CN106272469A - Investigation positioning robot and method of work, control system under water - Google Patents

Abstract

The present invention relates to one and investigate positioning robot and method of work, control system under water, wherein, this underwater robot includes: main body, and the outer wall in this main body is provided with power set；One processor module is suitable to be advanced under water to control underwater robot by control power set；The underwater robot of the present invention and method of work thereof, control system can improve the traveling efficiency under water of underwater robot, and draw close mode by three stage substeps, overcome sub-marine situations complicated, the work characteristics had a wide reach, uses three kinds of communication modes to meet underwater robot and completes to converge under different spacing.

Description

Investigation positioning robot and method of work, control system under water

Technical field

The present invention relates to one and investigate positioning robot and method of work, control system under water.

Background technology

21 century, is the century of ocean, and the abundant energy that ocean is contained is mankind's resource exhaustions on the ground with resource Situation under the important supply depended on for existence.Meanwhile, 21 century is also the century of intelligence equipment, and the extensively application of intelligence system is big The big efficiency that improve work, becomes the new highland of national strategy development.Then, it is not by intelligence application Yu Haiyang The mediocre development trend doubted.At present, the principal mode of underwater intelligent equipment is underwater robot, and major function has exploration, gathers, Maintenance, capital construction, military with search and rescue etc..Wherein utilizing underwater robot to carry out seafari for human development ocean, trend is deep Indigo plant has great significance.The stationkeeping ability of underwater robot is for submarine sampling simultaneously, salvages lost objects and retrieves a loss and wait just Face has great significance.

In view of the working environment of underwater robot and the targeted major function investigating location under water of emphasis.First should Should be it is contemplated that single underwater robot be due to the restriction of self-condition, it is impossible to find seabed sample or needs rapidly and accurately Salvage or the article of location.Then, multi-robot system has become as only choosing.

Along with the development in epoch, a kind of high efficiency, high-intelligentization, going out of the multi-robot system of high stability has been gesture Must go.

Summary of the invention

It is an object of the invention to provide a kind of underwater robot and method of work thereof, to improve underwater robot after investigation March to traveling efficiency in the water of destination.

In order to solve above-mentioned technical problem, the invention provides a kind of underwater robot, including: main body, in this main body Outer wall is provided with power set；One processor module is suitable to be advanced under water to control underwater robot by control power set.

Further, described main body is fusiformis；Described power set include three propeller type electric motor thrusters, and in 120 ° It is distributed in outer wall；Described processor module is suitable to control three propeller type electric motor thruster collaborative works, to control machine under water Device people advance under water.

Further, being provided with ring-shaped guide rail around outer wall, the braced wing root of described propeller type electric motor thruster is provided with and is embedded in The carriage of circular orbit；Described processor module is suitable to drive propeller type electric motor thruster annularly by carriage Guide rail moves, to change the angle between each propeller type electric motor thruster.

Further, described underwater robot also includes: the camera head that is connected with processor module, communicator；Described Processor module passes through camera head identification target, and builds communication network to realize following the tracks of and location by communicator； Described communicator includes mechanical wave communication module, sonar module and infrared module；Wherein mechanical wave communication module is suitable to produce The raw mechanical wave for telecommunication；Sonar module is suitable to produce the high-frequency ultrasonic for middle distance communication；And it is infrared Wire module is suitable to produce the infrared signal for Near Field Communication.

Further, described underwater robot also includes: the set of cells in series by some lithium battery groups, and is used for controlling The charge and discharge control module of battery set charge/discharge processed；The outer wall of described main body is provided with photovoltaic battery panel, and this photovoltaic battery panel Outfan is connected with the energization input of charge and discharge control module.

Another aspect, present invention also offers the method for work of a kind of described underwater robot.

Described method of work includes: advance under water to control underwater robot by controlling power set.

Further, described main body is fusiformis；Described power set include three propeller type electric motor thrusters, and are distributed in Outer wall；Described processor module is suitable to control three propeller type electric motor thruster collaborative works, to control underwater robot water Lower traveling；And being provided with ring-shaped guide rail around outer wall, the braced wing root of described propeller type electric motor thruster is provided with and is embedded in annular The carriage of track；Described processor module is suitable to drive propeller type electric motor thruster annularly guide rail by carriage Mobile, to change the angle between each propeller type electric motor thruster.

Further, when underwater robot is turned under water, the first propeller type electric motor thruster as turning fulcrum, Two, the 3rd propeller type electric motor thruster moves towards, and closes up, i.e. with the first propeller type electric motor thruster with in main body Mandrel is symmetrical arranged.

The third aspect, present invention also offers a kind of underwater crowd's cooperative control system, to realize many underwaters People constitutes underwater crowd Collaborative Control group.

In order to solve above-mentioned technical problem, this underwater crowd's cooperative control system includes at least two underwater People.

Further, described underwater robot also includes: the camera head that is connected with processor module, communicator；Described Processor module passes through camera head identification target, and builds communication network to realize following the tracks of and location by communicator； Described communicator includes mechanical wave communication module, sonar module and infrared module；Wherein mechanical wave communication module is suitable to produce The raw mechanical wave for telecommunication；Sonar module is suitable to produce the high-frequency ultrasonic for middle distance communication；And it is infrared Wire module is suitable to produce the infrared signal for Near Field Communication；And it is set to main after target looked for by arbitrary underwater robot Underwater robot, convenes remaining underwater robot to be collected at main underwater robot by communicator.

The invention has the beneficial effects as follows, the underwater robot of the present invention and method of work thereof, control system can effectively carry Adjust for rapid posture in the traveling efficiency under water of underwater robot, water；And also draw close mode by three stage substeps, overcome Sub-marine situations is complicated, and the work characteristics had a wide reach uses three kinds of communication modes to meet underwater robot in different spacing Under complete converge.

Accompanying drawing explanation

The present invention is further described with embodiment below in conjunction with the accompanying drawings.

Fig. 1 is the underwater robot axonometric chart of the present invention；

Fig. 2 is the top view of the underwater robot of the present invention；

Fig. 3 is the partial view of the underwater robot of the present invention；

Fig. 4 is that the propeller type electric motor thruster of the underwater robot of the present invention moves rear structural representation one；

Fig. 5 is that the propeller type electric motor thruster of the underwater robot of the present invention moves rear structural representation two.

In figure: main body 1, propeller type electric motor thruster 2, braced wing 201, ring-shaped guide rail 3, carriage 4, driven wheels 401, actively wheels 402.

Detailed description of the invention

In conjunction with the accompanying drawings, the present invention is further detailed explanation.These accompanying drawings are the schematic diagram of simplification, only with The basic structure of the illustration explanation present invention, therefore it only shows the composition relevant with the present invention.

Embodiment 1

As shown in Figures 1 to 5, the present embodiment 1 provides a kind of underwater robot, including: main body 1, outside this main body 1 Wall is provided with power set；One processor module is suitable to be advanced under water to control underwater robot by control power set.

Described main body 1 is in fusiformis；Described power set include three propeller type electric motor thrusters, and are distributed in 120 ° Outer wall；Described processor module is suitable to control three propeller type electric motor thruster collaborative works, to control underwater robot water Lower traveling.

Concrete, described underwater robot traveling mode under water includes but not limited to rise and fall, turns to, traversing, trim, specifically Advance as shown in table 1 with the corresponding relation of each propeller type electric motor thruster.

Underwater robot is advanced and the mapping table of each propeller type electric motor thruster

In table 1, the first propeller type electric motor thruster is referred to as propeller one, by that analogy.

Preferably, in order to improve underwater robot traveling efficiency further, such as, reduce turning during underwater robot is advanced Curved radius；Being provided with ring-shaped guide rail 3 around outer wall, braced wing 201 root of described propeller type electric motor thruster is provided with and is embedded in annular The carriage 4 of track；Described processor module is suitable to drive propeller type electric motor thruster annularly to lead by carriage 4 Rail 3 moves (as shown in Fig. 3 arrow F1), to change the angle between each propeller type electric motor thruster.

Concrete, described carriage 4 includes: is positioned at the driven wheels 401 of ring-shaped guide rail 3, and is positioned at main body 1 Active wheels 402, and this actively wheels 402 rotated by a direct current driven by motor, and this direct current generator is by processor module Control；Preferably, the traveling track of described active wheels 402 is positioned at main body 1 inwall, in described active wheels 402 at least provided with One spreadet spreadet wheel, and traveling track is provided with the locking tooth coordinated with this spreadet spreadet wheel, when after direct current generator stall, spreadet spreadet wheel Coordinate with locking tooth, the position of carriage 4, propeller type electric motor thruster is locked.

Such as when underwater robot is turned under water, the first propeller type electric motor thruster as turning fulcrum, second, Three propeller type electric motor thrusters move towards, and close up (as shown in arrow F2 and arrow F3 in Fig. 4), i.e. with the first propeller Formula electric motor thruster is with the setting substantially symmetrical about its central axis of main body 1；Wherein, the first propeller type electric motor thruster does not turns or inverts, its Two propeller type electric motor thrusters of Yuing rotate forward, and then realize underwater robot minor-circle turn, reduce radius of turn, reduce energy Consumption.

As a kind of form turned under water, as it is shown in figure 5, when underwater robot is adjusted to horizontal attitude by perpendicular attitude Time (as shown in arrow F4), the first propeller type electric motor thruster as turning fulcrum, second, third propeller type motor advance Device moves towards, and closes up, i.e. with the first propeller type electric motor thruster with the setting substantially symmetrical about its central axis of main body 1；Wherein, first Propeller type electric motor thruster inverts, and remaining two propeller type electric motor thruster rotates forward, and then realizes the quick appearance of underwater robot State adjusts, and saves electrical demand during pose adjustment.

As a kind of optional embodiment of underwater robot, described underwater robot also includes: with processor module Be connected camera head, communicator；Described processor module passes through camera head identification target, and by communicator structure Build communication network to realize following the tracks of and location；Concrete, lash ship is by receiving the communicator of each underwater robot to corresponding water Lower robot positions.

Concrete, the communication mode of this underwater robot, such as but not limited to using three stage substeps to draw close mode, i.e. exists Two robots use three kinds of communication technologys during gradually drawing close, and have high efficiency, high-intelligentization, the feature of high stability. Concrete, complicated process of drawing close is divided into three different phases according to three kinds of communication modes, uses three kinds adapt lead to News mode can make multiple stage underwater robot close to target and collaborative carry out positioning that (alternation keeps a part to enter target End of line with and uninterruptedly position, another part goes up floating charging in good time).

Accordingly, as a kind of optional embodiment of communicator, described communicator includes mechanical wave communication module, sound Module and infrared module；Wherein mechanical wave communication module is suitable to produce the mechanical wave for telecommunication；Sonar module Be suitable to produce the high-frequency ultrasonic for middle distance communication；And infrared module is suitable to produce infrared for Near Field Communication Signal.

In the present embodiment, the sub-marine situations residing for underwater robot is complicated, and the work that working region haves a wide reach Making feature, the distance in the two underwater human world needing to carry out to draw close is often the longest or short rather than relatively-stationary, not Under same distance condition, select to be best suitable for it and mutually draw close until entering the mode of coordinated distance.

Concrete, at two underwater robots at a distance of during such as but not limited to more than 100m, control two under water by mechanical wave Robot is drawn close, and when robot is drawn close to below 50m, is determined the refined orientation of two underwater robots by high-frequency ultrasonic, Draw close the most further；When the distance of two underwater robots is less than 50cm, carry out following docking, with structure by infrared signal Become underwater crowd Collaborative Control group.

Described underwater robot also includes: the set of cells in series by some lithium battery groups, and is used for controlling battery The charge and discharge control module (such as but not limited to using LT1513) of group discharge and recharge；The outer wall of described main body 1 is provided with photovoltaic cell Plate, and the outfan of this photovoltaic battery panel is connected with the energization input of charge and discharge control module.

Described processor module is such as but not limited to using ARM9 processor.

Embodiment 2

On the basis of embodiment 1, the present embodiment 2 additionally provides the method for work of a kind of underwater robot.

This method of work includes: advance under water to control underwater robot by controlling power set.

Wherein, about the structure of underwater robot and working method thereof as described in Example 1.

A kind of optional method of work as underwater robot.

When underwater robot is turned under water, the first propeller type electric motor thruster as turning fulcrum, second, third spiral shell Rotary propeller type electric motor thruster moves towards, and closes up, i.e. with substantially symmetrical about its central axis with main body 1 of the first propeller type electric motor thruster Arrange.

Embodiment 3

On the basis of embodiment 1, the present embodiment 3 provides a kind of underwater crowd's cooperative control system,

Described underwater crowd's cooperative control system includes at least two underwater robot as described in Example 1.

About underwater crowd's cooperative control system, concrete, it is set to after target looked for by arbitrary underwater robot Main underwater robot, convenes remaining underwater robot to be collected at main underwater robot by communicator.

With the above-mentioned desirable embodiment according to the present invention for enlightenment, by above-mentioned description, relevant staff is complete Entirely can carry out various change and amendment in the range of without departing from this invention technological thought.The technology of this invention The content that property scope is not limited in description, it is necessary to determine its technical scope according to right.

Claims (10)

1. a underwater robot, it is characterised in that including:

Main body, the outer wall in this main body is provided with power set；

One processor module is suitable to be advanced under water to control underwater robot by control power set.

Underwater robot the most according to claim 1, it is characterised in that

Described main body is fusiformis；

Described power set include three propeller type electric motor thrusters, and are distributed in outer wall in 120 °；

Described processor module is suitable to control three propeller type electric motor thruster collaborative works, to control underwater robot under water Advance.

Underwater robot the most according to claim 2, it is characterised in that

Being provided with ring-shaped guide rail around outer wall, the braced wing root of described propeller type electric motor thruster is provided with the cunning being embedded in circular orbit Dynamic device；

Described processor module is suitable to drive propeller type electric motor thruster annularly guide rail to move by carriage, to change Angle between each propeller type electric motor thruster.

Underwater robot the most according to claim 3, it is characterised in that described underwater robot also includes: with processor Module be connected camera head, communicator；

Described processor module passes through camera head identification target, and

Communication network is built to realize following the tracks of and location by communicator；

Described communicator includes mechanical wave communication module, sonar module and infrared module；Wherein

Mechanical wave communication module is suitable to produce the mechanical wave for telecommunication；

Sonar module is suitable to produce the high-frequency ultrasonic for middle distance communication；And

Infrared module is suitable to produce the infrared signal for Near Field Communication.

Underwater robot the most according to claim 4, it is characterised in that described underwater robot also includes:

The set of cells in series by some lithium battery groups, and for controlling the charge and discharge control module of battery set charge/discharge；

The outer wall of described main body is provided with photovoltaic battery panel, and the power supply of the outfan of this photovoltaic battery panel and charge and discharge control module Input is connected.

6. the method for work of a underwater robot as claimed in claim 1, it is characterised in that

Advance under water to control underwater robot by controlling power set.

The method of work of underwater robot the most according to claim 6, it is characterised in that

Described main body is fusiformis；

Described power set include three propeller type electric motor thrusters, and are distributed in outer wall；

Described processor module is suitable to control three propeller type electric motor thruster collaborative works, to control underwater robot under water Advance；And

Being provided with ring-shaped guide rail around outer wall, the braced wing root of described propeller type electric motor thruster is provided with the cunning being embedded in circular orbit Dynamic device；

Described processor module is suitable to drive propeller type electric motor thruster annularly guide rail to move by carriage, to change Angle between each propeller type electric motor thruster.

The method of work of underwater robot the most according to claim 7, it is characterised in that

When underwater robot is turned under water, the first propeller type electric motor thruster as turning fulcrum, second, third propeller Formula electric motor thruster moves towards, and closes up, i.e.

With the first propeller type electric motor thruster with the setting substantially symmetrical about its central axis of main body.

9. underwater crowd's cooperative control system, it is characterised in that include at least two water as claimed in claim 1 Lower robot.

Underwater crowd's cooperative control system the most according to claim 9, it is characterised in that described underwater robot Also include: the camera head that is connected with processor module, communicator；

Described processor module passes through camera head identification target, and

Communication network is built to realize following the tracks of and location by communicator；

Described communicator includes mechanical wave communication module, sonar module and infrared module；Wherein

Mechanical wave communication module is suitable to produce the mechanical wave for telecommunication；

Sonar module is suitable to produce the high-frequency ultrasonic for middle distance communication；

Infrared module is suitable to produce the infrared signal for Near Field Communication；And

After target looked for by arbitrary underwater robot, it is set to main underwater robot, convenes remaining underwater by communicator People is collected at main underwater robot.