SU1320394A1 - Disconnector - Google Patents

Abstract

The invention relates to the drilling of oil and gas wells and may increase the reliability of operation of the ball lock due to the non-movement of the locking sleeve (B) 5 to the lowest position. The disconnector includes a ball lock 3, fixed by a locking sleeve (B) 5, internal B 7, restrictive ring 11, coupling funnel 2 and body 1. Ring 11 is rigidly connected to B 5. It has radial flushing holes 8 blocked by B 7. On the outer surface 5, an annular recess (KB) 13 is made to place the balls of the lock 3 in it. The housing 1 has radial holes 9, flushing longitudinal grooves 12 above the lock 3 and holes for the balls. Holes 8 and 9 are placed over lock 3 and provide in-tube and annular spaces through cavity KB 13. It is located in initial position above lock 3, and when it is triggered, upper end B 5 is located above holes 9. Flushing the well is carried out through holes 8. 9, grooves 12 and cavity KB 13. In order to open the lock 3 by pressure, lower B 5 downwards. At the same time, B 7 moves. Lock 3 works by dropping balls into KB 13. The control of opening of lock 3 is determined by the pressure drop at the pump due to the communication of the pipe and annulus space through the holes 9 and grooves 12. 1 h. n. f-ly, 3 ill. (On the case of co. Co. Fig 1

Description

The invention relates to the drilling of oil and gas wells, and can be applied during the descent and cementing of casing-in-casing with their suspension on cement stone.

The purpose of the invention is to increase the reliability of operation of the ball lock due to the movement of the locking sleeve to the lowest position.

FIG. 1 shows a disconnector, a longitudinal section; in fig. 2 is a section A-A in FIG. one; in fig. 3 - section E) -B in FIG. one.

The proposed disconnector consists of a housing 1, a coupling funnel 2 interconnected by a ball lock 3, the balls of which are displaced to the axis of the device relative to the plane of contact of the coupling funnel 2 and housing 1. In the housing 1 on the shear elements 4 a locking sleeve 5 is installed, locking the cavity ball lock 3. In the locking sleeve 5 on the shear element 6 there is an inner sleeve 7, blocking the radial flushing holes 8 of the locking sleeve 5. Radial holes 9 are provided in the housing 1 for flushing. the washing holes 8 of the locking sleeve and the radial holes 9 of the housing are located above the ball lock 3. In the lower part of the housing 1 and in the lower part of the locking sleeve 5, restrictive rings 10 and 11 are provided to hold the locking and inner sleeves respectively. In this case, the restrictive ring 11 is rigidly connected with the locking sleeve 5. On the housing 1, longitudinal flushing grooves 12 are made above the ball lock. An annular recess 13 is made on the outer surface of the locking sleeve 5 and in the initial position (Fig. 1) it is located above the ball lock 3, and when the latter is triggered, the upper end of the locking sleeve 5 is located above the radial holes 9 of the Kopriys 1. The inner tube during flushing communicates with the annular space through the radial holes 8 of the locking sleeve, its ring evuy recess 13, through the holes 9, and the slots 12 of the housing.

The housing 1 in the upper part is connected to the drill pipe, and the coupling funnel 2 is connected to the casing section.

The proposed disconnector works as follows.

After lowering the liner or casing section, the wellbore is flushed and then cemented.

When the cement mortar is pushed into the drill pipes, a ball is thrown, which, when seated on the sleeve 7, increases the pressure at the pump outlet, resulting in shear elements 6 and the sleeve 7 is displaced downwards, opening the radial flush holes 8.

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through the holes 8 and 9 and the grooves 12, as well as through the cavity of the annular recess 13, the cement slurry is removed from the funnel sleeve and the annulus above the lowered section. In this case, the inner sleeve 7 is held on the restrictive ring 11, rigidly connected with the still fixed locking sleeve 5.

In order to open the spade lock and disconnect the drill pipes, the second gap is dropped, when landing on the shut-off sleeve 5, the pressure at the pump outlet again increases, resulting in cutting off the shear elements 4 and the shut-off sleeve 5 lowers, opening the ball lock 3.

Due to the fact that the inner sleeve 7 and the first ball dropped on it are held by the restrictive ring 11, the gate sleeve 5 and the sleeve 7 advance simultaneously, which eliminates the formation of closed incompressible volumes of fluid between the dropped balls and determines the guaranteed the locking sleeve to its lower position. At the same time, the locking sleeve 5 has the ability to move to its lower position, i.e., to the position where the ball lock O is activated by dropping the balls into the annular recess 13, which prevents the radial holes 9 of the housing 1 from closing and stop the movement of the locking sleeve until the beginning of its closing by the end of the holes 9. However, by this time the opening of the ball lock is guaranteed to be guaranteed that the upper end of the locking sleeve at the time of operation of the ball lock In the case of radial holes 9 of the housing 1. Full operation of the spherical lock is evidenced by the pressure drop at the pump due to the communication of the tube space with the annular through the holes 9 and the grooves 12. The balls, when the drill pipes move downwards, are pushed upwards into the annular recess of the locking sleeve 6. Drill pipes are easily released and removed from the well with the body 1 of the disconnector, the locking sleeve 5, the sleeve 7 and the slots.

Claims (2)

1. A disconnector that includes a ball lock, fixed by a locking sleeve with radial flushing holes, blocked by an internal sleeve, a stop ring, a funnel coupling and a housing with radial holes, flushing longitudinal grooves above the ball valve and with holes for the lock balls, characterized in that, in order to increase the reliability of operation of the ball lock by providing movement of the locking sleeve In the extreme lower position, on the outer surface of the closure sleeve, an annular undercut is made to place the lock balls in it when it is triggered, and the casing radial openings and the radial wash openings of the closure sleeve are located above the spherical lock and the annular recess of the closure through the cavity communicates sleeve, and in the initial position, the annular recess of the locking sleeve is located above the ball lock, and when the latter is activated, the upper end of the locking sleeve is located above radial housing bores. 2. The disconnector according to claim 1, characterized in that the restrictive ring is rigidly connected to the locking sleeve. FIG. 2 d FIG. 3