EP0035990A1 - Shoe sole - Google Patents

Abstract

1. Sole for shoes, having a sole upper side facing the sole of the foot and a sole under side facing the running surface, consisting of at least two prefabricated and substantially rigid parts (1, 2) and of at least one connecting part (3) of flexible material arranged in the region of the ball and glued to the substantially rigid parts (1, 2), which connecting part (3) is confined at the upper side (4) of the sole by parallel and straight edges extending over the total width of the sole, the substantially rigid parts (1, 2) as well as the connecting part (3) having at least at the marginal portions located adjacent each other a pore or cell structure, the pores or cells being at least partially opened at the surfaces glued to each other, characterized in that the connecting part(s) (3) is (are) formed of one single piece over the total thickness of the substantially rigid parts (1, 2) and that the cross-section of the connecting part(s) (3), taken in longitudinal direction of the sole, enlarges continuously in the lower region of the connecting part(s) in direction towards the under side of the sole (5).

Description

The invention relates to a sole for shoes, consisting of at least two preformed, essentially rigid parts, which are connected to one another by preformed connecting parts made of bulky material.

Rigid soles are already known and have the advantage that they support the foot in an orthopedically advantageous manner. If the rigid soles are orthopedically designed with a footbed, then they have a heel arch, an inner joint support, an outer joint support, a metatarsal support, a ball well and, if necessary, a toe barrier, all of which must have a certain strength and stability in order to perform their task to be able to.

Such rigid soles usually consist of wood, but also of cork or plastic. Wooden soles have the additional advantage that they have a temperature-regulating and moisture-absorbing effect, so that such soles are hygienic and comfortable to wear.

A disadvantage of such completely rigid and therefore non-bendable soles, however, is that the stiffness of the soles in the ball area of the foot's rolling movement is a hindrance when walking and may also be harmful to health. Soles have therefore already been proposed which consist of two wooden parts which are connected to one another in the ball area by a flexible connecting part. This makes the sole in the ball area flexible and elastic and can adapt to the rolling movement of the foot when walking.

In particular, it is also known to form the flexible connecting part from foamed polyurethane. Such a connecting part made of polyurethane can be foamed directly onto the wooden parts, a secure and firm connection between the connecting part and the wooden parts being achieved without additional measures. However, this requires separate molds into which the wooden parts are inserted, and then the polyurethane-forming material for the production of the connecting part must be entered into the mold, which material consists of two components, which are only immediately before being entered into the mold be mixed together in a mixing head. In the manufacture of such soles, which consist of wooden parts with foamed polyurethane connecting parts arranged between them, numerous costly devices are required, the purchase of which is only worthwhile if large series are to be produced.

Soles are also known which consist of two rigid parts which are connected to one another by an intermediate part made of flexible material which is glued to the two rigid sole parts. In these known soles, the connecting part consists of a strip-shaped material, the end of which is inserted into grooves which are arranged approximately in the middle of the opposite end face of the rigid parts to be connected to one another. These end faces are at a distance from one another, so that gaps are formed both on the side of the sole facing the foot and on the running side of the sole, which gaps are not filled by the connecting part provided only in the central region of the end faces. Such a sole is unusable in practice. When this sole is bent in the area of the connecting part, the width of the gap changes, which on the one hand creates the risk that the skin of the sole of the foot the user is pinched in a painful manner, on the other hand in the gap to the open tread stones or the like. reach, which block the position of the two rigid particles and make further turning impossible. In addition, with these known soles a flawless, permanent connection between the rigid parts and the connecting part made of flexible material is not guaranteed, since the usual adhesive connection alone does not withstand the constant bending stresses.

The present invention has for its object to avoid the disadvantages of the known soles and to provide a sole for shoes that is not only easy and simple to manufacture, but also in which a permanent connection between the substantially rigid part and the connecting parts made of flexible material. The invention is based on a sole of the type described in the introduction and essentially consists in that both the essentially rigid parts and the connecting parts have a pore or at least in the adjacent edge regions. Have cell structure, wherein the pores or cells are at least partially open on the contacting surfaces, and that these contacting fins are connected to each other by an adhesive. Connecting parts in the sense of the invention are the intermediate parts bridging the gap between the essentially rigid parts, the sole parts arranged on the underside of the essentially rigid parts, which can also be formed in one piece with the mentioned intermediate parts. It has been shown that in the sole according to the invention, the adhesive, as long as it has not yet hardened, penetrates into the open pores or cells of both the essentially rigid parts and the flexible connecting parts and solidifies there, so that the connection with the Adhesive takes place over a substantially enlarged surface and the adhesive is anchored in the pores or cells. This creates a mechanical connection between the essentially rigid parts and the flexible connecting parts, which can withstand even the heaviest loads. Bending tests on such soles have shown that the connection between the essentially rigid parts and the flexible connecting parts can also withstand a very large number of bending stresses. In addition, the production is simple because, if necessary after a pretreatment of the contacting surfaces, only the adhesive has to be applied. Since, in the sole according to the invention, the connecting parts extend over the entire thickness of the sole, that is, there are no gaps in the area of these connecting parts, the disadvantages of the known sole, in which the connecting part consists of a strip-shaped material, do not occur.

The essentially rigid parts can consist of wood or wood-based materials such as pressed wood or plywood in a manner known per se. Wood already has a pore structure, into which the not yet hardened adhesive can penetrate, so that essentially no pretreatment of the surfaces of the essentially rigid parts contacting the connecting parts is necessary. The essentially rigid parts can also consist of cork or cork materials such as pressed cork or cork latex (cork shot bound with rubber milk). Cork also has an open-pore structure into which the not yet cured adhesive can penetrate.

Finally, the essentially rigid parts and / or the connecting parts can consist of polymers having a cell structure. In this embodiment, too, after the cell structure has at least partially opened on the surfaces touching one another, the adhesive penetrates into the open cells, solidifies there and results in a good mechanical connection.

Foamed polymers, which have the desired cell structure, are expediently used for the essentially rigid parts and / or the connecting parts. These parts can be produced in a simple manner by adding a blowing agent to the material or by producing a gas which acts as a blowing agent during the reaction itself. Thus, low-boiling liquids such as fluorinated carbons or solid substances which release a gas when heated can be added to the material, whereupon this material is filled into a mold to form the essentially rigid parts or the flexible connecting parts and allowed to harden there. When the essentially rigid parts are made of polyurethane, carbonic acid is formed by the reactants forming the polyurethane during curing, which acts as a blowing agent.

According to the invention, the polymers can be provided with fillers. These fillers can be, for example, wooden parts, cork parts and / or leather parts, in particular leather fiber materials, that is to say substances which also have a cell structure. The use of such fillers not only saves on polymeric material, but these fillers, when used in the essentially rigid parts, also stiffen and reinforce these parts. Furthermore, a special appearance of the surface can be achieved with the fillers.

However, it is also possible, for example, to form the fillers of tiny bubbles according to the invention, the thin shell of which consists of elastic vinylidene chloride copolymer and / or vinyl chloride copolymer and whose hollow core contains a gas, preferably air. Such bubbles are already known. In such a case, it is not necessary to form the essentially rigid parts from foamed polymers, but instead a cell structure is created by embedding the bubbles in the polymers, so that the same effect is achieved as when using foamed polymers.

According to a further embodiment of the invention, at least the front area of an outsole glued to the underside of the rigid parts is formed in one piece with the connecting parts. This results in an additional connection between the rigid parts via the outsole, which is made of the same material as the connecting parts, that is also made of flexible material.

A particularly advantageous embodiment of the sole according to the invention is obtained if the width of the connecting parts - measured in the longitudinal direction of the sole - is greater than the smallest width in the intermediate central area, at least in the edge area adjacent to the foot sole, preferably also in the edge area adjacent to the tread. With such a design of the connecting parts, excessive stretching or compression of the edge regions, which are adjacent to the sole of the foot and also to the tread, is prevented. If there is too much elongation, ie if the specific elongation becomes too great, there is a risk that cracks and fractures will form in the connecting part or at the transition point between the connecting part and the rigid parts. If there is too much compression, the connecting part bulges outwards, which the wearer of the shoe provided with a sole according to the invention finds uncomfortable. In addition, even with such a strong compression there is a risk that the sole of the wearer is pinched between the rigid parts if the width of the connecting part - measured in the longitudinal direction of the sole - in the edge region adjacent to the sole of the foot is small and therefore the edges connected by the connecting part become of rigid parts when turning.

According to the invention, the edge regions of the connecting parts are rounded off in the middle region. This avoids sharp edges in which when turning Large tensile and compressive stresses occur which can lead to the destruction of the connecting parts in this area, and the connecting parts thus formed undercut the correspondingly shaped rigid parts, both in the edge region adjacent to the sole of the foot and in the edge region adjacent to the tread, so that the connection between the rigid parts and the connecting parts is further improved. The edge regions of the connecting parts preferably merge tangentially into the surface of the sole, as a result of which there are no steps at the transition point, which are perceived as disruptive by the user, in particular on the side of the shoe sole adjacent to the sole of the foot of the user. The thickness of the connecting parts increases steadily in such an embodiment, so that a smooth transition is formed between the rigid parts and the flexible connecting parts and no disturbing steps occur even when the connecting parts are loaded.

According to a further embodiment of the invention, the connecting parts are formed symmetrically to a central axis running essentially perpendicular to the tread and preferably also to an axis running perpendicular to this central axis and running essentially in the longitudinal direction of the sole. As a result, all bending stresses occurring are absorbed in the same way by the connecting parts and damage to these connecting parts in the case of such bending stresses is avoided with certainty.

In order to make the adhesive connection between the rigid parts and the connecting parts even more secure, it is advantageous if, according to the invention, projections extending on both sides essentially in the longitudinal direction of the sole protrude, which are formed in one piece with the connecting part. These approaches further enlarge the connection area between the rigid parts and the connecting part. An additional mechanical connection can be achieved in such an embodiment in that the lugs have undercuts at their free ends, for example are dovetail-shaped. In order to avoid local peak loads, it is expedient for the approaches to merge into the central area of the connecting part.

It is particularly advantageous if, according to a further feature of the invention, the connecting parts reaching to the sole surface facing the sole of the foot and at least the front region of the outsole formed integrally with the connecting parts consist of an electrically conductive material, for example of natural or synthetic rubber made electrically conductive . Such a rubber can be made electrically conductive in a simple manner by embedding fillers made of activated carbon, for example. With such a design of the sole, the connecting part not only achieves flexibility, but also the electrostatic charges of the person wearing a shoe provided with such a sole are dissipated. The fact that the connecting parts are arranged in the ball area and are integrally formed at least with the front area of the outsole, ensures that an electrically conductive connection is always made between the person's foot and the ground at every position of the person concerned, since, for example, also when Lifting off the heel part of the sole, the person is always supported in the ball area. If the connecting parts extend over the entire width of the sole, the required electrically conductive connection between the person and the ground is ensured even when the sole is inclined to the side.

The connecting parts can be parallel in one cut seen straight to the tread. However, it is expedient if the connecting parts are arched in section parallel to the tread, as a result of which the bending of the sole is adapted to the foot movement in an orthopedically more favorable manner when walking.

After the connecting parts have been glued to the rigid parts, at least the surface facing the sole of the foot, preferably also the side surfaces of the sole, are machined, for example by grinding or milling, in order to obtain a completely flat, stepless surface and to eliminate the steps which occur during the gluing process.

In the drawing, the invention is illustrated schematically using exemplary embodiments. 1 shows a sole designed according to the invention in a section in the longitudinal direction of the sole when used as an insole, over which the upper part is tweaked, and FIG. 2 when used as a sole, which simultaneously forms an insole and / or footbed.

The sole shown in the drawing consists of two essentially rigid parts 1, 2 which have a pore or cell structure and which are connected to one another by a connecting part made of flexible material which likewise has a pore or cell structure. The essentially rigid parts 1, 2 can be made, for example, of wood or wood-based materials such as pressed wood or plywood or of cork or cork materials such as pressed cork or cork latex _. (cork shot bound with rubber milk). All of these materials have a cellular structure. However, it is also possible to produce the essentially rigid parts from polymers which have a cell structure, that is to say in particular from foamed polymers or from polymers in which the smallest bubbles are arranged as fillers, the thin shell of which consists of elastic vinylidene chloride copolymer and / or vinyl chloride -Copolymerisat exists and its hollow core is a gas preferably contains air. The connecting part 3 either consists of a cell structure-like polymer, so it can be made of polyvinyl chloride, soft polyurethane, semi-hard polyurethane, synthetic or natural rubber, for example, and is arranged in the ball area. The sole of the foot of the user of a shoe provided with such a sole rests on the surface 4 of the sole, the surface 5 of the sole faces the tread and, in the embodiment according to FIG. 1, in which the sole is used as an insole, with one not shown Midsole and possibly an outsole connected, whereas in the embodiment according to FIG. 2 this surface 5 directly supports the outsole 6, which is then preferably formed in one piece with the connecting part 3.

The connecting part 3 is formed symmetrically both to a central axis 7 which runs essentially perpendicular to the tread and to an axis 8 which is perpendicular to this central axis and runs essentially in the longitudinal direction of the sole. The width B in the edge regions of the connecting part 3, that is to say in the regions facing the surfaces 4 and 5 of the sole, is larger than the smallest width b in the intermediate central region. As can be clearly seen from the drawing, the two edge areas merge rounded into the middle area and tangentially into the surfaces 4, 5 of the sole.

In the embodiment shown in FIG. 2, projections 9 extending from the central region of the connecting part 3 on both sides essentially extend in the longitudinal direction of the sole, which are formed in one piece with the connecting part 3. The lugs 9 are shown in a ball shape, but can also be dovetailed.

In the drawing, a sole is shown, which consists of two rigid parts, which by a single Ver are connected to each other. However, several connecting parts can also be provided in the bale area, which also increases the number of rigid parts connected by the connecting parts. The rigid parts between adjacent connecting parts are made very narrow in this case, since all connecting parts are provided in the bale area.

The sole according to the invention is produced by manufacturing the essentially rigid parts 1, 2 and the connecting parts 3 separately and then gluing them together. If the essentially rigid parts consist of the above-mentioned materials, which have a porous structure, pretreatment of the surfaces to be bonded to the connecting part 3 is not absolutely necessary. However, it is expedient to mechanically process these surfaces before bonding in order to remove any contaminants, residues or the like adhering to the surface, which could impair the adhesive effect. If the essentially rigid parts 1, 2 consist of foamed polymers or polymers provided with tiny bubbles as fillers, the surfaces to be glued must either be mechanically roughened or chemically pretreated in order to reveal the cell structure and any residues of an adherent to these surfaces To remove production in a mold originating release agent. The connecting parts are also to be machined on the surfaces to be glued either mechanically or chemically in the manner mentioned. Then the adhesive is applied, the individual parts are joined together in their correct position and pressed.

If the connecting parts have projections 9 which protrude from the central region and which are designed in the form of a ball or dovetail, these projections and / or the recesses in the rigid parts into which the projections are made intervene, coat with adhesive and the lugs can then be inserted laterally into the recesses. When the connecting parts 3 are formed in one piece with the outsole 6, this is also glued to the rigid parts 1, 2 simultaneously with the bonding of the connecting part. After the adhesive has hardened, the surface facing the sole of the foot and expediently also the side surfaces of the sole according to the invention are ground off, so that steps which have arisen during the gluing process are eliminated and these surfaces have no disturbing elevations or depressions.

Claims (20)

1. Sole for shoes, consisting of at least two preformed substantially rigid parts which are connected by preformed connecting parts made of flexible material, characterized in that both the substantially rigid parts (1,2) and the connecting parts (3) at least have a pore or cell structure in the adjoining edge regions, the pores or cells being at least partially open on the surfaces in contact with one another, and in that these surfaces in contact with one another are connected to one another by an adhesive. 2. Sole according to claim 1, characterized in that the substantially rigid parts (1,2) consist in a manner known per se made of wood or wood-based materials such as pressed wood or plywood. 3. Sole according to claim 1, characterized in that the substantially rigid parts (1,2) made of cork or cork materials such as pressed cork or cork latex (cork shot bound with rubber milk). 4. Sole according to claim 1, characterized in that the essentially rigid parts (1, 2) and / or the connecting parts (3) consist of polymers having a cell structure. 5. Sole according to claim 4, characterized in that the substantially rigid parts (1,2) and / or the connecting parts (3) consist of foamed polymers. 6. Sole according to claim 4 or 5, characterized in that the polymers are provided with fillers. 7. Sole according to claim 6, characterized in that the fillers are wooden parts, cork parts and / or leather parts, in particular leather fiber materials. 8. Sole according to claim 6, characterized in that the fillers are formed by tiny bubbles, the thin shell of which consists of elastic vinylidene chloride copolymer and / or vinyl chloride copolymer and whose hollow core contains a gas, preferably air. 9. Sole according to claim 1, characterized in that at least the front region of an outsole (6) glued to the underside of the rigid parts (1, 2) is formed in one piece with the connecting parts (3). 10. Sole according to one of claims 1 to 9, characterized in that the width (B) of the connecting parts (3) - measured in the longitudinal direction of the sole - is greater at least in the edge region adjacent to the sole of the foot, preferably also in the edge region adjacent to the tread than the smallest width (b) in the middle area in between. 11. Sole according to one of claims 1 to 10, characterized in that the two edge regions of the connecting parts (3) are rounded in the middle region. 12. Sole according to one of claims 1 to 11, characterized in that the edge regions of the connecting parts (3) pass tangentially into the sole surface (4, 5). 13. Sole according to one of claims 1 to 12, characterized in that the connecting parts (3) to a substantially perpendicular to the tread central axis (7) and preferably also to a perpendicular to this central axis, essentially extending in the longitudinal direction of the sole ( 8) are symmetrical. 14. Sole according to one of claims 1 to 13, characterized in that from the central region of the connecting parts (3) project on both sides essentially in the longitudinal direction of the lugs (9) which are integrally formed with the connecting part (3). 15. Sole according to claim 14, characterized in that the approaches (9) undercut at their free ends have gene, for example are dovetail-shaped. 16. Sole according to claim 14, characterized in that the lugs (9) are rounded in the central region of the connecting parts (3). 17. Sole according to claims 1 and 9, characterized in that the connecting parts (3) reaching to the sole surface facing the sole surface (4) and at least the front region of the outsole (6) formed integrally with the connecting parts from an electrically conductive material, for example made of natural or synthetic rubber made electrically conductive. 18. Sole according to claim 17, characterized in that the connecting parts (3) extend over the entire sole width. 19. Sole according to one of claims 1 to 18, characterized in that the connecting parts (3) - in section parallel to the tread - are arcuate. 20. Sole according to one of claims 1 to 19, characterized in that at least the surface facing the sole of the foot, preferably also the side surfaces, are machined, for example by grinding or milling.

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