RU102396U1 - OIL MEASUREMENT REGULATOR "RZN" - Google Patents

Abstract

 1. The oil metering regulator, characterized in that it contains a housing with upper and lower covers, inside of which there are upper and lower fixed magnets and a rod, on which a movable magnet, a spring, a cuff valve are placed, while a compensator made with the possibility of raising the cuff valve, and an adjusting bolt configured to control the differential pressure. ! 2. The controller according to claim 1, characterized in that the movable magnet is fixed to the rod by means of a nut. ! 3. The controller according to claim 1, characterized in that the movable magnet is placed between the upper and lower stationary magnets. ! 4. The regulator according to claim 1, characterized in that the upper and lower covers contain o-rings. ! 5. The regulator according to claim 1, characterized in that four o-rings are installed on the stem. ! 6. The regulator according to claim 1, characterized in that it is made of stainless materials, which are steel 12X18H10T and bronze 18.

Description

The utility model relates to the oil and gas industry, in particular to the regulator for measuring and oil consumption, and is intended for accurate oil measurement on an automated group of a metering unit (AGZU) of the "Sputnik" type at an ambient temperature from minus 50 to plus 50 ° С.

The prior art pressure regulator is equipped with a permanent magnet, an unloading valve, a sealing edge on the throttling body - a glass, a perforated skirt on the piston. The positive effect of the use of the invention can be defined as ensuring tightness at zero flow rate and full compensation of the initial pressure (SU 1327074, 07/30/1987).

Known pressure regulator containing located in the body of the control valve connected to a spring-loaded sensing element, inlet and outlet pipes. It is equipped with a permanent magnet, the movable armature of which is connected through the rod to the sensing element (SU 346713, 01.01.1972).

A known flow regulator comprising a housing, a first and second throttling zone located in the housing, a hydraulic control actuator through the first throttling zone of the differential pressure through the second throttling zone to a constant value. The hydraulic actuator is provided with a membrane, one side of which forms the wall of the first pressure chamber in communication with the inlet chamber of the flow regulator. The other side of the membrane forms the wall of the second pressure chamber communicating with the chamber behind the second throttling zone. In this case, the membrane is connected by a rod with an adjusting cone, which is an element of the first throttling zone. The second throttling zone has a cone, which is installed with the possibility of stepless axial movement relative to the hole by means of a valve actuator through the valve axis. In this case, the cone of the second throttling zone contains at least two separate parts, which are installed with the possibility of moving one relative to the other. The effective cross section of the throttling zone is variable by measuring the clearance between the individual parts (RU 2161815, 01/10/2001).

The disadvantages of these regulators is the complexity of their design, maintenance and operation.

The task to which the proposed utility model is directed is to create an oil metering regulator that would eliminate the above disadvantages.

The technical result achieved by the implementation of this utility model is to increase the reliability of the regulator, simplify its construction and assembly, reduce labor costs during operation by using: 1) a compensator, which additionally serves as a device for equalizing the pressure at the valve inlet and outlet when dismantling; 2) an adjusting bolt, by means of which the oil metering regulator is adjusted to the pressure drop, both to open (0.8 ÷ 1.2 kgf / cm ² ), as well as to close (0.2 ÷ 0.4 kgf / cm ² ); 3) a rod, the design of which and an additional double seal with MBS rings prevents oil from entering the actuators of the regulator, which increases uninterrupted operation and service life.

The specified technical result is achieved in an oil metering regulator comprising a housing with upper and lower covers, inside of which there are upper and lower fixed magnets and a rod, on which a movable magnet, a spring, a cuff valve are located, while a compensator is mounted in the upper cover, which is configured to raising the cuff valve, and an adjusting bolt configured to control the differential pressure.

The movable magnet is fixed to the rod by means of a nut.

A movable magnet is placed between the upper and lower fixed magnets.

The top and bottom covers contain o-rings.

Four o-rings are installed on the stem.

The regulator is made of stainless materials, which are steel 12X18H10T and bronze 18.

The essence of the utility model is illustrated in the drawing, which shows a General view of the regulator for measuring oil.

The RZN oil metering regulator consists of a housing 7 with upper 9 and lower 10 covers, inside of which there are fixed upper 23 and lower 26 fixed magnets and a rod 1, on which the valve lip 12, spring 25 and movable magnet 24 are located, while the top cover 9 is fixed compensator 2, made with the possibility of raising the valve cuff 12 and additionally performing the function of a device for equalizing the pressure at the inlet and outlet of the valve cuff 12 during dismantling.

The cuff valve 12 has a cuff 16 and is fixed on the stem 1 with a nut 3. The design of the rod 1 prevents oil from entering the actuators.

On top of the housing 7 is placed the outer flange 8 with the inner sealing ring 20.

A movable magnet 24 is located between the upper 23 and lower 26 magnets and is mounted on the rod 1 by means of an internal nut 18 (M18 × 1.5).

An intermediate ring 4 is located between the upper 23 and lower 26 fixed magnets, while the upper magnet 23 is fixed in the housing 7 due to the nut 13 of the upper magnet stop 23 located in the housing 7, and the lower magnet 26 due to the nut 14 of the lower magnet stop 26.

The oil flow regulator has an adjusting bolt 19 for the necessary adjustment of the differential pressure, both for opening (0.8 ÷ 1.2 kgf / cm ² ) and closing (0.2 ÷ 0.4 kgf / cm ² ). That is, with the help of the adjusting bolt 19, the oil flow regulator is adjusted to the differential pressure. An external o-ring 11 is placed on the adjusting bolt 19.

Nuts 3 are the fixation of the adjusting bolt 19 and valve 12.

The upper 9 and lower 10 covers contain o-rings 21 and 22 for sealing the housing 7. The compensator 2 is fixed in the upper cover 9 by means of fasteners 17 (screws) and cover 5 and has a sealing ring 15.

A stop sleeve 6 is integrated in the bottom cover 10, which fixes the spring 25.

The movable magnet 24 is fixed to the rod 1 by means of a nut 18 and operates due to the polarity of the magnetic fields and the spring 25.

Key parameters and characteristics: The name of indicators Norm Conditional pass, mm 80

Working pressure P p, MPa (kgf / cm ² ) 4.0 (40) Maximum throughput, m ³ / h 25 Differential pressure PP (kgf / cm ² ) to the opening 0.8-1.2 to close 0.2-0.4 Weight kg no more than 5 kg Sizes, mm 280 × 76 Material stainless steel bronze

The oil metering regulator operates at an air temperature of -50 to + 50 ° С.

When a set pressure is up to 0.8-1.2 kgf / cm ^{2, the} cuff valve 12 is in the closed position. Under the action of the spring 25, the lower fixed magnet 26 holds the movable magnet 24, which is fixed to the rod 1 with the nut 18. As soon as the pressure reaches the upper limit, the valve 12 opens, the movable magnet 24 moves to the fixed upper magnet 23, allowing the passage of fluid through the TOR fluid meter. The valve 12 in the open position is held by the force of the flow pressure and the upper stationary magnet (open position) 23. When the pressure drop drops to 0.2-0.4 kgf / cm ² , the spring 25 overcomes the force of the flow and the upper stationary magnet 23 and returns the valve to closed position.

To dismantle the oil metering regulator, it is necessary to bleed the Sputnik AGZU and remove the residual pressure using the “24” key, unscrewing the compensator 2 by 3-4 turns.

Thus, the valve 12 rises above the seat and relieves the residual pressure.

To replace the sealing ring of the bottom cover 10, remove the valve 12 and unscrew the bottom cover 10.

To replace the sealing ring of the upper cover 9, it is enough to unscrew the two countersunk screws 17 and the upper cover 9. In this case, the stem 1 should be in the upper position.

The regulator does not require additional adjustments during operation, due to design features and materials used.

Claims (6)

1. The oil metering regulator, characterized in that it contains a housing with upper and lower covers, inside of which there are upper and lower fixed magnets and a rod, on which a movable magnet, a spring, a cuff valve are placed, while a compensator made with the possibility of raising the cuff valve, and an adjusting bolt configured to control the differential pressure. 2. The controller according to claim 1, characterized in that the movable magnet is fixed to the rod by means of a nut. 3. The controller according to claim 1, characterized in that the movable magnet is placed between the upper and lower stationary magnets. 4. The regulator according to claim 1, characterized in that the upper and lower covers contain o-rings. 5. The regulator according to claim 1, characterized in that four o-rings are installed on the stem. 6. The regulator according to claim 1, characterized in that it is made of stainless materials, which are steel 12X18H10T and bronze 18.