely compensated.

Therefore, it is possible to maintain a constant elasticity despite frequent use.

Table 1 below shows the thickness of the buffer pad 10 according to the present invention as the thickness of 4 mm and 10 mm, respectively, and the tensile strength, the compressibility, the compressive modulus, and the thickness reduction rate due to the dynamic load. Value.

TABLE 1

4mm 10 mm Tensile Strength (kgf / 50mm) horizontal 51.8 44.7 Vertical 88.6 81.7 Compression Ratio% (kg ² / cm) 32.6 16.7 Compression Modulus% (kg ² / cm) 92.9 86.7 Thickness reduction rate by dynamic load% (A method rotary type test technique) 14.2 19.7

Therefore, when referring to Table 1, the buffer pad 10 according to the present invention has a high tensile strength, a high compressibility, and a high compressive elastic modulus, whereas a small thickness reduction rate due to dynamic load is excellent in shock absorption and a large recovery force. .

The buffer pad 10 according to the present invention is also a very simple manufacturing method, the filament coil 20 is precipitated in the melt of the envelope sponge 30 or the envelope sponge (into the mold in which the filament coil 20 is mounted) It can be completed by injecting the melt of 30) to cool and harden. In addition, the shock absorbing pad 10 according to the present invention is incorporated into the sole 2 of the shoe, particularly the heel portion, so as to absorb the shock applied to the foot of the wearer and give a more comfortable feeling of wearing (see FIG. 2).

Shoe buffer pad according to the present invention as described above has an excellent buffering effect by evenly dispersing the pressure applied up and down. Therefore, when the shock absorber pad is built into the sole of the shoe, the wearer may feel more comfortable to wear, and the shock applied to the foot by the load of the wearer may be alleviated despite strenuous exercise or prolonged walking. Can be less.

In addition, the cushioning pad for shoes according to the present invention has a feature of fast recovery even in frequent use, the possibility of breakage or damage is small, there is an advantage that can be used for a long time. Furthermore, the cushion pad for shoes according to the present invention is advantageous in terms of cost, as the manufacturing method is simple, suitable for mass production, and using a low-cost synthetic resin material.

Claims (3)

A plurality of fillers that vertically correspond to at least two layers of the weaving layer 22 and the at least two layers of the weaving layer 22 each having a warp yarn 22a and a weft yarn 22b intersected vertically and vertically at predetermined intervals. A filament coil 24 in which the regular unit structure including the fiber body 24 is repeated on the same plane; The cushion pad for shoes, characterized in that it comprises an envelope of synthetic resin (30) to penetrate the inside of the filament coil (24) to be embedded therein. The method of claim 1, The filament coil 20 is polyester, polyethylene terephthalate, polyamide, nylon, kevlar fiberglass, carbon, glass, silk, cotton, wool, urethane, aramid, dacron, cellulose, rayon, copra, acetate, polyvinyl Selected from alcohols, polyacryl, or mixtures thereof, The envelope sponge 30 is polyurethane, polyester elastomer, fluoro elastomer, chlorinated polyethylene, polyvinyl chloride, chlorosulfonated polyethylene, polyethylene / ethylene vinyl acetate copolymer, neoprene, butadiene acrylonitrile rubber, butadiene styrene rubber , Ethylene propylene polymer, natural rubber, high strength silicone rubber, low-density polyethylene, adduct rubber, sulfide rubber, methyl rubber, vulcanized rubber, polyvinyl alcohol, latex one or a polymer thereof pad. Shoes according to claim 1 or 2, characterized in that the buffer pad (10) of the selected one is built into the outsole (2).