CN110507973B - Skiing simulator and application method thereof - Google Patents

Abstract

The invention discloses a skiing simulator and a use method thereof, belonging to the technical field of sports equipment and comprising a rotating mechanism which is placed on the ground, wherein a rotating output end of the rotating mechanism is provided with a rotating table component, the top of the inner side of the rotating table component is provided with a sliding mechanism which is used for bearing the foot of a human body to move along a moving track, and a synchronous belt mechanism which is used for driving the sliding mechanism to move is arranged between the rotating table component and the sliding mechanism; and the turntable assembly is also provided with a vibration assembly for driving the sliding mechanism to vibrate. The invention can realize large amplitude of simulating skiing action, vibration in the rotation and skiing processes, and adopts the motor drive to realize manpower saving, so that the training process is softer, the training is more durable, and the cost is lower.

Description

Skiing simulator and application method thereof

Technical Field

The invention relates to a simulator, in particular to a skiing simulator and a using method, and belongs to the technical field of sports equipment.

Background

The existing skiing simulator is composed of an outer frame and a sliding plate as shown in figure 1, the sliding plate slides left and right through manpower and an elastic device under the sliding plate, so that skiing simulating actions are formed, the skiing simulator can be used for body-building exercises and basic skiing action training and physical coordination exercise, the price is low, and the skiing simulator is a good device for keeping skiing technology and basic skiing training by a skiing lover, but has the defects existing in the prior art: the function of the skiing simulator is too single, only left-right sliding can be carried out, or only left-right sliding and small-angle rotation can be carried out, no vibration exists, the skiing simulator is greatly different from real skiing sports, a user is easy to feel tired due to the fact that the skiing simulator is driven by manpower, long-time training cannot be performed, the utilization rate of training time is reduced, meanwhile, muscles of a human body are easy to be injured under high-intensity training, and particularly for a skiing beginner, the skiing simulator and the use method of the skiing simulator need to be invented to solve the problems.

Disclosure of Invention

The invention mainly aims to provide a skiing simulator and a using method thereof, wherein a first motor is started to drive a speed reducer to decelerate, the torque force is increased through the deceleration of the speed reducer, a sleeve is driven to rotate through an output end of the speed reducer, a rotary table is driven to rotate through the sleeve, so that the skiing simulator can be electrically adjusted to a proper position, a linkage mechanism is driven to move through a second motor, and a sliding mechanism is driven to move through the linkage mechanism, so that the sliding motion experience is realized, and the vibration simulation during the movement is realized through a vibration assembly.

The purpose of the invention can be achieved by adopting the following technical scheme:

a skiing simulator comprises a rotating mechanism placed on the ground, wherein a rotating output end of the rotating mechanism is provided with a rotary table component, the top of the inner side of the rotary table component is provided with a sliding mechanism used for bearing the foot of a human body to move along a moving track, and a synchronous belt mechanism used for driving the sliding mechanism to move is arranged between the rotary table component and the sliding mechanism; the turntable assembly is also provided with a vibration assembly for driving the sliding mechanism to vibrate; the turning mechanism comprises a base placed on the ground, a speed reducer is installed in the middle of the bottom in the base, a first motor is installed on a screw rod on the side of the speed reducer, the output end of the first motor is fixed with the output end of the speed reducer, a coupler is sleeved on the outer side of the output end of the speed reducer, and a sleeve is installed through the output end of the speed reducer; the rotary table assembly comprises a rotary table with a groove structure, and the middle position of the bottom of the rotary table is fixed with the output end of the sleeve; the synchronous belt mechanism comprises a second motor installed at the middle position of the bottom in the rotary table, and a linkage mechanism used for driving the sliding mechanism to move is arranged at the output end of the second motor.

Preferably, the top of base is seted up the spout of loop configuration, the bottom of revolving stage is installed the multiunit universal wheel through the screw rod, the wheel portion and the spout of universal wheel are mutually supported.

Preferably, the sleeve is fixed to the middle position of the top portion in the base through a flange, and the sleeve is fixed to the turntable through the flange.

Preferably, the vibration assembly includes an eccentric cam, and the eccentric cam is installed at a bottom of the turntable.

Preferably, the linkage mechanism comprises a first support frame of a Z-shaped structure arranged on the outer side of the second motor, a driving wheel is arranged at the top of the first support frame, the output end of the second motor is connected with a synchronous belt through a coupler, and tension wheels are arranged on two sides of the bottom in the rotary table through U-shaped frames.

Preferably, an arc-shaped slide rail is mounted at the inner top of the sliding mechanism, a plurality of groups of driven wheels capable of sliding on the arc-shaped slide rail are arranged at the top of the arc-shaped slide rail, and a snowboard is mounted on the outer sides of the driven wheels through a U-shaped frame.

Preferably, the timing belt penetrates through the outer sides of the tension pulley, the driven pulley and the driving pulley.

A method of using a ski simulator, comprising the steps of:

step 1: starting a first motor to drive a speed reducer to decelerate and drive a sleeve to rotate so as to drive a rotary table to rotate, and electrically adjusting the rotary table to a proper position;

step 2: starting a second motor to drive a synchronous belt to move, and pulling the snowboard to move on the arc-shaped slide rail;

and step 3: the tension of the synchronous belt is adjusted through a tension wheel moving at the bottom in the rotary table;

and 4, step 4: the movement of the snowboard is adjusted through the mutual matching of the main wheel and the auxiliary wheel;

and 5: the eccentric cam is used for driving the rotary table to rotate, and the rotary table is used for driving the sliding mechanism to vibrate.

The invention has the beneficial technical effects that:

according to the skiing simulator and the using method thereof, the first motor is started to drive the speed reducer to decelerate, the torque force is increased through the deceleration of the speed reducer, the sleeve is driven to rotate through the output end of the speed reducer, the rotary table is driven to rotate through the sleeve, so that the rotary table can be electrically adjusted to a proper position, the linkage mechanism is driven to move through the second motor, the sliding mechanism is driven to move through the linkage mechanism, and further sliding motion experience is realized.

Drawings

FIG. 1 is a schematic perspective view of a prior art ski simulator;

FIG. 2 is a side cross-sectional view of a preferred embodiment of a ski simulator in accordance with the present invention;

fig. 3 is a perspective view of a base of a preferred embodiment of a ski simulator according to the present invention.

In the figure: 1-skis, 2-curved slide rails, 3-turntables, 4-eccentric cams, 5-bases, 6-reducers, 7-first motors, 8-sleeves, 9-synchronous belts, 10-second motors, 11-universal wheels, 12-couplings, 13-flanges, 14-driven wheels, 15-driving wheels, 16-tension wheels, 17-swivel mechanisms, 18-vibration assemblies, 19-turntable assemblies, 20-synchronous belt mechanisms, 21-sliding mechanisms.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

Example one

As shown in fig. 2 and fig. 3, the skiing simulator provided in this embodiment includes a swivel mechanism 17 placed on the ground, a rotary table assembly 19 is installed at a rotary output end of the swivel mechanism 17, a sliding mechanism 21 for bearing the human foot to move along a moving track is disposed at the top of the inner side of the rotary table assembly 19, and a synchronous belt mechanism 20 for driving the sliding mechanism 21 to move is disposed between the rotary table assembly 19 and the sliding mechanism 21; the turntable assembly 19 is also provided with a vibration assembly 18 for driving the sliding mechanism 21 to vibrate; the turning mechanism 17 comprises a base 5 placed on the ground, a speed reducer 6 is installed in the middle of the bottom in the base 5, a first motor 7 is installed on a screw rod on the side portion of the speed reducer 6, the output end of the first motor 7 is fixed with the output end of the speed reducer 6, a coupler 12 is sleeved on the outer side of the output end of the speed reducer 6, and a sleeve 8 is installed through the output end of the speed reducer 6; the rotary table component 19 comprises a rotary table 3 with a groove structure, and the middle position of the bottom of the rotary table 3 is fixed with the output end of the sleeve 8; the synchronous belt mechanism 20 includes a second motor 10 installed at the middle position of the bottom in the turntable 3, and the output end of the second motor 10 is provided with a linkage mechanism for driving the sliding mechanism 21 to move.

Drive reduction gear 6 through starting first motor 7 and slow down and increase the moment of torsion power through the speed reduction of reduction gear 6, drive sleeve 8 through 6 output of reduction gear and rotate, drive revolving stage 3 through sleeve 8 and rotate to can electric regulation to suitable position, drive the link gear motion through second motor 10, and drive slide mechanism 21 motion through link gear, and then realize the experience of sliding motion, through the vibrations simulation when vibrations subassembly 18 realizes the motion.

In this embodiment, as shown in fig. 3, the top of the base 5 is provided with a chute with an annular structure, the bottom of the turntable 3 is provided with a plurality of sets of universal wheels 11 through screws, and the wheel portions of the universal wheels 11 are matched with the chute.

The wheel part of its universal wheel 11 is spacing through the spout of loop configuration, and first play the supporting role to revolving stage 3 through universal wheel 11, and spacing when the second realization rotates prevents to take place centrifugal motion.

In the present embodiment, the sleeve 8 is fixed to the base 5 at a position intermediate to the top portion thereof by a flange 13, and the sleeve 8 is also fixed to the turntable 3 by the flange 13.

Realize the fixed of sleeve 8 with revolving stage 3 and base 5 through flange 13, convenient to detach and installation, the change of being convenient for, and this kind of fixed mode is more stable, compares in that the welding life is longer.

In the present embodiment, the vibration assembly 18 includes an eccentric cam 4, and the eccentric cam 4 is installed at the bottom of the turntable 3.

The rotation of driving revolving stage 3 is realized through eccentric cam 4 to drive slide mechanism 21 vibrations through revolving stage 3, and then realize the vibrations experience when skiing motion.

Example two

A method of using a ski simulator, comprising the steps of:

step 1: starting a first motor 7 to drive a speed reducer 6 to reduce speed and drive a sleeve 8 to rotate so as to drive a rotary table 3 to rotate, and electrically adjusting to an orientation;

step 2: starting a second motor 10 to drive a synchronous belt 9 to move, and pulling the snowboard 1 to move on the arc-shaped slide rail 2;

and step 3: the tension of the synchronous belt 9 is adjusted by a tension wheel 16 moving at the bottom in the rotary table 3;

and 4, step 4: the movement of the snowboard 1 is adjusted through the mutual matching of the main wheel and the auxiliary wheel;

and 5: the rotation of the turntable 3 is driven by the eccentric cam 4, and the sliding mechanism 21 is driven to vibrate by the turntable 3.

In this embodiment, the linkage mechanism includes the first support frame of the Z-shaped structure installed outside the second motor 10, the top of this first support frame is equipped with the action wheel 15, the output of the second motor 10 is connected with the hold-in range 9 through the shaft coupling, the take-up pulley 16 is installed through the U type frame in the both sides of bottom in the revolving stage 3, arc slide rail 2 is installed at the interior top of slide mechanism 21, and the top of arc slide rail 2 is equipped with and can be on it gliding multiunit from driving wheel 14, ski 1 is installed through the U type frame in the outside from driving wheel 14, the hold-in range 9 runs through the take-up pulley 16, from the outside of.

The synchronous belt 9 is driven to move by starting the second motor 10, so that the snowboard 1 is pulled to move on the arc-shaped sliding rail 2, the tension is adjusted by the tension wheel 16 which can move at the bottom in the rotary table 3, the tension wheel 16 is fixed in a limiting way by a screw rod, and the snowboard 1 is better adjusted by the mutual matching of the main wheel and the auxiliary wheel.

In summary, the working process is as follows:

in the step 1, the first motor 7 is started to drive the speed reducer 6 to decelerate, the torque force is increased through the deceleration of the speed reducer 6, the sleeve 8 is driven to rotate through the output end of the speed reducer 6, and the rotary table 3 is driven to rotate through the sleeve 8, so that the electric adjustment can be carried out to a proper position;

in the step 2, the second motor 10 is started to drive the synchronous belt 9 to move, so that the synchronous belt pulls the snowboard 1 to move on the arc-shaped sliding rail 2, the tension is adjusted through the tension wheel 16 which can move at the bottom in the rotary table 3, the limit of the tension wheel 16 is fixed through the screw, and the movement of the snowboard 1 is better adjusted through the mutual matching of the main wheel and the auxiliary wheel;

in the step 3, the rotation of the rotary table 3 is driven through the eccentric cam 4, and the sliding mechanism 21 is driven to vibrate through the rotary table 3, so that the vibration experience during skiing is realized.

The above description is only for the purpose of illustrating the present invention and is not intended to limit the scope of the present invention, and any person skilled in the art can substitute or change the technical solution of the present invention and its conception within the scope of the present invention.

Claims (8)

1. A ski simulator, comprising: the device comprises a rotating mechanism (17) placed on the ground, wherein a rotating output end of the rotating mechanism (17) is provided with a rotating table component (19), the top of the inner side of the rotating table component (19) is provided with a sliding mechanism (21) used for bearing the foot of a human body to move along a moving track, and a synchronous belt mechanism (20) used for driving the sliding mechanism (21) to move is arranged between the rotating table component (19) and the sliding mechanism (21);

the turntable assembly (19) is also provided with a vibration assembly (18) for driving the sliding mechanism (21) to vibrate;

the turning mechanism (17) comprises a base (5) placed on the ground, a speed reducer (6) is installed in the middle of the bottom in the base (5), a first motor (7) is installed on a screw rod on the side portion of the speed reducer (6), the output end of the first motor (7) is fixed with the output end of the speed reducer (6), a coupler (12) is sleeved on the outer side of the output end of the speed reducer (6), and a sleeve (8) is installed through the output end of the speed reducer (6);

the rotary table assembly (19) comprises a rotary table (3) with a groove structure, and the middle position of the bottom of the rotary table (3) is fixed with the output end of the sleeve (8);

the synchronous belt mechanism (20) comprises a second motor (10) installed at the middle position of the bottom in the rotary table (3), and a linkage mechanism used for driving the sliding mechanism (21) to move is arranged at the output end of the second motor (10).

2. A ski simulator as claimed in claim 1, wherein: the top of base (5) is seted up the spout of loop configuration, multiunit universal wheel (11) are installed through the screw rod in the bottom of revolving stage (3), the wheel portion and the spout of universal wheel (11) are mutually supported.

3. A ski simulator as claimed in claim 1, wherein: the middle position of the top in the sleeve (8) and the base (5) is fixed through a flange (13), and the sleeve (8) and the rotary table (3) are also fixed through the flange (13).

4. A ski simulator as claimed in claim 1, wherein: the vibrating assembly (18) comprises an eccentric cam (4), and the eccentric cam (4) is installed at the bottom of the rotary table (3).

5. A ski simulator as claimed in claim 4, in which: the linkage mechanism comprises a Z-shaped first support frame arranged on the outer side of the second motor (10), a driving wheel (15) is arranged at the top of the first support frame, the output end of the second motor (10) is connected with a synchronous belt (9) through a coupler, and tension wheels (16) are arranged on two sides of the bottom in the rotary table (3) through U-shaped frames.

6. A ski simulator as claimed in claim 5, in which: the snowboard sliding mechanism is characterized in that an arc-shaped sliding rail (2) is mounted at the inner top of the sliding mechanism (21), a plurality of groups of driven wheels (14) capable of sliding on the arc-shaped sliding rail (2) are arranged at the top of the arc-shaped sliding rail, and a snowboard (1) is mounted on the outer sides of the driven wheels (14) through U-shaped frames.

7. A ski simulator as claimed in claim 6, in which: the synchronous belt (9) penetrates through the outer sides of the tension wheel (16), the driven wheel (14) and the driving wheel (15).

8. A method of using a ski simulator according to claim 7, comprising the steps of:

step 1: starting a first motor (7) to drive a speed reducer (6) to reduce speed and drive a sleeve (8) to rotate so as to drive a rotary table (3) to rotate, and electrically adjusting to an orientation;

step 2: a second motor (10) is started to drive a synchronous belt (9) to move, and the snowboard (1) is pulled to move on the arc-shaped sliding rail (2);

and step 3: the tension of the synchronous belt (9) is adjusted through a tension wheel (16) moving at the bottom in the rotary table (3);

and 4, step 4: the movement of the snowboard (1) is adjusted through the mutual matching of the main wheel and the auxiliary wheel;

and 5: the eccentric cam (4) is used for driving the rotary table (3) to rotate, and the rotary table (3) is used for driving the sliding mechanism (21) to vibrate.

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