CS268548B2 - Shoe bottom especially for sports shoes - Google Patents

Abstract

Ein Schuhboden, inbesondere für Sportschuhe, der im Gelenk (5) die Torsionssteifigkeit um eine etwa in Schuhlängsrichtung verlaufende Achse herabsetzende Schwachstellen (6, 7) aufweist, um eine der natürlichen Fußbewegung angepasste Verdrehung des Vordersohlen­bereiches (3) gegenüber dem Hintersohlenbereich (4) um diese Achse zu ermöglichen. Um eine erhöhte Stabilität und eine bessere Führung des Fusses bei Beibehaltung der erwünschten Verdrehbarkeit zu er­zielen, ist vorgesehen, daß das Gelenk (5) des Schuh­bodens gegen Biegung um eine quer zur Schuhlängs­richtung verlaufende Achse durch solche Versteifungs­mittel (9) versteift ist, die keine Erhöhung der Torsionssteifigkeit herbeiführen.

Description

The invention also relates to a shoe base, in particular for sports shoes, having weakened points at the point of the joint, reducing the torsional stiffness about an axis extending substantially along the length of the shoe to allow rotation of the front and rear sections of the shoe about this axis.

It is known from biomechanics that during the natural rolling of the foot with the toe and heel, approximately in the region of the cuneiform axes, above the knee joint, it rotates about an axis that extends approximately in the longitudinal direction of the shoe. deliberately weakened areas that allow the front section to be pivoted against the rear section of the shoe bottom approximately about an axis extending in the longitudinal direction of the shoe. a joint, whereby a central web remains expediently in the longitudinal direction of the footwear, as described in German DAS 14 85 804, or recesses can be provided which extend from the edges of the sole towards the inside and are filled with a less rigid padding material as described in German Pat. No. 943,996.

However, weakened points in the shoe bottom joint that reduce the torsional stiffness, however, necessarily reduce the flexural stiffness of the shoe bottom about the transverse axis. This is desirable, according to the cited literature, merely suggesting that a long wedge insole prevents the sole of the shoe from being squeezed in the area of the toe joint and the heel. This is described in German pattern No. 17 19 678. In this way, the foot also receives a fixed bearing surface in the region of the sole joint. However, in particular in sports shoes, it has been found that in principle the desirable possibility of turning the front section of the sole against the rear section results in insufficient guidance and holding of the foot when the sole in the joint area is not only torsional but also in motion. metatarsel joints too much freedom of movement. This proves to be inadequate lateral stability, especially when the runner steps on the uneven track, which is during hiking, running in the woods, jogging and so on. usually inevitable.

It is therefore an object of the present invention to provide the sole of the shoe such that, without adversely affecting the desirable torsional link between the front and rear sections of the sole, it provides better guidance and posture.

The invention solves this object and its essence is that the bottom of the shoe is reinforced by a bending reinforcement about an axis running transverse to the longitudinal direction of the shoe.

According to the invention, therefore, the hinge of the shoe bottom is reinforced against bending about an axis perpendicular to the longitudinal direction of the shoe by a reinforcement, and the increased bending resistance relates in particular to such a bending which is convex downwardly, i.e. desktop.

Particularly preferably, the reinforcement comprises a tensile element which extends in the longitudinal direction of the shoe at the bottom near the tread. This tensile strength element need not in itself have bending stiffness, because the reinforcement of the bottom of the shoe is achieved by the fact that the tensile strength element has no or only slight extensibility and is located below the neutral fiber of the bottom of the shoe. This has the considerable advantage that the tensile element, which may be, for example, tape-like, does not have its own torsional stiffness and thus does not affect the desirable ability to pivot the front section with respect to the rear section of the sole. Thus, the flexural stiffness of the shoe bottom in the joint can be controlled to a wide extent by the use of such a pulling element, without at the same time affecting the torsional stiffness in the joint of the shoe bottom. Another important advantage is that, compared to reinforcements having their own bending stiffness, for example steel springs, etc.,

CS 268 548 B2 element in tensile strength much lighter »which is very important for sports shoes · There are tensile and almost unstretched materials with high strength and low weight» for example metal wires »carbon and glass fibers» plastic wires and tape elements »made of them ·

In the shoe according to the invention, the weakened joints at the bottom of the shoe »reducing stiffness in the shoe» are formed by recesses »starting from the shoe edge towards the center of the shoe across or diagonally back or forward and extending to the web» According to the invention, the tensile element extends along this web. In this case, it can be disposed in the usual production of the plastic footwear. · In addition, the tensile element can be arranged along the lower free surface of the web »with a wear-resistant base» secured from below to the front and rear sections of the pod »ensuring that the tensile element does not come directly in contact with the ground · In this arrangement, the tensile element is located in close proximity to the tread of the shoe base ·

Even if it is formed by said tensile element, the reinforcement can be stored in its entire length at the bottom of the shoe, so that it can transmit the reinforcing force along its entire length. However, it is not necessary »because both bending stiffeners and tensile stiffeners are essentially dependent on» their two ends being firmly attached to the bottom of the shoe. bottom of the shoe fastened »for example, directly potted; these anchor inserts are designed so that they cannot move in the longitudinal direction of the shoe by the forces which cause the shoe bottom to roll on the ground.

The invention will be explained by way of example with reference to the drawing in which: Figure 1 is a bottom sectional view of a sole according to the invention with a partial section »Figure 2 is a side sectional view of the sole of Figure 1 in section II-II in Figure 1; 3 is a partial side view of the sole of FIG. 1 in the direction of arrow III.

The sole shown in the drawing », which together form a shoe sole, not shown, consists essentially of a midsole 2 of foamed plastic», for example polyurethane, and a wear outsole 2. »which can be profiled and is placed on the sole of the shoe sole to the ground. The sole is divided in the hinge 2 into a front section 3. and a rear section 4. There are two recesses 2 »7» which extend from the outer edge and inner edge of the sole back and forth and which extend through the bottom of the shoe more than half its height. Fig. 3 shows between the facing ends of the recesses 2 »7 the thickness between the soles 1 is unchanged» so as to form a web 8 »which lies approximately centrally and extends in the longitudinal direction of the sole. of the rear section 4 », which means that the front section 2 ^β ο can pivot about the axis» running around the web 8 »relative to the rear section 4, which corresponds to the natural movement of the foot during walking and running and thus supports this movement.

A reinforcement 2 is embedded in the midsole 2. The reinforcement 2 consists of plastic wires 91 »for example nylon» which are tensile and have little extensibility. The plastic wires 91 are arranged parallel to each other in a planar strip. Another part of the reinforcement 2 is anchor inserts 92. 93 which are fastened at the end of the plastic wires 21. The plastic wires 91 having a diameter of, for example, 1.5 mm are firmly connected to the anchor inserts 92. 93 also made of plastic » zalitím. The plastic wires 91 may be joined together along a length in a single formation. The anchor inserts 92 »93 are pad-shaped» as shown in Fig. 2 »and have side wings 94.

CS 268 548 B2

The anchor inserts 92 · 93 have openings 95 · through which the midsole material can be passed during casting or molding and thus embed the anchor inserts 92 · 93 ·

As shown in FIG · 2, in the lower side of the web 8 _t along which extend plastic wires 91 · above the tread side wears! OPTION sole 2 · In the embodiment shown has a wear sole 2 in the front section J and the rear section £ recess 10, which lies freely the plastic wires 11 thereby allowing the strip formed by the plastic wires 21 to be bent when the front section J is against the rear section 6 of the sole. However, the recess 10 is not necessary; it is conceivable to completely cover the reinforcement 2 with the wear sole 2, especially the plastic wires 91 · to protect them from damage ·

The flexural stiffness of the sole around the transverse axis perpendicular to the web 8 can be controlled by the elongation resistance of the reinforcement 2. If the flexural stiffness is to be increased, this can be done by increasing the post of plastic wires 91 and thus increasing the width of their layer. In principle, it is also possible to consider using thicker plastic wires, but it is necessary to prevent their reinforcement from increasing the bending stiffness of the bottom of the shoe in the joint.

Of course, other reinforcing elements that have a high tensile strength may be used instead of the plastic wires 21 'described in the specific embodiment shown. For example, a mesh, mesh or glass or carbon fiber web may be fastened with anchor inserts 92 · 93 By selecting the belt width of such a fabric or knitted fabric, the tensile strength and the resulting bending stiffness can be controlled within wide limits, without appreciably affecting the bottom of the shoe. Within the framework of the invention, flat metal strips can also be provided as reinforcement 2, which, due to their low thickness, have a sufficiently low bending stiffness but also have a considerable tensile strength.

Claims (8)

1 · Bottom of footwear »especially for sports shoes» which has weak points at the joint, reducing the torsional stiffness around the axis »extending substantially along the foot of the shoe to allow rotation of the front and rear of the sole around this axis corresponding to natural foot movement» »That the bottom (5) of the shoe is reinforced with a reinforcement (9) against bending around an axis running transverse to the longitudinal direction of the shoe · Bottom of the shoe according to claim 1, characterized in that the reinforcement (9) consists of a tensile element (91) which extends in the longitudinal direction of the shoe and is anchored in its bottom near the tread surface. The shoe sole according to claim 2, characterized in that the tensile element (91) is strip-shaped and is fastened at its ends to the sole of the shoe with anchor inserts (92, 93). 4. Shoe bottom according to claim 2 or 3, characterized in that the tensile element (91) extends along the sole (8) of the sole, which lies in the longitudinal direction of the shoe and to which recesses (6, 7) extend obliquely or transversely. from the edge of the outsole to reduce torsional stiffness. · 5. Shoe bottom according to claim 4, characterized in that the tensile element (91) extends along the free lower surface of the web (8). . 6. Shoe sole according to one of Claims 2 to 5, characterized in that the tensile element consists of rods or wires of metal, plastic, carbon or glass fiber and the like. 7. Shoe bottom according to claim 6, characterized in that the rods or wires are arranged parallel to each other and joined together by gluing or welding. Bottom of shoe according to one of Claims 2 to 5, characterized in that the tensile strength element is formed by a fabric or knitted fabric of tensile strength fibers and 8 of low extensibility.