RU79633U1 - FLOW REGULATOR - Google Patents

Abstract

The invention relates to pneumohydraulic valves, in particular to shut-off and shut-off valves for oil and gas pipelines, through which fluids are pumped under pressure. The technical result consists in increasing the functional reliability of the flow controller. The flow controller comprises a valve body 1, a membrane body 2, a membrane cover 3, a valve 4, a membrane 5, a first stem 6, a retainer body 7, a movable sleeve 8, a retainer made in the form of a ball 9, a spring 10, a rod 11 and a nut 12, the first plate 13, spring 14, second rod 15, screw 16, second plate 17. The mechanism that ensures the operation of the regulator does not communicate with the atmosphere, the total pressure in the pipeline does not affect the setting of the regulator.

2 s.p. 2 silt

Description

The invention relates to pneumohydraulic valves, in particular to shut-off and shut-off valves for oil and gas pipelines, through which fluids are pumped under pressure.

Known flow regulator (RF patent No. 26830, class F16K 17/04, publ. 2002), comprising a block of clamps made in the form of a housing with a spring-loaded movable sleeve installed in it, made with locking grooves for interaction with the clamps located in pairs in planes perpendicular to the axis of the housing.

The known device does not provide sufficient tightness and resistance to aggressive environments, reliable fixation of the piston in the open and closed position.

The objective of this utility model is to develop a device devoid of these disadvantages.

The technical result consists in increasing the functional reliability of the flow controller.

The result is achieved by the fact that a membrane unit is introduced into the flow regulator containing a block of clamps made in the form of a housing with a spring-loaded movable sleeve mounted in it, made with locking grooves for interacting with the clamps located in pairs in planes perpendicular to the axis of the housing

valve block, interconnected by the first rod, the membrane block is connected to the block of clamps by the second rod, moreover, in the block of clamps, the plane of the pairs of clamps are combined into one, longitudinal grooves are made on the movable sleeve to interact with the clamps, each of which is made in the form of a channel, which has a ball that interacts with the movable sleeve and the corresponding rod interacting with the spring, preloaded by the adjusting nut, the movable sleeve interacts with the second rod and the first plate, interactions working with a spring, preloaded by a second plate, interacting with the adjusting screw, and the fact that the membrane unit is made in the form of a housing covered with a cover, inside which a membrane is installed, interacting with the second and first rods, a fitting is installed in the cover for communication with the collector, in the case a fitting is installed for communication with the separator, and the fact that the valve block is made in the form of a housing in which a valve is installed that interacts with the first stem and the seat of the passage hole.

The design of the flow controller is shown in figure 1 and figure 2, which shows the valve body 1, the membrane body 2, the membrane cover 3, the valve 4, the membrane 5, the first rod 6, the housing 7 of the clamps, the movable sleeve 8, the clamp is made in the form of a ball 9, springs 10, rod 11 and nuts 12, first plate 13, spring 14, second rod 15, screw 16, second plate 17. The mechanism that provides the regulator does not communicate with the atmosphere, the total pressure in the pipeline does not affect the regulator setting. The regulator operates as follows.

On the cap 3 of the membrane, the retainer body 7 is screwed onto the thread, inside of which there is a movable sleeve 8 having annular grooves under the balls 9. The balls 9 are pressed against the sleeve 8 using springs 10 and rods 11. The pressure forces of the balls are regulated by compression of the springs using nuts 12. A plate 13 is supported on the sleeve 8, through which the spring 14 presses the sleeve against the stem 15. The rod 15 serves to transfer the force of the membrane 5 to the sleeve 8. The force transmitted by the spring to the sleeve is regulated by a screw 16 through the plate 17.

The increased pressure acts under the membrane 5, as a result of which the force through the rod 15 is transmitted to the sleeve 8. The sleeve 8 is held in its original position due to the force of the spring 14 and the balls 9 of the clamps. When the pressure drop between the separator and the common pipeline reaches 0.08-0.12 MPa, the pressure drop exceeds the force of the spring 14 and the clamps, as a result of which the balls are pressed by the sleeve 8. System valve 4 - stem 6 - membrane 5 - rod 15 - sleeve 8 - moves up to the seating of balls 9 in the lower annular groove of sleeve 8 and valve 4 opens.

When the pressure drop decreases, the force exerted on the membrane from below decreases, therefore, the force of the spring 14 exceeds the total force created by the pressure difference and the holding force of the clamps, as a result of which the balls 9 are pressed by the sleeve 8 and, due to the spring force, the valve closes and the balls 9 the latches fall into the upper annular groove of the sleeve 8.

The device allows you to interact with aggressive environments only the membrane inside the body and cover and the valve inside the valve body. The combination of latches in one plane allows you to simplify the regulation of the efforts of fixing the sleeve in a particular position, and hence the effort of regulating the position of the valve.

Thus, the utility model provides sufficient tightness and resistance to aggressive media in the regulator, reliable fixation of the valve in the open or closed position. All this increases the functional reliability of the flow controller.

Claims (3)

1. The flow regulator containing a block of clamps, made in the form of a housing with a spring-loaded movable sleeve installed in it, made with locking grooves for interacting with the clamps located in pairs in planes perpendicular to the axis of the housing, characterized in that the membrane block and valve block are inserted, interconnected by the first rod, the membrane block is connected to the block of clamps by the second rod, moreover, in the block of clamps, the planes of the pairs of clamps are combined into one, on the movable sleeve are made longitudinal recesses for interacting with the latches, each of which is made in the form of a channel in which a ball is installed, interacting with the movable sleeve and the corresponding rod interacting with the spring, pushed by the adjusting nut, the movable sleeve interacts with the second rod and the first plate interacting with the spring, preloaded second plate interacting with the adjusting screw. 2. The flow regulator according to claim 1, characterized in that the membrane unit is made in the form of a housing covered with a lid, inside which a membrane is installed that interacts with the second and first rods, a nipple is installed in the lid for communication with the collector, a nipple for communication is installed in the housing with a separator. 3. The flow regulator according to claim 1, characterized in that the valve block is made in the form of a housing in which a valve is installed that interacts with the first stem and the seat of the passage hole.