WO1980001354A1 - A step-in ski binding - Google Patents

A step-in ski binding Download PDF

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Publication number
WO1980001354A1
WO1980001354A1 PCT/US1980/000045 US8000045W WO8001354A1 WO 1980001354 A1 WO1980001354 A1 WO 1980001354A1 US 8000045 W US8000045 W US 8000045W WO 8001354 A1 WO8001354 A1 WO 8001354A1
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WO
WIPO (PCT)
Prior art keywords
clamp
connecting member
clamping
engaging
force
Prior art date
Application number
PCT/US1980/000045
Other languages
English (en)
French (fr)
Inventor
R Spademan
Original Assignee
R Spademan
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 R Spademan filed Critical R Spademan
Priority to DE803026918A priority Critical patent/DE3026918A1/de
Publication of WO1980001354A1 publication Critical patent/WO1980001354A1/en

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Classifications

    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63CSKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
    • A63C9/00Ski bindings
    • A63C9/08Ski bindings yieldable or self-releasing in the event of an accident, i.e. safety bindings
    • A63C9/086Ski bindings yieldable or self-releasing in the event of an accident, i.e. safety bindings using parts which are fixed on the shoe of the user and are releasable from the ski binding

Definitions

  • the present invention relates to ski bindings in general and in particular to releasable ski bindings having a mechanism by which entry into the binding is effected simply by stepping into the binding. Such bindings are commonly called step-in bindings.
  • a releasable binding comprises one or more movable clamping members for releasably engaging one or more clamp-receiving members.
  • the movable clamping members may be on the ski and the clamp-receiving members on the boot; or, alternatively, the location of the members may be reversed.
  • a mechanism sometimes called a force unit, for applying a clamping force to the member.
  • the mechanism for applying the clamping force to the movable clamping member may take several forms.
  • One of the most common forms is a spring member. The spring member is particularly useful because it is relatively easy to use for applying a resilient clamping force to the movable clamping member.
  • releasable bindings of the type referred to are the familiar toe-heel binding and the more recent side-clamp binding.
  • a clamping member is provided for clamping the toe and heel portions of a ski boot to a ski.
  • a movable lateral clamping member for clamping the sides of a ski boot to a ski rearward of the toe and forward of the rear of the heel of the boot.
  • the heel step-in mechanism is an overcenter type mechanism.
  • a member is provided which extends forwardly of the mechanism to be engaged by the heel of a ski boot.. To cock the mechanism and apply the clamping force to the clamping member, the forwardly extending member is moved to a raised position as by a strap, lever member or the like.
  • the forwardly extending member is moved overcenter to a lower position wherein the full clamping force is applied to the heel of the ski boot for clamping the ski boot between the heel and toe clamping members.
  • Manual cocking or resetting of the step-in mechanism is typically required prior to each re-entry of the binding.
  • the step-in mechanisms which heretofore have been proposed are located at the heel of the ski boot or in a position to be contacted by the sole of the ski boot generally rearward of the toe and forward of the rear of the heel of the boot.
  • a member which extends forwardly of the mechanism to be engaged by the heel of the ski boot As in the conventional toe-heel binding, to cock the mechanism and apply the clamping force to the clamping members, the forwardly extending member is moved to a raised position as by a strap, lever member or the like.
  • a force unit comprising a spring member is moved to a position wherein the force of the spring member is removed from the clamping members.
  • the step-in mechanism which is itself spring-loaded, is moved by its spring to engage a part of the clamping member. After the step-in mechanism engages the clamping member, the force unit is moved to its clamping position. With the force unit moved to its clamping position, the full clamping force of the spring member is restrained by the step-in mechanism from moving the clamping members to their closed or clamping position.
  • the forwardly extending member In use, as the heel of the ski boot is brought to bear on the forwardly extending member, the forwardly extending member is moved from its raised position to a lower position. As the forwardly extending member is moved to its lower position, it is disengaged from the clamping member, thereby allowing the clamping member to engage the ski boot or other clamp-receiving means attached to the ski boot with the full clamping force of the spring member.
  • One of the principal disadvantages of the step-in mechanism of the aforementioned side-clamp type binding is that is is necessary to provide a clearance space in the nature of a cutout in the heel of the boot for the forwardly extending heel-engaging member and parts of the step-in mechanism and force unit rearward thereof.
  • the cutout in the heel portion of the ski boot is required to provide necessary clearance for the parts of this type of step-in mechanism and, in particular, to provide the clearance necessary for the step-in mechanism to automatically reset during involuntary, release. Under certain conditions, the binding will cock during a release.
  • a side-clamp type binding of the type described is shown in the German specification Offenlegungsschrift 2,649,826.
  • a step-in member which is movably mounted in a hole provided therefor in a housing of the binding.
  • the step-in member is provided with a surface for engaging a facing surface on a part of the movable clamping members.
  • the step-in member which is itself spring-loaded, is moved to a raised position wherein the engaging surface on the step-in member engages the facing surface on the clamping members. Thereafter, as the force unit is moved to its clamping position, the full force of the force unit is brought to bear on the step-in member. The binding at this point is prepared for entry.
  • a skier places his or her ski boot in skiing position over the step-in member and, pressing down, moves the step-in member downwardly into the housing.
  • the step-in member disengages from the clamping members, allowing the clamping members to engage the ski boot or other clamp-receiving means with the full clamping force of the force unit.
  • a step-in binding of this type is described in U.S. Patent 4,063,752, assigned to the applicant of the present application.
  • both of the prior known type bindings have the disadvantage of having the full clamping force of the force unit applied to the step-in member for a substantial period of time when the binding is cocked.
  • This condition imposes severe mechanical requirements on the various parts of the binding and, in particular, on the mechanical structure of the step-in member and facing surface of the clamping members.
  • the previously described side-clamp bindings with the step-in member located at the heel of the ski boot further suffer from the disadvantage of being more complicated structurally and requiring specially made ski boots having cutouts in the heel portion of the sole thereof for providing clearance for parts of the binding mechanism.
  • the side-clamp type binding with the step-in member located in use rearward of the toe and forward of the rear of the heel has a simpler mechanical structure and does not require special ski boots. Also, the latter binding achieves its objectives without interfering with the movement of the ski boot relative to a ski in any direction during shock-absorbing maneuvers or release.
  • a principal object of the present invention is a releasable step-in ski binding with a laterally movable side-clamping member.
  • the sideclamping member is provided with an open position for disengaging a ski boot and a ski, and a closed position for engaging a ski boot and a ski.
  • a step-in member coupled to the side-clamping member, a step-in member.
  • the step-in member is provided to move in response to the pressure of a ski boot being inserted in the binding for moving the movable side-clamping member to its closed position and thereafter, applying to the side-clamping member a clamping force for releasably engaging the ski boot and the ski.
  • the means for closing the clamping member and thereafter applying a clamping force to the clamping member comprises a spring member, a connecting member, and means for coupling the connecting member to the step-in member.
  • the step-in member is preferably located in a position to be contacted by the ski boot as the boot is placed in the skiing position. With the ski boot placed in skiing position, a downward movement of the boot against the step-in member will cause the movable side-clamping member to engage the boot at a point rearward of the toe and forward of the rear of the heel of the boot.
  • the connecting member moves the spring member which, in turn, moves the side-clamping member from its open position to its closed position.
  • a clamping force applied position moves the spring member in a manner providing a clamping . force on the side-clamping member.
  • Means are also provided for voluntarily disengaging a ski boot and a ski and for adjusting the magnitude of the clamping force clamping, a ski boot to a ski.
  • the connecting member coupling the step-in member to the spring member is coupled directly to the spring member by means of the clamping force. adjusting means.
  • the connecting member connecting the step-in member to the spring member is indirectly coupled to the spring member by means of a pivotal linkage assembly.
  • the movement of the step-in member between its clamp-opened and its clamp-closed positions is transmitted to the side-clamping member through the pivotal linkage assembly.
  • the connecting member connecting the step-in member to the pivotal linkage assembly begins to straighten and elongate the pivotal linkage assembly, causing it to move the side-clamping member to its closed position.
  • a further movement of the step-in member to its clamping force applied position changes the length of the spring, member as in the previously described embodiment so as to' apply a clamping force to the side-clamping member.
  • the changing of the length of the spring member comprises compressing the spring member. It is understood, however, that the same forces could be achieved by suitable means for extending the spring member.
  • the embodiment incorporating the pivotal linkage assembly also comprises means for voluntarily moving the side-clamping member from its closed position to its open position.
  • a principal advantage of the present invention is due to the fact that none of the elements of the binding is subjected to a clamping force until after the movable side-clamping member is in its closed position. This greatly reduces the mechanical stress placed on the various binding parts and results in a relatively simple, yet highly reliable binding. It also results in a binding that is relatively easy to enter and exit. Indeed, relatively little force is required for entering the binding. This is because it is not necessary to overcome any clamping force to close the binding and once closed, only a minimal, if any, force is required to lock the clamp force unit to the clamping member for opposing any subsequent opening of the clamping member.
  • Fig. 1 is a bottom plan view of a binding according to the present invention.
  • Fig. 2 is a side cross-sectional view taken along the lines 2-2 of Fig. 1.
  • Fig. 3a is a bottom plan view of a step-in member of Fig. 1 according to the present invention.
  • Figs. 3b and 3c are side cross-sectional views of the step-in member of Fig. 3a in its clamp-opened and clamp-closed positions, respectively.
  • Fig. 3d is a front cross-sectional view of the step-in member of Figs. 3a-3c.
  • Fig. 4 is a front view of a release pivot lever according to the present invention.
  • Fig. 5 is a bottom plan view of an alternative embodiment of the present invention.
  • Fig. 6 is a cross-sectional view taken along the lines 6-6 of Fig. 5.
  • Fig. 7 is a side elevation view of the pivotal linkage assembly of Figs. 5 and 6 in its clamp-opened position according to the present invention.
  • Fig. 8 is a. front elevation view of a clamp release member of the embodiment of Figs. 5-6 according tothe present invention.
  • Fig. 9 is a top plan view of an alternative clamp holding and release mechanism for use in the embodiment of Figs. 1 and 2 according to the present invention with the connecting member omitted for clarity.
  • Fig. 10 is a cross-sectional view of Fig. 9.
  • Fig. 11 is a side-elevation view of Fig. 10.
  • Fig. 12 is a side-elevation view of an alternative step-in member according to the present invention.
  • Fig. 13 is a bottom plan view of the step-in member of Fig. 12.
  • Fig. 14 is a rear elevation view of the Fig. 13.
  • Fig. 15 is a cross-sectional view of an alternative pivotal linkage assembly according to the present invention.
  • Fig. 16 is a side-elevation view of Fig. 15.
  • Fig. 17 is a top plan view of a step-in pivotal linkage cup of Fig. 16.
  • a housing 1 In the housing 1 there is provided an upper or top housing section 1T and a lower or bottom housing section 1B. Mova ⁇ bly mounted between the sections 1T and 1B in the housing
  • a pivot post 5 and 6 about which the members 3 and 4 pivot.
  • a pair of jaw members 7 and 8. The jaw members 7 and 8 are provided for engaging a jaw or clamp-receiving member (not shown) for releasably engaging a ski boot and a ski rearward of the toe and forward of the rear of the heel of the boot.
  • the connecting member 10 is an elongated member which extends substantially the full length of the binding. At its forward end the connecting member 10 comprises a T-shaped portion 11. Extending rearwardly and outwardly from the T-shaped portion 11, there is provided a pair of arms 12 and 13. The arms 12 and 13 are provided for slidably engaging facing surfaces on interior openings in the side-clamping members 3 and 4. As the connecting member 10 is moved to the right or rearwardly, the clamping members 3 and 4 are pulled inwardly. As the connecting member 10 is moved forwardly or to the left, a pair of surfaces 14 and 15 on the side-clamping members 3 and 4 are engaged by facing surfaces 16 and 17 on the connecting member 10 for moving the side-clamping members 3 and 4 outwardly.
  • the connecting member 10 is provided with a section 21 which extends downwardly a predetermined distance and rearwardly toward the rear end of the binding for providing a space for receiving a spring member 20.
  • the spring member 20 as a component of a clamping force unit, is provided for applying a clamping force to the side-clamping members 3 and 4, as will be described in more detail below.
  • the connecting member 10 is provided with an upright member
  • the connecting member 10 Extending forwardly from the section 21 to a position just rearward of the outwardly extending arms 12 and 13 of the connecting member 10, there is provided in the connecting member 10 an elongated slot 25.
  • the slot 25 is provided for receiving a step-in member 26 and a connecting member 27.
  • the connecting member 27 extends rearwardly from the step-in member 26 through the center of and coaxial with the spring 20 and through a hole provided therefor in the member 22.
  • the connecting member 27 extending from the step-in member 26 comprises a generally elongated, rigid, rod-like member. At its forward end the connecting member 27 is provided with a beveled surface 28. At its rear end, the connecting member 27 is provided with a flange 29. Between the surface 28 and the flange 29, the connecting member 27 is provided with threads 30. The threads 30 are provided for threadably receiving a clamping force adjustment knob 31. The clamping force adjustment knob 31 is provided for engaging the opposite end of the spring 20. To adjust the magnitude of the clamping force applied to the side-clamping members 3 and 4, the relative position of the knob 31, and consequently the spring 20 on the connecting member 27 is adjusted by rotating the knob 31 on the connecting member 27.
  • a release pivot member 35 Located between the upstanding member 22 of the connecting member 10 and the flange 29 at the end of the connecting member 27, there is provided a release pivot member 35.
  • a hole 36 and a hole 37 there is provided in the release pivot member 35, a hole 36 and a hole 37.
  • the hole 36 is provided for slidably receiving the connecting member 27.
  • the hole 37 is provided for receiving the tip of a ski pole or the like for voluntarily opening the clamping members 3 and 4 and disengaging a ski boot and a ski.
  • the release pivot lever 35 is angulated with an upper portion extending forwardly from the bottom portion thereof.
  • the member 35 is located between the upstanding member 22 of the connecting member 10 and the flange 29 for moving the connecting member 10 forwardly and the connecting member 27 rearwardly against the force of the spring 20. In moving the member 35, the member 35 is pivoted about a pin 38 located at its lower end.
  • the step-in member 26 is provided with a base portion 40.
  • the base portion 40 is adapted to slide freely in a well or recess 41 provided therefor in the bottom section 1B of the housing 1.
  • a surface 42 is provided on the opposite end of the step-in member 26 for receiving the sole of a ski boot or the like for moving the step-in member 26 from a clamp-opened position, as shown in Fig. 3b, to a clampclosed position, as shown in Fig. 3c.
  • Fig. 3a-d To move the step-in member 26 from its clamp-closed position, as shown in Fig.
  • a spring member 43 Between the base 40 and the upper surface 42, the step-in member 26 is provided with an inclined surface 44.
  • the inclined surface 44 and the inclined surface 28 of a connecting member 27 are facing surfaces.
  • a movement of the release pivot lever 35 rearwardly against the flange 29 to the position shown in broken lines in Fig. 2 separates the step-in member 26 and the connecting member 27.
  • the separation of the step-in member 26 and the connecting member 27 releases the step-in member 26 to move from its clamp-closed position, as shown in Fig. 3d, to its clamp-opened position, as shown in Fig. 3b.
  • the connecting member 27 With the step-in member 26 in its clamp-opened position, as shown in Fig. 3b, the connecting member 27 is moved forwardly beneath the step-in member 26 such that the inclined surfaces 44 and 28 of the step-in member 26 and the connecting member 27 are in a facing relationship. With the connecting member 27 in its most forward position, the spring member 20 is fully extended.
  • the connecting member 10 coupling the spring 20 to the side-clamping members 3 and 4 is free to move forwardly.
  • the connecting member 10 moved forwardly the side-clamping member 3 and 4 are free to move outwardly, for preparing the binding for the entry of a ski boot therein.
  • the binding is prepared for the entry of a ski boot therein.
  • the step-in member 26 is forced downwardly into the well 41.
  • the facing surface 44 engages the surface 28 on the connecting member 27, moving the connecting member 27 rearwardly.
  • the clamping force adjusting knob 31 presses against the forward end of the spring 20, causing the spring 20 to be pressed against the upstanding member 22 of the connecting member 10.
  • the connecting member 10 is moved rearwardly
  • the side-clamping members 3 and 4 are moved to their closed position. Maximum closure of the side-clamping members occurs when the connecting member 27 is moved to a position intermediate the positions shown for the connecting member in Figs. 3b and 3c. With the side-clamping members 3 and 4 drawn together to their closest position, a further movement of the step-in member 26 into the well 41 causes the forward end of the connecting member 27 to lock in a friction-tight manner against the vertical side wall of the step-in member 26 and compress the spring 20 against the upstanding member 22 of the connecting member 10.
  • the magnitude of the compression of the spring member 20 and hence the magnitude of the clamping force imparted to the side-clamping members 3 and 4 depends on the position of the clamping force adjustment member 31 on the connecting member 27.
  • the step-in member 26 When the step-in member 26 is moved to the fullest extent possible into the well 41, it is in its clamping force applied position. This is the position in which the maximum clamping force for any given position of the force adjustment knob 31 is applied to the side-clamping members 3 and 4.
  • the forward edge of the connecting member 27 engages the side wall of the step-in member 26 in a friction-tight manner.
  • the force with which the leading edge of the connecting member 27 engages the side wall of the step-in member 26 is equal to the clamping force. This force retains or holds the step-in member 26 in its clamp-closed position until the release pivot lever 35 is moved rearwardly, separating the two members as initially described.
  • the release pivot lever 35 is first moved forwardly against the member 22 and the force of the spring member 20. As the lever 35 is moved forwardly, the connecting member 10 is also moved forwardly opening the side-clamping members. After a ski boot is removed therefrom, the lever 35 is moved rearwardly as previously described to release and reset the step-in member 26 to its clamp-opened position, preparing the binding for re-entry.
  • a housing 100 In the housing 100 there is provided an upper or top housing section 100T and a lower or bottom housing section 100B Movably mounted between sections 100T and 100B in the housing 100 there is provided a pair of laterally movable side-clamping members 102 and 103. Movably mounted in the center of the side-clamping members 102 and 103 there is provided a connecting member 110. At its forward end, the connecting member 110 is provided with a pair of outwardly extending arms 112 and 113.
  • the arms 112 and 113 extend generally forwardly for engaging facing surfaces in recesses provided therefor in clamping members 102 and 103.
  • the engaging of the facing surfaces between the arms 112 and 113 and the clamping members 102 and 103 is provided for drawing the clamping members 102 and 103 together as the connecting member 110 is moved forwardly or to the left, as shown in Fig. 5.
  • On the opposite side of the arms 112 and 113 there are provided surfaces 116 and 117.
  • the surfaces 116 and 117 are provided for engaging facing surfaces 114 and 115 on the clamping members 102 and 103 for moving the clamping members 102 and 103 outwardly to their open position as the connecting member 110 is drawn rearwardly or to the right, as shown in Fig. 5.
  • the connecting member 110 is provided with an upstanding member 120. Located in the center of the connecting member 110 and extending forwardly from the upstanding member 120 there is provided an elongated slot 121.
  • the slot 121 is provided for receiving a step-in member 126 and a connecting member 127.
  • the step-in member 126 which is substantially identical to the step-in member 26 of Figs. 3a-d, is provided with an inclined surface 129 for engaging a corresponding facing surface 128 on the forward end of the connecting member 127. Forward of the inclined surface 129 there is provided in the step-in member 126 a spring member 133. In the bottom section 100B of the housing 1, there is provided a well or recess 134. The well or recess 134 is provided for receiving the bottom portion of the step-in member 126 when the step-in member 126 is moved from a clamp-opened position to a clamp-closed position.
  • the spring member 133 like the spring member 43, is provided for moving the step-in member 126 from its clamp-closed position to its clamp-opened position, as will be further described.
  • a pivotal linkage assembly 137 At the rear end of the connecting member 127 there is provided a pivotal linkage assembly 137.
  • a forward link member 138 In the linkage assembly 137 there is provided a forward link member 138, an intermediate link member 139 and a spring rod member 140.
  • the link members 138 and 139 are pivotally coupled by means of a pivot pin 141.
  • the link members 139 and spring rod member 140 are pivotally coupled by means of a pivot pin 142.
  • In the upstanding member 120 there is provided a recess for receiving the forward end of the link member 138.
  • the link member 138 is provided to slidably pivot in the recess, as will be described below.
  • the spring rod member 140 there is provided a plurality of threads 143.
  • the threads 143 are provided for threadably receiving a clamping force adjustment knob 144.
  • a fixed, upstanding member 145 At the rear end of the rod 140 there is provided a fixed, upstanding member 145.
  • a hole for slidably receiving the end of the rod 140 In the member 145, there is provided a spring 146.
  • the spring 146 is provided for providing a clamping force.
  • the connecting member 127 is provided with a beveled surface 147.
  • the beveled surface 147 is provided for moving the link members 138 and 139 of the linkage assembly 137 from a clamp-opened position to a clamp-closed postion, as will be further described below.
  • a pair of outwardly extending arms 151 and 152 there is provided in the release member 150 a pair of outwardly extending arms 151 and 152. Arms 151 and 152 extend outwardly from the top of the member 150. At its bottom or lower end, the member 150 is coupled to the link member 138 and 139 of the linkage assembly 137 by means of the pivot pin 141.
  • the step-in member 126 is initially assumed to be in its clamp-opened position, the step-in member 126 is in a raised position, as shown in Fig. 3a for the member 26 of the apparatus of Figs. 1-4.
  • the connecting member 127 With the step-in member 126 in its raised position, and held there at least temporarily by the spring member 133, the connecting member 127 is moved to its forwardmost or clamp-opened position.
  • the connecting member 127 With the connecting member 127 in its clamp-opened position, the connecting member 127 is moved forwardly or to the left of the position shown in Fig. 6.
  • the linkage assembly 137 comprising the linking members 138, 139 and 140, are moved to their clamp-opened position. in which the spring member 146 is relaxed or fully extended, as shown in Fig. 7.
  • a skier places a ski boot in a skiing position over the step-in member 126.
  • the step-in member is forced downwardly into the well 134 provided therefor in the bottom section IB of the housing 1.
  • the connecting member 127 is pushed rearwardly by the facing surfaces 128 and 129.
  • the inclined surface 147 at the rear end of the connecting member 127 engages the link member 138 of the pivotal linkage assembly 137.
  • the link member 138 As the connecting member 127 engages the link member 138, the link member 138 is raised, causing the linkage assembly 137 to begin straightening out or elongating.
  • the straightening out or elongation of the linkage assembly 137 causes the connecting member 110 to be moved forwardly due to the pressure of the link member 138 against the upstanding member 120.
  • the connecting member 110 As the connecting member 110 is moved forwardly, the clamping members 102 and 103 are caused to be pulled inwardly to their closed position.
  • the clamping members 102 and 103 have been moved to their fully closed. position, the further straightening or elongation of the pivotal linkage assembly by the connecting member 127 results in a compression of the spring member 144 as the adjusting knob 144 is pushed against the spring member 146.
  • the full clamping force depending on the position of the force adjustment knob 144 is applied to the side-clamping members 102 and 103.
  • the clamping force adjusting member 144 may be rotated on the rod 140 for changing the compression of the spring member 146.
  • the connecting member 127 is free to move rearwardly relative to the step-in member 126.
  • the step-in member 126 and the member 127 are loosely coupled so that the step-in member 126 is free to move to its clamp-opened position under the force of the spring member 133.
  • the release member 150 is pushed downwardly toward the linkage assembly 137.
  • the linking members 138 and 139 are caused to pivot about their pivot pins 141 and 142.
  • the linking members 138 and 139 are caused to pivot about their pivot pins 141 and 142, the link member 138 comes into contact with the inclined surface 147 of the connecting member 127.
  • the connecting member 127 is caused to be moved forwardly.
  • the connecting member 127 is caused to move forwardly, the beveled surface 128 at the forward end of the connecting member 127 moves beneath the step-in member 126. As the surface 128 moves beneath the member 126, the spring load is removed from the connecting member 110, thereby unloading the side-clamping members 102 and 103.
  • the mechanism is a locking mechanism designated generally as 200. In the mechanism 200, there is provided a base 201 for mounting the mechanism in a location replacing the release lever 35.
  • a pair of frame members 202 Extending upwardly from the base 201, there is provided a pair of frame members 202.
  • the frame members 202 are provided for supporting a sliding blade member or pawl 203.
  • the pawl 203 is provided for releasably engaging a notch or detent 204 in the connecting member 27.
  • a step-in cup member 205 Extending upwardly from the frame members 202, there is provided a step-in cup member 205.
  • the step-in cup member 205 is provided at its upper end with a recess 206. Extending downwardly along opposite sides of the connecting member
  • leg members 207 are provided for engaging the blade or pawl 203 for moving the blade or pawl 203 downwardly against the force of a spring member 208 for removing the blade or pawl 203 from the detent 204.
  • the mechanism 200 may be used in lieu of the release lever 35 in the apparatus of Figs. 1 and 2.
  • the mechanism 200 is typically mounted at the rear of the binding and the location of the lever 35. If necessary, the connecting member 27 is made somewhat longer than neces sary when using the release lever 35 to provide sufficient clearance due to the somewhat larger dimensions of the mechanism 200.
  • the principal advantage of the mechanism 200 is to eliminate the requirement for a friction fit between the connecting member 27 and the wall of the step-in member 26 when the step-in member 26 is in its clamp-closed position.
  • the connecting member 27 is moved rearwardly, closing the clamping members 3 and 4 and compressing the spring 20.
  • the notch 204 is engaged by the pawl 203.
  • the force unit comprising the spring member 20 is locked to the side-clamping members 3 and 4 for applying a clamping force to the side-clamping members.
  • a ski pole tip or the like is inserted in the cup 206 to move the cup downwardly.
  • the pawl 203 is removed from the detent 204 releasing the connecting member 27.
  • the step ⁇ in member 226 is provided with a base 228 and an upper surface 229.
  • the base 228 is provided for centering the step-in member 226 in a well or recess 230 provided therefor in the bottom section IB of the housing 1.
  • the surface 229 is provided for receiving the sole of a ski boot for moving the step-in member 226 between its clamp-opened position and its clamp-closed position.
  • the step-in member 226 is provided with an inclined surface 231.
  • the inclined surface 231 is provided for slidably engaging a corresponding facing surface 232 on the connecting member 228.
  • step-in member 226 The principal difference between the step-in member 226 and the step-in members 26 and 126 of the pre viously described embodiments is that a step-in spring member for moving the step-in member 226 from its clampclosed position to its clamp-opened position is not required. Instead, the inclined surface of the connecting member 228, when moved to its most rearward position, remains in sliding contact with the inclined surface 231 of the step-in member 226. With the surfaces 231 and 232 in facing relationship, a movement of the connecting member 228 toward the step-in member 226 will cause the step-in member 226 to be raised to its clamp-opened position by the connecting member 228.
  • FIG. 15 there is shown an alternative linkage assembly release member 250.
  • the release member 250 there is provided a recess or step-in cup 251.
  • the step-in cup 251 is provided for receiving the tip of a ski pole or the like.
  • the spaced leg members 252 and 253 are provided for attaching the member 250 to the link members 138 and 139 of the linkage assembly 137.
  • a ski pole tip or the like placed in the step-in cup 251 of the member 250 may be used for moving the pivotal linkage assembly downwardly for shortening the linkage assembly, as shown in Fig. 16.
  • the connecting member 228 is moved forwardly.
  • the facing surfaces 231 and 232 on the step-in member 226 and the connecting member 228 move relative to each other, causing the step-in member 226 to be moved upwardly to its clamp-opened position, as represented in Fig. 3a for the step-in member 26.
  • the force unit for applying a clamping force to the movable side-clamping members is described as comprising a compressible spring member. While a compressible spring member is a convenient means for providing a clamping force, other types of spring members may be used. Indeed, with suitable modifications well within the skill of the art, other types of force units such as electric and magnetic force units may also be used. Accordingly, it is intended that the embodiments disclosed be considered only for purposes of illustrating the invention and that the scope of the invention be determined by reference to the claims hereafter appended and. their equivalents.

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  • Footwear And Its Accessory, Manufacturing Method And Apparatuses (AREA)
  • Basic Packing Technique (AREA)
PCT/US1980/000045 1979-01-08 1980-01-07 A step-in ski binding WO1980001354A1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
DE803026918A DE3026918A1 (en) 1979-01-08 1980-01-07 A step-in ski binding

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US168879A 1979-01-08 1979-01-08
US1688 2001-10-25

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WO1980001354A1 true WO1980001354A1 (en) 1980-07-10

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ID=21697324

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PCT/US1980/000045 WO1980001354A1 (en) 1979-01-08 1980-01-07 A step-in ski binding

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JP (1) JPS56500060A (enrdf_load_stackoverflow)
AT (1) AT372611B (enrdf_load_stackoverflow)
CA (1) CA1144577A (enrdf_load_stackoverflow)
CH (1) CH652611A5 (enrdf_load_stackoverflow)
DE (1) DE3026918A1 (enrdf_load_stackoverflow)
FR (1) FR2445730A1 (enrdf_load_stackoverflow)
WO (1) WO1980001354A1 (enrdf_load_stackoverflow)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0114664A3 (en) * 1983-01-21 1985-07-03 Tmc Corporation Releasable ski binding
GB2329129A (en) * 1997-09-12 1999-03-17 Indoor Ski Instructor Co Ltd Apparatus for retaining a foot on a sports device

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3370444D1 (en) * 1982-01-27 1987-04-30 Haldemann Ag Safety ski binding
CH645030A5 (fr) * 1982-01-27 1984-09-14 Haldemann Ag Fixation de securite d'une chaussure sur un ski et chaussure de ski pour cette fixation.
AT376136B (de) * 1983-01-21 1984-10-10 Tyrolia Freizeitgeraete Ausloeseskibindung

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3891227A (en) * 1968-10-22 1975-06-24 Spademan Richard George Releasable ski binding
US4145071A (en) * 1975-11-26 1979-03-20 Etablissements Francois Salomon Et Fils Safety binding for ski-boot with automatic refitting

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2258877A2 (en) * 1972-03-13 1975-08-22 Spademan Richard Releasable snow ski binding - has spring biasing to releasably engage sole mounted moving lever with ski plate

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3891227A (en) * 1968-10-22 1975-06-24 Spademan Richard George Releasable ski binding
US4145071A (en) * 1975-11-26 1979-03-20 Etablissements Francois Salomon Et Fils Safety binding for ski-boot with automatic refitting

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0114664A3 (en) * 1983-01-21 1985-07-03 Tmc Corporation Releasable ski binding
GB2329129A (en) * 1997-09-12 1999-03-17 Indoor Ski Instructor Co Ltd Apparatus for retaining a foot on a sports device

Also Published As

Publication number Publication date
AT372611B (de) 1983-10-25
DE3026918A1 (en) 1981-02-26
FR2445730B1 (enrdf_load_stackoverflow) 1983-11-18
CA1144577A (en) 1983-04-12
JPS56500060A (enrdf_load_stackoverflow) 1981-01-22
ATA6680A (de) 1983-03-15
FR2445730A1 (fr) 1980-08-01
CH652611A5 (de) 1985-11-29

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