EP0233328B1 - Sports shoe, in particular a ski boot made of plastic - Google Patents

Abstract

A shoe upper portion of a ski boot comprises a shell portion enclosing the foot and a tongue portion attached thereto. The tongue portion comprises an instep region and a shin region and a transition region therebetween. A corrugated or undulated wall section having elevations and depressions, i.e. corrugations, is located in the transition region. This wall section is composed of a different type of material than the remainder of the tongue portion and possesses a lower bending stiffness or flexural rigidity than the remainder of the tongue portion. This wall section is non-detachably joined to the remainder of the tongue portion and forms therewith a unitary structure. The larger bending or flexural elasticity of the wall section facilitates bending of the lower leg.

Description

The present invention relates to a sports shoe and, in particular, to a plastic ski boot according to the preamble of claim 1.

Ski boots made of plastic have a relatively stiff upper, which makes walking with such ski boots and bending the lower leg forwards and backwards very difficult. Various proposals have therefore been made to remedy these disadvantages. For example, ski boots are known which are wave-shaped in the shin instinct area (see, for example, US Pat. No. 3,988,842 and the published international patent application WO 8 100 507). Such a measure makes it easier to bend the lower leg forward, but not to the desired extent, and it should also be noted that the bending elasticity of the undulating region of the upper of the shoe also decreases at lower temperatures.

In addition, ski boots have also been proposed in which inserts made of a material with rubber-elastic properties are inserted into slots in the shin instinct area of the upper of the shoe (EP-A 0 053 340). With these inserts, which are not articulated in a flexible manner when the lower leg is bent, but are pressed together, the forward movement of the shoe upper can be dampened and its spring-back properties improved, but this requires considerable manufacturing effort.

From FR-A 2 292 442 a two-part ski boot of the type mentioned is known, in which each shoe part consists of thin-walled shell parts which are reinforced by means of ribs which are arranged in areas of high mechanical stress. The wall area of one shoe part surrounding the heel area of the wearer is designed like a bellows, as a result of which the shoe is given a certain elasticity in its longitudinal direction. This bellows-like wall area has a lower bending stiffness than the immediate area of this shoe part and is made of the same material as the other areas of this shoe part. By arranging the stiffening ribs and the shell sections differently, shoe parts of different stiffness can be obtained.

The present invention is based on the object of creating a sports shoe of the type mentioned at the outset with improved bending behavior compared to the prior art and which can be selected within further limits, without the need for a significant additional manufacturing effort.

This object is now achieved according to the invention by the features of the characterizing part of claim 1.

By providing wall sections which have a lower bending stiffness than the surrounding wall area and which are made of a different type of material compared to the latter, an increased bending elasticity can be achieved at the desired locations of the shoe upper. Since the design and position of these more flexible wall sections is largely freely selectable and there is also a certain freedom in the choice of material for these wall sections, the bending behavior of the shoe upper can be better adapted to the various requirements than is possible with the previously known sports shoes.

Particularly preferred further developments of the shoe according to the invention are described in the dependent claims.

• Fig. 1 in Schrägansicht einen Skischuh mit einem gerippten Zungenteil grösserer Biegeelastizität,
• Fig. 2 einen Schnitt entlang der Linie 11-11 in Fig. I,
• Fig. 3 ein das unterschiedliche Biegeverhalten von aus andersartigen Werkstoffen bestehenden Schuhoberteilen verdeutlichendes Diagramm, und
• Fig. 4 - 14 in Schräg- bzw. Seitenansicht weitere Ausführungsformen von erfindungsgemässen Skischuhen.

Exemplary embodiments of the subject matter of the invention are explained in more detail below with reference to the drawing. It shows purely schematically:

• 1 in an oblique view a ski boot with a ribbed tongue part with greater bending elasticity,
• 2 shows a section along the line 11-11 in Fig. I,
• 3 shows a diagram illustrating the different bending behavior of shoe uppers consisting of different types of materials, and
• 4 - 14 in oblique or side view further embodiments of ski boots according to the invention.

The ski boot 1 shown in Fig. 1 is formed by a shoe upper made of plastic and a sole 3, which is also made of plastic. The shoe upper 2 has a relatively rigid shell part 4 encompassing the foot and a tongue part 5 which overlaps it and which extends into the instep area 6 and the shin area 7. The tongue part 5 is connected on both sides of the shell part 4 to this shell part 4 at connection points designated by 8.

The upper 2 also has a rear shaft part 10 (spoiler) arranged in the calf region 9, which is pivotally connected to the shell part 4 by means of joints 11 arranged on both sides of the shell part 4. The rear shaft part 10 is detachably connected to the tongue part 5 by means of a locking device 12 of a known type.

A soft, cushioned inner shoe 13 is arranged in the interior of the shoe upper 2 in a manner known per se. Arranged between the inner shoe 13 and the shoe upper 2 is a foot restraint plate, not shown in FIG. 1, which can be applied to the foot by means of a tensioning lever arranged on the rear shaft part 10 and not visible in FIG. 1, as in EP-OS 0 157 240 is explained in more detail.

In the area of the transition 14 from the instep area 6 to the shin area 7, the tongue part 5 is provided with a corrugated wall section 15 (see also FIG. 2). This wall section 15 has elevations 16 and depressions 17 lying between them.

This wall section 15 now consists of a different type of material than the rest of the tongue part 5 and also as the shell part 4 and the rear shaft part 10, so that this wall section 15 has a lower bending stiffness, ie de Accordingly, it has a greater bending elasticity than the rest of the tongue part 5, the shell part 4 and the rear shaft part 10. For example, the tongue part 5, the shell part 4 and the rear shaft part 10 consist of the same polyamide, while the wall section 15 consists of a different polyamide. Tongue part 5, shell part 4, rear shaft part 10 and wall section 15 thus consist of plastics of the same schematic category but with different properties. "Grilamid" has proven to be a suitable material for all of these parts.

As shown in FIG. 2, the wall thickness b of the wall section 15, at least in its edge area 15a, is approximately the same as the wall thickness a of the wall area 18 of the tongue part 5 surrounding this edge area 15a of the wall section 15.

All parts 4, 5, 10 of shoe upper 2 are expediently produced by injection molding. It has proven to be expedient to produce the wall section 15 in a separate operation and then to insert the finished wall section 15 into the injection mold for the tongue part 5. When the material for the tongue part 5 is subsequently introduced, the inserted wall section 15 softens at least in its edge region 15a and the edge regions 15a of the wall section 15 merge with the surrounding wall region 18 of the tongue part 5 in a manner indicated by dashed lines in FIG. 2 Connection zone 19. In this way, the wall section 15 is firmly and permanently connected to the adjacent area 18 of the tongue part 5 to form a quasi-one-piece structure.

By means of this wall section 15 of lower bending stiffness than the rest of the tongue part 5, a different bending behavior is achieved than if the whole tongue part 5 were made of the same material. This should be illustrated with the aid of FIG. 3, which shows the deflection a of plastic parts as a function of the applied bending force P. For a component made of a more flexible plastic, as used for the wall section 15 (curve I), the deflection is greater at a certain force than for a component made of a more rigid plastic, as used for the rest of the tongue part 5 (curve 11).

The ski boots shown in FIGS. 4-6 largely correspond to the ski boot according to FIG. 1, differ from it as well as from one another by a different arrangement or configuration of the more flexible wall areas.

The embodiments shown in FIGS. 4 and 5 differ from the ski boot according to FIG. 1 in that the entire corrugated wall section 15 does not consist of a more flexible material, but rather only the elevations 16 (FIG. 4) or only the depressions 17 ( Fig. 5). In the embodiment shown in FIG. 6, the corrugated wall section 15 does not consist of a more flexible material, but the uppermost wall section 20 of the tongue part 5 arranged in the shin region 7.

7 to 11 show ski boots which are similar to one another and differ from one another only by the different arrangement or design of the more flexible wall regions. I, 4 - 6 differ from the ski boot according to FIGS. 7, 11 in that there is no tongue part 5 separate from the shell part 4, but rather that the shell part 4 extends over the instep area 6 into the shin area 7 extends. 7-11 therefore consists of only two parts, namely the one-piece shell part 4 provided with the sole 3 and the rear shaft part 10. In FIGS. 7-11, the previously mentioned tensioning lever 21 is for Tensioning and loosening the foot restraint plate shown. In the area of the transition 14 from the instep area to the shin area 7, the shell part 4 has a corrugated area 22.

In the embodiment according to FIG. 7, the upper wall section 23 lying in the sliding area 7 is made of a different type of material than the rest of the shell part 4 and is more flexible than this. In the ski boot according to FIG. 8, the wall section of the shell part 4, designated 24, is less rigid than the rest of the shell part 4. This more flexible wall section 24 is located in the area of the transition 14 from the instep area 6 to the shin area 7.

In the variant shown in FIG. 9, the shell part 4 in the instep area 6 and in the shin area 7 or in the transition area 14 between these areas 6, 7 is provided with two wall sections 25 and 26 of greater bending elasticity. The area lying between these two wall sections 25 and 26 can either consist of the same material and have the same bending stiffness as the rest of the shell part 4 (FIG. 9) or it can be designed such that its bending elasticity differs from both the wall sections 25 and 26 as well as from the rest of the shell part 4, as shown in FIG. 10. In this embodiment, the wall section designated by 27 consists of a plastic which differs in its properties both from the plastic used for the wall sections 25 and 26 and from the plastic from which the rest of the shell part 4 is made. In this way, two regions 25, 26 and 27 of lower flexural rigidity are obtained, which also differ in their flexurally elastic properties.

In the ski boot according to FIG. 11, the shell part 4 is provided with a wall section 28 with greater bending elasticity, which extends over the instep area 6 into the transition area 14 to the shin area 7. Furthermore, the rear shaft part 10 also has a wall section 29 which is made of a different type of plastic than the rest of the rear shaft part 10 and which has a lower bending stiffness than the rest of the rear shaft part 10. As shown in FIG. 11 goes ahead, this more flexible wall region 29 extends upwards on both sides of the rear shaft part 10 and runs around the shoe above the closing device 12. In the ski boot 1 shown in FIG. 11, the parts of the shell part 4 and the rear shaft part 10, which consist of a more rigid plastic than the wall sections 28 and 29, form a type of frame which gives the ski boot the desired rigidity in the lateral direction, but a bending in the longitudinal direction of the shoe.

In the ski boots shown in FIGS. 12-14, in addition to the rear shaft part 10, a front shaft part 30 is articulated on the joints 11, which spans the shin area 7. 12, the shell part 4 is provided in the instep area 6 and in the transition area 14 with a wall section 31 which is more flexible than the rest of the shell part 4.

In the embodiment according to FIG. 13, the rear shaft part 10 is provided with a corrugated or ribbed wall section 32 which has a lower bending stiffness than the rest of the rear shaft part 10.

The ski boot 1 shown in FIG. 14 is provided in the region of its toe 33 with a corrugated wall section 34 which extends in the toe region over the upper 2 of the shoe. This more flexible wall part 34 makes walking easier, as indicated by the dash 33 shown in dashed lines.

The ski boots shown in FIGS. 4-14 are basically produced in the manner explained in connection with the ski boot shown in FIG. 1 using the injection molding process. In addition, other types of manufacture are of course also possible. Thus, the more flexible wall sections 15-17, 20, 23-29, 31, 32, 34 can be produced in the same injection mold as the rest of the shoe upper and approximately simultaneously with this, by then introducing the different materials into the same injection mold. It would also be entirely possible to produce the aforementioned more flexible wall sections separately, as mentioned in FIG. 1, and then to insert them into openings on the shell part 4, on the tongue part 5 or on the rear shaft part 10 and by means of high-frequency or ultrasonic welding with the surrounding wall area 18 to connect indissolubly.

The material to be used for the more flexible wall regions 15, 20, 23-29, 31, 32, 34 preferably has a different bending elasticity or a different density than the material used for the rest of the shoe upper 2. Here, plastics of the same chemical category but with different properties or different plastics can be used. Under certain circumstances, synthetic rubber can also be used for the more flexible wall parts.

Only a few possible configurations and arrangements of the more flexible wall sections have been shown in the figures. It goes without saying that such flexible wall sections can also be provided at locations other than those shown. In addition, combinations of different flexible wall sections other than those shown are possible on the same ski boot. For example, in the case of a ski boot according to FIGS. 1, 4-6, the rear shaft part 10 can also be provided with a more flexible wall section.

The sole 3 can be made of a different material than the shell part 4 in order to give this sole 3 the desired properties (low wear, good adhesion and the like).

The provision of more flexible wall sections 15 -17, 20, 23 - 29, 31, 32, 34 makes it easier to walk and bend the lower leg in the longitudinal direction of the shoe without having to accept a poorer foot grip in the shoe. Since this lower bending stiffness of these wall sections is achieved through the use of a different type of material, it is possible without too great difficulties to provide such wall sections at the most suitable locations on the ski boot. In addition, there is great freedom in the design of these more flexible wall sections. The choice of the material for these wall sections and their arrangement make it possible to produce ski boots without considerable additional manufacturing outlay, which can be adapted to the requirements of the different categories of skiers in terms of bending behavior.

Claims (15)

1. Sports shoe, in particular a ski boot made of plastic, with an upper part (2) with at least one wall section (15-17, 23-29, 31, 32, 34) which is subjected to bending and which has a lower bending resistance in relation to the area (18) of the wall surrounding it, characterized in that this wall section (15-17, 20, 23-29, 31, 32, 34) consists of a material which is different from the surrounding wall area (18) and is permanently connected to the latter by means of fusion carried out in the plastic state.

2. Sports shoe according to claim 1, characterized in that at least one further wall section (27) is provided, which has a different bending resistance both in comparison to the surrounding wall area (18) and in comparison to the other wall section (25, 26).

3. Sports shoe according to claim 1 or 2, characterized in that each wall section (15-17, 20, 23-29, 31, 32, 34) and the wall area (18) surrounding it consists of a material of different bending elasticity.

4. Sports shoe according to one of claims 1 to 3, characterized in that each wall section (15-17, 20, 23-29, 31, 32, 34) and the wall area (18) surrounding it consists of a material of different density.

5. Sports shoe according to one of claims 1 to 4, characterized in that the wall sections (15-17, 20, 23-29, 31, 32, 34) and the wall areas (18) surrounding them consist of different plastics.

6. Sports shoe according to one of claims 1-4, characterized in that the wall sections (15-17, 20, 23-29, 31, 32, 34) and the wall areas (18) surrounding them consist of plastics of the same chemical category but with different properties, for example of polyamides.

7. Sports shoe according to one of claims 1-6, characterized in that the shoe upper part (2), inclusive of the wall sections (15-17, 20, 23-29, 31, 32, 34), is an injection-moulded or transfer-moulded part.

8. Sports shoe according to one of claims 1-7, characterized in that each wall section (15-17, 23-29, 31, 32, 34) is connected to the surrounding wall area (18) by means of high-frequency or ultrasonic welding.

9. Sports shoe according to one of claims 1-8, characterized in that the wall thickness (b) of each wall section (15-17, 23-29, 31, 32, 34) corresponds essentially, at least in its edge area (15a), to the wall thickness (a) of the surrounding wall area (18).

10. Sports shoe according to one of claims 1-9, characterized in that the shoe upper part (2) is provided, in the area of transition (14) from the instep to the shin part (6, 7), with at least one wall section (15-17, 24-28, 31) of lower bending resistance.

11. Sports shoe according to one of claims 1-10, characterized in that the shoe upper part (2) is provided, in the area of the shin part (7), with a wall section (20, 23) of lower bending resistance.

12. Sports shoe according to one of claims 1-11, characterized in that the shoe upper part (2) is provided, in the area of the instep part (6), with a wall section (28, 31) of lower bending resistance.

13. Sports shoe according to one of claims 1-12, characterized in that the shoe upper part (2) is provided, in the area of the calf bone part (9), with a wall section (29, 32) of lower bending resistance.

14. Sports shoe according to one of claims 1-13, characterized in that the shoe upper part (2) is provided, in the area of the toe (33) of the shoe, with a wall section (34) of lower bending resistance.

15. Sports shoe according to one of claims 1-14, characterized in that the shoe upper part (2) has, at the transition (14) from the instep to the shin part (6, 7), an area (15) which has an undulating profile and is of lower bending resistance throughout or only in the elevations (16) or the depressions (17).

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