RU62339U1 - VOLLEYBALL SIMULATOR - Google Patents

Abstract

The utility model relates to sports training devices of the percussion type, intended primarily for training and improving the technique of percussion in volleyball, on the principle of secondary strikes, and to develop the variability of percussion movements, namely attack strikes with translation. The objective of the solution is to improve the quality of practicing shock movements, in particular, the work of the hand due to the movement of the ball along the arc and the smallest effort of the shock movement when the ball is brought out of rest. The problem is solved in that the volleyball player’s simulator, containing the rod, one end of which is fixed to the supporting frame with the ability to provide at least two degrees of freedom, and the second is connected to the ball, according to the solution, the rod is returned to its original position, containing an elastic stretch, located on rails connected at one end to the frame and at the other end to the rod, the ball is attached to the rod in the form of a concave disk with slots around the circumference, mounted on the rod parallel to its axis and fi siruyuschego shroud located on the ball and embodied in the disk slots. The supporting frame is made U-shaped and equipped with a rod travel stop fixed between the ends of the supporting frame. The limiter of the stroke of the rod is made in the form of two parallel arranged arcuate elements of a U-shaped profile, while the rod is fixed between them in a roller holder. The simulator further comprises shock absorbers located in the extreme positions of the rod stroke. The guides are made in the form of rollers mounted on a supporting frame. The rod is mounted on the frame in the form of a mechanism containing a bracket on which the rod is fixed in the body with eyelets for fixing the rod and two inserts of material with cushioning properties located at opposite ends of the body.

Description

The utility model relates to sports training devices of the percussion type, intended primarily for training and improving the technique of percussion in volleyball, on the principle of secondary strikes, and to develop the variability of percussion movements, namely attack strikes with translation.

A device for learning to kick the ball, consisting of an elastic belt with a fastening element. The belt has a carabiner and a slider for engagement around a fixed support (see US patent No. 4355548, IPC ⁷ A63B 69/00, publ. 20.04.82).

However, this device has a long period of shock waves, and also does not allow volleyball players to obtain information about the correct operation of the hand.

A device for training shock movements, comprising a slide located in the housing, a spring-loaded pressure plate for contacting the slide, located in the longitudinal slot of the housing and equipped with a pressure force control mechanism mounted outside the housing, an element for returning the pressure plate to its original position, rod, elastic an element located around the rod, while the rod has restrictive holes for fixing a given length of the elastic element, and the housing is made with the possibility of ne movement along the axis of the rod, and the plate is made to rotate in the longitudinal slot of the body and reciprocating along an axis perpendicular to the axis of the body, characterized in that the device is introduced block return rod to its original position, connected by a flexible rod with one end of the rod, the second the end of which is connected through a flexible rod with a carabiner, the contact part of the pressure plate is rounded to provide a point contact surface with the slider, while the slider is made in the form of a ball with FRICTION hole for the rod and fixable on the ball rod which has a fixing element in the initial position, the body is stationary. The device for training shock movements is equipped with a simulator of a sports apparatus for designating a place of impact with the possibility of returning it to its original position (see RF patent No. 2224565, IPC А63В 69/00).

However, the reciprocating mechanism of the device provides the ball in a straight line, while the hand moves in an arc. At

shock movement of the palm of the hand on the ball, the ball and hand are in contact at a distance of 25-35 cm. This period is called the “collision”. Different trajectories of the ball and arm lead to a violation of the biomechanical conditions of the “collision”, which affects the quality of the training. The device is not effective enough for practicing the impact technique also because restrictions on the degree of freedom entail high requirements for the accuracy of the impact movement. This is unacceptable when training beginner athletes due to their lack of motor skill in shock movement.

Closest to the proposed solution is a volleyball simulator containing a base with a telescopic tube horizontally mounted on it, at the end of which a ball holder and retainer are fixed. The ball holder consists of a universal joint fork, a guide sleeve, a rod located in the sleeve and having at the other end another universal joint fork for the ball and a counterweight at the other end, the rod being spring-loaded to the counterweight. (AU USSR 1377127, IPC A63B 61/00).

However, in this simulator, the rod with the ball in its initial position is vertically located, this leads to the fact that upon impact the force for removing the ball from the resting state will be directed in the horizontal direction, which does not allow to work out the correct setting of the brush. Attaching the ball to the gimbal sleeve can lead to injury and does not allow to improve the impact technique to the proper extent. In addition, the disadvantage of this device is the lack of urgent information about the quality of the strike.

The objective of the solution is to improve the quality of practicing shock movements, in particular, the work of the hand due to the movement of the ball along the arc and the smallest effort of the shock movement when the ball is brought out of rest when the athlete is not injured.

The problem is solved in that the volleyball player’s simulator, containing the rod, one end of which is fixed to the supporting frame with the ability to provide at least two degrees of freedom, and the second is connected to the ball, according to the solution, the rod is returned to its original position, containing an elastic stretch, located on rails connected at one end to the frame and at the other end to the rod, the ball is attached to the rod in the form of a concave disk with slots around the circumference, mounted on the rod parallel to its axis and fi siruyuschego shroud located on the ball and embodied in the disk slots.

The supporting frame is made U-shaped and equipped with a rod travel stop fixed between the ends of the supporting frame.

The limiter of the stroke of the rod is made in the form of two parallel arranged arcuate elements of a U-shaped profile, while the rod is fixed between them in a roller holder.

The simulator further comprises shock absorbers located in the extreme positions of the rod stroke.

The guides are made in the form of rollers mounted on a supporting frame.

The rod is mounted on the frame in the form of a mechanism containing a bracket on which the rod is fixed in the body with eyelets for fixing the rod and two inserts of material with cushioning properties located at opposite ends of the body.

The utility model is illustrated in the drawing, which shows a General view of the device, where

1. the rod;

2. the axis of attachment of the rod;

3. eyes;

4. stock;

5. supporting frame;

6. shock absorbing inserts;

7. brackets;

8. guide;

9. elastic stretching;

10. rod stroke limiter;

11. shock absorber;

12. ball;

13. elements of stretch tension;

14. a disk for fixing the ball;

15. A bandage to secure the ball;

16. wall;

17. pipe mounting the simulator to the wall;

The device is made according to the pendulum suspension scheme (physical pendulum), which will ensure biomechanical coordinated interaction of the ball and the hand during the “collision” period, since the athlete’s hand can also be considered as a “pendulum suspension”. The upper end of the rod 1, pivotally

fixed using the axis 2 in the eyes 3 of the rod 4, which is placed in the housing. The housing of the rod 4 is mounted on the supporting frame 5 with a bracket. It has two inserts 6 of a material with cushioning properties, for example, rubber, located at opposite ends of the body. They are designed to prevent oscillations (excessive vibration) after hitting the rod 1 with the ball 12 about the shock absorbers of the limiter of the rod 11. The rod 4 is made with the possibility of rotation around its axis, and small displacements along the axis due to the presence of inserts 6. Due to this structural embodiment, the rod acquires additional degree of freedom along and around the axis of the rod.

The frame 5 can be mounted on a rack or wall using fasteners 7, for example, brackets. When attaching to a rack, the device can be additionally equipped with a wedge-shaped stop to prevent spontaneous falling of the carrier frame when the fasteners fail.

The block return the rod with the ball to its original position contains a stretch 9 and a guide for it. The guide can be made in the form of a system of guide rollers 8 through which a stretch 9 is passed (rubber shock absorber). In the lower part of the supporting frame 5, a stroke limiter of the rod 10 is installed in the form of two parallel arcuate U-shaped elements, the rod being fixed between them in the holder (not shown in the drawing), for example, in the form of a rubber ring on a sleeve located on the rod. The ring moves along the inner surfaces of the travel stop. The ring with the sleeve is placed on an additional sleeve located on the rod with the possibility of movement along it and fixation in the desired position using the locking bolt.

Arcuate elements limit the oscillations of the rod in the transverse direction. In the longitudinal direction, the movement of the rod is limited by shock absorbers 11, which can be made of packaged rubber plates of different lengths, folded in half and located on the frame in the extreme positions of the longitudinal movement of the rod. A disk with circumferential slots is located at the lower end of the rod, on which a ball is fixed through the gaskets at a distance of 50 mm from the rod, while the plane of the disk is parallel to the axis of the rod. The ball 12 is located in the bandage 15, which, in turn, is fixed in the slots of the disk 14. This design of the ball mount eliminates the hit of the hand on the rod and thereby ensures safety when performing a blow.

Work on the device as follows.

The supporting frame 5 is mounted on the pipe 17 with two detachable brackets 7 with the possibility of vertical movement for installation at the desired height and to ensure collapsible design. The pipe 17 is fixed on the wall 16. On the wall 16 there is a measuring tape for installation at the desired height, taking into account the individual characteristics of the athlete. In the initial state, the pendulum in the form of a rod 1 is located at an angle of 30 degrees to the vertical and is fixed near the nearest shock absorber 10 by a system of rollers 8 with a brace 9 (elastic rubber cord-shock absorber), which corresponds to the technical requirements of the angular direction of the ball to the plane of the court after the impact when performing striker in volleyball. This angle determines the correct operation of the brush. Since the ball moves after an impact along an arc with a radius equal to the length of the rod, the least effort to the ball to bring it out of rest should be applied tangentially to the arc. Any other direction of the shock movement of the striking hand will be associated with great efforts, which in turn will immediately be felt by the athlete, i.e. will receive information about the correctness of the blow and will be required to make adjustments on the next attempt.

The athlete takes a position corresponding to the phase of the strike, with support standing or without support - in a jump. The ball is hit with the palm of the hand. The ball 12, having received a significant charge of kinetic energy (momentum of force) and acceleration after impact, easily overcomes the tension of the stretch, moves along an arc of radius equal to the length of the rod 1 and collides with the distant shock absorber 10. The distance (the ball’s free movement), which overcomes the ball with with a speed of 18-20 m / s is equal to 930-950 mm with a rod length of 800 mm. Faced with a distant shock absorber, the ball loses speed to zero and, due to the stretching tension, the ball returns to its original position. Having exhausted inertial energy for 3-4 reciprocating oscillations (of the order of 1.5-2 sec), the ball calms down in its original position, resting against the nearest shock absorber. The device is ready for use again.

This device allows in practice to implement training in shock movements in volleyball on the principle of secondary strokes and from the very beginning of training to begin to form not only kinematic and rhythmic structures of shock movement, but more importantly - dynamic structures that form the basis of the entire shock movement.

The device allows you to receive urgent information about the height of the removal and the work of the brush.

Claims (7)

1. A volleyball player’s simulator containing a rod, one end of which is fixed on a supporting frame with the possibility of providing at least two degrees of freedom, and the second is connected to the ball, characterized in that a block for returning the rod to its original position, containing an elastic stretch located on guides connected at one end to the frame and at the other end to the rod, the ball is attached to the rod in the form of a concave disk with slots around the circumference, mounted on the rod parallel to its axis and a fixing band, located wife on the ball and fixed in the slots of the disk. 2. The simulator according to claim 1, characterized in that the supporting frame is made U-shaped. 3. The simulator according to claim 1, characterized in that the carrier frame is equipped with a rod travel stop fixed between the ends of the carrier frame. 4. The simulator according to claim 4, characterized in that the limiter of the stroke of the rod is made in the form of two parallel arranged arcuate elements of a U-shaped profile, while the rod is fixed between them in a roller holder. 5. The simulator according to claim 1, characterized in that it further comprises shock absorbers located in the extreme positions of the rod. 6. The simulator according to claim 1, characterized in that the guides are made in the form of rollers mounted on a supporting frame. 7. The simulator according to claim 1, characterized in that the rod is mounted on the frame in the form of a mechanism containing a bracket on which the rod is fixed in the body with eyelets for fixing the rod and two inserts of material with shock-absorbing properties located at opposite ends of the body.