SU1742525A1 - Hydraulic ram - Google Patents

Abstract

Usage: in pumping for the supply of fluid, for example, in hydrotransport systems. SUMMARY OF THE INVENTION: A hydraulic ram contains an open-top liquid collector 8 installed at the outlet of the supply pipe 1 behind the shock valve 2 and communicated with the suction side of the diaphragm n-asos 3 diaphragm and the air cap 11. The empty discharge of the liquid after the shock valve 2 is used to fill the diaphragm pump 3 .1 il.

Description

The invention relates to pump engineering, in particular to the designs of hydraulic rams, and can be used for hydrotransport systems.

Known hydraulic ram compressor containing a supply pipe with a shock valve and an air cap divided by an elastic diaphragm into two cavities, the upper of which has a suction and discharge valves, and the lower one is connected to the supply pipe by a G-shaped pipe installed inside the pipe along the fluid flow and oriented open end towards shock valve.

The known device is capable of pumping both gases and liquids, however, its design does not allow it to be useful to use a blank discharge of liquid to supply it to the consumer and the discharge liquid is irretrievably removed from the system, which reduces the efficiency of the ram and requires a large flow of liquid.

The purpose of the invention is to increase the efficiency of the ram by the beneficial use of a single discharge of liquid to supply it to the consumer.

This goal is achieved by the fact that the hydraulic ram is equipped with a liquid collector open at the top, installed at the outlet of the supply pipe behind the shock valve and connected to the suction valve of the diaphragm pump, and an air cap mounted on the discharge pipe of the diaphragm pump behind the non-return valve.

The drawing shows a schematic diagram of a ram,

The hydraulic ram contains a feed pipe with a shock valve installed in it and a diaphragm pump 3, divided by an elastic diaphragm 4 into two cavities 5 and 6, the lower of which 5 is connected to the feed pipe 1 through the L-shaped pipe 7, oriented in the feed pipe with its free end to the side shock valve 2, at the outlet of which there is a water collector 8 open at the top, communicating with a suction valve 9 located in the upper cavity 6 of the diaphragm pump

3. With this cavity 6 through the check valve 10 is connected to the air cap 11 with the discharge pipe 12.

Gidrotaran works as follows.

The fluid flow moving through the supply pipe 1 with the shock valve 2 open expires from it and the idle discharge liquid fills the water collector 8. In this case, a vacuum is created in the L-shaped pipe 7, as a result of which the diaphragm 4 bends down and sucks the liquid from of the sump 8 into the upper cavity 6 of the diaphragm pump 3. The fluid flow passing through the open shock valve 2 causes an increase in the velocity of the fluid and a pressure drop in the valve, while the shock valve 2 abruptly closes, causing hydro shock in the supply pipe 1, the energy of the water hammer is transmitted through the L-shaped pipe 7 to the lower cavity 5 of the diaphragm pump and bends the diaphragm 4 upward, displacing the liquid from the upper cavity 6 through the check valve 10 into the air cap 11 and the discharge pipe 12 to the consumer. According to the second law of thermodynamics, it is impossible to transfer the entire volume of idle liquid discharge to the consumer by the energy of hydroshock, since part of the energy is dissipated by elastic deformation and pump operation, so excess liquid overflows downward along the edges of the reservoir 8.

The proposed hydraulic ram pumps the consumer only idle discharge liquid, which increases its efficiency and reduces the total liquid flow rate.

Claims (1)

Claim A hydraulic ram containing a supply pipe with a shock valve installed in it, a diaphragm pump divided by an elastic diaphragm into two cavities, the lower of which is connected to the supply pipe by a L-shaped pipe oriented along the flow towards the shock valve, and the upper pump cavity is equipped with a suction and discharge nozzles with non-return valves, characterized in that, in order to increase efficiency by using idle discharge of liquid to supply it to the consumer, the hydraulic ram is equipped with a liquid collector open from above a valve installed at the outlet of the supply pipe behind the shock valve and communicated with the suction pipe of the diaphragm pump, and an air cap mounted on the discharge pipe of the diaphragm pump behind the non-return valve.