RU2683768C2 - Cross-country ski binding - Google Patents

Abstract

FIELD: sport; games; mass entertainment.SUBSTANCE: invention relates to the field of sports, in particular to ski bindings, and is intended for binding ski boots with an axial binding system for cross-country and other types of skis for all types of skiing, for sports, tourism, free skiing, telemark-type, etc. Technical result is achieved in the binding for skis, designed to secure the ski boot with the axis containing the body with a groove for the axis of the ski boot, a locking element for fixing the axle of the ski boot, an elastic element acting on the locking element, and a locking element control made with the possibility of changing its position. Control element is made with at least one protrusion in the lower part, and the locking element is made with at least one protrusion in the front part. Control element is movably fixed in the housing, while ensuring contact between the protrusion in the lower part of the control element and the protrusion in the front part of the locking element and the possibility of moving the contact point and the possibility of breaking this contact.EFFECT: technical result, to which the invention is directed, is to improve the ease of use of the binding due to the possibility of fixation of binding in the opened position, improving the ease of use of the binding by reducing the amount of load on the control element needed to open the binding by the skier, as well as improving the reliability of locking the binding.41 cl, 9 dwg

Description

The invention relates to the field of sports, namely, ski bindings, and is intended for mounting ski boots with an axial mounting system for cross-country and other types of skis for all types of skiing, for sports, tourism, free skiing, telemark skiing, etc. .

Ski mounts are known according to US Pat. No. 4,995,632 (published February 26, 1991), comprising a body, a lock consisting of two parts (movable and fixed), a movable key, a shock absorber made of elastic material, a spring.

The disadvantages of fastenings are the complexity of the design, the high requirements for the accuracy of manufacturing parts and the complexity of the equipment for production, the inconvenience of operation due to the need for great efforts on the governing body during forced opening, and the inability to fix in the open state.

Known ski mounts on the application PCT WO 2012036561 (published 03/22/2012), consisting of a housing, a control key, a spring, a locking bracket with holes and a protrusion associated with the key, a bearing bracket, a lower plate and a shock absorber.

Ski mounts are also known according to the patent of the Russian Federation No. 2362603 (published on July 27, 2009), comprising a housing, a lock consisting of two parts - a movable one, in the form of a locking bracket with an axis and side vertical shelves and fixed with vertical side shelves, a movable key, a shock absorber, made of elastic material, spring, lower curly plate.

The disadvantage of these mounts is the inconvenience of operation due to the need for great efforts to be applied to the control body during forced opening and the impossibility of fixing in the open state.

Ski mounts are known according to the patent of the Russian Federation No. 2541747 (published on 02.20.2015) containing a housing, a flexor, a movable bar with side shelves and a protrusion on which a linear displacement switch is rigidly mounted to control the states of the open - closed locking mechanism.

The disadvantages of the fasteners are the low reliability of locking due to the inability to use a powerful spring, the presence of significant gaps leading to backlash of the ski boot axis, the need for great efforts to be applied to the control element during forced opening, and the inability to fix the fasteners in the open state.

Ski mounts are known according to the patent of the Russian Federation No. 2382667 (published on 02.27.2010), containing a cover, a body on which a groove for hinging the ski boot is made, a spring, and a locking element is connected to the groove, which has the ability to rotate the control element to enable it to rotate transfer from the locked position, in which the boot is pivotally fixed in the mount, to the open position, which ensures the release of the boot.

The disadvantages of the mounts are the complexity of the design and equipment for production, the inability to fix the mount in the open state, large gaps leading to a significant backlash axis of the ski boot.

Ski mounts are known according to the patent of the Russian Federation No. 2424841 (published on July 27, 2011) comprising a housing, hook or engagement bracket installed in the housing with the possibility of longitudinal displacement and in the closed position made with the possibility of moving into the upwardly open inlet for the engaging element related to the sole, and while the opposite to the engagement bracket end of the engaging element of the engagement element is configured to be connected via a connecting element with a drive element introduced from the upper side of the attachment housing ementom, first of all, the drive lever.

The disadvantage of fastenings is the complexity of the design and equipment for production, as well as the inability to automatically lock.

In addition, the disadvantage of the known ski bindings with the possibility of automatic locking and a control element made in the form of a separate movable part is that the control element (key or lever) is connected to the locking element and when automatically locking, the elastic element acts on the locking element to a control element or a mechanism linking it to the locking element. As a result of this, additional loads on the elastic element arise, which lead to a decrease in the reliability of automatic fastening locking. Also, additional loads on the elastic element, leading to a decrease in the reliability of locking the fastening, can occur due to the impact on the control element of external factors (ice, dirt, casting defects, dents, cuts and other damage due to operation, etc.).

The technical result to which the invention is directed:

- improving the usability of the fastener by reducing the load on the control element necessary for the skier to open the fastener due to a change in the position of the contact zone between the protrusion of the lower part of the control and the protrusion in front of the locking element.

- improving the usability of the mount due to the possibility of fixing the mount in the open position due to the self-locking mechanism

- improving the reliability of locking the fastening due to the reduction of the load on the elastic element due to rupture of its contact with the control element during automatic fastening of the fastening by the action of the boot axis on the locking element.

The technical result is achieved in a ski mount for securing a ski boot with an axis, comprising a housing with a groove for the axis of the ski boot, a locking element for securing the ski boot axis and a control element for the locking element configured to change its position. In this case, the control element is made with at least one protrusion in the lower part, and the locking element is made with at least one protrusion in the front part. The control element is movably fixed in the housing, and contact is made between the protrusion in the lower part of the control element and the protrusion in the front part of the locking element, and when the fastener is opened, it is possible to move the zone of this contact.

In one embodiment, when the fastener is automatically closed, the contact between the protrusion in the lower part of the control element and the protrusion in the front of the locking element is broken.

In one embodiment, it is possible to perform at least one surface in the lower part of the control element in the form of the end surface of the stiffener

It is preferable to perform a control with protrusions on the side surfaces, and the housing with cutouts in the side walls of the housing, and at least one surface on the lower part of the housing facing at least one protrusion in the lower part of the control, and securing the control by means of protrusions on the lateral surfaces of the control located in the cutouts in the side walls of the housing and by means of at least one surface on the lower part of the housing in contact with at least one surface of the protrusion at the bottom of the control.

It is preferable to perform protrusions on the side surfaces of the control element aligned with the axis of rotation of the control element.

It is preferable to perform protrusions on the side surfaces of the control element with beveled end surfaces or portions thereof.

In one embodiment, the control element can be fixed in the housing by an axis or additional fastening elements.

Preferably, at least one protrusion at the bottom of the control is in the form of a stiffener.

Preferably, the control is made with at least one emphasis in the form of a protrusion in the lower part.

Preferably, the control is in the form of a key or lever. Moreover, for the key of the control element, it is preferable to perform with a recess in the upper part for the tip of the ski stick.

In one embodiment, the mount comprises a spring, and the locking element has a protrusion in the front part, configured to interact with this spring. At the same time, a cavity is made in the housing for accommodating the spring with a protrusion for fixing it, and the locking element can be locked and / or in the open position by the spring and / or control element.

Preferably, the protrusion in the front of the locking element is configured to act on the stop in the form of a protrusion in the lower part of the control element. In this case, it is preferable that the position of the contact point of the stop of the control element and the protrusion on the locking element changes depending on the position of the control element and the locking element.

Preferably, the attachment body comprises an elastic member of elastic material (flexor) for interaction with the toe of the ski boot. In this case, the mounting housing is made with cavities on the inner side surfaces, and the elastic element is made with protrusions on the side surfaces, and is fixed in the housing due to the location of these protrusions in the specified cavities of the housing. For one embodiment, the protrusions are made in the side cavities of the housing, and the recesses are made on the protrusions of the elastic element, while the protrusions in the housing cavities are associated with the recesses on the protrusions of the elastic element.

In one embodiment, the mount contains a locking element that has a protrusion in the front part, configured to interact with an elastic element of elastic material (flexor), simultaneously designed to interact with the toe of the ski boot. In this case, the locking element may be in a closed and / or open position is fixed with a flexor and / or control element.

Preferably, the control is designed to be mounted in the housing from above. In this case, the mounting housing is made with the possibility of elastic deformation during installation of the control element.

Preferably, the housing is adapted to be secured to the ski with screws. In this case, it is preferable to perform a locking element with a through cutout or hole.

In one embodiment, the housing is made with a cavity in the lower part, in which, when the mount is mounted on the ski, a hook is made made on a bracket rigidly connected to the ski. It is preferable to make the bracket metal, and connect it to the ski using screws.

In another embodiment, the housing is made with lateral hooks, with the possibility of mounting on a ski equipped with an additional device containing lateral protrusions or shelves intended for mounting.

In one embodiment, the locking element is made with side shelves with cutouts matching the axis of the ski boot. In this case, it is preferable to perform a locking element with inclined surfaces in the upper part of the side shelves.

It is preferable to make a case with inclined surfaces connecting with a groove for the axis of the ski boot, designed to guide the axis of the boot into the groove with automatic locking.

In one embodiment, the locking control element comprises, in the lower part, at least a stop made in the form of protrusions, the locking element being fixed when locked in the closed position by one of these protrusions, and the other protrusion is used to reverse shift the locking element when opening fastenings.

It is preferable to carry out a housing with a cavity and recesses in the rear part, with a plug placed in said cavity made with protrusions on the lower part fixed in said recesses of the rear part of the body.

It is preferable to make the housing with drainage holes to prevent the accumulation of water in the cavities of the mounting housing.

In FIG. 1.1. depicts a ski mount in an embodiment with a housing [1], a locking element [5], a key [3], a spring [8], an elastic element (hereinafter also referred to as a flexor) [6] and secured to the ski [11] using screws [ 10] and the supporting bracket [12] in the installed form.

In FIG. 1.2. depicts a ski mount in the embodiment of FIG. 1.1. in the form of detail.

In FIG. 2.1. depicts a ski mount in the embodiment with a housing [1], a locking element [5], a lever [4], a spring [8], an elastic element [6] and secured to the ski [11] with screws [10] and a bearing bracket [ 12] in the established form.

In FIG. 2.2. depicts a ski mount in the embodiment of FIG. 2.1 in the form of detail.

In FIG. 3.1 shows a ski mount in an embodiment with a housing [1], a locking element [5], a control element made in the form of a key [3], a spring [8], a flexor [6] mounted on a device [14] mounted on a ski [11] using lateral hooks [15] inserted into the cutouts [37].

In FIG. 3.2. depicts a ski mount in the embodiment of FIG. 3.1 in the form of detail.

In FIG. 4.1. depicts a longitudinal schematic section of the head of the ski mount in the embodiment with a housing [1], a locking element [5], a key [3], a spring [8], an elastic element [6], fixed to the ski with screws [10] and a carrier brackets [12] and the location of the spring [8] in front of the protrusion [7] of the locking element [5], and the stop [22] of the control element [3] behind the protrusion [7] of the locking element [5].

In FIG. 4.2. depicts a longitudinal schematic section of the head of a ski mount in an embodiment with a housing [1], a locking element [5], a key [3], a spring [8], an elastic element [6], secured to the ski with screws [8] and the location the stop [22] of the control element in front of the protrusion [7] of the locking element [5], and the springs [8] behind the protrusion [7] of the locking element [5].

In FIG. 5.1. depicts a longitudinal schematic section of the head of a ski mount in an embodiment with a housing [1], a locking element [5], a lever [4], a spring [8], an elastic element [6], secured to the ski with screws [10] and a carrier brackets [12] and the location of the spring [8] in front of the protrusion [7] of the locking element [5], and the stop [22] of the control element [3] behind the protrusion [7] of the locking element [5].

In FIG. 5.2. depicts a longitudinal schematic section of the head of a ski mount in an embodiment with a housing [1], a locking element [5], a lever [4], secured to the ski with screws [10] and a bearing bracket [12] and an additional stop [24] of the control element [4].

In FIG. 6.1 is a longitudinal schematic sectional view of the head of a ski mount in an embodiment with a housing [1], a locking element [5], a control element made in the form of a key [3] with a recess for pushing with a ski pole [50] made in front, a flexor [6] , fixing on the ski [11] with screws [59], using a flexor [6] as an elastic element for locking the fastening and fixing the body [1] on the ski [11] with screws [10] and the presence of a hole [40] in front cavity [17]

In FIG. 6.2 shows a longitudinal schematic section of the head of the ski mount in the embodiment with a housing [1], a locking element [5], a control made in the form of a key [3] with a recess for pushing a ski pole [50] made in front, a flexor [6] , fixing on the ski [11] with screws [59], using a flexor [6] as an elastic element for locking the fastening and fixing the body [1] on the ski [11] with screws [10] in the absence of holes in the front cavity [ 17].

In FIG. 7.1; 7.2; 7.3; 7.4 shows a diagram of the operation of the fastening (automatic closing, holding the axis [9] of the ski boot, forced opening by the tip of the ski stick, removing the axis [9] of the ski boot), in the embodiment shown in FIG. 4.1 with a simplified indication of the shoulders, forces and moments that occur when the key [3] is acted upon by the locking element [5] when it is automatically locked, the axis [9] of the ski boot is held and when the tip of the ski stick is exposed to the key [3].

In FIG. 8.1; 8.2; 8.3; 8.4 shows a diagram of the operation of the fastening (automatic closure, holding the axis [9] of the ski boot, forced opening by the hand of the skier, removing and installing the axis [9] of the ski boot) in the embodiment shown in FIG. 5.1 with a simplified indication of the shoulders, forces and moments that occur when the lever [4] of the locking element [5] is acted upon when automatically locking, holding the ski boot axis, opening the skier’s hand when the lever [4] is exposed, as well as when fixing the mount in open position.

In FIG. 9.1; 9.2; 9.3; 9.4 shows a diagram of the operation of the fastening (forced closure of the skier with the hand of a skier, holding the axis [9] of the ski boot, forced opening with the hand of the skier, removing and installing the axis [9] of the ski boot) in the embodiment shown in FIG. 5.2 with a simplified indication of the shoulders, forces and moments that occur when the lever [4] of the locking element [5] is acted upon when it is forced to lock when the lever [4] of the skier’s hand is held, the axis of the ski boot is held, opening when the lever is pressed [4] hands of the skier, as well as when fixing the mount in the open position.

The technical solution is implemented in a device containing:

- The mounting body [1], or the body with the tail [2], preferably made of plastic, with guides made depending on the type of sole of the fixed ski boot.

- A control element made in the form of a movable key [3] or a lever [4], preferably made of plastic.

- The locking element [5], preferably made of metal.

- An elastic element [6], made of an elastic material, using a structural scheme with the action of an elastic element on the surface of the toe of the ski boot. Also, the elastic element [6] can be used to act on the front protrusion [7] of the locking element [5] in the design of the fastening with automatic locking.

- A spring [8], when using a structural circuit with automatic locking. When using the design scheme with mechanical forced locking of the axis [9] or with automatic locking by applying an elastic element [6] to the front protrusion [7] of the locking element [5] of the ski boot, the spring [8] is not used.

- Fixing screws [10], when using a structural scheme with fixing the fastening on the surface of the ski [11] with screws [10] or screws [10] and a supporting bracket [12], which in turn is fixed on the ski [11] with screws [13]. When using the constructive scheme with fastening the ski mount with an additional device [14] using side hooks [15], screws [10] are not used.

- To the bracket [12], when using the structural scheme with fixing the fastening on the surface of the ski with screws [10] and the supporting bracket [12], which in turn is fixed on the ski [11] with screws [13]. When using the design scheme with fixing the fastening on the surface of the ski [11] only with screws [10] or an additional device [14] using the side hooks [15], the bracket [12] is not used.

- A decorative cap [16], which may be absent, or be replaced by a decorative coating or sticker.

The mount is a housing [1] in the front cavity [17] of which is located a control element made in the form of a key [3] or a lever [4], which is mounted with the possibility of movement, fixed by means of side protrusions [18] which engage corresponding grooves [19] made in the walls of the front cavity [17] of the housing [1] of the mount. Also, the control element [3] or [4] can be additionally held by the lower surfaces of the stiffeners [20] which are in contact with their corresponding curved surfaces [21] in the lower part of the front cavity [17] of the attachment housing [1]. In the front part of the mount in the corresponding grooves there is also a movable locking element [5], which has the possibility of longitudinal movement relative to the housing [1]. The locking element [5] has a protrusion [7] in the front part, on which, on the one hand, a stop [22] can be applied, a control element (buttons [3] or lever [4]) made in the lower part, and, on the other hand, exerts pressure is a spring [8] located in a cavity [23] formed in the front of the mount [1] with a spring [8], or a flexor [6] as an elastic element for locking the mount, or a stop [24], made in the lower part of the lever [4] in the embodiment of the fastening with forced locking. In the rear part, the locking element [5] has upwardly bent shelves [25], which have cutouts [26] holding the axis of the ski boot [9] in the groove [27] made in the attachment case [1]. When attaching the mount to the ski [11] with screws [10], the locking element [5] may have a hole or a cutout [28] in the central part to accommodate a seat in the housing [1] for the screw [10]. In the middle part of the mount in a special cavity [29] there is an elastic element [6] (when using the design scheme with the shock absorber acting on the special surface of the ski boot toe), held by the recesses [30] in the protrusions [31], made on the side surfaces at the bottom parts of the elastic element [6].

The housing of the head of the mount can be performed either separately or in conjunction with the tail of the mount. In the latter case, protrusions are formed in the tail of the mount, corresponding to the shape of the cutouts of the sole of the type of shoe used, and possibly a cavity [32] for installing a plug [16], covering screws [10] or performing a decorative function, which is fixed formed in the bottom of the plug [16 ] protrusions [33] in the corresponding recesses [34] in the cavity [32]. The mount can be attached to the ski [11] with screws [10] or a combination of screws [10] and brackets [12] with a hook [35] that engages with the corresponding cavity in the housing [1] of the mount. In turn, the bracket [12] with the hook [35] is attached to the ski [11] with screws [13]. In this embodiment, the attachment of the mount to the ski bracket [12] is engaged with the cavity [36] in the Central part of the housing [1] mounts. The mount can also be attached to the ski [11], equipped with an additional device [14], side hooks [15], made in the lower part of the housing [1] by inserting them into the cutouts [37].

The mounting body [1], or the body [1] with a guide [38] in the tail portion [2] having a profile depending on the type of the sole of the boot is a part, preferably made by injection molding of plastic. In the front of the housing [1] there is a cavity [17] in which the control is located (key [3] or lever [4]). In the side walls of the cavity [17], grooves [19] can be made meshing with which the side protrusions [18] located on the key [3] or lever [4] are included. In the lower part of the cavity [17] of the housing [1] there are curved or cylindrical surfaces [21] corresponding to the surfaces [39] on the lower stiffening ribs [20] of the key [3] or lever [4]. The engagement of the side protrusions [18] of the key [3] or the lever [4] with the grooves [19] in the side walls of the cavity [17] of the housing [1] of the mount and (possibly) the interaction of the surfaces [21] in the lower part of the cavity [17] of the housing [ 1] fastening with the lower surfaces of the ribs [20] of the key [3] or lever [4] ensures that the key [3] or lever [4] is held with the possibility of changing position (rotation) in a structurally specified range. In the front part of the cavity [17] of the attachment housing [1], a cavity [23] can be made to accommodate and guide the spring [8] acting on the protrusion [7] of the locking element [5], possibly with protrusions for holding the spring [8]. Also, a hole [40] can be made in the lower part of the front cavity [17] of the housing [1] to fix the housing [1] on the ski [11] by means of a screw [10]. In the middle part of the mounting body [1] there are cavities [29] with protrusions [41] for fixing the elastic element [6], allowing it to perform elastic deformations when exposed to the surface of the toe of the boot of the skier.

In the middle part of the casing [1] there is a groove [27] for the axis [9] of the ski boot. The inclined surfaces [42] of the housing [1] are connected to the groove [27]. Also in the middle part of the housing [1] there are cutouts [43] for placing the shelves [25] of the locking element [5]. The dimensions of the cutouts [43] are made in such a way that the locking element [5] can make a working stroke and lock, or release the axis [9] of the ski boot. The tail part [2] of the casing [1] is a guide of complex shape with one or two longitudinal guides [38] depending on the compatible type of ski boot sole used, with holes [44] for screws [10] (holes can be made [44] ] elongated to compensate for the difference in the linear dimensions of the ski [11] and the mount [1] during their deformation). Also, in the tail part [2] of the housing [1] it is possible to carry out a cavity [32] for one or more plugs [16] to hide and protect screws [10] as well as to perform a decorative function. Also, in the lower part of the attachment housing [1], a cavity [36] can be made for the hook [35] of the bracket [12] mounted on the ski [11] by means of screws [13]. In case of attachment of the fastener body [1] to the device [14] mounted on the ski [11] on the lower side surfaces of the body [1], longitudinal hooks [15] can be made, which engage in the cutouts [37] of the device [14] a also on the housing [1] can be made locking and centering elements (protrusions and surfaces) [45; 46] interacting with corresponding elements (protrusions and surfaces) [47; 48] on the fixture [14] for fixing the mounting housing [1] relative to the fixture [14]. In the embodiment of the housing [1] with a control element made in the form of a key [3], cutouts [49] can be made in the walls of the front cavity [17] for the convenience of pressing the key [3].

The control element (movable key [3] or lever [4]) is a part, preferably made of plastic. On the side surfaces of the key [3] or lever [4], lateral protrusions [18] can be made, which engage with grooves [19] in the side walls of the front cavity [17] of the attachment housing [1]. In the lower part of the key [3] or lever [4], stiffeners [20] are located, which may have a lower surface [39] corresponding to surfaces [21] in the lower part of the cavity [17] of the housing [1]. The ribs [20] are joined by a transverse stop in the form of a stiffening rib, the end of which acts on the protrusion [7] of the movable locking bracket [5] for the forced opening (opening) of the fastener. A reinforced receiving recess [50] can be made on the upper surface of the key [3] for a pressing object (for example, the tip of a ski pole). In front of the lever [4], surfaces [51] can be made for interacting with the skier’s hand. To fix the control element (lever [4]) in the open position in the lower part of the lever [4] on the ribs [20] can be located protrusions [52], which are in elastic engagement with the corresponding protrusions [53] in the lower part of the front cavity [17 ] housing [1] mounts. Also in the lower part of the control element, made in the form of a lever [4], an additional emphasis in the form of a protrusion [24] can be located for fixing and moving the locking element [5] when performing fastening in the version with forced locking by applying a skier to the control element .

The locking element [5] is preferably made of metal by stamping (it is preferably subjected to heat treatment to obtain the desired strength properties and coated with a protective coating). The locking element [5] is made as a single bracket with vertical side shelves [25] and made in them curly cutouts [26] to hold the axis [9] of the ski boot and inclined surfaces [54] in the upper part of the shelves [25] for shift of the locking element [5] and overcoming the compression force of the spring [8] or the elastic element [6] when the axis [9] of the boot acts to trigger the fastening during automatic closure. In the front part of the locking element [5], a protrusion [7] is made, which is located at a structurally predetermined angle (preferably 80 degrees), on which, on the one hand, the stop [22] is made in the key [3] or lever [4] (when the fastening is forced to open). ], and from the outside, a spring [8], or an elastic element [6], or an additional stop [24] holding the locking element [5] in a closed state to hold the axis [9] of the ski boot. In the middle part of the locking element [5], a hole [28] can be made to accommodate the seat of the screw [10] in the variant of attaching the mount to the ski [11] using screws [10], having a size sufficient to move the locking element [5] when his work progress. In the embodiment of the attachment, when attaching to the ski [11] to the accessory [14] using the side hooks [15] or by attaching the head of the housing [1] with two screws [10], the hole [28] may be absent.

The elastic element [6] is preferably made of an elastic thermoplastic material or rubber. In the front part, on the lateral surfaces of the elastic element [6], protrusions [31] are made with recesses [30], with the help of which it is held in the cavities [29] of the housing [1]. In the internal cavity of the elastic element [6], one or more ribs [55] can be made, which give the specified rigidity during deformation of the elastic element [6]. On the outer surface of the elastic element [6] there are guide cutouts [56], which serve as guides for a given deformation during compression of the elastic element [6] with the toe of a ski boot. The surface [57] of the elastic element [6] intended to interact with the toe of the ski boot may have a different shape depending on the type of boot used. Also, the elastic element [6] can act on the front protrusion [7] of the locking element [5] in the embodiment of the fastening with automatic locking.

The spring [8] is made spiral, coated with a protective coating and has a given rigidity. It can be made with polished ends.

Screws [10; 13] coated with a protective coating, have a special thread profile for soft material, flat or countersunk head and slots. The decorative plug [16] is preferably made of plastic, has protrusions [33] on the lower side, corresponding to the recesses [34] in the recess made in the rear part [32] of the attachment housing [1] and the corresponding shape of the plug [16].

The bracket [12] is made of metal by stamping (preferably heat-treated (for example, hardened)) to obtain the specified strength properties and coated with a protective coating) and is made as a single bracket [12] with a hook [35] in the central part, raised relative to the ski plane [11] as well as the holes [58] (possibly made with chamfers) for attaching to the ski [11] using screws [13]. The hook [35] is made in such a way that when the mount is installed, it enters the cavity [36] made in the mount housing [1].

It is also preferable to make drainage holes [58] to prevent the accumulation of water in the internal cavities of the attachment housing [1] (for example, when snow is adhering to the ski or when it is in a warm room after skiing) and subsequent failure of the attachment due to freezing during further outdoor operation at low temperatures.

The mount can be mounted on a ski [11] in pre-drilled holes [59] according to the geometrical-defined pattern corresponding to the mounting fastening holes, to prevent moisture penetration and loosening the screws, the holes can be pre-filled with an adhesive (sealing) compound. With screws [13], a bracket [12] is attached to the ski [11]. A housing [1] is mounted on a fixed bracket [12] with an elastic element [6] pre-installed in it (if it is provided for by the structure), a locking bracket [5] and possibly a spring [8], so that the hook [35] of the bracket [ 12] enters the cavity [36] of the mount body [1] and then the body is secured to the ski [11] with screws [10] through the holes [40] in the front cavity [17] and [44] in the tail [2] of the body [1] ]. Then, a control element (button [3] or lever [4]) is installed (elastically latches) into the grooves [19] in the front cavity [17] of the housing [1]. Moreover, the installation can occur both by simultaneous and sequential introduction of the protrusions [18], made on the control element [3; 4] into the grooves [19] of the walls of the housing [1] during its elastic deformation, then into the cavity [32] in the rear of the housing [1] the decorative plug [16] is elastically latched if it is provided by the design. If a screw [10] and a hole [40] in the front cavity [17] are not provided, the control element (button [3] or lever [4]) can be set in advance.

When mounting the ski mount using the screws [10] without the supporting bracket [12], the mount is mounted on the ski using the screws [10] into the pre-drilled holes [59] in the ski [11] according to the geometrical dimensions of the corresponding mounting holes of the mount, to prevent moisture penetration and loosening of screws [10], holes [59] can be filled with an adhesive (sealing) compound. With screws [10], a fastening body [1] is attached to the ski with a locking element [5] pre-installed in it and if their presence is provided for by the structure, elastic element [6] and spring [8]. Then, a control element (button [3] or lever [4]) is installed (elastically latched) into the grooves [19] of the front cavity [17] of the housing [1] and, possibly, a decorative cap [16] is elastically latched into the cavity [32] of the rear part of the housing; . If the presence of a screw [10] in the front cavity [17] is not provided, then the control element (button [3] or lever [4]) can be set in advance.

When installing the mount on the accessory [14], mounted on the ski [11], the mount housing [1] with the control element [3] or [4] pre-installed in it, the locking element [5], and if their presence is provided for by the design, an elastic element [6], a spring [8] and a plug [16] is installed by inserting the side hooks [15] of the fastener into the corresponding side cutouts [37] of the device [14] until the fastening is fixed relative to the device [14]. For longitudinal fixation on the housing [1], locking and centering elements (protrusions and surfaces) [45], [46] interacting with the corresponding elements (protrusions and surfaces) [47], [48] on the device [14] can be made.

Mounting works as follows.

To close the mounting option containing a control element made in the form of a key [3] and an elastic element (spring [8] or flexor [6]), the axis [9] of the ski boot, when the skier applies force (pressure with the toe down), enters between the inclined surfaces [54] shelves [25] of the locking element [5] and the inclined surfaces [42] made in the housing [1] of the mount and moves the locking element [5] overcoming the resistance of the elastic element (spring [8] or flexor [6]). As soon as the axis [9] is in the groove [27], the locking element [5] returns under the action of the elastic element (spring [8] or flexor [6]) to the protrusion [7] and locks the axis [9] of the boot into the groove [27] ] the surfaces of curly cuts [26]. Thus, the axis [9] of the boot is held at negative vertical loads by the locking element [5], and with positive vertical and alternating in the vertical plane, the locking element [5] and the mounting body [1]. Moreover, in the embodiment of the fastening with the bracket [12], the loads from the housing [1] and the locking element [5] are transferred to the bracket [12]. The surface of the figured cutouts [26] facing the groove [27] may have an angle of inclination to the horizontal plane, which selects the gap between the axis [9] of the boot and the groove [27]. Thus, the connection in the closed state can be without a gap. In the closed state, the locking element [5] is affected by the compression force of the elastic element (spring [8] or flexor [6]), which prevents the fastener from being opened. In this case, when the fastening for the circuit is automatically activated, the load from the protrusion [7] of the locking element [5] is not transferred to the key [3] or lever [4], that is, they remain stationary and do not create additional resistance to the spring [8] or flexor [6 ].

Due to the reduction of efforts on the elastic element due to the absence of the need to act on the control element [6; 8], increased reliability of locking the fastening is achieved if there are ice, snow, or dirt on the fastening elements, which makes it possible to use fasteners on unprepared tracks, under adverse conditions and expands the scope of their application. Thus, a technical result is achieved.

The closure of the mounting option containing the control element, made in the form of a lever [4], and the elastic element (spring [8] or flexor [6]) can be performed in two ways. The first closure method is similar to the version with the key [3] (automatic locking). The second method is carried out by influencing the skier on the lever [4] with his hand behind the surface [51] by turning it up, which opens the mount, and when the lever [4] is turned, its emphasis [22] moves the locking element [5] and, accordingly, the protrusion [7] compresses the elastic element (spring [8] or flexor [6]). In this case, the contact point of the protrusion [7] of the locking element [5] and the protrusion [22] of the lever [4] moves due to the translational movement of the locking element [5] and the rotational or complex movement of the lever [4] so that the shoulder moment of the compressive force of the elastic element [6] or a spring [8] acting on the lever [4] and seeking to return it to the closed position is reduced to a very small value at which the moment of friction between the protrusions [7] of the locking element [5] and the protrusion [22] of the lever [ 4] balances it. In this case, the lever [4] is fixed in the open position by friction forces and possibly additional protrusions (latches) [52]. The groove [27] is released due to the shift of the locking element [5] and the axis [9] of the boot can be freely installed in the groove [27]. Then the lever [4] returns with the skier’s hand to the initial position, and the spring force [8] or flexor [6] returns the locking element [5] to its original position and the axis [9] is closed in the groove [27] by the surfaces of the curved cutouts [26 ] shelves [25] of the locking element [5].

Thus, the technical result is achieved of the possibility of fixing the mount in the open state, which is necessary for use as child mounts and as additional safety measures.

When executing the fastening in the embodiment with mechanical locking with the lever [4] having an additional stop [24], turning the lever [4] from the open to the closed position, the skier closes the fastening, and when the lever [4] is turned, its additional stop [24] puts pressure on the stop [7] the locking element [5] shifting it and fixing the axis [9] in the groove [27] by the surfaces of the figured cutouts [26] of the shelves [25]. In this case, elastic deformation of the protrusions [24] and / or [22] is possible, and the contact point of the protrusion [7] of the locking element [5] and the protrusion [24] of the lever [4] moves due to the translational movement of the locking element [5] and rotational or complex the movement of the lever [4] so that the shoulder of the moment of force from the protrusion [7] of the locking element [5], acting on the protrusion [24], the lever [4] and tending to return it to the open position is reduced to a value at which the moment of friction between the protrusions [7] of the locking element [5] and the protrusion [24] of the lever [4] balances e about. In this case, the lever [4] is fixed in the closed position by friction forces and possibly additional protrusions (latches) [52].

To open the mounting option containing a control element made in the form of a key [3] or a lever [4] and an elastic element (spring [8] or flexor [6]), the skier acts on the key [3], for example, with a ski pole or with his hand or acts with a hand on the lever [4]. In this case, the key [3] or the lever [4] are rotated relative to the axis formed, for example, by the grooves [19] in the front cavity [17] of the mounting body [1] and the surface [21] in the lower part of the front cavity [17] of the mounting body [1 ] and act as a stop in the form of a protrusion [22] on the protrusion [7] of the locking element [5], overcoming the resistance of the elastic element (spring [8] or flexor [6]). As a result, the locking element [5] is shifted, freeing the axis [9] of the ski boot located in the groove [27] from locking by curly cutouts [26]. In this case, the contact point of the protrusion [7] of the locking element [5] and the protrusion [22] of the key [3] or the lever [4] moves due to the translational movement of the locking element [5] and the rotational or complex movement of the lever [4] so that the shoulder the moment of compression force of the elastic element [6; 8] through the locking element [5], acting on the key [3] or lever [4] and seeking to return it to the open position decreases. In this case, the compression force of the elastic element increases [6; 8]. Thus, the moment of force acting on the control element [3, 4] remains approximately constant, or changes in a predetermined range, which leads to a decrease in the efforts that a skier needs to exert to open the mount, thereby achieving a technical result of increasing the usability of the mount.

Also, when the fastener is opened, it is possible to reduce the moment of forces acting on the control element in the form of a lever [4] as a result of a significant reduction in the shoulder of the moment of forces acting on the control element [4] to small values at which the mechanism self-brakes (fixation in the open state), what is the technical result achieved.

Moreover, in the embodiment of the control element in the form of a key [3], it is necessary to keep the key [3] pressed until the axis [9] is removed from the groove [27], and in the embodiment of the control element in the form of a lever [4] it is fixed without application of force by the skier as a result of friction.

When performing fastening without an elastic element [6; 8] in the embodiment with mechanical locking, with a lever [4] having an additional stop [24] for opening, the skier acts on the lever [4] by hand, and when the lever [4] is turned, the stop [22] exerts pressure on the protrusion [7] of the locking element [5], shifting it and accordingly releasing the axis [9] from the groove [27]. In this case, the lever [4] can also be fixed in the open position by friction forces or by a latch [52], thereby achieving a technical result.

During movement, the boot rotates together with the axis [9] in the groove [27], compressing the elastic element [6], which exerts the necessary back pressure on the toe of the shoe with the surface [57] (when using the design with the action of the elastic element [6] on the surface ski boot toe). Loads from the ski boot are transferred to the ski [11] through the axis [9] in the nose of the ski boot fixed in the groove [27] of the housing [1] by the cutout surfaces [26] of the locking element [5] and the sole of the ski boot interacting with the tail [ 2] housing [1] ski mount. In the embodiment of the fastening with fastening to the ski [11] with a bracket [12] and screws [10], the loads are transferred to the ski [11] through the bracket [12], the locking element [5], the housing [1] of the fastening and the screws [10] . In the embodiment of the fastening with fastening on the ski [11] only with the screws [10], the loads are transferred to the ski [11] through the locking element [5], the housing [1] of the mount and the screws [10]. In the embodiment of fastening with fastening by means of side hooks [15] to a special device [14] mounted on the ski [11] with an additional device [14], the loads are transmitted through the locking element [5] and the fastening case [1]. Also, longitudinal cuts made on the sole of the ski boot are engaged with the corresponding guides (protrusions) [38] in the tail [2] of the case [1] and as a result, the case [1] takes up vertical and lateral loads from the sole of the ski boot with a horizontal arrangement of the boot and transfers them to the ski [11] or device [14].

The possibility of using the lever [4] as a control element, the small efforts required to close and open the fastener, the ease of use and the possibility of fixing the fastener in the open state create the convenience of operation of the fastener, the possibility of additional control and safe operation, which allows the use of the fastener for children and adolescents expanding the scope of attachment.

Claims (41)

1. A ski mount for securing a ski boot with an axis, comprising a body with a groove open for the axis of the ski boot, a locking element for securing the ski boot axis, an elastic biasing element of the locking element, and a control element of the locking element configured to change its position characterized in that the locking element is made with a protrusion in the front part, and the control element is made of at least one protrusion in the lower part, and the elements are made to provide contact that between their protrusions and with the possibility of moving the contact point of these protrusions on the surface of the protrusion of the locking element when moving the control element. 2. The mount according to claim 1, characterized in that at least one protrusion in the lower part of the control element is made in the form of a stiffener. 3. The mount according to claim 1, characterized in that the control element comprises at least one stop made in the lower part. 4. The mount according to claim 1, characterized in that the control element is made in the form of a key. 5. Mount according to claim 1, characterized in that the control element is made in the form of a lever. 6. The mount according to claim 1, characterized in that the control element comprises in the upper part a recess for the tip of the ski pole. 7. The mount according to claim 3, characterized in that it contains a spring, and the locking element has a protrusion in the front part, configured to interact with the spring. 8. The mount according to claim 7, characterized in that a cavity is made in the housing for accommodating the spring. 9. The mount according to claim 8, characterized in that at least one protrusion for fixing the spring is made in the cavity for accommodating the spring. 10. The mount according to claim 1, characterized in that the mount body comprises an elastic element for interacting with the toe of the ski boot, made of elastic material. 11. The mount according to claim 10, characterized in that the mount housing is made with cavities on the inner side surfaces, and the elastic element is made with protrusions on the side surfaces and is fixed in the housing due to the location of these protrusions in the specified cavities of the housing. 12. The mount according to claim 11, characterized in that the protrusions are made in the side cavities of the body, and the recesses are made on the protrusions of the elastic element, while the protrusions in the body cavities are associated with the recesses on the protrusions of the elastic element. 13. The mount according to claim 1, characterized in that the control element is configured to be mounted in the housing from above. 14. Mount according to claim 1, characterized in that the housing is made with the possibility of fixing on the ski with screws. 15. The mount according to claim 1, characterized in that the housing is made with a cavity in the lower part, in which, when mounted on the ski mount, a hook is made, made on a bracket rigidly connected to the ski. 16. The mount according to claim 1, characterized in that the housing is made with lateral hooks, with the possibility of mounting on a ski equipped with an additional device containing side tabs or shelves. 17. The mount according to claim 15, characterized in that the bracket with a hook is made of metal. 18. The mount according to claim 17, characterized in that the rigid connection of the bracket to the ski is made using screws. 19. The mount according to claim 1, characterized in that the locking element has a through cutout or hole. 20. The mount according to claim 1, characterized in that the locking element has side flanges with cutouts matching the axis of the ski boot. 21. The mount according to claim 20, characterized in that the locking element has inclined surfaces in the upper part of the side shelves. 22. The mount according to claim 1, characterized in that the casing is made with inclined surfaces connecting with a groove for the axis of the ski boot. 23. The mount according to claim 7, characterized in that the locking element in the closed position is fixed by a spring. 24. The fastening according to claim 3, characterized in that the control element comprises at least two stops made in the lower part, the locking control element being fixed in the closed position by at least one of these stops. 25. The mount according to claim 7, characterized in that the locking element in the open state is fixed by the control element and the spring. 26. The mount according to claim 1, characterized in that it is made with a cavity and recesses in the rear part of the housing, while in the specified cavity there is a plug made with protrusions on the lower part fixed in the indicated recesses. 27. The mount according to claim 13, characterized in that the mount housing is made with the possibility of elastic deformation during installation of the control element. 28. The mount according to claim 1, characterized in that the protrusions on the side surfaces of the control element are made with beveled end surfaces or their sections. 29. The mount according to claim 1, characterized in that the control element is made with an additional protrusion in the lower part. 30. The mount according to claim 29, characterized in that the additional protrusion is made with the possibility of fixing the locking element in the closed state. 31. The mount according to claim 16, characterized in that the housing is capable of being fixed in the longitudinal direction by the end surfaces of the side hooks due to engagement with the protrusions on the side parts and / or on the upper surface of the additional device mounted on the ski. 32. The mount according to claim 10, characterized in that the elastic element is further configured to interact with a protrusion in front of the locking element. 33. The mount according to claim 1, characterized in that the housing is made with cutouts in the side walls. 34. The mount according to claim 1, characterized in that the control element of the locking element is made with protrusions on the side surfaces. 35. The mount according to claim 1, characterized in that the housing is made with at least one surface in the lower part facing at least one protrusion in the lower part of the control element. 36. The mount according to claim 35, characterized in that the control element is fixed in the housing by means of protrusions on the side surfaces of the control located in the cutouts in the side walls of the housing, and by means of at least one surface on the lower part of the housing, pressed against at least one surface of the protrusion at the bottom of the control. 37. The fastening according to claim 1, characterized in that it is arranged to automatically break the contact between the protrusion in the front of the locking element and at least one protrusion in the lower part of the control element when the fastening is closed automatically. 38. The mount according to claim 1, characterized in that it is made with the possibility of fixation in the open position. 39. The mount according to claim 38, characterized in that it is adapted to be fixed in the open position by special surfaces made on the control element and interacting with surfaces made in the mount housing. 40. The mount according to claim 38, characterized in that it is made with the possibility of fixation in the open position by self-braking. 41. The mount according to claim 1, characterized in that it is made with drainage holes.

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