SU1028795A1 - Recuperation water supply system - Google Patents

Abstract

The heat recovery water supply system containing the water main, reservoir, distribution network and control tank connected to the water main, reservoir and distribution network is different in that the control capacity is located below to increase the reliability of the system by ensuring maximum water exchange in the reservoir. the bottom of the tank and consists of upper and lower insulated compartments, equipped with corrugated chambers with bottoms, while the upper compartment is equipped with sensors limiting position bottom, its corrugated chamber is connected to the tank and distribution network by pipelines with check valves, and the cavity between the corrugated chamber and the wall of the regulating tank is connected to the conduit and the tank by pipelines with shut-off devices connected to the sensors of the bottom positions of the bottom corrugated chamber the compartment is connected to the water conduit, and the cavity is meddu by the chamber and the wall of the regulating capacitance | CL lower compartment is connected to the distribution network. with

Description

The invention relates to the construction of group water supply systems and can be used to provide high quality water to settlements and other objects dispersed over a large area. A water supply system is known, comprising a conduit, a reservoir, a distribution network connected to the conduit by a pipeline, on which a hydraulic elevator is installed, and two pressure regulators, one of which is installed on the pipeline connected to the reservoir and the distribution network, and the other on the suction In the well-known system, with a large unevenness of water consumption in the distribution network, the daily expenses through the discharge and suction pipelines are unbalanced, which leads to a rapid full reservoir and lengthening the terms of complete water exchange in it, and as a result - unacceptable deterioration in the quality of water supplied to the consumer. The recovery system of water supply containing the water reservoir, distribution network and control capacity connected to the proposed one is the following: With the water supply system, reservoir and distribution 2. A disadvantage of the known system is its operability only. With a large pressure difference in the water ri and the distribution network. In addition, in the known system, the time of complete water exchange in the reservoir is more than permissible according to the norms. The purpose of the invention is to increase the reliability of the system. by keeping the liver maximally exchanging water in the reservoir. The goal is achieved by the fact that in the recovery system of water supply containing a conduit, a reservoir, a distribution network and a regulating tank connected to the conduit, a reservoir and a distributor network, the regulating reservoir is located below the bottom of the reservoir and consists of upper and lower isolated compartments equipped with corrugated chambers with bottoms, while the upper compartment is equipped with sensors for the limiting positions of the bottom and its corrugated chamber is connected to a reservoir and a distribution network The valve between the corrugated chamber and the vessel wall is connected to the conduit and the reservoir by pipelines with shut-off devices connected to the sensor of the bottom bottom positions, the corrugated chamber of the lower compartment is connected to the water conduit, and the cavity between the chamber and the wall of the vessel bottom The branch is connected to a distribution network. The water supply system contains a conduit 1, a reservoir 2, a regulating tank 3 consisting of the upper 4 and lower 5 insulated compartments, a distribution network 6, the upper compartment 4 has a corrugated chamber 7 with a massive bottom 8 The inner cavity 9 of the chamber 7 is hydraulically connected to the reservoir 2 a pipeline 10 and a check valve 11, and with a distribution network a pipe 12 with a check valve 13. The cavity 14 between the corrugated chamber 7 and the walls of the upper compartment 4 is connected to the conduit 1 and the tank 2 by means of pipelines House 15 and 16, equipped with aporic devices 17 and 18. With actuators 19 and 20 associated with sensors 21 and 22 of the limiting positions of the bottom 8 of the upper compartment 4, an annular corrugated chamber 23 is placed inside the lower compartment. formed by two coaxial shells 24 and 25, as well as a bottom 26. The chamber 23 of the lower compartment 5 is connected to the conduit 1 by pipes 27 and 28. The cavity 29, bounded by the shells 24 and 25, is connected with the atmosphere by the pipework 30. The cavity 31 between the shell 24 and the walls of the chamber 5 is connected to the distribution network through a pipeline 32. The water supply system operates as follows. Water under pressure flows from conduit 1 through conduit 15 through shut-off device 17 to compartment 14 under the influence of excess pressure. Massive bottom 8 rises, displaces water from cavity 9 through conduit 12 through check valve 13 to distribution network 6. Separation cavity 31 5 at this time it is filled with water, occupying the maximum possible volume, and the locking device 18 is closed. As the volume of water in the cavity 9 draws off, the potential energy of the massive bottom 8 accumulates due to the overpressure in conduit 1. When the upper limit position of the bottom 8 is reached, the sensor 22 is triggered, then with the help of actuators 19 and 20, respectively, the locking device 17 closes and the locking device 18 opens. After this, the bottom 8 is lowered by the force of gravity, displacing water from the cavity 14 through the pipeline 16 through the locking device 18 into the reservoir 2. At this time, through the pipeline 10 through the check valve 11, water flows by gravity

enters the cavity 9 of compartment 4. Water into the distribution network 5 enters from the cavity 31 of compartment 5 through tpy conductor 32. After the bottom 8 is completely lowered, the dates are triggered. 21 and the system returns to its original state and the cycle repeats.

one

The proposed water supply system allows you to make the most of the excess water pressure in the water conduit, supplying energy to the circulation of water in the tank in accordance with 11 standards. The system provides the highest possible water exchange in the reservoir without additional energy costs for water rise in the distribution

network. The unevenness of water consumption both by the hour and by the clock is not accurate for the achievement of the stated objective of the invention. Such a system can be used in

wide range of water pressure in the water conduit and distribution network.

Claims (1)

A recuperation water supply system comprising a water conduit, a reservoir, a distribution network and a regulating capacity connected to a water conduit, a reservoir and a distribution network is excellent ^! This is because, in order to increase the reliability of the system by maximizing water exchange in the reservoir, the regulating capacity is located below the bottom of the tank and consists of upper and lower isolated compartments equipped with corrugated chambers with bottoms, while the upper compartment is equipped with sensors the bottom and its corrugated chamber are connected to the reservoir and the distribution network by pipelines with check valves, and its cavity between the corrugated chamber and the wall of the regulating tank connected to the water conduit and the reservoir by pipelines with locking devices connected to the bottom limit position sensors, the corrugated chamber of the lower compartment is connected to the water conduit, and the cavity between the chamber and the wall of the control tank! the lower compartment is connected to a distribution network.