SU850939A1 - Hydraulic ram installation - Google Patents

Description

a1

The invention relates to a pumping unit / in particular, to the design of hydraulic rams, and can be used in the design of closed autonomous systems of transportation, metering of liquid.

A hydraulic ram is known, containing a working chamber with a shock valve, connected to pressure and air tanks, the air tank being made in the form of caps evenly spaced around the circumference, equipped with pressure valves and communicated with each other 11. °

Such a device does not provide a closed, autonomous cycle of water circulation.

Closest to the invention is a hydro ram containing a pressure vessel, a working chamber with impact and discharge valves, an air cap located above the latter, supply and discharge lines, a pressure pipe, and a receiving tank connected by a drain pipe with a pressure vessel. (2).

A disadvantage of the known installation is the impossibility of autonomous.

work in a closed circulation cycle.

The purpose of the invention is to provide battery life.

The goal is achieved by the fact that the discharge line is connected to the pressure tank, the air cap and the receiving tank are made elastic and have rigid air shells interconnected between them, an additional air cap is placed above the impact valve, and between it and the working chamber is an elastic diaphragm and the pressure on the tank 15 is sealed and has a vacuum pump with an automatic switch-on system installed on it.

The drawing shows a diagram of the hydro-installation.

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Hydro-ram installation contains a pressure vessel 1, a working chamber 2 seconds. shock and discharge valves 3 and 4 and located above the last air cap 5 ,. underwater

2S and the discharge line 6 and 7, the pressure pipe 8 and the receiving tank 9f are connected by a drain pipe 10 with a pressure tank 1, which is also connected by a diverter 7. 7. The air cap} 5 and the receiving tank 9 are elastic and equipped with a centerline between each other by the pneumatic line 11, rigid air shells 12 and 13, an additional air cap 14 is placed above the impact valve 4 and an elastic diaphragm 15 is placed between it and the working chamber 2, and the pressure tank 1 is sealed and has a vacuum pump installed on it 16 with automatic switching system 17.

Hydroaran installation; works as follows.

The pressure tank 1 is filled with the working fluid, after which the locking device opens and the fluid enters the working chamber 2 through the supply line 6 and is poured into the air cap 14 through the opening of the open shock valve 3. A hydraulic shock occurs and the discharge valve 4 is opened under the action of the fluid. The fluid is displaced into the air cap 5. But at this time, the fluid pressure from the working chamber g to the shock valve J decreases and under the action of its own weight and pressure of the displaced fluid opens up. Opening the valve L causes the closing of the discharge valve 4, etc., i.e. the injection process takes place cyclically. When a part of the fluid flows out of the pressure vessel 1, a vacuum is formed inside it, and in the air cap 14 Ttofl, the pressure of the displaced liquid rises, which should not exceed the pressure of the pressure valve itself in the working chamber 2. Under the action of the difference in operating pressure and vacuum, the liquid from the air cap 14 along the discharge line 7 again returns to the pressure tank 1. By volume, the air cap 14 greatly exceeds the air cap. At the same time, under the action of overpressure from the air cap, the liquid through the pressure pipeline tt is injected into the receiving tank 9 with elastic walls. The injection of fluid into the air cap 5 through the elastic stretchable walls of the cap itself creates an increase and a decrease in pressure in the rigid air shells 12 and 13.

When reducing the value of rarefaction. Neither in the pressure vessel i does the automatic switching-on system 17 drive the vacuum pump, which drives the installation to the starting position.

The presence of flexible air flasks of packs 5 and 14, as well as the receiving reservoir 9 and the hard air shells 12 and 13, allows a long time to ensure a constant volume of air and a long working time S of the capacity of a hydrant installation. The mounting installation ensures economical and long-term operation of the circulation pneumo-fluidic circuit.

Claims (2)

1. USSR Author's Certificate for Application No. 2704695 / 25-06, cl. F 04 F 7/02, 1978. 2. Adapted for France 0 3311205, cl. F 04 F 7/02, publ. 1977.