Source: https://patents.google.com/patent/WO1999047013A1/en
Timestamp: 2019-11-22 06:38:22
Document Index: 63616181

Matched Legal Cases: ['art 15', 'art 15', 'art 15', 'art 18', 'art 18', 'art 15', 'art 15', 'art 15', 'art 15', 'art 29', 'art 29']

WO1999047013A1 - Shoe with two-part sole - Google Patents
Shoe with two-part sole Download PDF
WO1999047013A1
WO1999047013A1 PCT/EP1999/001685 EP9901685W WO9947013A1 WO 1999047013 A1 WO1999047013 A1 WO 1999047013A1 EP 9901685 W EP9901685 W EP 9901685W WO 9947013 A1 WO9947013 A1 WO 9947013A1
PCT/EP1999/001685
1998-03-13 Priority to DE19811953.4 priority Critical
1998-03-13 Priority to DE19811953 priority
1999-03-15 Application filed by Jan Ortwig filed Critical Jan Ortwig
1999-09-23 Publication of WO1999047013A1 publication Critical patent/WO1999047013A1/en
The invention relates to a shoe with a sole (2) and a shank (3) which is joined to the sole (2) and surrounds a foot. The invention is characterized in that the sole (2) is divided into two parts (4, 5) at right angles to its longitudinal axis, that the two parts (4, 5) are joined to each other in a pivoting manner by way of a hinge pin (6) extending at right angles to the longitudinal axis, and in that the extent to which the two parts (4, 5) can pivot in relation to each other can be adjusted.
SHOE WITH TWO PIECE SOLE
The invention relates to a shoe with a sole and a shaft which is connected to the sole and surrounds a foot.
Shoes are known in many ways. For example, 37 03 858 C2 discloses a DE shoe bottom for sports shoes, thus a sole for a shoe in question here. This shoe bottom, which is particularly suitable for sports shoes, has a hinge, which is designed as a longitudinally extending approximately in the shoe axis. This joint allows the natural movement of the foot matched rotation of Vordersohlenberei- ches against the rear sole region about this axis. The transit site at the gig in the joint has at least partially ground. The joint is stiffened against bending about a transverse axis to the shoe longitudinal direction by stiffening means. The stiffening means are designed as tension-resistant members which is anchored in the shoe longitudinal direction extending in the shoe near its bottom running side. Such a shoe bottom has the advantage that in the natural rolling of the foot between the forefoot and the heel approximately in the region of the cuneiform bones, that takes place over the joint of the shoe bottom, a rotation about an axis extending approximately in Fußlängsrichtung axis.
In addition, shoes are known which are intended for specific applications, in particular in connection with sports equipment. For example spezieile shoes for skiing, in cycling and climbing are known. Both for skiing as well as during climbing and for bicycle sports, it is desirable that the sole for optimum power transfer to the sports equipment is formed as rigid as possible in order not to convert the applied for actuation of the sports device energy into deformation work. On the other hand, these shoes are relatively uncomfortable if they are to be used outside the sport. In particular, this disadvantage occurs in climbing shoes to light, as these are to be used not only for extreme climbing, but also for walking in flat or slightly rising or slightly sloping terrain.
It is also aware of other shoes for special applications, such as Sprint shoes, jump shoes and / or cross-country boots, in which the sole is to have a certain bias to gen to be transmitted in an advantageous manner possible to tread the applied by the athlete energy.
Starting from this prior art, the invention is based on the object to provide a generic shoe, adjustable in a simple manner in terms of its suitability, especially its bias and flexibility and can be manipulated.
The solution of this problem provides that the sole is divided transversely to its longitudinal axis in two sections, that the two portions are pivotally hinged together about a transverse to the longitudinal axis hinge axis and that the Schwenkgelenkigkeit of the two sections is adjustable relative to each other.
The shoe according to the invention, which is particularly useful in connection with a sports device, such as a ski, an inline skate, a driving radpedal, a skate, a skate, or the like, has in its bottom region, a stiffening element with which the Schwenkgelenkigkeit the two sections of the sole are adjustable. It can hereby be provided a setting between a flexibility that enables a natural movement of the foot, and a rigid sole. Of course, it is also possible that Schwenkgelenkigkeit in intermediate steps between these extremes set so that, for example, the bias of the sole can be adjusted.
In the inventive footwear stiffening element is then ideal rigid and / or hard and tough designed or adjusted, when the shoe is used in an appropriate binding of a sports device or activated accordingly via an actuating element. However, such shoes can also find use as Sprint shoes, basketball shoes when hiking boot or shoe long jump. At a basketball shoe to increase the preload can be achieved, for example, by the inventive design, which prevents particularly orthopedic problems in the midfoot.
About the stiffener the Schwenkgelenkigkeit the sole mani can be pulierbar. There are two basic ways to influence the stiffening element. Firstly, there is the possibility that the stiffening member is manipulated by systememanente elements. Under systematic memanenten elements such elements are to be understood, which are part of the shoe and allow an adjustment of the stiffening element. The other option provides that the Schwenkgelenkigkeit be manipulated by an external stiffening element. External Versteifungseiemente example, bonds of sports equipment, such as for example, be bindings, bicycle pedal bonds or bonds skate.
It has proven to be advantageous to form the stiffener as a Bowden cable, which is fixed to the arranged in the front region of the sole portion and extending through the second portion to a lever. the Bowden cable can be tensioned so that the two sections are clamped together kraftschüssig, so that the sole is formed ideal rigid to allow for example in a mountain boot the full power transmission from the foot to the ground via the lever. If the Bowden cable then depressurized via the lever, the sole receives its flexibility again, in which the two portions are pivotable relative to each other to allow an anatomically advantageous rolling of the foot. In the same way, but such a shoe may also be appropriate for other purposes.
Alternatively, the stiffening member may be formed as a two part elastomer, whose parts are arranged in each case in one section and connected together. Depending on the design of the elastomer, that is, its elasticity, the flexibility of the sole can thus be set at the desired properties. If the elastomer is arranged releasably in the sole, there is moreover the advantage that the elastomer is replaceable with any one shoe to hen different applications of the shoe vorzuse-. In this configuration there are variable ways in adjusting the elasticity of the sole.
Further features and advantages will be apparent from the claims and from the following description of the accompanying drawing, are shown in the preferred embodiments of a shoe according to the invention. In the drawing:
1 shows a first embodiment of a shoe according to the invention in a partially sectional side view;
2 shows a second embodiment of a shoe according to the invention in a partially sectional side view; 3 shows a third embodiment of a shoe according to the invention in a partially sectional side view in the first position;
4 shows the shoe according to figure 3 in a second position;
5 shows the shoe according to Figures 3 and 4 in the third position;
6 shows a sole of a fourth embodiment of a erfindungsgemä- SEN shoe in a perspective top view;
7 shows the sole according to Fig 6 in a perspective view illustrated
Figure 8 is a perspective view, shown enlarged, of the sole according to the figures 6 and 7 and
9 shows a shoe with the sole according to the figures 6 to 8 shown in a partially cut side view.
A first embodiment of a shoe 1 is shown in FIG. 1 The shoe comprises a sole 2 and a shaft 3 which is connected to the sole 2 and is used for receiving a foot, not shown.
The sole 2 comprises two sections 4, 5 which are hinged to each other in the front region of the sole 2, substantially in the region of the metatarsals of an axle. 6 The axle 6 is perpendicular to the longitudinal axis of the shoe 1, so that the two portions 4, 5 are movable relative to each other that a natural Abroliverhalten of the foot into the shoe is possible. 1
In the longitudinal direction of the shoe 1, a Bowden cable 7 which is arranged in a not shown recess extending approximately in the middle of the shoe 1 in the longitudinal direction extends. The Bowden cable 7 is anchored with its front end section 4, wherein the Bowden cable 7 has a thickening of material 8, which is arranged in a corresponding recess in the section. 4 Preferably this recess is closed on all sides and only has an opening for the Bowden cable 7.
The Bowden cable 7 extends nearly through the entire section 5 into the region of a recess 9, in which the Bowden cable 7 comprises a further thickening of the material 10 degrees. At this material thickening 10 a coupling element 11 is arranged, which connects the Bowden cable 7 with a pivotable about an axis 12 in the heel area of ​​the shoe 1 lever. 13 the Bowden cable 7 can be moved in such a way via the lever 13 in the longitudinal direction of the shoe 1, that the two portions 4, 5 lie in the region of the axis to each other such that the sole 2 has a total of approximately rigid configuration.
The coupling element 11 may be mounted in various positions on the lever 13, so that the tension of the Bowden cable 7 is adjustable. The lever 13 is disposed in a recess formed in the heel area of ​​the shoe 1 the recess so that the lever 13 is substantially located within said recess and does not form a protruding member.
The shoe 1 has in the transition region between the section 4 and section 5 of a further sohienseitige recess 14 in which an ER Stes part 15 is arranged a bond sixteenth The part 15 is block shaped and is connected by rivets 17 to the sole 2 in the area in Section 4. The part 15 in this case covers the transition between section 4 and section. 5
A second part 18 of the binding consists of an axle 19 and two on both sides arranged bracket elements 20, which form a receptacle 21 into which the member 15 is latched. The clamp elements 20 are in this case resiliently arranged on the axis 19 such that a spring, the two clamp elements 20 tightens in the area of ​​receptacle 21 is limited to one another.
The part 18 of the binding 16 may for example be incorporated in a bicycle pedal, or the like, when the shoe 1 is constructed as a bicycle shoe.
A second embodiment of the invention is shown in FIG. 2 In this embodiment, the shoe 1 again consists of the sole 2 and the shaft 3, wherein the sole 2, two portions 4 and 5 which are joined together by a perpendicular to the longitudinal axis of the shoe 1 axis. 6 In that regard, the shoe 1 according to FIG 2 with the shoe 1 according to figure 1 is consistent.
In contrast to the embodiment according to Figure 1, the sole 2 of the shoe according to figure 2 on a two-part insert 22 with an elastomer 23rd The elastomer 23 connecting the two parts of the insert 22. The insert 22 is inserted into the recess 14 of the sole 2 in such a way that a part of the insert 22 in the section 4 and a part of the insert 22 in the portion of the sole 5 is arranged. 2 Through the elastomer 23, the pivotability of the two portions 4, 5 of the sole 2 is set to each other. In order to enable different settings, the insert is interchangeably disposed 22 in the sole 2, so that harder or softer elastomer 23 can be used in a more or less rigid sole. 2 Through this design, the elasticity of the shoe or the rigidity of the sole can be adjusted to suit the user's needs or to the sport.
In Figures 3 through 5, another embodiment of a shoe according to the invention. In this shoe 1, the flexibility of the sole 2 by the already described in reference to the Figure 1 binding 16 is adjustable.
In contrast to Figure 1, the part 15 of the binding 16 is in the embodiment of Figures 3 to 5 is formed in two parts, wherein a respective
Half of the part 15 is in each case a portion 4, 5 of the sole 2 is fixed. The partition part 15 is congruent with the pitch of the sole 2 in the portions 4 and 5. Consequently, both halves of the part 15 are connected by the rivets 17 with the sole 2 of the shoe. 1
In Figure 3, the shoe 1 is shown with complete locking connection sixteenth
4 shows the shoe 1 with a dissolved binding 16 in the unrolled state, and FIG 5 the shoe 1 having dissolved in the non-binding state unrolled.
Figures 6 to 8 show a sole 2 of a shoe 1 according to the invention, which is illustrated as another embodiment in FIG. 9 The sole 2 comprises a flat bottom member 24 into which a substantially T-shaped first elastomeric member 25 and a second elastomer is embedded 26th The first elastomer 25 extends from the heel region to about the region of the metatarsal area in which the elastomer 25 extends transversely to the longitudinal direction of the sole 2 and extending in the direction of the shaft illustrated in Figure 9 laterally. The elastomer 25 has a right angle widening in the direction of the heel area slot 27th In this slot 27, a ridge 28 engages the elastomer 26th The web 28 connects a front fußspitzenähnliches formed part of the elastomer 26 with a block-shaped part 29 of the elastomer 26, whereby a connection between the two elastomers is prepared 25 and 26, which is adjustable by an appropriate choice of the part 29 with respect to their flexibility or rigidity ,
In the above-described figures are different execution forms of the shoe 1 shown approximately. In these embodiments, the sole 2 is configured such that it comprises a stiffening element, wherein a flexible or compressible zone is provided between the two portions of the stiffening element. but it can also be provided that the two sections of the stiffening element are hinged together comparable prevented. The compressible or flexible zone between the two portions of the stiffening element allows an anatomically conventional rolling of the foot within the shoe 1. The stiffening member may be formed as an elastomer, wherein then a fluid flexibility of the sole 2 is provided. There is also the possibility that the stiffening element is provided as the coupling member 11, with which only two states of the flexibility of the sole 2 are adjustable.
The two portions of the stiffening element can also be connected via a ribbon or a cable or a Bowden cable 7, wherein the flat strip and the cable is fixed in the toe region 4 at a portion of the stiffening element. For example, the ribbon or cable may be mounted in a mount 4 of this section. The ribbon or cable then extends from the front portion of the stiffening element (sole 2) approximately by the whole rear portion 5 of the stiffening element, which is preferably within 10
half of the rear portion 5 of the stiffening element is guided such that it is movable relative to the rear portion 5 of the stiffening element. the ribbon or cable may be tensioned such that the compressible or flexible zone between the two portions 4, 5 of the stiffening element is compressed via a arranged in the heel area of ​​the shoe 1 adjusting device, such as a buckle or a lever. 13 There is also the possibility that two hingedly interconnected sections on the ribbon or the cord 4, 5 of the stiffening element are verpannt each other so that a joint movement is no longer possible.
The arrangement of the flat strip or cable within the stiffening element or within the sole 2, the entire system is protected from the ingress of dirt. In the region below the compressible or flexible zone or of the joint 6 between the two portions 4, 5 of the stiffening element an element of a linkage is arranged, which is for example used with a pedal binding as found in bicycle pedals application. The pedal tie has two relatively movable about an axis 19 claw or clamp elements 20 which are pressed over inclined surfaces of the fixed to the shoe 1 binding element 15 apart before the claw or clamp elements 20 engage because of their undercuts with the attached to the shoe 1 binding elements 15 , this binding is opened, for example by rotation of the shoe about an arranged at right angles to the rotational axis 19 of the two claw or clamp elements 20 axis.
The arranged on the shoe 1 binding element is inserted into a recess 14 of the sole 2 and is preferably bolted to the toe region of the sole 2 or riveted so that this binding element 11 from the shoe
can be solved. In this way, the shoe can be used not only in conjunction with a pedal binding, but also for other activities.
In the alternative embodiment of the shoe, the binding element is formed in two parts, with one part of the binding element to a respective portion 4, 5 of the two-part reinforcement element is attached. Here, too, screws are used to attach the binding element. There is also the possibility of this binding element fixed to the shoe 1, in particular the sole 2 by bonding or welding to join. The division of the binding element into two portions as well as the arrangement of the two portions on a respective portion 4, 5 of the stiffening element has the advantage that the shoe is sufficiently flexible, when it is not inserted into the pedal bond. If the shoe 1 snapped into the pedal bond, so the two portions of the shoe fixed to the 1 bond-making are partly connected to each other whereby relative movement of the front portion 4 of the stiffening element is prevented. Accordingly, the reinforcing element, the sole 2 is stiffened by the mounting of the boot 1 in the pedal-side bonding in this embodiment.
Finally, it can also be provided that the shoe 1 in the sole 2 has an elastomer 23. The elastomer is interchangeably arranged in the sole 2, so that different elastomers can find 23 used to pull the different properties of the shoe 1 according to, so that for example different flexibility characteristics of the sole 2 are adjustable, which are matched to the respective application.
12Anspr├╝che
1. Shoe with a sole and a shaft which is connected to the sole and a umh├╝llt accessories foot, dad u rch geken nzeich net, the sole (2) transversely to its da├ƒ L├ñngsachse into two sections (4, 5) is divided, the two sections (4, 5) pivotally articulated da├ƒ ├╝ber a transverse L├ñngsachse to hinge pin (6) are connected together and the da├ƒ Schwenkgelenkigkeit of the two sections (4, 5 ) is adjustable relative to each other.
2. Shoe according to claim 1, dadu rch geken nzeich net, the Schwenkgelenkigkeit da├ƒ by a in the sole (2) disposed stiffening element is manipulated.
3. Shoe according to claim 1, dad u rch ge en nzeich net, the Schwenkgelenkigkeit da├ƒ by an external stiffening element is manipulated.
4. Shoe according to claim 2, dad u rch geken nzeich net, da├ƒ the stiffening element as a Bowden cable (7) is formed which is arranged on the the front of the sole (2) portion (4) and extending through the second section (5) of the sole extends to a lever (13). 13
is formed 5. Shoe according to claim 2, characterized in that the stiffening element da├ƒ as a two part elastomer (23), whose members each in a section (4, 5) arranged in the sole (2) and are connected together.
6. Shoe according to claim 5, characterized in that the elastomer (23) da├ƒ l├╢sbar in the sole (2) is arranged.
is formed 7. A shoe according to claim 3, characterized in that the external da├ƒ stiffening element as a clamp (16) which formschl├╝ssig with the two sections (4, 5) of the sole (2) is a binding bar.
PCT/EP1999/001685 1998-03-13 1999-03-15 Shoe with two-part sole WO1999047013A1 (en)
DE19811953.4 1998-03-13
DE19811953 1998-03-13
WO1999047013A1 true WO1999047013A1 (en) 1999-09-23
ID=7861449
PCT/EP1999/001685 WO1999047013A1 (en) 1998-03-13 1999-03-15 Shoe with two-part sole
WO (1) WO1999047013A1 (en)
GB2389027A (en) * 2002-05-27 2003-12-03 Jolly Scarpe Spa Shoe with device to control the flexion of the toe
US6820354B1 (en) 2002-06-19 2004-11-23 Jolly Scarpe S.P.A. Sport shoe provided with a device to control the flexion of the toe
EP1911364A1 (en) * 2006-10-09 2008-04-16 Head Technology GmbH Shoe particularly for sports practice
FR3016153A1 (en) * 2014-01-09 2015-07-10 Look Cycle Int Assembly comprising a shoe and a shoe retaining plate on an automatic cycle pedal, retaining plate for such an assembly, and shoe for the same
WO2016063073A1 (en) * 2014-10-25 2016-04-28 10 In 5 Limited Cycle shoe cleat apparatus and shoe
DE55619C (en) *
EP0130712A2 (en) * 1983-07-01 1985-01-09 James J. Trindle Bicycle pedal and shoe
WO1991016957A1 (en) * 1990-04-30 1991-11-14 Roger Nelson Pack Ski and hinged boot apparatus with central flexed structure
WO1995026654A1 (en) * 1994-03-30 1995-10-12 Htm Sport-Und Freizeitgeräte Aktiengesellschaft Ski boot
US5572806A (en) * 1994-12-03 1996-11-12 Osawa; Kazuo Flexible ski boots having a pivotal toe portion
1999-03-15 WO PCT/EP1999/001685 patent/WO1999047013A1/en active Application Filing
GB2389027B (en) * 2002-05-27 2006-03-08 Jolly Scarpe Spa Shoe with device to control the flexion of the toe
CN104773253A (en) * 2014-01-09 2015-07-15 洛克塞格尔国际公司 Assembly comprising a shoe and a plate for retaining the shoe on an automatic bicycle pedal, retaining plate for such an assembly, and shoe for the latter
EP2896310A1 (en) * 2014-01-09 2015-07-22 Look Cycle International Assembly made up of a shoe and a plate for retaining the shoe on an automatic bicycle pedal, retaining plate for such an assembly, and shoe for same