CN2887748Y

CN2887748Y - Underwater robot for underwater monitoring platform

Info

Publication number: CN2887748Y
Application number: CN 200620090622
Authority: CN
Inventors: 俞建成; 张奇峰; 张艾群; 李硕; 唐元贵
Original assignee: Shenyang Institute of Automation of CAS
Current assignee: Shenyang Institute of Automation of CAS
Priority date: 2006-04-29
Filing date: 2006-04-29
Publication date: 2007-04-11
Anticipated expiration: 2016-04-29

Abstract

An underwater robot for an underwater monitoring platform. The buoyancy adjusting device is an overall structure with a completely built-in driving device and comprises a stern cone, a parallel middle body, an electronic control cabin section, a horizontal gliding wing, a vertical stabilizing wing, a bow part and various driving devices, wherein the vertical stabilizing wing is fixedly connected with the stern cone; the wireless digital transmission radio station is arranged on the buoyancy adjusting device fixing frame; the horizontal gliding wing is fixedly connected with the parallel middle body at the outer part; the pitch angle adjusting device is fixedly connected with the bow part and the parallel middle body through a fixing frame of the pitch angle adjusting device; the electronic control cabin section is respectively connected with the roll angle adjusting device and the elevation angle adjusting device; the motor driver is arranged on a fixed frame in the roll angle adjusting device and is respectively and electrically connected with a stepping motor in the driving device; the bow sensor assembly is arranged in the bow; the emergency processing device is connected with the buoyancy adjusting device fixing frame. The utility model discloses can effectively improve ocean monitoring's space, time density, it is with low costs, can be in a large number, popularize and apply on a large scale.

Description

Underwater monitoring platform robot under water

Technical field

The utility model relates to the marine environmental monitoring field, specifically is a kind of underwater monitoring platform robot under water that can be used for marine monitoring on a large scale, relies on buoyancy-driven to slide.

Background technology

At present, the underwater monitoring platform that is widely used in marine monitoring mainly contains buoy, subsurface buoy, research vessel and screw propeller and advances under-water robot, and these underwater monitoring platforms have advantage separately, and part also comes with some shortcomings simultaneously.Buoy can be realized marine monitoring operation in a big way, still, because buoy does not navigate by water actuating device, therefore can't buoy be controlled at the designated area according to monitoring requirements.Subsurface buoy can realize the monitoring of vertical section, and still, after subsurface buoy laid, its position remained unchanged usually, can only finish the fixed point monitoring operation, can't change monitoring location flexibly according to the monitoring needs.Research vessel or screw propeller advance under-water robot to carry out marine monitoring need consume great amount of manpower and material resources and financial resources, and therefore, its duty cycle can not be oversize, and operating cost is also quite expensive.Since the restriction of current above-mentioned underwater monitoring platform technology means, the feasible needs that on space, time supervision density, can't satisfy marine scientific research to marine environment fully.

The utility model content

For overcome in the prior art can't according to monitoring requirements buoy is controlled at the designated area or change flexibly subsurface buoy monitoring location, cost height, can not on space, time supervision density, satisfy the deficiency of marine scientific research needs, the purpose of this utility model provides a kind of space, time density that can effectively improve marine monitoring, in a large number, apply, satisfy underwater monitoring platform that dependence buoyancy-driven that current marine monitoring needs, underwater monitoring that cost is low use slides on a large scale with robot under water, in order to improve the marine monitoring ability.

To achieve these goals, technical solutions of the utility model are as follows: be the complete built-in overall structure of actuating device, comprise stern cone, square body, horizontal hang gliding, roll angle control apparatus, pitch angle control apparatus, bow sensor module, bow, electron steering cabin section, motor driver, buoyancy regulating device, wireless digital transmission radio station, vertical stabilizer and emergency treatment device, wherein: vertical stabilizer and stern cone are connected, and buoyancy regulating device is connected by its fixed mount and stern cone and square body; The wireless digital transmission radio station is installed on the fixed mount of buoyancy regulating device; Horizontal hang gliding externally is connected with square body by the horizontal tail set collar; The pitch angle control apparatus is connected by its fixed mount and hemisphere shape bow and square body; Section two ends, electron steering cabin are connected with angle regulating device with the roll angle control apparatus respectively by fixed mount; Motor driver is installed on the fixed mount in the roll angle control apparatus, is electrically connected with roll linear stepping motor, the pitch regulation linear stepping motor in the pitch regulation device, the buoyancy adjustment linear stepping motor in the described buoyancy regulating device in the roll angle control apparatus respectively; The bow sensor module be installed in hemisphere shape bow in; Emergency treatment device links to each other with the fixed mount of buoyancy regulating device;

Wherein roll angle control apparatus, pitch angle control apparatus, electron steering cabin section, motor driver, buoyancy regulating device, wireless digital transmission radio station and emergency treatment device lay respectively in the square body;

Described roll angle control apparatus is made up of roll linear stepping motor, roll quality of regulation piece and roll control apparatus fixed mount, the roll linear stepping motor and the roll control apparatus fixed mount that are driven by motor driver are connected, and roll quality of regulation piece is installed on the output shaft of roll linear stepping motor; Described pitch angle control apparatus is made up of pitch regulation linear stepping motor, pitch regulation battery pack and pitch regulation device fixed mount, the pitch regulation linear stepping motor that is driven by motor driver is installed on the pitch regulation device fixed mount, the pitch regulation battery pack is installed on the output shaft of pitch regulation linear stepping motor, as the pitch regulation mass, be electrically connected simultaneously with mains connection set circuit card in motor driver and the electron steering cabin section.Described bow sensor module is installed in the hemisphere shape bow, is made up of survey sensor, is electrically connected with mains connection set circuit card in the section of electron steering cabin; Described electron steering cabin section comprises control computer, mains connection set circuit card and GPS locating module, constitutes control part together; Described buoyancy regulating device is made up of piston, oil cylinder, buoyancy adjustment leather bag, buoyancy adjustment linear stepping motor and buoyancy regulating device fixed mount, oil cylinder links to each other with the buoyancy adjustment linear stepping motor that is driven by motor driver by piston, and the buoyancy adjustment leather bag that is arranged in the stern cone is captiveed joint with the oil cylinder oil outlet; Described oil cylinder and buoyancy adjustment linear stepping motor are installed on the buoyancy regulating device fixed mount; Described emergency treatment device is formed by throwing charge material gauge block, supporting pin, support spring and electromagnet, throwing the charge material gauge block is connected with electromagnet by supporting pin, support spring is socketed in outside the supporting pin, electromagnet is installed in the buoyancy regulating device fixed mount, is electrically connected with mains connection set circuit card in the section of electron steering cabin; Described supporting pin is connected in the groove of throwing the charge material gauge block; The top of described vertical stabilizer is equipped with antenna box.

The utlity model has following advantage:

The utility model combines buoy, subsurface buoy technology with existing under-water robot technology, be a kind of novel under-water robot that does not have external actuating unit.It can realize low cost, controlled marine monitoring operation on a large scale, and the monitoring capability that has buoy and subsurface buoy simultaneously can be realized the monitoring results of horizontal profile and vertical section receiving and send the various types of communication data in real time.By built-in actuating device, can realize gliding and space gyroscopic movement, can slide into the designated area according to the monitoring results needs.Have

Following characteristics:

1. the utility model adopts horizontal hang gliding and vertical stabilizer, control by pitch angle control apparatus and roll angle control apparatus, the driving buoyancy that buoyancy regulating device is provided is converted to navigation controlling and driving power, thereby realizes navigation control, relies on buoyancy-driven to slide; Compare with the subsurface buoy monitoring platform with buoy used in the prior art, the utility model can navigate by water the designated area according to the monitoring needs, changes monitoring location flexibly, has stronger manoevreability and alerting ability;

2. the utility model adopts actuating device (as: roll angle control apparatus, the pitch angle control apparatus, the bow sensor module, motor driver, buoyancy regulating device, wireless digital transmission radio station and emergency treatment device) complete built-in mode, minimizing is to the destruction of carrier line style, reduced water resistance, improved and to have used degree of utilization, realized long-time and monitoring results on a large scale;

3. the utility model does not have plug-in actuating device, the carrier structure simplicity of design.Advance under-water robot to compare with traditional propeller, have processing and manufacturing easily, manufacturing cost and maintenance cost is low, throw in and reclaim and advantage such as easy to maintenance, can realize widely applying, improve marine monitoring space, time density.

4. the utility model has also that energy consumption is low, the little characteristics of noise.

Description of drawings

Fig. 1 is the utility model under-water robot structural front view.

Fig. 2 is the birds-eye view of Fig. 1.

The specific embodiment

Below in conjunction with drawings and Examples the utility model is described in further detail.

The utility model is an actuating device built-in overall structure fully, rely on buoyancy-driven to slide during operation, mainly by stern cone 1, square body 2, horizontal hang gliding 3, roll angle control apparatus 5, pitch angle control apparatus 9, bow sensor module 13, bow 16, electron steering cabin section 18, motor driver 22, buoyancy regulating device 24, wireless digital transmission radio station 25, vertical stabilizer 30 and emergency treatment device 36 are formed, wherein: the vertical stabilizer 30 that the top is equipped with antenna box 29 is captiveed joint with stern cone 1, buoyancy regulating device 24 is captiveed joint with square body 2 with stern cone 1 by buoyancy regulating device fixed mount 28, and is positioned at 2 li of square bodies; Wireless digital transmission radio station 25 is installed on the buoyancy regulating device fixed mount 28; Horizontal hang gliding 3 is externally captiveed joint with square body 2 by horizontal tail set collar 4; Pitch angle control apparatus 9 is positioned at 2 li of square bodies, captives joint with square body 2 with hemisphere shape bow 16 by pitch regulation device fixed mount 12; Electron steering cabin section 18 is positioned at 2 li of square bodies, captives joint with the pitch regulation fixed mount 12 of 9 li of angle regulating devices with the roll adjusting fixed mount 8 of roll angle control apparatus 5 respectively in section two ends, cabin; The roll that motor driver 22 (for prior art) is fixed in the roll angle control apparatus 5 is regulated on the fixed mount 8, be electrically connected with the roll linear stepping motor 6 in the roll angle control apparatus 5, the pitch regulation linear stepping motor 10 in the pitch regulation device, the buoyancy adjustment linear stepping motor 23 in the buoyancy regulating device 24, be positioned at 2 li of square bodies; Bow sensor module 13 is installed in and 16 li of hemisphere shape bows; Emergency treatment device 36 is captiveed joint with buoyancy regulating device fixed mount 28 with support spring 34 by electromagnet 35, is positioned at 2 li of square bodies.

Described roll angle control apparatus 5 is made up of roll linear stepping motor 6, roll quality of regulation piece 7 and roll control apparatus fixed mount 8, captive joint with roll control apparatus fixed mount 8 by the roll linear stepping motor 6 that motor driver 22 drives, roll quality of regulation piece 7 is installed on the output shaft of roll linear stepping motor 6, drive by roll linear stepping motor 6, on roll control apparatus fixed mount 8, move.

Described pitch angle control apparatus 9 is by pitch regulation linear stepping motor 10, pitch regulation battery pack 11 and pitch regulation device fixed mount 12 are formed, the pitch regulation linear stepping motor 10 that is driven by motor driver 22 is installed on the pitch regulation device fixed mount 12, pitch regulation battery pack 11 is installed on the output shaft of pitch regulation linear stepping motor 10, as the pitch regulation mass, drive by pitch regulation linear stepping motor 10, sliding block joint on pitch regulation device fixed mount 12, wherein, pitch regulation battery pack 11 is electrically connected with mains connection set circuit card 20 in motor driver 22 and the electron steering cabin section 18.

Described bow sensor module 13 is made up of height sensor 14, depth transducer 15 and course attitude sensor 17, be electrically connected with mains connection set circuit card 20 in the electron steering cabin section 18 respectively, height sensor 14, depth transducer 15 and course attitude sensor 17 are captiveed joint with hemisphere shape bow 16 respectively, wherein height sensor 14 and depth transducer 15 are positioned at bow 16 bottoms, install vertically downward, course attitude sensor 17 is positioned at bow 16 middle parts, and level is installed.

Described electron steering cabin section 18 comprises control computer 19 (commercial product), mains connection set circuit card 20 (prior art) and GPS locating module 21 (commercial product), control computer 19, mains connection set circuit card 20 and GPS locating module 21 constitute control part together.

Described buoyancy regulating device 24 is made up of piston 26, oil cylinder 27, buoyancy adjustment leather bag 31, buoyancy adjustment linear stepping motor 23 and buoyancy regulating device fixed mount 28, oil cylinder 27 links to each other with the buoyancy adjustment linear stepping motor 23 that is driven by motor driver 22 by piston 26, oil cylinder 27 and buoyancy adjustment linear stepping motor 23 are installed on the buoyancy regulating device fixed mount 28, and the buoyancy adjustment leather bag 31 that is arranged in stern cone 1 is captiveed joint with oil cylinder 27 oil outlets.Piston 26 drives by buoyancy adjustment linear stepping motor 23, moves in oil cylinder 27.

Described emergency treatment device 36 is formed by throwing charge material gauge block 32, supporting pin 33, support spring 34 and electromagnet 35, throwing charge material gauge block 32 is connected with electromagnet 35 by supporting pin 33, supporting pin 33 is connected in the groove of throwing charge material gauge block 32, support spring 34 is socketed in outside the supporting pin 33, electromagnet 35 is installed in buoyancy regulating device fixed mount 28, is electrically connected with mains connection set circuit card 20 in the electron steering cabin section 18.

Roll angle control apparatus 5 moves the horizontal position that roll mass 7 changes underwater gliding machine people center of gravity by roll linear stepping motor 6, under gravity and buoyancy combined action, realizes the adjusting to the under-water robot roll angle.Pitch angle control apparatus 9 moves the lengthwise position that pitching battery pack 11 changes the under-water robot center of gravity by pitching linear stepping motor 10, under gravity and buoyancy combined action, realizes the adjusting to the under-water robot pitch angle.Buoyancy regulating device 24 is discharged to leather bag 31 by buoyancy adjustment stepping motor 23 mobile pistons 26 with the oil in the oil cylinder 27 or the oil in the leather bag 31 is drawn in the oil cylinder 27, changes the displacement of volume of under-water robot, realizes changing the buoyancy of under-water robot.Under-water robot is by height sensor 14, depth transducer 15 and course attitude sensor 17, can measured altitude, the degree of depth, course angle, pitch angle and roll angle information.Control computer 19 in the electron steering cabin section 18 of the utility model design-calculated under-water robot and mains connection set circuit card 20 provide redundancy communication and energy source interface, therefore other survey sensor can be installed as required.When under-water robot is positioned at the water surface, obtain accurate in locating information by GPS locating module 21, send observed data and status data by wireless digital transmission radio station 25, receive various control commands simultaneously.When dangerous situation appears in under-water robot, by the 19 control mains connection set circuit cards 20 of the control computer in the electron steering cabin section 18, be 35 power supplies of the electromagnet in the emergency treatment device 36, under the electromagnetic force effect, supporting pin 33 breaks away from throwing charge material gauge block 32 and is connected, throwing under the 32 self gravitation effects of charge material gauge block, throwing charge material gauge block 32 and break away from under-water robot, finishing to throw and carry come-up.

The utility model design-calculated under-water robot can be realized two kinds of mode of motion, promptly along gliding motility of serration track and space gyroscopic movement.So-called gliding motility is meant under-water robot under self net buoyancy drives, in water, carry out oblique down or navigation process obliquely.Be the bow state that inclines when regulating under-water robot by pitch angle control apparatus 9, regulating under-water robot by buoyancy regulating device 24 is the negative lift state, and under negative lift drives, under-water robot will carry out the dive gliding motility; When the under-water robot gliding motility after desired depth, regulate under-water robot for lifting the bow state by pitch angle control apparatus 9, regulating under-water robots by buoyancy regulating device 24 is the positive buoyancy state, under positive buoyancy drives, and the under-water robot gliding motility of will floating.Robot is under come-up or the dive gliding motility state under water, and by the roll angle of roll angle control apparatus 5 adjusting under-water robots, under hydrodynamic force and buoyancy combined action, under-water robot will carry out the space gyroscopic movement, change the course angle of robot.

Claims

1. a underwater monitoring platform is with robot under water, it is characterized in that: be the complete built-in overall structure of actuating device, comprise stern cone (1), square body (2), horizontal hang gliding (3), roll angle control apparatus (5), pitch angle control apparatus (9), bow sensor module (13), bow (16), electron steering cabin section (18), motor driver (22), buoyancy regulating device (24), wireless digital transmission radio station (25), vertical stabilizer (30) and emergency treatment device (36), wherein: vertical stabilizer (30) and stern cone (1) are connected, and buoyancy regulating device (24) is connected by its fixed mount and stern cone (1) and square body (2); Wireless digital transmission radio station (25) is installed on the fixed mount of buoyancy regulating device; Horizontal hang gliding (3) externally is connected with square body (2) by the horizontal tail set collar; Pitch angle control apparatus (9) is connected by its fixed mount and hemisphere shape bow (16) and square body (2); Electron steering cabin section (18) two ends are connected with angle regulating device (9) with roll angle control apparatus (5) respectively by fixed mount; Motor driver (22) is installed on the fixed mount in the roll angle control apparatus (5), is electrically connected with roll linear stepping motor, the pitch regulation linear stepping motor in the pitch regulation device (9), the buoyancy adjustment linear stepping motor (23) in the described buoyancy regulating device (24) in the roll angle control apparatus (5) respectively; Bow sensor module (13) is installed in and hemisphere shape bow (16) lining; Emergency treatment device (36) links to each other with the fixed mount of buoyancy regulating device;

Wherein roll angle control apparatus (5), pitch angle control apparatus (9), electron steering cabin section (18), motor driver (22), buoyancy regulating device (24), wireless digital transmission radio station (25) and emergency treatment device (36) lay respectively in the square body (2).

2. by the described underwater monitoring platform of claim 1 robot under water, it is characterized in that: described roll angle control apparatus (5) is made up of roll linear stepping motor (6), roll quality of regulation piece (7) and roll control apparatus fixed mount (8), the roll linear stepping motor (6) that is driven by motor driver (22) is connected with roll control apparatus fixed mount (8), and roll quality of regulation piece (7) is installed on the output shaft of roll linear stepping motor (6).

3. by the described underwater monitoring platform of claim 1 robot under water, it is characterized in that: described pitch angle control apparatus (9) is by pitch regulation linear stepping motor (10), pitch regulation battery pack (11) and pitch regulation device fixed mount (12) are formed, the pitch regulation linear stepping motor (10) that is driven by motor driver (22) is installed on the pitch regulation device fixed mount (12), pitch regulation battery pack (11) is installed on the output shaft of pitch regulation linear stepping motor (10), as the pitch regulation mass, be electrically connected simultaneously with mains connection set circuit card (20) in motor driver (22) and the electron steering cabin section (18).

4. by the described underwater monitoring platform of claim 1 robot under water, it is characterized in that: described bow sensor module (13) is installed hemisphere shape bow (16) lining, form by survey sensor, be electrically connected with mains connection set circuit card in the electron steering cabin section (18).

5. by the described underwater monitoring platform of claim 1 robot under water, it is characterized in that: described electron steering cabin section (18) comprises control computer (19), mains connection set circuit card (20) and GPS locating module (21), constitutes control part together.

6. by the described underwater monitoring platform of claim 1 robot under water, it is characterized in that: described buoyancy regulating device (24) is made up of piston (26), oil cylinder (27), buoyancy adjustment leather bag (31), buoyancy adjustment linear stepping motor (23) and buoyancy regulating device fixed mount (28), oil cylinder (27) links to each other with the buoyancy adjustment linear stepping motor (23) that is driven by motor driver (22) by piston (26), and the buoyancy adjustment leather bag (31) that is arranged in stern cone (1) is captiveed joint with oil cylinder (27) oil outlet.

7. by the described underwater monitoring platform of claim 6 robot under water, it is characterized in that: described oil cylinder (27) and buoyancy adjustment linear stepping motor (23) are installed on the buoyancy regulating device fixed mount (28).

8. by the described underwater monitoring platform of claim 1 robot under water, it is characterized in that: described emergency treatment device (36) is formed by throwing charge material gauge block (32), supporting pin (33), support spring (34) and electromagnet (35), throwing charge material gauge block (32) is connected with electromagnet (35) by supporting pin (33), support spring (34) is socketed in outside the supporting pin (33), electromagnet (35) is installed in buoyancy regulating device fixed mount (28), is electrically connected with mains connection set circuit card (20) in the electron steering cabin section (18).

9. by the described underwater monitoring platform of claim 8 robot under water, it is characterized in that: described supporting pin (33) is connected in the groove of throwing charge material gauge block (32).

10. by the described underwater monitoring platform of claim 1 robot under water, it is characterized in that: the top of described vertical stabilizer (30) is equipped with antenna box (29).