RU141402U1 - MULTI-FUNCTION SPORTS SIMULATOR FOR WEIGHTS - Google Patents

Abstract

1. A multifunctional sports simulator for weight training, characterized in that it contains a spatial frame (1) with a block system (12) mounted on vertical and upper racks for placing cables, which are attached to the handrails (13) at one end and the other end to the transverse beam (2) located inside the spatial frame for accommodating weights, which contains a linear bearing in the housing (10) and a guide (11) of circular cross section, the ends of which are installed in the slot of the vertical struts of the spatial frames and are fixed with clamping brackets, a spring-loaded bar (3) with a locking pin (4) installed, a mechanism (5) for fixing the transverse beam at a selected height, including a frame (6) on which a perforated cylinder is mounted, (7) rigidly fastened to a rotating a drum (8) with a spring, designed for winding a flexible suspension element (9), the free end of which the transverse beam assembly is fixed to the upper part of the spatial frame. 2. A multi-functional sports simulator for training with weights according to claim 1, characterized in that the guide of the linear movement system has a section different from round. A multi-functional sports simulator for training with weights according to claim 1, characterized in that the linear movement system consists of a profile and rollers sliding on it. A multi-functional sports simulator for weight training according to claim 1, characterized in that the number of mechanisms for fixing the transverse beam is more than one. A multi-functional sports simulator for weight training according to claim 1, characterized in that the drum �

Description

1. The technical field to which the utility model relates.

A multi-functional sports simulator for weight training is used to perform exercises for various muscle groups using adjustable free weight in the form of weightlifting pancakes for a bar.

2. The prior art.

An analogue of the utility model is Smith's simulator (Internet page address: http://ferrum-body.ru/trenazher-smita.html). Signs of the Smith simulator are a metal frame and a weightlifting bar, which contains two bushes for guides and two hook locks. The movement of the neck is carried out strictly vertically along two guides that are rigidly attached to the frame. 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 matching features of the Smith simulator with the utility model are the frame, neck and the ability to lock the neck at a certain height.

In turn, the construction of an analogue of a utility model - Smith's simulator - is limited to perform a large number of exercises in connection with the use of only one plane for the movement of weights.

At the same time, it is exercises with free weight (i.e., with a weight whose movement is not limited in any plane) that are recognized as the most effective for weightlifting training, but such exercises are also the most traumatic.

The utility model allows you to perform exercises with free weight, without restricting its movement, and the presence of a locking mechanism allows you to perform dangerous exercises when the bar with the weight is above the person, stop the movement of the bar with weight at any point only with the movement of the fingers, and not with the movement of the wrist how this happens in an analogue of a utility model. During the exercise, the student’s hands are loaded, which makes them difficult to move, and his fingers are free.

3. Disclosure of a utility model.

The technical result of the utility model is the safe execution of exercises with the use of a weightlifting bar with weights, as well as other exercises with weights using a loaded bar and a cable transmission system.

The utility model (Fig. 1) contains a spatial frame (1), a transverse beam (bar) (2) for placing weights, which is located between the front and rear vertical pillars of the frame, a locking mechanism (5), rigidly attached to the bar, a flexible suspension element (9), fixed at one end on the drum (8) of the locking mechanism, and at the other end at the top of the spatial frame, the linear movement system (10, 11) of the neck. On the upper part of the spatial frame there is a mechanism for performing the “mixing-raising hands” exercises, which contains pulley wheels (14) for placing the cable, vertical profiles (15) with handles, upper horizontal profiles (16) with spring clips for adjusting the position relative to the frame . In addition, a frame is installed on the frame for performing exercises on the uneven bars (17).

Achieving the result is due to the absence of restrictions on the movement of the loaded neck in the up-down, forward-backward directions, but the restriction of dangerous movement in the left-right direction, as well as the ability to stop the movement of the neck using the locking mechanism only by removing the fingers from grasping the upper part of the neck, which solves the problem of safe training with free weights.

4. A brief description of the drawings.

Figure 1 - General view of the utility model from top to right. The figure shows a spatial frame, a system of blocks for cables, a transverse beam with a locking mechanism and a linear movement system, a mechanism for performing exercises "mixing-raising hands", a system for performing exercises on uneven bars.

Figure 2 is a detailed view of the locking mechanism and part of the transverse beam and spring bar.

5. Implementation of a utility model.

The utility model is carried out by manufacturing metal parts on metal-working machines from standard rolled metal (steel sheet, steel bar, steel profile pipes) and subsequent assembly of parts using metric fasteners and welding. All raw materials used in the utility model are available in serial production.

The design of the utility model is as follows (Fig. 1). Inside the spatial frame (1) there is a transverse beam (2), on which weights are placed. The transverse beam contains a spring-loaded bar (3) with a locking pin (4) installed (FIG. 2), a mechanism (5) for fixing the transverse beam at a selected height. The locking mechanism comprises a frame (6) on which a perforated cylinder (7) and a rotating drum (8) rigidly connected with it are mounted with a spring. A flexible suspension element (9) is wound around the drum (sling tape). The free end of the sling tape is attached to the top of the spatial frame. At the ends of the transverse beam, linear displacement systems are installed, including a linear bearing (10) in the housing and a circular guide (11), the ends of which are installed in the slots of the vertical posts of the spatial frame and are fixed with clamping brackets. Also on the vertical and upper racks of the frame is a system of blocks (12) for placing cables, which are attached at one end to the handrails (13), and at the other end to the transverse beam located inside the spatial frame.

When pressed (grasping the fingers of the arms of the crossbeam (2)), the clamping bar (3) is pressed and the locking finger (4) unlocks the drum (8) of the locking mechanism (5). In this position, the transverse beam can move up and down and back and forth, however, the linear movement system does not allow the transverse beam to deviate in dangerous directions from left to right. During the movement of the transverse beam, the coil spring is placed on the drum of a flexible suspension element (9), placed inside the drum between the walls of the perforated cylinder (7) and the drum shaft. When removing the girth with the fingers of the hands of the upper part of the transverse beam, the clamping bar returns to its original state, the locking finger enters the perforations in the cylinder, allowing the drum to be fixed.

Claims (11)

1. A multifunctional sports simulator for weight training, characterized in that it contains a spatial frame (1) with a block system (12) mounted on vertical and upper racks for placing cables, which are attached to the handrails (13) at one end and the other end to the transverse beam (2) located inside the spatial frame for accommodating weights, which contains a linear bearing in the housing (10) and a guide (11) of circular cross section, the ends of which are installed in the slot of the vertical struts of the spatial frames and are fixed with clamping brackets, a spring-loaded bar (3) with a locking pin (4) installed, a mechanism (5) for fixing the transverse beam at a selected height, including a frame (6) on which a perforated cylinder is mounted, (7) rigidly fastened with a rotating a drum (8) with a spring, designed for winding a flexible suspension element (9), the free end of which the transverse beam assembly is fixed to the upper part of the spatial frame. 2. A multi-purpose sports simulator for weight training according to claim 1, characterized in that the guide of the linear movement system has a cross-section other than round. 3. A multi-purpose sports simulator for weight training according to claim 1, characterized in that the linear movement system consists of a profile and rollers sliding on it. 4. The multi-functional sports simulator for weight training according to claim 1, characterized in that the number of mechanisms for fixing the transverse beam is more than one. 5. The multi-functional sports simulator for weight training according to claim 1, characterized in that the drum of the locking mechanism of the transverse beam is equipped with an electromagnetic brake. 6. The multi-functional sports simulator for weight training according to claim 1, characterized in that the drum of the mechanism for fixing the transverse beam is equipped with a drum brake with a mechanical drive. 7. A multi-functional sports simulator for weight training according to claim 1, characterized in that the drum of the transverse beam fixing mechanism is equipped with a brake with an electric drive. 8. The multifunctional sports simulator for weight training according to claim 1, characterized in that the mechanism for fixing the transverse beam assembly is mounted on a spatial frame, and the free end of the flexible suspension element is fixed on the transverse beam. 9. A multifunctional sports simulator for weight training according to claim 1, characterized by the presence of a stationary or mobile bench, allowing to perform exercises while sitting. 10. The multi-functional sports simulator for weight training according to claim 1, characterized by the presence of a mechanism for performing exercises "mixing-breeding hands." 11. A multifunctional sports simulator for weight training according to claim 1, characterized by the presence of a system for performing exercises on the uneven bars.

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