CN103697009A - Hydraulic jumper and testing and installing methods thereof - Google Patents

Abstract

The invention discloses a hydraulic jumper and testing and installing methods thereof. The hydraulic jumper comprises an umbilical cable, and each of two ends of the umbilical cable is connected with a female joint terminal. The female joint terminal comprises a female joint installation plate, and a guide element, a locking device and a female joint are installed on the female joint installation plate. Two ends of a hydraulic pipeline arranged in the umbilical cable are respectively connected with adaptors of the female joints of the two female joint terminals. The testing and installing methods of the hydraulic jumper include jointing the two female joint terminals with male joint terminals and performing flushing test; moving the hydraulic jumper into water, installing the two female joint terminals to the male joint terminals, fixedly installed, of underwater equipment through a ROV (remote-operated vehicle). With the hydraulic jumper, quick connection and separation of the underwater equipment can be achieved, anti-crushing sealing for connection and separation in full pressure can be realized, all key parts and movable parts can be recycled, and safety and reliability in docking and connection stages of the ROV are guaranteed.

Description

Hydraulic pressure jumper and test thereof, installation method

Technical field

The present invention relates to marine oil and gas exploitation technology field, specifically a kind of hydraulic pressure jumper connecting for oil gas drilling manifold and test thereof, installation method.

Background technique

In hydraulic pipe line or water pipeline, usually can run into the situation that pipeline is connected.In the connection of pipeline or the process of disconnection, how to ensure the seal degree of pipeline, and the Placement of optimization jointing is a technical problem.Particularly ocean environment very in, on ocean, the technical difficulty of mud oil is more many greatly than land mud oil.For adapting to ocean specific work environments, supporting oil drilling and extracting equipment is had to corresponding technical requirements, the most basic technical requirements is not allow leakage.In petroleum production and transportation process, can use many oil pipes, oil pipe is arranged intricate, and generally length is longer, also have the place of many bendings, so need using joint, the connection between oil pipe connects to reduce tubing length and floor space, jointing must have higher sealing and compression resistance, and preferably can realize quick connection, present oil connection adopts double thread screw or flange to connect mostly, when interconnecting between oil pipe or dismantling, need special tool that tubing spinning just can be completed, operator are time-consuming, effort, simultaneously, double thread screw needs very high degree of adaptability when connecting, so not only reduced working efficiency, increase cost and also affected job schedule simultaneously.

Existing rapid pipe joint is generally used for flexible pipe joint, and it generally comprises tool joint pin and female joint, during use, tool joint pin is docked with female joint, but after generally tool joint pin is docked with female joint, could pass into fluid to pipeline.Before tool joint pin is docked with female joint, can not pressure-bearing due to tool joint pin or female joint, pipeline can not pass into fluid.In addition, existing rapid pipe joint, the internal structure more complicated of tool joint pin and female joint, in baroque situation, sealability is difficult to guarantee, particularly under the hyperbaric environments such as marine field, the complex operation that tool joint pin makes tool joint pin communicate with female joint internal channel while docking with female joint, closing speed is slow.Existing rapid pipe joint sealing effect is bad, easily causes fluid leakage.

Simultaneously, in marine oil and gas exploitation field, between two underwater installations (as production tree and manifold), conventionally by jumper, connect, traditional jumper structure is comparatively complicated, and with production tree or manifold between be connected inconvenient, be not easy to ROV operation, joint efficiency is low, and sealing can not be guaranteed.

The deficiencies in the prior art are: the joint of existing quick mounting can not be taken into account the effect of instant cutout and quick clamping, and snap fit is relatively traditional, the modes that are threaded that adopt more, in dismounting or connection, need to use particular tool, operate pretty troublesome, operator are wasted time and energy, and in operating process, can not make quickly pipeline joint, while complicated structure, constituent elements is more, causes its sealing not to be guaranteed, and existing jumper, connect loaded down with trivial details, inconvenient operation.

Summary of the invention

The object of the present invention is to provide and a kind ofly can rapid abutting joint realize quick break-make with separated, and be applicable to the hydraulic pressure jumper of ocean deepwater environment and test thereof, installation method.

For achieving the above object, technological scheme of the present invention is as follows: a kind of hydraulic pressure jumper, comprise umbilical cables, these umbilical cables two ends are connected with respectively a female joint terminal, described female joint terminal comprises female joint mounting plate, on this female joint mounting plate, director element is installed, locking device and at least two female joints, in described umbilical cables, be provided with at least two hydraulic lines, one end of every described hydraulic line is connected with the conversion adapter of female joint in one of them female joint terminal, this hydraulic line the other end is connected with the conversion adapter of female joint in another female joint terminal.When described hydraulic pressure jumper is used, described in each, female joint terminal connects a tool joint pin terminal, and leads by described director element, and described locking device will be locked between tool joint pin terminal and female joint terminal.

Adopt said structure, female joint, female director element and female guiding blocking element are arranged on female joint mounting plate, every hydraulic line two ends connect respectively a female joint, female joint can arrange a plurality of, hydraulic line can be corresponding arrange many, female joint that can different size, conventionally tool joint pin terminal is fixed on underwater installation, by ROV(underwater robot) operation one of them female joint terminal of hydraulic pressure jumper is connected in the tool joint pin terminal of a underwater installation, another female joint terminal of hydraulic pressure jumper is connected in the tool joint pin terminal of another underwater installation, fluid flows into another underwater installation by female joint, hydraulic line, female joint from a underwater installation and realizes circulation, as female joint is on one side connected with a certain underwater installation (as production tree), the female joint of another side is connected with another underwater installation (as manifold), form whole cross-over connection loop, reached the object of hydraulic pressure cross-over connection.While docking between female joint terminal and tool joint pin terminal, by female director element, rest in tool joint pin terminal, female joint is enclosed within tool joint pin, female joint is pressed and is communicated with the public access crown, locking device and being connected with the blocking element of tool joint pin terminal, to between female joint mounting plate and tool joint pin terminal, lock, when needs disconnect, to between locking device and the blocking element of tool joint pin terminal, unclamp, female joint is separated with tool joint pin, because tool joint pin and female joint are plug-in type, top is pressed and just can be realized conducting mutually, after separation, block separately, can realize docking fast with separated, realize quick break-make, easy to operate, the quick connected sum that this jumper can be realized between underwater installation blocks, and easy to operate rapid, improved joint efficiency.

Described female joint mounting plate rear end is connected with cross-over connection terminal framework, this cross-over connection terminal framework is tilted to lower setting, the two end part of described hydraulic line are arranged on this cross-over connection terminal framework, these cross-over connection terminal framework both sides are vertically provided with pipeline protection plate, this cross-over connection terminal framework upper end is connected with described female joint mounting plate ear end face, this cross-over connection terminal framework lower end is provided with banded penstock and cross-over connection pressing plate, this banded penstock is waled described hydraulic line, described cross-over connection pressing plate is pressed on banded penstock on cross-over connection terminal framework, this cross-over connection terminal framework upper lateral is provided with pipeline pressing plate, this pipeline pressing plate is fixed described hydraulic line terminal part.

The two end part of hydraulic line are arranged on respectively a cross-over connection terminal framework, can better fixed hydraulic pipeline, prevent its with female joint between landing separated, the two ends of this hydraulic line are connected with the conversion adapter of female joint in two female joint terminals respectively, described cross-over connection terminal framework can arrange downwards in vertical direction with 10 °, and pipeline pressing plate is fixed hydraulic line.

Described female joint mounting plate vertically arranges, described female joint, director element and locking device level are arranged on this female joint mounting plate, described director element comprises and is opened in dominating to screw jack and secondary guide blot jack on described female joint mounting plate, this is dominated to screw jack and is arranged on female joint mounting plate top, this is dominated in screw jack and is provided with guide thimble, this guide thimble is connected with described female joint mounting plate, described secondary guide blot jack is two, and lays respectively at both sides, described female joint mounting plate bottom.

When with tool joint pin end-on, female joint terminal can rest on the guide blot in tool joint pin terminal through dominating to screw jack and secondary guide blot jack, and is connected with secondary guide blot jack guiding by dominating to screw jack.

Described locking device is cylindrical-shaped structure, this locking device is located in the center hole that described female joint mounting plate offers, and can in this center hole, rotate, the front end of this locking device offers screw, described locking device rear end is provided with ROV and reverses interface, on this locking device outer wall, be provided with a circle positive stop lug boss, this positive stop lug boss front end is against on described female joint mounting plate ear end face, when described tool joint pin terminal is connected with female joint terminal, ROV reverses interface rotary locking device by ROV, described locking device is enclosed within on the locking element of tool joint pin terminal by screw, described positive stop lug boss will clamp between female joint mounting plate and tool joint pin terminal.

Described locking device rear sleeve is equipped with surface support plate and ROV operation bucket, this surface support plate is positioned at ROV operation casing dress the place ahead, the opening end of described ROV operation bucket backwards, the bottom of this ROV operation bucket is connected by nut bolt with described surface support plate, described ROV torsion interface stretches in the cavity of this ROV operation bucket, on described surface support plate, is connected with lifting handle.

ROV operation bucket is convenient to ROV operation, and lifting handle is used while being used for mobile this hydraulic pressure jumper.

Described female joint comprises conversion adapter and the connecting sleeve being connected with this conversion adapter front sealing, this female joint level is located on described female joint mounting plate, described connecting sleeve stretches out the front-end face of female joint mounting plate, conversion adapter stretches out the ear end face of female joint mounting plate, described conversion adapter and connecting sleeve all offer fluid passage vertically, in the joint of described conversion adapter and connecting sleeve, form the valve pocket of hollow, this valve pocket is communicated with the fluid passage of conversion adapter and connecting sleeve, in described valve pocket, be provided with valve seat, valve rod and spring, described valve seat is arranged on valve pocket inwall, described valve rod is axially set in valve pocket along conversion adapter, this valve rod front end is towards connecting sleeve, rear end is towards described valve seat, this valve rod front portion is the sleeve pipe of hollow, described sleeve pipe sidewall offers pod apertures, this sleeve pipe stretches in the fluid passage of connecting sleeve, between described valve rod and the fluid passage of connecting sleeve, be provided with valve seal, this valve seal is positioned at pod apertures rear, on the valve rod at this valve seal rear, be provided with bounding means, described spring one end is connected to this bounding means rear end, the other end is against valve seat front end, described bounding means is pressed on valve seal in valve pocket front inner wall, and limit valve rod and travel forward, when described valve rod front end is pushed up pressure, described spring-compressed, the part that sleeve pipe is provided with pod apertures is retracted in valve pocket, described valve pocket is communicated with by pod apertures with sleeve pipe and two fluid passages.

Adopt said structure, the fluid passage of valve pocket and connecting sleeve and conversion adapter coaxially arranges, valve pocket front end and back end is communicated with the fluid passage of conversion adapter and connecting sleeve respectively, connecting sleeve is for docking with tool joint pin, conversion adapter for the pipeline joint such as oil pipe, valve seat is frame structure or Pierced structure, can allow fluid pass through, valve rod rear end can be located on valve seat or and valve seat between gapped, before connection, spring-compressed reaction force makes bounding means valve seal is pressed on the sidewall of valve pocket front end, valve rod is anterior, it is the inside, fluid passage that sleeve pipe and pod apertures are positioned at connecting sleeve, valve seal is positioned at pod apertures rear, can be arranged in the fluid passage of connecting sleeve and also can be arranged on the fluid passage of connecting sleeve and the junction of valve pocket, valve seal will seal and separate between valve pocket and the fluid passage of connecting sleeve, when this female joint is connected with tool joint pin, the public access crown is pressed in the sleeve pipe front end of valve rod, valve rod is pressed backward, spring-compressed, the pod apertures of valve rod front portion is retracted in valve pocket, and valve pocket is communicated with the fluid passage of sleeve pipe and connecting sleeve, fluid can flow into/flow out valve pocket through pod apertures from sleeve pipe, and can bear larger pressure in valve pocket, and can be from incoming fluid in the fluid passage of conversion adapter when not docking, two can not leak, during docking, only need pressure valve bar backward, make spring-compressed pod apertures be retracted into valve pocket, can realize fast conducting, after tool joint pin is separated with valve rod, in the time of spring reset, female joint is blocked, and can realize break-make fast, easy to operate, and good sealing effect, the outer wall of sleeve pipe can be fitted with the fluid passage inwall of connecting sleeve, further enhanced leaktightness effect.

Described connecting sleeve rear portion is anterior at described conversion adapter by thread jacket, between this conversion adapter front end and the inwall of connecting sleeve fluid passage, be provided with bump protection ring, on the fluid passage inwall at described connecting sleeve rear portion, seal cartridge is installed, sealing lining rear end and conversion adapter front end butt, and the joint of sealing lining and conversion adapter is provided with static sealing ring, described seal cartridge front end is against on the step of connecting sleeve fluid passage inwall setting, and be provided with main seal ring between sealing lining front end and connecting sleeve, this main seal ring is arranged in seal cartridge front inner wall, between the fluid passage inwall of sealing lining outer wall and connecting sleeve, be provided with the first seal ring, the conical seal (contact) face that described seal cartridge rear end is indent, in described conversion adapter front end, offer pre-large post-small drum-shaped chamber, in the middle part of surrounding, sealing lining and conversion adapter on the fluid passage inwall of connecting sleeve, offer circular groove described in large described valve pocket small in ends, this circular groove is positioned at the place ahead of seal cartridge, and back-up ring and the second seal ring are installed in this circular groove, when not docking, spring is pressed on this conical seal (contact) face valve seal.

Adopt said structure, seal cartridge enhanced leaktightness effect is set, between seal cartridge and connecting sleeve, by the first seal ring, seal, between seal cartridge ear end face and conversion adapter front-end face, by static sealing ring, seal, this first seal ring and static sealing ring material can be selected HNBR, be hydrogenated nitrile-butadiene rubber, bump protection ring can be that PTFE makes by teflon.The internal diameter of described seal cartridge front portion and the diameter of connecting sleeve fluid passage are all greater than the internal diameter at described seal cartridge rear portion, the outer wall of described sleeve pipe and the laminating of seal cartridge rear inside wall.Main seal ring is arranged in seal cartridge front inner wall, and fit with the step that connecting sleeve fluid passage inwall arranges, can will between seal cartridge front end and the step of connecting sleeve, seal on the one hand, when inserting, tool joint pin can will between tool joint pin outer wall and female joint fluid passage inwall, seal on the other hand, and this main seal ring and the second seal ring, the first seal ring, static sealing ring forms multi-stage sealed, guarantee the sealing effect between connecting sleeve and conversion adapter, guarantee the sealing after tool joint pin access, Leakage prevention, this main seal ring is NHA seal type, can select PTFE material, NHA sealing is mainly used in high pressure, static, stroboscopic motion sealing.

On the fluid passage inwall of described connecting sleeve, offer circular groove, this circular groove is positioned at the place ahead of seal cartridge, and back-up ring and the second seal ring are installed in this circular groove.

Back-up ring is positioned at second seal ring the place ahead, and when this female joint is docked with tool joint pin, the connecting sleeve of female joint is inserted in tool joint pin, and this second seal ring can will seal between tool joint pin outer wall and female joint fluid passage inwall.

Described valve seat is disc-shape, this valve seat offers center hole, on this center hole valve seat around, offer through hole, on the sidewall at described valve pocket rear portion, be provided with ring-shaped step, this valve seat rear end is against on this ring-shaped step, and valve rod rear end is located in the center hole of valve seat, and spring overcoat is at valve rod rear portion, this spring one end is against valve seat front end, and the other end is against bounding means rear end; Described bounding means comprises and is arranged on the annular stop boss on the outer wall of valve rod middle part and is enclosed within the valve gap on this annular stop boss outward, this valve gap front inner wall is threaded with annular stop outer wall of boss, described spring one end is against this annular stop boss rear end, the other end is against valve seat front end, it is anterior that valve gap rear portion covers described spring, and gapped between this valve gap rear end and valve seat, described valve seal is arranged on valve gap front end.

Valve rod is by being limited between valve seat and seal cartridge and moving with being connected of valve gap, described valve seal is arranged on valve gap front end, when not connecting, spring-compressed reaction force makes valve seal be pressed on the conical seal (contact) face of seal cartridge, when conversion adapter one end access fluid, can not cause leakage yet, can bear larger pressure, there is good sealability.Described pod apertures is arranged on the rear portion of sleeve pipe, and described pod apertures is 2-4, and is being uniformly distributed along sleeve circumferential.Described conversion adapter rear end is that outer wall is with externally threaded joint.Described connecting sleeve is identical with the external diameter of the joint of conversion adapter, on the anterior outer wall of described connecting sleeve, be provided with a circle step, on the outer wall of rear portion, cover has snap ring and a positioning ring, and this positioning ring is between described step and snap ring, for being connected of female joint and female joint mounting plate.

As shown in figure 10, a kind of test installation method of described hydraulic pressure jumper, comprises the following steps:

S1, female joint terminal is carried out to leak-testing: the female joint of female joint terminal is connected with high-voltage testing equipment by pipeline, carries out leak-testing;

S2, hydraulic pressure jumper has been assembled on the coast, two female joint terminals of described hydraulic pressure jumper have been rinsed to tool joint pin terminal with test respectively and be connected, female joint terminal has been rinsed, tested its cleanliness;

It is basic identical with tool joint pin terminal structure that tool joint pin terminal is rinsed in test wherein, and difference is, it is to use on the coast that tool joint pin terminal is rinsed in test, and test being arranged on framework while rinsing the use of tool joint pin terminal.

S3, the hydraulic pressure jumper that reaches testing standard is ready to, in two female joint terminals of hydraulic pressure jumper, puts protective cover;

S4, by two lifting handles hydraulic pressure jumper is transferred under water, transfer to specified position;

S5, by ROV, operated, take down protective cover, two female joint terminals are mounted to respectively on underwater installation and have been fixed in good and sound tool joint pin terminal.

In described step S5, by ROV, operated, take down protective cover, two female joint terminals are mounted to respectively on underwater installation and have fixed in good and sound tool joint pin terminal and comprised the following steps:

A, by ROV, operated, take down protective cover, by female joint mounting plate to tool joint pin fast mobile terminal, dominating to screw jack and secondary guide blot jack on female joint mounting plate is enclosed within respectively on the main guide blot and secondary guide blot of tool joint pin terminal setting, and connecting sleeve and the tool joint pin of female joint are docked and connected;

B, by ROV, operated, by ROV, reverse interface rotary locking device, the screw of locking device front end is enclosed within on the locking element of tool joint pin, positive stop lug boss front end is against female joint mounting plate ear end face, to between female joint mounting plate tool joint pin terminal, clamp, complete docking of hydraulic pressure jumper and tool joint pin terminal.

Wherein, when hydraulic line is length while being less than the flexible pipe of 30 meters, its installation method is as follows:

Preparatory work: 1), hydraulic pressure jumper first end is recycled to block piece, and fixed;

2), reclaim hydraulic pressure jumper the second end;

3), spreader bar is installed, is disposed rigging deployment underwater:, and it is connected with hydraulic pressure jumper;

Install: 4), hydraulic pressure jumper is deployed to relevant position under water;

5), use first female joint terminal positioning that ROV is hydraulic pressure jumper, be mounted to first tool joint pin terminal;

6), use another female joint terminal positioning that ROV is hydraulic pressure jumper, be mounted to another tool joint pin terminal;

When hydraulic line is length while being greater than the flexible pipe of 30 meters, its installation method is as follows:

Preparatory work: 1), at hydraulic pressure jumper first end, rigging and spreader bar are installed;

2), transfer hydraulic pressure jumper first end under water, until the second end stretches out from cylinder deployment underwater:;

3), inhibition winch is connected with hydraulic pressure jumper the second end;

4), continue to transfer hydraulic pressure jumper first end, the second end is placed in to stretcher top;

5), at the second end of hydraulic pressure jumper, rigging and spreader bar are installed;

6), carry out sealing test;

Install: 7), hydraulic pressure jumper first end is deployed to relevant position under water;

8), use the female joint terminal positioning that ROV is first end, be mounted to first tool joint pin terminal;

9), the second end of hydraulic pressure jumper is deployed to relevant position under water;

10), to use ROV be the female joint terminal positioning of the second end, is mounted to another tool joint pin terminal.

When hydraulic line is that length is while being greater than the flexible pipe of 30 meters, first hydraulic pressure jumper one end is disposed after installation, again water under the other end is installed, avoid two ends to put down simultaneously the damage that causes flexible pipe is installed, adopt above installation method can overcome conventional hydraulic jumper span large, float large, transfer the shortcoming that trouble is installed.

The invention has the beneficial effects as follows: simple in structure, can realize between underwater installation and connecting fast, be convenient to dock fast and dismantle simultaneously, shorten the docking operation time, good seal performance, being applicable to deepwater environment uses, the locking element of all keys is recyclable, to operator's low-disturbance power, the majority amount female joint that different size can be installed forms multiloop and connects simultaneously, all crucial Hydraulic Mains are sealed in recyclable, reach and completely depress the anti-extrusion sealing that connects and disconnect, guarantee that all key components and movable part can reclaim, make all crucial sealing surfaces in ROV mono-side, guarantee the safe and reliable of ROV stop and access phase.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention;

Fig. 2 is the structural representation of female joint terminal and cross-over connection terminal framework;

Fig. 3 is the view again of Fig. 2;

Fig. 4 is the structural representation of female joint mounting plate;

Fig. 5 is the structural representation of female joint;

Fig. 6 is the stereogram of female joint;

Fig. 7 is the structural representation of tool joint pin terminal;

Fig. 8 is the sectional view of Fig. 7;

Fig. 9 is the structural representation that tool joint pin is connected with female joint;

Figure 10 is the block diagram of the test installation method of hydraulic pressure jumper;

Figure 11 is the structural representation of protective cover;

Figure 12 is the scheme of installation of hydraulic line length while being less than the flexible pipe of 30 meters;

Figure 13 is the scheme of installation of hydraulic line length while being greater than the flexible pipe of 30 meters.

Embodiment

Below in conjunction with drawings and Examples, the invention will be further described:

As Fig. 1 with to as shown in Fig. 6, a kind of hydraulic pressure jumper, comprise umbilical cables, these umbilical cables two ends are connected with respectively a female joint terminal 2, female joint terminal 2 comprises female joint mounting plate 3, director element 5, locking device 6 and a plurality of female joint 4 are installed on this female joint mounting plate 3, in umbilical cables, be provided with many hydraulic lines 1, one end of every hydraulic line 1 is connected with the conversion adapter 41 of female joint 4 in one of them female joint terminal 2, and this hydraulic line 1 the other end is connected with the conversion adapter 41 of female joint 4 in another female joint terminal 2, female joint mounting plate 3 rear ends are connected with cross-over connection terminal framework 7, this cross-over connection terminal framework 7 is tilted to lower setting, the two end part of hydraulic line 1 are arranged on this cross-over connection terminal framework 7, these cross-over connection terminal framework 7 both sides are vertically provided with pipeline protection plate 11, these cross-over connection terminal framework 7 upper ends are connected with female joint mounting plate 3 ear end faces, these cross-over connection terminal framework 7 lower ends are provided with banded penstock 12 and cross-over connection pressing plate 13, this banded penstock 12 is waled hydraulic line 1, cross-over connection pressing plate 13 is pressed on banded penstock 12 on cross-over connection terminal framework 7, these cross-over connection terminal framework 7 upper lateral are provided with pipeline pressing plate 14, this pipeline pressing plate 14 is fixed hydraulic line 1 terminal part.

Female joint mounting plate 3 vertically arranges, female joint 4, director element 5 and locking device 6 levels are arranged on this female joint mounting plate 3, director element 5 comprises and is opened in dominating to screw jack 51 and secondary guide blot jack 52 on female joint mounting plate 3, this is dominated to screw jack 51 and is arranged on female joint mounting plate 3 tops, this is dominated in screw jack 51 and is provided with guide thimble 53, this guide thimble 53 is connected with female joint mounting plate 3, secondary guide blot jack 52 is two, and lays respectively at female joint mounting plate 3 both sides, bottom, locking device 6 is cylindrical-shaped structure, this locking device 6 is located in the center hole that female joint mounting plate 3 offers, and can in this center hole, rotate, the front end of this locking device 6 offers screw 61, locking device 6 rear ends are provided with ROV and reverse interface 62, on these locking device 6 outer walls, be provided with a circle positive stop lug boss 63, these positive stop lug boss 63 front ends are against on female joint mounting plate 3 ear end faces, when female joint terminal 2 is connected with tool joint pin terminal, ROV reverses interface 62 rotary locking devices 6 by ROV, locking device 6 is enclosed within on the locking element of tool joint pin terminal by screw 61, positive stop lug boss 63 will clamp between female joint mounting plate 3 and tool joint pin terminal, locking device 6 rear sleeve are equipped with surface support plate 16 and ROV operation bucket 15, this surface support plate 16 is positioned at ROV operation bucket 15 suit the place aheads, the opening end of ROV operation bucket 15 backwards, the bottom of this ROV operation bucket 15 is connected by nut bolt with surface support plate 16, ROV torsion interface 62 stretches in the cavity of this ROV operation bucket 15, on surface support plate 16, be connected with lifting handle 10.

Female joint 4 comprises conversion adapter 41 and the connecting sleeve 42 being connected with these conversion adapter 41 front sealing, these female joint 4 levels are located on female joint mounting plate 43, connecting sleeve 42 stretches out the front-end face of female joint mounting plate 3, conversion adapter 41 stretches out the ear end face of female joint mounting plate 3, conversion adapter 41 and connecting sleeve 42 all offer fluid passage vertically, in the joint of conversion adapter 41 and connecting sleeve 42, form the valve pocket of hollow, this valve pocket is communicated with the fluid passage of conversion adapter 41 and connecting sleeve 42, in valve pocket, be provided with valve seat 44, valve rod 43 and spring 45, valve seat 44 is arranged on valve pocket inwall, valve rod 43 is axially set in valve pocket along conversion adapter 41, these valve rod 43 front ends are towards connecting sleeve 42, rear end is towards valve seat 44, these valve rod 43 front portions are the sleeve pipe 431 of hollow, sleeve pipe 431 sidewalls offer pod apertures 432, this sleeve pipe 431 stretches in the fluid passage of connecting sleeve 42, between the fluid passage of valve rod 43 and connecting sleeve 42, be provided with valve seal 48, this valve seal 48 is positioned at pod apertures 432 rears, on the valve rod 43 at these valve seal 48 rears, be provided with bounding means, spring 45 one end are connected to this bounding means rear end, the other end is against valve seat 44 front ends, bounding means is pressed on valve seal 48 in valve pocket front inner wall, and limit valve rod 43 and travel forward, when valve rod 43 front ends are pushed up pressure, spring 45 compressions, the part that sleeve pipe 431 is provided with pod apertures 432 is retracted in valve pocket, valve pocket is communicated with by pod apertures 432 with sleeve pipe 431 and two fluid passages, connecting sleeve 42 is identical with the external diameter of the joint of conversion adapter 41, on the anterior outer wall of connecting sleeve 42, be provided with a circle step, on the outer wall of rear portion, cover has snap ring 412 and positioning ring 413, this positioning ring 413 is between step and snap ring 412.

Connecting sleeve 42 rear portions by thread jacket in conversion adapter 41 front portions, between these conversion adapter 41 front ends and the inwall of connecting sleeve 42 fluid passages, be provided with bump protection ring 418, on the fluid passage inwall at connecting sleeve 42 rear portions, seal cartridge 49 is installed, sealing lining 49 rear ends and conversion adapter 41 front end butts, and sealing lining 49 is provided with static sealing ring 419 with the joint of conversion adapter 41, seal cartridge 49 front ends are against on the step of connecting sleeve 42 fluid passage inwalls settings, and be provided with main seal ring 417 between sealing lining 49 front ends and connecting sleeve 42, this main seal ring 417 is arranged in seal cartridge 49 front inner wall, between sealing lining 49 outer walls and the fluid passage inwall of connecting sleeve 42, be provided with the first seal ring 414, the conical seal (contact) face that seal cartridge 49 rear ends are indent, in conversion adapter 41 front ends, offer pre-large post-small drum-shaped chamber, in the middle part of surrounding, sealing lining 49 and conversion adapter 41 offer circular groove on the fluid passage inwall of large valve pocket connecting sleeve 42 small in ends, this circular groove is positioned at the place ahead of seal cartridge 49, and back-up ring 416 and the second seal ring 415 are installed in this circular groove, when not docking, spring 45 is pressed on this conical seal (contact) face valve seal 48.

Valve seat 44 is disc-shape, this valve seat 44 offers center hole, on this center hole valve seat 44 around, offer through hole, on the sidewall at valve pocket rear portion, be provided with ring-shaped step 411, these valve seat 44 rear ends are against on this ring-shaped step 411, and valve rod 43 rear ends are located in the center hole of valve seat 44, outer valve rod 43 rear portions that are enclosed within of spring 45, these spring 45 one end are against valve seat 44 front ends, and the other end is against bounding means rear end; Bounding means comprises and is arranged on the annular stop boss 47 on valve rod 43 middle part outer walls and is enclosed within the valve gap 46 on this annular stop boss 47 outward, these valve gap 46 front inner wall are connected with annular stop boss 47 outer wall threads, spring 45 one end are against this annular stop boss 47 rear ends, the other end is against valve seat 44 front ends, valve gap 46 rear portions cover spring 45 front portions, and gapped between these valve gap 46 rear ends and valve seat 44, valve seal 48 is arranged on valve gap 46 front ends.

Above-mentioned female joint, while not connecting, spring 45 Partial shrinkages, by annular stop boss 47 and valve gap 46, valve seal 48 is pressed on the conical seal (contact) face of seal cartridge 49, realize the sealing of valve pocket, when female joint is docked with tool joint pin, valve rod 43 front end pressurizeds, spring 45 compressions, sleeve pipe 431 is retracted in valve pocket with the part of pod apertures 432, valve pocket is communicated with by pod apertures 432 with the fluid passage of sleeve pipe 431 and connecting sleeve 42, fluid is through the fluid passage of connecting sleeve 42, sleeve pipe 431, pod apertures 432, circulation is realized in the fluid passage of valve pocket and conversion adapter 41, the female joint of this structure, can realize docking fast, connect rapidly, and simple to operation, simple in structure, constituent elements is less, can reduce the leakage that poor sealing causes, and by valve seal 48, main seal ring 417, static sealing ring 419, the first seal ring 414 and the second seal ring 415 form multi-stage sealed, guarantee sealing effect.

As shown in figure 10, a kind of test of described hydraulic pressure jumper, installation method, comprise the following steps:

S1, female joint terminal 2 is carried out to leak-testing: the female joint of female joint terminal 24 is connected with high-voltage testing equipment by pipeline, carries out leak-testing;

S2, hydraulic pressure jumper has been assembled on the coast, two female joint terminals 2 of described hydraulic pressure jumper have been rinsed to tool joint pin terminal with test respectively and be connected, female joint terminal 2 has been rinsed;

S3, the hydraulic pressure jumper that reaches testing standard is ready to, in two female joint terminals 2 of hydraulic pressure jumper, puts protective cover;

S4, by two lifting handles 10 hydraulic pressure jumper is transferred under water, transfer to specified position;

S5, by ROV, operated, take down protective cover, two female joint terminals 2 are mounted to respectively on underwater installation and have been fixed in good and sound tool joint pin terminal;

Wherein step S5 comprises the following steps:

A, by ROV, operated, take down protective cover, by female joint mounting plate 3 to tool joint pin fast mobile terminal, dominating to screw jack 51 and secondary guide blot jack 52 on female joint mounting plate 3 is enclosed within respectively on the main guide blot and secondary guide blot of tool joint pin terminal setting, and connecting sleeve 42 and the tool joint pin of female joint 4 are docked and connected;

B, by ROV, operated, by ROV, reverse interface 62 rotary locking devices 6, the screw 61 of locking device 6 front ends is enclosed within on the locking element of tool joint pin, positive stop lug boss 63 front ends are against female joint mounting plate 3 ear end faces, to between female joint mounting plate 3 tool joint pin terminals, clamp, complete docking of hydraulic pressure jumper and tool joint pin terminal.

Fig. 7 and Fig. 8 are the structural representation of the tool joint pin terminal that coordinates with female joint terminal, this tool joint pin terminal comprises the first mounting plate 9 of vertical setting, on this first mounting plate 9, be horizontally installed with public director element 91, public guiding blocking element 92 and coordinate a plurality of tool joint pin 8 with female joint 4, this stretches out the front-end face that the first mounting plate 9 is stretched out in tool joint pin 8 one end, the other end stretches out the ear end face of the first mounting plate 9, public director element 91 comprises main guide blot 911, secondary guide blot 912 and guide funnel 913, described main guide blot 911 is positioned at the first mounting plate 9 tops, described secondary guide blot 912 is two, and be positioned at the first mounting plate 9 both sides, bottom, described guide funnel 913 is connected with the first mounting plate 9 edges, described tool joint pin 8, main guide blot 911 and secondary guide blot 912 are all positioned at this guide funnel 913, the miner diameter end of this guide funnel 913 is connected with the first mounting plate 9, bigger diameter end outward, described public guiding blocking element 92 is for being arranged on the public affairs guiding locking bolt at the first mounting plate 9 centers, when female joint terminal 2 is connected with tool joint pin terminal, female joint mounting plate 3 is drawn close to the first mounting plate 9 rear ends along guide funnel 913 inwalls, described main guide blot 911 stretches into be dominated in screw jack 51, described secondary guide blot 912 stretches into secondary guide blot jack 52, public guiding locking bolt stretches in this screw 61, ROV reverses interface 62 rotary locking devices 6 by ROV, positive stop lug boss 63 is against female joint mounting plate 3 on the first mounting plate 9, and by clamping between female joint mounting plate 3 and the first mounting plate 9.

As shown in Figure 9, tool joint pin 8 comprises the first conversion adapter 81 and the joint body 82 being connected with these the first conversion adapter 81 rear seal, this the first conversion adapter 81 stretches out the front-end face of the first mounting plate 9, joint body 82 stretches out the ear end face of the first mounting plate 5, the first conversion adapter 81 and joint body 82 are all offered center hole vertically, the center hole of the first conversion adapter 81 and joint body 82 communicates and forms the fluid passage of tool joint pin 8, in the joint of the first conversion adapter 81 and joint body 82, form the first valve pocket of hollow, this first valve pocket is communicated with the fluid passage of the first conversion adapter 81 and joint body 82, the first fluid stopping spring spool is arranged in this first valve pocket, the first fluid stopping spring spool comprises the first valve seat 802, the first valve rod 801 and the first spring 803, the first valve seat 802 is arranged on the first valve pocket inwall, the first valve rod 801 is axially set in the first valve pocket along the first conversion adapter 8a, these the first valve rod 801 rear ends are towards joint body 82, front end is towards the first valve seat 802, the first sleeve pipe 804 that these the first valve rod 801 rear portions are hollow, the first sleeve pipe 804 sidewalls offer the first pod apertures 805, this first sleeve pipe 804 stretches in the fluid passage of joint body 82, between the first valve rod 801 and the fluid passage of joint body 82, be provided with the first valve seal 806, this first valve seal 806 is positioned at first pod apertures 805 the place aheads, on first valve rod 801 in these the first valve seal 806 the place aheads, be provided with the first bounding means, first spring 803 one end are connected to this first bounding means front end, the other end is against the first valve seat 802 rear ends, the first bounding means is pressed on the first valve seal 806 in the first valve pocket rear inside wall, and limit the rear front motion of the first valve rod 801, the first bounding means comprises and is arranged on the first annular positive stop lug boss 808 at the first valve rod 801 middle parts and is enclosed within the first valve gap 807 on this first annular positive stop lug boss 808 outward, these the first valve gap 807 rear inside wall are connected with the first annular positive stop lug boss 808 outer wall threads, the first valve gap 807 front portions cover the first spring 803 rear portions, the first valve seal 806 is arranged on the first valve gap 807 rear ends, and the first spring 803 extends the first valve seal 806 is pressed in the tapered slope of the first valve pocket front inner wall, on this first valve seat 802, offer center hole, on this center hole the first valve seat 802 around, offer through hole, on the sidewall of the first valve pocket front portion, be provided with the first ring-shaped step 809, these the first valve seat 802 front ends are against on this first ring-shaped step 809, the first valve rod 801 front ends are located in the center hole of the first valve seat 802, outside the first spring 803, be enclosed within the first valve rod 801 front portions, these the first spring 803 one end are against the first valve seat 802 rear ends, and the other end is against the first annular positive stop lug boss 808 front ends.

When female joint terminal 2 is connected with tool joint pin terminal, the connecting sleeve 42 of female joint 4 front portions is enclosed within to joint body 82 rear portions of tool joint pin 9, joint body 82 rear portions of tubulose are stretched in the fluid passage of connecting sleeve 42 and seal cartridge 49, between its outer wall and connecting sleeve 42 and the inwall of seal cartridge 49, by main seal ring 417 and the second seal ring 415, seal, sleeve pipe 431 stretches in these joint body 82 front portions, the inwall laminating of the outer wall of the first sleeve pipe 804 and sleeve pipe 431 and this joint body 1b, guarantee sealing effect, the first sleeve pipe 804 front ends and sleeve pipe 431 rear ends are pushed up pressure mutually, make the first spring 803 and spring 45 compressions, the part that the first sleeve pipe 804 is provided with the first pod apertures 805 is retracted in the first valve pocket, the part that sleeve pipe 431 is provided with pod apertures 432 is retracted in valve pocket, the first valve pocket and valve pocket are by the first pod apertures 805, the first sleeve pipe 804, sleeve pipe 431 and pod apertures 432 are communicated with, realize the connection of tool joint pin 8 and female joint 4 fluid passages, after female joint 4 is separated with tool joint pin 8, the first spring 803 and spring 45 reset, the first pod apertures 805 and pod apertures 432 are stretched out respectively the first valve pocket and valve pocket, the first valve seal 806 is pressed on the conical surface at joint body 82 rear portions, valve seal 48 is pressed on the conical seal (contact) face of seal cartridge 49 rear ends, tool joint pin 8 and female joint 4 are blocked respectively, can realize the fast conducting between this tool joint pin 8 and female joint 4 and block.

As shown in figure 12, when hydraulic line 1 is length while being less than the flexible pipe of 30 meters, its installation method is as follows:

Preparatory work: 1), hydraulic pressure jumper first end is recycled to block piece, and fixed;

2), reclaim hydraulic pressure jumper the second end;

3), spreader bar 006 is installed, is disposed rigging 007 deployment underwater:, and it is connected with hydraulic pressure jumper;

Install: 4), hydraulic pressure jumper is deployed to relevant position under water;

5), use first female joint terminal 2 location that ROV is hydraulic pressure jumper, be mounted to first tool joint pin terminal;

6), use another female joint terminal 2 location that ROV is hydraulic pressure jumper, be mounted to another tool joint pin terminal;

As shown in figure 13, when hydraulic line 1 is greater than the flexible pipe of 30 meters for length, its installation method is as follows:

Preparatory work: 1), at hydraulic pressure jumper first end, rigging 007 and spreader bar 006 are installed;

2), transfer hydraulic pressure jumper first end under water, until the second end stretches out from cylinder deployment underwater:;

3), inhibition winch is connected with hydraulic pressure jumper the second end;

4), continue to transfer hydraulic pressure jumper first end, the second end is placed in to stretcher top;

5), at the second end of hydraulic pressure jumper, rigging 007 and spreader bar 006 are installed;

6), carry out sealing test;

Install: 7), hydraulic pressure jumper first end is deployed to relevant position under water;

8), use female joint terminal 2 location that ROV is first end, be mounted to first tool joint pin terminal;

9), the second end of hydraulic pressure jumper is deployed to relevant position under water;

10), to use ROV be female joint terminal 2 location of the second end, is mounted to another tool joint pin terminal.

Claims (10)

1. a hydraulic pressure jumper, it is characterized in that: comprise umbilical cables, these umbilical cables two ends are connected with respectively a female joint terminal (2), described female joint terminal (2) comprises female joint mounting plate (3), on this female joint mounting plate (3), director element (5) is installed, locking device (6) and at least two female joints (4), in described umbilical cables, be provided with at least two hydraulic lines (1), one end of every described hydraulic line (1) is connected with the conversion adapter (41) of the upper female joint (4) of one of them female joint terminal (2), this hydraulic line (1) the other end is connected with the conversion adapter (41) of the upper female joint (4) of another female joint terminal (2).

2. hydraulic pressure jumper according to claim 1, it is characterized in that: described female joint mounting plate (3) rear end is connected with cross-over connection terminal framework (7), this cross-over connection terminal framework (7) is tilted to lower setting, the two end part of described hydraulic line (1) are arranged on this cross-over connection terminal framework (7), these cross-over connection terminal framework (7) both sides are vertically provided with pipeline protection plate (11), this cross-over connection terminal framework (7) upper end is connected with described female joint mounting plate (3) ear end face, this cross-over connection terminal framework (7) lower end is provided with banded penstock (12) and cross-over connection pressing plate (13), this banded penstock (12) is waled described hydraulic line (1), described cross-over connection pressing plate (13) is pressed on banded penstock (12) on cross-over connection terminal framework (7), this cross-over connection terminal framework (7) upper lateral is provided with pipeline pressing plate (14), this pipeline pressing plate (14) is fixed described hydraulic line (1) terminal part.

3. hydraulic pressure jumper according to claim 2, it is characterized in that: described female joint mounting plate (3) vertically arranges, described female joint (4), director element (5) and locking device (6) level are arranged on this female joint mounting plate (3), described director element (5) comprises and is opened in dominating to screw jack (51) and secondary guide blot jack (52) on described female joint mounting plate (3), this is dominated to screw jack (51) and is arranged on female joint mounting plate (3) top, this is dominated in screw jack (51) and is provided with guide thimble (53), this guide thimble (53) is connected with described female joint mounting plate (3), described secondary guide blot jack (52) is two, and lay respectively at described female joint mounting plate (3) both sides, bottom.

4. hydraulic pressure jumper according to claim 3, it is characterized in that: described locking device (6) is cylindrical-shaped structure, this locking device (6) is located in the center hole that described female joint mounting plate (3) offers, and can in this center hole, rotate, the front end of this locking device (6) offers screw (61), described locking device (6) rear end is provided with ROV and reverses interface (62), on this locking device (6) outer wall, be provided with a circle positive stop lug boss (63), this positive stop lug boss (63) front end is against on described female joint mounting plate (3) ear end face, when described tool joint pin terminal is connected with female joint terminal (2), ROV reverses interface (62) rotary locking device (6) by ROV, described locking device (6) is enclosed within on the locking element of tool joint pin terminal by screw (61), described positive stop lug boss (63) will clamp between female joint mounting plate (3) and tool joint pin terminal.

5. hydraulic pressure jumper according to claim 4, it is characterized in that: described locking device (6) rear sleeve is equipped with surface support plate (16) and ROV operation bucket (15), this surface support plate (16) is positioned at ROV operation bucket (15) suit the place ahead, the opening end of described ROV operation bucket (15) backwards, the bottom of this ROV operation bucket (15) is connected by nut bolt with described surface support plate (16), described ROV torsion interface (62) stretches in the cavity of this ROV operation bucket (15), is connected with lifting handle (10) on described surface support plate (16).

6. hydraulic pressure jumper according to claim 5, it is characterized in that: described female joint (4) comprises conversion adapter (41) and the connecting sleeve (42) being connected with this conversion adapter (41) front sealing, this female joint (4) level is located on described female joint mounting plate (43), described connecting sleeve (42) stretches out the front-end face of female joint mounting plate (3), conversion adapter (41) stretches out the ear end face of female joint mounting plate (3), described conversion adapter (41) and connecting sleeve (42) all offer fluid passage vertically, in the joint of described conversion adapter (41) and connecting sleeve (42), form the valve pocket of hollow, this valve pocket is communicated with the fluid passage of conversion adapter (41) and connecting sleeve (42), in described valve pocket, be provided with valve seat (44), valve rod (43) and spring (45), described valve seat (44) is arranged on valve pocket inwall, described valve rod (43) is axially set in valve pocket along conversion adapter (41), this valve rod (43) front end is towards connecting sleeve (42), rear end is towards described valve seat (44), this valve rod (43) front portion is the sleeve pipe (431) of hollow, described sleeve pipe (431) sidewall offers pod apertures (432), this sleeve pipe (431) stretches in the fluid passage of connecting sleeve (42), between the fluid passage of described valve rod (43) and connecting sleeve (42), be provided with valve seal (48), this valve seal (48) is positioned at pod apertures (432) rear, on the valve rod (43) at this valve seal (48) rear, be provided with bounding means, described spring (45) one end is connected to this bounding means rear end, the other end is against valve seat (44) front end, described bounding means is pressed on valve seal (48) in valve pocket front inner wall, and limit valve rod (43) and travel forward, when described valve rod (43) front end is pushed up pressure, described spring (45) compression, the part that sleeve pipe (431) is provided with pod apertures (432) is retracted in valve pocket, described valve pocket is communicated with by pod apertures (432) with sleeve pipe (431) and two fluid passages.

7. hydraulic pressure jumper according to claim 6, it is characterized in that: described connecting sleeve (42) rear portion by thread jacket in described conversion adapter (41) front portion, between the inwall of this conversion adapter (41) front end and connecting sleeve (42) fluid passage, be provided with bump protection ring (418), on the fluid passage inwall at described connecting sleeve (42) rear portion, seal cartridge (49) is installed, sealing lining (49) rear end and conversion adapter (41) front end butt, and sealing lining (49) is provided with static sealing ring (419) with the joint of conversion adapter (41), described seal cartridge (49) front end is against on the step of connecting sleeve (42) fluid passage inwall setting, and be provided with main seal ring (417) between sealing lining (49) front end and connecting sleeve (42), this main seal ring (417) is arranged in seal cartridge (49) front inner wall, between the fluid passage inwall of sealing lining (49) outer wall and connecting sleeve (42), be provided with the first seal ring (414), the conical seal (contact) face that described seal cartridge (49) rear end is indent, in described conversion adapter (41) front end, offer pre-large post-small drum-shaped chamber, in the middle part of surrounding, sealing lining (49) and conversion adapter (41) on the fluid passage inwall of connecting sleeve (42), offer circular groove described in large described valve pocket small in ends, this circular groove is positioned at the place ahead of seal cartridge (49), and back-up ring (416) and the second seal ring (415) are installed in this circular groove, when not docking, spring (45) is pressed on this conical seal (contact) face valve seal (48).

8. hydraulic pressure jumper according to claim 7, it is characterized in that: described valve seat (44) is disc-shape, this valve seat (44) offers center hole, on this center hole valve seat (44) around, offer through hole, on the sidewall at described valve pocket rear portion, be provided with ring-shaped step (411), this valve seat (44) rear end is against on this ring-shaped step (411), valve rod (43) rear end is located in the center hole of valve seat (44), outer valve rod (43) rear portion that is enclosed within of spring (45), this spring (45) one end is against valve seat (44) front end, the other end is against bounding means rear end, described bounding means comprises and is arranged on the annular stop boss (47) on the outer wall of valve rod (43) middle part and is enclosed within the valve gap (46) on this annular stop boss (47) outward, this valve gap (46) front inner wall is connected with annular stop boss (47) outer wall thread, described spring (45) one end is against this annular stop boss (47) rear end, the other end is against valve seat (44) front end, valve gap (46) rear portion covers described spring (45) front portion, and gapped between this valve gap (46) rear end and valve seat (44), described valve seal (48) is arranged on valve gap (46) front end.

9. a test installation method for hydraulic pressure jumper according to claim 8, is characterized in that: comprise the following steps:

S1, female joint terminal (2) is carried out to leak-testing: the female joint of female joint terminal (2) (4) is connected with high-voltage testing equipment by pipeline, carries out leak-testing;

S2, hydraulic pressure jumper has been assembled on the coast, two female joint terminals (2) of described hydraulic pressure jumper have been rinsed to tool joint pin terminal with test respectively and be connected, female joint terminal (2) has been rinsed;

S3, the hydraulic pressure jumper that reaches testing standard is ready to, in two female joint terminals (2) of hydraulic pressure jumper, puts protective cover;

S4, by two lifting handles (10) hydraulic pressure jumper is transferred under water, transfer to specified position;

S5, by ROV, operated, take down protective cover, two female joint terminals (2) are mounted to respectively on underwater installation and have been fixed in good and sound tool joint pin terminal.

10. the test of hydraulic pressure jumper according to claim 9, installation method; it is characterized in that: in described step S5; by ROV, operated, take down protective cover, two female joint terminals (2) are mounted to respectively on underwater installation and have fixed in good and sound tool joint pin terminal and comprised the following steps:

A, by ROV, operated, take down protective cover, by female joint mounting plate (3) to tool joint pin fast mobile terminal, dominating to screw jack (51) and secondary guide blot jack (52) on female joint mounting plate (3) is enclosed within respectively on the main guide blot and secondary guide blot of tool joint pin terminal setting, and the connecting sleeve (42) of female joint (4) is docked and connected with tool joint pin;

B, by ROV, operated, by ROV, reverse interface (62) rotary locking device (6), the screw (61) of locking device (6) front end is enclosed within on the locking element of tool joint pin, positive stop lug boss (63) front end is against female joint mounting plate (3) ear end face, to between female joint mounting plate (3) tool joint pin terminal, clamp, complete docking of hydraulic pressure jumper and tool joint pin terminal;

Wherein, when hydraulic line (1) is length while being less than the flexible pipe of 30 meters, its installation method is as follows:

Preparatory work: 1), hydraulic pressure jumper first end is recycled to block piece, and fixed;

2), reclaim hydraulic pressure jumper the second end;

3), spreader bar is installed, is disposed rigging deployment underwater:, and it is connected with hydraulic pressure jumper;

Install: 4), hydraulic pressure jumper is deployed to relevant position under water;

5), use first female joint terminal (2) location that ROV is hydraulic pressure jumper, be mounted to first tool joint pin terminal;

6), use another female joint terminal (2) location that ROV is hydraulic pressure jumper, be mounted to another tool joint pin terminal;

When hydraulic line (1) is greater than the flexible pipe of 30 meters for length, its installation method is as follows:

Preparatory work: 1), at hydraulic pressure jumper first end, rigging and spreader bar are installed;

2), transfer hydraulic pressure jumper first end under water, until the second end stretches out from cylinder deployment underwater:;

3), inhibition winch is connected with hydraulic pressure jumper the second end;

4), continue to transfer hydraulic pressure jumper first end, the second end is placed in to stretcher top;

5), at the second end of hydraulic pressure jumper, rigging and spreader bar are installed;

6), carry out sealing test;

Install: 7), hydraulic pressure jumper first end is deployed to relevant position under water;

8), use female joint terminal (2) location that ROV is first end, be mounted to first tool joint pin terminal;

9), the second end of hydraulic pressure jumper is deployed to relevant position under water;

10), to use ROV be female joint terminal (2) location of the second end, is mounted to another tool joint pin terminal.

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