KR20110030854A - Shoe for protecting shock - Google Patents

Abstract

PURPOSE: Shock absorbing shoes having an improved structure are provided to lower heel height of the shoes and to secure stability thereof during excessive exercise or operation. CONSTITUTION: Shock absorbing shoes having an improved structure comprises: an outsole(10) having a first receptacle; a first supporting member(20) which is installed in the first receptacle of the outsole and has a first insertion part; a coil spring(30) which is arranged on the top of the first supporting member; a second supporting member(40) which is arranged at the upper part of the coil spring and has a second insertion part; lower and upper coupling units which are respectively arranged in the first and the second insertion parts; a connector connecting each coupling unit; a combining member(50) including an elastic deformable part covering the connector; and an upper sole(60) having a second receptacle.

Description

Shock-absorbing shoes with improved structure {SHOE FOR PROTECTING SHOCK}

The present invention comprises a support member for fixing the coil spring at the top and bottom, and an upper sole and an outsole arranged on the top and bottom of each support member, the coupling member for connecting each support member and the coil spring When the elastic deformation unit compresses and restores the coil spring under load, the elastic deformation can be deformed according to the displacement amount of the coil spring to reduce the heel height of the shoe, and the lower shoe height ensures stability even during excessive movement or operation. The present invention relates to a shock-absorbing shoe having an improved structure that satisfies the preferences of modern consumers who value design elements by highlighting shoe styling.

In general, shoes play a role in reducing foot fatigue by protecting a person's foot and acting as a shock absorber for a certain impact. At present, various types of functional shoes that emphasize the protection of the foot and the functional aspects of the shoe are introduced. have.

Particularly, in the case of shoes for shock alleviation, coil springs are assembled in various forms in order to facilitate maintenance of coil springs having elastic deformation.

Among them, the coupling bolt penetrates into the coil spring and is fastened. When the coil spring is compressed, the coupling bolt relatively protrudes upward.

It is necessary to secure enough space for the coupling bolt head to enter and exit the midsole or upper sole as much as the operating distance of the coupling bolt.

Therefore, the height of the coupling bolt midsole or apersole is increased by the operating distance of the minimum coupling bolt.

In addition, when the height of the heel of the shoes is increased, the user may wear the shoes and may be injured by folding or falling down the ankle during excessive exercise, movement or work, thereby failing to fulfill the original purpose of stability and comfort of the functional shock absorbing shoes. ,

In addition, the aesthetic appearance of the shock-absorbing shoes is not good, which does not satisfy the preferences of modern consumers, who value design elements,

In addition, there is a risk that the coupling bolts continue to flow in the vertical direction when walking to loosen the confidence of the product.

The present invention has been made to solve the above problems,

Each support member for fixing the coil spring at the top and bottom, and the upper sole and the outsole arranged in the upper and lower portions of each support,

When the elastic deformation portion of the coupling member for connecting each supporting member and the coil spring is compressed and restored by the load of the coil spring, the heel height of the shoe can be lowered by bending deformation corresponding to the displacement amount of the coil spring.

In addition, the lower height of the shoes ensures stability during excessive movement or movement, and further enhances the sophistication of the shoes, thereby improving the shock-absorbing shoes with a structure that satisfies the preferences of modern consumers who value design elements. To provide a single purpose.

And the elastic deformation portion of the coupling member according to the present invention is made of a soft material, the outer portion of the staggered groove is formed to ensure its flexibility when bending deformation of the elastic deformation portion,

In addition, the elastic deformation portion of the coupling member supports each coupling portion when connecting each support member and the coil spring to provide a shock-absorbing shoes with improved structure that can ensure the assembly by resisting torsional deformation caused by the fastening force The purpose.

In addition, the inner wall surface of the mounting portion of each support member according to the present invention consists of an inclined tapered portion to prevent the restoration is not made by the upper and lower portions of each mounting portion when elastic deformation of the coil spring can ensure the operation reliability Another object is to provide an impact absorbing shoe with improved structure.

Furthermore, the connection portion of the coupling member according to the present invention is made of a wire, the wire is connected to each of the coupling portion integrally by the insert injection structure to ensure the reliability of the product by sufficiently securing the coupling reliability and support force of the coupling member Another object is to provide improved shock absorbing shoes.

In addition, the first and second support portions respectively formed at the edges of the mounting portions according to the present invention are formed to be in contact with each other when the coil spring is compressed, so that the coil spring is kept in a constant interval without being in contact with each other in the compressed state. Another object of the present invention is to provide a shock-absorbing shoe having an improved structure that can prevent damage caused by self-contact, thereby increasing the durability of the product.

Shock absorbing shoes having an improved structure according to the invention the outsole having a first receiving portion; A first supporting member mounted to a first receiving portion of the outsole and having a first inserting portion; A coil spring arranged above the first support member; A second support member arranged above the coil spring and having a second insertion portion; A coupling member including lower and upper fastening portions arranged in the first and second inserting portions, connecting portions connecting the respective fastening portions, and elastic deformation portions surrounding the connecting portions; And an upper sole arranged on the second supporting member and having a second receiving portion for the second supporting member.

And in the coupling member according to the present invention, the elastic deformation portion is made of a soft material, the outer portion is characterized in that the grooves of the mutually staggered form is formed.

Further, the first and second mounting portions of the annular first and second mounting portions for accommodating the coil springs are further provided outside the first and second insertion portions of the respective supporting members according to the present invention. The inner wall surface is characterized in that consisting of the tapered portion.

Furthermore, in the coupling member according to the present invention, the connection part is made of a wire, and the wire is characterized in that it is integrally formed by insert injection into each of the fastening parts.

In addition, the edge of the first and second mounting portion is characterized in that the first and second support portions provided to be in contact with each other when the coil spring is further compressed.

The shock-absorbing shoes having an improved structure according to the present invention comprises each support member for fixing the coil springs at the top and bottom, and the upper sole and the outsole arranged at the top and bottom of each support member,

When the elastic deformation portion of the coupling member for connecting each supporting member and the coil spring is compressed and restored by the load of the coil spring, the heel height of the shoe can be lowered by bending deformation corresponding to the displacement amount of the coil spring.

In addition, the lower the height of the shoe can ensure stability even during excessive movement or movement, and further enhances the taste of the shoe to satisfy the preferences of modern consumers who value design elements.

And the elastic deformation portion of the coupling member according to the present invention is made of a soft material, the outer portion of the staggered groove is formed to ensure its flexibility when bending deformation of the elastic deformation portion,

In addition, the elastic deformation portion of the coupling member supports each fastening portion when connecting each support member and the coil spring, thereby ensuring assembly performance by resisting torsional deformation caused by fastening force.

In addition, the inner wall surface of the mounting portion of each support member according to the present invention consists of an inclined tapered portion to prevent the restoration of the upper and lower portions of the coil spring when the elastic spring is elastically deformed by the mounting portion to ensure the operation reliability do.

Furthermore, the connection portion of the coupling member according to the present invention is made of a wire, the wire is integrally connected to each of the fastening portion by the insert injection can ensure the reliability of the product by sufficiently securing the coupling reliability and support force of the coupling member .

In addition, the first and second support portions respectively formed at the edges of the mounting portions according to the present invention are formed to be in contact with each other when the coil spring is compressed, so that the coil spring is kept in a constant interval without being in contact with each other in the compressed state. It is possible to increase the durability of the product by preventing damage caused by self contact.

Hereinafter, with reference to the accompanying drawings, the shock absorbing shoes having an improved structure according to the present invention,

1 is a partial cross-sectional view showing a shock absorbing shoe according to the present invention, Figure 2 is an exploded cross-sectional view showing a shock absorbing shoe according to the present invention, Figure 3 is a combined cross-sectional view showing a shock absorbing shoe according to the present invention, Figure 4 is a present invention 5 is an operation diagram showing an operation state of the shock absorbing shoes according to the present invention. FIG.

1 to 4, the shock absorbing shoes having an improved structure according to the present invention are

An outsole 10 having a first receptacle 11; A first support member 20 mounted to the first accommodating portion 11 of the outsole 10 and having a first inserting portion 21; A coil spring 30 arranged above the first support member 20; A second support member 40 arranged above the coil spring 30 and having a second insertion portion 41; Lower and upper fastening portions 51B and 51A arranged on the first and second insertion portions 21 and 41, respectively, and connecting portions 53 connecting the fastening portions 51B and 51A, respectively; A coupling member 50 including an elastic deformation portion 55 surrounding the connection portion 53; And an upper sole 60 arranged above the second supporting member 20 and having a second receiving portion for the second supporting member.

1 to 4 in the shock absorbing shoes with improved structure according to the present invention, the outsole 10 is

The upper portion is provided with a first receiving portion 11,

The first accommodating part 11 is formed of an annular protrusion 11a, and the first accommodating part 11 includes a first support member 20 on which the coil spring 30 is mounted, and a coil spring. The number corresponding to the number of 30 is provided.

However, in FIG. 3, the first receiving portion 11 of the outsole 10 is illustrated as being arranged at four points thereon.

It is possible to deform and change in consideration of the use of the shock-absorbing shoes or the degree of elasticity according to the impact load applied according to the use.

The bottom sole LS is attached to the bottom surface of the outsole 10 by an adhesive.

The bottom brush LS is preferably made of a rubber or polyurethane material having a certain elasticity in order to directly absorb the shock and prevent slipping when contacted with the ground.

And the bottom brush (LS) is formed in one piece connected to the heel and heel of the foot,

If the bottom sole LS is divided into a heel and a heel of the foot, there is a risk of falling of a pedestrian, such as a stone or a protruding object between the gaps formed therebetween.

In addition, since such an object is caught in the gap, causing a problem of walking uncomfortable, the above problems can be solved by integrating the sole sole LS.

Hereinafter, the first and second support members 20 and 40 for fixedly supporting the lower and upper portions of the coil spring 30 according to the present invention will be described together.

Each configuration is the same unless otherwise specifically stated that the first and second insertion portions 21 and 41 and the first and second mounting portions 23 and 43, which are respective components of each support member, are described. In this case, the same function is assumed.

1 to 4 in the shock absorbing shoes with improved structure according to the present invention, in each of the support members 20, 40

The first support member 20 is mounted to the first receiving portion 11 of the outsole 10, has a first insertion portion 21,

In addition, the second supporting member 40 is mounted to the second receiving portion 61 of the upper sole 60 to be described later, and has a second insertion portion 41.

In addition, the first and second support members 20 and 40 are provided with first and second mounting portions 23 and 43, respectively, and the lower and upper portions of the coil spring 30 are accommodated and fixed, respectively.

That is, each of the support members 20 and 42 according to the present invention has a disc shape, and adhesives are attached to the first accommodating portion 11 of the outsole 10 and the second accommodating portion 61 of the upper sole 60. Attached by a bond or the like,

The first insertion portion 21 is a fastening groove having a screw thread formed on the inner surface for screwing the lower fastening portion 51B of the coupling member 50 to be described later, that is, the fastening piece 51b having the thread formed on the outer circumferential surface thereof ( 21a)

The second insertion portion 41 is composed of an upper fastening portion 51A of the coupling member 50 to be described later, that is, a settling recess 41a into which the head 51a is inserted.

And the through hole (41b) is formed in the bottom surface of the settled groove (41a) after the coil spring 30 is arranged between each support member (20, 40),

The fastening piece 51b of the coupling member 50 and the connecting portion 53 penetrate downwardly through the through hole 41b to insert the fastening piece 51b of the coupling member 50 into the first insertion portion 21. By fastening to the phosphorus fastening groove 21a, the respective supporting members 20 and 40 and the coil spring 30 are coupled.

And in each support member 20, 40 according to the present invention

First and second mounting portions 23 and 43 having an annular groove shape are formed in an outer direction of the first and second insertion portions 21 and 41, and coils are formed in the respective mounting portions 23 and 43. The lower part and the upper part of the spring 30 are settled,

In this case, although not shown in the accompanying drawings to connect the upper and lower portions of each mounting portion and the coil spring with an adhesive, or to form a connection groove for inserting each end of the coil spring in each mounting portion to fix the coil spring It is also possible.

In addition, the inner wall surface of the first mounting portion 23 according to the present invention is provided with a first tapered portion 23a that narrows inward direction toward the upper side,

In addition, the inner wall surface of the second mounting portion 43 is provided with a second taper portion 43a which is narrowed inwardly toward the lower side.

It is compressed when the load is applied to the coil spring 30, the pitch is reduced so that a plurality of coil springs 30 are fitted to each of the mounting portion 23, 43,

In this case, even after the coil spring 30 fitted in multiple layers to each of the mounting portions 23 and 43 is removed from the load, the coil spring 30 may not be restored to its original state but may remain in the inserted state, thereby preventing maintaining a constant elasticity. Done.

Therefore, the inner wall surface of each of the mounting portions 23 and 43 has a diameter

By introducing a taper portion that decreases from the inner diameter of the coil spring 30 toward the upper portion (the first taper portion 23a) and the lower portion (the second taper portion 43a),

After the load is applied to the coil spring 30 and compressed, even when the coil spring 30 is removed, the coil spring 30 is not held in the state of being fitted to each of the mounting parts 23 and 43, but is restored to a complete shape to maintain a uniform degree of elasticity. It becomes possible.

In addition, the inclination angles of the first and second taper portions 23a and 43a according to the present invention are preferably about 3 ° to 5 °,

Forming at this inclination angle can completely prevent the restoration of the coil spring 30 and the flow of the coil spring 30 in each of the mounting portions 23 and 43 in advance.

In the enlarged view of FIG. 4, the second tapered portion 43a formed on the second support member 40 is illustrated.

This indicates that the first taper part 23a formed on the first support member 20 also performs the same function through the same operation as the second taper part 43a of the second support member 40.

Furthermore, Figure 5 is another modification of the shock absorbing shoes according to the present invention

The first support portion 25 and the second support portion 45 are provided at the edges of the mounting portions 23 and 43.

This is to solve the problem that the coil spring 30 is damaged or damaged by the impact when the coil spring 30 itself is contacted or collided when the coil spring 30 is compressed due to a load.

That is, each of the support portions 25 and 45 prevents the coil springs 30 from being compressed anymore by contacting each end surface when the coil springs 30 are compressed by a load.

In this case, the length of each support 25, 45 should be formed to an appropriate length that can maintain a constant interval without the collision occurs when the coil spring 30 is in contact with each other when the support 25, 45 is in contact with each other.

Therefore, each of the support portions 25 and 45 forms a maximum compression range that does not contact each other when the coil springs 30 are compressed by load, thereby causing damage and damage due to contact or collision by the coil springs 30 themselves. This can increase the durability of the product.

1 to 4, in the shock absorbing shoes having the improved structure according to the present invention, the coil spring 30 is

It is arranged between the first and second support members 20, 40, the lower and upper portions of the first and second mounting portions 23, 43 of each of the support members 20, 40 Each is fixed.

That is, when the coil spring 30 according to the present invention walks while the user wears shoes, or performs an exercise or work

When the load by the weight of the wearer is transmitted to the ground through the shoes, the coil spring exerts elasticity and absorbs and alleviates the shock transmitted from the ground to the upper direction, that is, the pedestrian.

Therefore, even when the user walks, exercises or works for a long time, the user can double the functionality of health and convenience by absorbing and mitigating not only foot fatigue but also the shock applied to the entire body.

And the coil spring 30 is preferably made of a rectangular cross-sectional shape,

When the coil spring is compressed by the load, the springs arranged at the upper and lower sides may collide with each other.

In this case, if the cross section of the coil spring 30 is circular, there is a risk that the outer peripheral surface of the spring is damaged by mutual collision,

When the cross section of the coil spring is formed in a square shape, the plane and the plane are in contact with each other during mutual collision, thereby minimizing the damage of the spring due to the mutual collision.

1 to 4, in the shock absorbing shoes having an improved structure according to the present invention, the coupling member 50 is

Lower and upper fastening portions 51B and 51A arranged at the first and second insertion portions 21 and 41, respectively, and connecting portions 53 connecting the respective fastening portions 51B and 51A. It comprises an elastic deformation portion 55 surrounding the connection portion 53,

It is a configuration for fixing the coil spring 30 arranged between each of the support members 20 and 40 and the support members 20 and 40.

It is fastened by using a bolt and nut of the general form to fix the coil spring between each support member,

When the load is applied and the coil spring is compressed, in the case of using a conventional bolt, the bolt is projected upward by the compressed amount of the coil spring,

Therefore, the space for the bolt to go in and out as much as the bolt protrudes, so that the height of the heel of the shoe increases.

In addition, when the height of the heel of the shoe is increased, the user risks the grounding of the ankle during excessive exercise or movement when the user wears the shoes, and fails to fulfill the original purpose of comfort and safety of the shock absorbing shoes, which is a functional product.

In addition, the aesthetic appearance of shock-absorbing shoes is not good, the problem of not satisfying the taste of modern consumers who value design elements.

Therefore, introducing the elastic deformation portion 55 surrounding the connecting portion 53 of the coupling member 50 according to the present invention,

The elastic deformation part 55 is formed of a soft material to be bent or extended by the displacement amount of the coil spring 30 when compressing and restoring the coil spring 30.

By the amount of displacement of the coil spring 30, the elastic deformation portion 55 can also solve the conventional problems as described above by the bending deformation of the length.

Furthermore, the outer surface portion of the elastic deformation portion 55 is formed with a plurality of grooves 55a are staggered, the coupling member 50 by maintaining the flexibility to more easily bend deformation of the elastic deformation portion 55 It is possible to ensure the operation reliability of.

In addition, in the coupling member 50 according to the present invention, the connecting portion 53 is for connecting the respective fastening portions 51B and 51A,

This is a problem that it is not easy or easy to connect each of the fastening portions 51B and 51A with each of the fastening portions 51B and 51A and the elastic deformation portion 55 having a heterogeneous material.

In addition, when the elastic deformation of the coil spring 30, in particular during the restoration of the coil spring 30 to overcome the tensile force applied to the coupling member 50, and reinforces the bearing force of the coupling member 50.

Therefore, each connection portion 53 is preferably a wire (53a) having a strength capable of overcoming the tensile stress applied to the coupling member 50 by the coil spring 30,

In addition, the wire 53a may be formed integrally by insert injection when molding the fastening parts 51B and 51A, so that the integrity of the coupling member 50 may be increased.

In this case, in the injection molding of the respective fastening portions 51B and 51A, a ring portion 53b (see “A” in FIG. 2) is formed at each end of the wire 53a or at each end of the wire 53a. It is preferable that the fastening pins 53c (see “B” in FIG. 2) are coupled to each other so that the fastening portions 51B and 51A can be firmly supported by the wires 53a.

In addition, in the coupling member 50 according to the present invention, each of the fastening portions 51B and 51A is

Lower fastening portion 51B arranged on the first insertion portion 21 of the first support member 20 and upper fastening portion arranged on the second insertion portion 41 of the second support member 40 ( 51A).

That is, in each of the fastening portions 51B and 51A, the lower fastening portion 51B is a fastening piece 51b, and a thread is formed on the outer circumferential surface thereof so as to be fastened to the fastening groove 21a of the first insertion portion 21. ,

The upper fastening portion 51A is inserted into the settling groove 41a of the second insertion portion 41 by a bolt head 51a,

In this case, the settling groove 41a of the second inserting portion 41 is formed to have the same height as that of the head 51a. When the upper sole 60 is connected to the upper portion, the head 51a is settled in the settling groove 41a. It is preferable to be able to prevent the flow in the vertical direction in the).

Furthermore, the elastic deformation part 55 of the coupling member 50 according to the present invention is formed to surround the connection part 53.

In the case of connecting the coil spring 30 between the supporting members 20 and 40, when the respective fastening parts 51B and 51A are connected to only the connecting part 53, the head which is the upper fastening part 51A ( This is to solve the problem that even when the 51a) is rotated, the rotational force is not transmitted to the fastening piece 51b, which is the lower fastening portion 51B, so that the assembly becomes difficult.

That is, when the elastic deformation part 55 surrounds the connection part 53 and reinforces the resistance against torsion, the coupling member 20 and the coil spring 30 are engaged by the coupling member.

When the head 51a, the upper fastening part 51A, is rotated in the direction for fastening and detachment, the rotational force of the head 51a, the upper fastening part 51A, is caused by the elastic deformation part 55.

By being delivered as it is to the fastening piece 51b, which is the lower fastening part 51B, the operation for connecting the respective support members 20 and 40 and the coil spring 30 is facilitated, thereby ensuring assembling. .

1 to 4, in the shock absorbing shoes having an improved structure according to the present invention, the upper sole 60 is

The second receiving portion 61 for accommodating the second support member 40 is provided in the lower surface portion,

The second accommodating portion 61 is formed of an annular protrusion 61a, and an upper surface portion of the second supporting member 40 on which an upper portion of the coil spring 30 is mounted by an adhesive or bond on the upper surface portion thereof. Attached.

In addition, the upper sole 60 and the outsole 10 is the front portion is integrally connected,

In addition, by using a PC material or a similar material having a certain strength

Supporting the combination of each of the support members 20, 40 and the coil spring 30 arranged between the upper sole 60 and the outsole 10 to a certain strength,

And it is desirable to be able to maintain the shape of the insole portion of the shock absorbing shoes.

In addition, the upper shoe sole (SB) is directly adhered to the upper upper part 60, a predetermined insole is built in the inside,

Alternatively, after the insole having a predetermined elasticity is adhered to the upper sole 60, the shoe body SB may be bonded to the upper insole and arranged.

Finally, although not shown in the accompanying drawings, the support members and the coil spring assembly are arranged not only on the heel but also on the front heel.

It is also possible to keep the shock absorbing shoes more functional.

In the above description with reference to the accompanying drawings, the structure of the present invention, the shock absorbing shoes have been described with a focus on a specific shape and direction, the present invention can be variously modified and changed by those skilled in the art, such variations and modifications are It should be construed as being included in the scope of the invention.

1 is a partial cross-sectional view showing a shock absorbing shoe according to the present invention,

2 is an exploded cross-sectional view showing a shock absorbing shoe according to the present invention;

3 is a cross-sectional view showing a shock-absorbing shoe according to the present invention,

4 is an operation diagram showing an operating state of the shock absorbing shoes according to the present invention;

5 is an operation view showing another modification of the shock-absorbing shoes according to the present invention.

<Explanation of Signs of Major Parts of Drawings>

10: outsole 11: the first receiving portion

11a: protrusion

20: first support member 21: first insertion portion

21a: fastening groove 23: first mounting portion

23a: 1st taper part 25: 2nd support part

30: coil spring

40: second support member 41: second insertion portion

41a: Settling groove 41b: Through hole

43: second mounting portion 43a: second tapered portion

45: second support part

50: coupling member

51A: Upper fastening part 51B: Lower fastening part

51a: Head 51b: Fastener

53: connection part 53a: wire

53b: ring 53c: fixing pin

55: elastic deformation portion 55a: groove

60: upper sole 61: second receiving portion

61a: protrusion

SB: shoe body LS: sole

Claims (5)

An outsole having a first receptacle; A first supporting member mounted to a first receiving portion of the outsole and having a first inserting portion; A coil spring arranged above the first support member; A second support member arranged above the coil spring and having a second insertion portion; Lower and upper fastening portions arranged in the first and second insertion portions, respectively; Connecting portions connecting the respective fastening portions, and A coupling member including an elastic deformation portion surrounding the connection portion; And An upper sole arranged on the second supporting member and having a second receiving portion for the second supporting member; Improved shock-absorbing shoes structure made, including. The method of claim 1, wherein in the coupling member The elastic deformation part is made of a soft material, the shock absorbing shoes with improved structure, characterized in that the grooves of the mutually staggered form is formed on the outer portion. The method of claim 1, Outside of the first and second insertion portions of each of the supporting members is further provided with annular first and second mounting portions for accommodating the coil spring, The shock absorbing shoes of the improved structure, characterized in that the inner wall surface of the first or second mounting portion, or both of them are made of an inclined tapered portion. The method according to any one of claims 1 to 3, wherein in the coupling member The connecting portion is made of a wire, The wire is shock-absorbing shoes with improved structure, characterized in that the wire is integrally connected to each of the fastening by insert injection. The method of claim 3, wherein The first and second mounting portion of the shock absorbing shoes with improved structure, characterized in that the first and second support portions provided to be in contact with each other when the coil spring is further compressed.

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