SU35081A1 - Chlorinator - Google Patents

Description

The invention relates to chlorinators provided with a gas filter, a pressure reducing valve, a control valve, a gas meter, a signal manometer and a check valve. In the proposed chlorinator, a device consisting of a membrane connected on one side to the chlorine inlet valve spindle and on the other connected to the suction pipe of the water supply system is used to automatically adjust its operation.

The drawing shows a general view of the chlorinator in front.

The proposed chlorinator consists of a gas filter 7, a pressure reducing valve 2, a control valve / 2, a gas meter 75, a signal manometer 27 and a check valve 75.

For automatic adjustment of the chlorinator, a device is used consisting of a membrane 22 connected on one side to the spindle of the chlorine inlet valve 72, and on the other, through the space in the valve casing 77 and the pipe 23 communicating through the pipe 77 to the suction pipe of the aqueduct.

The proposed chlorinator works as follows. Chlorine from the cylinder enters the filter 7 with sulfuric acid and glass wool through a copper tube, from which it enters the reduction valve 2. Pressure under which the gas is (285)

steps into a reducing valve, is noted with a pressure gauge 7. From the reduction valve, gas passes through a diaphragm micro-valve 8, passes by a pressure gauge 9 and goes to valves 72 and 77. Valve 77 is switched on mechanically, due to an increase in vacuum in the Bsa, the discharge pipe during operation of the pump station .

This vacuum, with the valve 20 open, noted on the vacuum gauge 27, sucks up the membrane 22 of the automatic valve, lifting the valve 72 of the latter and, thus, turning the entire apparatus into operation.

When the work in the water pumping station is terminated, the vacuum is reduced, the membrane's suction force is weakened, and the spring in the upper part of the valve now closes the latter tightly, turning off the chlorinator.

If the valve of the autoswitch is open, the gas then goes past the control signaling manometer 0 to the gas meter 75. The gas meter works based on the proportional amount of gas passing per unit of time through the narrowed space and the pressure difference before and after this narrowing. From the gas meter, the gas in the tube / 4 goes to the diaphragm valve 75;

pressure diaphragm with valve 16, and flows through the tube / 7 into the suction pipe of the water pumping station. The desired pressure in the measuring parts of the apparatus is established by a check valve 75 using a valve and a spring located at the top of the valve. Before entering the suction main pipe, the gas passes through an ebonite tube with small openings into a small mixing cartridge with a moisturizing mixture (coking-anthracite). The walls of the cartridge consist of a series of holes through which water flows during the operation of the pumping station. Lastly, encountering small gas streams in a humidifying cartridge, dissolves the incoming gas and, in the form of a chlorine solution, leaves the mixing cartridge, immediately mixing with the total amount of water. With the termination of water suction in the tube 17, the vacuum is stopped, the membrane 22 is lowered, the valve 12 is closed, and the chlorine supply is stopped.

The subject matter of the invention.

A chlorinator equipped with a gas filter, a pressure reducing valve, a control valve, a gas meter, a pressure gauge and a non-return valve, characterized by the use of a device for automatically adjusting its operation, consisting of a diaphragm 22 connected on one side to the stem of chlorine inlet valve 12, and on the other side through the space in the valve casing 7 / and the pipe 23 communicating with the suction pipe of the pipeline.