Valve Assembly for Drilling Systems

Abstract

A valve assembly for drilling systems comprising a bidirectional valve (1) cooperating with a hydraulic clamping device (2) and being applied to a drilling machine for supplying a drilling fluid in two discrete directions, the valve assembly comprising a valve outer body adapted to be arranged between drilling rods while allowing said rod to be exchanged while keeping the mud continuously circulating.

Claims

1. A valve assembly for drilling systems, comprising: a valve assembly having a bidirectional valve device cooperating with a hydraulic clamping device and being applied to a drilling machine for supplying a drilling fluid in two discrete directions.

2. The valve assembly of claim 1, wherein said valve assembly comprises an outer body in which is embedded said bidirectional valve device and being adapted to be interconnected to conventional drilling rods without negatively affecting a normal operation of said conventional drilling rods.

3. The valve assembly of claim 1, wherein said valve assembly comprises an axial valve set and a radial valve set, said axial and radial valve sets being independent from one another and adapted to automatically operate.

4. The valve assembly of claim 1 wherein said valve assembly comprises an axial valve set with a clapet valve rotatively turning about an orthogonal pivot pin, and an axial jacket having an axial jacket housing for engaging therein said clapet valve, thereby said clapet valve does not interfere against a circulating fluid and/or well instruments, and a sealing seat where said valve is closed as said fluid is circulated from the radial valve.

5. The valve assembly of claim 1 wherein said valve assembly comprises a radial valve set with an outer sliding valve and an inner clapet valve rotatively turning about an orthogonal pivot pin.

6. The valve assembly of claim 1 wherein said sliding valve is slidingly driven by a pressure difference between two outside pressure inlet points.

7. The valve assembly of claim 1 wherein a pressure applied to aid two pressure inlet points is higher than a load a spring can resist against, thereby said spring is pressed and the two fluid passage ports are caused to precisely face one another.

8. The valve assembly of claim 1 wherein said valve assembly comprises moreover a dowel slidably engaged in a seat formed on a radial valve jacket thereby providing a guided sliding movement and preventing the two fluid passage ports from being misaligned from one another.

9. The valve assembly of claim 1 wherein said radial clapet valve is held in a closed position thereof as an inner pressure and a fluid passing in an axial direction hold said clapet valve in said seat and being opened as is applied an outside pressure equal to or higher than an inner pressure with said sliding valve in its open condition.

10. The valve assembly of claim 1 wherein said valve assembly comprises gasket means allowing, even in a case of a leakage of said radial clapet valve, to provide a sealed arrangement preventing drilling fluid from being outward ejected.

11. The valve assembly of claim 1 wherein said outer body comprises a recess for housing therein hydraulic clamping means being coupled through two gaskets providing a hydraulic sealing on the outer body of the valve.

12. The valve assembly of claim 11 wherein said recess is so designed as to allow said hydraulic clamping means to be closed only at a given position thereof thereby preventing an accidental communication of a bottom pressure inlet and a radial fluid inlet channel.

13. The valve assembly of claim 11 wherein said recess is so designed as to prevent said clamping means from being applied to cause a gasket to be overlapped on a radial mouth to pump the fluid to the outside of the clamping means.

14. The valve assembly of claim 11 wherein said clamping means comprise a movable shell and a clamping means closing hook element which are so driven by two driving cylinders thereby tightly closing around the bidirectional valve recess.

15. The valve assembly of claim 11 wherein said hydraulic clamping means are so designed as to form a full chamber about the valve to offset a fluid inlet radial channel direction.

16. The valve assembly of claim 11 wherein said hydraulic clamping means allow said rods to turn as said rods are laterally connected.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0039] Further characteristics and advantages of the present invention will become more apparent hereinafter from the following disclosure of a preferred, though not exclusive, embodiment of the invention which is illustrated, by way of an indicative but not limitative example, in the accompanying drawings, where:

[0040] FIG. 1 is a cross-sectional view of the bidirectional valve according to the present invention, showing the outer size of the inventive valve assembly and its easy assembling between the drilling rods;

[0041] FIG. 2 is a view similar to the preceding one, showing the component set or assembly of the axial clapet valve;

[0042] FIG. 3 is a detail cross-sectioned view of the component set of the axial valve, further showing the arrangement of the axial clapet valve during a passage of the fluid or mud in an axial direction;

[0043] FIG. 4 is a view similar to the preceding one, showing the axial clapet valve in a closing step, upon a reversing of the drilling fluid direction;

[0044] FIG. 5 is a longitudinal cross-section view of the valve assembly, showing the set of components of the radial clapet and sliding valves;

[0045] FIG. 6 is a detail view showing the areas facing the outside pressure, therefrom it should be apparent that the bottom area, much larger than the top area, facilitates a sliding in a closing direction.

[0046] FIG. 7 is a perspective view of the probing plane of a drilling system, therefrom it is possible to see the installation of the bidirectional valve according to the invention at a vertical position between the drilling rods and the arrangement of the hydraulic clamp for operating the bidirectional valve;

[0047] FIG. 8 is a top plan view of the hydraulic clamp or clamping assembly, clearly showing the opening, closing and turning movements on a horizontal axis;

[0048] FIG. 9 is a longitudinal cross-sectional view showing the side fluid inlet channel and different pressure zones affecting the sliding valve;

[0049] FIG. 10 is a cross-sectional view of the component set of the radial valve, wherein the radial clapet valve is urged to an opening position by the inlet fluid from the radial channel through the hydraulic clamp; and

[0050] FIG. 11 is a detail cross-sectional view of the radial valve component set, clearly showing the air chamber preventing vacuum from forming during a sliding of the radial valve.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0051] With reference to the number references of the above mentioned figures, the valve assembly, specifically designed for drilling systems, according to the present invention, and which has been generally indicated by the reference number 100, substantially comprises a bidirectional valve device 1 cooperating with a hydraulic clamp or clamping device 2, being applied to a per se known drilling machine.

[0052] The bidirectional valve device 1 allows the drilling fluid to be circulated in two directions, i.e. an axial direction with the device being arranged in a drilling/withdrawing condition, and a radial direction when a rod is changed and it is necessary to disconnect the mud or fluid circuit in a valve axial direction, respectively.

[0053] The bidirectional valve element 1 comprises an outer body adapted to be connected to conventional drilling rods 20, an axial valve set 11 and a radial valve set 14.

[0054] The axial valve set 11 comprises an axial clapet valve 12, adapted to turn on an orthogonal pivot pin 18, and an axial jacket 13.

[0055] Said axial jacket 13 comprises an housing in which, in an opening position, the clapet valve is arranged thereby it does not interfere against the circulating fluid and/or instruments necessary for the well operation, and a sealing seat where the valve is closed during a fluid circulation from the radial valve.

[0056] The radial valve set 14 comprises an outer sliding valve 16 and a radial clapet valve 15, adapted to turn about orthogonal pivot pin 18.

[0057] The sliding valve 16 is driven by a pressure difference between two pressure inlet points to the outside, the bottom pressure inlet point 25 and the radial fluid inlet channel 28.

[0058] The pressure applied to said two points must be higher than the load that the spring 17 can resist against, thereby causing the spring to be compressed and the two fluid passage ports to be precisely arranged facing one another.

[0059] A dowel 19 is slidably engaged in a seat formed on the radial valve jacket, thereby providing a precisely guided sliding movement while preventing the two fluid passage holes or ports from being misaligned from one another.

[0060] Said seat has a size adapted to cause the sliding movement to occur in a given direction and with a given stroke.

[0061] The pressure difference is so designed based on the mechanical characteristics of the spring 17 and it must always sufficient to assure a full opening of the sliding valve 16, that is up to the end of stroke position of the dowel 19.

[0062] The radial clapet valve 15 remains in a closed position as the inner pressure and the fluid passage in an axial direction hold said valve in its seat.

[0063] Said valve is opened as the outer pressure is equal or higher than the inner pressure.

[0064] The sliding valve is opened only and exclusively when a pressure difference occurs between the two above inlet points and never under different conditions.

[0065] In fact, it is possible that in the gap between the well and rod a higher pressure occurs, and, accordingly, if a valve additional to the radial clapet valve were not provided, then said radial clapet valve would be opened in such conditions with the problems related to a situation of perforated rod.

[0066] On the contrary, by the sliding valve thus designed, such a possibility is prevented from occurring, and by a proper designing of the arrangement of the gaskets, even in a case of a leakage of the radial clapet valve, the drilling fluid would be prevented from leaking from inside to outside.

[0067] The bidirectional valve 1 comprises a recess on its outer body for housing the hydraulic clamp or clamping means 2 which are coupled through two gaskets 26 providing a hydraulic sealing on the valve outer body.

[0068] Said recess is so designed as to allow the clamping means to be closed only in a given position, thereby preventing the bottom pressure inlet 25 and radial fluid inlet channel 28 from being communicated.

[0069] Moreover, said recess does not allow the clamping means to be so applied as to cause the gasket to be overlapped on the radial outlet, thereby causing a pumping of the fluid outside the clamping means.

[0070] The movable shell of the clamp or clamping means 30 and the closing hook element 31 of the clamp are urged by two urging cylinders thereby perfectly closing about the recess of the bidirectional valve 1.

[0071] The hydraulic clamping means 2 are so designed as to provide a full chamber about the whole valve, for freeing the radial fluid inlet channel 28 direction.

[0072] The hydraulic clamp or clamping means 2 allow moreover the rod to be rotatively driven, while keeping the system safe and preventing the mud connection duct from being accidentally rotated at a high speed, during the rod screwing on or off operations, upon disengaging it from the system wedge elements 41.

[0073] The bidirectional valve device 1 according to the present invention operates as follows.

[0074] At first, a plurality of bidirectional valves are preassembled on the head of the drilling rod strings.

[0075] Then, the drilling strings are connected by screwing to the top drive and introduced into the well or borehole to perform the drilling operation.

[0076] Upon having drilled a drilling distance required for arriving with the bidirectional valve at the probe plane 40, the wedge elements 41 allowing to support the drilling battery introduced into well are engaged.

[0077] The hydraulic clamp or clamping means are then brought to their designed position by the clamp support 70 and the closing or closure cylinders 27 are hydraulically driven.

[0078] The fluid inlet tube or duct 21 is filled-in and pressurized, thereby inside the clamp a condition for opening the sliding valve 16 will be established.

[0079] The fluid is pumped with a pressure equal to the inner pressure of the bidirectional valve, thereby causing the radial clapet valve to be disengaged from its seat.

[0080] At this time the fluid in the axial direction is stopped and for a time the fluid supplied by the radial fluid inlet channel will be partially directed to the bottom of the well and partially toward the axial valve.

[0081] That portion of the fluid moving upward in the direction of the axial valve allows the clapet valve to disengage from its housing and to engage in its sealing seat thereby closing the fluid axial inlet path.

[0082] At this time, it is possible to disconnect the top drive, in the drilling operation, or the rods 20, in the withdrawing operation, thereby preventing the pump system from being switched off, and allowing the drilling operation with a safety mud circulation.

[0083] Upon connecting a new rod string and related bidirectional valve on the string head, during the drilling operation, or directly the top drive on the valve, during the withdrawing operation, the muds will be again pumped in an axial direction.

[0084] Thus, since the axial clapet valve is subjected to a like pressure, it will turn and will be relocated in the axial jacket housing.

[0085] The radially pumped fluid is stopped to cause the radial claped valve to turn in its sealing seat.

[0086] The fluid in the clamping means is discharged thereby causing the outer pressure to achieve the environment pressure.

[0087] Upon discharging or unloading, the sliding valve will be urged by the spring to the closing position.

[0088] Then, the drilling or withdrawing operations may be continued by the known methods.

[0089] It has been found that the invention fully achieves the intended aim and objects.

[0090] In fact, a very safe valve assembly with related bidirectional valve device has been provided, since it prevents a stopping of the drilling fluid or mud through a well, while keeping unaltered the drilling conditions.

[0091] The subject device, moreover, allows a quick resumption of the drilling operation, owing to the automatically operating components thereof.

[0092] Moreover, the device assures an efficient fluid feeding to the well in all drilling operations.

[0093] In practicing the invention, the used materials, as well as the contingent size and shapes, can be any according to requirements.