RU193150U1 - MECHANICAL WATER FLOW DIRECTION UNIT BY FILTER ITS CLEANING - Google Patents

Abstract

The utility model is used in the field of heat and water supply, in particular for the purification of domestic water at water treatment plants, make-up water in boiler rooms and waste water in sewage treatment plants.

The objective of the utility model is to increase the reliability of the drinking water purification system.

The technical result of the utility model is to simplify the design of the device.

The problem is solved, and the technical result is achieved through the development and use of a mechanical unit that directs the flow of water and delays the filter load.

Description

The utility model is used in the field of heat supply, in particular for the purification of domestic drinking water at water treatment plants, make-up water in boiler rooms and waste water in sewage treatment plants.

At water treatment plants, three deironing filters of the MGS 3072 / MG 94 FL brand and two clarification filters of the ACS 3072 / MG 94 FL-1,5 brand are used for water purification. Magnum Cv 942 F automatic controllers are installed on these filters. Valves are installed in these automatic controllers, which, moving, direct water flows in the filter housing through the filter load in operating mode, from top to bottom, and in the opposite direction from bottom to top when washing the filter.

The disadvantage of this system is the low reliability of automatic controllers associated with the presence of o-rings and movable parts of the structure.

The objectives of the utility model is to increase the reliability of the drinking water purification system.

The technical result of the utility model is to simplify the design of the device.

The problem is solved, and the technical result is achieved by developing and using a mechanical unit that directs water flows and delays the filter load.

The figure 1 shows the operation of the water purification filter during operation and its washing.

In operating mode, the chemical water purifier, checks that the ball valves 1, 2, 3, 4 are open and the ball valves 5, 6 are closed. With this position of the taps, the water through the inlet pipe 7 enters the lower part of the mechanical unit 8 and, after passing through the annular space, enters the upper part of the filter housing 9. After that, the water passes through the filter charge 10, where contaminants settle. After cleaning through the filter charge, water in the lower part of the filter housing 9 enters the central pipe 11 and then to the upper part of the mechanical unit 8. In the upper part of the mechanical block 8, the filter load 10 is delayed, and then the purified water is discharged through the outlet pipe 12.

When washing the filter load, the chemical water purifier, opens the ball valves 1, 3, 5, 6 and closes the ball valves 2, 4. In this position, water flows into the upper part of the mechanical unit 8 and enters the central pipe 11. From the central pipe 11, water flows to filter loading 10 and to the lower part of the mechanical unit 8, where the settled sediment is washed out and filter loading 10 is delayed, after which water enters the drainage pipe 13.

A description of the utility model is shown in figure 2.

The filter for water purification consists of a mechanical unit 8, which directs the flow of water in a given direction and delays the filter load. Water is supplied to the mechanical block 8 through the inlet 14. To delay the filter load, a set of cartridges of filter rings 15 are installed in the upper and lower parts of the mechanical block 8, depending on the use of the filter load, the distance between the filter rings can be adjusted. Cartridges of filtering rings are fixed with the help of the lower 18 and upper 17 covers. In the filter housing 9 there is a filter load 10, which can be quartz sand, gravel, activated carbon and others. The filter load is designed to purify water from contaminants. Processed drinking water is discharged along the central pipe 11 to the upper part of the mechanical block 8. In the upper part of the mechanical block 8, the technological hole 16 serves to drain the purified water 16. The upper and lower parts of the mechanical block 8 are separated by a partition 19, an opening is provided in the partition to install the central pipe. To drain the wash water in the lower part of the mechanical unit 8, an opening 20 is provided.

Claims (1)

A mechanical unit for directing the flow of water through the filter for its purification, characterized in that it consists of upper and lower parts separated by a partition, in which sets of cassettes of filter rings are fixed, fixed with the help of the lower and upper covers, an inlet is provided in the unit, an opening for the discharge of cleaned water and a hole for draining the wash water.

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