RU168234U1 - The mechanism for fixing the cross beam of a sports simulator - Google Patents

Abstract

The utility model relates to sports, in particular to means for training weightlifters. The mechanism of the sports simulator for fixing the transverse beam at a selected height includes a locking pin as part of the electromagnetic mechanism, a housing on which a cylindrical part is mounted, a flexible suspension element, the free end of which fastens the transverse beam assembly to the upper part of the spatial frame. The mechanism for fixing the transverse beam is duplicated at both ends, the cylindrical part being an asterisk rotating on a needle bearing coaxially with the transverse beam, from the end of which holes are arranged around the circumference, aligned with the locking pin. A flexible suspension element is a roller or plate chain, moreover, on one side of the transverse beam, the chain envelops the sprocket of one locking mechanism, and on the other, it touches the sprocket of another locking mechanism. At the same time, the chain is attached not only from above to the spatial frame, but also from below to the base, perpendicular to the horizon level. Using the proposed device provides increased ergonomics of the exercises with the barbell while maintaining the ability to fix the bar at the required height. 3 ill.

Description

The utility model relates to sports, in particular to means for training weightlifters.

A known system that locks the bar as part of a sports apparatus designed to perform exercises in accordance with the natural physical trajectory of each person (RF Patent for the invention No. 2234351, A63B 21/078, 2003), including a lever safety device to prevent the fall of the bar, made with the possibility of regulation depending on the exercise to be performed. The locking system includes two bushings for straight guides inserted in the frame, mounted on the bar of the bar directly closer to its edges. Hook locks are attached to the bar. The neck is fixed at a certain height by turning the neck with the hands on its axis, after which the hook locks of the neck are engaged with cutouts on the vertical racks of the frame.

The disadvantage of the device is that due to the natural rotation of the hands around the axis of the neck during the movement of the bar, not associated with the end of the exercise, hook locks can accidentally touch the frame elements and cause unexpected resistance to movement, which causes discomfort when performing the exercise. In addition, at the end of some exercises, due to the natural overwork of the body, with large weights on the bar, as well as in view of possible brush injuries, it can be quite difficult to rotate the bar to fix it.

Also known is the mechanism closest to the proposed technical solution for fixing the transverse beam at a selected height (RF Patent for Utility Model No. 141402, IPC А63В 21/00, 2014), which includes a spring-loaded bar with an installed locking finger as part of the electromagnetic mechanism , a housing on which a perforated cylinder is mounted, rigidly fastened to a rotating drum with a spring, designed for winding a flexible suspension element, the free end of which the transverse beam in D is fixed to the upper part of the space frame.

The disadvantage of this device is the low ergonomics of most exercises, including weightlifting, due to the fact that the actuators fixing the transverse beam mechanism are located in the center of the neck. In addition, the spring-loaded bar, passing through the entire neck, increases fatigue of the muscles of the hand, and can also lead to injury.

The objective of the utility model is to increase the ergonomics of performing exercises with a barbell while maintaining the ability to fix the bar at the required height.

The problem is solved in such a way that the mechanism of the sports simulator for fixing the transverse beam at a selected height includes a locking finger as part of the electromagnetic mechanism, a housing on which a cylindrical part is mounted, a flexible suspension element, the free end of which fastens the transverse beam assembly to the upper part of the spatial frame, according to the invention, the mechanism for fixing the transverse beam is duplicated from both ends, and the cylindrical part is an asterisk rotating on a needle bearing, coaxially to the transverse beam, from the end of which the holes are placed around the circumference, coaxial to the locking pin, and the flexible suspension element is a roller or plate chain, and, on one side of the transverse beam, the chain envelops the sprocket of one locking mechanism, and on the other, passes along the sprocket another fixing mechanism, however, in both cases the chain is attached not only from above to the spatial frame, but also from below to the base, perpendicular to the horizon level.

In FIG. 1 shows the mechanism for fixing the transverse beam mounted in the spatial frame of a sports simulator; in FIG. 2 is a side view of FIG. one; in FIG. 3 is an enlarged fragment of one of two fixation mechanisms located at different ends of the transverse beam.

The mechanism of a sports simulator for fixing the transverse beam at a selected height includes a U-shaped spatial frame consisting of one horizontal 7 (Fig. 1) and four vertical beams 9 and 6 (Fig. 2). The frame is attached to the base either motionless or has the ability to move in a horizontal plane along the guides installed on the base (not shown in the drawing). On the vertical beams 6, the sliders 5 are coaxially placed, connected to the transverse beam 1 by a housing 10 having pinch rollers fixed to it 3. Between the housing 10 and the transverse beam 1, needle bearings 11 are mounted coaxially to the transverse beam 1. Asterisks 2 are placed on the needle bearings 14. On the side surface of the sprockets 2 around the circumference there are holes, the axis and diameter of which coincides with the axis and diameter of the hole of the flange 15, which, in turn, is fixedly mounted on the transverse beam 1. Coaxially open The holes of the flange 15 and sprocket 2 accommodate the locking finger 12 of the electromagnetic mechanism 13. Between the sprocket 2 and the rollers 3 there is a roller or plate chain 4, which is attached at one end to the frame and the other at the base 8 so that the beams 6 and 9 are parallel The difference between the described mechanism, mounted on one side of the transverse beam 1 from a similar mechanism on the other side, consists in different substitution of chain 4: on the one hand, the chain runs tangentially to the sprocket, on the other, the chain envelops Building 2 along the arc. This arrangement of chains 4 provides rotation of the sprockets in different directions when moving the transverse beam in a vertical plane. The electromagnetic mechanism 13 is connected to the power button (not shown) by wired or wireless communication. The power button itself can be mounted on the fingers of one of the hands, or on the transverse beam 1.

The device operates as follows. Starting the exercise, the athlete, by pressing the power button, sends a signal to the electromagnetic actuators 13 (Fig. 3), as a result, the locking fingers 12 in both locking mechanisms begin to be retracted into the actuators 13, freeing the free rotation of the sprockets 2 in chains 4. This leads to the fact that the transverse beam 1 begins to move freely in a vertical plane. At any time, if necessary, the athlete, by pressing the power button again, turns off the voltage supply to the electromagnetic mechanisms 13 and the locking fingers 12 enter the holes of the sprockets 2, blocking their further rotation, which simultaneously blocks the further movement of the transverse beam 1. To ensure the electromagnetic mechanisms 13 uses a safe voltage of 12 V DC.

The proposed device provides increased ergonomics of the exercises with the barbell while maintaining the ability to fix the bar at the required height.

Claims (1)

The mechanism of a sports simulator for fixing the transverse beam at a selected height, including a locking finger as part of the electromagnetic mechanism, a housing on which a cylindrical part is mounted, a flexible suspension element, the free end of which fastens the transverse beam assembly to the upper part of the spatial frame, characterized in that the mechanism the fixation of the transverse beam is duplicated at both ends, the cylindrical part being an asterisk rotating on a needle bearing coaxially with the transverse beam , from the end of which holes are placed around the circumference, coaxial to the locking finger, and the flexible suspension element is a roller or plate chain, moreover, on one side of the transverse beam, the chain envelops the sprocket of one fixing mechanism, and on the other, it passes relative to the sprocket of another fixing mechanism, however In both cases, the chain is attached not only from above to the spatial frame, but also from below to the base, perpendicular to the horizon level.

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