SU1583661A1 - Pumping unit - Google Patents

Abstract

The pumping installation contains a centrifugal pump (CN) 1 with a siphon (C) 4 in the suction and a valve (K). The latter contains a piston (P) 8, in the lower position of which the inner cavity of the CN 1 and C 4 is in communication with the atmosphere, and in the upper position they are disconnected. When the ZN 1 is poured, air from it and from C 4 is removed through K. When ZN 1 is turned on, a force arises through the flow in channels 9 in P 8, which raises P 8 to the upper position. C 4 and the inner cavities of the CI 1 are disconnected from each other and from the atmosphere. When TSN 1 is disconnected and P 8 pressure drops in it under the action of its own weight, it goes down and reports C 4 and TSN 1 with the atmosphere. The vacuum in C 4 is broken and the pressure sensor 1 is under atmospheric pressure. Thereby, air is not allowed to get into the TSN 1 through its glands and ensures readiness for re-start. Thus, the invention makes it possible to simplify the design by using K to remove air from TsN 1 and C 4 during start-up and to enter it when stopped. 2 Il.

Description

The invention relates to a pump engineering and can be used in reclamation pumping stations for filling centrifugal pumps before starting them.

The purpose of the invention is to simplify the design by using a valve to remove air from the internal cavities of the pump.

In FIG. 1 shows an installation diagram; in FIG. 2 - valve design.

The pump installation contains a centrifugal pump 1 connected to a source 2 of pumped liquid through a suction line 3 and a pipeline with a section in the form of a siphon 4, a shut-off element 5 mounted on the pressure pipe, and a valve 6 made in the form of a cylindrical body 7 and installed in it with the gap and with the possibility of vertical movement of the piston 8. In the latter, axial and radial channels 9. connected to each other, are made in the valve body 7; the upper and lower holes 10 and 11 are made, respectively connected to to the upper part of the siphon 4 and to the internal cavity of the pump 1 by lines 12 and 13. In this case, in the upper position of the piston 8, the upper and lower holes 10 and I are disconnected, and in the lower one they are communicated by axial and radial channels 9 in the piston 8. In addition, in the housing 7 of the valve 6, an additional hole 14 is made, by means of which the lower hole 11 is in communication with the atmosphere in the lower position of the piston 8. Moreover, in the upper position of the piston 8, the additional hole 14 is closed last, and the valve 6 is installed above the siphon 4.

Installation works as follows.

When turning off the centrifugal pump 1, the piston 8 of the valve 6 under the influence of its own weight takes the lower position. In this case, the internal cavity of the pump 1 through line 13 through the lower hole 11 in the valve body 7, the axial and radial channels 9, and the siphon 4 through line 12 through the upper hole 10 are communicated through the over-piston cavity and hole 14 with the atmosphere.

When you turn on the auxiliary pump (not shown) and fill the pump 1 and the suction line 3 to the level of the siphon 4, air from the internal cavities of the pump 1 and siphon 4 is removed through the hole 14 of the valve 6.

After turning on the pump 1 and opening the shut-off element 5, the liquid from the suction line is removed. Due to this, a vacuum is created in it, and the siphon 4 is poured from the source 2. Pump 1 starts pumping the liquid. At the same time, with increasing pressure in the inner part of the cavity of the pump 1, the liquid enters the valve 6 through line 13. Due to the rotation of the flow during the transition from the axial to the radial channels 9, a dynamic force arises due to which the piston 8 rises and closes the openings 10 and 14. This prevents leakage through them through line 13 into the suction line 3 and into the atmosphere.

Thus, the invention allows the use of valve 6 both to remove air from the internal cavities of the pump 1 and siphon 4 at start-up, and to break the vacuum in the siphon 4 when stopped, which prevents air leaks through the seals and ensures readiness for restarting.

Claims (1)

Claim A pump installation comprising a centrifugal pump connected to a source of pumped liquid by means of a suction line and a pipeline with a section in the form of a siphon, a shut-off element installed on the pressure pipe, and a valve in the form of a cylindrical body with upper and lower holes connected respectively to the upper section of the siphon and the internal cavity of the pump, and installed in the housing with a gap and the possibility of vertical movement of the piston with axial and radial channels communicating with each other, while the hole is placed with the possibility of its overlapping by the piston when the latter is in the upper position and communicating with the lower hole through the axial and radial channels when the piston is in the lower position, characterized in that, in order to simplify the design by using a valve to remove air from the internal cavities of the pump , an additional hole is made in the valve body, through which the lower hole is in communication with the atmosphere in the lower position of the piston and the valve is mounted above the siphon. FIG. 2