RU125672U1 - MECHANICAL CLEANING VERTICAL FILTER DIPPER (FGMO) - Google Patents

Abstract

1. A dirt filter containing a vertically arranged cylindrical body with upper and lower bottoms, as well as inlet and outlet nozzles coaxially arranged, while part of the outlet nozzle is made as a pipeline vertically located inside the housing, in the walls of which perforated sections are formed in the form of rows through holes, and between the pipeline and the cylindrical body in the areas of the location of the perforated sections are installed cone-shaped elements expanding downward, characterized in that and each tapered element in the perforated pipe section location area it coaxially arranged annular perforated shroud is located with a gap outside the perforated area truboprovoda.2. The mud filter according to claim 1, characterized in that the upper cone-shaped element extending downward is equipped with a conical bump visor. The mud filter according to claim 1, characterized in that the upper bottom contains drainage pipes to remove pop-up contaminants and an air cushion. The filter-sump according to claim 1, characterized in that in the lower bottom there are evenly installed pipes with taps for periodic removal of trapped impurities. The mud filter according to claim 1, characterized in that the upper bottom is conical. The mud filter according to claim 1, characterized in that the upper bottom is elliptical. The dirt filter according to claim 1, characterized in that the lower bottom is conical. The mud filter according to claim 1, characterized in that the lower bottom is elliptical. The mud filter according to claim 1, characterized in that the cone

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.

A known design of a sump filter containing a housing with a bottom, and in the housing are located on the same axis of the nozzle of the input and output fluid, the filter element located between these nozzles. A dirt outlet pipe is made at the bottom of the body (RF patent No. 2008604, IPC F28F 19/00, F28G 15/08, 1994 publication).

A disadvantage of the known device is the need for periodic cleaning of the filter element, because due to the presence of a significant number of trapped dirt particles, the filter element and, therefore, the entire filter sump gradually loses its filtering properties.

A known design of a filter for preliminary water purification, containing a cylindrical vertically located housing, drainage and distribution means, the latter of which includes partially perforated pipes horizontally located in the upper part of the housing and a central vertical pipe with holes on the side surface and a plug in the lower end, as well as granular a load placed between the drainage and distribution means, and the distribution means is additionally provided with a vertical a pipe plugged at the top and installed concentrically inside a central vertical pipe, perforated pipes are mounted radially to the additional pipe, and the end of the latter is located at a distance from the plug in the central pipe (AS USSR No. 1319367, IPC B01D 24/00, publication 1990. )

A disadvantage of the known device is its low efficiency, due to the use of granular filter material, prone to adsorption of contaminants, as well as leaching into purified water.

Known sump containing a vertically arranged housing with a bottom, with inlet and outlet nozzles located on the same axis, and with a nozzle for outputting dirt, while the mud collector is equipped with a pipe mounted in the housing on the same axis with the inlet and outlet nozzles and rigidly connected to the outlet a pipe installed in the bottom of the body, and the opposite end of the pipe is closed by a baffle cone, while along the pipe around it there are conical surfaces that form an acute angle with the pipe from the bottom, on the pipe parts, cross of the conical surfaces, longitudinal slots are made, and below the last conical surface there is a conical surface rigidly connected to the wall of the body, forming an acute angle with the bottom side, and its size is larger than the gap between the wall of the body and the last conical surface mounted on the pipe. The lengths of pipe sections covered by conical surfaces and the lengths of slots located in these sections decrease sequentially from the inlet to the outlet (RF patent No. 42438, IPC B01D 43/00; F16L 55/24, publication 2004).

A well-known fine filter included in the technological cycle of a power plant, while a gravitational inertial mud sump made in the form of a vertical cylindrical body, the upper end of which is equipped with an inlet pipe and the lower one is equipped with an output pipe, is used as a filter, the upper part of the pipe made as a segment pipes, in the walls of which horizontal rows of through holes are made, and the upper end is provided with a conical fairing, in addition, each row of through holes is the perimeter of the pipe segment is protected by a conical visor open at the bottom, the edge of which is located below the through holes (RF patent No. 101089, IPC F01K 23/04, publication 2011).

A device for cleaning liquid media from impurities, comprising a housing with a lid and a bottom, an inlet buried in the housing and an outlet pipe located on the same axis, and a pipe mounted in the housing on the same axis as the inlet and outlet pipes and rigidly connected to the outlet pipe, installed in the bottom of the casing, while the opposite end of the pipe is closed by a baffling water-guiding surface, water-guiding surfaces are installed on the pipe, and longitudinal parts are made on the parts of the pipe blocked by water-guiding surfaces nye slots (RF patent №109419, IPC B01D 43/00, published 2011).

A sump is also known, comprising a housing with a bottom, with inlet and outlet nozzles located on the same axis and with nozzles for removing dirt, a pipe mounted in the housing on the same axis, with an inlet and outlet nozzles and rigidly connected to an outlet nozzle installed in the bottom case, and the opposite end of the pipe is closed with a baffle cone, conical surfaces are installed on the pipe, around it, along its length, forming an acute angle with the pipe from the bottom side, also on pipe parts covered by conical surfaces, ying longitudinal slots, each conical surface mounted on the pipe in its widest part is associated with a cylindrical shell (RF patent №54318, IPC B01D 43/00, published in 2006 - 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 mud filter contains a vertically arranged cylindrical housing with upper and lower bottoms, as well as inlet and outlet nozzles coaxially arranged. Part of the outlet pipe is made as a pipeline vertically located inside the housing, in the walls of which perforated sections are formed in the form of horizontally arranged rows of through holes. Between the pipeline and the cylindrical body in the areas where the perforated sections are located, cone-shaped elements expanding downward are placed. Inside each cone-shaped element in the area where the perforated section of the pipeline is located, a perforated annular shell is arranged coaxially with the pipe, which is located with a gap outside the perforated section of the pipeline.

The upper cone-shaped element expanding downward is equipped with a conical bump visor.

The upper bottom contains drainage pipes to remove pop-up contaminants and an air cushion.

Pipes with taps are installed evenly around the bottom of the bottom to periodically remove trapped impurities.

The upper and lower bottoms can be made conical or elliptical.

The cone-shaped elements are rigidly attached to the cylindrical body or to the pipe.

In the drawings, the proposed technical solution is schematically presented, in which Fig. 1 shows a dirt filter; figure 2 is the same, bottom view, figure 3 is a section AA in figure 1 (on an enlarged scale).

The mechanical cleaning mud filter is a vertical pressure cylindrical apparatus, including a cylindrical housing 1 with an upper bottom 2 and a lower bottom 3. The upper and lower bottoms can be elliptical or conical in shape. The apparatus is mounted on supports 4 (in Fig. 1, one support of the apparatus is conventionally shown). A hatch 5 is welded into the housing 1, designed for inspection and repair of the apparatus. An inlet pipe 6 is mounted in the upper bottom 2 for supplying water for cleaning, and two drainage pipes 7 are installed for removing pop-up contaminants and an air cushion. In the lower bottom 3, nozzles 8 with taps are welded evenly around the perimeter (one nozzle is conventionally shown in Fig. 1) for periodic removal of trapped impurities through them.

An outlet pipe 9 is installed in the lower part of the housing for the removal of purified water. The upper part of the outlet pipe is made as a pipe 10 vertically located inside the housing coaxially with the inlet pipe 6.

In the walls of the pipeline 10 formed perforated sections I, II, III, made in the form of rows of through holes.

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

The upper end of the pipeline 10 is located under the inlet pipe 6.

Along the pipeline 10 between it and the cylindrical body 1 in the zones of the perforated sections I, II, III are installed cone-shaped elements 11 expanding towards the bottom.

The upper cone-shaped element 11 is equipped with a conical bump visor 12.

Inside each cone-shaped element 11 in the area of the perforated sections I, II, III of the pipeline 10, perforated annular shells 13 are mounted coaxially with the pipe outside the perforated sections.

The upper and lower bottoms of the apparatus can be made conical (at a pressure of the medium up to 12 kgf / cm ² ), or ellipsoid (at a pressure of the medium over 12 kgf / cm ² ).

If it is necessary to capture the pop-up substances, the sump can be equipped with an upper stilling chamber, which is formed from a longer inlet and recessed into the depths of the cylindrical body 1 of the inlet pipe 6 and the upper drainage pipes 7 to remove pop-up contaminants.

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 6 is supplied to the body 1 of the mud collector, enters the baffle plate 12 of the upper cone-shaped element 11 and smoothly flows over the cross section. Smoothly flowing around the upper cone-shaped element 12, the water loses speed and rotates 180 degrees and enters the pipeline 10 through the perforated section I.

Similarly, through the perforated sections II, III, the rest of the water flow enters the pipeline 10, and the purified water is discharged to the consumer.

The space between the generatrices of the cone-shaped elements 11 and the central pipeline 10 provides a laminar flow regime of the medium, resulting in a high degree of water purification.

Perforated annular shells 13 provide additional hydrodynamic protection from mechanical impurities in the slots of the perforated sections of the pipeline.

Impurities settled in the lower part of the sump are periodically removed by opening the taps on the nozzles 8.

During the operation of the sump, the separation of contaminants occurs as a result of a combination of two gravity processes: natural and due to forced movement of the water flow from top to bottom 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 direction of movement. The combination of inertia and gravity allowed to significantly increase the degree of purification of water from mechanical impurities compared with existing standard mud collectors 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 (10)

1. A dirt filter containing a vertically arranged cylindrical body with upper and lower bottoms, as well as inlet and outlet nozzles coaxially arranged, while part of the outlet nozzle is made as a pipeline vertically located inside the housing, in the walls of which perforated sections are formed in the form of rows through holes, and between the pipeline and the cylindrical body in the areas of the location of the perforated sections are installed cone-shaped elements expanding downward, characterized in that and each tapered element in the perforated pipe section location area it coaxially arranged annular perforated shroud is located with a gap outside the perforated portion of the conduit. 2. The mud filter according to claim 1, characterized in that the upper cone-shaped element extending downward is equipped with a conical baffle plate. 3. The mud filter according to claim 1, characterized in that the upper bottom contains drainage pipes to remove pop-up contaminants and an air cushion. 4. The filter-sump according to claim 1, characterized in that in the lower bottom evenly around the perimeter there are nozzles with taps for periodic removal of trapped impurities. 5. The mud filter according to claim 1, characterized in that the upper bottom is conical. 6. The mud filter according to claim 1, characterized in that the upper bottom is elliptical. 7. The mud filter according to claim 1, characterized in that the lower bottom is conical. 8. The dirt filter according to claim 1, characterized in that the lower bottom is elliptical. 9. The dirt filter according to claim 1, characterized in that the cone-shaped elements are rigidly attached to the cylindrical body. 10. The sump filter according to claim 1, characterized in that the cone-shaped elements are rigidly attached to the pipe.

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