JP2000501014A - Injury ski boots - Google Patents

Abstract

(57) Abstract: A solid foot portion with a solid base and a solid upper member for enclosing the user's leg, and rotating means essentially for enclosing the lower part of the user's leg. A rigid leg member comprising: a leg member coupled to the foot portion via rotating means to provide a forward leaning holding state of the user together with the foot portion, and a predetermined rear portion on the leg of the user. A release retention mechanism for changing said leg member to a substantially vertical release stop position resulting from the force, wherein the release retention mechanism includes a lower release mechanism through a slot (68). An upper arm linkage (54) engaged with the arm linkage (56), wherein the release and retention mechanism causes a rearward force to move the upper arm linkage downward in the slot (68). To lower force. The upper arm connection (56) and the upper arm connection (54) abut each other and further outwardly from the ski boot until the leg of the user is in the release stop position. It is a ski boot that rotates.

Description

DETAILED DESCRIPTION OF THE INVENTION                             Injury ski boots   The present invention relates to a release mechanism for providing safety to ski boots. You. More specifically, the present invention prevents and reduces the risk of injury to the anterior cruciate ligament of the knee. It is about reducing. The invention also provides safe and biomechanically natural A configuration of a ski boot that can provide a rear connection.   Various devices have been used to improve skiing injury prevention. Proposed. Most of these proposals relate to improving ski bindings. Things. In other words, it concerns a mechanism that is fixed directly to the ski . There are also some suggestions for improving the ski boots themselves, It is merely intended to provide a mechanism that allows the user to more easily attach and detach. For example, U.S. Pat. No. 5,136,794 includes a lower member and a shaft. Disclosed, wherein the shaft is in the form of a collar. Articulated on the lower member and comprises at least one closing buckle ing. The shaft is provided at the rear with a swing which interacts with a stop integrally formed on the lower member. It has a moving body. As a result, the shaft is fixed in a state where the shaft is inclined forward. Can be. Oscillator is released when cable and spring release top buckle Is held in a non-operating position. Therefore, the shaft may interfere with walking. It is not fixed in a certain position.   US Pat. No. 5,127,171 also requires attention. this In the technology described in the literature, a shell having a shaft divided into two members is used. A provided ski boot is disclosed. The rear part of the shaft, on the one hand, Connected to the shell, on the other hand, through two pairs of links, It is connected to the front member. When the shoe is closed, the joint axis of the rear member On the other side, the other side of this plane is the joint axis of the shaft and the shaft There is an articulation axis of the front member of the gut. This allows the rear part to be Widen the shaft and wear shoes without having to lean the material too far back. Can be.   In U.S. Pat. No. 5,107,608, ski boots are placed on the feet of the user. A ski boot that acts as a positive force to teach potential knee injuries It has been disclosed. The release means is a predetermined level of force exerted on the user by the shoe. The position of the solid support for the foot and the lower leg is changed accordingly. This document, Rear pressure by the user's lower leg against the shoe's rear leg member uses piezoelectric material. Disclosed that it can be detected by a power sensor that generates electrical output using are doing. Further, as shown in FIG. A mechanical latch assembly using 96 is disclosed. This mechanical latch The assembly is disclosed as biasing or maintaining the device in a ski position I have. By applying a force that overcomes the tension, the solution as shown in FIG. The removal position is obtained.   U.S. Pat. No. 5,283,964 discloses that a locking portion on a shell base is provided. Shoes that allow the upper member acting on the vibrating lever that can be supported A vice is disclosed. The device has an inner member attached to the vibrating lever via a cam. Linear motion control with an external control device to drive an installed detection device It is provided with a mechanism. Thereby, the locking portion formed on the shell base Angle of the swing lever around the pin toward the restrained or released state Rolling movement results.   International Patent Application No. 92/05718 and International Patent Application Publication No. 0514 Attention should also be paid to 762. More specifically, International Patent Application No. 92/057 No. 18 discloses a ski boot for enhancing ski safety. Finally European Patent Application Publication No. 375604. This document Discloses a ski boot provided with a locking portion for holding a leg forward. Ma Also, in French Patent Application No. 26 47 649, the lock is in the forward position. A ski boot provided with articulated legs is disclosed. In this case, the joint leg And articulated with clips that rotate about a horizontal axis.   However, all of the above, compared to the present invention, In that there is no practical mechanism to reduce knee damage ing. Therefore, in the present invention, the anterior cruciate ligament of the knee is used. ament, ACL) can significantly reduce the potential for damage A holding release mechanism is provided on the shoe. In other words, the present invention The rearward force that may cause damage to the roller (upper shaft). Or a ski boot that can be converted.   Therefore, it is an object of the present invention to provide a method for applying a predetermined or threshold force. The rearward movement of the upper shaft allows the upper shaft It is an object of the present invention to provide an arrangement for ski boots that limits backward movement.   Further, the object of the present invention is to move or restrain the cuff at the appropriate time, Providing a unique mechanism that can create a safer situation and increase user safety Is to provide.   It is also an object of the present invention to provide protection that can provide a safe feature in the construction of a ski boot. The object is to provide a holding release mechanism.   Finally, a more distinctive object of the present invention is to prevent the risk of injury to the anterior cruciate ligament of the knee. It is to propose a configuration of a ski boot that can be stopped, To provide a safer and more natural biomechanical back swing for key shoe users. You.   The present invention, as detailed below, will not cause ankle damage or discomfort It fits the lower leg range from about 12-15 ° to about 0-3 °. Of the present invention The essence of the configuration is that the repositioning is "locking against rearward movement, supporting the legs Yes, with stance adjustment on opposite leg in combination with "body" or restrictions The ability to damage the ankle by the leg support , Shoes that will hit when the leg / ankle is moved backward (when the sole is bent) Is reduced by reducing the lower part of. in addition In the present invention, the moment arm of the ski tail is lower than the center of gravity of the user. Have been This reduces the force on the knee while providing support for the front side of the leg. And the user has repositioned and falls Allows you to continue skiing. In the event of a fall, snow is behind the ski tail The contact reduces confusion and requires less force on the knee joint.   In addition to the above, in the present invention, adjusting the device in the lower part of the shoe This allows the user to adjust to a walking state of about −12 to −15 °. Wear.   In addition, mainly a backward fall case where the force applied to the anterior cruciate ligament is likely to cause fracture In the case of (1), the bending of the knee exceeds 90 ° from the fully extended state (linear state). Book In the invention, the bending angle tends to be reduced. Because, depending on the shoes, Once again, posterior support is provided, which is within the anterior cruciate ligament. This has the advantage that a more even load distribution is achieved in such fibers. This Regarding this, Anterior Cruciate Ligament Strain In Vivo, RobertJ. Johnso n et al. , Univ. of Vt. , Proceedings of the American Academy of Orthopaedi c See Surgeons, 1989. In detail, the load is As a result, the anterior central fiber bundle is reduced and the anterior cruciate ligament anterior lateral Redistributed to Eva.   Conversely, when the knee is almost or fully extended (when it is straight (2) Loss of the anterior cruciate ligament when the posterior support of the shoe causes dangerous force on the knee With respect to reducing the risk of injury, the present invention contemplates the use of an anterior cruciate ligament. The shoe has the advantage of providing an even load distribution in the fiber. It is possible to increase the bending angle of the knee due to the provision of posterior support . Specifically, the load concentration is from the rear side fiber bundle to the front center fiber bundle, Be distributed.   In summary, the present invention introduces a rearward load that can cause knee injury to the user. Possible damage to the anterior cruciate ligament of the knee when brought against the upper shaft Ski boots with a mechanical release mechanism, which provides a means for reducing the likelihood In this case, the holding release mechanism changes the angle of the lower part of the leg in the holding state. Arranged from about +12 to 15 degrees to about 0 to -3 degrees in the released state can do.   More specifically, as shown in FIG. A pair of fastening tabs that are fixed to the ski boot upper shaft via a pair of fastening tabs Rate 50 and mounted on a single hinge pin in compression and against ski boots Provides sufficient forward force, which allows the ski boot to Induces the upper arm and lower arm to join together, and Is a spring that returns both arms to a stable position. Is a spring with a biasing force that does not hinder backward movement of both arms to an unstable state. Ring 52 and a pair of hinge pin receivers for rotatable connection to plate 50. A pair of receiving holes for rotatable connection to the receiving hole and the lower arm connector 56 And a space that allows access of the tool to the adjustment screw 60. And an upper arm connector 54 having a boundary edge 62. I have it. Boundary edge 62 is cooperating with lower arm connector 56. Large compression / deflection of the spring 66 with respect to the boundary edge 64 In addition, the connecting members 56 and 54 may become unstable from a stable state (a state where the shoes cooperate forward with the shoes). The positional relationship is such that it returns to a fixed state (a state in which it cooperates rearward with the shoe). As described above, the lower arm connector 56 is connected to the boundary edge 64 and the pair of receiving slots. And a hinge 68 for the upper arm connector 54. Connection and axial translation between the upper arm connector 54 and the lower arm connector 56, Both are possible. The spring compression cap 59 is connected to the upper arm A pair of short hinge pins can be inserted for connection between the lower arm connecting body 54 and the lower arm connecting body 56 A pair of holes, and a central axial hole to which the spring 66 can access. You. The release tension adjusting screw 60 does not interfere with the axial movement of the spring 66. Keying interface for rotating operations with tools It has a head without cap. This head is located inside the spring coil You. Numeral 69 indicates a compression nut formed as a square with a thread. The slot 69 is wide enough to prevent rotation during tension adjustment, and A threaded receiving hole that is open in the axial direction for receiving the And a visual indicator of spring tension against the scale (not shown) have. The adjusting screw thrust plate 70 has a central concave portion with respect to the adjusting screw 60. It has convex points. With this uneven point, the lower arm connector 56 To receive the hinge pin that firmly fixes the adjustment screw thrust plate 70 The forward force of the spring is connected to the lower arm through a tab with a pair of holes. Can be transmitted to the body 56. Reference numeral 72 denotes a cam. The release and retention mechanism is supported on a spring loaded latch (not shown). to this As a result, the cam is biased (by means not shown) and turned forward enough. Can be rolled up and released from the support latch. As a result, the release holding mechanism Can move forward, shoe upper shaft can move backward, walk , Forward and backward are possible. Reference numeral 74 denotes a stirrup-mounting bracket. The bracket 74 is provided with a screw for the mounting destination (the cuff member of the lower outer shell). A pair of holes for stopping, the cam 72 and the bracket 74 And a hinge pin for rotatably connecting to the lower arm connector 56. It has a pair of holes to receive. Further, the bracket 74 cooperates with the cam 72 An abutting surface is provided to prevent excessive backward rotation of the cam 72, Provides a stable support structure until 2 is urged forward to "walk" mode be able to.   FIG. 6 is a view showing an assembled state of the release holding mechanism shown in FIG. Smell in assembled state The plate 50, the upper arm connector 54, and the upper interference contact edge And an interference edge 64, which may also be referred to as a lower abutment edge. And the lower arm connector 56, the stirrup-mounting bracket 74, and the cam 72, It is shown again. FIG. 5 shows an adjustment screw thrust plate 70 and A threaded square compression nut 69 is shown. Finally, in FIG. , Reference numeral 74 denotes a stirrup-mounting bracket, and reference numeral 76 denotes A visual indicator of force is shown, with the hinge pin head indicated by reference numeral 80. Reference numeral 82 indicates a short hinge pin head, and reference numeral 84 indicates a simple hinge pin head. One hinge pin head is shown and the rivet of plate 50 The mounting hole is shown. Finally, the reference numeral 88 indicates the hinge pin head hole. And reference numeral 90 designates a spring cap (internally located) against the top of the slot. (Not shown) to act as a shoulder to provide movement restrictions 5 shows a flange of the lower arm connecting body 56.   FIG. 7 is a cross-sectional view of the release holding mechanism in the ski state. The arrangement of the ring 52 is shown more clearly. Regarding the release holding mechanism shown in FIG. Means that the front of the shoe is located to the left. FIG. 8 shows the release holding mechanism in the released state. Is shown. Also, in FIG. This state of contact between the lower arm connector 56 and the stirrup mounting type It occurs between the racket 74 and the movement of the upper arm connector 54. Works to limit the In FIG. 9, reference numeral 94 denotes a release holding device. Showing a cutout formed in the stapling cuff member of the shoe for placement of the shoe And a stirrup riveted to the lower shell of the shoe by reference numeral 96. Finally, the reference numeral 98 indicates the stirrup-mounted bracket. One of the screw hole pairs for mounting the socket 74 is shown.   FIGS. 10 to 12 show a holding release mechanism in a holding state and a releasing state in the form of a cross section. 3 shows both states. As shown in FIG. 10, in the ski state or the holding state In this case, the lower arm connector 56 is urged toward the upper shaft 100 of the shoe. I have. In addition, by reference numeral 102, the upper arm connecting body 54 and the lower arm connecting body The space or opening formed between the two is shown. FIG. When skiing, the short force is determined based on the opposing force or extension of the spring 66. The hinge pin head 82 is located at the top of the slot 68. I have. When falling backward, the user leans on the release holding mechanism. On the spot In this case, the load transmission is released via a release holding mechanism, as shown more clearly in FIG. It will be transmitted to the bottom of the holding mechanism. As shown in FIG. 11, the upper arm The connector 54 is biased downward in the slot 68 and the pin head 82 It will be located at the bottom of the slot. In this state, the spring 66 Compressed downward. At this point, again, indicated by reference numeral 104 As described above, the edges of the upper arm connector 54 and the lower arm connector 56 are You can see that space 102 no longer exists. U. This contact causes a reconfiguration to the release state as shown in FIG. . This reconfiguration causes the spring 66 to be further compressed and the slot 68 When the upper arm connector 54 moves downward within the Are biased to form a fulcrum contact point 104 under the upper shaft 100 of the shoe. The members 56 and 54 rotate away from each other, and are unstable from the stable center of the spring 66. This occurs when a load is transmitted to the contact point 104. Like this, on The rear arm connecting body 54 and the lower arm connecting body 56 can be reconfigured using the upper shaft (shoe cap). F) to enable backward rotation. In this case, the movement of the upper shaft (The lower shaft member of the shoe) and the folded / reconstructed It is restrained by the contact between the release holding member in the formed state. This constraint is about 0 約 Occurs in an inclined state. The cam 72 is in the release mode of the anterior cruciate ligament. , Stays in a stable support state. The user moves the upper shaft member (cuff) forward again When rotated, the upper arm connector 54 and the lower arm connector 56 With the assistance of the wing 52, the skiing will return to a stable ski position.   FIG. 13 shows ski positions. In this figure, the The upper arm connector 54 / lower arm connector 56 and the cam 72 are stably positioned. Note that they are in charge. In FIG. 14, the cam 72 is manually operated (not shown). ), The cam 72 and the latch 73 are not connected. It has a stable positional relationship. In FIG. 15, the upper shaft of the shoe (cuff member) ) 106 and shoe wrap (lower shaft / cuff member) 108 As a result of the operation, it has rotated backwards around its axis, allowing normal walking. Or facilitate forwards and backwards. Figure 16 shows the front cross on the knee When the ligament is released, the two arm connectors 54 and 56 and the upper shaft 10 of the shoe 6 and the positional relationship between the stapler 108 and the shoe are shown. As shown in the figure The release holding mechanism, when released, is substantially vertical to the user. I will provide a. Further, as described above, in the released state, the upper arm connector 5 4. Due to the rearrangement of the lower arm connector 56, the upper shaft cuff member 106 of the shoe is Contact with the fixed stirrup 108 prevents further movement. In any case, the upper shaft cuff member 106 of the shoe can be rotated backward. The contact point is indicated by reference numeral 110 in FIG.   Therefore, the present invention provides a latch member for a holding release mechanism in ski boots. It is about. The latch member includes a cam that cooperates with the locking member. The rear force exerted by the user urges the cam, and the rear force is a predetermined level. It is arranged so that the cam can be released from the lock when the bell is exceeded. ゜   The invention also provides for limiting the rearward movement of the upper shaft of the ski boot. When a predetermined level of force is applied to the shaft, It proposes a key boot, and this ski boot is made by the shaft of the ski boot Provide multiple members whose length can be compressed or changed when subjected to a rearward force The compression or change of such length is fixed between the two movable members (14, 3). The elastic spring member is compressed, and the latch member (16, 17) ), The latch member being rotatable with respect to the other spring housing member. Until the cam (15) fixed to (2) is displaced from the locking body (11), The spring housing member is compressed by force.   1A, 1B, and 1C illustrate a release mechanism according to the present invention. It is a front view, a side view, and a rear view.   FIGS. 2A and 2B illustrate a member known as a hinge mounted assembly. It is a figure showing an alternative composition.   3A and 3B illustrate a member known as a hinge mounted assembly. It is a figure which shows the said alternative structure in detail.   FIG. 4A illustrates a latch conventionally used in ski boots; FIG. 4B is a diagram showing a latch according to the present invention. By comparing both, the present invention The differences in latches and cable housings will be apparent.   As described above, the present invention relates to a holding release mechanism formed by a cam. In this case, the cam cooperates with the locking body, and The magnitude of the rearward force is such that the cam is disengaged from the lock at a predetermined adjustable level. The rear force biases the cam so that it is enough to completely overrun So that it can be pulled over or released from the lock, Are located.   The present invention also requires that the cam be displaced to the extent that it completely rides over the cooperating stop. Device for an unlocking and holding mechanism having an adjustment member for controlling the degree of force required Things. This device has a spring or elastic mechanism, and Consisting of a cam or a ball spring and a socket, -Detailed configurations for specific load release mechanisms such as bindings and the like Is equipped with a release mechanism which is publicly known and can take various forms.   The present invention also allows the user to maintain control of the ski after the shoe shaft. Release retention that can provide a secondary elastic function that is sufficiently resistant to one-way displacement It concerns the mechanism. This constraint property indicates that a "backward disassembly" or release has occurred. Later limit the rearward displacement of the shoe shaft. An important feature of the present invention is that Decomposition is limited. This feature prevents the top and bottom of the shoe from interfering. Or until it cooperates with one or more members of the primary release mechanism. Or a dashpot or anchor that cooperates with the rest of the shoe upper shaft, Obtainable. A secondary "lock" or restraint mechanism is used to control the rearward displacement of the shaft. Should be limited to within about 20 degrees rearward from the vertical.   The present invention can also facilitate repeated compression / deflection of the elastic member, and a series of Based on the cooperation of the latch member with the locking member, the latch mechanism has a series of locking members. Release holder configured to provide a valid release that may facilitate resetting to It is about construction.   The present invention also greatly reduces the propensity of the anterior cruciate ligament to damage the knee. Sufficient rearward shift of the shoe shaft to affect the user's knee joint The present invention relates to a holding release mechanism capable of providing a position.   The present invention provides for the use of such a force before a dangerous force is applied to the user's knee joint. Provide a function to absorb The elastic member with means for adjusting the preload is Function as a means for urging the shaft of. This allows the engagement Released, resulting in a backward "release" for the restrained state. Bring the release Adjustments can be made to determine the level of force or load required for the vehicle.   The present invention has an upper shaft that is highly resistant to backward bending, Ski boots that can provide the typical performance exhibited by ski boots It is. However, if a rearward force that could damage the knee is applied, The upper shaft is free to rotate the upper shaft backwards a small distance enough to protect the knee. Can be made. Because the backward rotation is a small distance, the user can The control can be continued so as to reestablish the posture until returning to the posture. Normal leaning forward In the posture, it is in the holding characteristic state, and until the dangerous rearward force is applied again, The legs are supported in the state of. Contrary to the above, the user cannot reposition after canceling The effective moment of the ski tail approaching the knee will damage the user's knee. Increases the tendency for the user to fall on the ski tail without scratching.   In connection with the above, the present invention provides a method wherein a shaft in the form of a collar is articulated, At least one lower member for holding the foot and the heel, and integrally formed with the lower member; Connecting means consisting of a latch interacting with the engaged locking body. A step provided with means for rotatably connecting or disconnecting the shaft to the lower member; This means that the boot can be lifted up easily by releasing the latch and the latch. The coupling means by rotating all or part of the latches A cable provided with at least one closing buckle for disconnecting When the user's legs exert a potentially hazardous force on the rear of the shaft, Means for automatically releasing the switch, the means comprising an elastic member and an upper shell. The proximal housing member connected to the shaft and all directions except compression of the elastic member. Compression of the elastic member and the distal housing member following the proximal housing member It cooperates with the locking body that is movable along the axis, and when the elastic member When the member rotatably connected to the proximal housing member abuts the locking body A distal end member disengaged from the locking body and a distal end side housing member. At the same time, the latch is biased by the action eccentric to the compression shaft to engage the latch. And a boundary member that disengages from the stop body. .   In addition, the present invention provides for a rotatable, movable upper shaft and foot and heel retention. And a lower member that holds the foot and the heel. Cooperating with each other, the upper shaft can be swung further rearward relative to the side members Detection mechanism consisting of a locking body and a latch, A ski boot that is urged to release the latch from the latch when the It is. In this regard, the detection mechanism preferably comprises a spring, And a movable member slidable in the direction, wherein the movable member is disposed in the latch. The cam member cooperates with the locked cam member so that the rotatable latch is released from the locking body. Bias the latch so that   In still other embodiments, the present invention relates to the aforementioned method for use in ski boots. The present invention proposes a holding release mechanism such as that described above, and this holding release mechanism A shell comprising a front member and a rear member. The member can be rotated backwards, allowing the feet to be free, allowing shoes to be attached and detached. Ability. Here, the rear member of the shaft is a shell and a lower part. Via a first connecting means forming an articulation axis for each of the rear and rear members. Connected to the cell. This allows the shaft to be defined and fixed relative to the shell. Thus, rotation and translation of the rear member are enabled. The front member of the shaft is At each point, the articulation for each of the front and rear members of the shaft It is connected to the shell via the second connecting means forming the joint axis. This allows Rotation and translation of the rear member about an axis defined and fixed to the front member It is said to be capable. The articulation axis for the coupling means on the rear member of the shaft is In the closed position of the shoe, it contains the articulation axis of the connecting means of the shell and the front member It is located on both sides of the plane.   FIGS. 1A and 1B show a release holding mechanism. Reference numeral 1 denotes a cable, 2 denotes a cable housing, 3 denotes a base side latch member, and 4 denotes a base end. Slots formed in the side latch member 3, 5 are pins, and 6 is a cable fixing ferrule. , 7 is a cable loop, 8 is a pin holding loop, 9 is a tip side articulation contact member, 10 is a pin on the articulation lock at the lower part of the shoe, 11 is a joint at the lower part of the shoe A coupling locking member, 12 is a pin on the distal joint member, and 13 is a cam member. Receiving notch, 14 is a distal latch member, 15 is an extruding cam member, and 16 is a proximal end side. A latch member, 17 is the same as the proximal end latch member, and 18 is a push cam member receiving knob. The notch 19 is the same as the push cam member receiving notch 18.   In FIG. 2A, the cable housing is shown at 20 and the cable housing The hanger is designated by the reference numeral 26, and the reference numeral 26 denotes a cam lock. Is indicated by reference numeral 28. FIG. 2B shows a hinge pin hole. further, FIG. 2A is a diagram of a PO marketed by DuPont under the registered trademark “DELRIN”. Showing a hinge mounting assembly 32 that can be formed from a rear acetal material; Please be careful.   In FIG. 4B, the housing (two bead bolts stamped from steel) Is designated by reference numeral 150, the hinge mount is designated by reference numeral 152, and the return The (spring mount) is designated by the reference numeral 154, and includes a cable and a housing. Is designated by reference numeral 156, the hinge for the shoe is designated by reference numeral 158, The moving slot housing is designated by reference numeral 160.   Finally, without the need for routine experimentation, equivalents in certain embodiments of the invention One of ordinary skill in the art will appreciate that an object can be used. The claims are It is intended to cover such equivalents.

[Procedural amendment] [Date of submission] June 23, 1998 (1998.6.23) [Contents of amendment] Claims 1. A solid foot portion with a solid base and a solid upper member for enclosing the user's leg, and a solid leg essentially surrounding the lower part of the user's leg and provided with rotating means A leg member connected to the foot portion via the rotating means to provide a forward leaning holding state of the user together with the foot portion; A release retention mechanism for changing the leg member to a substantially vertical release stop position resulting from a rearward force, the release retention mechanism being provided via a slot (68). An upper arm connector (54) engaged with the lower arm connector (56), wherein the release holding mechanism causes the rearward force to move the upper arm connector downward in the slot (68). Good, substantial The lower arm connector (56) and the upper arm connector (54) are brought into contact with each other until the leg of the user reaches the release stop position. Ski boots characterized by rotating the lower arm link and the upper arm link outward from the shoe. 2. The release holding mechanism according to claim 1, wherein : (a) the lower arm connector is connected to a lower cam (72) ; the lower cam is connected to a mounting bracket (74); The mounting bracket is connected to a lower cuff (108) of the shoe, the cam (72) is supported by a latch (73 ) rotatably connected to the lower portion of the shoe, and the cam (72) is the and can be adjusted to a position that is not supported by the latch, in such a position, it is possible to both of the upper shaft of the shoe (106) and shoe Star wrap (108), backward rotation, Preferably, the backward rotation brings the shoe into a state in which the angle of the lower part of the leg is about -12 to -15 degrees. (B) The holding position is about 12 to 15 degrees. The front is also a leaning position, One, the release stop position, characterized in that it is about 0 to-3 °, and, (c) wherein the outer rotation of the upper arm connector and the lower arm connector is pre-SL upper arm connector Characterized in that the release holding mechanism has one or more of the following features caused by contact between the lower end (62) of the upper arm (62) and the upper end (64) of the lower arm connection body. . 3 . The release and holding mechanism according to claim 1, wherein the plate (50) fixed to the shoe, and the plate and the upper arm coupling body (54), and the plate is fixed to the shoe. A biasing spring (52), a lower arm connector (56) rotatably connected to the upper arm connector via a slot (68), and a connection to the lower arm connector. A spring compression cap (70), an adjustment screw (60) connected to the spring compression cap, a compression nut (69) and an adjustment screw thrust plate (70) connected to the adjustment screw, and the adjustment screw A tension spring wound around the tension spring, the tension spring providing an upward force to the spring compression cap and a downward force to the compression nut (69). A spring (66), a lower cam (72) connected to the adjusting screw thrust plate, and a stirrup-mountable bracket (74) connected to the lower cam. And a rotation mechanism for rotating between a release position and a release position. 4. (A) the holding position is a forward leaning position of about 12 °, and the release position is substantially vertical; (b) the adjustment screw (60) in the release position as access is possible for the upward arm connector is a feature point that the aperture or space (58) is al provided, (c) the adjustment screw (60), said tension spring (66) feature point that forms the means of capable of changing the compression force, and, the feature point that the that provided to the tension spring (66) within one of; (d) adjusting screw (60) 4. The release holding mechanism according to claim 3 , wherein the release holding mechanism has a plurality of feature points . 5 . A ski boot for reducing knee damage when the ski boot exerts a forward force on a user's leg, comprising: a forward leaning ski position of up to about 15 °; a substantially vertical release position; A ski boot, comprising: a release holding mechanism for disposing a user over the ski, wherein the release holding mechanism includes a means for disposing the user in a backward inclined walking position. 6. (A) the feature that the backward inclined walking position is approximately −12 to −15 °, and (b) the feature that the substantially vertical position is approximately 0 to −3 ° . 6. The ski boot according to claim 5, comprising one or both of the characteristic points . 7 . A latch member for a holding release mechanism in a ski boot, comprising a cam cooperating with a locking body, the cam biasing the cam by a rearward force provided by a user, the rearward force being applied to the cam. The latch member is arranged so as to be disengaged from the locking body when the level is equal to or higher than a predetermined level. <8 . A plurality of members whose lengths can be compressed or changed when subjected to the rearward force, wherein the plurality of members include a plurality of movable members, an elastic spring member, and a rotation fixed on the movable member. A central arrangement and a second spring member fixed to the cam and the locking body, wherein the compression or change in the length of the latch member is arranged between the plurality of movable members. The latch member is rotatably disposed at a point radially located with respect to a rotation fixed point, and the latch member is fixed to the second spring member. The latch member according to claim 7 , wherein the spring compresses the spring member with a predetermined force until the cam is displaced from the locking body. 9 . A shaft in the form of a collar is articulated and includes at least one lower member for retaining the foot and heel, and coupling means comprising a latch interacting with a lock formed integrally with the lower member. The connecting means comprises means for rotatably connecting or releasing the shaft with respect to the lower member, and this means releases the latch and the locking body to enable skiing. Consisting of a cable provided with at least one closing buckle for disengaging the connecting means from each other by rotating all or part of the latch so as to bring the shoe into an upright walking state; Means for automatically releasing the latch when a potential danger is applied to the rear of the shaft, the means comprising: a resilient member; A proximal housing member connected to the shaft, a distal housing member that follows the proximal housing member in all directions other than compression of the elastic member, and a movable member along a compression axis of the elastic member. When the member rotatably connected to the proximal housing member by sufficient displacement of the elastic member abuts on the locking member, the locking member cooperates with the locking member. A front end member to be disengaged, and a boundary connected to the front end side housing member and biasing the latch by an eccentric action with respect to a compression shaft to disengage the latch from the locking body. A ski boot comprising: a member; 10. (A) said latch further comprises a plurality of members that can change in length was raw compressible when subjected to rearward force, the plurality of members, and a plurality of movable members, and the resilient spring member , the rotation center disposed fixed on the movable member, and a second split ring member fixed relative to the cam and the locking member, the compression or change in length of said latch member, said plurality Enabled by the compression of the elastic spring member disposed between the movable members of the movable member , the latch member is rotatably disposed at a point radially located with respect to a fixed rotation point , the latch member A feature that the cam fixed to the second spring member compresses the spring member with a predetermined force until the cam is displaced from the locking body . (B) The elastic member is connected via a cable. Said Feature points that are remotely consolidated against Ji mechanism, and, (c) the resilient member is a feature point that is housed within the user's heel, one or more features 10. The ski boot according to claim 9, comprising points . 11 . A ski boot comprising: a rotatable movable upper shaft; and a lower member that holds a foot and a heel, wherein the upper shaft is further provided with respect to the lower member that holds a foot and a heel. A detection mechanism comprising a cooperating locking body and a latch, which can be swung rearward, wherein the latch is disengaged from the locking body when a predetermined force is applied to the detection mechanism. Ski boots characterized by being done. 12 . The detection mechanism includes a spring and a movable member slidable in the axial direction, wherein the movable member cooperates with a cam member disposed in the latch, and the cam member is rotatable. The ski boot according to claim 11 , wherein the latch is urged so that the latch thus released comes off the locking body. [Procedural amendment] [Date of submission] February 19, 1999 (February 19, 1999) [Content of amendment] Claims 1. A solid foot portion with a solid base and a solid upper member for enclosing the user's leg, and a solid leg essentially for enclosing the lower part of the user's leg and provided with rotating means A leg member coupled to the foot portion via the rotating means to provide a forward leaning holding position of the user together with the foot portion; A release retention mechanism for changing the leg member to a substantially vertical release stop position resulting from a rearward force, the release retention mechanism being provided via a slot (68). An upper arm connector (54) engaged with the lower arm connector (56), wherein the release holding mechanism causes the rearward force to move the upper arm connector downward in the slot (68). Good, substantial The lower arm connector (56) and the upper arm connector (54) are brought into contact with each other until the leg of the user reaches the release stop position. Ski boots characterized by rotating the lower arm link and the upper arm link outward from the shoe. 2. The ski boot according to claim 1, wherein: (a) the lower arm linkage is connected to a lower cam (72); the lower cam is coupled to a mounting bracket (74); The mounting bracket is connected to a lower cuff (108) of the shoe; the cam (72) is supported by a latch (73) rotatably connected to the lower part of the shoe; It can be adjusted to a position not supported by the latch, in which position both the upper shaft (106) of the shoe and the stapler (108) of the shoe can rotate backwards, preferably The backward rotation causes the shoe to be in a state in which the angle of the lower part of the leg is about -12 to -15 °. (B) The holding position is about 12 to 15 ° in front. It ’s in a leaning position, And (c) the outward rotation of the upper arm connection body and the lower arm connection body is performed at a position where the release stop position is approximately 0 to -3 °. A ski boot comprising one or more of the following features: caused by contact between a lower end (62) and an upper end (64) of the lower arm coupling. 3. The ski boot according to claim 1, wherein the plate (50) fixed to the shoe, the plate and the upper arm coupling body (54), and the plate is attached to the shoe. A biasing spring (52), a lower arm connector (56) rotatably connected to the upper arm connector via a slot (68), and a lower arm connector (56) connected to the lower arm connector. A spring compression cap (70); an adjustment screw (60) connected to the spring compression cap; a compression nut (69) and an adjustment screw thrust plate (70) connected to the adjustment screw; A tension spring wound around the tension spring and providing a lifting force to the spring compression cap and a downward force to the compression nut (69). A lower cam (72) connected to the adjusting screw thrust plate; and a stirrup-mountable bracket (74) connected to the lower cam. A shoe that rotates between an open position and a release position. 4. (A) the holding position is a forward leaning position of about 12 °, and the releasing position is substantially vertical; (b) the adjusting screw (60) in the releasing position Characterized in that the upper arm coupling is provided with an opening or space (58) to allow access to the tension spring (66). And / or (d) the adjusting screw (60) is provided in the tension spring (66). The ski boot according to claim 3, comprising a plurality of feature points. 5. A ski boot for reducing knee damage when the ski boot exerts a forward force on a user's leg, comprising: a forward leaning ski position of up to about 15 °; a substantially vertical release position; A ski boot, comprising: a release holding mechanism for disposing a user over the ski, wherein the release holding mechanism includes a means for disposing the user in a backward inclined walking position. 6. (A) the feature that the backward inclined walking position is about −12 to −15 °, and (b) the feature that the substantially vertical position is about 0 to −3 °. 6. The ski boot according to claim 5, comprising one or both of the characteristic points. 7. A latch member for a holding release mechanism in a ski shoe, comprising a cam cooperating with a locking body, wherein the cam exerts a rearward force exerted by a user on the cam to exert a rearward force on the cam. The latch member is arranged so as to be disengaged from the locking body when is higher than a predetermined level. 8. A plurality of members whose lengths can be compressed or changed when subjected to the rearward force, wherein the plurality of members include a plurality of movable members, an elastic spring member, and a rotation fixed on the movable member. A central arrangement and a second spring member fixed to the cam and the locking body, wherein the compression or change in the length of the latch member is arranged between the plurality of movable members. The latch member is rotatably disposed at a point radially located with respect to a rotation fixed point, and the latch member is fixed to the second spring member. The latch member according to claim 7, wherein the spring compresses the spring member with a predetermined force until the cam is displaced from the locking body. 9. A shaft in the form of a collar is articulated and includes at least one lower member for retaining the foot and heel, and coupling means comprising a latch interacting with a lock formed integrally with the lower member. The connecting means comprises means for rotatably connecting or releasing the shaft to or from the lower member, the means releasing the latch and the locking body to facilitate the ski boot. A cable provided with at least one closing buckle for disengaging the coupling means from one another by rotating all or part of the latch so as to provide an upright walking state; and Means for automatically releasing the latch when a potential danger is applied to the rear part, comprising: an elastic member; A proximal housing member connected to the elastic member, a distal housing member following the proximal housing member in all directions other than the compression of the elastic member, and a movable member along a compression axis of the elastic member. When the member rotatably connected to the proximal housing member by sufficient displacement of the elastic member abuts on the locking member, the locking member cooperates with the locking member. A front end member to be disengaged, and a boundary connected to the front end side housing member and biasing the latch by an eccentric action with respect to a compression shaft to disengage the latch from the locking body. A ski boot comprising: a member; 10. (A) the latch further includes a plurality of members whose lengths can be compressed or changed when subjected to a rearward force, wherein the plurality of members include a plurality of movable members, an elastic spring member, A second spring member fixed to a cam and a locking member, wherein the compression or change in the length of the latch member is performed by the plurality of movable members. The latch member is rotatably disposed at a point radially positioned with respect to a fixed rotation point, and the latch member is configured to be rotatable by compression of the elastic spring member disposed between the latch members. (2) a feature that the cam fixed to the spring member compresses the spring member with a predetermined force until the cam is displaced from the locking body; (b) the elastic member is connected to the elastic member via a cable. One or more of the following features: (c) the elastic member is housed in a heel of a user; 10. The ski boot according to claim 9, comprising points. 11. A ski boot comprising: a rotatable movable upper shaft; and a lower member that holds a foot and a heel, wherein the upper shaft is further provided with respect to the lower member that holds a foot and a heel. A detection mechanism comprising a cooperating locking body and a latch, which can be swung rearward, wherein the latch is disengaged from the locking body when a predetermined force is applied to the detection mechanism. Ski boots characterized by being done. 12. The detection mechanism includes a spring and a movable member slidable in the axial direction, wherein the movable member cooperates with a cam member disposed in the latch, and the cam member is rotatable. The ski boot according to claim 11, wherein the latch is urged so that the latch thus released comes off the locking body.

Claims (1)

[Claims] 1. A solid foot with a solid base and solid top to surround the user's leg Part and   Essentially to surround the lower part of the user's leg and provided with rotating means A rigid leg member connected to the foot portion via the rotating means, A leg member, which together with the part provides a forward leaning hold of the user;   Substantially vertical resulting from a predetermined rearward force on the user's leg To a release stop position, a release holding mechanism for changing the leg member, Comprising,   The release holding mechanism is connected to the lower arm connector (56) through the slot (68). An engaged upper arm linkage (54);   The release holding mechanism is configured to apply the rearward force to the upper arm connecting body by the slot ( 68) to a substantial downward force, such as downward movement in The lower arm connector (56) and the upper arm connector (54) , And further until the leg of the user reaches the release stop position. Rotating the lower and upper arm links outward from the shoe; And ski boots characterized by the following. 2. The release holding mechanism according to claim 1,   The lower arm connector is connected to a lower cam (72);   The lower cam is connected to a mounting bracket (74),   The mounting bracket is connected to the lower cuff (108) of the shoe,   The cam (72) has a latch (73) rotatably connected to the lower part of the shoe. ),   The cam (72) can be adjusted to a position not supported by the latch. In such a position, the upper shaft (106) of the shoe and the Release protection characterized in that both wraps (108) can rotate backwards Holding mechanism. 3. The release holding mechanism according to claim 1,   The holding position is a forward leaning position of about 12 to 15 °,   The release holding mechanism is characterized in that the release stop position is approximately 0-3 °. 4. Due to the backward rotation, the shoe has an angle of about −12 to −15 ° at the lower part of the leg. The release holding mechanism according to claim 2, wherein the release holding mechanism is in a certain state. 5. The release holding mechanism according to claim 1,   The outward rotation of the upper arm connector and the lower arm connector is performed by Contact between the lower end (62) of the side arm connector and the upper end (64) of the lower arm connector A release holding mechanism characterized by being caused by: 6. The release holding mechanism according to claim 1,   A plate (50) fixed to the shoe;   Connected to the plate and the upper arm connector (54), and A spring (52) for biasing the seat against the shoe;   The upper arm connector is rotatably connected to the upper arm connector via a slot (68). A lower arm connector (56);   A spring compression cap (70) connected to the lower arm connector;   An adjusting screw (60) connected to the spring compression cap;   A compression nut (69) connected to the adjusting screw and an adjusting screw thrust plate; (70)   A tension spring which is wound around the adjustment screw; In addition to applying a lifting force to the compression cap, a downward force is also applied to the compression nut (69). With Zhang Kaspring (66)   A lower cam (72) connected to the adjusting screw thrust plate;   A stirrup-mounted bracket (74) connected to the lower cam; With   Wherein the bracket rotates between a holding position and a releasing position. Release holding mechanism. 7. The holding position is a forward leaning position of about 12 °,   7. The release protection according to claim 6, wherein the release position is substantially vertical. Holding mechanism. 8. In the release position, the adjustment screw (60) is accessible. As such, the upper arm linkage is provided with an opening or space (58). 7. The release holding mechanism according to claim 6, wherein: 9. The adjusting screw (60) may change the compression force of the tension spring (66). 7. The release and holding mechanism according to claim 6, wherein the releasing and holding mechanism comprises means for performing the following. 10. The adjusting screw (60) is provided in the tension spring (66). 7. The release holding mechanism according to claim 6, wherein: 11. Reduces knee damage when ski boots exert forward force on the user's leg Ski boots,   Up to about 15 ゜ leaning forward ski position and a substantially vertical release position Equipped with a release holding mechanism to place the user across,   The release and holding mechanism includes means for positioning the user in a rearwardly inclined walking position. Ski boots characterized by being. 12. The backward inclined walking position is about -12 to -15 °. The ski boot according to claim 11. 13. The substantially vertical position is about 0-3 °. 12. The ski boot according to 11. 14． A latch member for a holding release mechanism in a ski boot,   Equipped with a cam that cooperates with the locking body,   The cam is driven by a rearward force provided by the user biasing the cam, When the forcible force is equal to or higher than a predetermined level, the engagement is released from the locking body. And a latch member. 15. A plurality of lengths that can be compressed or changed when subjected to said rearward force With members of   The plurality of members include a plurality of movable members, an elastic spring member, and the movable portion. A rotation center fixed on the material, and a second switch fixed on the cam and the locking body. And a pulling member,   The compression or change in the length of the latch member is performed between the plurality of movable members. Enabled by the compression of the arranged elastic spring member,   The latch member rotates with respect to a point located in a radial direction with respect to a rotation fixed point. Placed as possible,   The latch member is configured such that the cam fixed to the second spring member includes Until the spring member is displaced from the stationary body, the spring member is compressed with a predetermined force. The latch member according to claim 14, wherein: 16. A collar-shaped shaft is articulated to hold the foot and heel At least one lower member,   Connecting means comprising a latch interacting with a locking body integrally formed on the lower member; Comprising,   The connecting means rotatably connects or disconnects the shaft to the lower member. Means for removing   This means releases the latch and the locking body to easily upright the ski boot. By rotating all or part of the latch so as to enter the walking state, A cable provided with at least one closing buckle for disconnecting the connecting means from each other Bull,   When a dangerous force is applied to the rear of the shaft by the user's legs Means for automatically releasing said latch,   This means comprises: an elastic member;   A proximal housing member connected to the upper shaft;   Follows the proximal housing member in all directions except compression of the elastic member A tip side housing member,   While cooperating with the locking body movable along the compression axis of the elastic member, The elastic member is rotatably connected to the proximal housing member by a sufficient displacement of the elastic member. A tip that is disengaged from the locking body when the set member contacts the locking body. Components,   Work connected to the distal end side housing member and eccentric to the compression shaft The latch may be disengaged from the locking body by urging the latch. Field members, Ski boots characterized by comprising: 17． The latch may further be compressible or variable in length when subjected to a rearward force. With a plurality of members that can be   The plurality of members include a plurality of movable members, an elastic spring member, and a And a second split fixed to the cam and the locking body. And a bearing member,   The compression or change in the length of the latch member is performed between the plurality of movable members. Enabled by the compression of the arranged elastic spring member,   The latch member rotates with respect to a point located in a radial direction with respect to a rotation fixed point. Placed as possible,   The latch member is configured such that the cam fixed to the second spring member includes Until the spring member is displaced from the stationary body, the spring member is compressed with a predetermined force. 17. The ski boot according to claim 16, wherein: 18. The elastic member is remotely connected to the latch mechanism via a cable. 17. The ski boot according to claim 16, wherein the boot is tied. 19. The elastic member is housed in a heel of a user. The ski boot according to claim 16. 20. A rotatable movable upper shaft, a lower member that holds the foot and the heel, A ski boot comprising:   Further move the upper shaft against the lower member holding the foot and heel. Detection mechanism comprising a cooperating locking body and a latch, which can be swung rearwardly With   When a predetermined force is applied to the detection mechanism, the latch is released from the locking body. A ski boot characterized by being biased to be urged. 21. The detection mechanism includes a spring and a movable member slidable in the axial direction. Equipped,   The movable member cooperates with a cam member disposed within the latch;   The cam member is configured so that the rotatable latch comes off the locking body. 21. The ski boot of claim 20, wherein the latch is biased.