CN208412074U - More fin torsional wave underwater robots - Google Patents
More fin torsional wave underwater robots Download PDFInfo
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- CN208412074U CN208412074U CN201821008838.5U CN201821008838U CN208412074U CN 208412074 U CN208412074 U CN 208412074U CN 201821008838 U CN201821008838 U CN 201821008838U CN 208412074 U CN208412074 U CN 208412074U
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- fin
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- drive rod
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Abstract
The utility model relates to robot fields, disclose more fin torsional wave underwater robots, it includes hull (1), it further include the driving device (2) being mounted on hull (1) and the controller (3) being connect with driving device (2), drive rod (21) are installed in driving device (2), controller (3) controls driving device (2) and drives drive rod (21) rotation, it further include the flexible long fin (4) for being located at hull (1) two sides, it is fixed with multiple drive rods (21) on one long fin (4) and drives long fin (4) to realize by drive rod (21), water is stirred.The utility model uses bionical Wave type propeller, and no propeller rotational is safer, does not destroy underwater ecological environment;The far distance control of underwater robot can be achieved;Product is set to float to protect product when bilging, out of control, power loss, depth are more than warning line using a variety of protection systems.
Description
Technical field
The utility model relates to robot fields, more particularly to more fin torsional wave underwater robots.
Background technique
1) in terms of dynamical system, traditional underwater robot mostly uses propeller to promote, in the side such as safety, efficiency, noise
Face Shortcomings also have very strong destructive power for underwater ecological environment.Present design uses aquatic bionic undulatory propeller
It can effective solution problem above;
2) in terms of control system, traditional underwater robot uses cable transmission signal, this makes underwater robot movable
Range is small, can not navigate by water at a distance, at high speed.Present design uses float-ball type wireless control system, can effectively solve above
Problem;
3) in terms of power-supply management system, traditional underwater robot using powering on the bank, by cable by power transmission water supply
Lower robot, this mode similarly limit the scope of activities of underwater robot, and with security risks such as electric leakages, are easy
It damages product and endangers periphery aquatile.Present design uses embedded replaceable lithium battery, can effectively solve above ask
Topic;
4) in terms of emergency system, traditional underwater robot encounters in cabin the emergency cases such as water inlet, out of control, power loss can not be into
Capable measure of saving oneself, easily causes the extreme loss of property.And present design using a variety of mixed type emergency plans can encounter it is prominent
A variety of effective measures are taken to save oneself in the case of hair;
5) in terms of automated driving system, traditional underwater robot does not install navigation module, it is necessary to remote manual control, Wu Fajin
Row automatic Pilot.And present design is equipped with GPS positioning and inertial navigation system, can be navigated by water automatically according to planning path.
Utility model content
The disadvantage that the utility model is insufficient for the design of power, control, emergency etc. in the prior art, provides more fins
Torsional wave underwater robot.
In order to solve the above-mentioned technical problem, the utility model is addressed by following technical proposals:
More fin torsional wave underwater robots, including hull further include the driving device being mounted on hull and and driving device
The controller of connection is equipped with drive rod in driving device, and it further includes point that controller, which controls driving device and drives drive rod rotation,
Not Wei Yu hull two sides flexible long fin, multiple drive rods are fixed on a long fin and drive long fin real by drive rod
Now water is stirred.
Preferably, being equipped with motor connected to the controller in driving device, controller controls the positive and negative rotation of motor, electricity
It is connected with output shaft on machine, further includes the deceleration mechanism being mounted in driving device, further includes rotation axis, rotation axis is distributed in ship
The two sides of body, rotation axis are stretched out outside driving device, and output shaft passes through deceleration mechanism and rotates axis connection and rotation axis is driven to rotate,
Drive rod is fixed to be swung up and down on the rotating shaft and by rotation axis drive.
Preferably, one end that drive rod is connect with long fin is installation end, the other end of drive rod is defined as fixing end, drives
Lever is hollow stem, and screw telescopic bar is equipped in the hollow pipe of drive rod, and screw telescopic bar stretches out outside the fixing end of drive rod
And it is affixed with driving device, the outer wall of the inner wall and screw telescopic bar of drive rod is connected through a screw thread, and screw telescopic bar can be by driving
The installation end of lever stretches out, and further includes the corner block that two sections are right angled triangle, the right angle end of corner block is hinged on driving
In the inner ring of bar installation end, two corner blocks are symmetrical arranged about the central axes of drive rod, and the right angle edge lengths of corner block are a,
The distance between hinge joint of two corner blocks is greater than twice of a, and the screw telescopic bar stretched out outside drive rod ejects two outward
Corner block simultaneously makes corner block form outwardly projecting location structure, is equipped with the mounting hole cooperated with drive rod, mounting hole in long fin
Bottom hole be equipped with the positioning groove that cooperates with location structure.
Preferably, four long fins are evenly distributed on hull two sides there are four long fins, eight drives are installed on each long fin
Lever.
Preferably, long fin is flexible sheet rubber.
Preferably, the tail portion of hull is equipped with tail fin, controller connect with tail fin and controls the swing of tail fin.
Preferably, hull in be equipped with ballast tank, there are four ballast tanks, hull include positioned at front end bow end and
Stern end positioned at rear end, two of them ballast tank are located at the left and right sides of bow end, and another two ballast tank is located at
The left and right sides of stern end, intake pump and water outlet pump are mounted in ballast tank, and intake pump and water outlet pump connect with controller
It connects and its Inlet and outlet water is controlled by controller.
Preferably, be equipped with leakage inspector in hull, leakage inspector connect with controller and to controller
Water leakage is sent, controller controls the Inlet and outlet water of ballast tank according to the water leakage received.
Preferably, further including floating ball, cable is installed on floating ball, floating ball passes through the controller in cable and hull
It connects, signal receiving/transmission device is installed in floating ball, signal receiving/transmission device receives controller to be believed by the control that cable is sent
Number and be sent to mobile device.
Preferably, further including the depth transducer being mounted on hull, depth transducer passes through the detection to hydraulic pressure point
It analyses place depth and forms depth signal and be sent to controller.
The utility model has significant technical effect: 1) using bionical Wave type due to using above technical scheme
Propeller, no propeller rotational is safer, does not destroy underwater ecological environment.With the high-efficient, disturbance rejection under low speed environments
The advantages that ability is strong, noise is small, maneuverability, and it is able to achieve hovering, the on the spot maneuver autopilots such as turning;2) dynamical system module
Change design, convenient for safeguarding and dismounting;3) 2.4G wireless signal remote control is used, has many advantages, such as that long transmission distance, penetration power are strong, it can
Realize the far distance control of underwater robot;4) built-in module lithium battery, it is convenient for disassembly and assembly, securely and reliably, without cable on the bank
Power supply realizes long-distance navigation convenient for underwater robot;5) a variety of protection systems are used, in bilging, out of control, power loss, depth
When degree is more than warning line, product is set to float to protect product;6) be equipped with navigation system, it can be achieved that underwater robot according to
Automatically it is navigated by water in advance planning path;7) camera system is housed, remote control is convenient for;8) lighting system is housed, convenient for taking the photograph
It is used in water or in night as system;9) course lamp is housed, convenient for underwater robot in night use;
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model.
Fig. 2 is the principles of the present invention block diagram.
Fig. 3 is the sectional view of the long fin of Fig. 1.
The toponym that each number designation is referred in attached drawing is as follows: 1-hull, 2-driving devices, 3-controllers,
4-long fins, 5-ballast tanks, 6-leakage inspectors, 7-floating balls, 8-depth transducers, 11-tail fins, 21-drivings
Bar, 22-motors, 23-rotation axis, 211-screw telescopic bars, 212-corner blocks, 2120-location structures, 41-mounting holes,
42-positioning grooves, 51-intake pumps, 52-water outlet pumps, 71-cables, 72-signal receiving/transmission devices.
Specific embodiment
The utility model is described in further detail with embodiment with reference to the accompanying drawing.
Embodiment 1
More fin torsional wave underwater robots further include the driving device 2 being mounted on hull 1 as shown, including hull 1
With the controller 3 connecting with driving device 2, drive rod 21 is installed in driving device 2, controller 3 controls driving device 2 and drives
Drive rod 21 rotates, and further includes the flexible long fin 4 for being located at 1 two sides of hull, is fixed with multiple drives on one long fin 4
Lever 21 simultaneously drives the long realization of fin 4 to stir water by drive rod 21.By undulatory propulsion, it can be achieved that after underwater robot advance
It moves back, left and right turn, cast, pitching movement;By flap movement, it can be achieved that underwater robot left and right turn, cast,
Pitching movement, transverse moving left and right;Steering engine is by steering engine watertight box seal protection, using modularized design, external hanging type installation, convenient for detection
Maintenance;Long fin is fluctuated to be made of flexible rubber, it is conveniently replaced;Main body is using the mixing such as aluminium alloy, glass reinforced plastic, engineering plastics
Structure fabrication has many advantages, such as that intensity is high, environmentally friendly.
The motor 22 connecting with controller 3 is installed, controller 3 controls the positive and negative rotation of motor 22, motor in driving device 2
It is connected with output shaft 221 on 22, further includes the deceleration mechanism being mounted in driving device 2, further includes rotation axis 23, rotation axis 23
The two sides of hull 1 are distributed in, rotation axis 23 stretches out outside driving device 2 and is parallel to the setting of 1 side deck of hull, and output shaft 221 is logical
It crosses deceleration mechanism to connect with rotation axis 23 and rotation axis 23 is driven to rotate, drive rod 21 is fixed in rotation axis 23 and by rotation axis
23 drives are swung up and down.
One end that drive rod 21 is connect with long fin 4 is installation end, and the other end of drive rod 21 is defined as fixing end, drive rod
21 be hollow stem, and screw telescopic bar 211 is equipped in the hollow pipe of drive rod 21, and screw telescopic bar 211 stretches out drive rod 21
Fixing end is outer and affixed with the rotation axis of driving device 2 23, and the inner wall of drive rod 21 and the outer wall of screw telescopic bar 211 pass through spiral shell
Line connection, screw telescopic bar 211 can be stretched out by the installation end of drive rod 21, further include the triangle that two sections are right angled triangle
The right angle end of block 212, corner block 212 is hinged in the inner ring of 21 installation end of drive rod, and two corner blocks 212 are about drive rod 21
Central axes be symmetrical arranged, the right angle edge lengths of corner block 212 are a, and the distance between the hinge joint of two corner blocks 212 is greater than
The thickness of twice of a, drive rod 21 is less than a, and the screw telescopic bar 211 stretched out outside drive rod 21 ejects two corner blocks outward
212 and corner block 212 is made to form outwardly projecting location structure 2120, is equipped with the mounting hole cooperated with drive rod 21 in long fin 4
41, the bottom hole of mounting hole 41 is equipped with the positioning groove 42 cooperated with location structure 2120.
There are four long fins 4, and four long fin 4 is evenly distributed on 2 two sides of hull, is equipped with eight drive rods on each long fin 4
21。
Long fin 4 is flexible sheet rubber, and long fin 4 is equipped with diversion trench.Using bionical Wave type propeller, no spiral
Paddle rotation, it is safer, underwater ecological environment is not destroyed.With high-efficient under low speed environments, Ability of Resisting Disturbance is strong, noise
The advantages that small, maneuverability, and it is able to achieve hovering, the on the spot maneuver autopilots such as turning;Dynamical system modularized design, convenient for dimension
Shield and dismounting.
The tail portion of hull 1 is equipped with tail fin 11, and controller 3 connect with tail fin 11 and controls the swing of tail fin 11.
Ballast tank 5 is equipped in hull 1, there are four ballast tanks 5, and hull 1 includes being located at the bow end of front end and being located at
The stern end of rear end, two of them ballast tank 5 are located at the left and right sides of bow end, and another two ballast tank 5 is located at ship
The left and right sides of tail end, is mounted on intake pump 51 and water outlet pump 52 in ballast tank 5, intake pump 51 and water outlet pump 52 with control
The connection of device 3 processed simultaneously controls its Inlet and outlet water by controller 3.Four ballast tanks are located at the front left of hull, front right, rear left, after
The right side, this can adjust the water of 4 water tanks respectively, so as to control the pitch of hull, the posture of left and right tilt.
Two sides arrange two ballast tanks in cabin, and the stable upper of the application is also able to achieve in the case where no speed of a ship or plane
Floating dive is used for emergency ascent;Make driving power using 12V20AH rechargeable lithium battery, has that discharge current is big, uses the longevity
The characteristics of ordering length, being conveniently replaceable, in 0.6 meter per second of the speed of a ship or plane, continuous working period is not less than 0.5 hour;The speed of a ship or plane be 0.2 meter/
When the second, continuous working period is not less than 2 hours.
Leakage inspector 6 is installed, leakage inspector 6 connect with controller 3 and sends to controller 3 in hull 1
Water leakage, controller 3 control the Inlet and outlet water of ballast tank 5 according to the water leakage received.Leak inspection is provided in cabin
The water in ballast tank can promptly be discharged when detecting bilging, make the application emergency ascent, to protect this Shen for examining system
Please;Using 2.4G wireless remote control, have many advantages, such as that signal is remote, penetration power is strong;Equipped with GPS, it can be achieved that the application is in the water surface or closely
It is navigated by water when surface navigation by planning path.
Further include floating ball 7, cable 71 is installed on floating ball 7, floating ball 7 passes through the controller 3 in cable 71 and hull 1
It connects, signal receiving/transmission device 72 is installed in floating ball 7, signal receiving/transmission device 72 receives controller 3 and sent by cable 71
Control signal and be sent to mobile device (such as mobile phone, computer).This application uses floating ball control system, and the application floats day
Linear system is servo-actuated floating ball in the water surface, there is remote signal R-T unit on floating ball, can be at any time by floating ball and cablet transmission of control signals
Rerouting planning and manpower intervention operation, can also be by all data feedbacks to computation interface;Equipped with inertial navigation system,
In the case where GPS capable of being can not receive under water, the application is controlled by inertial navigation system and realizes water according to the path of advance planning
Lower navigation;It is passed equipped with 433/915 number, motion parameter collecting interface is provided, can recorde and download exercise data.
It further include the depth transducer 8 being mounted on hull 1, depth transducer 8 passes through where the detection and analysis to hydraulic pressure
Depth simultaneously forms depth signal and is sent to controller 3.Band depth transducer, can record, and can be transmitted to bank computer in real time;Electricity
Sub- appliance case uses modularized design, can individually take out, and is convenient for debugging maintenance;The application has the function of lost-control protection, works as detection
The water in ballast tank can promptly be discharged after for a period of time to underwater robot signal out of hand, can make the application it is urgent on
It is floating, to protect the application;The application has depth detection module, can be tight when underwater robot submerged depth is more than fence coverage
Water in anxious discharge ballast tank, makes underwater robot emergency ascent, to protect the application;The application has loss protecting function
Can, the loss protecting system of passive type can be used when underwater robot loses electric power, make the application emergency ascent, to protect this Shen
Please.
Equipped with camera system, the application is controlled when using at a distance convenient for user;Equipped with lighting system, convenient for camera shooting
System is under water or night use;The application two sides are equipped with handle, can be convenient the application transport and are lauched;The application is integrated to fill
Electrical interface, being not necessary to taking-up battery can also charge;The application two sides are equipped with course lamp, make convenient for underwater robot at night
With;
In short, the above is only the preferred embodiment of the present invention, it is all according to present utility model application the scope of the patents institute
The equivalent changes and modifications of work should all belong to the covering scope of the utility model patent.
Claims (8)
- The torsional wave underwater robot of fin more than 1., including hull (1), it is characterised in that: further include the driving dress being mounted on hull (1) The controller (3) setting (2) and connecting with driving device (2) is equipped with drive rod (21) in driving device (2), controller (3) control Driving device (2) processed drives drive rod (21) rotation, further includes the flexible long fin (4) for being located at hull (1) two sides, It is fixed with multiple drive rods (21) on one long fin (4) and drives long fin (4) to realize by drive rod (21), water is stirred.
- 2. more fin torsional wave underwater robots according to claim 1, it is characterised in that: be equipped in driving device (2) with The motor (22) of controller (3) connection, controller (3) control the positive and negative rotation of motor (22), and motor is connected with output shaft on (22) (221), further include the deceleration mechanism being mounted in driving device (2), further include rotation axis (23), rotation axis (23) is distributed in ship The two sides of body (1), rotation axis (23) stretch out driving device (2) outside, and output shaft (221) is connected by deceleration mechanism and rotation axis (23) It connects and rotation axis (23) is driven to rotate, drive rod (21) is fixed on rotation axis (23) and by the bottom in rotation axis (23) drive It is dynamic.
- 3. more fin torsional wave underwater robots according to claim 1, it is characterised in that: long fin (4) is flexible rubber Film.
- 4. more fin torsional wave underwater robots according to claim 1, it is characterised in that: the tail portion of hull (1) is equipped with tail Fin (11), controller (3) connect with tail fin (11) and control the swing of tail fin (11).
- 5. more fin torsional wave underwater robots according to claim 1, it is characterised in that: be equipped with ballast tank in hull (1) (5), there are four ballast tanks (5), hull (1) includes the stern end positioned at the bow end of front end and positioned at rear end, two of them Ballast tank (5) is located at the left and right sides of bow end, and another two ballast tank (5) is located at the left and right sides of stern end, pressure Carry in water tank (5) and be mounted on intake pump (51) and water outlet pump (52), intake pump (51) and water outlet pump (52) with controller (3) It connects and its Inlet and outlet water is controlled by controller (3).
- 6. more fin torsional wave underwater robots according to claim 5, it is characterised in that: be equipped with leak inspection in hull (1) It surveys device (6), leakage inspector (6) connect with controller (3) and sends water leakage, controller (3) root to controller (3) According to the Inlet and outlet water of water leakage control ballast tank (5) received.
- 7. more fin torsional wave underwater robots according to claim 1, it is characterised in that: further include floating ball (7), floating ball (7) On be equipped with cable (71), floating ball (7) is connect by cable (71) with the controller (3) in hull (1), and floating ball (7) is interior It is equipped with signal receiving/transmission device (72), signal receiving/transmission device (72) receives controller (3) and passes through the control that cable (71) are sent Signal processed is simultaneously sent to mobile device.
- 8. more fin torsional wave underwater robots according to claim 1, it is characterised in that: further include being mounted on hull (1) Depth transducer (8), depth transducer (8), which passes through depth where detection and analysis to hydraulic pressure and forms depth signal, to be sent to Controller (3).
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109250052A (en) * | 2018-06-28 | 2019-01-22 | 杭州霆舟无人科技有限公司 | More fin torsional wave underwater robots |
CN112810782A (en) * | 2019-11-15 | 2021-05-18 | 广州中国科学院先进技术研究所 | Underwater bionic robot and motion control system thereof |
-
2018
- 2018-06-28 CN CN201821008838.5U patent/CN208412074U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109250052A (en) * | 2018-06-28 | 2019-01-22 | 杭州霆舟无人科技有限公司 | More fin torsional wave underwater robots |
CN112810782A (en) * | 2019-11-15 | 2021-05-18 | 广州中国科学院先进技术研究所 | Underwater bionic robot and motion control system thereof |
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