CN110031165A - Simulate two-tube interference dynamic response experimental provision under uniform flow effect - Google Patents

Abstract

The present invention provides a kind of experimental provisions of two-tube interference dynamic response under simulation uniform flow effect, include top movements module, pretension adjustment module, two-tube relative position adjustment module, riser end adjustment module, deep sea vertical pipe group module measure analysis module, bottom motion module.Top movements module is fixed on horizontal trailer, is connect in vertical direction with pretension adjustment module.Deep sea vertical pipe module both ends are sequentially connected riser end adjustment module, two-tube relative position adjustment module, and the two-tube relative position adjustment module in bottom end is connect with bottom motion module.Measurement analysis module is fixed on the support frame of top movements module, and bottom motion module is fixed on the lifting vacation bottom in pond.The configuration of the present invention is simple, operating condition changes quick and convenient in experimentation, and flexibility is high, and operation is simple, measurement precisely, can the double standpipes of real simulation be placed in uniform flow field environment, and then analyze the two-tube interference vortex-induced vibration of uniform flow and respond.

Description

Simulate two-tube interference dynamic response experimental provision under uniform flow effect

Technical field

The present invention relates to field of ocean engineering, under specifically a kind of simulation uniform flow effect, what two standpipes formed The experimental provision of dynamic response of two-tube interference under the influence of interference effect.

Background technique

Offshore Platform such as oil exploration platform, work standpipe are long fine flexible structure, can be produced under ocean current effect Raw vortex-induced vibration, structural fatigue caused by vibrating or possible resonance are other than it can accelerate the aging of device work, serious meeting The safety of marine structure is caused greatly to threaten.

For Offshore Platform, work standpipe often more than one, such as the four columns of semi-submerged platform, with And numerous tension legs of tension leg platform (TLP), accordingly, there exist interfere with each other between work standpipe.Due to mutual dry between standpipe It relates to, the vortex-induced vibration mechanism and phenomenon of two root canals are more complicated for single pipe.From domestic and international researcher to such From the point of view of the research of phenomenon, experimental study is the effective form verified to theoretical prediction model.

Currently, relatively fewer to the experimental study of two-tube interference, and experimental provision is generally existing following insufficient: (1) by In the complexity of experimental provision, two-tube interference related experiment is seldom；(2) operating condition is very single with respect to for actual conditions, cannot Preferably the vortex-induced vibration of the work standpipe in actual conditions is precisely predicted；(3) standpipe strain measurement error is larger leads Subsequent arithmetic is caused relatively large deviation occur.

Summary of the invention

For the defects in the prior art, the object of the present invention is to provide two-tube interference under a kind of effect of simulation uniform flow is dynamic Force-responsive experimental provision.

Two-tube interference dynamic response experimental provision under a kind of simulation uniform flow effect provided according to the present invention, including top Motion module, pretension adjustment module, two-tube interference system measure analysis module, bottom motion module；

The top of top movements module, top movements module and the one of pretension adjustment module is arranged in measurement analysis module End connects in vertical direction, and position of the pretension adjustment module on top movements module level direction can be adjusted；

The other end of pretension adjustment module is connect with the upper end of two-tube interference system, the lower end of two-tube interference system It is connect with bottom motion module；

Measuring analysis module includes data collection processor, Uniform Movement controller, and the Uniform Movement controller makes Two-tube interference system uniform motion in the horizontal direction, and top movements module is synchronous with the movement of bottom motion module, it is two-tube dry It is vertical with the holding of bottom motion module to relate to system, the data collection processor can acquire two-tube interference system exercise data.

Preferably, two-tube interference system includes two-tube relative position adjustment module, riser end adjustment module, deep sea vertical pipe Group module；

Deep sea vertical pipe group module is made of two standpipes, and the both ends of every standpipe are separately connected a riser end and adjust mould Block, the lower section of two-tube relative position adjustment module is arranged in the riser end adjustment module connecting with standpipe upper end, under standpipe The top of two-tube relative position adjustment module is arranged in the riser end adjustment module of end connection.

Preferably, two-tube relative position adjustment module includes two-tube position adjustable plate, supervisor's connecting flange device, looped pipeline company Acting flange device, center flange device, nut；

Supervisor's connecting flange device, looped pipeline connecting flange device are connected with a corresponding standpipe respectively；

Two-tube position adjustable plate is connected by center flange device with pretension adjustment module, on two-tube position adjustable plate It is provided with looped pipeline shifting chute, looped pipeline connecting flange device is fixed in the looped pipeline shifting chute by nut, two-tube to adjust Spacing.

Preferably, riser end adjustment module includes three component instrument sensors, riser end fixture, universal joint and screw；

The fixing end of universal joint is connect with riser end fixture, one end of the movable end of universal joint and three component instrument sensors The other end of connection, three component instrument sensors is connected with supervisor's connecting flange device or looped pipeline connecting flange device, three component The data of instrument sensor are acquired by data collection processor；

Riser end fixture clamps standpipe, and screw can adjust standpipe by connecting with the threaded hole of riser end fixture Clamped degree.

Preferably, the surface of standpipe is evenly arranged with fibre optical sensor, and fibre optical sensor can measure the movement of standpipe, light The data of fiber sensor are acquired by data collection processor.

Preferably, top movements module include guide chain, it is support frame, top horizontal sliding rail, top horizontal sliding block, vertical Sliding rail, Power Component, upright slide block, radome fairing；

Measurement analysis module is connect with support frame, and the top of top horizontal sliding rail is arranged in support frame；

Top horizontal sliding rail is connect with guide chain；

Guide chain drives top horizontal sliding block to move on top horizontal sliding rail by Power Component, top horizontal sliding block It is connect with radome fairing；

Power Component is driven by Uniform Movement controller；

Vertical sliding track is arranged on radome fairing, and upright slide block can slide in vertical sliding track.

Preferably, pretension adjustment module includes end coupling, stretcher fixed plate and pressure spring tension assembly；

One end of end coupling is connect with upright slide block, and the other end of end coupling is connected with stretcher fixed plate It connects, pressure spring tension assembly can adjust the motion tension of two-tube interference system.

Preferably, bottom motion module includes bottom level sliding rail, bottom level sliding block, bottom Power Component, vacation Bottom；

Bottom level sliding rail is arranged on false bottom, and bottom level sliding rail is parallel with top horizontal sliding rail, Bottom Power Component drives bottom level sliding block to slide on bottom level sliding rail, the direction of motion of bottom level sliding block, Rate is identical as top horizontal sliding block；

Bottom level sliding block is connected with riser end adjustment module, and bottom Power Component is driven by Uniform Movement controller It is dynamic.

Compared with prior art, the present invention have it is following the utility model has the advantages that

1, the operating condition quantity that the present invention includes is more, great representativeness, and standpipe used is real work standpipe reduced scale, The vortex-induced vibration response condition of the work standpipe in real work can more be simulated；

2, the present invention more simplifies, convenient disassembly relative to other same devices, and operating condition conversion is easy, this is compared to other It is a huge progress for test device；

3, flexibility of the present invention is high, by the cooperation of pretension adjustment module and three component instrument sensors, it can be achieved that opposition Pipe pretension being precisely controlled and adjusting, can be adjusted according to actual condition.

Detailed description of the invention

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention, Objects and advantages will become more apparent upon:

Fig. 1 is the structural schematic diagram of experimental provision provided by the invention；

Fig. 2 is the top structure figure of experimental provision provided by the invention；

Fig. 3 is the chart at the bottom of of experimental provision provided by the invention；

Fig. 4 is the structural schematic diagram of top movements module provided by the invention；

Fig. 5 is the structural schematic diagram of pretension adjustment module provided by the invention；

Fig. 6 is the structural schematic diagram of two-tube relative position adjustment module provided by the invention；

Fig. 7 is the side view of two-tube relative position adjustment module provided by the invention；

Fig. 8 is the structural schematic diagram of riser end adjustment module provided by the invention；

Fig. 9 is the scheme of installation of riser end provided by the invention；

Figure 10 is the structural schematic diagram of bottom motion module provided by the invention；

Figure 11 is the structural schematic diagram of deep sea vertical pipe provided by the invention.

It is shown in figure:

Specific embodiment

The present invention is described in detail combined with specific embodiments below.Following embodiment will be helpful to the technology of this field Personnel further understand the present invention, but the invention is not limited in any way.It should be pointed out that the ordinary skill of this field For personnel, without departing from the inventive concept of the premise, several changes and improvements can also be made.These belong to the present invention Protection scope.

The present invention provides two-tube under a kind of simulation uniform flow acts on do for deficiency existing for above-mentioned existing experimental provision Relate to dynamic response experimental provision.Can simulate under uniform flow effect it is two-tube interfere under the conditions of vortex-induced vibration, and study it Response characteristic.With closing to reality situation, operating condition cover it is wide, the advantages that device convenient disassembly, save the cost.

Two-tube interference dynamic response experimental provision under a kind of simulation uniform flow effect provided according to the present invention, including top Motion module 1, pretension adjustment module 2, two-tube interference system measure analysis module 7, bottom motion module 6；

The top of top movements module 1, top movements module 1 and pretension adjustment module 2 is arranged in measurement analysis module 7 One end connect in vertical direction, and position of the pretension adjustment module 2 in 1 horizontal direction of top movements module can adjust Section；

The other end of pretension adjustment module 2 is connect with the upper end of two-tube interference system, the lower end of two-tube interference system Portion is connect with bottom motion module 6；

Measuring analysis module 7 includes data collection processor, Uniform Movement controller, and the Uniform Movement controller makes Two-tube interference system uniform motion in the horizontal direction, and top movements module 1 is synchronous with the movement of bottom motion module 6, it is two-tube Interference system keeps vertical with bottom motion module 6, and the data collection processor can acquire two-tube interference system movement number According to.

Specifically, two-tube interference system includes that two-tube relative position adjustment module 3, riser end adjustment module 4, deep-sea are vertical Pipe group module 5；

Deep sea vertical pipe group module 5 is made of two standpipes 35, and the both ends of every standpipe are separately connected a riser end tune Module 4 is saved, the lower section of two-tube relative position adjustment module 3 is arranged in the riser end adjustment module 4 connecting with 35 upper end of standpipe, The top of two-tube relative position adjustment module 3 is arranged in the riser end adjustment module 4 connecting with 35 lower end of standpipe.

Specifically, two-tube relative position adjustment module 3 include two-tube position adjustable plate 19, supervisor connecting flange device 21, Looped pipeline connecting flange device 22, center flange device 23, nut 24；

Supervisor's connecting flange device 21, looped pipeline connecting flange device 22 are connected with a corresponding standpipe 35 respectively；

Two-tube position adjustable plate 19 is connected by center flange device 23 with pretension adjustment module 2, two-tube position tune Looped pipeline shifting chute 20 is provided on section plate 19, looped pipeline connecting flange device 22 is fixed on the looped pipeline shifting chute by nut 24 In 20, to adjust two-tube spacing.

Specifically, riser end adjustment module 4 includes three component instrument sensors 26, riser end fixture 27, universal joint 28 With screw 25；

The fixing end of universal joint 28 is connect with riser end fixture 27, the movable end of universal joint 28 and three component instrument sensors 26 one end connection, the other end and supervisor's connecting flange device 21 or looped pipeline connecting flange device 22 of three component instrument sensors 26 It is connected, the data of three component instrument sensors 26 are acquired by data collection processor；

Riser end fixture 27 clamps standpipe 35, and screw 25, can by connecting with the threaded hole of riser end fixture 27 Adjust the clamped degree of standpipe 35.

Specifically, the surface of standpipe 35 is evenly arranged with fibre optical sensor 36, and fibre optical sensor 36 can measure standpipe 35 Movement, the data of fibre optical sensor 36 acquire by data collection processor.

Specifically, top movements module 1 includes guide chain 8, support frame 9, top horizontal sliding rail 10, top horizontal sliding block 11, vertical sliding track 12, Power Component 13, upright slide block 14, radome fairing 15；

Measurement analysis module 7 is connect with support frame 9, and the top of top horizontal sliding rail 10 is arranged in support frame 9；

Top horizontal sliding rail 10 is connect with guide chain 8；

Guide chain 8 drives top horizontal sliding block 11 to move on top horizontal sliding rail 10 by Power Component 13, top Horizontal slider 11 is connect with radome fairing 15；

Power Component 13 is driven by Uniform Movement controller；

Vertical sliding track 12 is arranged on radome fairing 15, and upright slide block 14 can slide in vertical sliding track 12, To adjust two-tube interference system in the relative position of vertical direction.

Specifically, pretension adjustment module 2 includes end coupling 16, stretcher fixed plate 17 and pressure spring tension assembly 18；

One end of end coupling 16 is connect with upright slide block 14, the other end and stretcher fixed plate of end coupling 16 17 are connected, and pressure spring tension assembly 18 can adjust the motion tension of two-tube interference system, carry out subtle tune to standpipe pretension Section.

Specifically, bottom motion module 6 includes bottom level sliding rail 31, bottom level sliding block 30, bottom power packages Part 29, false bottom 32；

Bottom level sliding rail 31 is arranged on false bottom 32, bottom level sliding rail 31 and top horizontal sliding rail 10 is parallel, and bottom Power Component 29 drives bottom level sliding block 30 to slide on bottom level sliding rail 31, and bottom water is smooth The direction of motion, the rate of block 30 are identical as top horizontal sliding block 11；

Bottom level sliding block 30 is connected with riser end adjustment module 4, and bottom Power Component 29 is controlled by Uniform Movement Device driving.

Preference of the invention is further elaborated below in conjunction with attached drawing.

As shown in figs. 1-11, the embodiment of the invention provides two-tube interference dynamic response under a kind of effect of simulation uniform flow is real Experiment device includes top movements module 1, pretension adjustment module 2, two-tube relative position adjustment module 3, riser end adjusting mould Block 4, deep sea vertical pipe group module 5 measure analysis module 7, bottom motion module 6.

The measurement analysis module 7 is fixed in top movements module 1 by support frame 9, the top horizontal sliding Track 10 is connect with guide chain 8, and guide chain 8 drives top horizontal sliding block 11 sliding on horizontal sliding rail 10 by Power Component 13 Dynamic, top horizontal sliding block 11 and radome fairing 15 are affixed, and vertical sliding track 12 is fixed on radome fairing 15, and upright slide block 14 can be with It is slided in vertical sliding track 12.

The pretension adjustment module 2 includes end coupling 16, stretcher fixed plate 17 and pressure spring tension assembly 18.End Portion's connector 16 and upright slide block 14 are fixed, and module bottom is solid by top link 33 and two-tube relative position adjustment module 3 It is fixed.

The two-tube relative position adjustment module 3 includes two-tube position adjustable plate 19, supervisor connecting flange device 21, looped pipeline Connecting flange device 22, center flange device 23 and nut 24.The center flange device 23 at two-tube interference system both ends respectively with Top link 33 and bottom linker 34 are fixed, and fixed with two-tube position adjustable plate 19.It is responsible for connecting flange device 21 Fixed with nut 24 with two-tube 19 center of position adjustable plate, looped pipeline connecting flange device 22 is fixed on plate 19 by nut 24 In looped pipeline shifting chute 20.

The riser end adjustment module 4 includes three component instrument sensors 26, riser end fixture 27, universal joint 28 and spiral shell Silk 25.The three component instrument sensor 26 is connect with supervisor's connecting flange device of two-tube relative position adjustment module 3 and looped pipeline Flange apparatus is fixed, and the riser end fixture 27 is used for the fixation of 5 neutral tube 35 of deep sea vertical pipe group module.

The deep sea vertical pipe group module 5 is made of more standpipes 35 and its surface fibre optical sensor 36, fibre optical sensor 36 It is evenly arranged on each deep sea vertical pipe 35.Standpipe upper and lower side and riser end fixture 27 are fixed by screw 25.

The measurement analysis module 7 includes: data collection processor, motion controller and display.Wherein: described Data collection processor is used to acquire the data of each three component instrument sensor 26 of two-tube interference system, fibre optical sensor, described Kinetic control system is used to control the movement of Power Component 13 and bottom Power Component 29, and the display is used for real-time monitoring Experimental result.

The bottom motion module 6 includes: bottom level sliding rail 31, bottom level sliding block 30, bottom Power Component 29 and small false bottom 32.The bottom level sliding rail 30 is parallel with top horizontal sliding rail 10, and the bottom water is smooth Block 30 and bottom linker 34 are fixed.

This specific implementation working principle: before experiment, fiber-optic grating sensor being evenly arranged in deep sea vertical pipe group module, The both ends of standpipe are sequentially connected riser end adjustment module, two-tube relative position adjustment module.At the top of two-tube interference system and in advance Tension adjustment module, top movements module are affixed, and bottom is connected with bottom motion module., when test, by the lifting at false bottom Specified form is presented so that riser model reaches specified position with the movement of trailer, mould is adjusted by two-tube relative position Block adjusts standpipe spacing, controls motor by the computer in measurement analysis module, so that standpipe moves with uniform velocity in the horizontal direction, The movement of standpipe is recorded by high-speed camera, is strained by fiber sensor measuring, and data are transmitted to computer and are post-processed.

In experiment, due to the effect of the devices such as radome fairing, influence of the experimental provision in addition to standpipe to water flow is weakened, is protected The precision and accuracy of experiment are demonstrate,proved.

In the description of the present application, it is to be understood that term " on ", "front", "rear", "left", "right", " is erected at "lower" Directly ", the orientation or positional relationship of the instructions such as "horizontal", "top", "bottom", "inner", "outside" is orientation based on the figure or position Relationship is set, description the application is merely for convenience of and simplifies description, rather than the device or element of indication or suggestion meaning are necessary It with specific orientation, is constructed and operated in a specific orientation, therefore should not be understood as the limitation to the application.

Specific embodiments of the present invention are described above.It is to be appreciated that the invention is not limited to above-mentioned Particular implementation, those skilled in the art can make a variety of changes or modify within the scope of the claims, this not shadow Ring substantive content of the invention.In the absence of conflict, the feature in embodiments herein and embodiment can any phase Mutually combination.

Claims (8)

1. two-tube interference dynamic response experimental provision under a kind of simulation uniform flow effect, which is characterized in that including top movements mould Block (1), pretension adjustment module (2), two-tube interference system measure analysis module (7), bottom motion module (6)；

It measures analysis module (7) setting and adjusts mould in the top of top movements module (1), top movements module (1) and pretension One end of block (2) connects in vertical direction, and position of the pretension adjustment module (2) in top movements module (1) horizontal direction Setting can be adjusted；

The other end of pretension adjustment module (2) is connect with the upper end of two-tube interference system, the lower end of two-tube interference system It is connect with bottom motion module (6)；

Measurement analysis module (7) includes data collection processor, Uniform Movement controller, and the Uniform Movement controller makes double Pipe interference system uniform motion in the horizontal direction, and top movements module (1) is synchronous with the movement of bottom motion module (6), it is double Pipe interference system is vertical with bottom motion module (6) holding, and the data collection processor can acquire two-tube interference system fortune Dynamic data.

2. two-tube interference dynamic response experimental provision under simulation uniform flow effect according to claim 1, which is characterized in that Two-tube interference system includes two-tube relative position adjustment module (3), riser end adjustment module (4), deep sea vertical pipe group module (5)；

Deep sea vertical pipe group module (5) You Lianggen standpipe (35) composition, the both ends of every standpipe are separately connected a riser end tune It saves module (4), the riser end adjustment module (4) connecting with standpipe (35) upper end is arranged in two-tube relative position adjustment module (3) lower section, the riser end adjustment module (4) connecting with standpipe (35) lower end are arranged in two-tube relative position adjustment module (3) top.

3. two-tube interference dynamic response experimental provision under simulation uniform flow effect according to claim 2, which is characterized in that Two-tube relative position adjustment module (3) includes two-tube position adjustable plate (19), supervisor connecting flange device (21), looped pipeline connection method Blue device (22), center flange device (23), nut (24)；

Supervisor connecting flange device (21), looped pipeline connecting flange device (22) are connected with a corresponding standpipe (35) respectively；

Two-tube position adjustable plate (19) is connected by center flange device (23) with pretension adjustment module (2), two-tube position It is provided on adjustable plate (19) looped pipeline shifting chute (20), looped pipeline connecting flange device (22) is fixed on described by nut (24) In looped pipeline shifting chute (20), to adjust two-tube spacing.

4. two-tube interference dynamic response experimental provision under simulation uniform flow effect according to claim 2, which is characterized in that Riser end adjustment module (4) includes three component instrument sensors (26), riser end fixture (27), universal joint (28) and screw (25)；

The fixing end of universal joint (28) is connect with riser end fixture (27), and the movable end of universal joint (28) and three component instrument sense One end of device (26) connects, the other end and supervisor connecting flange device (21) or the looped pipeline connection method of three component instrument sensors (26) Blue device (22) is connected, and the data of three component instrument sensors (26) are acquired by data collection processor；

Riser end fixture (27) clamp standpipe (35), screw (25) by being connect with the threaded hole of riser end fixture (27), The clamped degree of standpipe (35) can be adjusted.

5. two-tube interference dynamic response experimental provision under simulation uniform flow effect according to claim 2, which is characterized in that The surface of standpipe (35) is evenly arranged with fibre optical sensor (36), and fibre optical sensor (36) can measure the movement of standpipe (35), The data of fibre optical sensor (36) are acquired by data collection processor.

6. two-tube interference dynamic response experimental provision under simulation uniform flow effect according to claim 1, which is characterized in that Top movements module (1) includes guide chain (8), support frame (9), top horizontal sliding rail (10), top horizontal sliding block (11), erects Straight sliding rail (12), Power Component (13), upright slide block (14), radome fairing (15)；

Measurement analysis module (7) is connect with support frame (9), and support frame (9) is arranged in the top of top horizontal sliding rail (10)；

Top horizontal sliding rail (10) is connect with guide chain (8)；

Guide chain (8) drives top horizontal sliding block (11) to move on top horizontal sliding rail (10) by Power Component (13), Top horizontal sliding block (11) is connect with radome fairing (15)；

Power Component (13) is driven by Uniform Movement controller；

Vertical sliding track (12) is arranged on radome fairing (15), and upright slide block (14) can be slided on vertical sliding track (12) It is dynamic.

7. two-tube interference dynamic response experimental provision under simulation uniform flow effect according to claim 7, which is characterized in that Pretension adjustment module (2) includes end coupling (16), stretcher fixed plate (17) and pressure spring tension assembly (18)；

One end of end coupling (16) is connect with upright slide block (14), and the other end of end coupling (16) is fixed with stretcher Plate (17) is connected, and pressure spring tension assembly (18) can adjust the motion tension of two-tube interference system.

8. two-tube interference dynamic response experimental provision under simulation uniform flow effect according to claim 7, which is characterized in that Bottom motion module (6) includes bottom level sliding rail (31), bottom level sliding block (30), bottom Power Component (29), vacation Bottom (32)；

Bottom level sliding rail (31) is arranged on false bottom (32), and bottom level sliding rail (31) and top horizontal slide rail In parallel, bottom Power Component (29) drives bottom level sliding block (30) to slide on bottom level sliding rail (31) in road (10), The direction of motion, the rate of bottom level sliding block (30) are identical as top horizontal sliding block (11)；

Bottom level sliding block (30) is connected with riser end adjustment module (4), and bottom Power Component (29) is by Uniform Movement control Device driving processed.