CN201241952Y - Seal assembly for well - Google Patents

Abstract

The utility model relates to a sealing component for wells, which comprises a metal main body, and the metal main body is suitable for being responded on a main body and is longitudinally compressed to radially inwards and radially outwards expanse among compressed surfaces. The metal main body comprises a first surface and a second surface, and the first surface and the second surface are not consistent with the compressed surfaces before the main body is longitudinally compressed, and the first surface and the second surface are suitable for contacting with the compressed surfaces.

Description

The black box that is used for well

Technical field

The utility model relates generally to a kind of black box that is used for well.

Background technique

The polymeric seal that comprises rubber and plastic seal is used in downhole tool usually.Usually use polymeric seal to be because their flexibility, elasticity and sealing are inhomogeneous or the ability of irregular surface.Yet, for some subsurface environments, for example there is the environment of high or extremely low temperature or has the environment (as example) of corrosive fluid, traditional polymer material may be improper.And, even in the operable application of polymeric seal, owing to the material aging that causes of environmental change, break down and characteristic changing has also proposed challenge to the use of polymeric seal.Because the crush resistance of polymeric seal is relatively poor, so polymeric seal is generally used with support system.

Metallic seal can be used and replace polymeric seal in down-hole application.Compared to polymeric seal, metallic seal shows stable preferably machinery and physical property usually.

The model utility content

Yet Seal Design typically has more challenge for metallic seal, because its sealing mechanism and polymeric seal is machine-processed different.For example, metallic seal typically needs much bigger surface finish and much bigger contact stress on sealing surfaces.

In embodiment of the present utility model, the black box that is used for well comprises metal master, and described metal master is suitable for vertically being compressed between compressive surfaces and radially inside and radially outward expansion in response to this main body.Described metal master comprises first and second surfaces, and this first and second surface is inconsistent with compressive surfaces before main body is vertically compressed, and this first and second surface is suitable for contacting compressive surfaces.

Adopt the technical solution of the utility model, because described metal master is suitable for vertically being compressed between compressive surfaces and radially inside and radially outward expansion in response to this main body, like this, black box is consistent with coarse sealing surfaces easily, utilizes lower installing force just can obtain better sealability.

Advantage of the present utility model and further feature will become more obvious from following accompanying drawing, description and claim.

Description of drawings

Fig. 1 is schematic representation cylinder type metallic seal assembly, metallic packing ring that this assembly be installed before of diagram according to the utility model embodiment;

Fig. 2 is the zoomed-in view according to the seal ring among Fig. 1 of the utility model embodiment;

Fig. 3,5,7 and 9 is the explanation metallic seal assembly that comprises metallic packing ring schematic representation before the sealing ring is installed according to the utility model embodiment;

Fig. 4,6,8 and 10 is respectively that explanation is according to the schematic representation of black box after the metallic packing ring that assembly has been installed among Fig. 3,5,7 and 9 of the utility model embodiment;

Figure 11 and 12 is the viewgraph of cross-section according to the utility model embodiment's seal ring;

Figure 13,14 and 15 is viewgraph of cross-section of the energy supply ring (energizing ring) according to the utility model embodiment;

Figure 16 has illustrated the viewgraph of cross-section by both different metal seal elements according to the utility model embodiment;

Figure 17 has illustrated having by black box two kinds of different metal seal elements, before seal element is installed according to the utility model embodiment;

Figure 18 has illustrated the black box after assembly has been installed, among Figure 17 according to the utility model embodiment;

Figure 19,21,23,25 and 27 has illustrated the different sealing assembly before the seal ring of mounting assembly according to the utility model embodiment;

Figure 20,22,24,26 and 29 illustrated respectively among Figure 19,21,23,25 and 27 according to the utility model embodiment, the black box after the seal ring that black box has been installed; With

Figure 28 has described the intermediateness in the process that black box is installed according to the utility model embodiment's Figure 27 and the black box among Figure 29.

Embodiment

With reference to Fig. 1, can be used to form interior tubular part 30 in well and the sealing between the outer tubular member 20 according to the utility model embodiment's metallic seal assembly 10.As example, outer tubular member 20 can be casing string (casing string), and interior tubular part 30 can be work or flow string (work or production string), although tubular part 20 and 30 can be different member in other embodiment of the present utility model.

Tubular part 20 and 30 is roughly concentric and extend along the longitudinal axis of well with the longitudinal axis 12 of well.Usually, metallic seal assembly 10 comprises cylindrical metal seal ring 40, described metallic packing ring 40 have thickness profile (thickness profile) thereby and other geometric properties make metallic packing ring 40 when vertically being compressed radially inwardly and radially outward expand, seal with formation between tubular part 20 and 30.

As shown in fig. 1, according to embodiments more of the present utility model, can go up the collar (thimble) 14 and lower collar 16 by using, or anchor clamps (gauges) are realized vertical compression of seal ring 40.Usually, anchor clamps 14,16 can have the annular surface 18 and 21 of relatively flat respectively, so that the upper surface 42 and the lower surface 44 of difference joint ring 40.Different with plane 18,21, the surface 42 of seal ring 40 and 44 tilts (this is another feature of seal ring 40), thereby makes seal ring 40 bending when being subjected to vertically compressing.

With reference to Figure 1A, according to embodiments more of the present utility model, the radial thickness of seal ring 40 changes towards ring 40 the thinnest middle parts 48 from encircling 40 the thickest ends.Also can propose other varied in thickness (for example, seal ring in uneven thickness) of seal ring 40, these varied in thickness are in the protection domain that claim of the present utility model limited.

For realizing varied in thickness, the internal surface of seal ring can be with respect to the horizontal reference line tilt angle alpha.The upper surface 42 of seal ring 40 and lower surface 44 each can be with respect to the horizontal reference line less angle beta that tilts.

With reference to Fig. 2, when seal ring 40 was vertically compressed, the surface 51 of the inside rounding of seal ring 40 contacted and roughly formation sealing with the outer surface of interior tubular part 30 with 53.In addition, between the internal surface of seal ring 40 and outer tubular member 20, form corresponding sealing near the outer surface of the seal ring 40 at ring 40 middle part and contact 55.Equally as shown in Figure 2, when seal ring 40 was vertically compressed, roughly chucking surface 18 and 21 difference with corresponding were consistent with lower surface 44 for the upper surface 42 of ring 40.

According to embodiments more of the present utility model, seal ring 40 can mainly be formed by the annealed copper material and longitudinal size is roughly 7 inches.On the diameter, top clearance can be roughly 0.178 inch.According to other embodiment of the present utility model, seal ring 40 can be made and can be of different sizes by other material.For example,, can select other material Alloy instead of Copper, because any reason, for example corrosive action, intensity, cost etc. for seal ring 40.As example more specifically, the seal element of being made by nickel or nickel alloy can have the usability of increase for corrosive environment.Further describe as top, seal element can be formed by different metal, selects different metals to carry out different functions.

Based on specific embodiment of the present utility model, seal ring 40 can have various internal diameter, external diameter, length, lateral angle and medial angle.Specific ring size can be determined by the internal diameter of outer tubular member 20, the external diameter of anchor clamps 16,18 and the combination of axle external diameter or above-mentioned factor.The inclination angle beta on angle [alpha] of the varied in thickness of seal ring 40 (seeing Figure 1A) and surface 42,44 can change in the scope of 10 degree-70 degree (as example) according to specific embodiment of the present utility model.Based on specific embodiment of the present utility model, lateral angle can be identical or different with medial angle.These angles make varied in thickness be out of shape with the sealing that helps to realize ideal.Thus, in the protection domain of claim, it is contemplated that out a lot of variations.

Fig. 3 has illustrated metallic seal assembly 59, can use metallic seal assembly 59 to replace metallic seal assembly 10 according to embodiments more of the present utility model.With reference to Fig. 3, black box 59 comprises metallic packing ring 60 and following metallic packing ring 70, and each among both all has crooked radial cross-section.Upper sealing ring 60 is recessed towards (black box 59) energy supply ring 75, and described energy supply ring 75 is arranged between the ring 60 and 70; And lower sealing ring 70 is positioned at the below of energy supply ring 75 and also recessed with respect to ring 70.As shown in Figure 3, energy supply ring 75 roughly has the radial cross-section of V-arrangement.Usually, according to embodiments more of the present utility model, the summit of the cross section of energy supply ring 75 is positioned near the outer surface of tubular part 30.The shape of cross section that is noted that seal ring 60 and 70 illustrates as example, and based on specific embodiment of the present utility model, seal ring can be ellipse, V-arrangement semicircle or other shape.No matter contoured, seal ring 60 and 70 is opened in radially inner direction and radially outer direction.Therefore, can apply longitudinal pressure so that seal element 60 and 70 is out of shape, thereby obtain high relatively contact stress and better sealability by anchor clamps 14 and 16.

Although energy supply ring 75 is shown as V-arrangement in Fig. 3, it should be noted that based on specific embodiment of the present utility model, energy supply ring 75 can have other shape of cross section.For example, based on specific embodiment of the present utility model, energy supply ring 75 can have rectangle, trapezoidal or other radial cross-sectional shape.The combination of seal ring and energy supply ring allows sealing ring deformation and seals on the outer surface of the internal surface of tubular part 20 and tubular part 30 respectively.Fig. 4 shown when seal ring 60 and 70 by vertical compression with form respectively sealing between the internal surface with outer tubular member 20 contact 62 and with the outer surface of interior tubular part 30 between sealing when contacting 64, the black box 59 among Fig. 3.

Fig. 5 has shown metallic seal assembly 89, can use this metallic seal assembly 89 according to other embodiment of the present utility model.When with Fig. 3 and 4 in black box 59 relatively the time, black box 89 comprises single crooked seal ring 60, described seal ring 60 has the orientation identical with the seal ring 60 of assembly 59.Black box 89 comprises energy supply ring 90, and described energy supply ring 90 is positioned under the seal ring 60, and has trapezoidal radial cross-section, thereby seal ring 60 is compressed between the surface 91 of the relative tilt of the surface 18 of the relatively flat of last anchor clamps 14 and energy supply ring 90.Be out of shape as illustrated in fig. 6 when seal ring 60 is mounted, contact 95 with interior sealing thereby form external sealed contact 93.

With reference to Fig. 7, according to other embodiment of the present utility model, upper sealing ring 60 and lower sealing ring 70 can use in additional metals black box 99, and the design of described metallic seal assembly 99 is similar to the metallic seal assembly 59 among Fig. 3.Yet in black box 99, energy supply ring 75 is replaced by energy supply ring 100, and described energy supply ring 100 has foursquare radial cross-section.Seal ring 60 with 70 as showing the ground distortion among Fig. 9 so that sealing contacts 101 and contacts 106 with external sealed in forming.

With reference to Fig. 9, in another modification, metallic seal assembly 109 comprises crooked seal ring 110, and described seal ring 110 is vertically compressed between the surface 120 bending, that tilt of last anchor clamps 14 and interior tubular part 30.Alternatively, according to embodiment of the present utility model, surface 120 part that can be lower clamp separate with interior tubular part 30.With as shown in Figure 10, sealing contact 113 contacts 115 with external sealed to last anchor clamps 14 in forming with respect to the seal ring 110 of surface 120 mobile bending compression.

As the example of other possible seal designs, according to other embodiment of the present utility model, Figure 11 and 12 has shown annular curved ring 150 and V-shaped ring 160 respectively.Thereby seal ring 150 has annular radius to be encircled 150 recessed with respect to energy supply element (not illustrating among Figure 12).The summit of the seal ring 160 among Figure 12 contacted energy supply element (not illustrating) or went up anchor clamps before element 160 distortion in Figure 12.

As the example of other possible seal designs, according to other embodiment of the present utility model, Figure 13 has shown energy supply ring 170, and described energy supply ring 170 comprises V-arrangement surface and following V-arrangement surface 174.Figure 14 has shown the energy supply ring 180 of different radially trapezoidal cross-sections, and this energy supply ring 180 has upper surface 182 and lower surface 184.Figure 15 has shown energy supply ring 190, and described energy supply ring 190 comprises curved upper surface 192 and crooked lower surface 194.As seeing, it is contemplated that out a lot of modification, all these modification are all within the protection domain that claim limits.

Seal ring can be by the soft metal, for example copper, nickel, or any other material with low yield stress is made.Use the advantage of soft metal to be to utilize just relatively easily distortion of lower installing force sealing.Use another advantage of soft metal to be to seal consistent with coarse sealing surfaces easily.In other embodiment of the present utility model, seal element can be made by the metal of high yield stress.In these embodiments of the present utility model, if element in its elastic region internal strain, sealing distortion can be reversible.

The energy supply ring also can be made by high yield stress and high-intensity metal, because it is used for being used for supporting to the seal element energy supply and after the sealing distortion.Marmem also can use with the energy supply ring, and the energy supply ring also can not use marmem.The additional advantage of using marmem is to allow alloy to change shape based on external stimulation (for example temperature, electromagnetic field etc.).

With reference to Figure 16, according to embodiments more of the present utility model, seal ring 200 can be made by soft metal and high yield stress metal.So, the part 201 of seal element 200 can be made by high yield stress metal, and this part 201 is flexible and comprises that the part 210 of rounding contacts to form sealing with 208.Seal element 200 also comprises the soft metal to form soft metal contact 220, and described soft metal contacts in 220 embedded parts 201 to form the sealing contact on the internal surface of outer tubular member 20.

As another example, Figure 17 has shown black box 228, and described black box 228 has top seal ring 230, middle part seal ring 232 and bottom seal ring 234, and these seal rings can be formed by different metals to be used for different functions.For example, one or more can the formation in the ring 230,232 and 234 (be used for separator and bridging plug and use (packerand bridge plug applications)) by the metal that is suitable for grappling black box 228; And/or encircle one or more can making in 230,232 and 234 by when black box 228 is compressed (Figure 18) is suitable for forming sealing between interior tubular part 30 and outer tubular member 20 metal.Thus,, whether sleeve pipe is housed, one or more specific down-hole member can being anchored on well bore wall or the oil well casing (well casing) in the ring 230,232 and 234 based on oil well according to some embodiments of the utility model.As shown in Figure 17, all three rings 230,232 and 234 can have the V-arrangement cross section, and top ring 230 and bottom part ring 234 tubular part 20 openings outward, and central ring 232 is towards interior tubular part 30 openings (as non-limiting example).

For a plurality of purposes, black box 228 can contain different metals.Because metal assembly 228 can play the anchoring device that is used for separator and bridging plug application, can omit traditional slips (slips).Because high contact stress, seal element can be soldered on the sealing surfaces.

According to embodiments more of the present utility model, the part of black box can have the annular groove array to improve the interaction between sealing and the contact surface and to strengthen anchoring effect.Use these metallic seals also can obtain other advantage of for example low installing force and the good anti-property drained (swab-offresistance).

In order not disturb sealing function, can on a side of sealing, drill a plurality of holes.The hole that gets out can help to be emitted on the pressure of the cavity inside between sealing and the interior tubular part surface.The situation downforce that this hole also helps to keep at pressure reduction is strengthened (pressure energize: or pressure energized) sealing.Equally, make a side opening of sealing also produce identical result, this permission borehole pressure and/or the differential pressure that applies further improve sealability.This will be similar to the result of separator leather cup (packer cup) in application.

Seal Design in this explanation is also used with polymer material, and for example the part of metallic seal element can be coated with rubber or plastic materials.The advantage of the sealing of this type is to obtain the very high contact stress that only utilizes polymeric seal to be difficult to obtain.In this application, by applying axial compression loading or other method, for example heat the sealing of making by marmem, form sealing.

Relate to the sealing applications that instrument or little sealing are moved for some, also can pack into has the concrete device of types of springs mechanism, because metal-metallic seal is for moving the flexibility that can have reduction.

It is contemplated that out that other modification and other modification are all in the protection domain of claim.For example, Figure 19 has shown a kind of metallic seal assembly 300, and wherein seal ring 330 is compressed between two anchor clamps 314 and 320.The upper end of seal ring 330 is contained in the shoulder 331, and described shoulder 331 is formed on and is used for making seal ring 330 distortion (as shown in Figure 20) in the lower end of anchor clamps 314 when being compressed.Seal ring 330 can be connected to or be free of attachment to anchor clamps 314 based on specific embodiment of the present utility model.As shown in Figure 20, when being compressed, the intermediate point 323 of the seal ring 330 of compression forms sealing with the internal surface of outer tubular member 20; And the end 324 of seal ring 330 forms seal point with the outer surface of interior tubular part 30.

With reference to Figure 21, as the example of another modification, the seal ring 340 of black box 339 can vertically be compressed between anchor clamps 341 and 343.As shown in Figure 22, when seal element 340 was vertically compressed, seal ring 340 was bent, or 342 and 344 place's bendings in the end, and this forms corresponding sealing contact 352 and 354 respectively.In addition, when ring 340 was compressed, the mid point of seal ring 340 formed sealing with the internal surface of outer tubular member 20 and contacts 350 (seeing Figure 22).

With reference to Figure 23, according to other embodiment of the present utility model, the seal ring 360 of metallic seal assembly 359 roughly radially outward arches upward, thereby the center of seal ring 360 or intermediate portion 361 have maximum radius.Also with reference to Figure 24, when vertically being compressed, sealing contact 362 and 364 is formed on the end 367 and 369 places of seal ring 360, and the mid point 361 of seal ring 360 contacts 370 with the internal surface formation sealing of outer tubular member 30.

With reference to Figure 25, according to embodiments more of the present utility model, in another modification, the seal ring 380 of metallic seal assembly 379 can be the tubular ring that is circular layout.So, seal ring 380 can be heated with radial compression up to obtaining oval cross section; Seal ring 380 can be annealed the hardness that needs to obtain then.When seal ring 380 is compressed, as shown in Figure 26, installing force will encircle 380 annular cross sections that turn back to it (or oval at least a little cross section), contact 392 respectively with the sealing of outer tubular member 30 and will contact 394 with sealing with interior tubular part 20 to form.

As the example of another modification, Figure 27 has shown the metallic seal assembly 400 according to other embodiment of the present utility model.Black box 400 comprises V-arrangement radial cross-section metallic packing ring 410, and sealing ring 410 comprises that V-arrangement opening 414 is to hold outer cone (outer cone) 404.Outer cone 404 is connected on the female cone (inner cone) 402 by shear screw (shear screw) 408.

With reference to Figure 28 (Figure 28 has shown black box 400 intermediateness during installation), when seal element 410 began to be compressed, outer cone 404 is contact seal element 410 at first, forced the internal surface of element 410 contact outer tubular member 20.With reference to Figure 29, when installing force surpassed the shear force of screw 408, female cone 402 entered in the seal element 410, contacted 412 respectively with the sealing of outer tubular member 20 and contacted 411 with sealing with interior tubular part 30 thereby form.

Other method comprises two installation steps, and these two installation steps drive element 410 in a step arrives outer tubular member 20, and driving element 410 arrives (order is inessential) in the interior tubular part 30 in another step.By eliminating the combination drag force of current ring design, by eliminating in installation process draw in the ring on tubular part 20 and 30, this will form the technological scheme of reduction installing force.

Metallic seal assembly disclosed here can be used for the multiple application at subsurface environment, as just several examples, for example bridging plug (bridge plugs), stride part (straddles), remodeling lock (retrofit locks), sliding sleeve, connection orifice plate; Sleeve, extension hanger (linerhangers), permanent and recoverable separator (permanent ﹠amp; Retrievable packers), four-way system plug (spool tree plugs), PBR (polished bore receptacle (PBR)), black box, side window are connected (lateral window ﹠amp with side; Junctions), surface pressure control apparatus, wire rope Stuffing box and lubricating ester injection head (wireline stuffingboxes ﹠amp; Grease injection heads), column (sub-sea riser).

Although the embodiment with reference to limited quantity has described the utility model, those of ordinary skills can make a lot of modifications and modification to it according to this content.And claim has covered all such modifications and modification, and these are revised and modification falls in the protection domain of the present utility model.

Claims (25)

1, a kind of black box that is used for well, comprise metal master, it is characterized in that, described metal master is suitable for vertically being compressed between compressive surfaces and radially inside and radially outward expansion in response to this main body, described metal master comprises first and second surfaces, this first and second surface is inconsistent with compressive surfaces before main body is vertically compressed, and this first and second surface is suitable for contacting compressive surfaces.

2, black box according to claim 1 is characterized in that, described first and second surfaces tilt with respect to compressive surfaces.

3, black box according to claim 1 is characterized in that, described metal master comprises cylinder-shaped body.

4, black box according to claim 1 is characterized in that, described metal master has the radial thickness that changes along the longitudinal length of metal master.

5, black box according to claim 4 is characterized in that, described thickness is thinner than arbitrary end place of close metal master at the vertical intermediate point place near metal master.

6, black box according to claim 1, it is characterized in that, described metal master comprises rounded substantially surface, with radially at first parts of the inside of described main body with radially form the sealing contact between second parts in the outside of described main body.

7, black box according to claim 1 is characterized in that, is vertically compressed in response to metal master, and described first and second surfaces are consistent with compressive surfaces substantially.

8, black box according to claim 1 is characterized in that, thereby the rounded metal master of described first surface has crooked cross-sectional profiles.

9, black box according to claim 1 is characterized in that, a surface that comprises the energy supply ring in the described compressive surfaces.

10, black box according to claim 1 is characterized in that, at least one in the described compressive surfaces has slope profile.

11, black box according to claim 1 is characterized in that, further comprises: be fixed to another metal master on first metal master.

12, black box according to claim 11 is characterized in that, described first metal master is formed by different metals with described another metal master.

13, black box according to claim 11 is characterized in that, described another metal master is softer than first metal master.

14, black box according to claim 11 is characterized in that, described another metal master is consistent with first metal master.

15, black box according to claim 1 is characterized in that, described metal master comprises that around so concentric tubular body of line, described line radially extends around the longitudinal axis of described metal master.

16, black box according to claim 1 is characterized in that, described metal master is suitable for the down-hole member is anchored in well bore wall and the oil well casing at least one.

17, a kind of black box that is used for well comprises:

At least one is used to apply the parts of vertical compressive force, and described parts comprise first surface; With

Metal master,

It is characterized in that described metal master is radially inside and radially outward expansion in response to this longitudinal force, described metal master comprises second surface, and described second surface is consistent with first surface substantially when metal master is compressed.

18, black box according to claim 17 is characterized in that, described first surface and second surface tilt with respect to compressive surfaces.

19, black box according to claim 17 is characterized in that, described metal master comprises cylinder-shaped body.

20, black box according to claim 19 is characterized in that, described metal master has the radial thickness that changes along the longitudinal length of metal master.

21, black box according to claim 20 is characterized in that, described thickness is thinner than arbitrary end place of close cylinder-shaped body at the vertical intermediate point place near cylinder-shaped body.

22, black box according to claim 17 is characterized in that, one in two compressive surfaces comprises the energy supply ring.

23, black box according to claim 22 is characterized in that, described energy supply ring comprises the ring with trapezoidal cross-section.

24, black box according to claim 22 is characterized in that, described energy supply ring comprises the ring with rectangular cross section.

25, black box according to claim 17 is characterized in that, described black box comprises the black box that is used for one of separator and bridging plug.

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