CN205801465U - A kind of device for the umbilical cables being connected on underwater robot is freed - Google Patents
A kind of device for the umbilical cables being connected on underwater robot is freed Download PDFInfo
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- CN205801465U CN205801465U CN201620693346.9U CN201620693346U CN205801465U CN 205801465 U CN205801465 U CN 205801465U CN 201620693346 U CN201620693346 U CN 201620693346U CN 205801465 U CN205801465 U CN 205801465U
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- cable
- drive mechanism
- motor drive
- optical fiber
- underwater robot
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Abstract
This utility model discloses a kind of device for the umbilical cables being connected on underwater robot being freed, include buoyancy aid, feed cable, communication optical fiber memorizer, buoyancy aid fixed plate, fixed installation plate, umbilical cables, cable grip and pull out cable motor drive mechanism and release motor drive mechanism, pull out the connection of cable motor drive mechanism one end and pull out cable motor drive mechanism cable, pull out cable motor drive mechanism cable and connect underwater robot electronic compartment;Release motor drive mechanism one end Connection Release motor drive mechanism cable, release motor drive mechanism cable connects underwater robot electronic compartment;Feed cable one end connects rosette by weather proof receptacle, and the other end connects underwater robot electric compartment by weather proof receptacle;The communication optical fiber withdrawal end of communication optical fiber memorizer is connected with rosette;The fixing end of communication optical fiber connects underwater robot electronic compartment;Setting cable grip in umbilical cables, cable grip is connected with buoyancy aid fixed plate.This device ideal application power station aqueduct detect in while the most greatly ensure underwater robot make a return voyage safely.
Description
Technical field
This utility model relate to a kind of device, a kind of the umbilical cables being connected on underwater robot is freed
Device.
Background technology
Underwater robot hydroelectric power plant apply in hydraulic structures such as power plant's dam, aqueduct, intake-outlet gates
When detecting with water conservancy project equipment, possess remotely control and signal transmission capabilities have cable underwater robot ROV (Remote
Operated Vehicle) it is that one preferably selects pattern, when the vertical cross sections such as inclined shaft, vertical shaft, surge shaft are checked by it, energy
Real-time monitored duct wall facial cleft seam and the length of submarine target, width and relative position, it is simple to the problem found in follow-up dimension
Protect the solution that maintenance overhaul proposes more to optimize.
But under hydroelectric power plant's environment, particularly in diversion culvert, working environment is the narrowest and small, during long distance work,
Owing to working environment exists more foreign body, it is possible that the serious winding of umbilical cables, umbilical cables is caused to solve voluntarily
De-, cause the underwater robot of ROV mode of operation to be limited by umbilical cables and will be unable to make a return voyage, in this case, underwater
People can affranchise and return the water surface is most important.
Summary of the invention
For above-mentioned problems of the prior art, this utility model provides a kind of and will be connected on underwater robot
The device that umbilical cables is freed.This device is novel in design, simple to operate, can the advantage of ROV and AUV mode of operation be given full play to,
Before umbilical cables release, underwater robot is operated in ROV pattern, and after umbilical cables release, underwater robot can be operated in self-powered
AUV pattern, ensures the safety of underwater robot the most greatly while applying to greatest extent in power station aqueduct detects
Make a return voyage, be effectively guaranteed the reliability of underwater operation.
For realizing above-mentioned goal of the invention, this utility model is real by using following design structure and technical scheme
Existing:
A kind of device for the umbilical cables being connected on underwater robot being freed, this device includes buoyancy aid (1), electricity
Source power cable (2), communication optical fiber memorizer (3), buoyancy aid fixed plate (4), fixed installation plate (5), umbilical cables (6), cable grip (7)
And pulling out cable motor drive mechanism (8) and release motor drive mechanism (9), cable motor drive mechanism cable is pulled out in one end connection pulling out cable motor drive mechanism (8)
(23), pull out cable motor drive mechanism cable (23) and connect underwater robot electronic compartment (36);One end of release motor drive mechanism (9) connects releases
Putting motor drive mechanism cable (16), release motor drive mechanism cable (16) connects underwater robot electronic compartment (36);Feed cable (2)
One end connects rosette (10) by weather proof receptacle, and the other end of feed cable (2) connects underwater robot by weather proof receptacle
Electric compartment (35);Communication optical fiber (28) withdrawal end in communication optical fiber memorizer (3) is connected with rosette (10);Communication optical fiber
(28) fixing end connects underwater robot electronic compartment (36);Umbilical cables (6) is provided with cable grip (7), and cable grip (7) is with floating
Body fixed plate (4) is fixing to be connected.A kind of the umbilical cables being connected on underwater robot freed as this utility model is above-mentioned
The improvement of device, described buoyancy aid fixed plate (4) is arranged over rosette (10), and it is solid that rosette (10) is arranged on buoyancy aid by screw
Determining on plate (4), the input of rosette (10) installs umbilical cables (6) by gland nut, and the outfan of rosette (10) connects
Feed cable (2) and communication optical fiber (28).
As the above-mentioned improvement of this utility model, it is additionally provided with two alignment pins (11) in buoyancy aid fixed plate (4) bottom;Two fixed
Position pin (11) is threadably secured to buoyancy aid installing plate (4) bottom, fixed installation plate (5) is provided with fixed mounted seat (12) and
Locking mounting seat (13), fixed mounted seat (12) and locking mounting seat (13) are arranged in fixed installation plate (5) by screw, floating
In body fixed plate (4) is nested into fixed mounted seat (12) hole by two alignment pins (11) and in the hole of locking mounting seat (13).
As the further improvement that this utility model is above-mentioned, it is all provided with in fixed mounted seat (12) and locking mounting seat (13)
Having spring to adjust screw rod (26), spring adjusts installs spring (25) on screw rod (26) outer shaft.
As the further improvement that this utility model is above-mentioned, described release motor drive mechanism (9) is by bearing pin and locking
Mounting seat (13) connects as one, and release motor drive mechanism (9) is upper installs the first screw mandrel (15), and the first screw mandrel (15) is arranged on release
On motor drive mechanism (9) axle and by holding screw spacing, the first screw mandrel (15) is installed locking pin (14), locking pin (14) endoporus
Being the feed screw nut supporting with the first screw mandrel (15), locking pin (14) outer shaft is installed after coordinating spacing with alignment pin (11) endoporus.
As the further improvement that this utility model is above-mentioned, described fixed installation plate (5) is upper installs four insulated columns
(27), two insulated columns (27) above are installed by screw and are pulled out cable motor drive mechanism installing plate (22), two insulated columns below
(27) installing communication optical fiber memorizer installing plate (24), communication optical fiber memorizer installing plate (24) is upper installs communication optical fiber memorizer
(3), the withdrawal end communication optical fiber (28) of communication optical fiber memorizer (3) is installed to rosette (10) by watertight communication optical fiber plug
Watertight fiber-optical socket on.
As the further improvement that this utility model is above-mentioned, pulling out on cable motor drive mechanism installing plate (22) by screw mandrel spiral shell
Female (19) are installed to fix and are pulled out cable installing plate (17), feed screw nut's location-plate (18) and motor mounting plate (20), motor mounting plate
(20) pull out cable motor drive mechanism (8) by four bearing pins are fixing on, pull out and the second screw mandrel (21) is installed on cable motor drive mechanism (8), second
Screw mandrel (21) is fixed on and pulls out on cable motor drive mechanism (8) axle and spacing by trip bolt;Pull out cable installing plate (17) to fix with bolt
On feed screw nut (19), feed screw nut (19) is fixedly connected on the second screw mandrel (21) through feed screw nut's location-plate (18).
Operation principle is: this kind of device for the umbilical cables being connected on underwater robot being freed, in this device
Umbilical cables (6) be the tie for connecting surface facilities and underwater robot, umbilical cables (6) initiating terminal sets for being placed on the water surface
Standby upper umbilical cables winch (31), the control signal of water surface control unit (33) is linked into umbilical cables by communication optical fiber (28) and twists
Car (31), power supply is input to water surface power supply unit (33) by electromotor (29), carries out boosting at water surface power supply unit (33) and is followed by
Enter to umbilical cables winch (31), final power supply and communication optical fiber (28) after the link case internal wiring of umbilical cables winch (31)
In being collectively incorporated into umbilical cables (6), the end of umbilical cables (6) is the input of rosette (10), the power supply in umbilical cables (6) and
Communication optical fiber (28) is split up into again independent power supply output and the signal of communication optical fiber (28) in rosette (10).
After the umbilical cables (6) of underwater robot is wound, first surface operations personnel are by the high voltage supply of umbilical cables (6)
Disconnect, be switched to underwater robot and use self-powered power supply mode, in now power supply just relies on underwater human body (34)
Internal battery supply;Then surface operations personnel control to pull out the electricity of cable motor drive mechanism (8) by the connection of communication optical fiber (28)
Machine rotates counterclockwise, and the rotary motion promotion of the second screw mandrel (21) is pulled out cable installing plate (17) and moved away from pulling out cable motor drive mechanism (8),
Meanwhile, the weather proof receptacle on feed cable (2) is pulled out cable installing plate (17) from the power supply watertight socket of rosette (10)
Extract, complete umbilical cables (6) power supply supply physical discontinuity, i.e. pull out cable motor drive mechanism (8) just complete by feed cable (2) from
Rosette is extracted in (10), and last feed cable (2) separates from rosette (10);
Then surface operations personnel are turned clockwise by the motor of control release motor drive mechanism (9) again, the first screw mandrel
(15) rotary motion makes locking pin (14) slowly extract in the hole of alignment pin (11), when locking pin (14) is from alignment pin (11)
Hole in extract completely after, the alignment pin (11) on buoyancy aid (1) is under the pretightning force effect of spring (25) and completely from location peace
Ejecting in the hole of dress seat (12) and locking mounting seat (13), buoyancy aid fixed plate (4) quickly drifts out under water under the positive buoyancy of self
Robot body (34), i.e. discharges motor drive mechanism (9) and just completes umbilical cables (6) and rosette 10 from underwater human body
(34) upper release, last umbilical cables (6) and rosette (10) discharge from underwater human body (34) completely;
After umbilical cables (6) and rosette (10) discharge from underwater human body (34) completely, the water surface the most still can not
Underwater human body (34) is powered, now in umbilical cables (6), still also has a communication optical fiber (28) to pass through wiring
Box (10), communication optical fiber memorizer (3) are connected with underwater human body (34);The water surface still can control in that case
Underwater human body (34) returns the water surface communication, the internal battery in now power supply also depends on underwater human body (34)
Supply, at this moment surface operations personnel are maked a return voyage by communication optical fiber (28) remotely control underwater human body (34), process of making a return voyage
In, communication optical fiber memorizer (3) will be automatically releasable communication optical fiber (28) and complete to make a return voyage underwater human body (34), return at this
During boat, communication optical fiber (28) length in communication optical fiber memorizer (3) is more than the length of umbilical cables (6), underwater
Human body (34), while going back, puts communication optical fiber (28), until it reaches underwater human body (34) enters at water, the completeest
Underwater human body (34) is become to be back to the work of the water surface.
This utility model compared with prior art provides the benefit that: the one that this utility model provides will be connected under water
The advantage of ROV and AUV mode of operation can be given full play to by the device that the umbilical cables in robot is freed, before umbilical cables release under water
Robot is operated in ROV pattern, and after umbilical cables release, underwater robot can be operated in self-powered AUV pattern, to machine under water
Device people is in power station aqueduct detects and ensures that the safety of underwater robot is maked a return voyage and played extremely important effect, it is achieved can
To also make while the transformation of underwater robot mode of operation underwater robot can normal safe be back to the water surface.
Accompanying drawing explanation
Below in conjunction with the accompanying drawings detailed description of the invention of the present utility model is described in further detail, wherein:
Fig. 1 is that buoyancy aid fixed plate (4) of the present utility model assembles the structure after socket with fixed installation (5) two parts of plate
Schematic diagram;
Fig. 2 be after feed cable (2) physics power-off from rosette (10) de-cable, rosette (10) be released after one
View;
Fig. 3 is the structure sectional view in Fig. 7 A-A direction, and two of which parts are the state diagrams after Fig. 1 assembles socket;
Fig. 4 is the partial enlarged drawing of A in Fig. 3;
Fig. 5 is the partial enlarged drawing of B in Fig. 3;
Fig. 6 is a kind of embodiment state diagram of the present utility model;
Fig. 7 is the top view of Fig. 3;
Fig. 8 is the workflow diagram in normal operation of ROV shown in Fig. 6;
Fig. 9 is the workflow diagram under umbilical cables takes off cable state of the ROV shown in Fig. 6;
Wherein, figure indicates: 1 buoyancy aid, 2 feed cables, 3 communication optical fiber memorizeies, 4 buoyancy aid fixed plates, 5
Fixed installation plate, 6 umbilical cables, 7 cable grips, 8 pull out cable motor drive mechanism, 9 release motor drive mechanisms, 10 rosettees,
11 alignment pins, 12 fixed mounted seats, 13 locking mounting seats, 14 locking pins, 15 first screw mandrels, 16 releases are electronic
Mechanism's cable, 17 pull out cable installing plate, 18 feed screw nut's location-plates, 19 feed screw nuts, 20 motor mounting plates, and 21
Two screw mandrels, 22 pull out cable motor drive mechanism installing plate, and 23 pull out cable motor drive mechanism cable, 24 communication optical fiber memorizer installing plates,
25 springs, 26 springs adjustment screw rods, 27 insulated columns, 28-communication optical fiber, 29 electromotors, 30 water surface power supply units,
31 umbilical cables winches, 32 water surface cables, 33 water surface control units, 34 underwater human bodies, 35 underwaters
People's electric compartment, 36 underwater robot electronic compartments.
Detailed description of the invention
Below in conjunction with the accompanying drawings and the technical solution of the utility model is further described in detail by embodiment.
This Figure of description is only rough schematic view of the present utility model, illustrates of the present utility model the most in a schematic manner
Basic structure.
As shown in Figure 1 to Figure 3, this kind of device for the umbilical cables being connected on underwater robot is freed, this dress
The de-cable motor drive mechanism put devises two set motor drive mechanisms, i.e. pulls out cable motor drive mechanism 8 and release motor drive mechanism 9, pulls out cable motor
Structure 8 and release motor drive mechanism 9 are waterproof pressure-endurable ballasting, install motor in compressive cabin, and pressure-resistant cabin is passed through in the rotary motion of motor
External screw mandrel movement executing mechanism is converted to linear motion, pulls out cable motor drive mechanism 8 and release motor drive mechanism 9 is stationarily connected to
On underwater human body, a set of motor drive mechanism is for pulling out cable motor drive mechanism 8, and execution promotion is pulled out cable installing plate 17 and extracted power supply electricity
Feed cable 2 is separated from rosette 10 by the weather proof receptacle on cable 2, and a set of motor drive mechanism is release motor drive mechanism 9, release electricity
Motivation structure 9 performs to extract locking pin 14, umbilical cables 6 and rosette 10 is discharged from underwater human body.
As shown in Figure 1 to Figure 3, a kind of device for the umbilical cables being connected on underwater robot is freed, this device
Include buoyancy aid 1, feed cable 2, communication optical fiber memorizer 3, buoyancy aid fixed plate 4, fixed installation plate 5, umbilical cables 6, cable system
Overlapping 7 and pull out cable motor drive mechanism 8 and release motor drive mechanism 9, cable motor drive mechanism cable 23 is pulled out in one end connection pulling out cable motor drive mechanism 8,
Pull out cable motor drive mechanism cable 23 and connect underwater robot electronic compartment 36;One end Connection Release motor drive mechanism of release motor drive mechanism 9
Cable 16, release motor drive mechanism cable 16 connects underwater robot electronic compartment 36;One end of feed cable 2 is by weather proof receptacle even
Connecing rosette 10, the other end of feed cable 2 connects underwater robot electric compartment 35 by weather proof receptacle;Communication optical fiber memorizer
Communication optical fiber 28 withdrawal end in 3 is connected with rosette 10;The fixing end of communication optical fiber 28 connects underwater robot electronic compartment 36;Umbilicus
Band cable 6 is provided with cable grip 7, and cable grip 7 is fixing with buoyancy aid fixed plate 4 to be connected.
As the improvement of the above-mentioned a kind of device that the umbilical cables being connected on underwater robot is freed of this utility model, institute
Stating buoyancy aid fixed plate 4 and be arranged over rosette 10, rosette 10 is arranged in buoyancy aid fixed plate 4 by screw, rosette 10
Input installs umbilical cables 6 by gland nut, and the outfan of rosette 10 connects feed cable 2 and communication optical fiber 28.
Further, buoyancy aid fixed plate 4 is arranged over rosette 10, and rosette 10 is arranged on buoyancy aid fixed plate by screw
On 4, the input of rosette 10 installs umbilical cables 6 by gland nut, and the outfan of rosette 10 connects feed cable 2 and leads to
News optical fiber 28.
Further, bottom buoyancy aid fixed plate 4, two alignment pins 11 it are additionally provided with;Two alignment pins 11 are threadably secured
Bottom buoyancy aid installing plate 4, fixed installation plate 5 is provided with fixed mounted seat 12 and locking mounting seat 13, fixed mounted seat 12
And locking mounting seat 13 is arranged on fixed installation plate 5 by screw, it is fixed that buoyancy aid fixed plate 4 is nested into by two alignment pins 11
In mounting seat 12 hole, position and in the hole of locking mounting seat 13.
Further, being equipped with spring and adjust screw rod 26 in fixed mounted seat 12 and locking mounting seat 13, spring adjusts
Spring 25 is installed on screw rod 26 outer shaft.
Further, release motor drive mechanism 9 is to be connected as one with locking mounting seat 13 by bearing pin, discharges motor drive mechanism
Installing the first screw mandrel 15 on 9, the first screw mandrel 15 is arranged on release motor drive mechanism 9 axle and spacing by holding screw, first
Installing locking pin 14 on bar 15, locking pin 14 endoporus is the feed screw nut supporting with the first screw mandrel 15, and locking pin 14 outer shaft is with fixed
Position pin 11 endoporus is installed after coordinating spacing.
Further, four insulated columns 27 being installed by fixed installation plate 5, two insulated columns 27 above are installed by screw
Pulling out cable motor drive mechanism installing plate 22, two insulated columns 27 below install communication optical fiber memorizer installing plate 24, and communication optical fiber is deposited
Installing communication optical fiber memorizer 3 on reservoir installing plate 24, the withdrawal end communication optical fiber 28 of communication optical fiber memorizer 3 is led to by watertight
News Optical fiber plug is installed on the watertight fiber-optical socket of rosette 10.
Further, pull out on cable motor drive mechanism installing plate 22 by feed screw nut 19 install fixing pull out cable installing plate 17,
Feed screw nut's location-plate 18 and motor mounting plate 20, motor mounting plate 20 pulls out cable motor drive mechanism 8 by four bearing pins are fixing, pulls out
Installing the second screw mandrel 21 on cable motor drive mechanism 8, the second screw mandrel 21 is fixed on and pulls out on cable motor drive mechanism 8 axle and limited by trip bolt
Position;Pulling out cable installing plate 17 to be fixed by bolts on feed screw nut 19, feed screw nut 19 is fixing even through feed screw nut's location-plate 18
It is connected on the second screw mandrel 21.
Specific implementation process of the present utility model is:
As shown in Fig. 6, Fig. 8 and Fig. 9, this kind of device for the umbilical cables being connected on underwater robot is freed,
Umbilical cables 6 in this device is the tie for connecting surface facilities and underwater robot, and umbilical cables 6 initiating terminal is for being placed on water
Umbilical cables winch 31 on the equipment of face, the control signal of water surface control unit 33 is linked into umbilical cables winch by communication optical fiber 28
31, power supply is input to water surface power supply unit 33 by electromotor 29, is linked into umbilical cables after water surface power supply unit 33 boosts
Winch 31, final power supply and communication optical fiber 28 are collectively incorporated into umbilical cables after the link case internal wiring of umbilical cables winch 31
In 6, the end of umbilical cables 6 is the input of rosette 10, power supply in umbilical cables 6 and communication optical fiber 28 in rosette 10 again
It is split up into independent power supply output and the signal of communication optical fiber 28.
As shown in Figure 2 and Figure 9, after the umbilical cables 6 of underwater robot is wound, first surface operations personnel are by umbilical cables
The high voltage supply of 6 disconnects, and is switched to underwater robot and uses self-powered power supply mode, and now power supply just relies on underwater robot
Internal battery supply in body 34;Then surface operations personnel control to pull out cable motor drive mechanism 8 by the connection of communication optical fiber 28
Motor rotate counterclockwise, the rotary motion of the second screw mandrel 21 promotes pulls out cable installing plate 17 and moves away from pulling out cable motor drive mechanism 8, with
This simultaneously, the weather proof receptacle on feed cable 2 is extracted from the power supply watertight socket of rosette 10 by pulling out cable installing plate 17, is completed
The physical discontinuity of umbilical cables 6 power supply supply, i.e. pulls out cable motor drive mechanism 8 and just completes and extracted from rosette 10 by feed cable 2,
Last feed cable 2 separates from rosette 10;
Then surface operations personnel are turned clockwise by the motor of control release motor drive mechanism 9 again, the first screw mandrel 15
Rotary motion makes locking pin 14 slowly extract in the hole of alignment pin 11, when locking pin 14 is extracted in the hole of alignment pin 11 completely
After, the alignment pin 11 on buoyancy aid 1 is under the pretightning force effect of spring 25 and completely from fixed mounted seat 12 and locking mounting seat 13
Hole in eject, buoyancy aid fixed plate 4 quickly drifts out underwater human body 34 under the positive buoyancy of self, i.e. discharges motor drive mechanism
9 just complete and umbilical cables 6 and rosette 10 are discharged from underwater human body 34, last umbilical cables 6 and rosette 10 from
Discharge completely on underwater human body 34;
After umbilical cables 6 and rosette 10 discharge from underwater human body 34 completely, the water surface the most still can not be under water
Robot body 34 is powered, and now still also has a communication optical fiber 28 in umbilical cables 6 by rosette 10, communication optical fiber
Memorizer 3 is connected with underwater human body 34;The water surface still can control underwater human body 34 and returns in that case
Backwater surface communication, the internal battery supply in now power supply also depends on underwater human body 34, at this moment surface operations personnel
Remotely being controlled underwater human body 34 to make a return voyage by communication optical fiber 28, during making a return voyage, communication optical fiber memorizer 3 will be released automatically
Put communication optical fiber 28 to complete to make a return voyage underwater human body 34, during this makes a return voyage, leading in communication optical fiber memorizer 3
News optical fiber 28 length is more than the length of umbilical cables 6, and underwater human body 34 goes back, while putting communication optical fiber 28, directly
Enter at water to arriving underwater human body 34, i.e. complete underwater human body 34 and be back to the work of the water surface.
In above-mentioned implementation process, rosette 10 will also be discharged by release umbilical cables 6 in the lump, and rosette 10 outfan is even
Connecing feed cable 2 and communication optical fiber 28, the input of rosette 10 installs umbilical cables 6 by gland nut, in release umbilical cables 6
Before, after water surface power-off, the feed cable 2 being connected in rosette 10 is extracted, discharge umbilical cables 6, now underwater the most again
Human body's one communication optical fiber memorizer 3 of upper design, after umbilical cables 6 release, the communication optical fiber 28 in umbilical cables 6 passes through rosette
10, communication optical fiber memorizer 3 and underwater robot connect, and surface operations personnel can remotely control underwater robot and make a return voyage, this
Time surface operations personnel remotely control underwater human body 34 make a return voyage by communication optical fiber 28, during making a return voyage, communication optical fiber
Memorizer 3 will be automatically releasable communication optical fiber 28 and complete to make a return voyage underwater human body 34.
Umbilical cables winch 31 is first connected by water surface control unit 33 by water surface cable 32 when underwater robot normally works
After complete the function to underwater human body 34 by the umbilical cables 6 connected on umbilical cables winch 31 again and control, thus complete
Underwater operation task, i.e. ROV mode of operation.
In the case of the umbilical cables 6 on underwater robot is wound around, underwater robot cannot make a return voyage, and now, passes through
This device pull out cable motor drive mechanism 8 and release motor drive mechanism 9 cooperates umbilical cables 6 and underwater the most at last between the two
Human body 34 is kept completely separate and frees, and now underwater human body 34 is not limited by umbilical cables 6, underwater human body 34
Being powered by self internal battery, and discharge communication optical fiber 28 by built-in communication optical fiber memorizer 3, the water surface passes through communication optical fiber
28 remotely control lower robot body 34 makes a return voyage, the most self-powered ROV mode of operation.
In the case of umbilical cables 6 and communication optical fiber 28 all damage generation cable power supply and communicating interrupt, by under water
Self internal battery of robot body 34 is powered, in the case of robot presets task and operating path under water,
Underwater robot is according to real time datas such as the degree of depth, course, distance, location, according to the program Autonomous Control motion being pre-programmed into, i.e.
Transferred to AUV mode of operation by ROV mode of operation after independently being judged by underwater robot, independently judge that control is maked a return voyage.
This utility model have the advantage that in a particular embodiment which solves underwater robot due to
In diversion culvert, working environment is the narrowest and small, long distance work time owing to working environment exists more foreign body, umbilical cables occurs
Serious situation about being wound around, thus cause umbilical cables to free voluntarily, cause the underwater robot of ROV mode of operation by umbilical cables
Restriction will be unable to this difficult problem of making a return voyage, it is achieved that even underwater robot is operated in complex water areas or pipeline
It also is able to be apparent from the accurate location of underwater robot and the degree of depth, underwater robot can accurately be carried out underwater operation and appoint
Control and final realization of business ensure that the safety of underwater robot is maked a return voyage, novel in design, reliable operation.
Finally, it should be noted that above-described embodiment is intended merely to help explain and illustrate this utility model rather than right
Protection domain of the present utility model limits.
Claims (7)
1. one kind is used for the device umbilical cables being connected on underwater robot freed, it is characterised in that: include buoyancy aid
(1), feed cable (2), communication optical fiber memorizer (3), buoyancy aid fixed plate (4), fixed installation plate (5), umbilical cables (6), cable
Net (7) and pull out cable motor drive mechanism (8) and release motor drive mechanism (9), pull out cable motor drive mechanism (8) one end connect pull out cable motor
Structure cable (23), pulls out cable motor drive mechanism cable (23) and connects underwater robot electronic compartment (36);One end of release motor drive mechanism (9)
Connection Release motor drive mechanism cable (16), release motor drive mechanism cable (16) connects underwater robot electronic compartment (36);Power supply electricity
One end of cable (2) connects rosette (10) by weather proof receptacle, and the other end of feed cable (2) is connected under water by weather proof receptacle
Robot electric compartment (35);Communication optical fiber (28) withdrawal end in communication optical fiber memorizer (3) is connected with rosette (10);Communication
The fixing end of optical fiber (28) connects underwater robot electronic compartment (36);Umbilical cables (6) is provided with cable grip (7), cable grip (7)
Fix with buoyancy aid fixed plate (4) and be connected.
A kind of device for the umbilical cables being connected on underwater robot being freed the most according to claim 1, it is special
Levying and be: described buoyancy aid fixed plate (4) is arranged over rosette (10), rosette (10) is arranged on buoyancy aid fixed plate by screw
(4) on, the input of rosette (10) installs umbilical cables (6) by gland nut, and the outfan of rosette (10) connects power supply
Cable (2) and communication optical fiber (28).
A kind of device for the umbilical cables being connected on underwater robot being freed the most according to claim 1, it is special
Levy and be: be additionally provided with two alignment pins (11) in buoyancy aid fixed plate (4) bottom;Two alignment pins (11) are threadably secured to float
Body installing plate (4) bottom, is provided with fixed mounted seat (12) and locking mounting seat (13), location and installation in fixed installation plate (5)
Seat (12) and locking mounting seat (13) are arranged in fixed installation plate (5) by screw, and buoyancy aid fixed plate (4) passes through two location
In pin (11) is nested into fixed mounted seat (12) hole and in the hole of locking mounting seat (13).
A kind of device for the umbilical cables being connected on underwater robot being freed the most according to claim 3, it is special
Levy and be: being equipped with spring in fixed mounted seat (12) and locking mounting seat (13) and adjust screw rod (26), spring adjusts screw rod
(26) spring (25) is installed on outer shaft.
Device for the umbilical cables being connected on underwater robot being freed the most according to claim 1, its feature exists
In: described release motor drive mechanism (9) is to be connected as one with locking mounting seat (13) by bearing pin, in release motor drive mechanism (9)
Installing the first screw mandrel (15), the first screw mandrel (15) is arranged on release motor drive mechanism (9) axle and spacing by holding screw, and first
Installing locking pin (14) on screw mandrel (15), locking pin (14) endoporus is the feed screw nut supporting with the first screw mandrel (15), locking pin
(14) outer shaft is spacing after installing with alignment pin (11) endoporus and coordinating.
A kind of device for the umbilical cables being connected on underwater robot being freed the most according to claim 1, it is special
Levy and be: described fixed installation plate (5) is upper installs four insulated columns (27), and two insulated columns (27) above are installed by screw
Pulling out cable motor drive mechanism installing plate (22), two insulated columns (27) below install communication optical fiber memorizer installing plate (24), communication
Fibre optic memory installing plate (24) is upper installs communication optical fiber memorizer (3), the withdrawal end communication optical fiber of communication optical fiber memorizer (3)
(28) it is installed to by watertight communication optical fiber plug on the watertight fiber-optical socket of rosette (10).
A kind of device for the umbilical cables being connected on underwater robot being freed the most according to claim 6, it is special
Levy and be: pull out cable installing plate (17), screw mandrel pulling out to install to fix by feed screw nut (19) on cable motor drive mechanism installing plate (22)
Nut location-plate (18) and motor mounting plate (20), motor mounting plate (20) pulls out cable motor drive mechanism by four bearing pins are fixing
(8), pulling out that cable motor drive mechanism (8) is upper installs the second screw mandrel (21), the second screw mandrel (21) is fixed on and pulls out on cable motor drive mechanism (8) axle also
Spacing by trip bolt;Pulling out cable installing plate (17) to be fixed by bolts on feed screw nut (19), feed screw nut (19) passes silk
Stem nut location-plate (18) is fixedly connected on the second screw mandrel (21).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620693346.9U CN205801465U (en) | 2016-07-01 | 2016-07-01 | A kind of device for the umbilical cables being connected on underwater robot is freed |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620693346.9U CN205801465U (en) | 2016-07-01 | 2016-07-01 | A kind of device for the umbilical cables being connected on underwater robot is freed |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106005320A (en) * | 2016-07-01 | 2016-10-12 | 中国南方电网有限责任公司调峰调频发电公司 | Device for releasing umbilical cable connected to underwater robot |
CN107728627A (en) * | 2017-10-13 | 2018-02-23 | 中国船舶重工集团公司七五0试验场 | Underwater robot makes a return voyage control method, computer and storage medium |
CN107957729A (en) * | 2017-10-13 | 2018-04-24 | 中国船舶重工集团公司七五0试验场 | Underwater robot makes a return voyage control method, computer and storage medium automatically |
CN108540226A (en) * | 2018-06-08 | 2018-09-14 | 上海海洋大学 | A kind of emergency communication buoyage and corresponding rescue mode |
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2016
- 2016-07-01 CN CN201620693346.9U patent/CN205801465U/en not_active Withdrawn - After Issue
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106005320A (en) * | 2016-07-01 | 2016-10-12 | 中国南方电网有限责任公司调峰调频发电公司 | Device for releasing umbilical cable connected to underwater robot |
CN107728627A (en) * | 2017-10-13 | 2018-02-23 | 中国船舶重工集团公司七五0试验场 | Underwater robot makes a return voyage control method, computer and storage medium |
CN107957729A (en) * | 2017-10-13 | 2018-04-24 | 中国船舶重工集团公司七五0试验场 | Underwater robot makes a return voyage control method, computer and storage medium automatically |
CN107728627B (en) * | 2017-10-13 | 2021-04-16 | 中国船舶重工集团公司七五0试验场 | Underwater robot return control method, computer and storage medium |
CN108540226A (en) * | 2018-06-08 | 2018-09-14 | 上海海洋大学 | A kind of emergency communication buoyage and corresponding rescue mode |
CN108540226B (en) * | 2018-06-08 | 2023-10-03 | 上海海洋大学 | Emergency communication buoy device and corresponding rescue method |
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