KR910008959B1 - Shoe bottom for sports shoes - Google Patents

Abstract

1. A shoe bottom, in particular for sports shoes, which in the shank (5) has weak locations (6, 7) for reducing the torsional stiffness about an axis extending substantially in the longitudinal direction of the shoe, in order to permit twisting, which is adapted to the natural movement of the foot, of the front sole portion (3) relative to the rear sole portion (4), about said axis, characterised in that the shank (5) of the shoe bottom (1, 2) is stiffened against bending about an axis extending transversely with respect to the longitudinal direction of the shoe by a striplike or rod-like stiffening element (9) which is directed in the longitudinal direction of the shoe.

Description

Sneakers

1 is a partial cutaway view from the bottom of an outsole in accordance with the present invention.

FIG. 2 is a partial cross-sectional view taken along line II-II of FIG. 1, showing a side view of the outsole shown in FIG.

3 is a partial side view of the outsole shown in FIG. 1, shown in the direction indicated by arrow III.

* Explanation of symbols for main parts of the drawings

1: middle window 2: wear window

5: shank 6, 7: space

8: Rim 9: Reinforcement Element

92, 93: fixed insert 95: opening

The present invention relates to a shoe sole, and more particularly to a shoe sole for sneakers having the features mentioned in the features of claim 1.

It is known in the ergonomics that there is a torsional action about the axis extending substantially in the longitudinal direction of the foot in the area of the tongue of the tongue, ie the natural ups and downs of the foot between the heel and the anterior part of the foot over the shank of the shoe sole. have. In view of this torsional movement it is known to provide the shank of the sole of the shoe at a weakened position where the front window is twisted about the rear window about an axis extending substantially in the longitudinal direction of the shoe (German Patent No. 804,901). This weakened position is caused by reducing the thickness of the shoe sole or window in the area of the shank, while preferably leaving a central rim that extends substantially in the longitudinal direction of the shoe (DE-AS). 1485804) or a space filled with a low strength filler that extends inward from the side edges of the shoe sole (German Patent No. 943,996).

The weakened position in the shank of the shoe sole to reduce the torsional strength necessarily results in a decrease in resistance to the sole of the shoe about the transversely extending axis. According to the above technique, as long as the shape is provided to the foot with a rigid support surface in the shank area, a wedge-shaped longitudinal window is proposed to prevent the sole of the shoe from being worn in the shank area of the shoe by the heel member (general utility model) 1719678). Due to the result of the foot having excessive freedom of movement in the ulnar connection area, not only the deformation of the sole of the shoe in relation to the torsion in the shank area, but also the desired twisting or torsion of the anterior window relative to the posterior window, if it is easily bent in this area, will result in improper guidance and maintenance of the foot. Cause. This is manifested in particular as a lack of lateral stability when the runner's feet encounter surface irregularities that must be encountered when walking, walking, racing through bushes, or jogging.

The present invention is based on the problem of providing a shoe sole of the kind mentioned in the opening of the present specification which ensures that the foot is well guided and maintained without adversely affecting the desired torsional absorption between the anterior and posterior windows.

According to the invention it is achieved in the shape mentioned in the characterizing part of claim 1.

According to the invention, the shank of the sole of the shoe is reinforced against bending by means of reinforcement means about an axis extending transversely with respect to the longitudinal direction of the shoe, and in this connection the increased resistance to the bending of the shoe sole It is particularly concerned with the bending motion which occurs by bending of the sole of the shoe in the convex shape, towards or downward.

Particularly preferably, the reinforcing means is an element fixed to the sole of the shoe adjacent the ground plane, withstanding tension and extending in the longitudinal direction of the shoe. As the reinforcing effect with respect to the shoe sole is provided underneath the ″ middle bending fiber ″ of the shoe sole, with very low degree of stretch or inelasticity of the tension resistant element, the element may have some resistance to its bending. no need. It is an important advantage that an element that resists tension and, for example, is lateral, does not have any torsional strength of its own and is not adversely affected by the desired warp of the front window relative to the rear window. Therefore, the resistance to bending of the shoe sole in the shank area can be controlled within a wide range by using a tension resistant member without the influence of the torsional strength of the shoe sole in the shank. Another important advantage is that the reinforcement effect by the tension resistant means becomes substantially lighter as an important consideration with respect to sneakers as compared to the reinforcement means which have its own resistance to bending (eg steel shank springs). There is a high degree of strength available at very low weight, almost inextensible and resistant to tension, which is made of, for example, metal wires, carbon and glass fibers, plastic wires and sectional elements.

In certain embodiments of the invention, the weakened position to reduce the torsional strength in the shank of the sole of the shoe is inclined (forward or backward) or extends transversely from the edge inwards and extends to the rim of the shoe sole, Is the space extending in the longitudinal direction of.

Preferably the rim extends substantially centrally between the side edges of the sole of the shoe. This shape provides for a strong element to stretch along the rim with respect to tension. In this arrangement, in the general manufacture of shoe soles from plastic material, the tension resistant element is fitted to the rim adjacent the bottom. The elements may also be arranged along a free surface below the rim, in which case the wear window fixed to the front and rear windows does not directly contact the tension resistant element with the ground. In this way the tension resistant elements are arranged very close to the ground contact surface of the shoe sole.

Even if the reinforcing element is formed of the above tension resistant element, the reinforcing element can be inserted and inserted over the entire length of the sole of the shoe so that the force can be transmitted over the entire length with the reinforcing effect. An important consideration regarding reinforcement means that only resists tension and reinforcement means that resists bending is that the reinforcement effect is unnecessary when the two ends are firmly and properly secured to the sole of the shoe. For this purpose a fixation insert is preferably provided at the end of the reinforcement means and the fixation insert is fixed to the sole of the shoe, for example by inserting it directly. The fixed insert is shaped to prevent movement in the longitudinal direction of the shoe in response to the force acting when the sole of the shoe is undulating.

Embodiments of the present invention are described in more detail below with reference to the accompanying drawings.

The outsole forming the sole of the shoe together with the inner sole as shown in the figure is arranged on the ground mating surface and intermediate wear window (2), for example, of a foamed plastic material such as polyurethane (2). Is done. The outsole is divided into the front window portion 3 and the rear window portion 4 at the shank 5. The window is divided into two spaces 6 and 7 which extend inward from the inner and outer corners of the window and incline forward. As can be seen in FIG. 3, the spaces 6 and 7 extend through the shoe sole to more than half the height of the window. Between the opposite ends of the spaces 6 and 7, the thickness of the midsole remains the same, thereby providing a rim 8 extending substantially centrally in the longitudinal direction of the window. Due to the spaces 6, 7 the front window part 3 is separated in relation to the torsion relative to the rear window part 4. In other words, the front window portion 3 can be twisted with respect to the rear window portion 4 about an axis extending substantially in the longitudinal direction of the rim portion 8. This corresponds to the natural movement of the foot when the foot is ups and downs, thus helping the ups and downs.

The reinforcing element indicated by reference numeral 9 is inserted into the intermediate window 1. The reinforcing element 9 is a plastic wire 91 which is resistant to tension and has low elongation (for example made of nylon) and is joined in parallel parallel relationship to form a flat side, and fixed to the end of the wire 91. Consisting of fixed inserts 92 and 93. For example, the plastic wire 91 having a diameter of 1.5 mm is connected to and fixed to the fixed inserts 92 and 93 made of a plastic material, for example, by being inserted directly into the fixed insert. The plastic wire 91 may be joined together over the entire length. The fixed inserts 92 and 93 have a plate shape (see FIG. 2) and have side leg portions 94. The fixed inserts 92 and 93 have an opening 95, and the material of the intermediate window 1 can pass through the opening 95 to be shaped or shaped, so that the fixed insert in the window is inserted. .

As shown in FIG. 2, the bottom surface of the rim 8, on which the plastic wire 91 extends, is disposed on the ground contact surface of the wear window 2. In the illustrated embodiment, the wear window 2 has a blocking part or a hole 10, in which a plastic line 91 is arranged at both parts of the window, namely the front window part 3 and the rear window part 4. This allows the side formed by the plastic wire 91 to be curved in the case of the twisting movement of the front window portion 3 with respect to the rear window portion 4. However, the hole 10 is not necessary. It is sufficiently possible that the reinforcing element 9, in particular the plastic wire 91, is completely covered by the wear window 2 to protect the wire 91 from damage.

From the above description, the resistance to bending of the outer window about the transverse axis extending perpendicular to the rim 8 can be controlled by the resistance to the elongation of the tension of the reinforcing element 9. If the resistance to bending of the window is increased, the number of plastic wires 91 and the width of the direction formed thereby will increase. In principle, the thickness of the plastic line can be increased, but care must be taken to avoid increasing the torsional strength of the sole of the shoe in the shank area by increasing the line thickness.

Instead of the plastic wire 91 described in the illustrated embodiment, other reinforcement means that resists tension may be used. Thus, the fixed inserts 92 and 93 can provide nets, meshes or fabrics of glass or carbon fiber, which are shaped and inserted into the window in a manner similar to the above. By selecting the width of the fabric formed by such a fabric, it is possible to control the tensile strength and thus the bending strength within a wide range without significant influence on the weight of the sole of the shoe. However, within the scope of the present invention there is an arrangement of flat metal faces, including metal faces having a correspondingly low degree of bending strength while having considerable tensile strength with a small thickness.

Claims (8)

Weakened in the shank 5 to reduce torsional strength about an axis that extends substantially in the longitudinal direction of the shoe to allow for the natural movement of the foot and allow the anterior window portion 3 to twist about the rear window portion 4 about the axis. Shoe sole for sneakers having the retracted positions (6, 7), wherein the shank (5) of the shoe sole (1, 2) is reinforcing means against bending about an axis extending transversely with respect to the longitudinal direction of the shoe Shoe sole for sneakers, characterized in that reinforced with (9). 2. Shoe sole according to claim 1, characterized in that the reinforcing means is an element (91) which is strong in tension and extends in the longitudinal direction of the shoe and is fixed to the shoe sole (1, 2) adjacent to the ground contact surface. 3. The shoe of claim 2, wherein the element 91, which is resistant to tension, is lateral in shape and secured to the sole of the shoe at the end of the element 91 by means of fixed inserts 92,93. floor. 4. The space according to claim 2 or 3, wherein the weakened position extends inward from the corners transversely or obliquely to reduce the torsional strength and extends to the rim 8 extending longitudinally of the shoe from the sole of the shoe ( 6, 7), wherein the element 91 is resistant to tension and extends along the free surface under the rim 8; 5. Shoe sole according to claim 4, characterized in that the element (91) extends along the free surface under the rim (8). 3. The shoe sole according to claim 2, wherein the element resistant to tension is formed of metal wire or rod, plastic material, carbon or glass fiber. 7. The shoe sole according to claim 6, wherein the rods or lines are arranged in parallel to each other and connected to each other by welding or adhesive. 3. The shoe sole according to claim 2, wherein said element resistant to tension is a fabric or a net composed of low-strength fibers resistant to tension.

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