RU154449U1 - FILTER-DIPPER INERTIAL-GRAVITATIONAL - Google Patents

Abstract

1. An inertial-gravity filter-sump containing a housing, on the external surface of which there is a nozzle for supplying a cleaned liquid, a branch pipe for removing cleaned liquid, while inside the housing there is a fluid cleaning system, characterized in that the lower plane of the housing is located at an angle to the longitudinal axis of the housing .2. The inertial-gravity filter-sump according to claim 1, characterized in that the device for selecting solid contaminants is placed on the casing. 3. The inertial-gravity filter-sump according to claim 1, characterized in that a means for removing the gas phase extracted from the liquid being cleaned is placed on the housing. 4. Inertial-gravity filter-sump according to claim 1, characterized in that a viewing hatch is located on the housing. 5. The inertial-gravity filter-sump according to claim 1, characterized in that the liquid purification system is a pipe installed coaxially to the inside of the housing, rigidly connected to the pipe of the outlet of the purified liquid and closed from above with a conical cap facing down, the diameter of the base of the conical cap exceeding the diameter of the pipe, and part of the conical surface of the cap is located below the upper end of the pipe, on the pipe under the conical surface of the cap, the first perforation area is made, and perforations with a gap relative to the surface of the perforated pipe installed first glass, wherein the first region below the perforations in the tube is provided with at least one additional perforation region on which a gap relative to the surface of the central tube has a second perforated glass around each perforated

Description

The technical solution relates to the field of maintenance of pipeline networks designed for transporting liquid media, and can be used, in particular, 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.

The developed device can also be used in transportation systems of other liquid means.

Known (RU, patent 115038, publ. 04/20/2012), a vertical inertial filter-sump containing a vertically arranged cylindrical body with upper and lower bottoms, as well as with inlet and outlet nozzles, while part of the outlet nozzle is made as a section vertically located inside the housing pipes, in the walls of which perforated sections are formed in the form of horizontally arranged rows of through holes, the upper end of the pipe being located under the inlet pipe and provided with a conical baffle peak, and along the pipe s between it and the cylindrical body in the zones of location of perforated sections placed downwardly expanding conical elements. In this case, the nozzle is L-shaped to allow lateral drainage of purified water, and cone-shaped elements expanding upward are installed under each cone-shaped element along the pipe, and the maximum diameter of each cone-shaped element expanding downward exceeds the maximum diameter of the cone-shaped element expanding upward.

Also known (RU, patent 123889, publ. September 19, 2012) is an inertial-gravity filter-sump containing a vertically arranged cylindrical body with upper and lower bottoms, on the bottoms of which the inlet and outlet nozzles of the liquid to be cleaned are aligned, a pipe is installed coaxially with the body, connected to the outlet fitting, the upper end of the pipe is closed with a conical cap directed base down, a truncated cone is installed on the lower end of the pipe, at least two truncated protective cones are rigidly mounted, for example At least one row of holes is made downward in the pipe wall, under the cones, under the cones, and a nozzle is made in the lower part of the body to remove impurities. The truncated cone on the pipe is installed base down, the rows of holes under the truncated protective cones are protected by rings with holes attached to the inside of the truncated protective cone, drainage nipples are installed in the upper bottom to remove pop-up contaminants and air, and these rings are separated from the pipe depending on the passage the ability of the sump, and the holes of the rings are flush with the holes in the pipe.

The closest analogue of the developed device can be recognized (RU, patent 2298721, publ. 10.05.2007) an inertial-gravity filter-sump containing a vertically arranged cylindrical body with a bottom, and in the case there are fluid inlet and outlet nozzles on the same axis, as well as a nozzle dirt outlet, while the sump contains a pipe installed in the housing between the inlet and outlet nozzles, the upper end of which is closed by a jack cover, conical elements are fixed along the length of the pipe, forming an acute angle with the pipe from the bottom, in the pipe sections located under the cone-shaped elements, longitudinal holes are made, and on the bottom of the pipe after the last cone-shaped element and above the inlet of the dirt outlet pipe, an element is designed to prevent particles that have previously settled on the bottom from entering the cleaned medium. The pipe and outlet pipe are sealed, the acute angle between the generatrix of the cone-shaped element and the bottom is from 50 to 70 °, the distance between the lower boundary of the longitudinal holes in the pipe and the boundary by the projection of the conical element on the pipe surface is at least half the distance from the lower boundary of the conical element to the surface pipes, while the element designed to prevent particles that had previously settled on the bottom from entering the cleaned medium is a perforated ring on the bottom ited which is displaceable about the vertical axis established second perforated ring provided with a drive of its movement about the axis, wherein the perforations do not coincide rings operating.

A drawback of all of the above devices should be the accumulation of colloidal type contaminants at the bottom of the filter housing with a density close to the density of the liquid being cleaned, which, when the laminar flow of the liquid to be cleaned, tends to go back to the liquid being cleaned, making the cleaning process useless.

The technical problem solved using the claimed design is to develop a new type of inertia-gravity filter-sumps.

The technical result achieved by the implementation of the developed design consists in reducing the content of colloidal contaminants in the purified liquid with a density close to the density of the liquid being cleaned.

To achieve the specified technical result, it is proposed to use an inertial-gravity filter-sump developed by the design. The developed design includes a housing, on the outer surface of which there is a nozzle for supplying a cleaned liquid, a branch pipe for removing purified liquid, a fluid cleaning system is placed inside the housing, while the lower plane of the housing is located at an angle to the longitudinal axis of the housing.

The principle of operation of inertial-gravitational dirt filters is based on the use and combination of natural processes - gravity and inertia of pollution particles - to capture them in the apparatus. Unlike strainers designed to remove coarse mechanical impurities from the fluid stream by holding them with a filter screen, the fluid is cleaned of mechanical impurities in an inertial dirt filter and is not accompanied by an increase in the hydraulic resistance of the apparatus as the accumulated sludge accumulates. Due to a sufficiently long time for the passage of the liquid to be cleaned inside the inertial dirt filter housing, high cleaning efficiency of heavy mechanical impurities (up to 95%) and easily emerging contaminants is achieved. Typically, the accumulation of contaminants in the apparatus is carried out by briefly (for 10-15 seconds) opening the drains to drain the sludge. The device does not need to be stopped, taken out of operation; it is believed that the mode of operation of the system does not change either. However, nevertheless, when the drains are opened, the laminarity of the flow of the liquid being cleaned is violated, and part of the settled contaminants, especially with a density close to the density of the liquid being cleaned, again passes into the volume of the liquid being cleaned. For this reason, it is desirable to create conditions for the purification of the liquid, which as much as possible impede the transfer of settled colloidal contaminants back to the cleaned environment. To do this, it is proposed to make the bottom of the body beveled, which prevents the transfer of settled dirt from the surface of the bottom to the volume of the liquid being cleaned. The bevel angle depends on the type of liquid being cleaned, as well as on the nature of the contaminants removed. The greater the density of the liquid and the density of contaminants, the larger the bevel angle can be, since it is more difficult for “heavy” particles to rise from the beveled recess in the bottom.

On the case of the mud filter can be additionally placed a means of selection of solid contaminants. It can be made in the form of a hatch or pipe connecting the internal volume of the housing to the sewer.

A means for removing the gas phase extracted from the liquid to be cleaned can also be placed on the mud filter housing. The specified tool can be made in the form of a pipe, preferably with a safety valve, or in the form of a hatch, which additionally allows you to remove contaminants separated from the liquid with a density lower than the density of the liquid being cleaned.

An inspection hatch can be additionally located in the filter-sump housing, allowing, if necessary, inspection of the condition of the inside of the filter-sump, its cleaning and repair.

The liquid purification system, which is part of the mud filter, can be performed in various ways. It is desirable that the liquid to be cleaned passes along the maximum extended trajectory, while maintaining the laminar flow. In some embodiments of the developed device, the liquid purification system is a pipe installed coaxially to the inside of the body, rigidly connected to the outlet of the purified liquid and closed on top with a conical cap facing down, the diameter of the base of the conical cap exceeding the diameter of the pipe, and part of the conical surface of the cap is located below the upper end of the pipe, on the pipe under the conical surface of the cover the first perforation area is made, on the perforation area and with a gap relative to the surface of the pipe, a first perforated cup is installed, while at least one additional perforation area is made below the first perforation region in the pipe, on which a second perforated cup is mounted with a gap relative to the surface of the central pipe, mounted on each perforated cup the surface of the pipe, the lid is in the form of a truncated cone, facing downward with a large base, while the lower bases of the conical lid and the lid are truncated additional casing in the form of a truncated cone, facing a large base upwards, are attached with the possibility of passage of the liquid being cleaned. The size and quantity, as well as the location of the perforation holes in the specified cleaning system depends on the type of liquid being cleaned, as well as on the content, size and nature of the contaminants.

The mud filter housing can be integrated into the line of the liquid to be cleaned or mounted on supports.

Using the above-mentioned liquid purification system, the developed device operates as follows.

A contaminated liquid enters the housing through the inlet pipe. In the process of its passage inside the casing, contaminants with a specific gravity of less than 1 g / cm ³ and air, which, rising to the upper part of the casing, are collected under the upper bottom, are separated from the liquid. Pop-up impurities and air are periodically removed from the housing through a gas phase removal means. Further, during the passage through the body of a contaminated liquid, impurities with a specific gravity of more than 1 g / cm ³ are separated from it under the action of inertia and gravity and collected on the lower bottom, sliding into the beveled part of the body, from where they are removed by any known method, including including through the drain pipe. Next, the cleaned liquid, passing through the holes in the perforated cups and the holes in the pipe, enters the pipe and out of the housing through the fitting.

Comparison of the effectiveness of the developed inertial-gravity filter-sump and the device used as the closest analogue showed that the inertial gravitational filter-sump developed by the design cleans the liquid from colloidal contaminants 2.6 times better than the device used as the closest analogue.

Claims (6)

1. An inertial-gravity filter-sump containing a housing, on the external surface of which there is a nozzle for supplying a cleaned liquid, a branch pipe for removing cleaned liquid, while inside the housing there is a fluid cleaning system, characterized in that the lower plane of the housing is located at an angle to the longitudinal axis of the housing . 2. The inertial-gravity filter-sump according to claim 1, characterized in that the device for selecting solid contaminants is placed on the casing. 3. The inertial-gravity filter-sump according to claim 1, characterized in that a means for removing the gas phase extracted from the liquid being cleaned is placed on the housing. 4. The inertial-gravity filter-sump according to claim 1, characterized in that an inspection hatch is located on the housing. 5. The inertial-gravity filter-sump according to claim 1, characterized in that the fluid purification system is a pipe installed coaxially to the inside of the housing, rigidly connected to the outlet of the purified fluid and closed from above with a conical cap facing down, the diameter of the base being conical the cap exceeds the diameter of the pipe, and part of the conical surface of the cap is located below the upper end of the pipe, the first perforation area is made on the pipe under the conical surface of the cap, perforation with a gap relative to the surface of the pipe, a first perforated cup is installed, while at least one additional perforation area is made in the pipe below the first perforation region, on which a second perforated cup is installed with a gap relative to the surface of the central tube, a fixed around each perforated cup on the surface of the pipe, the cap is in the form of a truncated cone, facing down with a large base, and to the lower bases of the conical cap and cap in the form of a truncated cone, additional casings are attached with the possibility of passage of the liquid being cleaned in the form of a truncated cone, facing upwards with a large base. 6. Inertial-gravity filter-sump according to claim 1, characterized in that the housing is mounted on supports.