SU959795A1 - Apparatus for training rowers - Google Patents

Description

The invention relates to the field of sports and, in particular, to training devices for rowing and can be used to train and train rowers-kayakers and canoeists on land. It is known a device for training rowers, containing leg rests, foot supports, means for imitating the resistance of the aquatic environment I to them; parallel pilots placed on both sides of the seat, and paddle 1. However, this device does not provide real training conditions. The purpose of the invention is to approximate training conditions to real rowing conditions. This goal is achieved by the fact that one of the guides is an elastic pipe, filled with liquid, mounted around the perimeter of the base and having a throttle valve installed against the leg supports, and the other is ;; along the length of two parts, one of which at the point of entry of the paddle has a cree linear section, which forms a gap of variable size with an electric pipe. In addition, the device has U-shaped hangers for holding the second guide, mounted on the base, and having means for changing the angle of inclination of the suspension relative to the base. FIG. 1 shows the device, a general view; in fig. 2 shows a means for simulating resistance to an aqueous medium in FIG. 3 - the same, top view. The device for training the rowers contains the seat 2 located on the base 1, the leg supports 3, the means for simulating the resistance of the aquatic environment, having parallel directions 4 and 5, located on both sides of the seat 2, and the oar 6. The guide 4 is elastic a pipe filled with liquid, mounted around the perimeter of the base and having a throttle valve 7 installed opposite the leg supports 3, and the other guide .5 consists of two parts along the length of which the pdg igz of which is in the place of the paddle 6 has curvilinear part Stock addressing 8uyuschy with elastic pipe 4 variable gap.

The device has U-shaped hangers 8 for holding the guide

5, mounted on the base 1 and having means for changing the angle of inclination of the suspension 8 with respect to the base 1, made in the form of screws 9 .:

The elastic pipe 4 is connected to the base by means of the supports 10.

The device works as follows.

The rower sits on the seat 2, take the oar shaft b in his hands, rests his feet on the stops 3 and starts paddling as in natural conditions rowing on the water.

When mounting the right blade, the shaft of the right end is placed on the pipe 4 in the extreme forward-upper position, is damped on it and then slides along the gap, first from top to bottom, imitating the penetration of the weight blades into the water, and then right back. To catch the oars at the beginning of the deepening, the guides 4 and 5 form a kind of fork (Fig. 3), where the gap is increased. Then, as the oar moves, this gap narrows. Therefore, the paddle b first slides in the gap with little resistance, slightly squeezing the pipe 4. As it moves backward, due to the narrowing of the gap, the resistance increases and the pipe 4 is pressed by the oar more and more. With this pole

6, wedging between the guides 4 and 5, removes the elastic tube 4, presses it against the support 10, forms a membrane moving towards the stroke. This membrane is distilled in the direction of the paddle fluid, which rushes in the same direction. Passing through the opening of the throttle valve 7, the fluid creates a braking effect in the form of dragging the moving oar. With an increase in the speed of movement of weight 6, which is characteristic of the end of the wiring, the liquid rushes into the opening of the throttle 7

with increased speed, but due to the fact that the cross section of the hole remains constant, its carrying capacity changes little and the braking increases sharply.

By adjusting the gap between the guides 4 and 5 (its width and the degree of contraction from the front to the back), as well as the size of the orifice of the throttle valve 7, it is possible to achieve real load dynamics, which can be modified at different frequencies of rowing movements.

In such a simulation of the conditions of the wiring, when its speed changes at different stages (at the beginning, in the middle, at the end of it), when the frequency of the strokes changes, it will correspond to the manner in which it will change in conjunction: at the beginning when the weight is deep, it will increase by virtue of increasing the friction of the oars against the guides and to a lesser extent, will be determined by the speed of movement; further, when a membrane is formed at the site of compression, the pipe will have the effect of braking with fluid flowing through the throttle, and then the braking force will increase in a square relative to the speed of the Paddle Movement.

This modeling achieves the specificity of braking, on the one hand, when the paddle blade is deepened, and, on the other hand, with direct wiring. This gives the effect of a real load on the paddle, characteristic for rowing on water.

Similarly, the device operates during the paddle with the left side (paddle) of the oars, only in this case the liquid in the pipe moves not in a clockwise direction, but on opposite.

This device provides an effective training of rowers-kayakers of various qualifications and can be used for rowers.

Claims (2)

1. A device for training rowers, for example kayakers, containing seat-mounted legs, an instrument for simulating resistance to the aquatic environment, having parallel guides, spaced on both sides of the seat, and an oar, characterized in that training to real rowing conditions, one of the guides is an elastic pipe filled with fluid, mounted around the perimeter of the base and having a throttle valve installed opposite the leg supports and the other consists of two parts in length, one of which, at the point where the oars is inserted, has a curved section that forms a gap of variable size with an elastic pipe. 2. POP device 1, characterized in that it has O-shaped suspensions for holding the second guide, mounted on the base and having means for changing the angle of inclination of the suspension relative to the base. Sources of information taken into account in the examination 1. USSR author's certificate in application number 2964636, cl. A 63 B 69/06, 07.22.80.