BG63952B1 - Hydraulic apparatus - Google Patents

Abstract

The apparatus is used as a shock-absorber for sports training equipment with facilities for the adjustment of the physical strain applied on it. It is compact, has the facility for selection of the application of different physical strain on the cylindrical body in both directions of its shifting, as well as simplified one-side filling of fluid inside the operational space in the volume of the cylindrical body. The apparatus includes a cylindrical body (1), closed at both its ends, on the external wide of which a handle (2) is mounted, and it houses a piston (8) inserted into the middle part of a cylindrical stem in both ends of which seals (12), a regulator and a whole for a pressure gauge (16) in the body (1) are fitted. Piston (8) has holes (81), and the stem is in the form of a hollow cylindrical stem (7) in which a partition wall (9) in the form of a disc is fitted , which, together with piston (8) is fixed by a piston pin (82). At both its ends, the cylindrical body is closed by an internal flange (3), washer (5), sealing ring (6) and external flange (4) , fitted one after the other and fixed by bolt connections. Pass-through elliptic holes (71) are machined in stem (7), on both sides, next to piston (8), which conduct valve pins (101), fixed to valves (10) with valve holes (102). The regulator is made of a pair of regulation stems (13) fitted longitudinally in the hollow cylindrical body (7), on the external ends of which adjustment nuts (14) are fitted, and their internal ends being connected by means of cylindrical springs (15) by pins (101) which are driven across holes (71). 1 claim, 2 figures

Description

Technical field

The invention relates to a hydraulic device, which is used as a shock absorber for sports training equipment with the ability to regulate the physical force applied to them.

BACKGROUND OF THE INVENTION

A hydraulic device is known, which consists of a cylindrical body in which a piston is arranged, two-sidedly clamped with dense stems connected to one another at one end, the other end of which is driven through seals and openings outside the cylindrical body. Outside the cylindrical body is mounted a regulator, designed as a U-shaped tubular body with a stopcock connected at both ends to the openings of the cylindrical body. In the two bent parts of the regulator, there is provided one opening for filling and emptying the fluid in and out of the cylindrical body, closed with a screw cap, and between the threaded openings a stopcock / 1 /.

The well-known hydraulic device has a very large structure because the regulator is attached externally to the surface of the cylindrical body; the physical force applied to the cylindrical body is uniform in both directions of its displacement, thus complicating the bilateral filling with fluid with respect to the piston of the two chambers of the cylindrical body.

SUMMARY OF THE INVENTION

It is an object of the invention to provide a hydraulic device having a compact design with the choice of applying different physical force to the cylindrical body in both directions of its displacement, simplifying the filling with fluid in the workspace - unilaterally, in the volume of the cylindrical body.

According to the invention, the problem is solved by a hydraulic device consisting of a cylindrical body closed at both ends, and a handle is mounted on its outer surface, with a piston inside the cylindrical stem in which is placed inside it. two ends are sealed, by a regulator and a pressure gauge opening in the cylindrical body. The piston has openings, and the cylindrical stem is designed as a hollow cylindrical stem with a disk-shaped partition wall disposed therein, which together with the piston is fixed by a piston pin. The cylindrical body at both ends is closed with side by side and bolted internal flange, washer, sealing and outer flange. In the hollow cylindrical stem, on the two sides, near the piston, are passed through elliptical holes through which are passed the valve pins, fixed to the valves with valve openings. The regulator is designed as a pair of longitudinally arranged hollow cylindrical stems with a pair of regulating stems, the outer ends of which have adjusting nuts and their inner ends are connected by cylindrical springs to the valve pins that pass through the ellipse through holes.

The advantages of the hydraulic tool are that it significantly increases the efficiency of the training process, due to the possibility of providing different or equal loading in both directions of displacement of the cylindrical body relative to the piston; the effort exerted by the training subject to move the cylindrical body may be optionally varied by winding or unscrewing the adjusting nuts, and, depending on the speed and force of the effort applied, the pounds for physical overcoming by the training subject may be altered.

Description of the attached figures

The invention is illustrated by the exemplary embodiment of the hydraulic device shown in the accompanying drawings, of which:

Figure 1 is a longitudinal section of the device;

Figure 2 is a cross-sectional view along AA of Figure 1.

An exemplary embodiment of the invention

As shown in FIG. 1, the hydraulic device is composed of a cylindrical body 1 with a handle 2 gripped externally thereto, which body is closed bilaterally with a pair of inner flanges 3 and a pair of outer flanges 4, between which is inserted a washer 5, and in 6. In the volume of the cylindrical body 1 there is a hollow cylindrical stem 7 longitudinally, in the middle of which a piston 8 is provided with openings 81. Inside the hollow cylindrical body 7 there is a disc-shaped partition wall 9, which the wall and piston 8 are fixedly fixed by b a metallic pin 82. On both sides of the piston 8 through the hollow cylindrical rod 7 are routed through oval holes 71, through which the valve pins 101 anchored rigidly to the valves 10, filled with valve openings 102 for passage of fluid. The bilaterally hollow cylindrical stem 7 is closed with bushings 11, in which a seal is inserted 12. Longitudinally in the hollow cylindrical stem 7 there are a pair of regulatory stems 13, the two outer ends of which have adjusting nuts 14 and the other end is connected by cylindrical springs. 15 with the surface of the valve pins 101 extending through the orifice orifices 71.

A pressure gauge 16 is formed in the cylindrical body 1, which is used to fill and empty the fluid into and out of the cylindrical body 1.

The action of the hydraulic tool is as follows.

According to the invention, the hydraulic device at both ends is rigidly attached to a stand, which is part of some kind of "gladiator" sports-training device not shown in the figures.

Through the physical force exerted on the handle 2, the training subject seeks to move the cylindrical body 1 in a bidirectional manner. For example, when applying physical force upward to the handle, the fluid fluid contained within the cylindrical body 1 passes through the valve openings 102. valve 10 and through the openings of the piston 81, which exerts pressure on the tight part of the lower valve. However, due to the constructive divergence of the openings of the two valves 10 of FIG. 2, the fluid from one side of the piston 8 to its other 5 side is obstructed. Depending on the deformation of the cylindrical springs 15 of the adjusting nuts 14, a proportional relationship is created between the deformation and the pressure on the fluid, which can set the desired 10 force for the displacement of the cylindrical body of the instrument by the user. The fluid pressure varies depending on the speed of the applied physical force on the handle 2, as well as on the condition 15 of the lower cylindrical spring 15 caused by the lower adjusting nut 14.

In the opposite direction of action on the handle 2, the action of the hydraulic device is analogous, the force in this 20 juice can be selected in advance and optionally be greater, equal or less than the applied force in the right direction. These efforts in both directions of movement of the instrument are created by winding or unscrewing the adjusting nuts 14. In the extreme twisting position of the two adjusting nuts, the movement of the cylindrical body 1 is enabled, which enables the hydraulic device according to the invention to be rotated. used as a lever.

The hydraulic instrument can be part of a training device for performing physical exercises to maintain and improve the human body. 35 In addition, the instrument is fully protected against gravitational forces, which eliminates any danger of harmful effects and injuries to users of the device. This is due to the fact that upon reaching the 40 limit force for displacement of the cylindrical body 1 and termination of the subsequent force due to lack of physical forces, the instrument remains stable in the reached position, eliminating the possibility of 45 receiving back, adverse impact, on the training subject.

Claims (1)

Claims 50 1. Hydraulic device consisting of a cylindrical body, closed at both ends, on the outer surface of which a handle is mounted 3, and inside it is a piston placed on the middle part of a cylindrical stem, at which two ends are placed seals gripped by clamping nuts; from a regulator and a pressure gauge opening in the cylindrical body, characterized in that the piston (8) has openings (81) and the cylindrical stem is formed as a hollow cylindrical stem (7) with a barrier wall (9) disposed therein. on a disk, which together with the piston (8) are fixed by a piston pin (82), whereby the cylindrical body (1) at its two ends is closed with the flange (3) placed side by side with bolted joints, a washer (5), sealing (6) and outer flange (4), such as in the hollow cylindrical stem (7), on both sides, near through the shaft (8), ellipse through holes (71) are passed through which are passed the valve pins (101) fixed to the valves (10) with the valve openings (102), the regulator being made of longitudinally arranged cylindrical stem ( 7) a pair of regulatory stems (13), the outer ends of which have adjusting nuts (14) and their inner ends are connected by cylindrical springs (15) to the valve pins (101), which are passed through the ellipse through holes (71). .