EP2399654A1 - Safety binding for off-piste skiing - Google Patents

Abstract

The binding (1) has a mechanism including a locking device structured and arranged to switch between a closed position and an open position. A plastic element has an actuation surface structured and arranged to be manipulated by a skier to apply a force to the actuation surface for driving the locking device toward the open position. A compression spring is structured and arranged to bias the locking device toward the closed position, where the closed position of the locking device is the only stable position of the mechanism.

Description

The invention relates to safety bindings for skiing, and in particular safety bindings for the practice of ski touring.

Such a fastening must allow rotation of the boot around an axis transverse to the ski located at the front of the boot during the climbs, so as to make it possible to move the heel of the user relative to the ski to exert a optimal thrust effort. Such a binding must also make it possible to absorb significant torsional forces between the boot and the ski during the downhill phases.

An example of a hiking safety binding is disclosed in the document DE102007038506 . This safety binding consists of a plate carrying the shoe, pivotally mounted on the ski at the front and provided at the rear with detachable ski connecting means. This safety binding is intended for use with rigid alpine ski boots that are fixed to the turntable. A front stop and a heel are attached to this plate to ensure the maintenance of the shoe or heaving if necessary. In the up position, the turntable is released from the ski at the rear so as to allow pivoting of the boot relative to the ski. A climbing wedge that can take different positions is also planned. In the downhill position, the turntable is secured to the ski so as to allow the practice of skiing according to alpine descent techniques. Such a fixing does not allow easy passage of the mounted position to the down position. Indeed, to move from the mounted position to the ski position, it must first ensure that the shim is in a storage position that does not obstruct the rotation of the plate and then, after placing the platinum in the low position, it is necessary to operate the control lever to actuate the locking means. In the case where the climbing wedge is in the up position at the start of the maneuver, it is therefore two separate manipulations and to successively move from mounted position to the down position.

Another example of hiking fixation is provided by the document EP1498993 wherein the locking means of the plate and the shim are only one piece. If such a device can have an advantage in terms of weight, it is not the same in terms of efficiency and performance. First, the disadvantage of the fixation described in the previous paragraph is also present in this document. Indeed, to go from the mounted position to the descent position, it is necessary to maneuver a first time the shim, then place the plate in the low position and finally maneuver a second time the shim to lock. On the other hand, because of the position very behind the locking means, there is a poor transmission of efforts between the user and the ski.

Another example of hiking fixation is given by the Figures 1-6 of the document W02007 / 060219 wherein the control of the locking means is placed below the shoe. So that to move from the mounted position to the down position, it is necessary to remove the shoe of the bindings. This represents a major disadvantage when we know that this type of attachment is often used in places where the powder snow is abundant and that it can be difficult to retract the ski. In addition, during a climbing phase on a slope of low declination in powder snow the movement back and forth of the platen generates a settlement of the snow at certain location of the binding. This phenomenon, which is commonly known as "the hold of snow", is a very important hindrance on this type of fixation. The packed snow becomes ice and is particularly difficult to remove in inaccessible places such as around locking means. However, the passage of the fixing down position can only be done when all the snow has been removed. It is understood that the time required for the passage from the climbing position to the descent position can be particularly long with such a product. On the other hand, such a fastening turns out to be cumbersome in practice and considerably increases the ski load.

Finally, to discuss the drawbacks of existing safety fasteners, it should be remembered that the time required to move from the downhill position to the climb position and especially from the climb phase to the descent phase is more than a question. of comfort for the user. It is a question of safety because the off-piste skier must sometimes leave very quickly the place where it is, for example in the event of avalanche.

There is therefore a need for means for connecting the plate to the ski of a simple manipulation both for the passage in the mounted position for the passage down position. There is also a need for connection means optimizing the transmission of forces between the boot and the ski and having a high rigidity in downward position. The binding must in particular be able to provide a rigid and solid connection of the boot to the ski and be strong enough to withstand the efforts generated during the practice of ski touring, while being sufficiently light.

• une platine présentant une extrémité arrière, et une extrémité avant destinée à être montée pivotante par rapport à un ski ;
• une embase arrière destinée à être fixée au ski ;
• une cale de montée susceptible de prendre au moins une position d'appui, dans laquelle la cale de montée limite la rotation de la platine, et une position de rangement dans laquelle la cale ne limite pas la rotation de la platine ;
• un mécanisme permettant de fixer et de libérer alternativement la platine sur l'embase arrière, ledit mécanisme comprenant :
  • des moyens de verrouillage susceptible de passer d'une première position de fermeture à une deuxième position d'ouverture,
  • un organe de libération présentant une surface d'actionnement destinée à être manipulée par l'utilisateur, la sollicitation de la surface d'actionnement entraînant les moyens de verrouillage vers la deuxième position d'ouverture,
  • un organe de rappel sollicitant les moyens de verrouillage vers leur première position de fermeture.

The invention aims to solve one or more of these technical problems. The invention thus relates to a safety binding for the practice of ski touring, which comprises:

• a plate having a rear end, and a front end intended to be pivotally mounted relative to a ski;
• a rear base intended to be fixed to the ski;
• a shim capable of assuming at least one bearing position, in which the shim limits the rotation of the plate, and a storage position in which the shim does not limit the rotation of the plate;
• a mechanism for alternately fixing and releasing the plate on the rear base, said mechanism comprising:
  • locking means capable of passing from a first closed position to a second open position,
  • a release member having an actuating surface to be manipulated by the user, the biasing of the actuating surface driving the locking means to the second open position,
  • a return member biasing the locking means towards their first closed position.

• la fixation peut être mise alternativement dans deux états stables ; le premier état stable correspondant à une position de descente à ski, dans laquelle les moyens de verrouillage sont en position de fermeture et retiennent l'extrémité arrière de la platine, la cale de montée étant en position de rangement ; tandis que le deuxième état stable correspond à une position de montée de pente, dans laquelle la cale de montée est en position d'appui ;
• lorsque la fixation est en position de montée, les moyens de verrouillage sont en position de fermeture ;
• pour passer de la position de montée à la position de descente l'utilisateur ne doit exécuter que la seule manipulation consistant à faire passer la cale de montée de la position d'appui à la position de rangement ;
• pour passer de la position de descente à la position de montée, l'utilisateur doit exécuter deux manipulations consistant à exercer un effort sur l'organe de libération et à faire passer la cale de montée de la position de rangement à la position d'appui ;
• les moyens de verrouillage comprennent une surface de came permettant la fixation automatique de la platine sur l'embase arrière ;
• la platine comprend au moins un arbre s'étendant transversalement, et dans laquelle les moyens de verrouillage comprennent au moins un crochet désaccouplé de l'arbre dans sa deuxième position et apte à s'accoupler à l'arbre dans sa première position ;
• le crochet comprend une face de contact inférieure assurant le maintien vertical de l'arbre auquel il est accouplé, la face de contact inférieure étant inclinée axialement par rapport à l'axe de coulissement de l'organe de préhension ;
• le crochet comprend une face de contact supérieure inclinée axialement de sorte qu'un appui de l'arbre sur la face de contact repousse l'organe de préhension vers sa deuxième position afin de permettre son accouplement avec le crochet ;
• les moyens de verrouillage comprennent au moins deux crochets disposés de part et d'autre d'un plan médian de l'embase ;
• les moyens de verrouillage comprennent au moins deux crochets décalés axialement l'un par rapport à l'autre ;
• les moyens de verrouillage sont disposés sensiblement à l'aplomb de la talonnière lorsque l'organe de jonction est fixé à l'embase.

The invention also relates to a safety binding for ski touring which in addition to the features listed above has any technically permissible combination of the features listed below:

• the fixation can be alternately put in two stable states; the first stable state corresponding to a ski descent position, in which the locking means are in the closed position and retain the rear end of the plate, the climbing wedge being in the storage position; while the second stable state corresponds to a slope up position, in which the climbing wedge is in the support position;
• when the attachment is in the mounted position, the locking means are in the closed position;
• to move from the climbing position to the descent position the user must perform only the manipulation of passing the shim from the support position to the storage position;
• to move from the descent position to the climb position, the user must perform two manipulations of exerting a force on the release member and to move the shim from the storage position to the support position ;
• the locking means comprise a cam surface for automatically fixing the plate on the rear base;
• the plate comprises at least one shaft extending transversely, and wherein the locking means comprise at least one hook uncoupled from the shaft in its second position and adapted to mate with the shaft in its first position;
• the hook comprises a lower contact face ensuring the vertical retention of the shaft to which it is coupled, the lower contact face being inclined axially with respect to the sliding axis of the gripping member;
• the hook comprises an upper contact face inclined axially so that a support of the shaft on the contact face pushes the gripping member to its second position to allow its coupling with the hook;
• the locking means comprise at least two hooks disposed on either side of a median plane of the base;
• the locking means comprise at least two hooks axially offset with respect to each other;
• the locking means are arranged substantially vertically above the heel piece when the connecting member is fixed to the base.

Thanks to the particular configuration of the hiking binding according to the invention, a user can easily move from a mounted position to a downward position and without disconnecting the connection between shoes and ski. In particular, a particularly advantageous advantage of the invention lies in the fact that the transition from the position of rise to the position is done automatically when the user has placed the shim in storage position.

• la figure 1 est une vue en perspective d'une partie de fixation de sécurité selon un mode de réalisation de l'invention ;
• les figures 2 et 3 sont des vues en coupe en perspective de l'embase arrière de la fixation de sécurité représentée à la figure 1, dans deux états différents ;
• les figures 4 et 5 sont des vues de coté de la fixation de sécurité de la figure 1, montée sur un ski, dans deux position de montée ;
• les figures 6 et 7 sont des vues en coupe de côté des moyens de verrouillage durant différentes phases du verrouillage.

Other characteristics and advantages of the invention will emerge clearly from the description which is given hereinafter, by way of indication and in no way limitative, with reference to the appended drawings, in which:

• the figure 1 is a perspective view of a security fastening portion according to an embodiment of the invention;
• the figures 2 and 3 are perspective sectional views of the rear base of the safety fastener shown in FIG. figure 1 in two different states;
• the figures 4 and 5 are side views of the security fixture of the figure 1 mounted on a ski in two climbing positions;
• the Figures 6 and 7 are sectional side views of the locking means during different phases of the locking.

The invention provides a safety binding for the practice of ski touring. This attachment comprises a connecting member pivoting relative to the ski. A mechanism alternately fixes or releases the rear portion of the junction member and a base attached to the ski.

Thus, a kinematics very simple to implement by the user can go from the mounted position to the downward position of the binding. Such a mechanism has a simple and compact structure whose development is easy.

The following repository shown in figure 1 will be used in the following description. The X direction corresponds to the axial direction of the ski on which the attachment is mounted. The direction Y corresponds to the transverse direction of the ski, and the direction Z corresponds to the vertical direction of the ski.

The figure 1 is a perspective view of the main components of a safety binding 1 for the practice of ski touring. The attachment 1 comprises a front base 400, a plate 3 and a rear base 100.

The plate 3 is constituted by a front abutment base 300, a connecting member 200, and a rear heel pedestal 360. The front abutment base 300 constitutes the front part of the plate 3 and is designed to receive a stop before 7 of any known type, represented in figure 4 . The rear heel base 360 constitutes the rear part of the plate 3 and is designed to receive a heel piece 8 of any known type, represented figure 4 .

The front plates 400 and rear 100 are intended to be fixed to a ski 9 rigidly. The plate 3 is pivotally mounted relative to the front base 400 about a Y direction axis. For this purpose, the plate 3 is rotatably mounted via the abutment base 300 about an axis. 502 extending between two faces of a stirrup of the base 400.

The front abutment base 300 is fixed to the front end of the connecting member 200. The front abutment base 300 has a support 301 for the sole of a ski boot of the user. The heel base 360 is fixed on the connecting member 200 at its rear end. The abutment base 300 and the heel are thus axially offset to allow insertion of the user's boot. The front abutment base 300 and the heel base 360 allow, in a manner known per se, to maintain the user's footwear vertically when it is inserted into the binding. The axial position of the heel relative to the heel base 360 can be adjusted in a manner known per se. The heel base 360 has for this purpose a rail 201 for axial sliding of the heel, and an indentation 361 (cf. Fig. 4 ) for immobilizing the axial position of the heel via a mechanism known per se integrated in the heel.

The attachment 1 also comprises a climbing wedge 101. The latter is fixed on the base 100.

The shim 101 is used when the attachment 1 is in the up position, to provide a raised support relative to the base 100 for the heel of the user. The shim 101 is pivotally mounted about a Y direction axis, via arms 103. The arms 103 are connected by a stop portion 102, intended to form the support for the rear part of the plate. 3. At each arm 103, the rear base has a first boss 104, a first recess 105, a second boss 106 and a second recess 107. During the pivoting stroke of the rise wedge 101, the arms 103 are initially elastically deformed during their passage over the boss 104. When the arms 103 reach the first recess 105, the wedge 101 is held stably between the bosses 104 and 106 in a first bearing position substantially perpendicular to the plane (X, Y). This first position is called up position of the climb wedge. When the pivoting stroke of the climbing wedge 101 is continued, the arms are deformed elastically as they pass over the boss 106. When the arms 103 reach the recess 107, the wedge 101 is stably held in a second position. 'support. In this position, the low position of the climbing wedge 101, the abutment portion 102 may rest on the rear base 100.

To the figure 1 , the shim is described in storage position. When the binding is in the down position, the climbing wedge must be in this position.

In the position illustrated in figure 1 , the rear end of the plate 3 is disengaged from the rear base 100 to allow the pivoting of the user's foot relative to the ski.

A mechanism 600 makes it possible to fix and release alternately the base 100 of the rear part of the plate 3. The operation of this mechanism will be described with reference to the figures 2 and 3 which represent partially cut cross-sectional views. The mechanism 600 comprises locking means in the form of hooks 602 and 603. The hooks 602 and 603 form a gripping member secured to the base 100. The hooks 602 and 603 are made in one piece with a link 601 slidably mounted axially relative to the base 100. The rod 601 is slidably mounted relative to the base 100 by means of one or more hoop 605 integral with the base 100 and overhanging the middle part of the rod 601. By means of the link 601, the hooks 602 and 603 are slidably mounted axially relative to the base 100 between a first and a second position. A return member 610 biases the rod 601 forward, that is to say, so that the hooks are found in the first position.

In the first position illustrated in figure 2 , the hooks 602 and 603 are in the advanced position, which corresponds to a closed position of the mechanism 600. In the second position illustrated in FIG. figure 3 the hooks 602 and 603 are in the retracted position, which corresponds to the opening position of the mechanism 600.

It should be noted that in view of the presence of the return member 610 and the fact that there is no other mechanism to counter the effect, the stable or rest position of the hooks are those where they are in advanced position (cf. fig.1 ). In other words, the locking mechanism is always automatically in the closed position, except when the user exerts a force to counter the return member.

Stems 203 and 204 are fixed transversely under the heel base 360. The lateral ends of these rods are visible at figures 1 , 4 and 5 . The rods 203 and 204 are disposed substantially vertically above the hooks 602 and 603 respectively. The heel base 360 has openings 624 and 625 (cf. Fig. 1 ) The openings 624 and 625 allow the sliding of the hooks 602 and 603 relative to the junction member 200 when the latter is pressed against the base 100.

To the figure 2 , the hooks 602 and 603 are in the first position, the advanced position. The rear end of the plate 3 is pressed against the base 100. For a better understanding it has drawn on this view the rods 602 and 603. As can be seen, the hooks 602 and 603 are coupled to the rods 203 and 204 , so that the rear part of the plate 3 is fixed to the base 100. The foot of the user can not then pivot relative to the ski. The attachment 1 is then in the descent position.

To the figure 3 , the user exerts, with the aid of a ski pole, a pressure on the actuating surface 608 of the release member 607. The release member 607 is a part integral with the link 601 and which used for the manipulation of it. Thus, the release member 607 and the locking means 602 and 603 form a unitary subassembly, without relative movements between the constituent elements. The release member is a plastic part overmolded on the rod, which itself is made of steel. Of course, this is a non-limiting embodiment. The effect of the pressure on the release member 607 is the retreat of the hooks 602 and 603 into their second position, the retracted position. In this position, the hooks 602 and 603 no longer retain the rods 203 and 204, so that the rear part of the plate 3 can be released from the base 100. The plate 3 can thus pivot relative to the front base 400. The attachment 1 will be able to be placed in the rising position.

According to this embodiment, the action to release the plate 3 of the base 100 consists of moving the release member 607, and therefore the means of locking 602, 603, in translation, in an axial direction of the ski. This action is simple and direct and does not require a particular kinematic to act on the locking members. There is no actuation movement transformation. The mechanism 600 is simple and economical to achieve because the number of parts is reduced.

In order to be able to actually place the binding in the up position, the user must set up the shim in one of its two support positions.

The figure 4 describes the mounting in the riding position with the climbing wedge placed in low support position. Although the hooks 602 and 603 are returned, by the action of the return member, in the closed position, the engagement of the hooks and rods can not take place because the stroke of the plate down is prevented by the climb wedge.

The figure 5 describes the mounting in the riding position with the climbing wedge placed in the high support position.

In the embodiment described, the climbing wedge has two support positions. Of course, this is not limiting, and it can be envisaged that the shim has a greater number of support position, including a lower support position than that described in the figure 1 .

• lever le talon droit, respectivement gauche ; et simultanément faire pivoter à l'aide de son bâton de ski, la cale de montée vers l'arrière jusqu'à ce que celle-ci occupe sa position de rangement. On notera que la figure 1 représente la fixation de ski à la fin de cette étape,
• abaisser le talon jusqu'à enclencher les moyens de verrouillage. La figure représente le mécanisme 600 à la fin de cette étape.

When the mechanism 600 is in one of the configurations of figures 4 or 5 , the user can climb a slope with his skis. At the end of the climbing phase, to return to the descent position, it suffices to execute the following two steps alternately for the right foot and the left foot:

• lift the right heel, respectively left; and simultaneously rotate with its ski pole, the rear climbing wedge until it occupies its storage position. It will be noted that the figure 1 represents the ski binding at the end of this step,
• lower the heel until it engages the locking means. The figure shows the mechanism 600 at the end of this step.

It will be noted that, advantageously, even if the transition from the climbing position to the lowering position is done in two steps, it involves only one manipulation on the part of the user, that of passing the hold. from one of the support positions to the storage position. Indeed, as the maneuver can be done by keeping the skis on the feet, the action of raising or lowering the rear end of the plate is not a manipulation.

• appuyer, à l'aide de son bâton de ski sur l'organe de libération 607 de façon à contrer la sollicitation de l'organe de rappel et simultanément lever le talon droit, respectivement gauche. La figure 3 représente le mécanisme 600 à la fin de cette étape,
• faire pivoter la cale de montée 101 vers l'avant jusqu'à ce qu'elle occupe une des positions d'appui tel que représenté aux figures 4 et 5.

At the end of the descent phase and to be able to go up again, the user will perform the following two steps:

• pressing with his ski pole on the release member 607 so as to counter the biasing of the return member and simultaneously lift the right heel, respectively left. The figure 3 represents the mechanism 600 at the end of this step,
• rotate the hold-up 101 forward until it occupies one of the support positions as shown in figures 4 and 5 .

The passage from the descent position to the climb position requires two successive manipulations: one on the release member, the other on the climbing wedge.

The passage between the up and down positions can thus be achieved simply by means of a mechanism 600 having a structure that is both simple and lightweight. It is further understood that the use of the ski binding is very easy even when the user keeps his skis on.

In general, the security fastening according to the invention is particularly advantageous because the locking means are always in the closed position, that is to say with the hooks advanced forward. Moreover, the systematic use of the shim means that in the up position, a gap is maintained between the plate 3 and the rear base 100, so that the creation of a snow wedge packed between its two elements. The combination of these two features facilitates a very fast transition from the climb position to the descent position. This is why the security attachment according to the invention offers increased security compared to existing security fasteners.

In the storage position, the climbing wedge 101 advantageously forms a hoop surrounding the release member 607. The hoop of the climbing wedge 101 makes it possible on the one hand to avoid a passage in the mounted position following an accidental landing on the release member 607. The bow allows on the other hand to guide the end of a stick towards the release member 607 to proceed to the climbing position. The release member 607 is advantageously inclined relative to the plane (X, Y), with an inclination around the Y axis, to allow the user to apply an axial force allowing the passage to the climbing position.

The heel 8 is advantageously disposed substantially perpendicular to the rods 203 and 204, regardless of the axial position of the heel with respect to the plate 3. Thus, in the down position, the forces exerted on the heel are transmitted directly to the base 100 and the ski. The precision of the guide of the ski is thus improved and it avoids bending the plate 3.

In the example shown, the shaft 203 and the shaft 204 are offset axially, and the hooks 602 are offset axially relative to the hooks 603. Thus, the transmission of the heel-plate forces to the base 100 is improved and the bending the plate 3 is further reduced in the descent position. Furthermore, the axial forces exerted by the heel are distributed over the length of the base 100.

In the example shown, the attachment 1 comprises hooks 602 and 603 on either side of the central axis 91 of the ski 9 or the median plane of the base 100. Thus, the attachment 1 has a better rigidity in twist around the ski axis in the downhill position.

The hooks 602 and 603 are advantageously housed in the openings 624 and 625 so as not to protrude from the upper face of the heel base 360. Thus, the hooks 602 and 603 do not interfere with the sole of a shoe. maintained in the attachment 1 in the descent position.

The Figures 6 and 7 are cross-sectional side views of a hook variant respectively at the beginning and at the end of its coupling phase with a rod. The hook 602 has a lower guide face 622 for guiding the rod 203 to an axial abutment face 623. The free end 621 of the contact face is rounded to facilitate the start of the coupling illustrated in FIG. figure 6 . Furthermore, the lower guide face 622 has an inclination around the Y axis. The lower guide face 622 is thus inclined with respect to the plane (X, Y) in which the sliding axis of the link 601 is located. and hook 602. Thus, during the stroke of the hook 602, the possible play between the hook 602 and the rod 203 is progressively caught and the rod 203 is progressively pulled down to reach the position where it is in contact with the end face 623. This traction of the rod 203 inducing an elastic deformation of the attachment 1, is maintained permanently a vertical contact force between the hook 602 and the rod 203, which eliminates the play during the use of the downhill attachment 1 and thus guarantee a high level of skiing accuracy.

Furthermore, the locking means comprise a cam surface for automatically locking the plate 3 on the rear base 100. This cam surface is constituted by the upper guide face 626 of each hook. During the passage from the up position to the lowering position, when the plate 3 goes down, as soon as the rod 203 comes into contact with the upper guide face 626 of the hook 202, the latter is pushed backwards. (towards the open position of the locking means). Under the action of the return member, the contact between the rod 203 and the hook 202 is maintained and the rod 203 slides to reach the guide face 622. The return of the link 601 to its first position then guarantees the coupling between the rod 203 and the hook 602.

As explained above, the automatic locking of the plate 3 on the rear base 100 is obtained by the combination of two characteristics of the mechanism 600: on the one hand, the cam surface 626 of the locking means 602, 603 and secondly, the return member 610 bringing the locking means in the closed position. This automatic locking is very convenient for the user because by simply lowering the plate 3, the user can lock it with the rear base 100. The weight of the foot is sufficient. Of course, you must first retract the climb wedge.

The hooks 603 may of course have a shape similar to that of the hooks 602, in order to be able to couple similarly with the shaft 204.

The invention is not limited to the embodiment described here by way of example but it aims all equivalent achievements.

Claims (13)

Safety binding (1) for the practice of ski touring, comprising: - a plate (3) having a rear end, and a front end intended to be pivotally mounted relative to a ski; a rear base (100) intended to be fixed to the ski; a climbing wedge (101) capable of taking up at least one bearing position, in which the climbing wedge limits the rotation of the plate, and a storage position in which the wedge does not limit the rotation of the plate a mechanism (600) for alternately fixing and releasing the plate (3) on the rear base (100), said mechanism comprising: locking means (602, 603) capable of passing from a first closed position to a second open position, a release member (607) having an actuating surface (608) to be manipulated by the user, the biasing of the actuating surface (608) driving the locking means to the second open position; a return member (610) urging the locking means towards their first closed position characterized in that the first locking position of the locking means is the only stable position of the mechanism (600). Fixation according to claim 1, characterized in that it can be alternately placed in two stable states; the first stable state corresponding to a ski descent position, in which the locking means are in the closed position and retain the rear end of the plate (3), the climbing wedge (101) being in the storage position; while the second stable state corresponds to a rise position of slope, in which the climbing wedge (101) is in the support position. Fastening according to claim 2, characterized in that when the fastener is in the mounted position, the locking means are in the closed position Fastening according to one of claims 2 to 3, characterized in that to move from the climbing position to the lowering position the user must perform only the manipulation of passing the climbing wedge from the position of support to the storage position. Fastening according to one of claims 2 to 4, characterized in that to move from the down position to the up position, the user must perform two manipulations consisting of exerting a force on the release member and pass the shim from the storage position to the support position. Fixing according to one of claims 1 to 4, characterized in that it comprises a front stop (7) and a heel (8) fixed to the plate. Security fastener according to one of the preceding claims, characterized in that the locking means (602, 603) comprise a cam surface (626) for automatically fixing the plate to the rear base. Safety binding (1) according to any one of the preceding claims, in which the plate (3) comprises at least one transversely extending shaft (203, 204), and in which the locking means comprise at least one hook ( 602, 603) uncoupled from the shaft in its second position and adapted to mate with the shaft in its first position. A security fastener according to claim 8, wherein the hook (602, 603) comprises a lower contact face (622) for vertically holding the shaft (203, 204) to which it is coupled, the lower contact face being inclined axially with respect to the axis of sliding of the gripping member (601). Safety fastener according to one of claims 8 or 9, wherein the hook (602, 603) comprises an upper contact face (626) inclined axially so that a support of the shaft on the contact surface pushes the gripping member (601) to its second position to allow coupling with the hook (602, 603). Security fastener according to any one of claims 8 to 10, wherein the locking means comprise at least two hooks disposed on either side of a median plane of the base (100). Safety binding according to any one of claims 8 to 11, wherein the locking means comprises at least two hooks (602, 603) axially offset with respect to each other. Safety binding according to any one of the preceding claims further comprising a heel piece (8) fixed to the plate (3), characterized in that the locking means are arranged substantially vertically above the heel piece when the junction (200) is attached to the base (100).

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