CN209290651U - A kind of propulsion device and underwater robot for underwater robot - Google Patents

Abstract

The utility model discloses a kind of propulsion device for underwater robot, including balance element, propeller and driving mechanism for adjusting propeller direction of propulsion；Balance element is for making propulsion device keep balance；A kind of underwater robot, including propulsion device and for controlling propulsion device so that underwater robot is capable of the control system of directed movement, control system is electrically connected with propulsion device, the utility model passes through setting propeller and driving mechanism, driving mechanism main function is the direction of propulsion for adjusting propeller, by change propeller thrust direction to come realize propulsion device more freedom movement, and then realize underwater robot more freedom movement.The utility model realizes the multifreedom motion of underwater robot by the synergistic effect of control system and propulsion device by setting propulsion device and control system, and then realizes that underwater robot monitors more full visual angle.

Description

A kind of propulsion device and underwater robot for underwater robot

Technical field

The utility model relates to the technical fields of robot, specifically, refer to a kind of propulsion for underwater robot Device and underwater robot.

Background technique

Existing underwater robot can realize monitoring and be detected in water space, but current underwater robot prison There is certain limitation at the visual angle surveyed and detected, unable to monitor to arrive more full visual angle, thus there are underwater robot monitoring efficiencies not High technical problem.

Utility model content

The first of the utility model is designed to provide a kind of propulsion device for underwater robot, existing for solving Present in technology: the propulsion device for underwater robot can not achieve multifreedom motion, so as to cause underwater robot The technical issues of without more freedom locomitivity is realized.

The second of the utility model is designed to provide a kind of underwater robot, existing in the prior art for solving: Underwater robot can not achieve multivariant movement, so that underwater robot cannot be monitored and be visited with more full visual angle It looks into, thus the technical problem for keeping underwater task efficiency low.

The embodiments of the present invention are achieved in that including balance element, propeller and for adjusting the propeller The driving mechanism of direction of propulsion；The balance element is for making the propulsion device keep balance.

In order to which the utility model is better achieved, further, the driving mechanism includes steering engine and tuning component；It is described Steering engine and the tuning component are sequentially connected, so that the tuning component can adjust the direction of propulsion of the propeller.

In order to which the utility model is better achieved, further, the driving mechanism includes the first steering engine and the second steering engine, First steering engine and second steering engine are sequentially connected with the propeller.

Plane perpendicular to the rotational axis line of the rotation of propeller described in first servo driving is the first plane, vertically The plane of the rotational axis line of the rotation of the propeller described in second servo driving is the second plane, first plane and institute The angle for stating the second plane is α, α≤90 ° 0 <.

In order to which the utility model is better achieved, further, the angle α of first plane and second plane is 90 °, propeller described in the rotational axis line and second servo driving of the rotation of propeller described in first servo driving turns Dynamic rotational axis line is coplanar, the rotational axis line of the rotation of propeller described in first servo driving and the axle center of propeller Line is coplanar.

In order to which the utility model is better achieved, further, the propulsion device is multiple, multiple propulsion devices It is uniformly distributed in the balance element.

In order to which the utility model is better achieved, further, the propeller is hydraulic propeller.

A kind of underwater robot, including propulsion device and for controlling the propulsion device so that underwater robot can be determined To the control system of movement, the control system is electrically connected with the propulsion device.

In order to which the utility model is better achieved, further, the underwater robot further includes waterproof compartment, the control System is set in waterproof compartment, and the propulsion device is set in the outer wall of the waterproof compartment.

In order to which the utility model is better achieved, further, the balance element is annular in shape.

In order to which the utility model is better achieved, further, the underwater robot further includes shell, the propulsion dress It sets and is placed in the shell with the control system, the shell is equipped with the notch for propeller water spray.

In order to which the utility model is better achieved, further, the control system includes sensor, power supply and control group Part, the sensor, the control assembly and the driving mechanism with the power electric connection；The control assembly is for connecing Receive the information that the sensor issues and by the information carry out data processing and analysis simultaneously general's treated information to described Driving mechanism issues instruction.

The utility model compared with prior art, have the following advantages that and the utility model has the advantages that

First technical problem to be solved in the utility model is that propulsion device can not achieve multivariant movement, this is practical It is novel by setting propeller and driving mechanism, driving mechanism main function be the direction of propulsion for adjusting propeller, pass through Change propeller thrust direction to come realize propulsion device more freedom movement, and then realize underwater robot more Multivariant movement.

Second technical problem to be solved in the utility model is that underwater robot is unable to multifreedom motion, to make to monitor Incomplete with the visual angle detected, the utility model passes through control system and propulsion device by setting propulsion device and control system Synergistic effect, realize the multifreedom motion of underwater robot, and then realize that underwater robot possesses more full monitoring visual angle.

Detailed description of the invention

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other spies of the utility model Sign, objects and advantages will become apparent:

Fig. 1 is the structural schematic diagram of the utility model embodiment propulsion device；

Fig. 2 is the structural schematic diagram of the utility model embodiment hydraulic propeller and driving mechanism；

Fig. 3 is the structural schematic diagram of the utility model embodiment underwater robot；

Fig. 4 is the utility model embodiment underwater robot decomposition texture schematic diagram；

Fig. 5 is first visual angle of the utility model embodiment underwater robot perpendicular to horizontal motion；

Fig. 6 is second visual angle of the utility model embodiment underwater robot perpendicular to horizontal direction；

Fig. 7 is perspective view of the utility model embodiment underwater robot perpendicular to horizontal direction；

Fig. 8 is the first visual angle of the utility model embodiment underwater robot direction of forward movement；

Fig. 9 is the second visual angle of the utility model embodiment underwater robot direction of forward movement；

Figure 10 is the perspective view of the utility model embodiment underwater robot direction of forward movement；

Figure 11 is the first visual angle that the utility model embodiment underwater robot prolongs horizontal motion；

Figure 12 is the second visual angle that the utility model embodiment underwater robot prolongs horizontal motion；

Figure 13 is the perspective view that the utility model embodiment underwater robot prolongs horizontal motion；

Figure 14 is the first visual angle that the utility model embodiment underwater robot prolongs inclined direction movement；

Figure 15 is the second visual angle that the utility model embodiment underwater robot prolongs inclined direction movement；

Figure 16 is the perspective view that the utility model embodiment underwater robot prolongs inclined direction movement.

Wherein: 11- balance element, the first steering engine of 21-, the second steering engine of 22-, 23- tuning frame, 24- tuning axis, 25- propeller, 31- first shell, 32- second shell, 33- waterproof compartment.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Usually here in attached drawing description and The component of the utility model embodiment shown can be arranged and be designed with a variety of different configurations.

Therefore, requirement is not intended to limit to the detailed description of the embodiments of the present invention provided in the accompanying drawings below The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Based in the utility model Embodiment, every other embodiment obtained by those of ordinary skill in the art without making creative efforts, all Belong to the range of the utility model protection.

It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.

In the description of the present invention, it should be noted that the instructions such as term "vertical", "horizontal", "inner", "outside" Orientation or positional relationship is to be based on the orientation or positional relationship shown in the drawings or when utility model product use usually puts The orientation or positional relationship put, is merely for convenience of describing the present invention and simplifying the description, rather than indication or suggestion is signified Device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to this is practical Novel limitation.

Term " first ", " second " etc. are only used for distinguishing description, are not understood to indicate or imply relative importance.

Term " parallel ", " vertical " etc. are not offered as requiring component absolute parallel or vertical, but can be slightly tilted.Such as " parallel " only refers to that its direction is more parallel with respect to for " vertical ", is not that the expression structure has to be substantially parallel, and It is that can be slightly tilted.

The terms such as term "horizontal", "vertical", " pendency " are not offered as requiring component abswolute level or pendency, but can be with It is slightly tilted.It is not to indicate that the structure is had to if "horizontal" only refers to that its direction is more horizontal with respect to for "vertical" Fully horizontally, it but can be slightly tilted.

In addition, the terms such as " substantially ", " basic " be intended to illustrate related content be not require it is absolute accurate, but can be with There is certain deviation.Such as: " substantially parallel " be not offered as it is absolute parallel, due in actual production, operating process, it is difficult to do To absolute " parallel ", it is usually present certain deviation.It is unless otherwise specified, " big in the case of other as example The terms such as cause ", " basic " are meaning similar to the above.

In the description of the present invention, it should also be noted that, unless otherwise clearly defined and limited, term " is set Set ", " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, Or it is integrally connected；It can be directly connected, the company inside two elements can also be can be indirectly connected through an intermediary It is logical.For the ordinary skill in the art, above-mentioned term in the present invention specific can be understood with concrete condition Meaning.

A kind of propulsion device for underwater robot as shown in figures 1-4, including balance element 11, propeller 25 and is used for Adjust the driving mechanism of 25 direction of propulsion of propeller；The balance element 11 is for making the propulsion device keep balance.

Further, the driving mechanism includes steering engine and tuning component；The steering engine and the tuning component are sequentially connected, So that the tuning component can adjust the direction of propulsion of the propeller 25.

The driving mechanism includes the first steering engine 21 and the second steering engine 22, first steering engine 21 and second steering engine 22 It is sequentially connected with the propeller 25.

Further, the plane for the rotational axis line for driving the propeller 25 to rotate perpendicular to first steering engine 21 is the One plane, the plane perpendicular to the rotational axis line that second steering engine 22 drives the propeller 25 to rotate are the second plane, The angle of first plane and second plane is α, α≤90 ° 0 <.

Further, the angle α of first plane and second plane is 90 °, and first steering engine 21 drives described The rotational axis line that the rotational axis line that propeller 25 rotates drives the propeller 25 to rotate with second steering engine 22 is put down altogether The axial line in face, rotational axis line and propeller 25 that first steering engine 21 drives the propeller 25 to rotate is coplanar.

Further, the propulsion device is multiple, and multiple propulsion devices are uniformly distributed in the balance element 11.

Further, the propeller 25 is hydraulic propeller 25.

It should be pointed out that underwater robot is also developed rapidly, mesh with the development of robot and the relevant technologies The propulsion device of preceding underwater robot is usually that freedom degrees more as far as possible is realized using least propeller 25.The prior art In, usually only select a propeller 25, but use propeller 25 in terms of thrust is provided on be clearly present deficiency, So that the traveling posture of underwater robot is difficult to control, to be difficult to realize the movement of underwater robot more freedom.

The present apparatus is mainly used for solving the technical problems existing in the prior art: the propulsion dress of existing underwater robot It sets, cannot realize full view pose adjustment in the case where low energy consumption, high reliability, that is, can not achieve multivariant movement； In order to realize multivariant movement, the present apparatus passes through setting balance element 11, propeller 25 and driving mechanism.

It is a variety of that the propeller 25 of the present apparatus can be screw propeller 25, hydraulic propeller 25 or vector propeller 25 etc. In any one, used by screw propeller is current most of underwater robots, its thrust be by fluid from What the variation in front of propeller to rear propeller momentum generated, even if also water is released and is accelerated in water by the helicoid of blade, Since the reaction force of water flow generates thrust in turn.In order to obtain higher movement velocity, screw propeller is optimal choosing It selects, because of screw propeller thrust with higher.Really screw propeller can generate higher thrust, but also therefore Biggish running noise will be generated, which is unfavorable for the operation of underwater robot, is especially detrimental to underwater robot Concealment.

Therefore this propulsion device is preferably hydraulic propeller 25 and vector propeller, still further preferably be hydraulic jet propulsion Device 25, hydraulic propeller 25 are to spray the reaction force of the resultant force of water flow by spraying after water pump acquisition speed through spout by water For thrust, thrust pushes underwater robot movement, and hydraulic propeller 25 is used as power source using water spray motor, has more excellent Point, such as noise are small, good concealment, and blown-out shot effect is low.In addition, the operability of hydraulic propeller 25 is stronger, because water flow is logical After crossing spout ejection, water (flow) direction is certain, so that propulsion device be enable to walk along fixed route, cooperates driving mechanism control The outbound course of brake force, so that the action control of underwater robot is more accurate, propulsive efficiency is higher.

The main function of driving mechanism is for adjusting 25 water spraying direction of hydraulic propeller, and driving mechanism mainly includes rudder Machine is the first steering engine 21 and the second steering engine 22 respectively, wherein turning perpendicular to what the first steering engine 21 driving hydraulic propeller 25 rotated The plane of dynamic axial line is the first plane, drives the flat of the rotational axis line of the rotation of hydraulic propeller 25 perpendicular to the second steering engine 22 Face is the second plane, and there are angle α, the value ranges of the angle α between the first plane and the second plane are as follows: 0 α≤90 ° < lead to The first steering engine 21 and 22 collective effect of the second steering engine are crossed in hydraulic propeller 25, the water spray side of hydraulic propeller 25 is adjusted with this To the reverse thrust direction of the water spray thrust of hydraulic propeller 25, then be the direction of motion of hydraulic propeller 25, is pushed away by changing water spray Into the water spraying direction of device 25, to change the direction that propulsion device moves under water, and then changes underwater robot and transport under water Dynamic direction.

When the angle of the first plane and the second plane is 90 °, the first steering engine 21 drives the rotation axis of the rotation of propeller 25 Heart line and the rotational axis line that the second steering engine 22 driving propeller 25 rotates are coplanar, and the first steering engine 21 drives propeller 25 to rotate Rotational axis line and propeller 25 axial line it is coplanar.

The axial line of propeller 25 needs to illustrate herein, when propeller 25 is hydraulic propeller, the propeller 25 Axial line be spout axial line；When propeller 25 is screw propeller, the axial line of propeller 25 turns for propeller The rotational axis line of axis.It is 90 ° that α, which is arranged, and the range that 25 thrust of propeller can be adjusted at this time is wider, and the propeller 25 Motive force is more uniform, is more advantageous to the direction of motion for controlling entire propulsion device comprehensively.

In order to change the water spraying direction of hydraulic propeller 25, the driving mechanism further includes steering engine and tuning component, As shown in Fig. 2, adjusting the direction of motion of tuning component under the driving effect of steering engine, steering engine can be one, be also possible to more A, it is the first steering engine 21 and the second steering engine 22 respectively that the preferred steering engine of the present apparatus, which is two, and the first steering engine 21 and the second steering engine 22 can drive tuning component simultaneously.

Tuning component mainly includes tuning frame 23 and tuning axis 24, and as shown in the figure, the tuning frame 23 is u-shaped, spray Water propeller 25 is placed in tuning frame 23, and tuning axis 24 sequentially passes through tuning frame 23 and hydraulic propeller 25.Wherein the first steering engine 21 are sequentially connected with tuning frame 23, and the second steering engine 22 is sequentially connected with tuning axis 24, drive tuning frame perpendicular to the first steering engine 21 The plane of 23 rotational axis line intersects with the plane of the rotational axis line perpendicular to the second steering engine 22 driving tuning axis 24, angle For greater than 0 ° and less than or equal to 90 °.

Tuning frame 23 is driven by the first steering engine 21, the second steering engine 22 drives tuning axis 24, passes through tuning frame 23 and tuning Axis 24 acts synergistically on hydraulic propeller 25 simultaneously, changes the water spraying direction of hydraulic propeller 25 with this, and then realize and promote dress The adjusting in direction is set, to achieve the purpose that adjust the underwater robot direction of motion.

It is driven perpendicular to the plane of the rotational axis line of the first steering engine 21 driving tuning frame 23 with perpendicular to the second steering engine 22 The angle of the plane intersection of the rotational axis line of tuning axis 24 is 90 °, the range that 25 thrust of hydraulic propeller can be adjusted at this time It is wider, and the motive force of hydraulic propeller 25 is more uniform, is more advantageous to the direction of motion for controlling entire propulsion device comprehensively.

In order to make the present apparatus be able to maintain balance under water, therefore the present apparatus further comprises balance element 11, and balance element 11 have diversified forms.The balance element 11 of the present apparatus can be clump weight, be also possible to annulus etc..Present apparatus propeller 25 and drive Dynamic Mechanism Combination is propulsive mechanism, propulsive mechanism more than one, when propulsive mechanism only one when, which preferably matches Pouring weight.Propulsive mechanism can have multiple, such as have 4, the balance element 11 is annular in shape, which is located at flat The four direction of weighing apparatus part 11, as shown in fig. 1, balance element 11 does not only serve certain balanced action at this time, also plays connection function. The present apparatus adjusts the direction of propulsion of entire propulsion device by 4 propulsive mechanisms of setting jointly, which is 4 water sprays The opposite direction of the resultant force of 25 thrust of propeller.

The embodiment one of the present apparatus: the present apparatus has 4 propulsive mechanisms, and 4 propulsive mechanisms are located at balance 4 directions of part 11 drive hydraulic propeller 25 simultaneously by the first steering engine 21 and the second steering engine 22, and change hydraulic propeller 25 water spraying directions, the opposite direction of the resultant force of the thrust of 4 propulsive mechanisms are the direction of motion of propulsion device.

The embodiment two of the present apparatus: as shown in the figure, the present apparatus has 4 propulsive mechanisms, and 4 propulsive mechanisms point Not Wei Yu balance element 11 4 directions, by the first steering engine 21 drive tuning frame 23, the second steering engine 22 drive tuning axis 24, lead to Toning acts synergistically on hydraulic propeller 25 simultaneously to frame 23 and tuning axis 24, to change the side of the water spray of hydraulic propeller 25 To the opposite direction of the resultant force of the thrust of 4 propulsive mechanisms is the direction of motion of propulsion device.

The present apparatus is by setting driving mechanism, balance element 11 and propeller 25, under the driving effect of driving mechanism, thus Propulsion device is set to complete multivariant movement.

A kind of underwater robot, including propulsion device and for controlling the propulsion device so that underwater robot can be determined To the control system of movement, the control system is electrically connected with the propulsion device.

Further, the underwater robot further includes waterproof compartment 33, and the control system is set in waterproof compartment 33, described to push away The outer wall of the waterproof compartment 33 is set in into device.

Further, the balance element 11 is annular in shape.

Further, the underwater robot further includes shell, and the propulsion device and the control system are placed in described In shell, the shell is equipped with the notch for the propeller 25 water spray.

Further, the control system includes sensor, power supply and control assembly, the sensor, the control assembly With the driving mechanism with the power electric connection；The control assembly is used to receive the information that the sensor issues, simultaneously The information is subjected to data processing and analysis, treated information is issued to the driving mechanism instruct simultaneously.

It should be pointed out that underwater robot is mainly used for underwater monitoring and detecting, existing underwater robot by More multifactor limitation, for example promote angle that cannot have more freedom degrees etc., to make the free movement of underwater robot The range of degree is more narrow, and the underwater robot of the utility model can be realized the monitoring of more free angles and detect, to make water The underwater monitoring of lower robot and detect more full view, more precisely.

There is the movement of more freedom in order to realize underwater robot under water, using propulsion device and for controlling The propulsion device so that underwater robot directed movement control system.

The propulsion device includes propeller 25 and the driving mechanism for adjusting 25 direction of propulsion of propeller, Yi Jibao Demonstrate,prove the balance element 11 of entire underwater robot balance.

Underwater robot further includes shell, which can be spherical in shape, the body of torpedo constant current contour type, and the shell The material of body, which can be, selects metal plate either glass fibre etc., and the shell of this underwater robot is preferably spherical, because of ball This shape of shape has particularity, can realize when carrying out Dynamic Modeling to it and simplify calculating, wherein spherical underwater resistance to compression Property and stability all compared to other shapes for, be more convenient for controling and useing, propulsion device and control system be set to shell In vivo, underwater robot is made to have higher mobility and anti-interference ability.

When the shape of shell is spherical, as shown in Fig. 3,4, shell includes first shell 31 and second shell 32, Middle first shell 31 is identical with the shape and structure of second shell 32, and is designed with and is used in first shell 31 and second shell 32 The notch of 25 spout of hydraulic propeller water spray, as shown in Fig. 3,4, the shape of the notch can be in U-shape.

Underwater robot further includes waterproof compartment 33, and the main function of the waterproof compartment 33 is for placing control system and connection Propulsion device is set in the outer wall of waterproof compartment 33 by propulsion device.

The control system being placed in waterproof compartment 33 mainly includes sensor, power supply and control assembly, wherein sensor master Including be gravity sensor, pressure sensor and inertial sensor etc..Inertial sensor mainly detects and measurement is underwater Acceleration, inclination, shock and vibration, rotation and the multifreedom motion of robot are to solve navigation, orientation and motion carrier control The important component of system.The main function of gravity sensor is acceleration caused by measurement gravity, can calculate underwater robot Tilt angle with respect to the horizontal plane.

Control system further includes depth gauge, gyroscope and communication module etc..

Control assembly mainly includes the first circuit, second circuit, and the DSP in the first circuit is as first processor for connecing It receives the underwater acceleration of underwater robot of sensor sending, gradient, impact force, Vibration Condition, rotate angle and mostly oneself By information such as degree movements, and to second processing above- mentioned information progress data processing and be sent in the second circuit of control assembly Device, AVR is used to receive the instruction of the first processing as second processor and passes through pwm signal in second circuit controls first respectively The operating of steering engine 21, the second steering engine 22 and hydraulic propeller 25.Wherein DSP first processor selects TMS320F28355 type number Signal processor, AVR second processor select ATmega2560 microprocessor；Life between first processor and second processor It enables and state feds back through RS232 asynchronous serial communication to realize；Transmission data between inertial sensor and first processor With configuration etc. pass through SPI (Serial Peripheral Interface (SPI)) Lai Shixian；Communication between pressure sensor and first processor is synchronous by I2C Serial communication is realized.

The workflow of control system: first processor receives inertial sensor and pressure sensor by SPI or I2C Data after carry out necessary data processing, then, first processor sends control command to second processor by RS232, Second processor, which receives, sends hydraulic propeller 25 that pwm signal act to needs after the order of first processor or servo is electric Machine, so that entire underwater spherical robot be made to be moved accordingly under the action of propulsion device.

The control system of the present apparatus has two layers of design on hardware, and the control panel of first layer is core control panel, core Control panel is DSP control panel, the control panel of the second layer by AVR control panel as the core for controlling the performers such as steering gear electric-machine, Double-layer structure has not only functionally done and has clearly divided, but also physical space is mutually also isolated, and it is dry to avoid mutual electromagnetism It disturbs.Meanwhile this space just gives the communication module of integration to provide space, so that the space acquisition in waterproof compartment 33 is higher Utilization rate, whole layout more optimizes, at the same can also there are spaces, further upgrading control system so that underwater machine Device people can complete increasingly complex task.

Specific embodiment: underwater robot passes through sensor collecting data information under water, and the data of acquisition are believed Breath is sent to control assembly, is handled by control assembly, analysis processing, and sends final output order to propulsion device, leads to Steering engine is crossed to adjust 25 water spraying direction of hydraulic propeller, to change the direction of underwater robot；Pass through control system and propulsion Device synergistic effect driving underwater robot, enables underwater robot to complete the monitoring of more freedom and detect, to mention The dependable with function of high underwater robot.

Second shell 32 is always perpendicular to horizontal plane, when underwater robot is needed perpendicular to horizontal motion, such as Fig. 5 Shown in~7, the first steering engine 21 and the second steering engine 22 driving hydraulic propeller 25 jointly make the direction of spout perpendicular to horizontal plane, And hydraulic propeller 25 is driven to prolong spout direction water spray.

Second shell 32 is always perpendicular to horizontal plane, when underwater robot needs to travel forward, as shown in figs. 8-10, First steering engine 21 and the second steering engine 22 driving hydraulic propeller 25 jointly, the propulsive thrust of the resultant force of all hydraulic propellers 25 to Before, and hydraulic propeller 25 is driven to prolong different 25 spout direction of hydraulic propeller water sprays.

Second shell 32 is always perpendicular to horizontal plane, when underwater robot needs to prolong horizontal motion, as Figure 11~ Shown in 13, the first steering engine 21 and the second steering engine 22 drive hydraulic propeller 25 jointly, are overlapped the direction of spout with horizontal direction, And hydraulic propeller 25 is driven to prolong spout direction water spray.

Second shell 32 is always perpendicular to horizontal plane, when underwater robot is needed towards when inclined direction movement, as Figure 14~ Shown in 16；First steering engine 21 and the second steering engine 22 driving hydraulic propeller 25 jointly, the resultant force of all hydraulic propellers 25 it is anti- Thrust is the power that inclined direction advances, and hydraulic propeller 25 is driven to prolong different 25 spout direction of hydraulic propeller sprays Water.

While there has been shown and described that the embodiments of the present invention, it will be understood by those skilled in the art that Are as follows: these embodiments can be carried out with a variety of variations, modification, replacement in the case where not departing from the principles of the present invention and objective and become Type, the scope of the utility model are defined by the claims and their equivalents.

Claims (9)

1. a kind of propulsion device for underwater robot, which is characterized in that described including balance element, propeller and for adjusting The driving mechanism of propeller direction of propulsion；The balance element is for making the propulsion device keep balance；The driving mechanism packet Include steering engine and tuning component；The steering engine and the tuning component are sequentially connected so that the tuning component can adjust it is described The direction of propulsion of propeller.

2. the propulsion device according to claim 1 for underwater robot, which is characterized in that the driving mechanism includes First steering engine and the second steering engine, first steering engine and second steering engine are sequentially connected with the propeller；

Plane perpendicular to the rotational axis line of the rotation of propeller described in first servo driving is the first plane, perpendicular to institute The plane for stating the rotational axis line of the rotation of propeller described in the second servo driving is the second plane, first plane and described the The angle of two planes is α, 0 α≤90 ° <.

3. the propulsion device according to claim 2 for underwater robot, which is characterized in that the α is 90 °, described The rotation of propeller rotation described in the rotational axis line and second servo driving of the rotation of propeller described in first servo driving Axial line is coplanar, and the rotational axis line of the rotation of propeller described in first servo driving and the axial line of propeller are put down altogether Face.

4. the propulsion device according to claim 1 for underwater robot, which is characterized in that the propulsion device is more A, multiple propulsion devices are uniformly distributed in the balance element.

5. a kind of underwater robot, it is characterised in that: including the described in any item propulsion devices of Claims 1 to 4 and for controlling The propulsion device is made so that underwater robot is capable of the control system of directed movement, the control system and the propulsion device Electrical connection.

6. underwater robot according to claim 5, it is characterised in that: the underwater robot further includes waterproof compartment, institute Control system is stated in waterproof compartment, the propulsion device is set in the outer wall of the waterproof compartment.

7. underwater robot according to claim 6, it is characterised in that: the balance element is annular in shape.

8. underwater robot according to claim 5, it is characterised in that: the underwater robot further includes shell, described Propulsion device and the control system are placed in the shell, and the shell is equipped with the notch for propeller water spray.

9. according to the described in any item underwater robots of claim 6~8, it is characterised in that: the control system includes sensing Device, power supply and control assembly, the sensor, the control assembly and the driving mechanism with the power electric connection；Institute Control assembly is stated for receiving the information of the sensor sending and the information being carried out data processing and analysis, simultaneously by place Information after reason is issued to the driving mechanism to be instructed.