DE19511722C2 - Sliding sleeve - Google Patents

Description

The invention relates to a sliding sleeve for installation in a pipe tour Bore according to the preamble of claim 1.

Sliding sleeves are part of the underground equipment of packers Probe. Hydraulic communication is activated by operating the sliding sleeve allows between the riser and the annulus of a hole or prevented. For normal packers Bores the function of a sliding sleeve is limited to the entry and Circulate the dead pump liquid when performing completion or overwork.

In holes that have intersected several separate beams for reasons of optimization, the individual carriers are perforated one after the other and then, if necessary, separated from one another by packers. Should be two or several intersected carriers are not promoted together in one probe, in this way a sliding sleeve becomes in the interval packed with two packers built-in, which is a temporary opening or closing of the packaged carrier allow. The opening or closing as well as the change in funding from one built into another carrier by actuating it Sliding sleeves. These sliding sleeves are operated using wireline devices. A such a sliding sleeve is described in US Pat. No. 4,915,175.

The operation of a sliding sleeve in the borehole is, however, complex. To get one in the sliding sleeve with a To operate the corresponding wireline device, the device must be up to Sliding sleeve to be lowered. This is the case with eruptive probes  the use of a pass-through with a wireline preventer is required. With probes with The rod pump with the pump rod must be dismantled first to reach the sliding sleeve with the appropriate actuator to be able to.

In the case of probes with rod pumps, in order to actuate the sliding sleeve the pump can be removed first and the pump reinstalled after operating the sliding sleeve. As a result, in addition to the Wireline work for the actuation of the sliding sleeve also costly Winch operations required.

The invention has for its object to design a sliding sleeve such that it operates in a simple manner and without wireline work can be controlled.

This task is performed in a generic device by characterizing features of claim 1 solved.

The hydraulic sliding sleeve consists of an outer body with an integrated Hydraulic unit and a movable hydraulic piston. On the outer body seals are arranged in particular on the hydraulic unit, the Seals especially above and below the circulation openings and attached above and below the cylinder cavity. At the top Inlets and outlets are located at the lower end of the cylinder cavity for a hydraulic fluid supplied through the hydraulic connections. About that In addition, seals are attached to the hydraulic piston thickening Divide the cylinder cavity into two mutually sealed chambers. Above and below the cylinder cavity and sealed to this are in Outer body and each in the hydraulic piston circulation openings arranged.  

Such a sliding sleeve can be advantageous via the liquid pressure hydraulically controlled or operated. The others with the invention The advantages achieved are the simple and quick actuation of the hydraulic sliding sleeve in particular by the operating personnel for Example using a hydraulic hand pump and reducing the Operating costs for the sliding sleeve actuation. It is also advantageous that no special tools are required for the operation and the use of Costly wireline service personnel are eliminated because there are no wireline devices more are needed.

The changeover of funding from one institution to another is advantageously possible without any preparation work. Also the Sliding sleeve actuation previous measures, such as the Boom pump extension for actuating sliding sleeves according to the stand the technology is eliminated.

Another advantage is the use in probes, which are sometimes also eruptive promote, because in these cases with installed, running pumps from pump to Inflammatory support and vice versa in a simple, cost-saving and time-saving manner can be changed.

The increased safety by operating the hydraulic is also advantageous Sliding sleeve, since no lock and for the implementation of these measures no more wireline manipulation on the probe is required. This results in an increased operational safety or reduced danger to the environment for example a gas or oil outbreak.

The total area of the circulation openings of the sliding sleeves is at least 0.5 times, in particular 1.5 times the inner Cross-sectional area of the riser pipe. This has the advantage that the  Circulating z. B. Liquids through the circulation openings when open hydraulic sliding sleeve without restrictions on the maximum volume flow of the riser pipe can be circulated.

The outer surface of the piston unit and the inner surface of the Hydraulic cylinder units are custom-made. The advantage of fine machining and hardening of these surfaces lies in the avoidance or reduction of Signs of wear and thus lead to longer downtimes.

The upper end profile of the piston unit is in the direction of the riser pipe beveled in particular at an angle of 30 ° to 60 °. Advantageously, the connection or Serving different wireline devices.

The inside diameter of the piston unit corresponds at least to the minimum Inner diameter of the riser pipe above the sliding sleeve. This will in advantageously achieved that wireline devices or other units without Restriction in diameter in the deeper areas of a hole below the sliding sleeve can get. A bottleneck is caused by the sliding sleeve avoided.

There is an anti-rotation slot on the piston unit and on the outer body arranged an anti-rotation lug. This ensures that the Circulation openings of the piston unit with the circulation openings of the Exactly hydraulic cylinder unit with fully opened sliding sleeve are congruent.

The hydraulic connections are each connected to hydraulic lines that run in parallel connected to the pipe tour and to the surface facilities of the wells are arranged. The advantage of this design is that the actuation and control the sliding sleeve can be easily accomplished from above ground.  

The hydraulic sliding sleeve is hydraulically balanced Hydraulic system connected. This advantageously ensures that the static pressures above us are balanced below the piston and relatively low actuation pressures must be applied.

The hydraulic fluid consists in particular of oil or glycol or water or from mixtures of these liquids. The use of different Hydraulic fluids has the advantage that a fluid corresponding to the individual borehole requirements can be selected and used.

An embodiment of the invention is shown in FIGS. 1 to 4 and will be described in more detail below. The

Fig. 1 shows a longitudinal section through a closed hydraulic sliding sleeve, as it can be installed in risers of bores.

Fig. 2 shows a longitudinal section through an open hydraulic sliding sleeve and

Fig. 3 shows a cross section through a hydraulic sliding sleeve at the level of circulation ports,

Fig. 4 shows a borehole sketch with hydraulic sliding sleeve integrated in the riser pipe string.

The hydraulic sliding sleeve in Fig. 1 consists of an outer body 1 , which is formed in the central part as a hydraulic cylinder unit 2 with several sealing packages 3 . The seals 3 are located above the cylinder cavity 14 and above and below the circulation opening 10 in the outer body of the sliding muffle. The hydraulic cylinder unit 2 is provided with two connections 7 , 8 for the two hydraulic lines. The hydraulic piston 6 installed in the hydraulic cylinder unit 2 is provided, in particular in the region of the piston thickening 15, with seals 4 which seal the hydraulic piston unit 6 from the outer body 1 . The piston thickening 15 divides the cylinder cavity 14 into two mutually sealed chambers. Furthermore, in this exemplary embodiment, wiper rings 18 are arranged in the outer body 1 , which are intended to wipe off the existing liquid film on the hydraulic piston unit 6 when the sliding sleeve is actuated.

The threads 11 are necessary for the assembly of the hydraulic sliding sleeve and have an internal pressure resistance that is at least the internal pressure resistance of the riser pipe.

The hydraulic piston unit 6 includes circulation openings 5 of the outer body 5 correspond in shape and size, the circulation ports 10 of the sliding sleeve. 1 The lower stop 19 represents the limitation of the stroke of the piston unit 6 downwards and in this example ensures that the lower connection for the hydraulic line 8 is not closed by the piston thickening 15 .

By increasing the pressure in the hydraulic fluid line, which leads to the lower inlet region 13 of the hydraulic fluid in the cylinder cavity 14 , the hydraulic piston unit 6 is pushed upwards and the hydraulic fluid located in the upper chamber of the cylinder cavity 14 is passed through the upper inlet region 12 and the hydraulic fluid line 20 conveyed above ground where it is collected in an expansion tank. The sliding sleeve opens.

Fig. 2 shows a hydraulic sliding sleeve in the open state. The stop 23 represents the limitation of the stroke of the hydraulic piston unit 6. The circulation opening 5 of the piston unit 6 covers the circulation opening 10 of the outer body of the sliding sleeve 1 . The circulation between the outside and inside of the sliding sleeve is established. The lower chamber of the cylinder cavity 14 has reached its maximum volume. The guidance of the piston unit 6 is accomplished by a nose 16 in the outer body of the sliding sleeve 1, which engages a slot 17 in the hydraulic cylinder unit 6. This prevents the hydraulic piston unit 6 from rotating.

The closing of the sliding sleeve is effected by pressurizing the hydraulic fluid line 20 and pressing down the piston unit 6 while simultaneously draining liquid from the lower chamber via the lower connection 8 and the hydraulic line to the surface.

Fig. 3 shows an example of the milled in the hydraulic cylinder unit 2 circulation ports 10.

The installation of a hydraulic sliding sleeve 29 in a riser pipe string 27 is shown in the borehole sketch of FIG. 4. The sliding sleeve is actuated from the surface via the hydraulic fluid lines 20 , 28 . The riser pipe string 27 is installed in the annular space 26 of the casing 25 . The cement jacket 24 creates the connection between the casing 25 and the rock. With the packer 30 , the lower part of the borehole with the perforation 31 of the casing 25 and the cement jacket 24 is sealed off from the rest of the annular space 26 .

In a further exemplary embodiment (not shown), the hydraulic cylinder unit 2 is arranged below the circulation openings 10 .

Reference list

1 outer body of the sliding sleeve
2 hydraulic cylinder unit
3 seals in 1
4 seals in 6
5 circulation openings of the piston unit 6
6 hydraulic piston unit
7 Upper connection of the hydraulic line 20
8 Bottom connection of the hydraulic line
9 end profile
10 circulation openings of the hydraulic cylinder unit
11 threads
12 Upper inlet area of the hydraulic fluid into the cylinder cavity
13 Lower inlet area of the hydraulic fluid into the cylinder cavity
14 cylinder cavity
15 piston thickening
16 anti-rotation lug
17 anti-rotation slot
18 scraper ring
19 lower stop (in 1 )
20 hydraulic fluid line
21 threads for connection to the riser pipe
22 Direction to the wellhead
23 upper stop (in 1 )
24 cement jacket
25 casing (casing)
26 annulus
27 tubing
28 Hydraulic fluid line
29 sliding sleeve
30 packers
31 perforation (flow ports)

Claims (10)

1. sliding sleeve for installation in a tube tour of a bore for establishing a connection between the interior and exterior of the tube tour, characterized in that the hydraulic sliding sleeve consists of an outer body ( 1 ) with an integrated hydraulic unit ( 2 ) and a movable hydraulic piston ( 6 ) and that seals ( 3 ) are arranged on the outer body ( 1 ) and that there are inlets or outlets ( 12 , 13 ) for a hydraulic fluid supplied through the hydraulic connections ( 7 , 8 ) at the upper and lower ends of the cylinder cavity ( 14 ) the hydraulic piston thickening ( 15 ) seals ( 4 ) are fastened, which divide the cylinder cavity ( 14 ) into two mutually sealed chambers, and that above and below the cylinder cavity ( 14 ) and sealed to it, in the outer body ( 1 ) and in the hydraulic piston ( 6 ) each have circulation openings ( 10 , 5 ). 2. Sliding sleeve according to claim 1, characterized in that the seals ( 3 ) above and below the circulation openings ( 10 ) and above and below the cylinder cavity ( 14 ) are attached. 3. sliding sleeve according to claim 1 or 2, characterized in that the total area of the circulation openings of the sliding sleeves at least 0.5 times the inner cross-sectional area of the riser is.   4. sliding sleeve according to claim 1 to 3, characterized in that the outer surface of the piston unit ( 6 ) and the inner surface of the hydraulic cylinder unit ( 2 ) are executed honed. 5. Sliding sleeve according to one or more of claims 1 to 4, characterized in that the upper end profile ( 9 ) of the piston unit ( 6 ) is arranged in the direction of the riser pipe at an angle of 30 ° to 60 °. 6. sliding sleeve according to one or more of claims 1 to 5, characterized in that the inner diameter of the piston unit ( 6 ) corresponds at least to the minimum inner diameter of the riser pipe ( 27 ) above the sliding sleeve. 7. sliding sleeve according to one or more of claims 1 to 6, characterized in that on the piston unit ( 6 ) an anti-rotation slot ( 17 ) and on the outer body ( 1 ) an anti-rotation lug ( 16 ) is arranged. 8. sliding sleeve according to one or more of claims 1 to 7, characterized in that the hydraulic connections ( 7 , 8 ) are each connected to hydraulic lines ( 20 , 28 ) which are arranged parallel to the pipe tour and connected to the surface facilities of the holes. 9. sliding sleeve according to one or more of claims 1 to 8, characterized featured, that the hydraulic sliding sleeve with a hydraulically balanced Hydraulic system is connected. 10. sliding sleeve according to one or more of claims 1 to 9, characterized featured, that the hydraulic fluid from oil or glycol or water or from Mixtures of these liquids exist.