RU2686153C1 - Water supply station - Google Patents

Abstract

FIELD: water supply.SUBSTANCE: invention relates to water supply. Water feed station includes water tank (1) with pressure and water level sensors (8) connected to electronic control unit (2), pipelines, shutoff and control valves. Station is equipped with the second additional control unit (11) installed on the irrigation water supply line and electric compressor (10) of air pumping to the tank. Control units (2, 11) comprise sensors for monitoring "dry run" on water movement.EFFECT: broader functional capabilities of the station.1 cl, 1 dwg

Description

The invention relates to the water sector and is designed to ensure the quality of water supply to country houses, for irrigation of household plots and use for other purposes in places where there are no water mains and there is no centralized supply of water.

Recently, the task of autonomous water supply to consumers has become increasingly urgent. Many residents of large cities tend to relocate to more environmentally friendly areas, while maintaining all the amenities that they had in megapolises, in connection with which cottage construction has become widespread. Farmers also receive their development, where they also need to organize a reliable and sustainable water supply.

In this regard, the simple and reliable provision of autonomous water supply has become urgent, and therefore various devices are actively being created to ensure the stable operation of water supply stations. See, for example, a.s. USSR №1699565 from 10/19/1989, patent for invention RU №2215194 publ. 12.21.2001 patents for utility models RU №№14614, publ. 08/10/2000, 55890 publ. August 27, 2006, 59162 publ. 10.12.2006, 70942 publ. 20.02.2008, 104646 publ. 05.20.2011, 125266 publ 27.02. 2013 and others

Closest to the claimed is the water supply station according to the patent for a utility model of Russia No. 2215194. It contains a water tank with air pressure and water level sensors connected to an electronic control unit, a pump, valves, suction and discharge pipes. At the same time, before entering the pump, a duct with an adjusting solenoid valve connected to the electronic control unit is installed on the discharge pipe, and sensors of the upper, middle and lower water levels are also installed on the water tank, which are also connected to the electronic control unit to which and an air pressure sensor in the tank.

However, if necessary, in particular, watering the backyard plot, it requires constant work of the entire station, since water for irrigation is taken from the storage tank. This leads to unnecessary contamination of the tank and frequent switching on and off of the station electric motor. Such stations should not be used for irrigation without additional switchings of water flows.

The purpose of the development of the proposed technical solution is to create a water supply station allowing independent watering and domestic water supply, for example, at home without using any switching and manipulation of the station, i.e. expansion of station functionality.

The technical challenge is to expand the functionality of the water supply stations due to the separation of pump control in irrigation systems and water supply at home. This is ensured by the presence in each system of a separate control unit that controls one pump.

This task is achieved due to the fact that the water supply station containing a water tank with pressure and water level sensors connected to an electronic control unit, a pump, an air duct with an air supply system to the tank, valves, pipelines, shut-off and control valves. The device is equipped with a second additional irrigation control unit and an electro-compressor for pumping air into the tank, mounted on it. The water tank is equipped with two water level sensors and the bottom one is designed for its optimal level, and the top one is used to turn on the compressor and bring the pressure in the tank to the control unit set by the controller. In this case, the control units have sensors monitoring the "dry run" on the movement of water.

The technical result is to expand the functionality of the water supply station by providing the possibility of separate control of the pump in irrigation systems and water supply at home.

FIG. 1 schematically shows the inventive water supply station.

It consists of a sealed water tank 1 connected to the control unit 2, which is connected to a solenoid valve 3 installed on the water supply line 4 from the pump. On line 5 of the water outlet from the tank 1, a pressure regulator 6 and a valve 7 are installed. In the tank 1, water level sensors 8 are installed in the tank 1 H1 - lower and H2 - upper. A fitting with a check valve 9 connected to the air compressor 10 is inserted in the upper part of the tank 1 for pumping air into the tank 1. The solenoid valve 3, the level sensors 8 and the compressor 10 are connected to the control unit 2.

A second control unit 11 is connected to supply water to the irrigation system. It is connected to the water supply line 4 and the irrigation line 12 equipped with a valve 13. The control units 2 and 11 contain pressure regulators P1, dry running sensors P2 and electronic control boards.

Water supply station operates as follows. Water from a well or other source of water supply is supplied to the incoming line 4. At the flow of water from the tank 1 by the consumer, the water pressure in it decreases. When reaching the lower pressure level set by pressure regulator P1, in the control unit 2, the solenoid valve 3 and the pump are turned on. Water begins to flow into tank 1. When the upper pressure threshold is reached, the pump and valve 3 are turned off. If the required pressure is not reached and the water level is between sensors H1 and H2, indicating an insufficient amount of air in the tank, control unit 2 will turn on for 30 seconds the compressor 10 and the air in the tank 1 will be replenished. These cycles will be repeated until the pressure is reached at the water level below the H1 sensor. If the water level reaches the H2 sensor, and the pressure is not set, the valve and the pump will turn off, and the compressor 10 will turn on and force air into the container until the specified upper pressure is reached. When opening the valve 13 for irrigation, the water pressure in the line 12 drops and the pump is turned on. When the valve 13 is closed, the pressure in line 12 rises to the control unit 11 installed by the pressure regulator P1. Both units are protected against “dry running” by the sensors P2. Those. blocks 2 and 11 include sensors P2 "dry run", which prevent the pump in the absence of water in line 4.

Thus, the technical result is achieved - ensuring uninterrupted and stable supply of consumers with water, both inside the house and watering the backyard plot. At the same time, the proposed water supply station allows domestic water supply and irrigation both separately and simultaneously.

In contrast to the prototype, the proposed station allows not to use water from the tank for irrigation, but to provide independent water supply for both domestic and irrigation systems.

Claims (1)

Water supply station containing a water tank with pressure and water level sensors connected to an electronic control unit, pipelines, shut-off and control valves, characterized in that it is equipped with a second additional control unit installed on the irrigation water supply line and an electric compressor for pumping air into the tank , while the control units contain sensors monitor the "dry run" on the movement of water.

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