SU955967A1 - Mountain ski fastening - Google Patents

Description

The invention relates to the field of sports equipment, in particular to ski mounts.

A ski mount is known, containing _ fixed on the base front and rear locking stops for a boot with recesses, a box-shaped housing mounted on the sole of the boot and a power mechanism located therein, comprising a rocker mounted on a vertical axis, located in the slots of the lateral sides. body along the longitudinal axis of the ski and the recesses of the locking stops two fingers pivotally connected by means of rods with 15 arms of the rocker arm, power springs and means' for changing their efforts! /].

A disadvantage of the known fastening is that it does not provide a delay in operation from large amplitudes, but short-term overloads, which negatively affects safety when using it.

An object of the present invention is to increase safety.

This goal is achieved by the fact that the ski mount containing front and rear fixing stops fixed for the base for boot 30 with recesses, a box-shaped housing mounted on the sole of the boot, a power mechanism located therein, comprising a beam mounted on a vertical axis, located in the slots of the sides the case along the longitudinal axis of the ski and the recesses of the locking stops two fingers pivotally connected by means of rods to the arms of the rocker arm, power springs and means for changing their efforts, according to the image The network has two eccentrics made in the form of sectors and set to ¹ . the housing on the axes on opposite sides of the rocker arm, with each arm of the rocker arm has a protrusion for interacting with the eccentric, located between the axis of rotation of the eccentric and its center of gravity, the springs being placed between the housing wall and the cam.

In addition, the rear locking stop has a horizontal axis pivotally mounted at the base transverse to the ski and a fastening lever rigidly connected to it.

At the same time, the mount may have a stopper made in the form of a support, a two-shoulder gin lever, charters on the horizontal axis,

955.967 that its upper end “is located between the base and the heel of the body.

The beam can have a number of holes for installing rods with. the purpose of ensuring differentiation of the front and back fixing 5 emphasis.

In FIG. 1 shows a kinematic diagram of the proposed ski mount; in FIG. 2 - ski mount, side view, operating position ^ 10 of FIG. 3 is the same, side view, position when triggered, installed and removed.

The ski mount contains fixed on the base 1 ski 2 front 3 and rear 4 fixing stops ed for boot 5 with recesses b, box-shaped housing 7, made for example integrally with the sole of the boot and placed in it a power mechanism containing mounted on the axis 8 ed rocker 9 placed in the housing side slots and recesses stop abutments two fingers 10 pivotally linked via rods 11c of the rocker arms, the two eccentrics, you are a _ complements in the form of sectors 12, ²³ PARTICULAR SETTING · a housing on axles 13 on opposite sides of the rocker for interaction with its protrusions 14, springs 15 and power means for changing their efforts.

In the embodiment shown in FIG. 1-3, the means for measuring the force of the power springs is made in the form of a screw 16., and the rear locking emphasis has a horizontal axis 17, pivotally mounted in the base 35 transversely to the ski and rigidly connected to it, the mounting removal lever 18.

In addition, the mount has a ski stopper made in the form of a two-shouldered growl 40 ha 20 spring-loaded with a spring 19, mounted on the horizontal axis 17, and the beam has a number of holes 21 for installing rods 11 with the aim of differentiating the working forces of the mounting actuation. 45

Mounting works as follows.

To install the boot into the binding, it is positioned along the longitudinal axis of the ski ed locking abutments and move downward in the direction of arrow A (FIG. 3) to the base 1. In this case, the end portions of the fingers 10 slide on the surface of the fixing stoppers and ¹ expense recessed bevel 22 inside 55 of the body. With further movement of the boot in a given direction, the end parts of the fingers enter the grooves of the front and rear fixing stops, and the heel part of the body, interacting with spring 19, moves the ski stopper beyond the ski sliding surface.

At critical efforts, due to the kinematic scheme of the power mechanism, both locking stops are opened.

Rotational lateral and vertical overloads due to the bevels 22 of the fingers 10 are converted into horizontal forces, which are transmitted to sectors 12 through rods and a rocker mounted on a vertical axis 12. Sectors representing inertial links transmit overload forces to springs whose static forces installed by screws. It is known that the critical forces on the response of fasteners depend on the speed and acceleration of external forces, since the sectors are a lever with different masses of shoulders (the point of application of the overload is between the axis of rotation of the sector and its center of gravity), then short-term, but large in amplitude overload quenched by inertial masses of sectors. This quality of the Proposed Fastening mainly contributes to the safety of * skiers.

It is known that the human bone has the ability to absorb sufficiently large instantaneous loads and at the same time has less strength in the case of slow pulling forces. At the same time, the athlete is forced to adjust the fastenings to the maximum possible load forces that occur when falling. If you adjust the mount for less effort, it increases the likelihood of unfastening the ski during the descent. The introduction of a delay in the kinematic fastening scheme, made in the form of inertial fists with different masses of shoulders, allows us to overcome this contradiction.

To remove the attachment, just press the release lever 18 in the direction of arrow B. In this case, the horizontal axis 17 will rotate and the flange 23 on it will push the finger out of the notch of the stop, and the spring 19 of the stop will expand the two-arm lever and push the boot out of the locking stops.

In addition, the proposed mount provides for the differentiation of the working forces of the front and rear locking stops. It is provided by discrete adjustment of the arms of the rocker arm and various angles of inclination of the bevels of the ends of the fingers.

The proposed mount is convenient to maintain and increases the safety of the skier both by the work of the mount itself for various types of overloads and by braking the ski when it is triggered.

Claims (4)

that its upper end is positioned between the base and the flat part of the body. The yoke may have a number of holes for mounting the straps. the purpose of ensuring the differentiation of the working forces of the front and. rear locking lugs. FIG. Figure 1 shows the kinematic scheme of the proposed ski support; in fig. 2 - ski mount, side view, working position - in FIG. 3 is the same, side view, position when triggered, installed and removed. Ski mount contains fixed on the base of 1 ski 2 front 3 and rear 4 fixing supports for boot 5 with notches b, box-shaped body 7, made for example in one piece with the sole of the boot and -placed in it, the power mechanism containing mounted on axis 8 rocker 9 Two fingers 10 placed in the side slots of the housing and recesses of the fixing lugs, articulated by means of two 11 shoulder arms, two eccentrics, made in the form of sectors 12, mounted in the housing on the axes 13 on different sides of the rocker arms for interacting with its protrusions 14, the spring force 15 and the means of varying the force dp In the constructive embodiment illustrated in FIG. 1-3, agent for iz; The force springs are made in the form of a screw 16. And the rear fixing support has a horizontal axis 17, pivotally mounted in the base, transversely to the ski and rigidly attached to it, the removal lever of the attachment 18. In addition, the mount has a ski stop, made in the form of a spring loaded spring 19 two shoulders arm 20 mounted on the horizontal. The axis is 17, and the rocker has a number of holes 21 to set it to t 11 with Yelje to ensure the differentiation of the working forces of the attachment operation. The mount works as follows. The boot installation dp in the mount is positioned along the longitudinal axis of the ski over the locking lugs and moved downward in the direction of arrow A (Fig. 3) to the base 1. At the same time, the end parts of the rim 10 slide along the surface of the locking lugs and due to the bevels 22 are embedded inside the body . Upon further movement of the boot in a given direction, the end portions of the fingers enter the recesses of the front and rear locking lugs, and the heel part of the body, interacting with the spring 19, moves the ski stop beyond the ski slip surface. At critical forces, due to the kinematic scheme of the force mechanism, both locking stops open. Rotational lateral and vertical overloads due to the bevels of 22 pins 10 are transposed into horizontal forces, which are transmitted to the sectors 12 through rods and rotors mounted on the vertical axis. The sectors, which are inertial units, transfer the forces of the overloads to the springs, the static forces of which are set by screws. It is known that the critical forces for actuation of the attachment depend on the speed and acceleration of external forces, since the sectors are a lever with different weight of arms (the point of application of the overload lies between the axis of rotation of the sector and its center of gravity), by the amplitude of the overload is extinguished by inertial masses of sectors. This quality is an advantage of attachment, mainly and contributes to the safety of skiers. It is known that human bone has the ability to absorb fairly large instantaneous loads and, at the same time, has less strength in the case of slow pulling forces. In this case, the athlete is forced to adjust the mount to the maximum possible load loads that occur during a fall. If, however, the fastening is adjusted with less effort, then the likelihood of the ski being released during the descent increases. Introducing the delay into the kinematic mounting scheme, made in the form of inertial fists with different shoulder weights, overcomes this contradiction. To remove the fastener, simply press the removal lever 18 in the direction of arrow B. The horizontal axis 17 rotates and the existing flush 23 is pulled out of the recess of the stop, and the spring 19 of the stop opens the double shoulders lever and pushes the boot out of the retaining stops. In addition, the proposed fastening provides for differentiation of the working forces of the front and rear locking lugs. It is provided by discrete adjustment of the arms of the rocker arms and various angles of inclination of the bevels of the end portions of the fingers. The proposed fastening is convenient to maintain and increases the skier's safety both by the operation of the fastening itself on various types of overloads and by braking the ski when it is triggered. Claim 1. Skiing mount containing skis mounted on the base front and rear locking lugs for a boot with grooves, a box-shaped body mounted on the sole of the boot, a power mechanism located in it containing a rocker mounted on a vertical axis, spaced in the slots of the sides of the body along the longitudinal axis of the ski and the notches of the fixed stops two fingers, hingedly rocker arms with t-arms, power springs and means for changing their force, which means that, in order to improve safety, it has two eccentrics made in the form of s and mounted in the housing on the axes on opposite sides of the rocker, each arm of the rocker has a protrusion for interaction with the eccentric located between the axis of rotation of the eccentric and its center of gravity, the springs being placed between the body wall and the eccentrics 2. The fastener according to claim 1, of which is that the rear retaining abutment has a horizontal axis, which is pivotally mounted at the base transversely to the ski and rigidly connected with it to the fastener. 3 .. Fastening on PP. 1-2, characterized in that it has a stopper made in the form of a spring-loaded two-arm lever mounted on a horizontal axis so that its upper end is placed between the base and the fifth part of the housing. 4. The fastener according to claim 1, characterized in that, in order to ensure the differentiation of the working forces of the front and rear locking lugs. ) Sources of information taken into account in the examination 1. US patent 3,606,358, Cl. 280-11.35, 1969. 7 10 f