SU1732334A1 - Vacuum chlorinator - Google Patents

Abstract

The invention relates to ratio controllers, namely, water chlorination devices, and can be used in a public utility, in sewers and waterworks. The purpose of the invention is to increase reliability by eliminating the possibility of water entering the chlorinator. The chlorinator contains an ejector, first and second control valves, first and second relief valves, a control throttle, a rotameter, the first control valve, the first relief valve and the safety valve are installed coaxially in the first body with the possibility of interaction, and the second control valve and the second discharge valve installed in the second case and also interact. 1 il.

Description

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The invention relates to ratio controllers, namely, water chlorination devices, and can be used in communal households in sewers and waterworks.

The aim of the invention is to increase reliability by eliminating the possibility of water entering the chlorinator.

The drawing shows the proposed chlorinator containing an ejector 1, the first inlet 2 of which is shut off valve 3 connected to the first component water line, the second inlet 4 is connected to the cavity 6 above the spring loaded spring 7 of the membrane 8 of the first regulating valve with a membrane through the first stem 10 and the first spring-loaded spring 11 to the first seat 12 of the shutter 13 of the first waste valve, and the cavity under the spring-loaded membrane 8 is connected to the drain 14, coaxially to the first stem 10 with a gap x a safety valve 15 is installed. The inlet B of the first regulating valve is connected to the outlet of an adjustable throttle 16, the inlet of which is connected to the outlet of the rotometer 17, the inlet of which is connected to the cavity 18 under the membrane 19 connected through the second spring-loaded spring 20 to the second seat 21 , the valve 22 of the second discharge valve and the second rod 23 with the second valve 24 of the second control valve, and the cavity above the membrane 19 is connected to the relief 25. The first control valve, the first discharge valve and the safety valve are installed in the first first housing 26, and the second control valve and the second relief valve in the second housing 27, the inlet of which 28 is connected to the line of the second component, chlorine.

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Chlorinator works as follows.

Water is supplied to the ejector 1 under a certain pressure. The ejector through the pipeline 5 creates a vacuum in the cavity above the membrane. The pressure difference across the spring-loaded diaphragm 8 moves it up, the upper position is determined by the spring 11, with the first shutter 9 opening. A vacuum appears in the entire chlorinator up to the second shutter 24. The pressure difference across the membrane 19 moves it down (the extreme position is determined by the spring 20), the second shutter 24 opens and chlorine enters the chlorinator. The change in chlorine consumption is made using adjustable throttles 16.

When a vacuum occurs, the more permissible spring-loaded membrane 8 moves up and the safety valve 15 opens. When air enters the chlorinator from the atmosphere, the vacuum is reduced to a predetermined value.

When water appears in the pipeline 5, the pressure on the spring-loaded membrane 8 is equalized with the atmospheric pressure, it moves downwards under the action of the spring 11, the safety valve 15 and the first valve 9 are closed. Further movement down the spring-loaded membrane 8 under the action of water pressure provides the opening of the first spring-loaded gate 13 and drain water.

When a gas in the vacuum cavity of the chlorinator under pressure is higher than the allowable one (for example, if the second control valve loses tightness), the second safety shutter 12 is opened by moving the membrane 19 upwards.

The formula of the invention A vacuum chlorinator comprising an ejector, the first input of which is connected to the main line of the first component, the second input is connected to the cavity above the spring-loaded diaphragm connected to the first gate of the first control valve, the input of which is connected to the output of the adjustable throttle whose entrance is connected to the output of the rotameter, connected to the cavity under the membrane connected to the second valve of the second control valve, the inlet of which is connected to the line of the second component, the first discharge valve with A second saddle and a first spring loaded gate; a second relief valve with a second seat and a second spring gate; and a safety valve, characterized in that, in order to improve reliability, the first saddle is made in a spring-loaded membrane, in the cavity above which is located the first spring-loaded gate connected through The first stem with the first gate, coaxially with which the safety valve is installed with a gap, with the possibility of its contact with the first stem, and the cavity under the spring-loaded diaphragm is connected to the drain, and that Roe saddle formed in the membrane of the second control valve in the cavity beneath which is arranged a second spring loaded valve associated with the second gate through the second rod, wherein the cavity above the diaphragm is connected to the discharge.

Claims (1)

The claims A vacuum chlorinator containing an ejector, the first input of which is connected to the line of the first component, the second input is connected to the cavity above the spring-loaded membrane connected to the first shutter of the first control valve, the input of which is connected to the output of the adjustable throttle, the input of which is connected to the output of the rotameter connected to the input with a cavity under the membrane associated with the second gate of the second control valve, the inlet of which is connected to the line of the second component, the first relief valve with the first seat and the first spring-loaded valve, a second relief valve with a second seat and a second spring-loaded valve and a safety valve, characterized in that, in order to increase reliability, the first seat is made in a spring-loaded membrane, in the cavity above which there is a first spring-loaded valve connected through the first rod to the first valve , coaxially to which a safety valve is installed with a gap with the possibility of its contact with the first rod, and the cavity under the spring-loaded membrane is connected to the drain, and the second seat is made in the membrane the wound of the second control valve, in the cavity under which there is a second spring-loaded valve connected to the second valve through the second rod, while the cavity above the membrane is connected to the discharge.