Automatically releasable ski binding unit

Abstract

An automatically releasable ski binding unit has heel and toe binding units mounted to a common mounting platform, the toe unit being rotatable about an axis transverse to the longitudinal direction of the ski. A guide attachable to a ski is configured to slidingly captively accept the mounting platform for movement along the longitudinal direction of the ski. Rotation of the toe mounting unit from a normal to an upwardly extending position facilitates stepping into and out of the binding. A locking system provides for locking the mounting platform to the guide at a variety of chosen positions, the locking system being releasable by rotation of the toe binding unit towards the ski from the normal position adopted where a ski boot is inserted and the binding is locked. The heel release has a rear sole-engaging portion which is urged to the rear by the heel of an inserted ski boot during the locking operation. An electrically powered release including a solenoid is activated to release the heel binding unit when a rearward heel pressure significantly exceeding the static locking pressure is exceeded. A timer provides for delayed release requiring sustained excess rearward pressure for a given period of time. All electrical components are in the unpowered state at the static locking pressure and are actuated to a power consuming state when a threshold rearward heel pressure above the static locking pressure is exceeded.

Description

Claims

1. In an automatically releasable ski binding unit, comprising front and heel parts, a mechanical boot retaining system, an electronic control system powered by a battery power source, and a release system for the ski boot, the improvement wherein:

the front part is tiltable about an axis which extends transversely of the longitudinal axis of the ski, and the heel part includes a housing, a backing member mounted to said housing for movement along said longitudinal axis, a sole holder which is movable longitudinally with respect to the housing and disposed to be engaged by said backing member and urged forward responsively to forward movement of said backing member to engagingly lock said ski boot to said heel unit, first spring means disposed within said housing and mounted for movement along said longitudinal axis and disposed when compressed to urge said backing member forward along said housing against said sole holder, locking means for releasably holding said first spring means affixed to said housing in said compressed state and including key means for operating said locking means to a released state to release said heel part from said ski boot, electromagnet means associated with said control system for actuating said key means to release said first spring means upon energization of said electromagnet, signal receiver means disposed within said housing for connecting said control system to said power source, signal transmitter means operably responsive to movement of said sole holder beyond a given rearward limit for actuating said signal receiver means to connect said control system to said current supply, timing means for energizing said electromagnet means a given time after actuation of said signal receiver means, and wherein said signal transmitter means is guided in said backing member for backward movement and includes second spring means for providing resistance to said backward movement, said signal transmitter means having a front portion disposed to engage said sole holder.

2. The ski binding unit as claimed in claim 1, characterized in that the signal receiver means comprises a front sensor which activates said power source when actuated by the signal transmitter means and a rear sensor which actuates the electromagnet means through said timing means when actuated by the signal transmitter means, said rear sensor actuating said electromagnet means through said timing means responsively to a rearward motion of said signal transmitter means a given distance beyond that corresponding to a locked static ski boot, said front sensor activating said power source responsively to movement of said signal transmitter means a given distance forward beyond that corresponding to a locked static ski boot.

3. In an automatically releasable ski binding unit, comprising front and heel parts, a mechanical boot retaining system, an electronic control system powered by a battery power source, and a release system for the ski boot, the improvement comprising:

a pair of parallel connecting strips to which said front and heel parts are mountable, said front part being mounted for tilting rotation about an axis which extends transversely of the longitudinal axis of said strips;

an elongated take-up rail mountable to a ski to have its major dimension extending along the longitudinal axis of said ski, said strips being configured to be guided in said take-up rail; and

detent means for locking said strips to said rail in the area of the front part only.

4. The ski binding unit as claimed in claim 3, characterized in that said detent means are adapted to be unlocked by the front part being tiltable in a downward direction about said transverse axis from its position of use.

5. The ski binding unit as claimed in claim 4, wherein a mount each is associated with the heel and front parts, these mounts being configured to be guided on the take-up rail between the connecting strips and to present platforms for a ski boot.

6. A ski boot binding system comprising:

toe and heel binding units;

toe unit mounting means for permitting rotation of at least a sole-engaging portion of said toe binding unit about an axis transverse to the longitudinal direction of said ski;

mounting platform means for mountably accepting said binding units;

guide means attachable to a ski and configured for slidingly captively accepting said mounting platform means for movement along said longitudinal direction of said ski; and

releasable first locking means associated with said toe binding unit for locking said mounting platform means to said guide means at a plurality of chosen positions, said first locking means including detent means responsive to rotation of said sole-engaging portion in a first direction about said axis downward from a sole locking position for operation said first locking means to a releasing condition.

7. The ski binding unit of claim 6 wherein said sole-engaging portion is rotatable from said sole locking position in a second direction opposite to said first direction to a sole releasing position, and including releasable second locking means for preventing said rotation in said second direction from said sole locking position.

8. The ski binding unit of claim 6 including toe platform means for supporting the lower surface of said sole with said sole locked into said toe binding unit and positioned so as to prevent depression of said sole from operating said first locking means to said releasing condition.

9. The ski binding unit of claim 7 including toe platform means for supporting the lower surface of said sole with said sole locked into said toe binding unit and positioned so as to prevent depression of said sole from operating said first locking means to said releasing condition.

10. In a ski boot binding system having toe and heel binding units attachable to a ski, said toe binding unit having sole-engaging means for providing locking engagement with the toe portion of the sole of an inserted boot, said heel binding unit including sole-engaging means for providing locking engagement with the heel portion of said sole, resilient biasing means for urging said heel unit sole-engaging means towards the heel of said inserted ski boot, ad electrically powered release means adapted for connection to a battery for operating said heel unit sole-engaging means to a releasing condition to release said boot responsively to heel pressures against said heel unit sole-engaging means above a given threshold value, the improvement comprising:

pivoting mounting means for mounting said toe unit sole-engaging-means for rotation about an axis transverse to the longitudinal direction of said ski to be tiltable forward and away from the upper surface of said ski to provide space for accepting the insertion of said ski boot to engage said heel unit sole-engaging means and to force said heel of said ski boot against said heel unit sole-engaging means responsively to rotation of said toe unit sole-engaging means into a non-tilted orientation to close said toe binding unit;

switching means operatively responsive to the movement of said heel unit sole-engaging means for providing electrical power to said release means, said switch means being configured to be in an open non-power-supplying condition at the static closure pressure against said heel unit sole-engaging means caused by complete closure of said toe binding unit and be operable to a closed condition above said threshold pressure value; and

releasable toe unit locking means for locking said toe unit sole-engaging means in said non-tilted orientation.

11. The binding system of claim 10 wherein said release means includes electrically powered timing means operable to an energy-consuming state responsively to closure of said switching means for delaying operation of said release means to a releasing condition until after said threshold pressure value has been exceeded for a given continuous period of time.

12. The binding system of claim 10 wherein said release means includes electrically powered solenoid means operable by the energization of said solenoid means to actuate said release means to a releasing condition.

13. The binding system of claim 12 wherein said release means includes resiliently biased latching member operable to a locking position for locking said release means, and said solenoid means includes movable core means oriented to move a given distance and thereafter strike said latching member to operate said release means to said releasing condition upon energization of said solenoid means, and means for urging said core means away from said latching member when said solenoid means is in a de-energized condition.

14. The binding system of claim 11 wherein said release means includes electrically powered solenoid means operable by the energization of said solenoid means to actuate said release means to a releasing condition.

15. The binding system of claim 14 wherein said release means includes a resiliently biased latching member operable to a locking position for locking said release means, and said solenoid means includes movable core means oriented to move a given distance and thereafter strike said latching member to operate said release means to said releasing condition upon energization of said solenoid means, and means for urging said core means away from said latching member when said solenoid means is in a de-energized condition.