RU2227057C1 - Running track - Google Patents

Abstract

FIELD: sportive equipment. SUBSTANCE: running track has supporting members arranged below belt. Each neck of supporting members is inserted into spherical support of transformation unit. Spherical support is in contact with sensors through pushers located in guiding cases, which are arranged in inclined symmetrical position with respect to one another and at right angle to supporting member neck. EFFECT: improved information content of signals indicative of sportsman's motion. 2 dwg

Description

The invention relates to simulators, and more specifically to “running” tracks used to study and train athletes in walking and running.

Known treadmill according to the patent of the Russian Federation No. 2135246, class. A 63 B 22/02 with a priority of 11/06/98, containing a horizontal drive tape, supporting elements under the tape, each neck of which is placed in the spherical support of the conversion unit, which is in contact with the sensors through pushers placed in the guides of the housing.

A disadvantage of the known treadmill is the horizontal arrangement of the front and rear sensors of each conversion unit and the influence of the drive tape on them, where the tape counteracts in the front step and contributes to the foot effort in the back step, which does not allow to obtain optimal signals from these sensors.

The technical result of the invention is to obtain optimal signals from the front and rear sensors.

The specified technical result is achieved by the fact that in the known treadmill containing a horizontal drive belt, support elements under the belt, each neck of which is placed in a spherical support of the conversion unit in contact with the sensors through the pushers placed in the housing guides, according to the invention, the housing guides are arranged obliquely, symmetrically to each other and installed at right angles to the neck of the support element.

The invention is illustrated by drawings, where:

figure 1 shows the node conversion effort, side view;

figure 2 is the same front view.

The running track contains a base 1, a horizontal drive belt 2, support elements 3 with spherical necks 4 at the ends, an antifriction 5, an elastic antifriction 6 of a transformation unit, a truncated support 7 with vertical planes 8 located at right angles to each other and parallel to the inner planes 9 buildings 10.

The lower part of the support 7 has an outer sphere 11 located parallel to the inner sphere 12 of the housing 10.

The vertical plane 8 and the outer sphere 11 of the support 7 have tolerances for the planes 9 and the inner sphere 12 of the housing 10.

The bearing 7 is mounted bearing 13 with a spherical guide 14 with the possibility of rotation in the vertical and horizontal axes.

In the guide 14 of the bearing 13 is placed a spherical neck 4 of the support element 3.

The housing 10 has a vertical guide 15, symmetrically located to each other inclined guides 16 installed at right angles to the neck 4, and a side guide 17 located along the axis of the neck 4.

Sensors 18 are mounted in the housing 10 with pushers 19 placed in the guides 15, 16, 17 in contact with the outer sphere 11 of the support 7.

The drive belt 2 lies on the antifriction 5 and the supporting elements 3, the element 3 is placed in the antifriction 5 and contacts the front, rear and lower sensors 18 through the spherical neck 4, the bearing 13, the support 7 and the pushers 19, the end face of the neck 4 is in contact with the side sensor 18 through the pusher 19.

Work.

When supporting the legs in the front step, the force is transmitted to the front and lower sensors 18 through the drive belt 2, the support element 3, the neck 4, the bearing 13, the outer sphere 11 of the support 7 and the pushers 19 and through the end of the neck 4 to the side sensor 18 through the pusher 19.

In the rear step, the force is transmitted by analogy to the rear, lower and side sensors 18.

Thus, the transformation unit divides the effort into components and converts them into informative signals of analytical information, valuable in an individual approach in training.

The invention provides optimal informative signals about the front and back steps of the athlete, simplifies the design of the conversion nodes, increasing the reliability of their work.

Claims (1)

A treadmill containing a horizontal drive belt, support elements under the belt, each neck of which is placed in a spherical support of the conversion unit, which contacts the sensors through pushers placed in the guide rails of the housing, characterized in that the guide rails are inclined, symmetrically to each other and installed under the direct angle to the neck of the support element.

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