SU861727A1 - Hydropneumatic apparatus working member - Google Patents

Description

(54) WORKING BODY OF HYDROPNEUMATIC DEVICES URJADKO

one

The invention relates to the field of pneumohydraulic engineering and concerns the working bodies of hydropneumatic devices designed ... to convert mechanical energy into hydraulic energy and vice versa. It can be used in pneumohydroaccumulators, pumps, pneumohydraulic motors and other hydropneumatic devices in various areas of national economy.

A working body of hydropneumatic devices is known, which contains a toroobraeik working chamber of a two-stage cross section, formed by a cylindrical element, the ends of which are drawn inward and interconnected 1.

A disadvantage of the known working body is the relative complexity of the design due to the presence of a flexible pre-stressed or rigid body.

The aim of the invention is to simplify the design.

To achieve this, the cylindrical element is formed of two hermetically interconnected tubing of unequal diameter.

FIG. 1 shows a pneumohydroaccumulator with the described working body in a position corresponding to

With a lower minimum pressure f in FIG. 2, in the position corresponding to the maximum pressure; in FIG. 3, a pneumatic regulator with the described working body in a position corresponding to the maximum stock of accumulated energy; in fig. 4 the same, at the end of the recovery of mechanical energy into the system.

The working body of the described hydro-pneumatic devices contains a toroid-shaped 5 chamber 1 formed by a cylindrical element consisting of two tubes 2 and 3 of unequal diameter hermetically interconnected. The ends of the tubes 2 are of larger diameter and

20 tubes 3 of smaller diameter are drawn inside and interconnected.

The toroid-shaped chamber is equipped with a nipple 4. In the case of the use of a working body in hydro-pneumatic accumulators 25 torus (Fig. 1 and 2) at the point a of the connection of the inside ends of the tubes 2 and 3, the internal channel 5 in the working organ is sealed, and the working organ is placed in a rigid case b "

30 with which he is hermetically connected by

the perimeter at the site of the external connection of tubes 2 and 3. In the case b, a hydraulic chamber 7 is formed with a nozzle 8 for connection to the hydraulic system, in the case of application of the working body in accumulators of mechanical energy, in particular in pneumatic regulators (Fig. 3 and 4), with a dot The connections of the inward-drawn ends of the tubes 2 and 3 are connected by a pull of the ha 9. The latter can be made flexible and wound, for example, on the drum 10 connected through the reversing gear 11, the free-wheeling mechanism 12 and the chain or belt drive 13 with the shaft 14. 15 cars (not shown). In addition, the drum 10 is connected to the shaft 14 of the engine 15 via a controllable friction clutch 16 and is provided with a brake 17.

Mountain-like chamber 1 is filled with compressed gas through nipple 4. At the same time, due to the difference in diameters of tubes 2 and 3, a force arises, tending to turn out the tube 2 of a larger diameter and pull the tube 3 of a smaller diameter inside. In this position, the volume of the chamber I is maximum and the pressure in it is minimal. If a tank is supplied with a hydraulic chamber 7 of a hydropneumoaccumulator (Fig.2) under pressure from a hydraulic system (not shown) or pulled out of 9 (Fig. 3), the tube 2 of the larger displacement meter will be drawn inwards and the tube 3 smaller diameter - turn outwards, in the extreme position (Fig. 2 and 3) the volume of torus-shaped chamber 1 will be minimal, and the pressure in it and, therefore, maximum stored energy. In the future, this energy is given to the hydraulic system or propulsion unit 15 of the machine. In the pneumatic regulator (Fig. 3 and 4, the energy storage in chamber 1

ff

This is accomplished, for example, in the process of braking the machine when the clutch 16 is engaged. In this case, the free-wheeling mechanism 12 unlocks the gear train 11. After the energy is stored by the working member, the clutch 16 is turned on and energy is given to the propeller 15 through the gear train 11, the free-wheeling mechanism 12 and the chain gear 13.

The working tool described may also be used in pumps, hydropneumatic engines and other hydropneumatic devices using a variable volume chamber.

Due to the fact that the toroidal chamber 1 is formed by two pipes 2 and 3 of different diameters and different, for example conical, hermetically connected to each other, the working member can be made without a body, thereby simplifying its design and creating the possibility of obtaining different traction characteristics.

Claims (1)

1. USSR author's certificate No. 703680, cl. F 15 B 15/10, 1976.  R IG) 1o B / 7/7 J to ri 1-1