RU123890U1 - FILTER HORIZONTAL INERTIA-GRAVITATIONAL - Google Patents

Abstract

1. The horizontal inertial-gravity filter, containing a horizontally located housing with bottoms, while on the housing there are nozzles for supplying purified water, for removing purified water, for venting air and emerging contaminants, as well as a nozzle for removing pollutants with a density greater than the density of water, passes inside the housing perforated pipe connected to the outlet for purified water, characterized in that a fitting for supplying purified water, a fitting for removing purified water, and at least e, one nozzle for venting air and pop-up contaminants, a nozzle for venting contaminants with a density higher than the density of water is mounted in the lower part of the housing; the second end of the perforated pipe is rigidly attached to a plate fixed at an angle to the upper part of the housing with a gap relative to the lower part of the housing the pipe passes through at least one additional plate, also attached to the upper part of the body, the plates are installed with a gap relative to the bottom of the body with the formation of chambers, and the outlet fitting air ear and floating contaminants are located above each of the chambers. 2. The filter according to claim 1, characterized in that the perforation of the pipe is made in the form of at least one row of holes located in each of the chambers. The filter according to claim 1, characterized in that it contains two additional plates. The filter according to claim 1, characterized in that the additional plates are located at an angle relative to the surface of the perforated pipe. The filter according to claim 1, characterized in that the filter housing contains at least one service hatch. The filter according to claim 1, characterized in that

Description

The technical solution 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 technological water flows from mechanical x impurities without the use of filtering materials.

Typical water purifiers existing in boiler houses, central heating systems and in-house heating systems, which are strainers, as a rule, 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.

The developed design of the mud filter can be used to purify natural, waste, recycled and industrial waters, purify network and make-up water of central heating and hot water supply systems, pre-treat water before bulk filters at waterworks, etc.

Known (SU, copyright certificate 286968) design of a filter for pipelines designed to remove foreign matter from the water. The known filter contains a closed cylindrical housing, filter gratings and a lock gate, and the body volume is divided into at least three isolated sectors by filter gratings, radically mounted on a shaft mounted along the axis of the housing.

 A disadvantage of the known construction should be recognized as a weak pollution-retarding ability, as well as the use of filtering elements - grids, which are gradually clogged with dirt.

 Also known (RU Patent 2008604) is a mud filter construction. The specified sump contains a housing with a bottom, and in the housing are located on the same axis of the nozzle of the input and output fluid, a filter element located between these nozzles. At the bottom of the casing, a dirt outlet pipe is made.

A disadvantage of the known device should be recognized 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 filtering properties.

Also known (SU, copyright certificate 1319367) is a filter design for pre-treatment of water. The known filter contains a cylindrical vertical housing, drainage and distribution means, the latter of which includes horizontally located in the upper part of the housing, at least partially perforated pipes and a central vertical pipe with holes on the side surface and a plug in the lower end, as well as a granular load, placed between the drainage and distribution means, and the distribution means is additionally equipped with a vertical pipe, muffled from above and installed to Centered within the central vertical pipe, perforated tubes are attached radially to the additional tube, and the end of the latter is spaced from the stub in the central tube.

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

The closest analogue of the developed technical solution can be recognized (RU, patent 2377045) horizontal inertial gravitational filter. The known filter comprises a housing in which a pipe for supplying purified water, a pipe for removing purified water and a drainage system are mounted, while a partially perforated pipe is located inside the housing. The casing is made in the form of a horizontally or inclined cylinder with a hatchway mounted for inspection and repair of the sump in one of its sides; below the axis of the casing - the first pipe of the drainage system, on the opposite side of the casing are mounted below the axis of the casing of the pipe for supplying the water to be cleaned for cleaning and above the axis of the casing - the second drainage pipe, designed to I remove floating contaminants from the enclosure. At the specified pipeline in the casing, at least one perforated section is closed, covered by an elliptical visor located in the pipe. An additional drainage is mounted in the lower part of the body in the area of the stilling plate, and at least one elliptical fender is installed against the nozzle for supplying the purified water. In the case of using more than one chipper, they are installed in series. Preferably, the housing is mounted on supports providing a slope of the sump to create the effect of "rolling" mechanical impurities into the stagnant zone under the soothing plate.

A disadvantage of the known filter should be recognized as an insufficient degree of purification of the liquid.

The technical result obtained by the implementation of the developed technical solution consists in improving the quality of cleaning while increasing the time interval between cleaning the internal volume of the filter.

To achieve the specified technical result, it is proposed to use a horizontal inertial gravitational filter of the developed design. The filter contains a horizontally located housing, in the upper part of which a fitting is mounted. of the purified water supply, the outlet of the purified water, as well as at least one nozzle of the exhaust air and inflowing contaminants, a nozzle of the discharge of contaminants with a density of a higher density of water is mounted in the lower part of the housing, while a perforated pipe connected to the outlet of the drain passes inside the housing purified water, the second end of which is rigidly attached to a plate fixed at an angle to the upper part of the housing with a gap relative to the lower part of the housing, and the specified pipe passes through at least one additional tion plate, also attached to the upper portion of the housing, plates are installed with a gap relative to the body to form the bottom chambers and the air discharge nozzles and supernatants contaminants located over each of the chambers.

Preferably, the perforation of the pipe is made in the form of at least one row of holes located in each of the chambers.

In some embodiments, two additional plates are used.

These additional plates are preferably angled relative to the surface of the perforated pipe.

The filter housing may further comprise at least one service hatch.

The filter housing may further comprise supports mounted advantageously so that the housing is mounted obliquely.

The operation of the filter is based on the effect of gravity on water-contaminated contaminants during the flow of purified water through the filter volume, openings in the perforated pipe and the outlet of the purified water, as a result of which contaminants with a density less than the density of water float up and are removed through the nozzles for removing pop-up contaminants and pollution, the density of which is greater than the density of water, goes down and is removed through the corresponding fitting or through the hatches.

The horizontal filter of the developed design consists of a horizontally located housing in the form of a cylindrical shell with two bottoms, as well as inlet and outlet fittings located on the upper forming shell, while the outlet pipe for cleaned water is connected to a pipe horizontally located inside the housing. The end of the pipe is rigidly attached to the plate, which is attached to the shell at an angle, and the pipe is rigidly attached to two other plates, passing through them with the formation of chambers. In the wall of the pipe, between the plates, rows of holes (from one to several) of various configurations are made. On the upper generatrix of the shell, over each chamber, drainage fittings are installed to remove pop-up contaminants and air. A fitting is installed on the lower generatrix of the shell to remove filtered impurities (contaminants).

The filter of the developed design works as follows.

The purified water enters the housing through the fitting. A water stream fills the entire volume of the housing, while the air displaced from the housing exits through the fittings. After filling the casing, both during and after filling, under the influence of gravitational forces, dissolved gases and light impurities are released from the water stream, the density of which is less than the density of water, which rise up and are removed through the fittings, as well as impurities with a density higher than density water that sinks down and is removed through fittings.

In a preferred embodiment of the developed device, the removal of impurities occurs periodically, for which purpose valves are installed that are controlled automatically or in manual valves.

By optimizing the movement of the water stream, the quality of the treatment is improved (the content of impurities in the purified water decreased by 13-15% relative to the water purified by the prototype device) while increasing the time interval (2 - 2.6 times) between cleaning the internal volume of the filter.

Claims (6)

1. The horizontal inertial-gravity filter, containing a horizontally located housing with bottoms, while on the housing there are nozzles for supplying purified water, for removing purified water, for venting air and emerging contaminants, as well as a nozzle for removing pollutants with a density greater than the density of water, passes inside the housing perforated pipe connected to the outlet for purified water, characterized in that a fitting for supplying purified water, a fitting for removing purified water, and at least e, one nozzle for venting air and pop-up contaminants, a nozzle for venting contaminants with a density higher than the density of water is mounted in the lower part of the housing; the second end of the perforated pipe is rigidly attached to a plate fixed at an angle to the upper part of the housing with a gap relative to the lower part of the housing the pipe passes through at least one additional plate, also attached to the upper part of the body, the plates are installed with a gap relative to the bottom of the body with the formation of chambers, and the outlet fitting air ear and floating contaminants are located above each of the chambers. 2. The filter according to claim 1, characterized in that the perforation of the pipe is made in the form of at least one row of holes located in each of the chambers. 3. The filter according to claim 1, characterized in that it contains two additional plates. 4. The filter according to claim 1, characterized in that the additional plates are located at an angle relative to the surface of the perforated pipe. 5. The filter according to claim 1, characterized in that the filter housing contains at least one service hatch. 6. The filter according to claim 1, characterized in that the housing further comprises supports.