RU2075321C1 - Ski fastener - Google Patents

Abstract

FIELD: sports equipment. SUBSTANCE: ski fastener for boot toe has flat base with foot fixing pins and cheeks bent upward and provided with through openings in their front parts. Resilient rotary clip positioned in through openings is adapted for pressing boot ledge with lever positioned at outer side of cheek and bent to front side of base. Fastener has locking device for retaining hook-shaped lever end outside upper part of rear portion of outer cheek. Clip is curved between cheeks, with convexities being directed to front part of base, when fastening is in open position. Shape of clip part between convex portions conforms with boot toe. EFFECT: increased efficiency, simplified constructions and enhanced reliability in operation. 2 cl, 3 dwg

Description

 The invention relates to the industry that manufactures sports equipment, is a consumer item and is intended for the rigid fastening of the ski boot to the ski.

 A rigid ski mount is known, which has found wide practical application, consisting of a spring bracket rotating in the holes of the cheeks made in the rear of the base, and a “cock” or other type of latch rotates on the axis of the locking device, which is moved forward. When closing the lock, the bracket presses the boot welt to the base from two sides, on the sides of the toe of the boot / USSR author's certificate N 1687278, cl. A 63 C 9/00, 1991 /.

где F₁ сила упругости, давящая на ось замка;
F₂ сила давления скобы на рант ботинка;
d₁ длинное плечо: расстояние между замочной осью и осью вращения скобы;
d₂ короткое плечо: расстояние от места прижима скобы к ранту до оси вращения скобы.The calculation of the elastic force necessary to keep the lock on the lock is made in accordance with the formula for the equality of the moments of forces relative to the axis of rotation of the bracket in the holes of the cheeks:

where F ₁ elastic force, pressing on the axis of the castle;
F ₂ pressure force of the bracket on the boot welt;
d ₁ long shoulder: distance between the locking axis and the axis of rotation of the bracket;
d ₂ short arm: distance from the clip to the welt to the axis of rotation of the bracket.

Но чтобы получить силу упругости F₁, давящую на ось замка, необходимо надавить на скобу для закрытия замка с большим усилием F₃, поскольку точка приложения этого усилия между замком и рантом ботинка находится ближе к оси вращения скобы, чем ось замка.If the length of the long shoulder d ₁ is 65 mm, and the length of the short d ₂ 40 mm, then to achieve the necessary and sufficient pressure on the welt equal to 20 kg, you must have an elastic force at the end of the long shoulder equal to

But in order to obtain the elastic force F ₁ , which presses on the axis of the lock, it is necessary to press on the bracket to close the lock with a large force F ₃ , since the point of application of this force between the lock and the boot welt is closer to the axis of rotation of the bracket than the axis of the lock.

где F₃ усилие нажатия на скобу между осью замка и рантом ботинка;
d₃ длинное плечо: расстояние от точки нажатия на скобу до оси вращения скобы;
F₂ сила давления на рант;
d₂ короткое плечо: расстояние от места прижима скобы к ранту до оси вращения скобы.The force F _{3 is} determined from the equality of the moments of force relative to the axis of rotation of the bracket, where the short arm d ₂ and the pressure force on the welt F ₂ remain the same as in equality 1, and the long arm is shorter

where F _{3 the} force of pressing the bracket between the axis of the lock and the welt of the boot;
d ₃ long shoulder: distance from the point of pressing the bracket to the axis of rotation of the bracket;
F ₂ pressure force on the welt;
d ₂ short arm: distance from the clip to the welt to the axis of rotation of the bracket.

Усилие нажатия на скобу составляет таким образом 72,5% от необходимого давления на рант ботинка. Такое усилие доступно не всем, особенно детям. Следующим недостатком креплений данного вида является невысокая степень жесткости.If the point of application of force to the bracket is 10 mm from the lock axis, then the length of the shoulder d ₃ will be 55 mm, and the force of pressing the bracket F ₃ will be equal to

The force of pressing the bracket thus makes 72.5% of the necessary pressure on the boot welt. Such an effort is not available to everyone, especially children. Another disadvantage of this type of mount is a low degree of rigidity.

 When skiing, a spring clip pivotally connected to two axles makes a swinging movement. This, firstly, requires additional physical effort from the skier, and, secondly, causes unnecessary deformation of the boot welt by friction.

 In addition, the welt is deformed due to overloading of its sides, pressed by the bracket. The locking device, located ahead in the direction of travel, creates additional resistance due to sticking snow.

 The prototype of the invention is a ski mount / copyright certificate of the USSR N 215775, class. A 63 C 9/00, 1968 /, having one axis of rotation and two locks.

 The bracket is reinforced with its middle part in the support plate in front of the toe of the boot. The locks are located behind the line of pins, on the cheeks of the base, hook-shaped bends which hold the free ends of the elastic staples.

 The prototype mount has a higher degree of rigidity in comparison with the analog mounts described above, but suffers from the disadvantage that the boot welt is pressed with an elastic bracket only from the sides, where increased pressure is created per unit area of the clamp.

 In FIG. 1 shows a ski mount for the left boot in the open position, top view; in FIG. 2 same side view; in FIG. 3 ski mount for the right boot in the open position, top view.

 The ski mount according to the invention consists of a metal or plastic base 1, metal pins 2, a lever 3 made of spring steel wire.

 The base has cheeks bent upward 4. In the holes of the front of the cheeks 4, steel bushings 5 are reinforced, in which the lever 3 rotates. The base 1 has holes for attaching it to the ski with screws. Pins 2 are mounted in the base in one line.

 The axis of rotation of the lever 3 is in front of this line. In the rear part of the outer cheek of both the right and left fastenings, one locking device 6 is made, which is formed by the upper and lower bends of the cheek, between which there is a gap corresponding to the thickness of the lever 3.

 The lever 3 is curved curly. Its bends between the cheeks, directed from the bushings back to the toe of the boot, perform the function of a short shoulder of the lever, pressing the welt to the base. The outer part of the arm extending from the sleeve on the outer cheek and directed backward forms a long arm of the arm. Use the mount as follows.

 Lever 3 is folded back to the nose of the ski, put the boot on the flat part of the base 1, falling into the pins 2 with the recesses in the sole 2. Then turn the lever 3 by the long free end, while squeezing it from the cheek 4. The lever slides down the upper bend of the lock 6 and, Having reached the goal, it falls into it under the influence of elastic force. The latched end of the lever, being in a fixed lock, presses on the inside of the bend of the cheek up and in.

 The lower bend of the cheeks in the lock increases its reliability.

где

сила упругости, давящая изнутри на загиб замка;

необходимая сила давления изгибов рычага на рант,

длинное плечо рычага: расстояние от оси вращения рычага до конца загиба щеки, образующей замок;

короткое плечо рычага: расстояние от оси вращения рычага до вершины изгибов рычага, направленных от втулок к носку ботинка.The elastic force at the end of the long arm of the lever can be 4 5 times less than the required pressure of the short arm of the lever on the welt. To calculate the force of elasticity pressing on the lock, the formula of the equality of the moments of forces on the lever is used

Where

elastic force, pressing from the inside to the bend of the castle;

the required pressure force of the bends of the lever on the welt,

long arm of the lever: the distance from the axis of rotation of the lever to the end of the bend of the cheeks forming the lock;

short arm of the lever: the distance from the axis of rotation of the lever to the top of the bends of the lever directed from the bushings to the toe of the boot.

равно 55 мм, а короткое

15 мм, то для создания давления на рант

, равного 20 кг, достаточно получить силу упругости

, давящую на замок, равную

Чтобы получить такую силу упругости в замке, достаточно приложить к свободному концу рычага гораздо меньшее усилие нажатия, т.к. этот конец выходит из замка наружу. Усилие нажатия определяется по формуле

где

усилие нажатия на свободный конец рычага;

необходимая сила давления рычага на рант;

короткое плечо рычага;

длинное плечо рычага.If the long shoulder

equal to 55 mm and short

15 mm, then to create pressure on the welt

equal to 20 kg, it is enough to obtain elasticity

pushing the lock equal

To get such a force of elasticity in the lock, it is enough to apply much less pressing force to the free end of the lever, because this end goes out of the castle. The pressing force is determined by the formula

Where

pressing force on the free end of the lever;

the required pressure force of the lever on the welt;

short lever arm;

long lever arm.

составляет 70 мм, сила давления на рант

снова принимается равной 20 кг, а длина короткого плеча остается равной 15 мм, то усилие нажатия на свободный конец рычага

составит

Данное усилие не превышает 21,5% от уровня необходимого давления на рант. Защелкнуть на замок такое крепление смогут и дети.If the entire length of the free end of the lever

70 mm, pressure force on welt

again taken equal to 20 kg, and the length of the short arm remains equal to 15 mm, then the force of pressing the free end of the lever

will make

This effort does not exceed 21.5% of the required pressure on the welt. Children can snap on the lock.

 The proposed ski mount has a high degree of stiffness. Its significant advantage over mounting the prototype is as follows. Firstly, the curved part of the lever, enclosed between the cheeks, bends around the toe of the boot and distributes the pressure on the welt evenly around its perimeter, protecting it from deformation.

 Secondly, one lock instead of two creates greater ease of use. Thirdly, the consumption of materials for manufacturing is reduced; the length of the mounting base is at least 30% shorter, as the lever bracket does not attach in front of the toe of the boot.

Claims (2)

 1. Ski mount of the toe of the boot, comprising a flat base with pins for fixing the boot and cheeks bent upwards, an elastic bracket for holding the boot welt with a lever, mounted to rotate and position its pivot axis in front of the pins, and a locking device for holding the end of the lever in the form of a hook outward bending of the top of the back of the outer cheek, characterized in that the bracket is made curved between the cheeks with the direction of the bends of the bends to the front of the base in the open mounting position, and the shape of the brackets Between the bulges corresponds to the shape of the toe of the boot and provides a welt clamp along the entire perimeter of the toe, and the cheeks are provided with through holes in their front for staples, the lever is located on the outside of the cheek and bent to the front of the base.  2. The fastening according to claim 1, characterized in that the outer cheek is additionally equipped with locking means for holding the end of the lever, made in the form of a hook-shaped bend to the outside of the bottom of the back of the cheek.

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