KR20120078286A - Desent sporting devices - Google Patents

Abstract

The present invention discloses a sliding exercise device.
The sliding type exercise device of the present invention comprises: a base plate on which two rotating driving bodies are assembled and fastened at the same inclination angle at an interval between front and rear surfaces; An arc rotating plate and an arc rotating shaft coupled to the base plate so as to rotate in a circular trajectory with a circular trajectory and a circle rotating shaft, and another rotatable driving body with an arc trajectory;
A circular rotating board and an arc rotating board which are respectively coupled to the circular rotating shaft and the arc rotating shaft to rotate;
It is configured to include a forward and backward shaft and forward and backward driving body for driving forward and backward in the connection assembly portion of the circular rotation board and the arc rotation board.
The sliding type exercise apparatus of the present invention configured as described above implements various postures required by sliding reports such as an actual skateboard or a snowboard through positional displacements in left, right, and forward and backward directions while inclined forward. As it is possible to see the effects of exercise safely while indoors, the benefits are expected to increase consumer satisfaction and induce interest in the product.

Description

Downhill sport equipment {Desent sporting devices}

The present invention relates to indoor sliding exercise equipment capable of directing posture, such as driving and turning of a skateboard or snowboard, which has been spotlighted as a sports, and more specifically, displacements in front, rear, and left and right directions in a sliding posture. The present invention relates to a sliding exercise equipment that allows a user to satisfy both an entertaining and athletic element by realizing a posture such as skiing or snowboarding.

Modern people are exposed to excessive food intake, absolute lack of exercise, and various diseases caused by stress. Recently, with increasing interest in health, various exercise equipments that can exercise indoors have been released.

Such indoor exercise equipment includes a variety of fitness equipment, such as a running machine (running machine), an indoor cycle (row) machine (rowing machine), and can be divided into uses for aerobic exercise or strength training.

However, most of the conventional exercise equipment is not only limited to occupied space, but also easy to move and store, and in particular, as it is manufactured for a specific exercise effect, there is a lack of interest for users.

For example, in the case of the treadmill, the user runs boring while looking at a wall or a mirror, and in the case of an indoor cycle, the user is required to step on a pedal while looking at a wall or a mirror, so that the user has to maintain a monotonous motion to obtain an exercise effect. As the interest is halved, it is difficult to lead to continuous movement.

In order to solve these disadvantages, a system is proposed in which a large screen is installed in front of a treadmill or an indoor cycle and an audiovisual device is installed to allow a user to feel as if they are actually running or driving. It is possible to display the curved course on the screen that constitutes the audiovisual system without changing the behavior, but there is no change in the motion that the user can actually feel, so as a result, the increase in the exercise effect by the audiovisual system is expected. Difficult

The present invention was created to solve the problems of the prior art as described above, and an object of the present invention is to enable a user to move the position of the front, rear, and left and right directions according to the change of the center of gravity in the sliding posture. By doing so, it is possible to implement a posture such as a real skateboard or snowboard, to provide a sliding exercise equipment that can increase the fun and effect of exercise.

Another object of the present invention is to provide a sliding exercise equipment that can enable the practice of downhill sports, such as skateboarding or snowboarding indoors regardless of the season in conjunction with the simulation system.

It is still another object of the present invention to provide a sliding type exercise device that can be exercised simultaneously with a game while watching a display in conjunction with sensors of a recognition function according to exercise motions in conjunction with various sports games.

Sliding exercise device according to an embodiment of the present invention for realizing the above object, the base plate which is assembled by the two rotation driving bodies at the same inclination angle at the front and rear intervals on the upper surface;

An arc rotating plate and an arc rotating shaft coupled to the rotating plate of the base plate so as to rotate in a circular trajectory, a circular rotating shaft, and an arc of the arc to the other rotating drive;

A circular rotating board and an arc rotating board which are respectively coupled to the circular rotating shaft and the arc rotating shaft to rotate;

It is characterized in that it comprises a forward and backward axis for the forward and backward drive and the forward and backward drive body to the connection assembly portion of the circular rotation board and the arc rotation board.

As a preferred feature of the present invention, the circular rotary shaft is coupled to the rotary drive member is assembled to the base plate inclined to the circular rotary shaft fastening portion is mounted so that the circular rotary shaft to rotate in a conical shape and the end of the circular rotary shaft The shaft rotating body is configured to be linked to the conical rotation.

Another preferred feature of the present invention is that the weight balance is mounted to achieve a stable rotation to the circular rotating plate coupled to the rotary drive assembly assembled to the base plate is configured.

Another preferable feature of the present invention is that a forward and backward spring is mounted on the connecting assembly of the circular rotation board and the arc rotation board to have elastic restoring force in the forward and backward motion for forward and backward driving.

As another preferable feature of the present invention, the brake is mounted on the upper surface of the circular rotating board and the irregularities are formed to generate frictional force on the upper surface of the friction plate fixed to the arc rotating board, and the brake pad is provided for the momentary stop function. With brake springs for brake release

Sliding exercise apparatus according to the present invention, through the position displacement of the left, right and front and rear in the inclined state forward, it is possible to implement a variety of posture required in the downhill sports such as an actual skateboard or snowboard As it is possible to enjoy the exercise safely while indoors, it is expected to increase consumer satisfaction and induce interest in the product.

In addition, it can be used as an entertainment device as it can increase the realism by linking with the simulation system, and can be used as a beginner practice for skateboarding and snowboarding.

In addition, it can be utilized as a device of various sports games by utilizing a variety of sensors for recognition of the motion interlocked according to the operation system of the present invention.

In other words, it has the advantage of having a dual effect that can exercise while having fun rather than simple and boring fitness training, where you can enjoy the exercise effect while playing the game.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to that, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may properly define the concept of the term in order to best explain its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

1 is a perspective view showing a sliding exercise device according to the present invention.
2 is an exploded perspective view for explaining the configuration of FIG.
3 is a cross-sectional view illustrating the configuration and assembly correlation of FIGS. 1 and 2.
4 is a cross-sectional view for explaining a circular rotation operation of the circular rotation mounting portion.
5 is a cross-sectional view for explaining the arc rotating operation of the arc rotating mounting portion.
Figure 6 is a perspective view for explaining the forward and backward operation of the forward and backward mounting portion for the forward and backward driving of the circular rotation board
7 is a perspective view for explaining the configuration and operation of the shaft rotating body.
8 is a perspective view for explaining the operation of the weight balance.
9 is a plan view and a side view for explaining the operating system of the sliding exercise device according to the present invention;
10 is a plan view for explaining the operation of the circular rotating board and the arc rotating board.
11 is a cross-sectional view for explaining the configuration and operation of the brake system.
12 is a perspective view for explaining a system interoperating with a simulation device or a game machine;

Hereinafter, the sliding type exercise device 1 according to the present invention will be described with reference to the accompanying drawings.

First, it should be noted that like elements or parts in the figures are denoted by the same reference numerals as much as possible. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a perspective view showing the appearance of the sliding type exercise device 1 according to an embodiment of the present invention, and FIGS. 2 and 3 are exploded perspective views and cross-sectional views for explaining each component.

7 is a perspective view illustrating components of the shaft rotating body, and FIG. 11 is a cross-sectional view illustrating the configuration of the brake system.

Next, the components of the sliding exercise device 1 according to the present invention will be described in detail with reference to the drawings. , The arc rotating mounting portion 20, and the forward and backward mounting portion (30).

Legs 3 attached to the case 2, the base plate 9 and the base plate 9 bottom surface to form an outer body, and a circular rotation pad 4 mounted on the upper surface of the circular rotation board 14 to be described later; It consists of the arc rotating pad 7 etc. which are attached to the upper surface of the arc rotating board 24. As shown in FIG.

The circular rotation pad 4 and the arc rotation pad 7 are configured to exercise with the left and right soles on top.

Next, the components related to the brake system will be described. The brake 5 which can be pressed to the sole to stop the operation 5, and the brake spring 6 which releases the operation stop by using the characteristic of being restored to the original position by using the elastic body. And a brake pad 8 mounted on the lower surface of the brake 5 to increase frictional force.

The circular rotation mounting portion 10 is a circle which is easily mounted on the rotary drive body 13 and the rotary drive body 13 by the bearing 12 to be assembled to the upper surface of the base plate 9 constituting the outer body. Rotating plate 11, the circular rotating board 14 is connected to the circular rotating plate 11 to perform a circular rotation motion to operate, the circular rotating shaft 15 for rotating in a circular conical shape in accordance with the circular rotation of the circular rotating plate (11) , An end of the shaft rotating body 17 which is fastened to the end of the circular rotating shaft 15, the bearing 12 for rotating the shaft rotating body 17 and the circular rotating board 14, and the nuclear power plate 11. It is composed of a weight balance (16) and the like to be fastened to achieve a stable rotation.

The arc rotation mounting portion 20 may be easily rotated by the bearing 12 'on the rotary drive body 13' and the rotary drive 13 'which are assembled to the upper surface of the base plate 9 constituting the outer body. It consists of the arc rotating plate 23 mounted, the arc rotating shaft 22 to be welded to the arc rotating plate 23 and the support 21, and the arc rotating board 24 to be interlocked in accordance with the arc rotation of the arc rotating plate 23. It is.

The forward and backward mounting portion 30 is such that the circular rotation board 14 and the circular rotation board 14 and the circular rotation board 24 at the upper rotation of the arc rotation board 24 during the circular rotation movement so that the circular rotation board 14 is driven forward and backward It is configured to be fixed to the forward and backward drive body 33 mounted on the lower surface of the circular rotation board 14, the uneven plate 31 mounted on the lower surface of the arc rotating board 24, and the uneven plate 31 Is assembled to the forward / backward shaft 32 and the forward / backward shaft 32 for driving the forward / backward driving body 33 back and forth to restore the restoring force to the original position by elasticity during the forward / backward driving of the circular rotation board 14. It consists of the forward and backward springs 34, etc. which arise.

The components of the sliding exercise device 1 of the present invention have been described above, and the operation related to the functions of the components will be described in detail with reference to the following drawings.

4 and 7 are cross-sectional views showing related components to explain the circular rotation operation of the circular rotation mounting portion 10 and FIG. 5 is a diagram for explaining the arc rotation operation of the arc rotation board 24.

9 is a plan view and a side view for explaining the overall operation system according to the present invention and FIG. 10 is a plan view for explaining the operation of the circular rotation board 14 and the arc rotation board 24 in FIG. 8 and 11 are perspective views and cross-sectional views for explaining the operation of the shaft rotating body 17, the weight balance 16, and the brake system.

4 and 7 when the rotary drive 13 is assembled to the upper surface of the base plate 9 constituting the outer body of the sliding type exercise device 1 of the present invention at an inclination angle θ rotates the rotary drive 13 The circular rotating plate 11 is assembled in the) is also rotated at this time, the circular rotating shaft 15 assembled to the end of the circular rotating plate is also rotated. When the circular rotating shaft 15 is mounted at the bending angle θ ″ on the circular rotating plate 11, the shaft rotating body 17 assembled at the end of the circular rotating shaft 15 will rotate in a circular shape. The bending angle θ " of the rotating shaft 15 is set by processing the mounting portion of the circular rotating shaft 15 of the circular rotating plate 11 to bend.

In addition, although the circular rotation board 14 is rotated by the diameter of the shaft rotating body 17 assembled to the end of the circular rotation shaft 15, the rotational motion combined with the rotation and linear motion is based on the overall operating system of the present invention do.

Therefore, as the rotation diameter of the shaft rotating body 17 increases, not only the front and rear lengths of the exercise device increase, but also the amount of exercise increases, so that the force persists excessively, thus making it difficult to cause interest.

For this reason, the conical rotation diameter is an important factor, which should be considered carefully when designing a product.

In addition, since all loads are applied to the shaft rotating body 17, the circular rotating shaft 15, and the circular rotating plate 11, care should be taken when selecting the strength or thickness of the material and the bearing.

4, the inclination angle θ of the rotational drive body 13 shown in FIG. 4 should be the same as the angle of the original rotation board 14 with the ground to smoothly operate the circular rotation.

As described above, the inclination angle θ of the rotary drive body 13 and the bending angle θ ”of the circular rotating plate in the sliding type exercise device 1 according to the present invention are the most important considerations when designing a product.

4 and 8 illustrate the operation of the weight balance 16, the circular rotating plate 11 having a proper weight at a position opposite to the circular rotating shaft 15 mounted on the circular rotating plate 11 and having an appropriate weight. The weight balance 16 assembled in FIG.

The rotation of the circular rotation board 14 is difficult at first due to the mounting of the weight balancer 16, but the rotation is gradually performed so that the stable rotation is achieved.

In more detail, in the initial stage of operation, the circular rotating board 14 is placed on the top of the inclined surface due to the elasticity of the spring 34 and the weight balance 16 is positioned at the lowest position of the circular rotating plate 11. To be placed.

When the weight is loaded on the circular rotation board 14, the circular rotation board 14 is rotated to the lower portion of the inclined surface, and at the same time the weight balance 16 is rotated from a low position to a high position. As a result, the weight balance 16 is moved to a large position energy by the weight, so that the elastic restoring force of the forward and backward spring 34 and the position energy of the weight balance 16 act as moments to continuously operate the rotational motion. Will be.

For this reason, the weight balance 16 functions to achieve smooth rotation of the circle rotating board 14 together with the rotation of the circle rotating plate 11.

5 is a cross-sectional view for explaining the arc rotation operation of the arc rotation mounting portion 20, the arc rotation of the arc rotation board 24 is interlocked with the rotation of the circular rotation board 14 and the arc rotation board 24 is the arc rotation axis It rotates about 22.

The exact description of the operation is to rotate the circle rotating board 14 with one foot about the arc rotating shaft 22 and to rotate the arc rotating board 24 in the opposite direction to the circular rotating board 14 with the other foot.

The arc rotating plate 23 is rotated in accordance with the rotation of the rotary drive body 13 'assembled and inclined to the base plate 9 constituting the outer body of the present invention to be equally inclined by the inclination angle θ of the arc rotating board 24. . The arc rotating shaft 22 and the support 21 welded to the arc rotating plate 23 are also interlocked with each other.

At this time, the arc rotating shaft 22 forms the central axis of the arc rotating board 24 and the support 21 serves as a support for this because the weight is loaded on the arc rotating board 24 when rotating.

The connection part of the arc rotating board 22 and the arc rotating board 24 assembled to the support 21 is provided with a bearing 12 'so that it can be rotated well.

6 is a perspective view for explaining the forward and backward operation of the forward and backward mounting portion 30 according to the forward and backward driving of the circular rotation board 14, when the circular rotation board 14 is circular motion, the straight line by the diameter of the rotation source You exercise.

That is, the circular rotation board 14 is to repeat the reciprocating motion in a straight line on the top of the arc rotation board 24

The forward and backward driving body 33 fixed to the lower surface of the circular rotation board 14 is driven forward and backward along the forward and backward axis 32.

Here, the forward and backward shaft 32 is fixed to the uneven plate 31 and the uneven plate 31 is fixed to the arc rotating board 24, and as a result, the circular rotating board 14 on the upper portion of the arc rotating board 24. Is to repeat the forward and backward linear motion.

The forward and backward springs 34 are mounted on the forward and backward shafts 32 so that when the original rotation board 14 moves downward by gravity, the forward and backward springs 34 generate a restoring force upward by the compressive force. It receives the elasticity and repels upward, and the forward and backward drive body 33 reciprocates on the forward and backward shaft 32 in accordance with the rotation of the circular rotation board 14.

9 is a plan view and a side view for explaining the operating system of the sliding type exercise device 1 according to the present invention, and FIG. Shown.

In FIG. 9 and FIG. 10, the trajectory A represents the circular rotation state of the circular rotation board 14, the trajectory B represents the forward and backward state of the circular rotation board 14, and the trajectory C represents the arc rotation state of the arc rotation board 24. Indicates.

In particular, in FIG. 9, the trajectory A of the circular rotation board 14 arises from the conical round rotation of the circular rotation mounting portion 10 and the trajectory C of the arc rotation board 24 results from the arc rotation of the arc rotation mounting portion 20. Is shown.

It has already been described above that the trajectory B of the circular rotating board 14 is reciprocated straight forward with the forward and backward driving body 33 mounted on the circular rotating board 14 as the rail.

It should be clearly stated here that the forward and backward motion of the circular rotation board 14 and the arc rotation motion of the arc rotation board 24 are derived from the circular rotation motion of the circular rotation board 14.

However, since the conical rotation radius of the circular rotation board 14 is small, the rotation moment is also small, and smooth rotation is not easy at the beginning of operation. Therefore, since the rotational moment of the arc rotation board 24 has a large length L, the moment required for arc rotation is turned on even when a small force is applied, so that the initial rotation is easily performed.

The operation state of the circular rotation board 14 and the arc rotation board 24 for each rotation position of FIG. 10 by applying such an operation system will be described in detail as follows.

In Fig. 10 (10-1), the shaft rotating body 17 is at the lower end of the trajectory A, the arc rotating shaft 22 is at the upper end of the trajectory B, and the rotation angle of the support 21 becomes 0 degrees. It is located in the center of C. When the operation is switched from the state of (10-1) to the state of (10-2), the shaft rotating body 17 rotates 90 degrees to the center of the trajectory A, and the arc rotating shaft 22 moves to the center of the trajectory B. The rotation angle of the support 21 is rotated by θ '.

Similarly, when the operation is switched from the state of (10-2) to the state of (10-3), the shaft rotating body 17 rotates 90 degrees to the upper end of the trajectory A, and the arc rotating shaft 22 moves to the lower end of the trajectory B. And the rotation angle of the support 21 is again 0 ° to be located in the center of the trajectory C.

In the same operation, when the state of (10-3) is changed from the state of (10-3) to the state of (10-4), the shaft rotating body 17 rotates 90 degrees to the center of the trajectory A, and the arc rotating shaft 22 moves to the center of the trajectory B. The rotation angle of the support 21 is rotated by θ '.

As described above, it can be said that the trajectory A, the trajectory B, and the trajectory C are repeatedly circulated, so that the basic operating system of the sliding exercise device of the present invention.

FIG. 10 also shows that the support 21 has a moment acting with the length L of the same arm about the axis of rotation 22.

11 is a cross-sectional view for explaining the configuration and operation of the brake system, wherein the user rotates the circular rotation board 14 in the circular rotation and forward and backward motions, and the arc rotation board 24 in the arc rotating motion. If you need to stop suddenly and stop the exercise or want to end the exercise, there is a need for means to stop all the above operations.

If there is a separate handle can hold the handle tightly to stop the rotation operation forcibly, but in the sliding type exercise equipment without the handle as in the present invention, a separate brake system is required.

Since all the motions of the exercise device of the present invention are interlocked with each other, it is possible to stop all the motions even if one of the forward and backward drives is stopped.

That is, when the brake 5 is stepped on the sole, the brake pad 8 mounted on the lower surface of the brake 5 descends downward until it reaches the uneven plate 31.

Since the uneven plate 31 is provided with irregularities so as to maximize the frictional force, when the brake 5 is strongly pressed on the sole, the front and rear surfaces of the circular rotation board 14 are driven by the friction force generated from the brake pad 8 and the uneven plate 31. The move operation stops. When the forward and backward motion of the circular rotation board 14 is stopped, all the motions of the sliding type exercise device of the present invention are stopped.

When the user lifts the sole from the brake 5 in contrast to the above, the brake 5 comes back to its original position by the restoring force of the brake spring 6, and the stop function is released.

FIG. 12 is a view illustrating the application of the simulation system to the sliding exercise device 1 according to the present invention. The sliding exercise device of the present invention shows the operating states of the circular rotating board 14 and the arc rotating board 24. A sensing board 41 for sensing, an interface 42 for receiving a sensing signal from the sensing board 41 and performing a control process, and a display 43 for receiving a control signal of the interface 42 and transmitting an image are added. It can be configured and operated. Such a simulation system may be implemented by a known technique like the game controller, and thus a detailed description thereof will be omitted.

On the other hand, the present invention is not limited to the described embodiments, it is possible to use and change the application area, and various modifications and variations can be made without departing from the spirit and scope of the present invention is common in the art It is self-evident to those who have knowledge.

Therefore, such modifications or variations will have to belong to the claims of the present invention.

1: downhill exercise equipment 2: case
3: leg 4: circle rotation pad
5 brake 6 brake spring
7: arc rotating pad 8: brake pad
9: base plate
10: circle rotation mounting portion
11: circular rotating plate 12,12 ': bearing
13,13 ': rotary drive 14: circular rotation board
15: circle rotation axis 16: weight balance
17: shaft rotating body
20: arc rotating mount
21: support 22: arc rotation axis
23: arc rotating board 24: arc rotating board
30: forward and backward mounting portion
31: Uneven plate 32: forward and backward axis
33: forward and backward drive body 34: forward and backward spring
41: sensing board 42 interface
43: display
θ: Angle of inclination of rotating drive
θ ': Rotation angle of arc rotation board
θ ": Bending angle of circular wheel
A: circle rotation trajectory of circle rotation board
B: Forward and backward trajectory of the circular rotation board
C: arc rotation trajectory of arc rotation board
L: length of arm for rotation moment of arc rotation board

Claims (5)

A base plate 9 fastened so that the two rotation driving bodies 13 and 13 'have the same inclination angle θ at intervals before and after the upper surface;
A circular trajectory plate 11 and a circular rotary shaft 15 coupled to the rotary drive member 13 of the base plate 9 so as to rotate in a circular trajectory, and the trajectory of an arc to the other rotary drive member 13 '. An arc rotating plate 23 and an arc rotating shaft 22 coupled to each other to be rotated;
A circular rotation board 14 and an arc rotation board 24 fastened to the circular rotation axis 15 and the arc rotation axis 22 to form the same inclination angle θ;
Sliding type characterized in that it comprises a forward and backward axis 32 and the forward and backward drive body 33 for forward and backward drive in the connection assembly portion of the circular rotation board 14 and the arc rotation board 24 Fitness equipment The method of claim 1
The circular rotating shaft (11) is inclined at the fastening angle (θ ") in the circular rotating shaft (15) in the circular rotating plate (11) coupled with the rotary driving member (13) assembled to the base plate (9). Sliding exercise device, characterized in that 15 is mounted to rotate in a conical shape and the shaft rotating body 17 is configured to be linked to the conical rotation at the end of the circular rotating shaft (15) The method of claim 1
The weight balance 16 is configured to be mounted in a direction opposite to the fastening portion of the circular rotation shaft 15 in the circular rotation plate 15 coupled to the rotation driving body 13 to achieve a stable rotation balance. Downhill exercise equipment The method of claim 1
The forward and backward springs 34 are mounted on the connecting assembly between the circular rotation board 14 and the arc rotation board 24 to have elastic restoring force upon compression on the forward and backward shaft 32 for forward and backward driving. Downhill exercise equipment The method of claim 1
The brake 5 is assembled on the upper surface of the circular rotation board 14, and irregularities are formed on the upper surface of the concave-convex plate 31 fixed to the arc rotation board 24, and brake pads for stopping operation 8 ) And a sliding type exercise device, characterized in that the brake spring (6) for stopping release

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