SU1160269A1 - Scanning sampler - Google Patents

Description

The invention relates to automatic control systems of pipeline transport and can be used in the oil industry for installation on pipelines that transport viscous liquids, for example, oil with a high content of paraffin.

A device for regulating the pressure of a liquid is known, comprising a housing with inlet and outlet nozzles, a fairing associated therewith and a movable sleeve associated therewith with a sensing element dividing the housing cavity into two chambers.

The regulator uses a membrane made of an elastic material and connected with a movable sleeve that regulates the pressure of the flowing medium as a sensitive organ [1].

However, the regulatory capacity of the membrane is very small. It is not able to regulate pressure over a wide range. When transporting heavy oil in the pipeline, the pipeline may experience significant fluctuations in the pressure of the flowing fluid.

The closest in technical essence to the invention is a pressure regulator containing a regulating body mounted between the inlet and outlet nozzles connected to a float located in the housing, the upper part of which is connected to the control pressure channel [2].

The disadvantage of the known regulator is its unsuitability for regulating the flow of viscous heavy oil due to the formation of stagnant areas and due to the rapid cooling of the medium and the formation of wax deposits on the walls of the pipeline, which reduces the mobility of the regulator and leads to frequent failures. In addition, the known device has a complex structure.

The aim of the invention is to expand the scope, increase reliability and simplify the device.

This goal is achieved by the fact that in the fluid pressure regulator, the regulator installed between the inlet and the first outlet is connected to a float located in the housing, the upper part of which is connected to the control pressure channel, the float is connected to the regulator by the rod in which the channel is made through which the inlet is connected to the bottom of the housing.

Moreover, the regulator contains a second outlet nozzle, installed symmetrically to the first outlet nozzle, and the sum of the cross-sectional areas of the output

nozzles equal to the cross-sectional area of the inlet nozzle.

The drawing shows the pressure regulator.

The regulator contains inlet 1 'and first 2 and second 3 outlets, body 4, in which the regulator is installed - spool 5. Inside shaft 5 there is a stem 6. with channel 7 serving for transferring oil to body 4. The spool 5 is connected with sensitive element - float 8, freely moving in the housing 4. To the upper part of the housing 4 a control pressure channel is connected, on which valves 9 and 10 of the pneumatic control system are installed from the receiver 11 with a compressor 12. A pressure sensor 13 is installed at the regulator outlet, which serves for feedings commands to the valves 9 and 10, pneumatic control systems. The slide stroke is limited by the stop 14. The regulator is connected to the main pipeline by means of a manifold 15.

When the pressure regulator is used, the principle of changing the cross section of the bypass openings of the outlet nozzles 2 and 3 when moving the valve 5 under the influence of compressed air, which is fed into the upper part of the housing 4 from the receiver 11 connected to the compressor 12, is used. and through the channel 7 of the rod 6 - oil is bypassed to the lower part of the housing 4.

When the pressure changes at the collector outlet, the pressure sensor 13 automatically opens valves 9 or 10 of the supply or discharge of compressed air. When this occurs, the change in the level of oil in the housing 4 and, accordingly, the position of the float 8 associated with the spool 5, which moves and changes the cross section of the bypass holes of the outlet nozzles 2 and 3.

When the regulator is in operation, the valve takes an intermediate position relative to the bypass holes, and a certain pressure is established at the regulator outlet.

The fluid pressure regulator allows you to adjust the flow of viscous liquids, such as oil, as oil passing through the inlet 6 and outlet pipes, as well as being in the body, does not freeze, because the regulator design does not contain elements that would contribute to the formation of stagnant areas. The oil in the regulator is in constant motion, it “breathes”, as it were, mixing with the newly supplied portions of the transported oil and the remaining amount of heat prevents the precipitation of paraffin.

Claims (2)

1. PRESSURE REGULATOR LIQUID, containing a regulator installed between the inlet and the first outlet nozzles, associated with a float located in the housing, the upper part of which is connected to the control pressure channel, characterized in that, in order to expand the scope, increase the reliability and simplify the regulator, the float is the regulatory body of the rod in which the channel is made through which the inlet is connected to the lower part of the housing. 2. The regulator for π. 1, characterized in that it contains a second outlet, installed symmetrically to the first outlet, and the sum of the cross-sectional areas of the outlet nozzles is equal to the cross-sectional area of the inlet. zi „„ 1160382 > 1160382