CN111249706A - Gesture simulation training device for indoor skiing - Google Patents

Abstract

The invention discloses an indoor snowslide movement posture simulation trainer, which comprises a base and a training device, wherein the base is movably connected to the base; the circular chassis can rotate around the center of the base in forward and reverse directions relative to the base; the trainer further comprises: the steering stopping mechanism controls the circular chassis to rotate forward or turn over relative to the base and limits the rotation angle of the circular chassis; the snowboard simulation mechanism and the sliding rod supporting mechanism; the trainer of the invention greatly reduces the occupied space, and can truly simulate the motion process of a human body under the scene of field motion through a plurality of motion angles integrating rotation, swing and linear reciprocating motion through the circular chassis, the snowboard simulation mechanism and the slide bar supporting mechanism, thereby effectively achieving the training effect.

Description

Gesture simulation training device for indoor skiing

Technical Field

The invention relates to the technical field of sports training equipment, in particular to a posture simulation trainer for indoor snow sliding.

Background

Skiing is currently one of the most popular winter sports, as it can burn a passion in speed. Is popular with many young people. The skiing project originates from western countries, is the most popular outdoor sport for people, and has more programmed training methods and training equipment in the western countries, so that people can master skiing skills more quickly; in China, mature training methods and training equipment do not exist, most of the training equipment depends on-site teaching, the skill of skiing cannot be learned easily and quickly, and people are easy to fall down in the training process, so that the personal safety of people is greatly threatened.

The training equipment in the prior art is single in type, large in size, high in requirements for training environment and space, high in limitation and incapable of being popularized and used in a large range.

Based on the above technical problems, a need exists in the art for a posture simulation training device for indoor skiing, which can improve the safety during training, has no requirement on the use environment, and is more applicable and convenient to operate.

Disclosure of Invention

The invention aims to provide an indoor skiing sport posture simulation trainer which can improve the safety during training, has no requirement on the use environment, has wider applicability and is convenient to operate.

In order to achieve the above purpose, the invention provides the following technical scheme:

the invention discloses a posture simulation trainer for indoor skiing sports, which mainly comprises:

the base is of a circular structure;

the circular chassis is movably connected to the base and is partially embedded in the base;

the circular chassis can rotate around the center of the base in forward and reverse directions relative to the base;

the trainer further comprises:

the steering stopping mechanism controls the circular chassis to rotate forward or turn over relative to the base and limits the rotation angle of the circular chassis; and

a snowboard simulation mechanism and a slide bar support mechanism;

the circular chassis is provided with two sliding guide rails which extend in an arc shape along a first direction;

the snowboard simulation mechanism is connected with the sliding guide rail in a sliding mode and can move along the extending direction of the sliding guide rail to swing;

the sliding rod supporting mechanism and the snowboard simulating mechanism are connected into a whole, and the sliding rod supporting mechanism extends along a second direction perpendicular to the first direction;

the sliding rod supporting mechanism is provided with a sliding rod, and the sliding rod can move relative to the sliding rod supporting mechanism;

the trainer is internally provided with a controller.

Furthermore, a circular chassis sliding groove is formed by inwards recessing the edge of the base, and the circular chassis is partially embedded into the circular base sliding groove;

the round base sliding groove is internally provided with a buffer spring, the buffer spring extends in an arc shape along the extending direction of the round base sliding groove, and the buffer spring is connected with the round chassis;

a groove is formed in one side of the base;

a motor is arranged in the groove and is a servo motor;

the output shaft of the motor is in transmission connection with the round chassis through a transmission mechanism so as to drive the round base to rotate forwards and backwards.

Further, the transmission mechanism comprises a first belt wheel connected with an output shaft of the motor and a second belt wheel forming transmission with the first belt wheel through a belt;

the second belt wheel is arranged at the central position of the circular chassis and fixedly connected with the circular chassis;

the motor rotates to drive the first belt wheel to rotate, the first belt wheel drives the second belt wheel to rotate through the belt, and the second belt wheel drives the circular chassis to rotate;

the controller controls the motor to work.

Further, the snowboard simulating mechanism includes a pedal;

the pedal is of a quadrilateral plate structure, and flexible belts elastically connected with the base are arranged at the bottoms of corners of the pedal;

pulleys are symmetrically arranged on two sides of the pedal along the length direction of the pedal, and the pulleys slide in the sliding guide rail to drive the pedal to move along the sliding guide rail;

the upper surface of the pedal is symmetrically provided with fixer mounting bottom plates, and the fixer mounting bottom plates are integrated with ski boot fixers;

the snowshoe fixer is divided into a front fixer connected with the fixer mounting bottom plate and a rear fixer integrated at one end of the front fixer;

the rear holder is movable in an extending direction of the front holder to adjust the size of the fixed ski shoe space;

the fixer mounting bottom plate is of a U-shaped groove structure;

a rotating shaft extending along the length direction of the fixer mounting bottom plate is mounted in the groove of the fixer mounting bottom plate, and a spring is sleeved on the rotating shaft;

a torsion spring body is arranged at the joint of the fixer mounting bottom plate and the pedal;

the torsion spring element is used for bearing pressure.

Further, the slide bar supporting mechanism comprises auxiliary slide ways arranged on two sides of the pedal;

the auxiliary slide way is movably connected with the pedal through a first ball connection and can swing relative to the pedal;

a resistance spring is embedded in the auxiliary slideway;

the bottom of the sliding rod is movably connected with the auxiliary slide way through a second ball connection, and the two sides of the second ball connection are provided with the resistance springs;

the slide bar can compress the resistance spring of any side and move along the extending direction of the auxiliary slide way, and is connected through the second ball and swings relative to the auxiliary slide way.

Further, the upper end of the sliding rod is provided with a handle;

the handle is integrated with a control button for controlling the motor to rotate forwards or backwards, which is respectively as follows:

a forward rotation control button integrated on the handle on one side, and a reverse rotation control button integrated on the handle on the other side.

Furthermore, a ski shoe is matched with the snowboard simulation mechanism for use;

the ski boot comprises a first fixing buckle, a second fixing buckle, a ski boot body, a ski sole pad and a material integrated in the ski boot;

the body and the sole of the ski boot are both formed by injection molding of plastics or ABS;

the material integrated inside the ski boot consists of chemical fiber substances and protective materials.

Furthermore, a limiting mechanism is integrated at the joint of the base and the circular chassis;

the limiting mechanism comprises two anti-collision plates, and proximity switches are arranged on the anti-collision plates;

when the circular chassis rotates relative to the base, the circular chassis contacts the anti-collision plate, the proximity switch sends a feedback signal to the controller, and the controller receives the feedback signal and sends a stop instruction to the motor to stop the operation of the motor;

the round chassis limits the rotation angle of the round chassis through the limiting mechanism.

In the technical scheme, the posture simulation trainer for indoor snowslide movement provided by the invention has the following beneficial effects:

the trainer of the invention greatly reduces the occupied space, and can truly simulate the motion process of a human body under the scene of field motion by integrating rotation, swing and linear reciprocating motion through the circular chassis, the snowboard simulation mechanism and the slide bar supporting mechanism, thereby effectively achieving the training effect;

the sliding rod supporting mechanism of the trainer can play a certain supporting role during training of a user, and the control button rotating on the circular chassis is integrated at the handle, so that the operation is convenient, and meanwhile, the safety is improved.

The trainer is not influenced by indoor environment and space size, can be popularized in any room, and has higher applicability.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

FIG. 1 is a schematic structural diagram of a posture simulation training device for indoor skiing sports according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a connection structure and a transmission structure of a base and a circular chassis of the posture simulation training device for indoor skiing sports provided by the embodiment of the invention;

FIG. 3 is a schematic structural diagram of a snowboard simulation mechanism and a sliding bar support mechanism of the posture simulation training machine for indoor skiing according to the embodiment of the present invention;

FIG. 4 is a top view of the snowboard simulation mechanism of the stance simulation trainer for indoor skiing according to an embodiment of the invention;

FIG. 5 is an enlarged partial view of a snowshoe binding of the stance simulation trainer for indoor skiing according to an embodiment of the invention;

FIG. 6 is a front view of a slide bar supporting mechanism of the training device for simulating the posture of indoor skiing sports according to the embodiment of the present invention;

fig. 7 is a schematic structural view of a ski shoe of the posture simulation training device for indoor skiing according to an embodiment of the present invention.

Description of reference numerals:

1. a base; 2. a circular chassis; 3. a snowboard simulation mechanism; 4. a slide bar support mechanism; 5. a motor;

101. a circular chassis chute; 102. a groove; 103. a buffer spring; 104. a first pulley; 105. a second pulley; 106. a belt;

201. a sliding guide rail;

301. a pedal; 302. a pulley; 303. a flexible band; 304. a ski shoe binding; 305. ski boots;

30401. a holder mounting base plate; 30402. a front holder; 30403. a rear holder; 30404. a rotating shaft; 30405. a spring; 30406. a torsion spring member;

30501. a first fixing buckle; 30502. a second fixing buckle; 30503. a ski shoe body; 30504. ski sole pads;

401. an auxiliary chute; 402. a slide bar; 403. a handle; 404. a resistance spring; 405. a first ball connection; 406. a second ball connection;

40301. and a control button.

Detailed Description

In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.

See fig. 1-7;

the invention relates to a posture simulation trainer for indoor skiing sports, which mainly comprises:

the device comprises a base 1, wherein the base 1 is of a circular structure;

the round chassis 2 is movably connected to the base 1 and is partially embedded in the base 1;

the circular chassis 2 can rotate around the center of the base 1 forwards and backwards relative to the base 1;

the trainer further comprises:

the steering stopping mechanism controls the circular chassis 2 to rotate forward or turn over relative to the base 1 and limits the rotation angle of the circular chassis 2; and

a snowboard simulation mechanism 3 and a slide bar supporting mechanism 4;

the circular chassis 2 is provided with two sliding guide rails 201 extending in an arc shape along a first direction;

the snowboard simulation mechanism 3 is connected with the sliding guide rail 201 in a sliding mode, and the snowboard simulation mechanism 3 can move along the extending direction of the sliding guide rail 201 to swing;

the slide bar supporting mechanism 4 is connected with the snowboard simulating mechanism 3 into a whole, and the slide bar supporting mechanism 4 extends along a second direction which is vertical to the first direction;

the slide bar support mechanism 4 has a slide bar 402, the slide bar 402 being movable relative to the slide bar support mechanism 4;

the trainer is internally provided with a controller.

Specifically, the embodiment of the invention discloses a skiing gesture simulation trainer suitable for any indoor environment, which is based on a base 1 with a circular structure, wherein a circular chassis 2 is movably connected to the base 1, the circular chassis 2 and the base 1 are coaxially arranged, the circular chassis 2 can rotate around the center of the base 1, and when a user trains, the rotation of the circular chassis 2 towards any side can play a role in sudden stop and is closer to real skiing. Meanwhile, the training device is also integrated with a snowboard simulation mechanism 3 and a sliding rod supporting mechanism 4. The snowboard simulation mechanism 3 can drive gradually under the action of the self-acting force of the user to enable the snowboard simulation mechanism 3 and the sliding rod supporting mechanism 4 to move back and forth jointly along the sliding guide rail 201 on the first direction, and swing is formed through the back and forth movement to simulate the skiing gesture. The mode can truly simulate the motion process of a human body under the skiing scene, and effectively achieves the effect of posture training.

Preferably, in this embodiment, a circular chassis sliding groove 101 is formed by inward recessing the base 1 near the edge, and the circular chassis 2 is partially embedded in the circular chassis sliding groove 101;

the circular base sliding groove 101 is internally provided with a buffer spring 103, the buffer spring 103 extends in an arc shape along the extending direction of the circular base sliding groove 101, and the buffer spring 103 is connected with the circular chassis 2;

a groove 102 is formed on one side of the base 1;

a motor 5 is arranged in the groove 102, and the motor 5 is a servo motor;

an output shaft of the motor 5 is in transmission connection with the round chassis 2 through a transmission mechanism so as to drive the round base 2 to rotate forwards and backwards.

The embodiment specifically describes the connection structure of the base 1 and the circular chassis 2, and part of the driving mechanism. The method specifically comprises the following steps: firstly, the diameter of the circular base 2 is slightly smaller than that of the base 1, the circular base sliding groove 101 is formed in the position, close to the edge, of the base 1, the circular base is partially embedded into the circular base sliding groove 101 to form an embedding structure with the base 1, meanwhile, the circular base 2 rotates in the circular base sliding groove 101, in order to avoid damage of equipment during rotation, the buffer spring 103 which extends in an arc shape and is connected with the circular base 2 to provide buffer force for the circular base 2 is installed in the circular base sliding groove 101, once the circular base 2 rotates, the buffer spring 103 is compressed, certain buffer effect is achieved through spring force generated by the buffer spring 103, and the service life and the safety of the device are effectively prolonged.

In addition, a limiting mechanism is integrated at the joint of the base 1 and the circular chassis 2;

the limiting mechanism comprises two anti-collision plates, and proximity switches are arranged on the anti-collision plates;

when the circular chassis 2 rotates relative to the base 1, the circular chassis 2 contacts the anti-collision plate, the proximity switch sends a feedback signal to the controller, and the controller receives the feedback signal and sends a stop instruction to the motor to stop the operation of the motor 5;

the round chassis 2 limits the rotation angle of the round chassis 2 through a limiting mechanism.

The control part of the trainer disclosed in the embodiment takes a controller as a core, which controls the motor 5, because the rotation of the circular chassis 2 of the embodiment is an emergency stop in skiing sports, the motor 5 is required to stop working when the circular chassis 2 rotates to a certain angle, if the motor 5 is not stopped, a user is easy to sprain even has certain personal injury under the condition of an overlarge rotation angle, therefore, when the angle of the human body rotating in real sports is reasonably designed, two anti-collision plates are symmetrically arranged at the joint of the base 1 and the circular chassis 5, and an electric unit with a feedback function such as a proximity switch or a sensor is integrated on the anti-collision plate, once the circular chassis 2 rotates to a proper angle and contacts the anti-collision plate, the electric unit on the anti-collision plate sends a feedback signal to the controller to drive the controller to stop the continuous operation of the motor 5, the safety is further improved while the equipment is protected.

More preferably:

the motor 5 embedded in the base 1 is described as a driving unit, an output shaft of the motor 5 extends into the device and is in transmission connection with the circular chassis 2 through a transmission mechanism, and the rotating force of the motor 5 is transmitted to the circular chassis 2, so that the circular chassis 2 rotates.

The method specifically comprises the following steps: the transmission mechanism comprises a first belt wheel 104 connected with an output shaft of the motor 5 and a second belt wheel 105 forming transmission with the first belt wheel 104 through a belt 106;

the second belt wheel 105 is arranged at the central position of the circular chassis 2 and is fixedly connected with the circular chassis 2;

the motor 5 rotates to drive the first belt wheel 104 to rotate, the first belt wheel 104 drives the second belt wheel 105 to rotate through the belt 106, and the second belt wheel 105 drives the circular chassis 2 to rotate;

the controller controls the motor 5 to work.

The transmission mechanism adopts a belt pulley to drive the circular chassis 2 to rotate, an output shaft of the motor 5 transmits the rotating power to the first belt pulley 104, the first belt pulley 104 transmits the rotating power of the first belt pulley 104 to the second belt pulley 105 through a belt 106, and the second belt pulley 105 is connected with the circular chassis 2, so that the circular chassis 2 is driven to rotate.

Preferably, the snowboard simulation mechanism 3 in the present embodiment includes a pedal 301;

the pedal 301 is of a quadrilateral plate structure, and the bottoms of the corners of the pedal 301 are respectively provided with a flexible belt 303 which is elastically connected with the base 1;

pulleys 302 are symmetrically arranged on two sides of the pedal 301 along the length direction of the pedal, and the pulleys 302 slide in the sliding guide rail 201 to drive the pedal 301 to move along the sliding guide rail 201;

the upper surface of the pedal 301 is symmetrically provided with a fixer mounting bottom plate 30401, and the fixer mounting bottom plate 30401 is integrated with a ski boot fixer 304;

the snowshoe binding 304 is divided into a front binding 30402 connected to a binding mounting plate 30401, and a rear binding 30403 integrated at one end of the front binding 30402;

the rear anchor 30403 being movable in the extending direction of the front anchor 30402 to adjust the size of the fixed ski shoe space;

the fixture mounting base plate 30401 is a U-shaped groove structure;

a rotating shaft 30404 extending along the length direction of the fixer mounting base plate 30401 is installed in the groove, and a spring 30405 is sleeved on the rotating shaft 30404;

a torsion spring body 30406 is arranged at the joint of the fixer mounting base plate 30401 and the pedal 301;

the torsion spring 30406 is configured to withstand compressive forces.

In order to adapt to different sizes of the ski boots, the rear anchor 30403 is movably connected to the front anchor 30402, the rear anchor 30403 can move along the length direction of the front anchor 30402 to adjust the size of the space of the ski boot, and the rotating shaft 30404 can ensure that the anchors can perform a small-amplitude twisting motion, so as to make the ski boot more suitable for the actual motion during the ski training. Meanwhile, the torsion spring 30406 is integrated at the lower portion of the anchor mounting plate 30401, so that the foot can bear normal pressure during simulated skiing, and ankle sprain and other dangers during training can be avoided.

Preferably, the slide bar supporting mechanism 4 in this embodiment includes auxiliary slideways 401 disposed at both sides of the pedal 301;

the auxiliary slide way 401 is movably connected with the pedal 301 through a first ball connection 405 and can swing relative to the pedal 301;

a resistance spring 404 is embedded in the auxiliary slide way 401;

the bottom of the sliding rod 402 is movably connected with the auxiliary slideway 401 through a second ball connection 406, and two sides of the second ball connection 406 are provided with resistance springs 404;

the slide bar 402 can compress the resistance springs 404 on either side and move in the direction of extension of the auxiliary slide 401 and swing with respect to the auxiliary slide 401 through a second ball connection 406.

Wherein, the upper end of the sliding rod 402 is provided with a handle 403;

a control button 40301 for controlling the forward rotation or the reverse rotation of the motor 5 is integrated on the handle 403, and respectively comprises:

a forward rotation control button integrated on one side handle 403, and a reverse rotation control button integrated on the other side handle 403.

In order to better simulate the movement and swing of the sliding rod 402 during skiing, the auxiliary sliding track 401 is first movably connected with the pedal 301 through a first ball joint 405, and the sliding rod 402 is movably connected with the auxiliary sliding track 401 through a second ball joint 406. In order to simulate the resistance during skiing, a resistance spring 404 is installed in the auxiliary chute 401, and the slide bar 402 moves to compress the resistance spring 404 on either side, thereby simulating the resistance. The slide bar supporting mechanism 4 has high sensitivity, can cope with various motion postures of a body in a motion process from multiple angles, and simultaneously has a certain supporting effect.

As examples of expandability:

the first embodiment is as follows:

in order to be able to be used in conjunction with the snowboard simulation mechanism 3, the present embodiment also discloses a ski shoe 305.

The ski shoe 305 used in cooperation with the ski-simulating mechanism 3 comprises a first retaining buckle 30501, a second retaining buckle 30502, a ski shoe body 30503, a ski shoe sole 30504 and a material integrated inside the ski shoe 305;

both the ski boot body 30503 and the ski boot sole 30504 are injection molded from plastic or ABS;

the material integrated into the interior of the ski boot 305 is comprised of chemical fiber matter and protective material.

The first fixing buckle 30501 can fix and protect the ankle of the trainer, and the second fixing buckle 30502 can respectively play the same role as the first fixing buckle 30501 on the foot plate of the trainer; in addition, the size of the ski boot 305 can be selected, the tightness degree of the fixing buckle can be controlled, and a trainer can adjust the tightness according to different environments and use habits so as to meet the requirements of various users.

In the technical scheme, the posture simulation trainer for indoor snowslide movement provided by the invention has the following beneficial effects:

the trainer of the invention greatly reduces the occupied space, and can truly simulate the motion process of a human body under the scene of field motion by integrating rotation, swing and linear reciprocating motion through a plurality of motion angles of the circular chassis 2, the snowboard simulation mechanism 3 and the slide bar supporting mechanism 4, thereby effectively achieving the training effect;

the sliding rod supporting mechanism 4 of the trainer can play a certain supporting role during the training of a user, and the control button 40301 rotated by the round chassis 2 is integrated at the handle 403, so that the operation is convenient, and meanwhile, the safety is improved.

The trainer is not influenced by indoor environment and space size, can be popularized in any room, and has higher applicability.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (8)

1. Indoor skiing sport's gesture simulation training ware, its characterized in that, this training ware mainly includes:

the base (1), the said base (1) is the round structure;

the round chassis (2) is movably connected to the base (1) and is partially embedded in the base (1);

the circular chassis (2) can rotate around the center of the base (1) in the forward and reverse directions relative to the base (1);

the trainer further comprises:

the steering stopping mechanism controls the circular chassis (2) to rotate forward or turn over relative to the base (1) and limits the rotation angle of the circular chassis (2); and

a snowboard simulation mechanism (3) and a slide bar supporting mechanism (4);

the circular chassis (2) is provided with two sliding guide rails (201) which extend in an arc shape along a first direction;

the snowboard simulation mechanism (3) is connected with the sliding guide rail (201) in a sliding mode, and the snowboard simulation mechanism (3) can move along the extending direction of the sliding guide rail (201) to swing;

the sliding rod supporting mechanism (4) is connected with the snowboard simulating mechanism (3) into a whole, and the sliding rod supporting mechanism (4) extends along a second direction perpendicular to the first direction;

the sliding rod supporting mechanism (4) is provided with a sliding rod (402), and the sliding rod (402) can move relative to the sliding rod supporting mechanism (4);

the trainer is internally provided with a controller.

2. The indoor skiing sport posture simulation trainer as claimed in claim 1, wherein the base (1) is formed with a circular base sliding groove (101) inwards near the edge, and the circular base (2) is partially embedded in the circular base sliding groove (101);

a buffer spring (103) is arranged in the circular base sliding groove (101), the buffer spring (103) extends in an arc shape along the extending direction of the circular base sliding groove (101), and the buffer spring (103) is connected with the circular chassis (2);

a groove (102) is formed in one side of the base (1);

a motor (5) is installed in the groove (102), and the motor (5) is a servo motor;

the output shaft of the motor (5) is in transmission connection with the round chassis (2) through a transmission mechanism so as to drive the round base (2) to rotate forwards and backwards.

3. An indoor skiing sport attitude simulation trainer according to claim 2, wherein the transmission mechanism comprises a first pulley (104) connected with an output shaft of the motor (5), and a second pulley (105) forming transmission with the first pulley (104) through a belt (106);

the second belt wheel (105) is arranged at the central position of the circular chassis (2) and is fixedly connected with the circular chassis (2);

the motor (5) rotates to drive the first belt wheel (104) to rotate, the first belt wheel (104) drives the second belt wheel (105) to rotate through the belt (106), and the second belt wheel (105) drives the circular chassis (2) to rotate;

the controller controls the motor (5) to work.

4. A postural simulation trainer of indoor skiing sports according to claim 2, characterised in that said snowboard simulation mechanism (3) comprises a pedal (301);

the pedal (301) is of a quadrilateral plate structure, and flexible belts (303) elastically connected with the base (1) are arranged at the bottoms of corners of the pedal (301);

pulleys (302) are symmetrically arranged on two sides of the pedal (301) along the length direction of the pedal, and the pulleys (302) slide in the sliding guide rail (201) to drive the pedal (301) to move along the sliding guide rail (201);

fixator mounting bottom plates (30401) are symmetrically arranged on the upper surface of the pedal (301), and ski shoe fixators (304) are integrated on the fixator mounting bottom plates (30401);

the snowshoe binding (304) is divided into a front binding (30402) connected to the binding mounting plate (30401), and a rear binding (30403) integrated at one end of the front binding (30402);

the rear anchor (30403) being movable in an extending direction of the front anchor (30402) to adjust the size of a fixed ski shoe space;

the fixer mounting bottom plate (30401) is in a U-shaped groove structure;

a rotating shaft (30404) extending along the length direction of the fixer mounting base plate (30401) is mounted in the groove, and a spring (30405) is sleeved on the rotating shaft (30404);

the joint of the fixer mounting bottom plate (30401) and the pedal (301) is provided with a torsion spring body (30406);

the torsion spring member (30406) is configured to receive a compressive force.

5. An indoor skiing sport attitude simulation trainer according to claim 4, wherein the slide bar support mechanism (4) comprises auxiliary runners (401) arranged on both sides of the pedal (301);

the auxiliary slideway (401) is movably connected with the pedal (301) through a first ball connection (405) and can swing relative to the pedal (301);

a resistance spring (404) is embedded in the auxiliary slide way (401);

the bottom of the sliding rod (402) is movably connected with the auxiliary slideway (401) through a second ball connection (406), and two sides of the second ball connection (406) are provided with the resistance springs (404);

the sliding rod (402) can compress the resistance springs (404) on either side, move along the extension direction of the auxiliary slideway (401) and swing relative to the auxiliary slideway (401) through the second ball connection (406).

6. An indoor skiing sport posture simulation trainer according to claim 5, wherein the upper end of the sliding bar (402) is provided with a handle (403);

the handle (403) is integrated with a control button (40301) for controlling the forward rotation or the reverse rotation of the motor, and the control button is respectively as follows:

a forward rotation control button integrated on one side handle (403), and a reverse rotation control button integrated on the other side handle (403).

7. A postural simulation training device for indoor skiing according to claim 4, wherein a ski shoe (305) is used in cooperation with the snowboard simulation mechanism (3);

the ski boot comprises a first fixing buckle (30501), a second fixing buckle (30502), a ski boot body (30503), a ski boot sole (30504) and a material integrated inside the ski boot (305);

the body (30503) and the sole (30504) are both made of plastic or ABS by injection molding;

the material integrated inside the ski boot (305) consists of chemical fiber substances and protective materials.

8. An indoor skiing sport attitude simulation trainer according to claim 2, wherein a limiting mechanism is integrated at the joint of the base (1) and the circular chassis (2);

the limiting mechanism comprises two anti-collision plates, and proximity switches are arranged on the anti-collision plates;

when the circular chassis (2) rotates relative to the base (1), the circular chassis (2) contacts the anti-collision plate, the proximity switch sends a feedback signal to the controller, and the controller sends a stop instruction to the motor to stop the operation of the motor (5) after receiving the feedback signal;

the round chassis (2) limits the rotation angle of the round chassis (2) through the limiting mechanism.

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