EA032877B1 - Barrier with rotation protection - Google Patents

Abstract

Described is a barrier including a housing and a valve member disposed in the housing. A flow tube within the housing and an actuator disposed in the housing are in operable communication. The flow tube is configured to rotate within other components of the barrier without imparting rotational torque to the actuator or the other components. Described is a method of drilling through a barrier.

Description

Cross reference to related applications

This application claims the priority of US patent application No. 62/143906, filed April 7, 2015, which is fully incorporated into this application by reference.

State of the art

In industries where partitions are common, and sometimes in cases where other tools rotate passing through partitions, for example in well production, there is the possibility of damage to partitions, which will then require repair or replacement at a fairly substantial cost. In view of this, the relevant technical fields should be susceptible to alternative configurations that reduce or eliminate damage to the partitions as other tools passing through them rotate.

SUMMARY OF THE INVENTION

The partition contains a housing; a valve element located in this housing; and a flow tube located inside said housing; and also an actuator located in the housing, configured to communicate with the flow tube, while the flow tube is configured to rotate inside the other components of the partition without transmitting torque to the actuator or other components.

The baffle contains a flow tube mounted in the axial direction using the baffle actuator and independent of the rotation of other baffle components.

A borehole valve for operating in a well, comprising: a body; valve element; a flow tube configured to communicate with the valve member; a leveling component rotationally attached to the housing, a spring configured to communicate with the flow tube and the housing; insulating components configured to isolate the rotational movement of the flow tube from the housing, valve member and spring.

A method of drilling through a baffle, comprising: lowering a drill pipe string through a baffle having such a structure that the flow tube of the baffle is rotationally independent of rotation of other baffle components; and also eliminating the connection of any torque communicated by the flow tube to the drill string from other baffle components.

A brief description of the graphic materials

The following descriptions are not to be construed in any way as limiting. On the accompanying graphic materials, similar elements are indicated by the same numbers.

In FIG. 1 is a cross-sectional view of a partition in accordance with the invention; in FIG. 1A is an enlarged section of FIG. 1 to show the details of a spring clutch;

in FIG. 2 is a view showing a section of the tubular member of FIG. 1; and in FIG. 3 is a perspective view of a portion of the partition of FIG. 1, some components being shown translucent to better illustrate some aspects of the septum.

Detailed Description of the Invention

A detailed description of one or more embodiments of the invention according to the disclosed method and devices is presented here not as a limitation, but as an example with reference to the figures.

As shown in FIG. 1, it should initially be understood that the view is not quite ordinary in the sense that it is shown as a 180-degree section, which in fact is a section at an angle of 270 °. Those. the tubular shape is presented on the side, and the fourth part is removed from it. Then the cross sections of the pipe are presented in a flat form on the page. Turning to FIG. 2 for the sectional diagram shown in FIG. 1.

FIG. 1 illustrates a baffle 10 that is configured to reduce or eliminate damage to the baffle from rotating elements passing through it during use, for example in a tubular system carrying a fluid, and in one embodiment of the invention when operating in a well. In one embodiment of the invention, the baffle comprises a valve element, which is in the form of a valve system such as a damper, similar to a downhole safety valve and having similar components. The housing 12 is included. This housing supports the shutter 14 by a hinge pin 16. The flow tube 18 is positioned to physically interact with the shutter 14 and cause it to open or allow it to close (based on a pulse from a torsion spring, which is not shown ) depending on the axial position of the flow tube 18 relative to the shutter 14. The flow tube 18 is driven by an actuator, which in one embodiment of the invention made in the form of a piston rod 20, which interacts with the cylinder 22 in the housing 12 (usually there are two diametrically located cylinders and piston rods in the baffle, although in specific iterations, more or less can be replaced, sometimes evenly placed 360 ° of the tubular body) . It should be noted that these two diametrically spaced rods can be seen in FIG. 3, but not in FIG. 1 due to 90 degree view. The cylinder 22 is connected to a hydraulic pressure source that is not shown, such as a hydraulic control line known in the art. The application of pressure through such a control line to the cylinder 22 will lead to the output of the piston rod

- 1,032,877 from the cylinder, which in the configuration shown in FIG. 1 will force the flow tube 18 to move axially, forcing the shutter 14 to move to the open position.

The spring 24, which may be a power spring, is a compression spring that counteracts the action of the piston rod 20. Said power spring 24 compresses the flow tube 18 along the axis in the direction opposite to the direction of action of the piston rod 20, if the hydraulic pressure in the cylinder is lower than the threshold value, which can overcome the force of the spring 24. To simplify the description of the power spring 24 has a first end 25 and a second end 27.

To achieve the advantages of the invention, the flow tube is rotatable, independent of the other components of the partition. More specifically, the flow tube is configured to interact with other baffle components through bearings and / or bushings that allow the flow tube to be axially shifted, as noted above, to perform its main work, while allowing the flow tube to rotate in the housing 12 without damage or application of torque to any of the other baffle components. This significantly protects the partition from rotationally active tools passing through the partition during use. More specifically, using the drill string D as an example, as the rotating drilling tool passes through the baffle 10, it is possible that the drilling tool inadvertently comes into contact with the flow tube 18. In this case, the flow tube may begin to rotate. In the prior art, such rotation can cause damage to the partition, since other components of the partition will be subject to torque for which they were not designed, which could result in damage. This, as noted above, can lead to repair or replacement of the partition and, consequently, to quite substantial costs. An advantage of the present invention, however, is that the flow tube can mesh with the drill string D and rotate with it without any negative effect on the baffle.

Continuing with reference to FIG. 1, the piston rod 20 (or two or three rods, etc.) is connected to the actuator clutch 30. The actuator clutch 30 is operatively connected to the piston rod 20 with the flow tube 18. The relationship of the flow tube 18 and other baffle components with which the flow tube 18 may come into contact during use are components that pass through the insulation and are configured and dimensioned to provide so that the torque from the flow tube 18 is not transmitted to other components of the partition. To this end, and in one embodiment of the invention, the flow tube 18 and the actuator clutch 30 are connected by bearings or bushings 32 to ensure rotation independence between the flow tube 18 and the actuator clutch 30. The actuator clutch 30 is also attached by a pin 36 to the annular groove 38 in the spring clutch 40, so that they both retain the axial direction but allow rotation if the torque is transmitted to the spring clutch 40 through the flow tube 18.

The clutch 40 may also include a bearing 42, which presses on the power spring 24 at the second end 27 of the power spring, as shown (see Fig. 1A), or the power spring 24 can be connected at its first end to the housing 12 via the bearing 44, or both bearings 42 and 44 may be used in some embodiments of the invention. In any case, the bearings 42 and / or 44 eliminate any significant effect of the torque of the flow tube on the power spring 24 or other baffle components. It should be understood that although the spring sleeve 40 is not rotationally coupled to the flow tube 18, there may be sufficient friction between the flow tube 18 and the sleeve 40 to cause the sleeve 40 to rotate if the flow tube 18 starts to rotate. Due to the gap S existing between the drive clutch 30 and the spring clutch 40, the movement of the clutch 40 will probably not be sufficient to be transmitted to the drive clutch 30 and cause noticeable torque therein.

The drive coupling 30, isolated from the rotational movement of the flow tube 18 by the bearing 32, is still locked when it is aligned with the alignment component 50. This prevents the drive coupling 30 from moving in the direction of rotation due to friction in the bearings or bushings 32, 42 and 44, simultaneously providing movement in the axial direction, which is necessary to actuate the partition. The drive clutch 30 is thus secured relative to the rotational movement by one or more alignment protrusions 52 that engage with the alignment groove 54 in the alignment component 50 (see FIG. 3). In one embodiment, the alignment protrusions and groove will be offset 90 ° from the piston rods 20 of the embodiment (as shown). The leveling component 50 is rotationally fixed in place by the keys 56, which are received in the key holes 58 of the housing 12. The leveling component 50 can be integrated into the housing 12 as a single part.

The baffle, as described herein, can be used in a well drilling operation to ensure that the operation can be performed without damaging the baffle due to the rotational connection of the flow tube to the drill string. The way to do this for

- 2 032877 is involved in the installation or preinstallation of the described baffle, and the baffle design is such that the flow tube is rotationally independent of other baffle components, passing the drill string through the baffle constructed in this way; and also in eliminating the connection of any torque communicated by the flow tube to the drill string from other baffle components.

The following are some embodiments of the invention from the above description.

Option 1 implementation of the invention:

a partition containing a housing;

a valve member located in said body;

flow tube inside said housing; and an actuator located in the housing and functionally associated with the flow tube, while the flow tube is made to rotate inside other components of the partition without transmitting torque to the actuator or other components.

Option 2 implementation of the invention:

the baffle according to embodiment 1 of the invention, further comprising a drive sleeve operatively connected to the flow tube by means of a bearing or sleeve so that the flow tube is rotationally independent of the drive sleeve.

Option 3 implementation of the invention:

the partition according to option 2 of the invention, in which the drive clutch is functionally connected to the actuator.

Option 4 of the invention:

a partition according to embodiment 1 of the invention, in which the actuator is a piston rod and a cylinder.

Option 5 implementation of the invention:

a partition according to embodiment 1 of the invention, further comprising a spring, said spring interacting with a bearing or sleeve at the first end of the spring, with a bearing or sleeve at the second end of the spring, or both.

Option 6 implementation of the invention:

a partition according to embodiment 5 of the invention, further comprising a spring clutch at the second end of the spring.

Option 7 implementation of the invention:

the partition according to embodiment 6 of the invention, in which the spring clutch comprises an annular groove configured to receive a pin extending from the actuator so that the spring clutch and the actuator remain locked together in the axial direction, while remaining rotationally independent.

Option 8 implementation of the invention:

the partition wall according to embodiment 1 of the invention, further comprising an alignment component attached to the housing and comprising a groove interacting with a protrusion connected to the actuator so that the actuator can move axially and remain rotationally fixed relative to the alignment component.

Option 9 of the invention:

a partition containing a flow tube located in the axial direction by the actuator of the partition, and rotationally independent of other components of the partition.

Option 10 of the invention:

a baffle valve for operating in a well comprising a body; valve element; a flow tube operably connected to the valve member; an alignment component rotationally attached to the housing, a spring operably coupled to the flow tube and the housing; insulating components configured to isolate the rotational movement of the flow tube from the housing, valve member and spring.

Option 11 implementation of the invention:

a method for drilling through a baffle, comprising: lowering a drill string through a baffle having such a structure that the flow tube of the baffle is rotationally independent of other baffle components; and also eliminating the connection of any torque communicated by the flow tube to the drill string from other baffle components.

It should also be noted that the terms first, second, etc. this document does not indicate any order, quantity or importance, but rather is used to distinguish one element from another. The definition of approximately used in connection with a certain amount includes the indicated value and has the value dictated by the context (for example, it includes the degree of error associated with

- 3 032877 associated with the measurement of a specific quantity).

Although the invention has been described with reference to an exemplary embodiment of the invention or embodiments of the invention, those skilled in the art will understand that various changes can be made and their elements can be replaced by equivalents without departing from the scope of the invention. In addition, numerous modifications can be made to adapt a particular situation or material to the ideas of the invention without deviating from its substantial scope. Therefore, it is understood that the invention is not limited to the specific embodiment disclosed as the best method envisioned for implementing the present invention, but this invention will include all embodiments of the invention that fall within the scope of the claims. In addition, exemplary embodiments of the invention were disclosed in the graphic materials and in the description, and although specific terms may have been used, they, unless otherwise indicated, are used only in a general and descriptive sense, and not for purposes of limitation, therefore, the scope of the invention cannot be limited in this way. Moreover, the use of the terms first, second, etc. does not mean any order or importance, but rather the terms first, second, etc. used to distinguish one element from another.

Claims (11)

CLAIM 1. The partition (10) containing the housing (12); a valve member located in said body (12); a flow tube (18) inside said housing (12); an actuator located in the housing (12) and functionally associated with the flow tube (18), and the flow tube (18) is configured to rotate inside other components of the partition (10) without transmitting torque to the actuator or other components. 2. The baffle (10) according to claim 1, further comprising a drive sleeve operatively connected to the flow tube (18) by means of a bearing or sleeve (32) such that the flow tube (18) is rotationally independent of the drive sleeve. 3. The partition (10) according to claim 2, characterized in that the drive clutch is functionally connected to the actuator. 4. The partition (10) according to claim 1, characterized in that the actuator is a piston rod (20) and a cylinder (22). 5. The partition (10) according to claim 1, additionally containing a spring (24), said spring (24) interacting with a bearing or sleeve (32) at the first end of said spring (24), with a bearing or sleeve (32) at the second end of spring (24) or both. 6. The partition (10) according to claim 5, further comprising a spring clutch (40) at the second end of the spring (24). 7. The partition (10) according to claim 6, in which the spring sleeve (40) comprises an annular groove (38) configured to receive a pin (36) extending from the actuator so that the spring sleeve (40) and the actuator remain fixed together in the axial direction, while being rotationally independent. 8. The partition (10) according to claim 1, additionally containing a leveling component (50), attached to the housing (12) and containing a groove (38) that interacts with the protrusion (52) associated with the actuator so that the actuator can move axially and be rotationally fixed relative to the leveling component (50). 9. A baffle (10) comprising a flow tube (18) located axially by the baffle actuator (10) and rotationally independent of other baffle components (10). 10. The valve of the baffle plate (10) for operation in the well, comprising a housing (12); valve element; a flow tube (18) operably coupled to the valve member; a leveling component (50) rotationally attached to the housing (12); a spring (24), functionally associated with the flow tube (18) and the housing (12); insulating components configured to isolate the rotational movement of the flow tube (18) from the housing (12), the valve member and the spring (24). 11. A method of drilling through a baffle (10), comprising lowering a drill string through a baffle (10) having such a design that the flow tube (18) of the baffle (10) is rotationally independent of other components of the baffle (10); and the elimination of the connection of any torque communicated by the flow tube (18) of the drill string from other components of the baffle (10).