RU2004124485A - SHARIFOV BYPASS VALVE FOR CIRCULATION AND MEDIA FLOW REGULATION - Google Patents

Claims (14)

1. The bypass valve for circulating and regulating the flow of the medium, including a barrel having one or more radial bypass and hydraulic channels, an upper sleeve or lower sub, upper and lower pipe threads with the same or different diameters, and made from one end with an external threaded groove under a spiral spring and an adjusting nut, two outer seating surfaces with different diameters and grooves for sealing elements, and a barrel mounted on two outer landing surfaces and a differential piston without or with an external supporting nut, forming a hydraulic chamber with a barrel connected to the cavity of the barrel through one or more radial bypass channels, characterized in that an additional external threaded groove is made on the barrel from the other end for a spiral spring and an adjusting nut, and landing surface with a distinctive, smaller or larger diameter, on which an additional differential piston is installed without or with threaded radial holes, limiter ho a, a retainer, and internal sealing elements, or a protective sleeve is placed for blocking the sealing elements in grooves on the middle outer landing surface of the barrel when the medium flows through one or more radial bypass channels, the additional differential piston forming an additional hydraulic chamber connected to the barrel the cavity of the barrel through additionally made one or more radial bypass or hydraulic channels, while or different The pistons, or the differential piston and the protective sleeve interact with each other, being above and / or below under the force of one or both coil springs with the same or different characteristics, moreover, when the valve is in the initial closed position, the sealing elements in the grooves hermetically separate the upper and / or lower hydraulic chambers from the outer space, and when the valve is in the open position, moving the differential piston up or down, they overlap with another differential piston, or the protective sleeve, avoiding the movement of fluid through itself. 2. The bypass valve according to claim 1, characterized in that on one or both differential pistons external supporting or thrust nuts are installed without or with locking screws or travel stops, or clamps of elastic elements, or sealing elements for changing, limiting, fixing them stroke and control by the force of the coil springs or the pressure range of the valve opening and closing. 3. The bypass valve according to claim 1 or 2, characterized in that the stroke limiter of the differential piston or external thrust or thrust nut is made of either screws or free or spring-loaded stoppers or balls located in threaded radial holes under the screws. 4. The bypass valve according to claim 1 or 2, characterized in that the travel stop or differential piston lock is mounted on the barrel. 5. The bypass valve according to claim 1 or 2, characterized in that on the middle outer landing surface of the barrel for each differential piston, one or two grooves are made for the sealing elements. 6. The bypass valve according to claim 1, characterized in that on the middle outer landing surface of the barrel, one or two grooves for the sealing elements are made in the form of a dovetail. 7. The bypass valve according to claim 1, characterized in that on the barrel one or more radial bypass channels are made of constant or variable cross-section in the form of a spherical, conical or cylindrical hole without or with a removable fitting, or groove, or slot. 8. The bypass valve according to claim 1 or 2, characterized in that the coil spring is installed above the upstream differential piston with an upward stroke, and the downward movement of the other differential piston is excluded by means of a lower adjusting nut, and when the differential pistons move upward from the external excess pressure of the medium, the upper one opens upstream radial bypass channels of the barrel, moving away from the sealing elements on the middle outer landing surface of the barrel, and the lower one, Turn, overlaps these sealing elements. 9. The bypass valve according to claim 1, characterized in that the coil spring is installed underneath the differential piston with a downward stroke, and upward movement of the other differential piston is excluded with the help of the upper adjusting nut, and when the differential pistons move downward from the internal overpressure medium, the lower of them opens the lower radial bypass channels of the barrel, moving away from the sealing elements on the middle outer landing surface of the barrel, and the upper of them, from overrides these sealing elements. 10. The bypass valve according to claim 1, characterized in that the coil springs are installed above and below the differential pistons, and the working stroke of the latter downward is limited, respectively, by means of a support or stop nut and a stop when opening the valve from internal overpressure, and the worker upward travel is limited by internal collars when opening the valve from external overpressure. 11. The bypass valve according to claim 1, characterized in that the coil springs are installed above the differential piston and under the protective sleeve, and the differential piston, when moving upward from the internal overpressure of the medium, opens the radial bypass channels of the barrel, leaving the sealing elements on the middle outer seating surface the barrel, but, on the contrary, the protective sleeve moving upward under the force of the downstream coil spring overlaps these sealing elements. 12. The bypass valve according to claim 1 or 11, characterized in that the coil springs are installed under the differential piston and above the protective sleeve, and the differential piston when moving downward from the external overpressure of the medium opens the radial bypass channels of the barrel, leaving the sealing elements on the middle outer the landing surface of the barrel, and, conversely, the protective sleeve, moving down under the force of the upstream spiral spring overlaps these sealing elements. 13. The bypass valve according to claim 1, characterized in that one or both of the adjusting nuts are made in the form of a centralizer without or with locking screws or clamps. 14. The bypass valve according to claim 1 or 2, characterized in that the barrel from one end, or its lower sub, or the upper sleeve is made with a plug, and the barrel from the other end, or its upper sleeve, or lower sleeve is made with an internal and external pipe threads and is additionally equipped with a casing.