SU1062339A1 - Spill regulator - Google Patents

Abstract

-.one. A DRAIN REGULATOR containing a vertical pipe with diaphragm valves, a siphon and a float gauge, which is equipped with a valve with an inflatable chamber connected to the atmosphere with a valve, in order to improve the quality of the water management system. the valve is kinematically connected to the float gauge.

Description

(L

about go

with so with so

2. The regulator according to claim 1, about t l and d d,

due to the fact that it provides

compressed air cylinder

with a gate through the vom.dom.

kinematically coupled floating melting point gauge, with membrane driver

The invention relates to chalk, to devices for, automating water regulation during the operation of a closed drainage network on drainage and humidification systems.

A groundwater level controller is known, comprising a threaded body along which a vertical pipe tl "moves,

The drawbacks of the device are low throughput and low control accuracy.

The closest solution to the invention in its technical essence and the achieved result is a drain regulator comprising a vertical pipe with a diaphragm valve, a siphon device and a float gauge C2.

A disadvantage of the known device is the poor quality of regulation during heavy precipitation caused by the possibility of overshooting the level in these conditions due to the delay in the transition of the regulator to the discharge mode, which occurs only after an increase in the groundwater level. This lag can reach ten hours.

The aim of the invention is to improve the quality of water management.

This goal is achieved by supplying the regulator with a water outlet with a shutter made in the form of an inflatable chamber connected by means of a valve to the atmosphere, while the valve is kinematically connected with the float of the gauge.

In addition, the regulator is provided with a compressed air balloon connected to the shutter by means of a valve kinematically connected with a float gauge and a valve with a diaphragm actuator.

The drawing shows the flow regulator diagram, section.

The regulator consists of a housing 1, to which a siphon 2 is connected by means of a coupling. In the vertical pipe 3 there is an aeration tube 4 and a tube 5, at the outlet of which valves 6 and 7 and valve 8 with a diaphragm actuator 9 are installed. Valves 6 and 7 are kinematically through the lever 10 and the box 11 are connected to the float 12 of the gauge 13. The valve 8 is installed at the outlet of the turret 14 filled with compressed air. The vertical pipe 3 is connected by a pipe 15 to the neck of a siphon 2 equipped with a movable sleeve 16. The controller has a outlet 17, in which an inflatable chamber 18 is installed. The controller is installed at the outlet of the collector of a closed drainage network.

The flow regulator operates as follows.

Transition of flow controller to mode

5 under the pore is carried out by evaporation of precipitation from the float chamber of the gauge 13 and, as a result, lowering of the float 12, which through the rocker 11 and the lever 10 acts on the valve

0 b and connects the inflatable bladder chamber 18 with a balloon 14 filled with compressed air. The inflatable chamber 18 of the shutter is filled with compressed air,

L 25 and the direct water outlet is closed. When the pressure chamber in pressure chamber 18 is reached, the diaphragm actuator 9 acts on the shut-off valve 8 and closes the outlet from the cylinder 14 in order to avoid air leaks under high pressure. In the case of filling the housing 1 and the vertical pipe 3 with water, the lower edge of the aeration tube 4 is immersed in water. When the level is raised, water is drained through the siphon 2 and sleeve 16. If

5, the water from the drainage network is larger than its drain through the siphon, the level in the pipe 3 rises, the siphon 2 is charged, and the capacity of the regulator increases. By lowering the level below

0 marks of the aeration tube 4 through the aeration tube 4 and the connecting tube 15 enters the mouth of the sipho. by 2, which leads to a breakdown of the vacuum, and the flow of water is stopped.

five

In case of heavy precipitation, the float 12 of the gauge 13 rises, through the rocker 11 and the lever 10 acts on the valve 7 and

0 connects the valve chamber 18 to the atmosphere. As a result, the water outlet 17 opens, preventing an unacceptable rise in the groundwater level. With improved weather and evaporation of precipitation

from precipitation gauge 13, the regulator again goes into the backwater mode.

The use of a drain regulator improves the accuracy of the water regulation.

The regime is under intense deposition of atmospheric precipitations and the highest. The yield of agricultural crops and agricultural crops is growing.

Claims (2)

(57K.1. FLOW REGULATOR comprising a vertical tube with the membrane valve and the float siphon precipitation gauge of m ^x n aspirants and in that, in order to improve the quality of aqueous mode control, it is provided with an overflow gate, made in the form of an inflatable chamber, connected through the valve to the atmosphere, while the valve is kinematically connected with the float of the precipitation meter. SU ... 1062339 2. The regulator according to claim 1, characterized in that it is equipped with a cylinder of compressed air connected to the shutter by means of a valve, but also with a valve. kinematically connected by a precipitation flowmeter, with a membrane drive