RU17617U1 - FILTER-DIPPER - Google Patents

Abstract

The mud filter installed with the liquid flow meter, consisting of a body with a removable top cover and a cone-shaped bottom with a mud fraction drain valve, with inlet and outlet nozzles and an internal liquid flow reflector, characterized in that the liquid flow reflector is made in the form perforated sheet of magnetically hard steel with a residual magnetization and installed counter-oblique to the flow of fluid, in the lower part of the reflector mounted bracket with an opening towards the bottom hour and housings, the axis of the outlet pipe for connecting the liquid flow meter is shifted downward relative to the axis of the water pipe by half the sum of the diameters of the holes of the pipes, a jet straightening device is installed in the hole of the output pipe, equal to the diameter of the working channel of the liquid meter, and the lower part of the hemispherical cover is closed with an elastic membrane forming a cavity with excess air pressure.

Description

FILTER-DIPPER

The utility model relates to the field of flow metering, namely, metering, control and regulation units for the flow of liquids, containing flow meters, actuators and devices sensitive to mud fractions in the fluid flow.

The mud filter is part of the metering, monitoring and control units for the flow of liquids 1 and is installed in front of the flow meter, devices and actuators in order to filter mud fractions from the fluid stream, including metal ferromagnetic particles, as well as to filter hydrodynamic pulsations of the fluid flow. A known design of the mud filter 2 of the subscriber design "Soyuztekhenergo containing a cylindrical housing with two nozzles (inlet and outlet) and with a dividing wall between them. A disadvantage of the known design of the mud filter is the presence of a liquid flow under the partition above the filtered mud fraction, which, when the flow pulsations increase or during hydrodynamic shock in the system, causes a portion of the mud fraction to be thrown into the outlet nozzle of the mud filter.

Known filter sump design "Organenergostroy 2, which is a container with a conical bottom with a drain through

MKHGOIF 15/12 V 01 D 35/02

plug plug of the mud fraction, two inlet and outlet nozzles, a partition between the nozzles and the strainer on the outlet nozzle.

A disadvantage of the known construction is that the liquid and the accumulated mud fraction are not separated in the mud filter housing and when the flow pulsations increase or during hydrodynamic shock, the strainer is clogged at the outlet pipe and the suspension is thrown into the outlet pipe channel. In addition, in both designs of mud filters, the axes of the inlet and outlet nozzles are the same, which requires the installation of an additional level transition to constantly fill the working channels of the flow meters, instruments and actuators with liquid to reduce the mechanical effect of hydrodynamic shocks and reduce the effect of transients during flow measurement .

The objective of the utility model is to eliminate the outflow of mud fractions into the outlet pipe of the mud filter during sharp fluctuations in fluid flow, reducing the number of structural elements in the pipeline between the mud filter and the fluid flow meter (and / or other devices and actuators), as well as reducing the length of the measuring section of the pipeline in front of the flow meter and, as a result, a decrease in the metal consumption of the metering unit, control and regulation of fluid flow.

a conformable bottom, with a venting drain for the mud fraction, with two inlet ports for connecting the supply pipe and an outlet for attaching a liquid flow meter (and / or other devices and actuators), while the axis of the outlet pipe is shifted down relative to the axis of the inlet pipe by half the sum of the diameters the nozzle holes, inside the housing there is a liquid flow reflector in the form of a perforated sheet mounted counter-obliquely to the supplied liquid flow, while the flow reflector and formed of a solid magnetic steel is magnetized and the bottom of the reflector mounted bracket aperture towards the bottom of the housing filtragryazevika. The lower part of the upper hemispherical cover is closed by an elastic membrane with excess air pressure between the membrane and the hemispherical cover. The hole of the outlet pipe is equal to the diameter of the working channel of the flow meter (or other device or actuator), and a jet-straightening device is installed in it, for example, a set of horizontally placed plates with a gap between them.

Figure 1 shows the design of the filter-sump.

Figure 2 View aa.

In Fig. 3, View B is an outlet pipe with a jet straightening device.

The mud filter contains (Fig. 1) a housing 1 with a valve 2 for draining the mud fraction, two nozzles are installed on the housing - an inlet pipe 3 and an outlet pipe 4 with a jet straightening device 5 (Fig. 3). On the

the housing has a removable hemispherical cover 6, closed at the bottom with an elastic membrane 7, so that excess air pressure is generated inside. A fluid flow reflector B is installed inside the casing, made in the form of a perforated sheet of magnetically hard steel and having a bracket 9 in the lower part, for example, “U shaped, resting on the base of a conical bottom.

The mud filter works as follows. The fluid flowing through the inlet pipe 3 into the internal volume flows through the perforated flow reflector and enters the outlet pipe 4. A sharp drop in the fluid flow rate inside the mud box allows suspended particles to settle and accumulate in the bottom of the mud filter. With sharp fluctuations in the fluid flow, there is no inrush of the mud fraction into the outlet pipe of the sump. The ferromagnetic particles of the mud fraction are captured due to the residual magnetization of the perforated sheet of the flow reflector 8.

The reduction of dynamic flow oscillations is provided by an elastic membrane 7, which forms a closed volume with a hemispherical cover with an excess air pressure equal to the working pressure of the liquid inside the filter.

The jet straightening device 5 (FIG. 3) installed in the outlet pipe 4 smoothes out the turbulence of the output fluid stream and reduces the length of the measuring section of the pipeline in front of the flow meter. The outlet pipe 4 is connected directly to the flow meter 10 without bending and the mating cone, while in comparison with the prototype (2) a number of elements are reduced - the bend and the mating cone, and the base lengths of the pipelines in front of the flow meter are also reduced. Due to the fact that the axis of the outlet pipe is shifted down relative to the axis of the inlet pipe, the working channel of the meter-flowmeter is constantly filled with liquid, which reduces the effect of hydrodynamic shocks during measurement.

References:

1. “Design of heat points. Code of rules for design and construction. SP-41-101-95 of the Ministry of Construction of Russia, Moscow, 1997.

2. “Adjustment and operation of water heating networks. Directory. V.I.Manyuk et al., Moscow: Sroyizdat, 1988.- p. 68.69; Fig. 2.79, 2.80.

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Claims (1)

The mud filter installed with the liquid flow meter, consisting of a body with a removable top cover and a cone-shaped bottom with a mud fraction drain valve, with inlet and outlet nozzles and an internal liquid flow reflector, characterized in that the liquid flow reflector is made in the form perforated sheet of magnetically hard steel with a residual magnetization and is installed counter-oblique to the flow of fluid, in the lower part of the reflector is mounted a bracket with an opening towards the bottom hour and housings, the axis of the outlet pipe for connecting the liquid flow meter is shifted downward relative to the axis of the water pipe by half the sum of the diameters of the holes of the pipes, a jet straightening device is installed in the hole of the output pipe, equal to the diameter of the working channel of the liquid meter, and the lower part of the hemispherical cover is closed with an elastic membrane forming a cavity with excess air pressure.