RU2204688C2 - Overflow valve of drill string with gyrorotor motor - Google Patents

Abstract

FIELD: devices for drilling of oil and gas wells, particularly, overflow valves of drill string with gyrorotor motor for communication of drill string cavity with annulus in round-trip operations and filling of drill string with drilling mud and its emptying. SUBSTANCE: overflow valve has body with threads on its ends, radial holes, piston for sliding, and seat and spring between them. Piston is located inside seat and forms step pair together with piston. Upward motion of seat upper end and piston upper part is restricted by guide ring secured in valve body. Seat has diminished sliding belt with piston lower part as compared with increased sliding belt with piston upper part. Perimeter of sliding belt with piston lower part amounts up to 0.33-0.77 perimeter of sliding belt of seat with piston upper part. Spring is located in cavity between piston upper part and seat lower part. Piston has a row of radial channels located below radial holes in valve body. Valve body together with seat forms blind annular slot communicated with cavity between seat and piston by radial windows. EFFECT: higher reliability and prolonged service life of overflow valve used as a component of drill string provided with gyrorotor motor. 2 cl, 1 dwg

Description

 The invention relates to devices for drilling oil and gas wells, and in particular to devices for overflow valves of a drill string with a gerotor motor for communicating the inner cavity of the string with the annulus, filling and emptying the string with drilling fluid.

 A well valve device is known, including a housing with a saddle and radial holes, a movable sleeve with a check valve, the outer surface of the upper part of the movable sleeve being made in the form of a truncated cone, which forms a valve pair with a housing saddle located above its radial holes, and a check valve in the form of a spool-type valve with radial holes and a plug is placed in the inner cavity of the movable sleeve, which is in its lower position below the radial holes of the housing, and it is fixed relative to the movable sleeve, while the movable sleeve and the check valve are arranged to move them until the movable sleeve fits on the saddle of the housing and then opens the radial holes of the check valve with increasing fluid pressure [1].

A disadvantage of the known design is the rapid wear and unstable closing of the valve during circulation of the flushing fluid when the rotor is locked, when the engine is sludged or if it is “stuck” in the well, mainly due to the weighted drilling fluids with a density of more than 2 g / cm ³ and viscosity used in Russia more than 90 s (according to SPV-5).

 This is explained by the ingress of solid phases of sand solution into the valve pair, the content of which is regulated in the solution by no more than 2% by volume. Closest to the claimed is the design of the overflow valve of the drill string with a Dyna-Drill gerotor engine, comprising a housing with threads on its edges, radial holes, a piston placed with the possibility of sliding, as well as a saddle and a spring between them [2].

A disadvantage of the known design is the rapid wear and unstable valve closure due to the weighted drilling fluids used in Russia with a density of more than 2 g / cm ³ and a viscosity of up to 90 s (according to SPV-5), as well as the fact that the piston and seat form a spool a pair only after compression of the spring, and the piston is slidably connected to the housing by a narrow girdle of its inlet part. This leads to a “sticking” of the piston both in the housing and in the saddle, and, as a result, to the inability to determine the leakage when testing the valve at the wellhead.

 The technical problem to which the claimed invention is directed is to increase the reliability and increase the life of the overflow valve as part of a drill string with a gerotor motor for communicating the inner cavity of the drill string with the annulus, filling and emptying the string with drilling fluid.

 The essence of the technical solution lies in the fact that in the overflow valve of the drill string with a gerotor engine containing a housing with threads on its edges, radial holes, a piston slidably placed, as well as a seat and a spring between them, according to the invention, the piston is placed inside the seat and forms a stepped valve pair with it, with the upper end of the saddle and the upper part of the piston being limited from moving upward by a guide ring fixed in the housing, the saddle contains a reduced slip belt from the bottom part of the piston compared to the enlarged slip belt with the upper part of the piston, the perimeter of the seat belt of the saddle with the bottom of the piston is 0.33-0.77 from the perimeter of the slip belt of the seat with the top of the piston, and the spring is placed in the cavity between the upper part of the piston and the lower part of the seat, while the piston is made with a number of radial channels located lower from the radial holes in the housing, and the housing forms a deadlock annular gap with the saddle, which communicates with the cavity between the saddle and the piston by radial windows.

 The inner profiles of the guide ring and the upper part of the piston are made confuser down, and the junction between them is made with a step transition, while the generatrix of the confuser surface of the guide ring is located above the inner surface of the piston.

 The placement of the piston inside the seat and the formation of a valve stepped pair with it, the upper end of the seat and the piston inlet part being limited from moving upward by the guide ring fixed in the housing, the seat with a reduced slip belt with the lower part of the piston compared to the increased slip belt with the upper part piston, eliminates distortions and "jamming" of the piston inside the seat mainly when sludge bottom of the drill string.

 The perimeter of the saddle slip belt with the lower part of the piston, comprising 0.33-0.77 from the perimeter of the saddle slip belt with the upper part of the piston, springs located in the cavity between the upper part of the piston and the lower part of the saddle, provides the greatest resource for the valve pair, eliminates the siphon drilling fluid during ascent and ensures the reliability of filling the drill string during descent.

 The implementation of the piston with a series of radial channels located lower from the radial holes in the housing, and the housing with the formation of a deadlock ring gap with the saddle, which is connected with the cavity between the saddle and the piston by radial windows, reduces the effect of the solid phase of the solution on the durability of the stepped pair - the piston inside the saddle .

 The implementation of the internal profiles of the guide ring and the upper part of the piston confuser down, and the junction between them with a step transition so that the generatrix of the confuser surface of the guide ring is located above the inner surface of the piston, reduces the effect of the solid phase and sand in the solution on the durability of the stepped pair - piston inside the saddle mainly when lifting the column. This is due to the fact that the junction between the guide ring and the end of the inner part of the piston during sludge prevents the penetration of the solid phase of the solution, sand, into the slip belts.

 The drawing shows an overflow valve, a longitudinal section.

 The following is a preferred embodiment of the overflow valve.

 The overflow valve of a drill string with a gerotor engine comprises a housing 1 with threads 2 at its edges 3 and 4, radial holes 5, a piston 6 slidably mounted, and a seat 7 and a spring 8 between them. The piston 6 is placed inside the seat 7 and forms a valve stepped pair with it. The upper end 9 of the seat 7 and the upper part 10 of the piston 6 are limited from moving upward by the guide ring 11 fixed in the housing 1. The saddle 7 contains a reduced sliding belt with the lower part 12 of the piston 6 compared to the increased sliding belt of the saddle 7 with the upper part 10 of the piston 6. The perimeter of the reduced sliding belt of the saddle 7 with the lower part 12 of the piston 6 is 0.33-0.77 from the perimeter of the increased sliding belt of the saddle 7 with the upper part 10 of the piston 6, and the spring 8 is placed in the cavity K between the upper end 13 of the piston 6 and the lower end 14 saddles 7, while the piston 6 is made with a number of radial channels 15 located lower from the radial holes 5 in the housing 1, and the housing 1 forms a deadlock annular gap Щ with the saddle 7, which is connected to the cavity K between the saddle 7 and the piston 6 by the radial windows R.

 The inner profiles Ф of the guide ring 11 and the inner part Ф1 of the piston 6 are made confuser downward, and the junction between them is made with a step transition Z so that the generatrix W of the confuser surface of the guide ring 11 is located above the inner surface F1 of the piston 6.

 The overflow valve of the drill string with a gerotor motor operates as follows. To eliminate the siphon of the drilling fluid during the ascent and to ensure the filling of the drill string during descent into the layout of the gerotor engine, an overflow valve is turned on. Before each hoisting operation, the valve is checked for proper operation. The bottom hole assembly is mainly used: bit - gerotor motor - slurry pipe in the drill pipe - non-return valve, and the overflow valve is installed 6-9 m above the gerotor motor.

 When the column is lowered, the pressure in the annulus exceeds the pressure inside the drill string, which includes an overflow valve. The flow of drilling fluid enters through the radial holes 5 in the housing 1, is throttled in a dead end ring slot Sch, passes through the radial windows R in the seat 7, pressing the piston 6 against the guide ring 11. The drilling fluid passes through a series of radial channels 15 located lower from the radial holes 5 in the housing 1.

 The idle rotation of the gerotor engine is eliminated.

 When the drilling fluid is supplied into the drill pipe string under pressure downward, the piston 6 moves downward due to the pressure drop in the string and annulus. When this occurs, the overlap of the radial channels 15 in the piston 6 and the separation of the internal cavity of the column and the annulus (valve is closed). The valve piston 6 remains closed when there is pressure in the drill string.

 When lifting the string, the pressure inside the drill string and annulus is equalized. Drilling fluid flows through a series of radial channels 15 located lower from the radial holes 5 in the housing 1. The penetration of particles of the solid phase of the solution into the slip belt in the upper part 10 of the piston 6 is prevented by the confuser surface Φ of the guide ring 11, the inner part of the piston 6, and the step transition Z due to the displacement of the piston 6 by the spring 8 to the guide ring 11. Solid particles of mortar and sand are throttled in the cavity K between the upper part 9 of the piston 6 and the lower part 14 of the saddle 7, where they are cleaned by step edges ares - the piston 6 and the seat 7, as well as seals therebetween.

 Drilling fluid flows through the radial windows R in the seat 7, is throttled in the deadlock ring gap Щ and drains through the radial holes 5 of the housing 1 into the annulus of the drill string. In this case, idle rotation of the gerotor engine also does not occur.

Sources of information
1. RU, patent 2150575, MKI: E 21 34/06, 1998.

 2. Screw downhole motors, DF Baldenko and others, M., Nedra, 1999, Fig. 3.19, p. 73 - prototype.

Claims (2)

 1. The overflow valve of the drill string with a gerotor engine, comprising a housing with threads at its edges, radial holes, a piston slidably placed, as well as a seat and a spring between them, characterized in that the piston is placed inside the seat and forms a stepped valve pair with it moreover, the upper end face of the seat and the upper part of the piston are limited from moving upward by a guide ring fixed in the housing, the saddle contains a reduced slip belt with the lower part of the piston compared to the enlarged speed belt pressure with the upper part of the piston, the perimeter of the saddle slip belt with the lower part of the piston is 0.33. . . 0.77 from the perimeter of the sliding belt of the saddle with the upper part of the piston, and the spring is placed in the cavity between the upper part of the piston and the lower part of the saddle, while the piston is made with a number of radial channels located lower from the radial holes in the housing, and the housing forms a dead end with the saddle an annular gap that is in communication with the cavity between the seat and the piston by radial windows.  2. The overflow valve of the drill string with a gerotor motor according to claim 1, characterized in that the inner profiles of the guide ring and the upper part of the piston are made confuser down, and the junction between them is made with a step transition, while the generatrix of the confuser surface of the guide ring is located above the inner piston surface.