RU2014861C1 - Ski toe binding - Google Patents

Abstract

FIELD: ski binding. SUBSTANCE: binding has body which accommodates compression spring resting by one end against body cross wall and by the other end against piston-like resilient disk coupled with rod. Rod passes through hole in cross wall and has control plate with two bridges of different width arranged one over the other. Hole in cross wall is elongated in vertical direction. Shorter arms of two bell-cranks installed for turning on vertical axles of body engage with bridges. EFFECT: enhanced reliability of fastening. 8 cl, 5 dwg

Description

 The invention relates to skiing, in particular to a toe ski mount.

 A ski mount is known, comprising a body rigidly fixed to the ski with a traction spring loaded in its cavity, one end of which interacts with a piston-shaped elastic disk, and the other end protruding outside the body is provided with a support for short angular shoulders through an opening in its transverse wall levers with a control plate interacting with its lower part with a spring-loaded clip, while the long shoulders of the levers are adjacent to the sole of the ski boot, and the angular levers are made vertically axes with the possibility of rotation relative to the longitudinal axis of the housing.

 The disadvantage of this fastening is that when the skier is combined to fall forward and to the side, the compression spring is strongly compressed, which reduces the work required to rotate the sole holder.

 The aim of the invention is to reduce the necessary for the fall of the skier forward and sideways work by taking the traction back to a smaller distance and, therefore, less compression of the spring.

 In FIG. 1 shows a longitudinal average section of a toe ski mount that corresponds to its position during riding; in FIG. 2 is the same, top view, with a partial section along the line AA in FIG. 1; in FIG. 3 - longitudinal average cross-section of the mount with a frontal fall of the skier; in FIG. 4 is the same, top view, partial section BB in FIG. 3, when at the same time as the frontal fall, the skier also falls to the side; in FIG. 5 - control mounting plate in a perspective view.

 The forefoot ski mount comprises a housing 1 which is attached to the ski 2 by means of screws 3. The housing 1 is provided with an extension 4 for the ski boot having a plate shape which is located under the sole of the boot. In the housing 1, an opening 5 is selected in which a compression screw spring 6 is located. At one end, it abuts against the transverse wall 7 of the housing 1, and at the other end, into a piston-shaped elastic disk 8, which, by means of a threaded sleeve 9, can be installed in the direction of the axis of the compression spring 6 and brought into the hole 5. The threaded sleeve 9 is in contact with the mating surface 10 the surface 11 of the elastic disk 8. The threaded sleeve 9 is screwed onto a rod 12, which passes through a compression spring 6, a vertically elongated hole 13 in the transverse wall 7 of the housing 1 and carries a control plate at its lower end 14.

 On the side of the casing 1, facing the ski boot, two vertical axes 15 are mounted symmetrically with respect to the vertical longitudinal middle level of the toe ski mount 15, on which the angular levers 16 are located (FIG. 2). These angular levers with a shorter shoulder 17 of the lever are adjacent to the front side of the control plate 14, and a longer shoulder 18 to the ski boot. The shorter lever arms, as seen in cross section, are rectangular, with each lever arm in the lower part of the side surface facing the control plate 14, beveled at an acute angle α.

 At the free end having the form of an extension plate of the housing 1, a pedal 20 provided with a sliding plate 21 is hinged through the axis 19. The free end of the pedal 20 enters the recess 22 of the control plate 14. This end of the pedal 20 slides along the recess 22, while the recess is oriented wedge-shaped with respect to the axis 19 of the pedal 20. Under the pedal 20 there is a spring 23, for example, in the form of a rubber block, the purpose of which consists in pushing the pedal 20 upward, so that the rod 12 falls into the upper end of the elongated hole 13 in the transverse wall 7 of the housing 1.

 The control plate 14 is made in the form of a rectangular parallelepiped. The front side of the control plate 14, corresponding to the short lever arm 17, is provided in its lower region with two lower control surfaces 24 symmetrically located relative to the vertical axis of the plate 14, which are separated from each other by a jumper 25. The upper 26 and lower 24 control surfaces are made as part cylinder surface. Moreover, the radii of the upper control surfaces 26 are larger than the radii of the lower control surfaces 24. Both upper control surfaces 26 are separated from each other by a jumper 27, which is narrower than the lower jumper 25. The transition between the upper 27 and the lower 25 jumpers is formed by the cylindrical surfaces 28 of the control surfaces 26 (see Fig. 5).

 The device operates as follows.

 In the riding position, all the elements are arranged as shown in FIGS. 1 and 2. In this case, the shorter shoulders 17 of the lever 16 are attached to the lower wider vertical jumper 25.

 If the skier falls to the side during riding, then the control plate 14 is fed back under the action of the compression spring 6 until one of the shorter arms 17 of the lever 16 slides from the lower bridge 25 onto the cylindrical control surface 24.

 If the skier falls forward and to the side, then first the pedal 20 under the action of the spring 23 is rotated towards the upper side of the ski, and the control plate 14 is fed down. In this case, the rotational movement of the pedal 20 is limited by the calculation of the spring 23, as a result of which neither the rod 12 at the lower end of the longitudinal hole 13 in the transverse wall 7 of the housing 1, nor the control plate 14 on the extension 4 in the form of a plate of the housing 1 can lower. This in the process of disengagement reliably eliminates the occurrence of undesirable friction forces. During the disengagement process, the shorter shoulders 17 of the levers 16 occupy a position on the upper narrower jumper 27. Due to this, the shorter shoulders 17 of the lever take the rod 12 back to a much smaller distance than in the case of a purely lateral fall (see figure 4) . Because of this, the disengagement path required for disengaging the toe ski mount is lower by approximately 40% when falling forward and sideways than with a purely lateral fall. Therefore, compensation for the resulting increased friction occurs.

 The invention is not limited to the described embodiments. Various modifications are possible. For example, a piston-shaped elastic disk for the trigger spring could be screwed directly onto the rod and provided with a convex lateral surface, which would introduce the elastic disk into the opening of the housing, which makes it possible to rotate the rod at a vertical level. Further, it would be possible to place another spring under the pedal, for example a helical spring or a package of elastic disk springs. Another option is that the control plate at the junction with both jumpers is equipped with two sinusoidal in section control surfaces or two even inclined planes. In all cases, it is advisable to round off the transitions between jumpers and control surfaces.

Claims (8)

 1. SOCK SKI MOUNTING, comprising a body rigidly fixed to the ski with two angular levers arranged to rotate on vertically extending axles and with a thrust compression spring loaded in its cavity, one end of which interacts with a piston-shaped elastic disk, and the other end protruding outside the housing through the hole in its transverse wall, equipped with a support plate for the short arms of the angular levers, a control plate interacting with its lower part with a spring-loaded clip, long shoulders of the levers adjacent to the sole of the ski boot, characterized in that the hole in the transverse wall of the body is elongated in the vertical direction, the rod is mounted to rotate in a vertical direction relative to the longitudinal axis of the body, and the control plate is on its side adjacent to the short shoulders of the levers, has two jumpers located one above the other with different widths.  2. The mount according to claim 1, characterized in that two symmetrically located control surfaces are adjacent to each jumper of the control plate relative to the vertical axis of the plate, while the direction of the control surface adjacent to the upper jumper does not coincide with the direction of the control surface adjacent to the lower jumper .  3. The fastening according to claim 2, characterized in that the lower control surfaces are made in the form of parts of the surface of a round cylinder, and the upper control surfaces in the upper part are made as part of the surface of the cylinder, and in the lower part in the form of ring surfaces, while the surface of the cylinder forming the upper control surface is larger than the radius of the surface of the cylinder forming the lower control surface.  4. Mounting according to paragraphs. 1 and 3, characterized in that the transitions between the upper and lower jumpers are formed by two edges, which are the dividing lines with the corresponding parts of the cylindrical surfaces of the lower parts of the upper control surfaces.  5. The mount according to claim 1, characterized in that the short shoulders have a rectangular cross section, with each short arm of the lever in its lower part of the side surface facing the control plate, beveled at an acute angle.  6. The mount according to claim 1, characterized in that the control plate is made with a recess in which the free end of the pedal is slidably mounted in it, while the pedal with its other end is pivotally mounted on an elongation of the body having an axis located across the ski plate shape.  7. The mount according to claim 6, characterized in that the recess in the control plate towards the pedal axis has the shape of a wedge.  8. The mount according to claim 1, characterized in that the rod is connected by means of a threaded sleeve to an elastic disk, while the threaded sleeve has a sphere in the form of a sphere adjacent to the mating surface of the elastic disk.

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