EP0419922A2 - Chaussure de ski - Google Patents

Chaussure de ski Download PDF

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Publication number
EP0419922A2
EP0419922A2 EP90117431A EP90117431A EP0419922A2 EP 0419922 A2 EP0419922 A2 EP 0419922A2 EP 90117431 A EP90117431 A EP 90117431A EP 90117431 A EP90117431 A EP 90117431A EP 0419922 A2 EP0419922 A2 EP 0419922A2
Authority
EP
European Patent Office
Prior art keywords
ski boot
tensioning
shoe
tongue
tongue part
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP90117431A
Other languages
German (de)
English (en)
Other versions
EP0419922B1 (fr
EP0419922A3 (en
Inventor
Klaus Walkhoff
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Raichle Sportschuh AG
Original Assignee
Raichle Sportschuh AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Raichle Sportschuh AG filed Critical Raichle Sportschuh AG
Publication of EP0419922A2 publication Critical patent/EP0419922A2/fr
Publication of EP0419922A3 publication Critical patent/EP0419922A3/de
Application granted granted Critical
Publication of EP0419922B1 publication Critical patent/EP0419922B1/fr
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Classifications

    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B5/00Footwear for sporting purposes
    • A43B5/04Ski or like boots
    • A43B5/0427Ski or like boots characterised by type or construction details
    • A43B5/0435Adjustment of the boot to the foot
    • A43B5/0443Adjustment of the boot to the foot to the instep of the foot, e.g. metatarsals; Metatarsal clamping devices
    • A43B5/0447Adjustment of the boot to the foot to the instep of the foot, e.g. metatarsals; Metatarsal clamping devices actuated by flexible means, e.g. cables, straps
    • A43B5/0449Adjustment of the boot to the foot to the instep of the foot, e.g. metatarsals; Metatarsal clamping devices actuated by flexible means, e.g. cables, straps with the actuator being disposed at the rear side of the boot

Definitions

  • the present invention relates to a ski boot according to the preamble of claim 1.
  • Such a ski boot is known, for example, from US Pat. No. 4,281,468.
  • This has a shell part provided with a sole, which encloses the entire foot area and which has lateral, tongue-shaped tabs projecting in the leg area toward the top.
  • the shell part is cut out in the instep area and is covered in a saddle shape in the instep and shin area by a tongue part, which is fastened to the shell part in the toe area in the middle of the shoe by means of a rivet.
  • the tongue part is swung forward to get in and out of the ski boot.
  • a heel piece is articulated to the lateral tabs above the ankle.
  • the tongue part is wave-shaped, and the sections of three tension cable loops run over it in the wave troughs.
  • a first tension cable loop is fixed on the inside of the ski boot on the outside of the shell part, runs in the instep area over the tongue part and can be attached to a tension lever fixed on the outside of the ski shoe.
  • a second tension cable loop runs in the transition area between the instep and shinbone over the tongue part, with the tension cable loop on the inside of the ski boot in the area of the ankle is fixed to the shell part and the corresponding tensioning lever on the outside of the ski boot is also in the area of the ankle.
  • the third tension cable loop encompasses the tongue and heel part in the area of the shin, the tensioning lever in question being attached to the heel part on the outside of the ski boot.
  • a so-called rear entry ski boot is also known from EP-A 0 053 340.
  • This has a shell part covering the foot in the toe and instep area with tabs projecting laterally towards the top.
  • the shell part is cut out in the instep area and covered with a tongue part in the instep and shin area.
  • the tongue part is connected to the shell part in the region of its tip by means of a fastening element.
  • a heel part is articulated on the shell part by means of swivel joints, which can be pivoted backwards from a rest position to open the ski boot about the swivel joint.
  • the heel section is swiveled forward and by means of a clamping device clamped to the upper end region of the tongue part.
  • a steel band is attached to the tongue part at its lateral end areas in the transition between the instep and shin area, which runs in the direction towards the heel to the relevant swivel joint of the heel part.
  • the steel band is connected at its rear end to a cable which runs around a deflection to a locking device provided on the heel part.
  • the tongue part When the heel part is folded back to open the ski boot, the tongue part is released towards the front.
  • the shell and tongue part are adapted to the anatomy of the foot of the driver in a user-friendly manner, but this principle is not suitable for front entry ski boots.
  • the cable-shaped tensioning element forms a compulsory guide for the tongue when the ski boot is closed, because the tensioning element running to the guide elements pulls the tongue part more firmly against the guide on the heel part, the more the tensioning element is tightened by means of the tensioning device.
  • the tongue part is automatically pulled into the correct position. Because the tensioning element is guided on the heel part above its articulation on the shell part, the tongue part is pulled against the heel part in the longitudinal direction of the shoe when the ski boot is closed, which also gives the driver a secure hold in the area of the shin.
  • the shell 10 made of plastic of the ski boot shown in FIGS. 1 and 2 has a shell part 14 provided with a sole 12. This encompasses the skier's foot in the toe and instep area 16 and in the lower heel area 18 and has two lateral tabs 20 projecting toward the top in the ankle area. On its front side, a cutout 22 is provided on the shell part 14 in the area of the instep.
  • a heel part 26 is fastened to the shell part 14 by means of a joint 24. This encompasses the lower rear leg area between the lower heel area and the calf and laterally overlaps the upwardly projecting tabs 20 of the shell part 14.
  • the heel part 26 is defined by an axis, which is defined by the joint 24 and runs parallel to the sole 12 and perpendicular to the longitudinal center plane of the shoe in the rest position shown in the figures when the lower leg is bent forward toward the front. The rest position of the heel part 26 corresponds to the normal posture of the lower leg when driving.
  • the shell 10 further has a tongue part 28 covering the instep and shin region 16 with a section 28a covering the instep region and a lower part Section 28b covering the shin region.
  • the tongue part 28 is wave-shaped in section 28a and in the transition area between the two sections 28a and 28b, the wave valleys 30 and wave crests 30 'running from one side of the ski boot to the other.
  • the tongue part 28 overlaps the heel part 26 at its rear end regions.
  • the tongue part 28 is pivotably articulated by means of rivets 32 on a tab 34 each.
  • the two tabs 34 protrude from the tongue part 28 towards the front and are guided in corresponding pockets 36 approximately in the longitudinal direction A of the shoe.
  • the tabs 34 On their area protruding from the tongue part 28, the tabs 34 have guide slots 38 extending in their longitudinal extent, through which a further rivet 32 'runs.
  • the rivet 32 ' is arranged on the shell part 14 in the open end region of the pockets 36. In the shoe longitudinal direction A towards the back until the guide slots 38 on the rivets 32 'extended tabs 34, these are pivotable about the rivets 32', as shown in Figure 1.
  • the tongue part 28 is also in its rear end position. If, however, the tabs 34 are partially or completely inserted into the pockets 36 in the longitudinal direction A toward the front, these are slidably guided in the longitudinal direction of the pockets 36 and around the axis defined by the rivets 32 ', approximately parallel to the sole 12 and perpendicular to the longitudinal axis of the shoe no longer pivotable (see Fig. 2). Regardless of the position of the tabs 34, the tongue part 28 is on the sen but pivotable about the axis defined by the rivets 32 substantially parallel to the sole 12 and transverse to the longitudinal plane of the shoe.
  • a guide eyelet 40 is freely rotatably mounted on the tongue part 28.
  • the tongue 28 has a passage 42 in the transition area between the sections 28a and 28b, these two passages 42 being located in the same trough 30.
  • two further passages 44 are provided in the next wave trough 30.
  • the heel part 26 has a guide opening 46 on both sides above the joint 24 and seen in the longitudinal direction A of the shoe, offset towards the rear, from which a schematically indicated guide channel 48 runs into the rear lower end region of the heel part 26 inside the heel part 26.
  • the corresponding openings at this end of the guide channels 48 are designated by 50.
  • a tensioning device 52 with a drum-shaped winding element 54 for two tensioning cables 56 and 56 ' is provided on the heel part 26.
  • the tensioning device 52 has a toggle-shaped actuating element 58, which can be pivoted back and forth about an axis running in the longitudinal center plane of the shoe and parallel to the heel part 26. This tensioning device 52 is described in detail below. For the understanding of FIGS.
  • the tensioning cable 56 runs from the winding element 54 to the opening 50 and through the corresponding guide channel 48 to the guide opening 46, from this to the relevant guide eyelet 40 on the tongue part 28 and below the tongue part 28 to the passage 42, from where the tensioning cable 56 on the outside of the tongue part 28 in Trough 30 runs over the instep and shin area to the passage 42 opposite the longitudinal center plane of the shoe.
  • the tensioning cable 56 again penetrates the tongue part 28 and runs below it to a fastening point 60 on the shell part 14, where the end of the tensioning cable 56 on this side is firmly anchored.
  • the other tensioning cable 56 runs opposite from the tensioning device 52 through the corresponding guide channel 48 to the guide opening 46; from this to the guide eyelet 40 and below the tongue part 28 to the passage 44.
  • the tensioning cable 56 runs parallel to the tensioning cable 56 in the adjacent wave trough 30 and is with its end on this side in a corresponding manner at the fastening point 60' on the shell part 14 attached.
  • the two attachment points 60, 60 ' are located opposite one another with respect to the longitudinal center plane of the shoe and are seen in the longitudinal direction A of the shoe, with respect to the guide openings 46 offset toward the front on the shell part 14.
  • the space between the shell 10 and the foot of the wearer is filled in a manner known per se by a soft, padded inner shoe 62.
  • the ski boot With the tongue part 28 open, as shown in FIG. 1, the ski boot can be climbed into. Now the two tensioning cables 56, 56 'are wound onto the winding element 54 by simply pivoting the actuating element 58 back and forth, whereby the tongue part 28 is pulled towards the sole 14.
  • the tabs 34 pivot about the relevant rivet 32 'clockwise until the longitudinal extension of the tabs 34 extends in the direction of the pockets 36.
  • the tensioning cable 56, 56 ' By further tensioning the tensioning cable 56, 56 ', the tongue part 28 is pushed forward in the shoe longitudinal direction A by executing a pivoting movement, whereby the tabs 34 slide deeper into the pockets 36.
  • the front end region of the section 28a of the tongue part 28 covering the instep is held on the shell part 14 in a precisely defined manner.
  • the tongue part 28 With a further increase in the tensioning force in the tensioning cables 56, 56 ', the tongue part 28 is brought to rest against the shell part 14, the guide eyes 40 coming to rest in the area of the guide openings 46 in the heel area 18 (see FIG. 2). Because the tongue part 28 is supported freely in the longitudinal direction A of the shoe and can be pivoted by the rivets 32, the tongue part 28 can adapt to the anatomy of the foot or lower leg area of the wearer while deforming the shell part 14. In particular, the leadership of the tensioning cable 56, 56 'in the region of the tongue part 28 and the high tensioning by force of the tensioning device 52 for an optimal adaptation of the shell 10 to the individual foot shape of the driver by changing the cross-section of the ski boot in the area covered by the tongue part 28.
  • the high tension achieved in the tensioning cables 56, 56 ' gives the saddle-shaped tongue part 28 in the area of the guide eyelets 40 a quasi-joint, which serves to cleanly guide the section 28b covering the lower shin area during the torsional flexing movement of the lower leg. Moreover, with this flex movement, due to the guidance of the tensioning cables 56, 56 'from the heel part 26 to the tongue part 28 above the joints 24, the heel part 26 is pulled forward in a pivoting movement, which also gives the driver a secure hold in the ski boot in this situation. It should be noted that when the ski boot is closed, the tensioning cables 56, 56 'serve as guide strands for the compulsory closing movement of the tongue part 28.
  • the actuating element 58 is moved outside of the working pivoting area against the tensioning direction, as a result of which the winding element 54 is released.
  • the large tension in the tensioning cables 56, 56 ' is immediately reduced and the unwinding of the wound section of the tensioning cables 56, 56' when swiveling forward of the tension member 28 is made possible.
  • the tabs 34 slide in the pockets 36 in the longitudinal direction A of the shoe, since the tongue part 28 bears against the shell part 14 with its front end in the region of the longitudinal center plane of the shoe. As a result, the tongue part 28 is brought into the position shown in FIG. 1.
  • a particularly suitable for the described ski boot tensioning device which can apply the necessary high tensioning forces in the tensioning cables 56, 56 'without great effort by the wearer of the ski boot to the actuating element 58 and still winding large lengths of the tensioning cables 56, 56' with only allows a few swivel strokes of the actuating element 58 will now be described in more detail below.
  • the tensioning device 52 shown in FIGS. 3 to 5 has a housing part 64 and a cover 66.
  • the tensioning device 52 rests with the housing part 64 on the heel part 26 of the ski boot and is fastened to it, for example, by means of screws, not shown.
  • FIGS. 3 and 4 show the tensioning device 52 in a section along the longitudinal center plane of the shoe and
  • FIG. 5 shows a view of the tensioning device 52 in the direction of arrow V of FIG. 4, the cover 66 not being shown.
  • the actuating element 58 designed as a gag sits on the upper end region of a shaft 68, the longitudinal axis 68 'of which intersects the axis of rotation 54' of the winding element 54.
  • the longitudinal axis 68 ' runs approximately in the longitudinal center plane of the shoe and parallel to the heel part 26, whereas the axis of rotation 54' is substantially perpendicular to the heel part 26 (see FIGS. 1 and 2).
  • the actuating element 58 is connected to the shaft 68 via a clockwise free-wheeling sleeve 70. Moreover, the shaft 68 is counterclockwise Active additional freewheel sleeve 72 supported on the cover 66. The shaft 68 can thus only be rotated counterclockwise (winding direction). By means of a screw 74 running in the direction of the longitudinal axis 68 ', the actuating element 58 seated in a cap-shaped manner on the upper end of the shaft 68 is connected to this in a stroke-resistant manner.
  • the housing part 64 has an extension 76 which projects upward into the region of the actuating element 58 and on which a guide pin 78 which projects in the direction toward the actuating element 58 is fixedly arranged.
  • the groove 80 has a lower groove part 80a with respect to the longitudinal axis 68 'in the circumferential direction, an adjoining rising groove part 80b and a shorter groove part 80c, which in turn runs in the circumferential direction, which at its end remote from the groove part 80b by a short, downwardly directed latching part 80d is limited.
  • the lower groove part 80a defines a working pivot area B.
  • the actuating element 58 is pivoted such that the guide pin 78 is located within the working pivot area B, the actuating element 58 together with the shaft 68 is raised to an upper clamping position, as shown in FIG. 3 is. Within the working swivel area B, the actuating element 58 can thus be pivoted without the shaft 68 being lowered in the direction of the longitudinal axis 68 '. If, on the other hand, the actuating element 58 is pivoted clockwise, counter to the winding direction, out of the working pivot area B, the rising groove part B runs along the guide pin 78, which results in the result has that the actuating element 58 is moved together with the shaft 68 in the direction of the longitudinal axis 68 'down.
  • the actuating element 58 is pivoted clockwise to such an extent that the groove part 80c is located at the guide pin 78, the actuating element 58 together with the shaft 68 is lowered into the lower release position shown in FIGS. 4 and 5 and designated 58 '.
  • the shaft 68 is guided in the further freewheel sleeve 72 in the direction of the longitudinal axis 68 'and that the actuating element 58 can be freely pivoted clockwise without taking the shaft 68 with it.
  • the actuating element 58 is pivoted to such an extent that the latching part 80d lies at the guide pin 78, the actuating element 58 is secured against unwanted pivoting in the counterclockwise direction, since the shaft 68 is pushed in the direction by the force of the compression spring 84 which is supported at one end on a shoulder 82 of the shaft 68 is biased towards the top, so that the latching part 80d is held in the guide pin 78.
  • a sleeve 86 which is connected to the latter by means of a pin 88 running transversely through the sleeve 86 and the shaft 68 in a rotationally fixed and stroke-resistant manner.
  • the sleeve 86 penetrates an opening 90 in the cover 66.
  • a hat-shaped coupling part 92 with an internal toothing 94 is integrally formed on the sleeve 68 at the upper end.
  • a bevel gear 100 of a bevel gear transmission 102 and a tubular shaft part 104 are integrally formed on the stationary coupling part 98 on the side opposite the coupling part 92.
  • the shaft 68 thus runs freely rotatable through the coupling part 98, the bevel gear 100 and the shaft part 104.
  • the shaft part 104 penetrates a bore 106 of a journal-shaped, in the direction of the axis of rotation 54 'running bearing part 108 for the winding element 54.
  • the Shaft part 104 has a circumferential groove 110, in which a spring ring 112 is arranged.
  • the spring ring 112 is supported in the direction of the longitudinal axis 68 'on the bearing part 108 and holds the bevel gear 100 in meshing engagement with another bevel gear 114 formed on the winding element 54.
  • the compression spring 84 At the upper end of the shaft part 104, the end remote from the shoulder 82 of the shaft 68 is supported the compression spring 84.
  • the storage part 108 is fastened by means of a screw 116 'in the direction of the axis of rotation 54' to the housing part 64 and is supported at the other end in a blind hole-shaped bearing recess 117 in the cover 66.
  • the latter In the central region between the bore 106 and the end of the shaft part 104 facing the housing part 64, the latter has a circumferential bead 118 projecting in the radial direction.
  • the drum-shaped winding element 54 sits freely in the area between the housing part 64 and the bead 118 rotatable on the bearing part 108, this being held stationary in the direction of the axis of rotation 54 'by the housing part 64 and a shoulder 120 in the axial direction on the bead 118 on the winding element 54.
  • the bevel gear 114 is integrally formed on the drum-shaped winding element 54 and projects with respect to the drum-shaped part on the side facing away from the housing part 64.
  • the winding element 54 has in the drum-shaped part two side-by-side circumferential winding grooves 122 for a tensioning cable 56 or 56 '.
  • the width of these winding grooves 122 in the axial direction is insignificantly larger than the diameter of the tensioning cables 56, 56 'so that they are guided precisely in the area of the winding element 54 and wedging sections of the tensioning cables 56, 56' against each other is prevented.
  • the winding element 54 has in the region of the winding grooves 122 diametrically opposed radial slots 124, each of which is assigned to a winding groove 122 and has an extension in its inner end region, as seen in the radial direction, in which the ends of the relevant tensioning cables 56, 56 ′ on this side are held in a known manner by means of an end nipple.
  • the tensioning cables 56, 56 ' are guided in tubular guide sleeves 126. These have thickenings 128 in the end device-side end area, by means of which they are held in corresponding recesses in the housing part 64.
  • FIG. 7 shows a clamping device 52 similar to that shown in FIGS. 3 to 5, but now that Bevel gear 102 itself is designed as a coupling between the shaft 68 and the winding element 54. Since the guidance of the actuating element 58 on the extension 76 of the housing part 64, the coupling between the actuating element 58 and the shaft 68 and the support of the shaft 68 on the cover 66 are identical to those in the clamping device 52 shown in FIGS. 3 to 5, these are Parts no longer shown in FIG. 7. The storage part 108 and the winding element 54 which is freely rotatably mounted thereon are also no longer described in detail for the same reasons.
  • the bevel gear 100 'formed in one piece with the tubular shaft part 104' sits on the shaft 68 and is connected to it by means of a pin 88 'in a rotationally and stroke-resistant manner.
  • the shaft part 104 is freely rotatable in the bore 106 and guided in the direction of the longitudinal axis 68 '.
  • a compression spring 84 ' is supported, which engages around the shaft 68 and is supported at the other end on the cover 66. This compression spring 84 'presses the bevel gear 100 against the bevel gear 114' formed on the winding element 54 '. If the actuating element 58 is located in the working swivel area B (see FIGS.
  • the bevel gear 100 ' is in the position shown in FIG. 7, in which it meshes with the bevel gear 114'. If, on the other hand, the actuating element 58 is pivoted in such a way that the groove part 80c is located at the guide pin 78, then the bevel gear 100 'due to the movement of the shaft 68 in the direction of its longitudinal axis 68' against the force of the compression spring 84 'from the engagement with the bevel gear 114 ' solved.
  • the operation of the tensioning devices 52 is as follows.
  • the actuating element 58 is pivoted clockwise outside of the working pivot area B, so that the latching part 80d of the groove 80 is located at the guide pin 78.
  • the shaft 68 and the actuating element 58 are lowered into the release position 58 ', as shown in Figures 4 and 5.
  • the coupling between the coupling parts 92 and 98 or between the two bevel gears 100 'and 114' according to Figure 7 is released.
  • the winding element 54 is freely rotatable.
  • the actuating element 58 is now pivoted counterclockwise (winding direction) from the latching part 80d into the working swivel area B (see FIG. 6).
  • the actuating element 58 moves together with the shaft 68 into the upper clamping position according to FIGS. 3 and 7.
  • the two coupling parts 92, 98 and the two bevel gears 100 ′, 114 ′ come into engagement with one another.
  • the shaft 68 is now taken along in the winding direction when the actuating element 58 is rotated counterclockwise.
  • the resulting rotation of the shaft 68 is transmitted to the winding element 54 via the bevel gear 102 gene, whereby the tension cables 56, 56 'are intermittently wound.
  • the freewheel sleeve 72 prevents rotation of the shaft 68 clockwise and thus also prevents unwinding of the tensioning cables 56, 56 'from the winding element 54.
  • the actuating element 58 By pivoting the actuating element 58 accordingly, the desired tensile force can now be built up in the tensioning cables 56, 56' .
  • the actuating element 58 is left in the respective position.
  • the actuating element 58 is briefly pivoted counterclockwise in the clockwise direction, so that the two coupling parts 92, 98 or bevel gears 100', 114 '(FIG. 7) briefly disengage. Due to the tensile force in the tensioning cables 56, 56 ', these are now partially unwound from the winding element 54. Subsequent pivoting back of the actuating element 58 into the working pivot area B, the winding element 54 is blocked again.
  • the actuating element 58 is pivoted in addition to the working swivel area B in such a way that the groove part 80c or the latching part 80d comes to rest on the guide pin 78.
  • the winding element 54 is released in an analogous manner, so that by swiveling the tongue part 28 forward (see FIGS. 1 and 2) the tensioning cables 56, 56 'can now be unwound to the required length from the winding element 54.
  • gene 52 can be accommodated in a small housing part 64 with cover 66 winding elements 54 with a large diameter.
  • the result of this is that large lengths of tensioning cables 56, 56 'can be wound up with a few revolutions of the winding element 54.
  • a single actuating element 58 is required for the tensioning and the quick release of the tensioning device 52, which increases the ease of use considerably.
  • the tensioning device according to the invention can also be used to actuate foot-holding devices provided inside the ski boot.

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  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Physical Education & Sports Medicine (AREA)
  • Footwear And Its Accessory, Manufacturing Method And Apparatuses (AREA)
EP90117431A 1989-09-26 1990-09-10 Chaussure de ski Expired - Lifetime EP0419922B1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CH3484/89 1989-09-26
CH3484/89A CH678387A5 (fr) 1989-09-26 1989-09-26

Publications (3)

Publication Number Publication Date
EP0419922A2 true EP0419922A2 (fr) 1991-04-03
EP0419922A3 EP0419922A3 (en) 1991-08-07
EP0419922B1 EP0419922B1 (fr) 1994-12-28

Family

ID=4256981

Family Applications (1)

Application Number Title Priority Date Filing Date
EP90117431A Expired - Lifetime EP0419922B1 (fr) 1989-09-26 1990-09-10 Chaussure de ski

Country Status (6)

Country Link
US (1) US5167083A (fr)
EP (1) EP0419922B1 (fr)
JP (1) JPH0732723B2 (fr)
AT (1) ATE116114T1 (fr)
CH (1) CH678387A5 (fr)
DE (1) DE59008126D1 (fr)

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Publication number Priority date Publication date Assignee Title
EP0586801A1 (fr) * 1992-09-10 1994-03-16 Raichle Sportschuh AG Chaussure de ski

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FR2688662B1 (fr) * 1992-03-23 1994-06-10 Salomon Sa Perfectionnement pour chaussures de ski alpin.
FR2694682B1 (fr) * 1992-08-14 1994-11-04 Salomon Sa Chausson de chaussure de ski.
IT1275488B (it) * 1995-07-07 1997-08-07 Roces Srl Struttura di linguetta,particolarmente per calzature sportive
US7661205B2 (en) * 1998-03-26 2010-02-16 Johnson Gregory G Automated tightening shoe
US6416074B1 (en) 1999-06-15 2002-07-09 The Burton Corporation Strap for a snowboard boot, binding or interface
US6267390B1 (en) 1999-06-15 2001-07-31 The Burton Corporation Strap for a snowboard boot, binding or interface
DE10254933B4 (de) * 2002-11-25 2006-07-27 Adidas International Marketing B.V. Schuh
US8904673B2 (en) * 2011-08-18 2014-12-09 Palidium, Inc. Automated tightening shoe
US8904672B1 (en) * 2011-08-18 2014-12-09 Palidium Inc. Automated tightening shoe
US11425960B2 (en) * 2011-09-15 2022-08-30 Nb Newboots Sa Sports boot
US9392838B2 (en) * 2014-09-23 2016-07-19 Fi-Ber Sports, Inc. Protective cover for an article of footwear

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DE2341658A1 (de) * 1972-08-23 1974-03-07 Polyair Maschb Gmbh Skischuh
WO1981000507A1 (fr) * 1979-08-16 1981-03-05 Comfort Prod Inc Chaussure de ski avec partie frontale ondulee
EP0053340A2 (fr) * 1980-11-28 1982-06-09 Raichle Sportschuh AG Chaussure de sport, en particulier chaussure de ski
FR2593682A1 (fr) * 1985-11-14 1987-08-07 Dynafit Gmbh Dispositif de serrage pour cable ou bande destine a une chaussure de ski

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DE1963342A1 (de) * 1969-12-17 1971-06-24 Voelkl Ohg Franz Skischuh
DE2341658A1 (de) * 1972-08-23 1974-03-07 Polyair Maschb Gmbh Skischuh
WO1981000507A1 (fr) * 1979-08-16 1981-03-05 Comfort Prod Inc Chaussure de ski avec partie frontale ondulee
EP0053340A2 (fr) * 1980-11-28 1982-06-09 Raichle Sportschuh AG Chaussure de sport, en particulier chaussure de ski
FR2593682A1 (fr) * 1985-11-14 1987-08-07 Dynafit Gmbh Dispositif de serrage pour cable ou bande destine a une chaussure de ski

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0586801A1 (fr) * 1992-09-10 1994-03-16 Raichle Sportschuh AG Chaussure de ski

Also Published As

Publication number Publication date
JPH0732723B2 (ja) 1995-04-12
ATE116114T1 (de) 1995-01-15
EP0419922B1 (fr) 1994-12-28
EP0419922A3 (en) 1991-08-07
DE59008126D1 (de) 1995-02-09
JPH03121003A (ja) 1991-05-23
CH678387A5 (fr) 1991-09-13
US5167083A (en) 1992-12-01

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