阅读说明：本技术 一种滑雪板与滑雪靴用防脱离结构及其使用方法 (Separation-preventing structure for snowboard and snowboard boot and using method thereof ) 是由 缪一妍 缪晓峰 于 2021-08-14 设计创作，主要内容包括：本发明涉及滑雪设备领域,具体为一种滑雪板与滑雪靴用防脱离结构及其使用方法,包括设置在滑雪板上得卡爪机构,卡爪机构用来将滑雪靴固定在滑雪板上,且卡爪机构上设置有止退组件；缓冲机构,缓冲机构分别与卡爪机构、滑雪靴向连接,且滑雪靴可通过缓冲机构对卡爪机构驱动并使得卡爪机构进一步的对滑雪靴夹紧,缓冲机构可用来对滑雪靴起到缓冲减震的作用；泄压机构,泄压机构设置在缓冲机构上,且缓冲机构与泄压机构气动连接。该种滑雪板与滑雪靴用防脱离结构及其使用方法,方便滑雪靴安装在滑雪板上或者从滑雪板上取下,操作简单便捷,十分方便,并能够避免滑雪靴与滑雪板松动脱离,提高滑雪运动时的安全性,降低滑雪运动受伤的可能性。(The invention relates to the field of skiing equipment, in particular to a separation-preventing structure for a ski and a ski boot and a using method thereof, which comprises a jaw mechanism arranged on the ski, wherein the jaw mechanism is used for fixing the ski boot on the ski, and a backstop assembly is arranged on the jaw mechanism; the buffering mechanism is respectively connected with the jaw mechanism and the ski boot, the ski boot can drive the jaw mechanism through the buffering mechanism and further clamp the ski boot through the jaw mechanism, and the buffering mechanism can be used for buffering and damping the ski boot; and the pressure relief mechanism is arranged on the buffer mechanism, and the buffer mechanism is pneumatically connected with the pressure relief mechanism. The anti-separation structure for the snowboard and the snowboard boot and the use method thereof facilitate the installation of the snowboard boot on the snowboard or the removal of the snowboard boot from the snowboard, are simple, convenient and very convenient to operate, can avoid the loosening and separation of the snowboard boot from the snowboard, improve the safety during the skiing movement and reduce the possibility of injury of the skiing movement.)

1. A snowboard and ski boot are with preventing breaking away from structure which characterized in that: the method comprises the following steps:

the jack catch mechanism is arranged on the snowboard and used for fixing the snowboard boot on the snowboard, and the jack catch mechanism is provided with the backstop assembly;

the buffering mechanism is respectively connected with the jaw mechanism and the ski boot, the ski boot can drive the jaw mechanism through the buffering mechanism and further clamp the ski boot through the jaw mechanism, and the buffering mechanism can be used for buffering and damping the ski boot;

and the pressure relief mechanism is arranged on the buffer mechanism, and the buffer mechanism is pneumatically connected with the pressure relief mechanism.

2. A snowboard and ski boot separation prevention structure as claimed in claim 1, wherein: the clamping jaw mechanism comprises an embedded groove (1) formed in the ski and a power clamping block (22) fixed at the bottom of the ski boot, the clamping block (22) is matched with the embedded groove (1), and the clamping block (22) can be inserted into the embedded groove (1).

3. A snowboard and ski boot separation prevention structure as claimed in claim 2, wherein: the symmetrical formula of both ends department of caulking groove (1) is provided with two bead (2), bead (2) are the U shape to fix on the ski, two bead (2) opening sets up relatively, and two tip of caulking groove (1) are located two respectively the opening of bead (2) is inboard.

4. A snowboard and ski boot detachment prevention structure as claimed in claim 3, wherein: a sliding sleeve (8) is fixed in the middle of each convex rib (2), a second sliding rod (7) is inserted and slidably connected in the sliding sleeve (8), a stopping assembly is arranged on the outer side wall of the sliding sleeve (8), the second sliding rod (7) is fixedly connected with two second connecting rods (9) in a fixed-axis manner and points to the inner side of the corresponding convex rib (2), a sliding frame (4) is fixed on the inner side of the end part of each convex rib (2), a first sliding rod (5) penetrates through and is slidably connected onto the sliding frame (4), one end, pointing to the embedding groove (1), of the first sliding rod (5) is vertical and is fixedly connected with a clamping strip (6), the clamping strip (6) corresponds to a clamping groove (27) formed in the side wall of each clamping block (22), and the clamping strip (6) can be inserted into the corresponding clamping groove (27);

the inner sides of the convex edges (2) are provided with shaft rods (13), the shaft rods (13) are fixed on a snowboard, fixed shafts on the shaft rods (13) are rotatably connected to the middle parts of the two third connecting rods (10), the two third connecting rods (10) are arranged in an X shape in a crossed mode, one ends, far away from the second sliding rods (7), of the two second connecting rods (9) are respectively hinged to the end parts, close to the second sliding rods (7), of the two third connecting rods (10), one ends, far away from the second connecting rods (9), of the three connecting rods (10) are hinged to the first connecting rods (3), one ends, far away from the third connecting rods (10), of the first connecting rods (3) are rotatably connected with the third sliding rods (12) in a fixed shaft mode, the third sliding rods (12) are slidably connected to the corresponding sliding frames (4), and the third sliding rods (12) are hinged to the corresponding clamping strips (6) through the fourth connecting rods (11); the stopping assembly comprises a lock box (14) fixed on the outer side wall of the sliding sleeve (8), a groove plate (16) is connected to the inside of the lock box (14) in a sliding mode, the groove plate (16) is connected with one end, far away from the sliding sleeve (8), of the lock box (14) through a spring I (15), and a locking rod (20) is fixed to one end, far away from the spring I (15), of the groove plate (16).

5. A snowboard and ski boot separation prevention structure as claimed in claim 4, wherein: the locking rod (20) penetrates through and is connected with the side walls of the lock box (14) and the sliding sleeve (8) in a sliding mode, one end, far away from the groove plate (16), of the locking rod (20) is in a wedge shape, the wedge surface faces the inner side of the convex rib (2), and the wedge end of the locking rod (20) can be inserted into a buckling groove (21) formed in the side wall of the second sliding rod (7).

6. A ski-and-ski boot detachment prevention structure as claimed in claim 5, wherein: the improved lock is characterized in that a sliding groove (17) is formed in the groove plate (16), a pull rod (18) penetrates through and is connected to the side wall of the lock box (14) in a sliding mode, a pin rod (19) is fixed to one end, located inside the lock box (14), of the pull rod (18), and the pin rod (19) is inserted into the sliding groove (17) and can slide in the sliding groove (17).

7. A snowboard and ski boot separation prevention structure as claimed in claim 4, wherein: the buffering mechanism comprises a sliding barrel (24), a piston plate (28) is connected to the inside of the sliding barrel (24) in a sliding mode, the piston plate (28) is connected with the bottom of the sliding barrel (24) through a second spring (29), one side, away from the second spring (29), of the piston plate (28) is perpendicular to and fixedly connected with a fourth sliding rod (25), one end, away from the piston plate (28), of the fourth sliding rod (25) is hinged to a lug (23) fixed to the ski boot, one end, away from the fourth sliding rod (25), of the sliding barrel (24) is fixedly provided with a fifth connecting rod (26), and one end, away from the sliding barrel (24), of the fifth connecting rod (26) is hinged to one end, away from the inner side of the convex rib (2), of the second sliding rod (7); the pressure relief mechanism comprises a pressure relief cylinder (31) fixed on the side wall of the sliding cylinder (24), the pressure relief cylinder (31) is communicated with the sliding cylinder (24), a sealing plug (32) is fixed inside the pressure relief cylinder (31), and a support rod (33) is fixed on the inner wall of one end, far away from the sliding cylinder (24), of the pressure relief cylinder (31).

8. A snowboard and ski boot detachment prevention structure as claimed in claim 7, wherein: the support rod (33) is connected with a plug (35) through a spring III (34), and the plug (35) can plug the sealing plug (32).

9. A snowboard and ski boot detachment prevention structure as claimed in claim 8, wherein: the pressure relief mechanism further comprises a one-way valve (30) fixed on the sliding cylinder (24), and the conduction direction of the one-way valve (30) points to the inside of the sliding cylinder (24).

10. A method of using a ski-and-boot anti-release structure as claimed in any one of claims 1 to 9, wherein: the method comprises the following steps:

the method comprises the following steps: the ski boot is tightly clamped and fixed on the ski through the jaw mechanism, and the buffer mechanism is connected with the ski boot and the jaw mechanism;

step two: when skiing is carried out, the ski boot drives the jaw mechanism to further clamp and fix the ski boot through the buffer mechanism, and the buffer mechanism plays a role in buffer protection;

step three: the buffering mechanism is separated from the ski boot and the jaw mechanism, and the limit of the jaw mechanism is released through the retaining assembly, so that the jaw mechanism loosens the ski boot, and the ski boot is convenient to take down from a ski.

Technical Field

The invention relates to the field of skiing equipment, in particular to a separation-preventing structure for a ski and a ski boot and a using method thereof.

Background

Existing snowboards and snowboard boots are typically designed to be detachable so that they are easy to wear. In the process of existing skiing sports, when a skier performs actions such as speed, jumping, downhill and the like, the ski boot is connected with the ski unstably due to the fact that the ski is impacted, so that the ski boot is separated from the ski, life safety of the skier is harmed, and the ski boot is dangerous.

Disclosure of Invention

The present invention is directed to a separation preventing structure for a snowboard and a snowboard boot and a method for using the same, which solve the problems of the related art. In order to achieve the purpose, the invention provides the following technical scheme: a ski and ski boot separation prevention structure comprises a jaw mechanism arranged on a ski, wherein the jaw mechanism is used for fixing the ski boot on the ski, and a backstop assembly is arranged on the jaw mechanism;

the buffering mechanism is respectively connected with the jaw mechanism and the ski boot, the ski boot can drive the jaw mechanism through the buffering mechanism and further clamp the ski boot through the jaw mechanism, and the buffering mechanism can be used for buffering and damping the ski boot;

and the pressure relief mechanism is arranged on the buffer mechanism, and the buffer mechanism is pneumatically connected with the pressure relief mechanism.

Preferably, the clamping jaw mechanism comprises a caulking groove formed in the ski and a clamping block fixed at the bottom of the ski boot, the clamping block is matched with the caulking groove, the clamping block can be inserted into the caulking groove, two protruding edges are symmetrically arranged at two ends of the caulking groove, the protruding edges are U-shaped and fixed on the ski boot, openings of the two protruding edges are oppositely formed, and two end portions of the caulking groove are respectively located on the inner sides of the openings of the two protruding edges.

Preferably, a sliding sleeve is fixed in the middle of each convex edge, a sliding rod II is connected in the sliding sleeve in an inserting and sliding mode, a stopping assembly is arranged on the outer side wall of the sliding sleeve, two ends, corresponding to two directions, of each sliding rod, of the inner side of each convex edge are connected with two connecting rods II in a fixed-axis rotating mode, a sliding frame is fixed on the inner side of the end portion of each convex edge, a sliding rod I penetrates through the sliding frame and is connected with the sliding rod I in a sliding mode, one end, corresponding to the corresponding embedded groove, of each sliding rod I is perpendicular to and fixedly connected with a clamping strip, the clamping strip corresponds to a clamping groove formed in the side wall of the clamping block, and the clamping strips can be inserted into the corresponding clamping grooves.

Preferably, the shaft lever is arranged on the inner side of the convex edge and fixed on the snowboard, the fixed shaft on the shaft lever is rotatably connected to the middle parts of the two third connecting rods, the two third connecting rods are arranged in an X shape in a crossed mode, one ends, far away from the second sliding rod, of the two second connecting rods are respectively hinged to the end parts, close to the second sliding rod, of the two third connecting rods, one ends, far away from the second connecting rods, of the three connecting rods are hinged to the first connecting rod, one end, far away from the third connecting rod, of the first connecting rod is rotatably connected with the third sliding rod in a fixed shaft mode, the three sliding rods are slidably connected to the corresponding sliding frames, and the three sliding rods are hinged to the corresponding clamping strips through the fourth connecting rod.

Preferably, the stopping assembly comprises a lock box fixed on the outer side wall of the sliding sleeve, a groove plate is slidably connected inside the lock box, the groove plate is connected with one end, away from the sliding sleeve, of the lock box through a first spring, a locking rod is fixed at one end, away from the first spring, of the groove plate, the locking rod penetrates through and is slidably connected with the side walls of the lock box and the sliding sleeve, one end, away from the groove plate, of the locking rod is in a wedge shape, the wedge face faces towards the inner side of the convex edge, and the wedge end of the locking rod can be inserted into a buckling groove formed in the two side walls of the sliding rod.

Preferably, the chute has been seted up on the frid, runs through and sliding connection has the pull rod on the lateral wall of lock box, and the one end that the pull rod is located lock box inside is fixed with the pin pole, and the pin pole is pegged graft in the chute and can slide in the chute.

Preferably, the buffering mechanism comprises a sliding barrel, a piston plate is connected to the inside of the sliding barrel in a sliding mode, the piston plate is connected with the bottom of the sliding barrel through a second spring, one side, away from the second spring, of the piston plate is perpendicular and fixedly connected with a fourth sliding rod, one end, away from the piston plate, of the fourth sliding rod is hinged to a lug fixed on the ski boot, a fifth connecting rod is fixed to one end, away from the fourth sliding rod, of the sliding barrel, and one end, away from the sliding barrel, of the fifth connecting rod is hinged to one end, away from the inner side of a convex edge, of the second sliding rod.

Preferably, the pressure relief mechanism comprises a pressure relief barrel fixed on the side wall of the sliding barrel, the pressure relief barrel is communicated with the sliding barrel, a sealing plug is fixed inside the pressure relief barrel, a support rod is fixed on the inner wall of one end, far away from the sliding barrel, of the pressure relief barrel, the support rod is connected with the plug through a third spring, and the plug can plug the sealing plug.

Preferably, the pressure relief mechanism further comprises a one-way valve fixed on the sliding cylinder, and the conduction direction of the one-way valve points to the inside of the sliding cylinder.

A method of using a snowboard and ski boot separation prevention structure, comprising the steps of:

the method comprises the following steps: the ski boot is tightly clamped and fixed on the ski through the jaw mechanism, and the buffer mechanism is connected with the ski boot and the jaw mechanism;

step two: when skiing is carried out, the ski boot drives the jaw mechanism to further clamp and fix the ski boot through the buffer mechanism, and the buffer mechanism plays a role in buffer protection;

step three: the buffering mechanism is separated from the ski boot and the jaw mechanism, and the limit of the jaw mechanism is released through the retaining assembly, so that the jaw mechanism loosens the ski boot, and the ski boot is convenient to take down from a ski.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, when skiing is carried out, the ski boot is tightly clamped and fixed on the ski through the clamping jaw mechanism, the buffer mechanism is connected with the ski boot and the clamping jaw mechanism, after skiing is finished, when the ski boot and the ski are not used, the buffer mechanism is separated from the ski boot and the clamping jaw mechanism, and the limit of the clamping jaw mechanism is released through the retaining assembly, so that the clamping jaw mechanism loosens the ski boot, the ski boot is convenient to take off from the ski, the ski boot is convenient to mount on the ski or take off from the ski, and the operation is simple, convenient and very convenient.

In the invention, in the skiing process, the impact on the ski boots and the skis drives the jaw mechanism to further clamp and fix the ski boots through the buffer mechanism, so that the ski boots and the skis are prevented from loosening and separating, the safety of skiers during skiing is improved, the buffer mechanism plays a role in buffering and protecting after the ski boots and the skis are impacted, the possibility of injury in skiing is reduced, and the use safety of the ski boots and the skis is improved.

Drawings

FIG. 1 is a top view of the final assembly structure of the present invention;

FIG. 2 is a side view of the final assembly structure of the present invention;

FIG. 3 is an enlarged view of the first cross-section of FIG. 1;

FIG. 4 is an enlarged cross-sectional view A of FIG. 1;

FIG. 5 is a schematic view of a cross-sectional structure B-B in FIG. 2;

FIG. 6 is a schematic cross-sectional view of the slide cartridge of the present invention;

fig. 7 is an enlarged sectional view of the structure of fig. 6 at C.

In the figure: 1. caulking grooves; 2. a rib; 3. a first connecting rod; 4. a carriage; 5. a first sliding rod; 6. clamping the strip; 7. a second sliding rod; 8. a sliding sleeve; 9. a second connecting rod; 10. a third connecting rod; 11. a connecting rod IV; 12. a third sliding rod; 13. a shaft lever; 14. a lock case; 15. a first spring; 16. a groove plate; 17. a chute; 18. a pull rod; 19. a pin rod; 20. a lock lever; 21. buckling grooves; 22. a clamping block; 23. a lug; 24. a slide cylinder; 25. a slide bar IV; 26. a fifth connecting rod; 27. a card slot; 28. a piston plate; 29. a second spring; 30. a one-way valve; 31. a pressure relief cylinder; 32. a sealing plug; 33. a strut; 34. a third spring; 35. and (7) a plug.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Both snowboards and snowboard boots are now detachable structures that facilitate wearing. In the course of a skiing sport, when a skier performs actions such as speed, jumping, and downhill, the ski is easily connected to the ski boot under impact, and the ski boot is separated from the ski boot by loosening, which jeopardizes the life safety of the skier.

Referring to fig. 1 to 7, the present invention provides a technical solution: a ski and ski boot separation prevention structure comprises a jaw mechanism arranged on a ski, wherein the jaw mechanism is used for fixing the ski boot on the ski, and a backstop assembly is arranged on the jaw mechanism;

the buffering mechanism is respectively connected with the jaw mechanism and the ski boot, the ski boot can drive the jaw mechanism through the buffering mechanism and further clamp the ski boot through the jaw mechanism, and the buffering mechanism can be used for buffering and damping the ski boot;

and the pressure relief mechanism is arranged on the buffer mechanism, and the buffer mechanism is pneumatically connected with the pressure relief mechanism.

In this embodiment, as shown in fig. 1, fig. 2 and fig. 5, the jaw mechanism includes a slot 1 formed on the snowboard and a locking block 22 fixed at the bottom of the snowboard boot, the locking block 22 is adapted to the slot 1, and the locking block 22 is inserted into the slot 1, two protruding ribs 2 are symmetrically arranged at two ends of the slot 1, the protruding ribs 2 are U-shaped and fixed on the snowboard, two openings of the protruding ribs 2 are oppositely arranged, two ends of the slot 1 are respectively located at the inner sides of the two openings of the protruding ribs 2, and the slot 1 and the locking block 22 are used in cooperation, so as to position the snowboard boot on the snowboard.

In this embodiment, as shown in fig. 1 and 5, a sliding sleeve 8 is fixed in the middle of the protruding rib 2, a second sliding rod 7 is inserted into the sliding sleeve 8 and is connected to the sliding sleeve 8 in a sliding manner, a stopping assembly is arranged on the outer side wall of the sliding sleeve 8, the second sliding rod 7 is connected to two second connecting rods 9 in a fixed-axis rotating manner pointing to the inner sides of the corresponding protruding rib 2, a sliding frame 4 is fixed on the inner side of the end portion of the protruding rib 2, a first sliding rod 5 penetrates through and is connected to the sliding frame 4 in a sliding manner, one end of the first sliding rod 5 pointing to the insertion groove 1 is vertical and is fixedly connected to the clamping strip 6, the clamping strip 6 corresponds to the clamping groove 27 formed in the side wall of the clamping block 22, the clamping strip 6 can be inserted into the corresponding clamping groove 27, and the first sliding rod 5 plays a role in keeping the moving stability of the clamping strip 6.

In this embodiment, as shown in fig. 1, a shaft rod 13 is disposed inside the rib 2, the shaft rod 13 is fixed on the snowboard, the shaft rod 13 is pivotally connected to the middle of two third connecting rods 10, the two third connecting rods 10 are arranged in an X-shape in a crossed manner, one end of each of the two second connecting rods 9, which is far away from the second sliding rod 7, is respectively hinged to the end portions of the two third connecting rods 10, which are close to the second sliding rod 7, one end of each of the three connecting rods 10, which is far away from the second connecting rod 9, is hinged to a first connecting rod 3, one end of each of the first connecting rod 3, which is far away from the third connecting rod 10, is pivotally connected to a third sliding rod 12, the third sliding rod 12 is slidably connected to the corresponding carriage 4, and the third sliding rod 12 is hinged to the corresponding clamping strip 6 through a fourth connecting rod 11.

In this embodiment, as shown in fig. 1, 3 and 4, the anti-back assembly includes a lock box 14 fixed on the outer side wall of the sliding sleeve 8, a slot plate 16 is slidably connected inside the lock box 14, the slot plate 16 is connected with one end of the lock box 14 far away from the sliding sleeve 8 through a spring one 15, one end of the slot plate 16 far away from the spring one 15 is fixed with a lock rod 20, the lock rod 20 penetrates and slidably connects the side walls of the lock box 14 and the sliding sleeve 8, one end of the lock rod 20 far away from the slot plate 16 is wedge-shaped, the wedge-shaped surface faces the inner side of the rib 2, the wedge-shaped end of the lock rod 20 can be inserted into a catching groove 21 formed on the side wall of the sliding rod two 7, a sliding slot 17 is formed on the slot plate 16, a pull rod 18 penetrates and slidably connects the side wall of the lock box 14, one end of the pull rod 18 located inside the lock box 14 is fixed with a pin rod 19, the pin rod 19 is inserted into the sliding slot 17 and can slide in the sliding slot 17, the lock rod 20 prevents the sliding rod two sliding rod 7 from moving towards the inner side of the rib 2, can only move towards the outer side of the convex edge 2, ensures that the clamping strip 6 cannot be separated from the clamping block 22, and further increases the connection stability of the ski boot and the ski.

In this embodiment, as shown in fig. 2 and 6, the buffering mechanism includes a sliding barrel 24, a piston plate 28 is slidably connected inside the sliding barrel 24, the piston plate 28 is connected to the bottom of the sliding barrel 24 through a second spring 29, one side of the piston plate 28 facing away from the second spring 29 is perpendicular to and fixedly connected with a fourth sliding rod 25, one end of the fourth sliding rod 25 away from the piston plate 28 is hinged to a lug 23 fixed on the ski boot, one end of the sliding barrel 24 away from the fourth sliding rod 25 is fixed with a fifth connecting rod 26, one end of the fifth connecting rod 26 away from the sliding barrel 24 is hinged to one end of the second sliding rod 7 away from the inner side of the rib 2, the buffering mechanism buffers the ski boot and the ski boot, thereby improving the function of protecting the legs of the skiers, reducing the possibility of injury in skiing, thereby improving the safety of the snowboard and the ski boot and further cushioning the air in the sliding tube 24.

In this embodiment, as shown in fig. 6 and 7, the pressure relief mechanism includes a pressure relief cylinder 31 fixed on a side wall of the sliding cylinder 24, the pressure relief cylinder 31 is communicated with the sliding cylinder 24, a sealing plug 32 is fixed inside the pressure relief cylinder 31, a support rod 33 is fixed on an inner wall of one end of the pressure relief cylinder 31 far away from the sliding cylinder 24, the support rod 33 is connected with a plug 35 through a third spring 34, the plug 35 can plug the sealing plug 32, the pressure relief mechanism further includes a one-way valve 30 fixed on the sliding cylinder 24, a conduction direction of the one-way valve 30 points to the inside of the sliding cylinder 24, the pressure relief mechanism enables air inside the sliding cylinder 24 to be compressed under a large impact force, pressure can be automatically relieved, the sliding cylinder 24 is protected, a certain air storage capacity can be always maintained in the sliding cylinder 24, air inside the sliding cylinder 24 can be ventilated, a cooling effect is achieved, and an air buffering effect is ensured.

The use method and the advantages of the invention are as follows: when the anti-disengaging structure for the snowboard and the snowboard boot is used, the working process is as follows:

the method comprises the following steps: when the ski boot and the snowboard are used for skiing, as shown in figures 1, 2 and 3, the block 22 at the bottom of the ski boot is inserted into the embedded groove 1, and then the sliding rod II 7 is pulled towards the outer side of the convex rib 2. The second sliding rod 7 applies a pulling force to one end of the second connecting rod three 10 pointing to the sliding sleeve 8 through the second connecting rod 9 in the process of moving to the outer side of the rib 2, so that the end parts of the second connecting rod three 10 pointing to the sliding sleeve 8 are close to each other, further, the end parts of the second connecting rod three 10 far from the sliding sleeve 8 are close to each other according to the remote knowledge of the lever, in the process that the end parts of the second connecting rod three 10 far from the sliding sleeve 8 are close to each other, the third connecting rod 10 applies a pushing force to the third sliding rod 12 through the first connecting rod 3, so that the third sliding rod 12 is close to the first sliding rod 5 on the sliding frame 4, further, the third sliding rod 12 applies a pushing force to the clamping strip 6 through the fourth connecting rod 11, the clamping strip 6 is clamped in the corresponding clamping groove 27 on the clamping block 22, and therefore, the clamping block 22 is fixed in the embedding groove 1 on the snowboard through the clamping strip 6 and the clamping groove 27, and further, the snowboard boot is fixed on the snowboard, the operation is simple and convenient;

as described above, in the process that the second sliding rod 7 moves to the outside of the rib 2, as shown in fig. 3 and 4, the catching groove 21 on the second sliding rod 7 applies a pushing force to the wedge-shaped surface of the locking rod 20, so that the locking rod 20 moves into the lock box 14, and further the locking rod 20 compresses the first spring 15 through the groove plate 16, so that the first spring 15 obtains a restoring force, when the second sliding rod 7 moves to the point that the clamping strip 6 clamps the clamping block 22, the movement of the second sliding rod 7 is stopped at this time, the groove plate 16 pushes the locking rod 20 to move into the sliding sleeve 8 under the restoring force of the first spring 15, and the wedge-shaped end of the locking rod 20 is inserted into the corresponding catching groove 21, so that the second sliding rod 7 cannot move into the rib 2, and can only move to the outside of the rib 2, and the clamping strip 6 cannot be separated from the clamping block 22, thereby increasing the connection stability of the snowboard boot and the snowboard;

then, the sliding rod IV 25 is hinged with the lug 23 through a pin buckle or a bolt component, and the connecting rod V26 is hinged with the sliding rod II 7, so that the fixed installation of the ski boot and the ski is completed, and the operation is simple, convenient and very convenient;

step two: after the installation procedure in the first step is completed, when a skier skis the ski boot and the ski boot, the ski boot applies a pushing force to the second sliding rod 7 through the buffer mechanism after encountering an impact, so that the second sliding rod 7 moves towards the outer side of the rib 2, the second sliding rod 7 applies a pulling force to one end, pointing to the sliding sleeve 8, of the third connecting rod 10 through the second connecting rod 9, so that the end parts, pointing to the sliding sleeve 8, of the third connecting rod 10 are close to each other, so that the end parts, far away from the sliding sleeve 8, of the third connecting rod 10 are close to each other, and in the process that the end parts, far away from the sliding sleeve 8, of the third connecting rod 10 are close to each other, so that the third sliding rod 12 is further close to the first sliding rod 5 on the sliding frame 4, so that the third sliding rod 12 further applies a pushing force to the clamping strip 6 through the fourth connecting rod 11, so that the clamping strip 6 is further applied to the ski boot, After the ski is impacted, the bottom block 22 is clamped and fixed further, so that the ski boot is prevented from being separated from the ski, the safety of a skier during skiing sports is improved, and after the ski boot and the ski are impacted, the piston plate 28 is pressed through the slide rod four 25, so that the piston plate 28 slides in the sliding barrel 24 and is compressed through the spring two 29, so that the spring two 29 buffers the buffering of the ski boot and the ski, the leg of the skier is protected, the possibility of injury of skiing sports is reduced, and the use safety of the ski boot and the ski boot is improved;

as described above, the piston plate 28 compresses the second spring 29 and compresses the air in the sliding tube 24, so that the air ski boot and the ski board further play a role of buffering and damping, and when the impact is large, the air in the sliding tube 24 is compressed to a greater degree and has a greater pressure, as shown in fig. 7, so that the air pressure applies a pushing force to the plug 35, so that the plug 35 compresses the third spring 34, so that the third spring 34 obtains a restoring force, and at the same time, the plug 35 does not plug the sealing plug 32, so that the air compressed in the sliding tube 24 can be discharged, so that the sliding tube 24 is protected, when the piston plate 28 is reset under the restoring force of the second spring 29, the pressure in the sliding tube 24 is reduced and a suction force is generated, so that the plug 35 plugs the sealing plug 32 again under the restoring force of the third spring 34, and since the conduction direction of the check valve 30 is directed to the sliding tube 24, therefore, external air enters the sliding cylinder 24 to be supplemented under the action of the suction force, so that the air in the sliding cylinder 24 can be exchanged, the sliding cylinder 24 is cooled, a certain air storage amount in the sliding cylinder 24 can be kept all the time, and the air buffering effect is ensured;

step three: when the ski boot and the ski are disassembled, the buffer mechanism is taken down, the pull rod 18 is stretched outwards, the pull rod 18 applies pulling force to the side wall of the sliding groove 17 through the pin rod 19, so that the sliding plate 16 drives the lock rod 20 to move towards the lock box 14, the lock rod 21 is separated from the buckle groove 21, the limit of the slide rod two 7 is released, the slide rod two 7 can move towards the inside of the convex edge 2, the slide rod two 7 applies pushing force to one end, pointing to the sliding sleeve 8, of the two connecting rods three 10 through the two connecting rods two 9, so that the ends, pointing to the sliding sleeve 8, of the two connecting rods three 10 are far away from each other, the ends, far away from the sliding sleeve 8, of the two connecting rods three 10 are far away from each other, in the process that the ends, far away from the sliding sleeve 8, of the two connecting rods three 10 apply pulling force to the slide rod three 12 through the connecting rod one 3, so that the slide rod three 12 is far away from the slide rod one 5 on the sliding frame 4, and then the third sliding rod 12 applies a pulling force to the clamping strip 6 through the fourth connecting rod 11, so that the clamping strip 6 is far away from the clamping block 22, and the clamping block 22 is not clamped, so that the ski boot is taken down from the ski, the operation is simple and convenient, and the ski boot is conveniently detached from the ski.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.