RU185866U1 - Air valve control unit of the unit for measuring oil production rate - Google Patents

Abstract

The utility model relates to the field of oil and gas equipment, namely to ventilation systems of block equipment, in particular to air valves of the ventilation system of installations for measuring the flow rate of oil wells and provides automatic control of the process of opening and closing the air valve depending on temperature. the valve of the installation unit for measuring the production rate of oil wells contains a hydraulic cylinder 1 with a sliding rod 2, filled with coal hydrogen mixture as the working fluid and fixed to the installation frame unit, and the lever 3 with counterweight 7 mounted on axles 4, fixedly mounted on the rotary valve flap 5, 6 associated with the rod of the hydraulic cylinder 2 1. 2 yl.

Description

The utility model relates to the field of oil and gas equipment, namely to ventilation systems of block equipment, in particular to air valves of the ventilation system of installations for measuring the production rate of oil wells.

Block measuring units are designed for continuous or discrete measurements of the flow rates and the number of components of an oil well’s production, as well as for displaying, archiving, and transmitting measurement results and alarms to an oil field control room. In block installations at some fields, instead of supply and exhaust electric drive ventilation, large valves with manual opening and closing of these valves are used.

Thus, for example, a ventilation system is known which can be used in a block measuring installation comprising valves with rotary dampers and a traction system for opening the dampers. Managing the opening and closing of the dampers is done manually. The dampers are set to the required angle and fixed by a locking device placed on the traction wire (RF Patent No. 2125685, 1994).

The adjustment of the opening and closing of the valves is done manually only when the maintenance personnel visit the unit of the measuring installation. At the same time, in the field in the absence of an emergency, maintenance personnel visit each block of the measuring installation at most once or twice a day. At the same time, changeable weather, as well as different temperatures of the working fluid flowing through the pipes of the unit, require more intensive control of the process of opening and closing air valves, since the accuracy of the measuring devices in the unit depends on the ambient temperature. In addition, for safety reasons, it is forbidden to enter an unventilated room where hydrocarbon leaks are possible, which makes it difficult for service personnel to access the units. Automatic control of air valves without an electric drive from a control room or according to a program from an automation unit is almost impossible.

The task to which the claimed technical solution is directed is to provide control of the process of opening and closing the valve depending on the temperature in automatic mode.

The technical result is achieved in that the air valve control unit of the installation unit for measuring the production rate of oil wells contains a hydraulic cylinder with a sliding rod filled with a hydrocarbon mixture as a working fluid and mounted on the frame of the installation unit, as well as a lever with a counterweight mounted on axes fixedly mounted on a rotary valve flap associated with the cylinder rod.

The implementation of the control device of the air valve with a hydraulic cylinder filled with a hydrocarbon mixture, allows you to automatically open the valve when the temperature rises. The presence of a lever with a counterweight allows automatic closing of the valve, and also allows you to configure the device itself to the desired parameters (opening angle - closing the valve flap depending on temperature).

The utility model is illustrated graphically, where in FIG. 1 shows the proposed device with the valve closed, FIG. 2 shows the device with the valve flap open.

The air valve control device of the installation unit for measuring the production rate of oil wells contains a hydraulic cylinder 1 with a rod 2 mounted on a lever 3 mounted on an axis 4 fixed on the valve 5 of the valve 6. The axis 4 is located above the center of the valve 5. The lever 3 has a counterweight 7 and a sleeve 8 for mounting the rod 2 of the hydraulic cylinder 1. The hydraulic cylinder 1 is mounted on a bracket 9, which is attached to the beam of the frame 10 (figure 2).

The device operates as follows.

With increasing temperature in the unit’s room, the working fluid located in the hydraulic cylinder 1, which is used as a hydrocarbon mixture, expands and presses on the piston ending in the sliding rod 2. The rod 2, raising the sleeve 8, turns the lever 3 connected to the axis 4 of the shutter 5, when This shutter 5 opens. When cooling the liquid in the hydraulic cylinder 1, the counterweight 7 of the lever 3 is lowered, the lever 3 turning pushes against the rod 2, the shutter 5 closes.

The angle of rotation of the shutter 5 can be adjusted during installation of the system depending on the required temperature by the location of the counterweight 7 on the lever 3. The closer to the axis of rotation of the lever 3 the rod 2 is fixed, the lower the temperature at which the opening of the shutter 5 will begin, and the higher the speed of opening the shutter 5. By shifting the mounting of the rod 2 further from the axis of rotation of the lever 3, it is possible to increase the temperature of the opening of the valve 5, while reducing the speed of its opening.

The proposed device allows for air exchange in the room to maintain the required temperature in the unit of the measuring installation, thereby ensuring the correct operation of the measuring devices.

Claims (1)

The air valve control device of the installation unit for measuring the production rate of oil wells contains a hydraulic cylinder with a sliding rod filled with a hydrocarbon mixture as a working fluid and mounted on the frame of the installation unit, as well as a lever with a counterweight mounted on axes fixedly mounted on the rotary valve flap, connected with hydraulic cylinder rod.

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