RU126087U1 - MECHANICAL CLEANING FILTER-DIPPER HORIZONTAL (FGMO-G) - Google Patents

Abstract

1. The filter-sump mechanical cleaning, containing a horizontally arranged cylindrical body with nozzles for supplying purified water and drainage of purified water, as well as with nozzles of the drainage system, while in the housing there is a perforated pipe connected to a pipe for removing purified water, and on the perforated pipe is made at least one perforated section provided with a visor, characterized in that the pipe for supplying purified water and the pipe for removing purified water are located in the upper part of the cylinder wall of the housing along which there is a pipeline adjacent to it horizontally located in the housing, the perforated sections of which are provided with visors fixed to the upper part of the housing and visors inclined in relation to the horizontal axis of the pipeline, while one of the inclined visors is located near the pipe for supplying the water to be cleaned and overlaps the end part of the perforated pipeline, and the other visors located along the perforated pipeline are made with through tverstiyami, through which passed the truboprovod.2. The mud filter according to claim 1, characterized in that the perforated sections are formed in the form of through holes horizontally located along the axis of the pipeline. The mud filter according to claim 1, characterized in that each visor is made in the form of a truncated ellipse. The mud filter according to claim 1, characterized in that a hatch-laz is made in each of the two side walls of the housing. The mud filter according to claim 1, characterized in that one of the nozzles of the drainage system is made in the lower part of the cylindrical wall

Description

The utility model relates to the field of maintenance of pipeline networks designed for transporting liquid media, and can be used as auxiliary devices preventing the accumulation of dirt in the water supply pipelines of the heating equipment of boiler houses, heating networks, central heating units and heating units of buildings, as well as technological water flows and water cycles of industrial enterprises for the effective cleaning of various process water flows from mechanical impurities without the use of filter materials.

Typical water purifiers existing in boiler houses, central heating systems and in-house heating systems, which are strainers, do not provide the necessary degree of purification of water from mechanical impurities, which leads to drift by deposits of boilers, heating systems and hot water supply. At the same time, the quality of hot water in terms of suspended solids is significantly impaired.

Known sump for technical heat supply systems, including a horizontally located housing with inlet and outlet nozzles and a nozzle for cleaning, a chamber, on the inner walls of which holes are made, covered with a metal mesh, a rotary shutter, a drain cock, an air cock and a partition made in the form of a fixed and the movable segments, while the fixed segment is rigidly fixed in the housing, and the movable segment is provided at the ends with reflective visors mounted in relation to it under different t angular angles and directed in opposite directions, and mounted in a fixed segment with the possibility of rotation relative to the horizontal axis, dividing it in height into unequal parts (AS USSR No. 1191672, IPC F16L 55/24, publication 1985).

Known sump for trapping, sedimentation and removal of contaminants, containing a horizontally located housing with inlet and outlet nozzles, a work unit and a flow stabilization unit, a reflective visor, a metal strainer, a manhole, cleaning nozzles, sludge drain valves, air vents, channels variable cross-section at the inlet and outlet of the working medium (AS USSR No. 1719759, F16L 55/24, 1992 publication).

A known inertial slit filter-sump containing a housing with nozzles for supplying purified water, drainage of purified water, a drainage system, and a partially perforated pipe located inside the housing, connected to a nozzle for drainage of purified water, the housing being made in the form of a horizontally or inclined cylinder, one of the sides of which the sunroof is welded for inspection and repair of the sump, below which a soothing plate is installed, on the same side are mounted a nozzle above the axis of the housing of clean water drainage and below the housing axis, the first drainage pipe nozzle is mounted in the opposite side of the housing below the housing axis of the pipe for supplying the water to be cleaned and above the housing axis the second drainage pipe designed to remove floating contaminants from the housing, on the perforated pipe in the housing less than one perforated area covered by an elliptical visor, an additional drainage is mounted in the lower part of the housing in the area of the stilling plate, and against atrubka treated water supply installed bump elliptical shape (RF patent №2377045, B01D 35/02, F16L 55/24, published in 2009 - the closest equivalent).

The task of creating the proposed utility model is to increase the efficiency of purification of technological flows of water from mechanical impurities.

The technical result is to improve the quality of water treatment.

The proposed technical solution also expands the arsenal of technical means designed for effective cleaning of mechanical impurities of various process water flows without the use of filter materials.

The essence of the proposed technical solution is as follows.

The filter-sump mechanical cleaning contains a horizontally arranged cylindrical housing with nozzles for supplying purified water and drainage of purified water, as well as with nozzles of the drainage system. In the housing there is a perforated pipe connected to a pipe for discharging purified water, while at least one perforated section provided with a visor is made on the perforated pipe. The pipe for supplying purified water and the pipe for discharging purified water are located in the upper part of the cylindrical wall of the casing, along which there is a pipeline adjacent to it horizontally located in the casing, the perforated sections of which are provided with visors fixed to the upper part of the casing, while one of the inclined visors is placed near the nozzle for supplying purified water and blocks the end part of the perforated pipeline a, and the remaining peaks along the perforated pipeline are made with through holes through which the pipeline is passed.

Perforated sections are formed in the form of through holes horizontally located along the axis of the pipeline.

Each visor is made in the form of a truncated ellipse.

A hatchway is made in each of the two side walls of the housing.

One of the pipes of the drainage system is made in the lower part of the cylindrical wall of the casing and is designed to periodically remove contaminants, and the second pipe of the drainage system is made in the upper part of the side wall of the casing adjacent to the pipe for supplying purified water and is designed to remove pop-up contaminants and air cushion.

The mud filter housing is mounted on supports.

The drawing schematically depicts the proposed technical solution.

The mechanical cleaning mud filter is a horizontal pressure head cylindrical apparatus including a cylindrical housing 1 with a supply pipe 2 for purified water and a discharge pipe 3 for purified water, as well as with pipes 4, 5 of the drainage system.

Pipes 2 and 3 are made in the upper part of the cylindrical wall of the housing.

In the upper part of the cylindrical wall of the housing 1, a perforated pipe 6 is fixed, connected to the pipe 3 of the outlet for purified water.

Perforated sections I, II, III, on the pipeline 6 are formed in the form of through holes 7 horizontally located along the axis of the pipeline.

The total area of the through holes of each section I, II, III is calculated in such a way as to obtain the maximum effect of trapping contaminants.

The perforated sections are provided with visors 8, 9, 10 fixed in the upper part of the body and inclined with respect to the horizontal axis of the pipeline.

The visor 8 adjacent to the pipe 2 for supplying purified water, overlaps the end part of the perforated pipe 6, and the visors 9, 10 located along the perforated pipe are made with through holes through which the pipe 6 is passed.

Each visor is made in the form of a truncated ellipse.

A manhole 12 is made in the side wall 11 of the body, and a manhole 14 is made in the side wall 13 of the body. Both manholes are intended for inspection and repair of the apparatus.

In the lower part of the cylindrical wall of the housing 1, a pipe 4 of the drainage system is designed for periodic removal of contaminants.

In the upper part of the side wall 11 of the housing 1 adjacent to the nozzle 2 for supplying purified water, the nozzle 5 of the drainage system is designed to remove pop-up contaminants and an air cushion.

The housing 1 is mounted on supports 15.

The principle of operation of a mud collector is based on a combination of two processes: inertia and gravity. The source of the treated water through the inlet pipe 2 is supplied to the body 1 of the mud collector, enters the baffle plate 8 and smoothly flows over the cross section of the body. Smoothly flowing around the first elliptical visor 8, the water loses speed and rotates by 150 degrees and enters the pipeline 6 through the perforated section I. The rest of the water flow successively, sharply changing the direction of movement and losing speed, also enters the pipeline 6 through the perforated sections II, III, and purified water is discharged to the consumer.

Impurities settled in the lower part of the sump are periodically removed by opening a tap (not shown) on the drain pipe 4.

During the operation of the sump, the separation of pollution occurs as a result of a combination of two gravity processes: natural and due to the forced movement of the water flow from I to III perforated sections, and two inertia processes: due to a sharp decrease in the speed of water flow and due to a sharp change in the direction of movement. The combination of inertia and gravity allowed to significantly increase the degree of purification of water from mechanical impurities in comparison with the existing standard mesh sumps and to obtain a significant economic effect from the use of this unit.

The mud sump can be equipped with an automation system, which includes an electronic time switch and electromechanical valves on the drain pipes.

The programming of the electronic time relay is carried out empirically and based on the degree of water pollution.

Claims (6)

1. The filter-sump mechanical cleaning, containing a horizontally arranged cylindrical body with nozzles for supplying purified water and drainage of purified water, as well as with nozzles of the drainage system, while in the housing there is a perforated pipe connected to a pipe for removing purified water, and on the perforated pipe is made at least one perforated section provided with a visor, characterized in that the pipe for supplying purified water and the pipe for removing purified water are located in the upper part of the cylinder wall of the housing along which there is a pipeline adjacent to it horizontally located in the housing, the perforated sections of which are provided with visors fixed to the upper part of the housing and visors inclined in relation to the horizontal axis of the pipeline, while one of the inclined visors is located near the pipe for supplying the water to be cleaned and overlaps the end part of the perforated pipeline, and the other visors located along the perforated pipeline are made with through tverstiyami through which the pipeline is omitted. 2. The mud filter according to claim 1, characterized in that the perforated sections are formed in the form of through holes horizontally located along the axis of the pipeline. 3. The mud filter according to claim 1, characterized in that each visor is made in the form of a truncated ellipse. 4. The mud filter according to claim 1, characterized in that a hatchway is made in each of the two side walls of the housing. 5. The mud filter according to claim 1, characterized in that one of the pipes of the drainage system is made in the lower part of the cylindrical wall of the housing and is designed to periodically remove contaminants, and the second pipe of the drainage system is made in the upper part of the side wall of the housing adjacent to the supply pipe purified water, and is designed to remove pop-up contaminants and air cushion. 6. The mud filter according to claim 1, characterized in that the housing is mounted on supports.

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