DE4404016A1 - Shoe, with polyurethane surrounded, deformable, nitrile pedestal in the heel - Google Patents

Abstract

The reinforcing, deformable pedestal (1) of this shoe (2) is inside the heel. Two or more supports (6) extend below its platform, downward and outward. The upper surface (3) extends just over its support feet. The upward projection (5) locates the heel insol. Of nitrile rubber cpd., it is embedded in polyurethane (12). The method of mfr. is also claimed; the surrounding polyurethane is pressure injected.

Description

The invention relates to a shoe, in particular to a Safety shoe, and on a process for its manufacture.

A foot is particularly in its heel area when standing and walking exposed to very large loads. Depending on the Impact strengths of up to 300 kg can occur there Emerge 1/1000 sec. These bursts of energy are over the knees and hips forwarded to the spine so that joints and the spine very exposed to high loads that cause pain or damage being able to lead.

To reduce these loads, various damping and Stiffening systems have been proposed. For example Chip chips can be arranged in the shoe heels. Stiffen them the sales area, but do not lead to any dampening. Because of her Non-elastic behavior can cause heel fractures occur.

Furthermore, a heel construction is known in which a lower  Outsole made of a polyurethane foam as well Layer of existing polyurethane foam with a lower density is. Such a structure reaches that for safety shoes according to DIN 4843 / EN345 required value of 20 joules for energy consumption. Because of the weight of the person wearing such a shoe, However, the paragraph is compressed so that part of the Energy consumption is lost and thus the comfort decreases or the strain on joints, spine increases.

The invention is therefore based on the object of a shoe and a Specify process for its production, which stiffens sufficiently and is elastic, so that fatigue-free running and low Stress on the body are guaranteed.

This object is achieved by a shoe with the features of claim 1 and solved by a method with the features of claim 9.

The shoe according to the invention has at least one in its heel area elastically deformable stiffening element. This Stiffening element is essentially horizontal extending, plate-shaped section, of which at least two Extend support elements downwards. This stiffening element after the Invention can be between two layers of soles, e.g. B. between the Outsole and the insole of the shoe. The Stiffening element can be covered by a flexible material be, e.g. B. a material made of polyurethane.

A shoe with such a stiffening element is in his Heel area stiffened sufficiently so that the heel by weight the person wearing the shoe is compressed less. By  the increased stability will sink the foot into the Sole layers in the heel area largely avoided.

Due to the elasticity of the shoe according to the invention is simultaneously achieved excellent damping because the stiffening element in the Sales area yields so sufficiently that the energy surge occurring is cushioned when walking. When the foot rolls off, that is the right thing to do Stiffening element automatically, d. H. active, back on.

To ensure this, the stiffening element is made of one sufficiently elastic material. According to one Embodiment of the invention, the stiffening element consists of a Nitrile. The Z. B. consisting of a nitrile rubber Stiffening element can also be covered by a polyurethane foam be that provides sufficient flexibility. The combined Stiffening and damping effect is also due to the shape of the Stiffening element conditional. In particular, the support elements can give in to an occurring surge of energy and then yourself stand up again automatically. A certain flexibility can also be be given in the plate-shaped section which z. B. in could deflect to a small extent.

A shoe constructed according to the invention with good stability and Elasticity leads to a noticeable relief when standing and running of the spine and joints. The energy return is on the natural Rolling motion of the foot turned off. The energy intake is like this optimizes that the value of 20 joules required for safety shoes according to EN 345 is exceeded by more than 40%.

According to a further embodiment of the invention, the  from the bottom of the plate-shaped section down extending support sections, which are arranged in the form of legs can, diagonally outwards. Through this spreading of the support sections good lateral stability of the stiffening element is achieved. The Stiffening element can e.g. B. have four support sections that are from the four corner edges of a rectangular, plate-shaped section extend obliquely downwards and outwards, so that a Trapezoidal shape of the stiffening element is achieved.

In a further embodiment according to the invention, the plate-shaped section of the stiffening element lateral projections on, which is substantially horizontal from the plate-shaped Extend section outwards. The projections can on the longitudinal and / or transverse sides of the plate-shaped section. The Projections can also extend around the circumference of the plate-shaped section extend in the form of a flange. Such projections or one Flanges have the advantage that this creates a larger footprint for the heel bone is created and that further the stiffening element better anchored with the polyurethane foam that can encase it becomes.

On the top of the plate-shaped section can continue be formed at least one 'projection, which in a corresponding Indentation in the layer arranged above the stiffening element the paragraph is provided, can intervene so that Stiffening element z. B. is anchored in the insole of the shoe.

In the method according to the invention is first on one prefabricated shoe with insole the elastically deformable Stiffening element attached.  

For this purpose, the stiffening element can be on its top, for example have at least one projection, which in a on the bottom of the Insole trained recess can engage by clamping.

The shoe with the stiffening element attached is then in arranged in a shape. The stiffening element is based on this a previously made, e.g. B. injected outsole, previously in the shape was arranged.

The stiffening element is then, for. B. with a Polyurethane foam coated.

This creates another between the insole and the outsole Layer that completely envelops the stiffening element.

With this method according to the invention, a shoe is made in a simple manner achieved with good damping properties and sufficient rigidity.

An embodiment is described below with reference to FIG Drawings explained in more detail.

Fig. 1 shows a cross section through an embodiment of a stiffening element for a shoe according to the invention;

FIG. 2 shows a longitudinal section through the stiffening element according to FIG. 1;

Fig. 3 shows a top view of the stiffening element;

FIG. 4 shows a perspective view of an embodiment of a shoe according to the invention in which the heel is cut open to show the arrangement of the stiffening element according to FIG. 1 in the heel;

FIG. 5 shows the shoe according to FIG. 3 before the stiffening element is encased in an injection mold with a polyurethane foam.

In FIGS. 1-3, a stiffening element 1 is shown, which according to Fig. 4, 5 of a shoe 2 is arranged in the region of the shoulder.

The stiffening element 1 has a plate-shaped section 3 , on the edge of which lateral, horizontally extending projections in the form of a flange 4 are formed. According to. The stiffening element has a rectangular shape 3 mm with a size of 30 x 50. The thickness of the plate-shaped section 3 and the flange 4 is 1 mm. On the top of section 3 , two circular projections 5 with a diameter of 12 mm and a height of 2.5 mm are formed.

From the underside of the plate-shaped section 3 extend four, downwardly and obliquely outwardly extending support sections 6 , the free ends 7 of which protrude beyond the edge of the flange 4 ( FIGS. 1, 2), so that the stiffening element 1 has a trapezoidal shape. The support elements have a thickness of approximately 3 mm in the region of their free ends 7 .

The stiffening element is made of a nitrile material and has a height of 20 mm.

The arrangement of the stiffening element in the heel of the shoe 2 is shown in FIGS. 4, 5. The stiffening element 1 is arranged on an outsole 10 , the projections 5 on the top of the plate-shaped section 3 extending into an insole 11 of the shoe.

The stiffening element 1 is completely surrounded by a polyurethane layer 12 . This polyurethane layer gives the shoe the necessary flexibility, while the trapezoidal stiffening element made of nitrile rubber ensures stability.

The shoe is manufactured by first spraying the outsole 10 and placing it in an injection mold 13 ( FIG. 5). The stiffening element 1 is anchored via its projections 5 in the insole 11 of the shoe, the shoe then being arranged with the stiffening element on the outsole 10 in the form 13 . The foaming can then be carried out with a polyurethane foam, as a result of which the stiffening element 1 is completely covered. When foaming, the polyurethane sticks to the compatible nitrile rubber of the stiffening element 1 . The flange 4 of the stiffening element improves the anchoring in the polyurethane layer 12 .

The shoe 2 with its trapezoidal stiffening element 1 has an optimized energy absorption of more than 40% above the required value of 20 joules according to EN 345 for safety shoes. The combined stiffening and damping effect significantly relieves the spine and joints.

Claims (11)

1. Shoe, in particular safety shoe, characterized in that in the region of the heel of the shoe ( 2 ) at least one elastically deformable stiffening element ( 1 ) is provided, which has a plate-shaped section ( 3 ) and two or more support sections ( 6 ), which extend down from the bottom of the plate-shaped portion. 2. Shoe according to claim 1, characterized in that from the plate-shaped section ( 3 ) extending downward support portions ( 6 ) extend obliquely outwards. 3. Shoe according to claim 1 or 2, characterized in that the stiffening element ( 1 ) has a trapezoidal shape with four support sections ( 6 ). 4. Shoe according to one of claims 1 to 3, characterized in that the plate-shaped section ( 3 ) of the stiffening element has lateral projections ( 4 ) which extend substantially horizontally from the section ( 3 ). 5. Shoe according to one of claims 1 to 4, characterized in that the plate-shaped section ( 3 ) of the stiffening element ( 1 ) has at least one projection ( 5 ) on its upper side. 6. Shoe according to one of claims 1 to 5, characterized in that the stiffening element ( 1 ) consists of a nitrile compound. 7. Shoe according to one of claims 1 to 6, characterized in that the stiffening element ( 1 ) is covered by a polyurethane layer ( 12 ). 8. Shoe according to claim 7, characterized in that the stiffening element ( 1 ) and the polyurethane layer ( 12 ) between an outsole ( 10 ) and an insole ( 11 ) of the shoe ( 2 ) are arranged. 9. A method for producing the shoe according to one of claims 1 to 8, characterized in that

• (a) the elastically deformable stiffening element is attached to the insole of the shoe,
• (b) the shoe with the stiffening element is inserted into a mold, the stiffening element being supported on the outsole previously arranged in the mold, and
• (c) the stiffening element is then coated with an elastic material, so that a layer enveloping the stiffening element is formed between the insole and the outsole.

10. The method according to claim 10, characterized in that in step

• (a) the stiffening element is attached to the insole via at least one formed projection which engages in a recess in the insole.

11. The method according to claim 9 or 10, characterized in that at Step (c) the stiffening element with a polyurethane foam is encased.