RU17780U1 - WATER TREATMENT DEVICE - Google Patents

Abstract

A device for purifying water from iron compounds, containing a mixer for water and air with opposing flows of gas-liquid mixture, a separator with a filter element and a perforated chipper, pipes for supplying water and air and exhaust air and purified water, characterized in that to maintain a constant speed the fluid flow in the annular gap when it leaves the nozzles, maintaining the optimal value of the discharge, supplying the necessary amount of air for the oxidation of water contained in the def divided by the amount of iron compounds on supply water pipes installed cylinders with piston rods which are rigidly connected with the swirlers, which allows the change of pressure in the supply line movable rods with the pistons and swirlers in the axial direction and the necessary amount of air control valves is provided.

Description

DEVICE FOR WATER TREATMENT

The utility model relates to devices for purifying groundwater from iron compounds, for purifying water from gases dissolved in it, and also for wet purification of dusty gases by vacuum.

A device for cleaning water from iron and dissolved gases in it, containing a mixer for water and air, a separator with a filter element and a perforated chipper, pipes for supplying water and air and exhaust air and purified water, where to intensify the cleaning process and obtain the optimal discharge values, in the chambers of the active medium of the mixer, conical annular removable nozzles are integrated that provide equal areas of slotted openings and bilateral capture of the passive medium (1).

The disadvantage of this device is that when the flow rate changes, the flow rate and, consequently, the amount of vacuum, i.e. the optimal oxidation regime of iron oxide bicarbonate is violated.

A device is known for cleaning water from iron, in which to increase and intensify the cleaning process, increase the turbulence of the liquid flow, more fully mix it with air, achieve optimal discharge in the zone of displacement of liquid with air, the spray nozzles in the mixer body are counter-oriented, swirl chambers of an active medium have rough screw cuts that provide opposite rotational movements of the oncoming jets, and the tips of the spraying nozzles can move about evom direction (2).

The disadvantage of this device is that the amount of ejected air required to oxidize a certain amount of iron oxide bicarbonate dissolved in the water being purified is not regulated, and the excess or lack of ejected air negatively affects the process of water purification. In addition, the adjustment of the magnitude of the vacuum when changing the flow rate is manually adjusted by turning the tips with the installation of manovacuometers with their subsequent removal.

The proposed utility model eliminates these disadvantages and allows you to automate the process of water purification from iron compounds in the optimal mode.

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When the fluid flow increases in the annular gap when it leaves the nozzles, maintaining the optimal vacuum value, supplying the required amount of air to oxidize a certain amount of iron oxide bicarbonate contained in the water, cylinders with pistons are installed on the water supply pipelines, the rods of which are rigidly connected to the swirls, which allows when the pressure in the supply pipelines changes, move the rod with the piston and swirl in the axial direction, and the necessary amount of air is controlled uyuschimi valves.

Figure 1 shows the device, a General view; figure 2 - mixer, vertical section; in Fig.Z is a view of the mixer according to A.

The device (Fig. 1) consists of a mixer 1, a separator2, a filter element 3, a perforated chipper 4, inlet 5 and 6 and outlet 7 pipelines, pipes for air supply 8 and a pipe for exhaust air 9.

The mixer (figure 2) consists of a housing 10, counter-oriented ejection nozzles 11, swirlers 12, manovacuometers 13, control valves for air inlet 14, sealing elements 15 ,. Cylinders 16 are installed on the supply pipelines 5 and b, in which there are pistons with rods 17, movable pistons 18, clamping bushings 19 and union nuts 20. Pistons 17 and movable pistons 18 contain chambers 21 filled with damping fluid. Pistons with rods 17 are rigidly connected to swirlers 12 rods 22. On the cylinders 16 are valves 23 for filling the chambers 21 with damping fluid.

The device operates as follows.

Water is supplied from the well through pipelines 5 w @ i screw cutting of swirls 12. By moving swirls 12 and pistons with rods 17 along their axes, the maximum vacuum is established by manovacuometers 13. By turning the union nuts 20, the damping fluid in the chamber 21 is compressed until the water pressure from the well pump is balanced . When the pressure in the supply pipelines 5 and 6 changes, the rods with pistons G and swirls 12 move in one direction or another along their axis, while maintaining the flow rates of water in the annular gaps by the nozzles 11 and swirls 12 and, therefore, the set pressure value.

With the help of their valves 14, the mode of supplying the necessary amount of air to oxidize the iron oxide bicarbonate contained in the water is set.

cated air.

From the mixer 1, the gas-liquid mixture enters the separator 2. The perforated chipper serves to separate the remaining gas from the liquid. The exhaust gas through the pipe 9 of the separator 2 is released into the atmosphere, and water, passing through the filter element 3 and freed from oxidized iron compounds, is sent to the consumer through the pipeline 7.

Sources of information taken into account during the examination:

1. Certificate for Utility Model H 14617.

2. Utility Model Certificate No. 10713 (prototype)

THE AUTHORS:

Bystrov Yu.A. 2. Ivashchenko V.M. Z. Ivash, Enko V.M 4. Karpov N.L.

Claims (1)

A device for purifying water from iron compounds, containing a mixer for water and air with opposing flows of gas-liquid mixture, a separator with a filter element and a perforated chipper, pipes for supplying water and air and exhaust air and purified water, characterized in that to maintain a constant speed the fluid flow in the annular gap when it leaves the nozzles, maintaining the optimal value of the discharge, supplying the necessary amount of air for the oxidation of water contained in the def divided by the amount of iron compounds on supply water pipes installed cylinders with piston rods which are rigidly connected with the swirlers, which allows the change of pressure in the supply line movable rods with the pistons and swirlers in the axial direction and the necessary amount of air control valves is provided.