CN207189670U - Controllable underwater robot - Google Patents

Abstract

The utility model discloses a kind of controllable underwater robot, include the streamlined body of non-revolved body, body front part lateral dimension is less than back body lateral dimension, and the size in the middle part of main body is more than left and right symmetrical both sides；Gravity center adjusting mechanism, power battery pack and equipment compartment are respectively equipped with before, during and after in the middle part of main body, buoyancy compartment is respectively equipped with the both sides of main body, offer water stream channel on the outside of left and right buoyancy compartment respectively, the water inlet of the water stream channel sidepiece of pass-out main body, the rear portion of pass-out main body backward forward；Gravity center adjusting mechanism includes the pouring weight and linear electric motors set by forward and backward position, and for pouring weight in a rolling manner in the conduit of forward and backward, the forward and backward flexible output shaft of linear electric motors connects pouring weight by pull bar；The delivery port of each water stream channel is equipped with spiral propeller.The utility model profile is succinct, and boat state stability is good, and Autonomous attitude control is convenient, and driving efficiency is high.

Description

Controllable underwater robot

Technical field

Underwater robot equipment is the utility model is related to, specially a kind of controllable underwater robot.

Background technology

Underwater robot is widely used in investigating the fields such as operation, marine environmental monitoring under water, generally relies on underwater The various equipment that people is carried complete set task, different tasks have to the kinetic characteristic of underwater robot it is different will Ask.

Usual underwater robot is in operation, it is necessary to which moving under water in a wide range of different depth, this same The grand movement of depth of water aspect and the flexible modulation of different depth are, it is necessary to which underwater robot possesses multiple free degree motions certainly The ability of dynamic control, along with underwater environment is severe, current are complicated, further to the adjust automatically of underwater robot motion state Ability proposes requirement.

Existing underwater robot, there are problems that in terms of attitude stability and posture autonomous control.For adopting With the underwater robot of revolution bodily form main body, rolling is easily produced under water, and longitudinal stability is also not readily available guarantee, resists Interference performance is weaker；And for the underwater robot of non-rotating bodily form main body, configuration design existing defects, make underwater navigation resistance It is too big, moreover, its motion control device is often excessively complicated, it is not easy to manipulate, cost is higher.

In addition, some underwater robots are rotated using motor drive screw or screw rod at present, and then by driving weight The center of gravity regulative mode that block vertically moves changes the longitudinal center of gravity position of underwater robot, make underwater robot realize pitching or Heave movement, the problem of this center of gravity regulative mode is deposited be：

On the one hand, screw mandrel or screw rod rotation are moved by screw drive pouring weight, and rotational resistance is too big, it is necessary to motor output shaft Very big moment of torsion is produced, center of gravity regulation is dumb, it has not been convenient to, it is big to the loss of electric machine；On the other hand, the rotation fortune of screw mandrel or screw rod The dynamic transverse stability to underwater robot is unfavorable.

Utility model content

In view of the shortcomings of the prior art, technical problem to be solved in the utility model be propose a kind of profile rationally, Controllable underwater robot simple in construction, easy to control.

The controllable underwater robot of above-mentioned technical problem is can solve the problem that, its technical scheme includes streamlined body, and institute is not Be

1st, the main body is non-revolved body, and the lateral dimension of body front part is less than the lateral dimension of back body, horizontal face Interior, the size in the middle part of main body is more than left and right symmetrical both sides.

2nd, the interior position before, during and after is respectively equipped with gravity center adjusting mechanism, power battery pack and equipment in the middle part of the main body Storehouse, buoyancy compartment is respectively equipped with the both sides of main body, offers water stream channel respectively on the outside of left and right buoyancy compartment, the current lead to The sidepiece of the water inlet in road pass-out main body forward, the rear portion of the delivery port of water stream channel pass-out main body backward.

3rd, the gravity center adjusting mechanism includes the pouring weight and linear electric motors set by forward and backward position, and the pouring weight is to roll Mode located at forward and backward conduit in, the forward and backward flexible output shaft of linear electric motors connects pouring weight by pull bar.

4th, the delivery port of each water stream channel is equipped with spiral propeller.

Further, on the front end of the pull bar and pouring weight between cut with scissors and fill by horizontal pivot pin, the rear end of pull bar with it is straight Connected between the output shaft of line motor by axle sleeve.

Further, the pouring weight is set to cube shape, and the conduit is designed as the square groove of matching, and the four sides of pouring weight is (above, Under, it is left and right) rolling pair is provided between the corresponding groove face of conduit.

Steady to make to move under water, the rear portion of the main body is provided with vertical configuration empennage.

The beneficial effects of the utility model：

1st, the utility model can control underwater robot contour structures rationally (to possess the non-revolved body master of streamlined contour Body), outer surface does not have excessive auxiliary equipment, more bright and clean neat, and water resistance is advantageously reduced when moving under water.

2nd, stability of the present utility model is got a promotion, and main body possesses certain lateral dimension, and weight centralized arrangement is existed Centre, the appropriate position (buoyancy compartment is arranged in into main body both sides) for arranging buoyancy compartment, possess underwater robot preferably horizontal steady Property.

3rd, the utility model controlling organization is simple, and the forward and backward movement of pouring weight only need to can be driven by a linear electric motors, and The output shaft of linear electric motors stretches for front and rear direction, overcomes and is transported by the convert rotational motion of screw mandrel or screw rod for pouring weight straight line Dynamic deficiency, can flexible center-of-gravity regulating position and realize elevating movement；Pouring weight is hinged with pull bar, is easy to promote pouring weight Vibration certain Shi Shiying, fixed contact is avoided to produce interference, back body both sides set screw propeller, before can both providing To propulsive force, it can also be used to realize and turn to.

4th, the utility model control efficiency is high, and pouring weight in conduit with roll mode in being moved, friction when reducing mobile, Linear electric motors can easily drive the forward and backward movement of pouring weight, reduce power needed for linear electric motors, and can quickly change front and rear direction Position of centre of gravity, make underwater robot produce pitching motion, realize quick regulation depth.

5th, screw propeller of the present utility model is arranged in water stream channel, is had stable current source, is improved Propulsive efficiency so that this underwater robot possesses the quick ability for changing athletic posture, and flexibility is stronger.

Brief description of the drawings

Fig. 1 is a kind of structural representation of embodiment (vertical view) of the utility model.

Fig. 2 is the rearview of Fig. 1 embodiments.

Fig. 3 is the A-A cut-away views in Fig. 1 embodiments.

Fig. 4 is the structural representation of gravity center adjusting mechanism in Fig. 1 embodiments.

Figure number identifies：1st, main body；2nd, gravity center adjusting mechanism；3rd, power battery pack；4th, equipment compartment；5th, buoyancy compartment；6th, current Passage；7th, pouring weight；8th, linear electric motors；8-1, output shaft；9th, conduit；10th, pull bar；11st, spiral propeller；12nd, roller；13、 Axle sleeve；14th, pivot pin；15th, empennage.

Embodiment

Illustrated embodiment is described further to the technical solution of the utility model below in conjunction with the accompanying drawings.

The utility model can control underwater robot, including streamlined body 1 (non-revolved body), the front portion of main body 1 Lateral dimension is less than the lateral dimension at the rear portion of main body 1, and in horizontal face, the size at the middle part of main body 1 is more than left and right symmetrical both sides Portion, main body 1 it is anterior pointed, the rear portion of main body 1 is planar end surface, as shown in Figure 1.

In in the middle part of main body 1, before, during and after position on be respectively equipped with gravity center adjusting mechanism 2, power battery pack 3 and equipment Storehouse 4, buoyancy compartment 5 is respectively equipped with the both sides of main body 1 (close to middle part), is opened respectively in the main body 1 in the left and right outside of buoyancy compartment 5 Provided with water stream channel 6, the water inlet of left and right water stream channel 6 distinguishes forward the left and right side of pass-out main body 1, and left and right current lead to The delivery port in road 6 distinguishes the rear portion of pass-out main body 1 backward, is equipped with to fix by support in the delivery port of each water stream channel 6 and pacifies The spiral propeller 11 (being made up of watertight motor and propeller) of dress, the watertight motor provide electric power by power battery pack 3, main The posterior central (top of equipment compartment 4) of body 1 is provided with vertical configuration empennage 15, as shown in Figure 1 and Figure 2.

The gravity center adjusting mechanism 2 includes pouring weight 7 and linear electric motors 8 forward and backward and put, and the pouring weight 7 is cubic Iron block (its weight should meet when pouring weight forward and backward position change when, the position significant change of robot center of gravity), pouring weight 7 can before, Movably it is placed in matched square conduit 9, leads between the upper and lower, left and right face of pouring weight 7 and the corresponding groove face of conduit 9 afterwards Rolling pair installation is crossed, the rolling pair includes the roller 12 being installed on pouring weight 7 and the wheel ditch being opened on conduit 9；It is described heavy Connected between block 7 and the output shaft 8-1 of linear electric motors 8 by pull bar 10, be specially：The front end of the pull bar 10 and pouring weight The bearing of 7 rear portion end face is hinged by the pivot pin 14 of level, and the rear end of pull bar 10 is defeated by axle sleeve 13 and linear electric motors 8 Shaft 8-1 connections, the rear end of pull bar 10, the output shaft 8-1 of linear electric motors 8 are plugged in axle sleeve 13 and by interspersed latch Fixed position, linear electric motors 8 also provide electric power by power battery pack 3, as shown in Fig. 1, Fig. 3, Fig. 4.

Be additionally provided with control board in the main body 1, to control the output shaft 8-1 of linear electric motors 8 extension elongation and The rotating speed of the watertight motor of spiral propeller 11, the output shaft 8-1 of the linear electric motors 8 range is 200mm.

The method of operation of the present utility model is：

1st, stress balance of the robot in water is adjusted, is at upright condition, the state is residing for underwater robot Original state, in this condition, pouring weight 7 is in the centre position of conduit 9, i.e., the output shaft of linear electric motors 8 under original state 8-1 forward extends out certain length.

2nd, left and right screw propeller 11 drives underwater robot to advance or fall back.

3rd, control the output shaft 8-1 of linear electric motors 8 further to stretch out or retract, drive pouring weight 7 to move forward or backward, make The center of gravity of underwater robot changes and realizes elevating movement forward or backward, and then changes depth of moving under water.

4th, by controlling the size and Orientation of the left and right thrust of screw propeller 11, divertical motion is realized.

Claims (4)

1. controllable underwater robot, including streamlined body (1), it is characterised in that：

1., the main body (1) be non-revolved body, the anterior lateral dimension of main body (1) is less than the lateral dimension at main body (1) rear portion, In horizontal face, the size in the middle part of main body (1) is more than left and right symmetrical both sides；

2., in the middle part of the main body (1) in before, during and after position be respectively equipped with gravity center adjusting mechanism (2), power battery pack (3) and Equipment compartment (4), buoyancy compartment (5) is respectively equipped with the both sides of main body (1), current are offered respectively on the outside of left and right buoyancy compartment (5) Passage (6), the sidepiece of the water inlet of the water stream channel (6) pass-out main body (1) forward, the delivery port of water stream channel (6) is backward The rear portion of pass-out main body (1)；

3., the gravity center adjusting mechanism (2) include by forward and backward position set pouring weight (7) and linear electric motors (8), the pouring weight (7) in a rolling manner in the conduit (9) of forward and backward, the forward and backward flexible output shaft (8-1) of linear electric motors (8) is logical Cross pull bar (10) connection pouring weight (7)；

4., the delivery port of each water stream channel (6) be equipped with spiral propeller (11).

2. controllable underwater robot according to claim 1, it is characterised in that：The front end of the pull bar (10) with again Cut with scissors and filled by horizontal pivot pin (14) between on block (7), the rear end of pull bar (10) and the output shaft (8-1) of linear electric motors (8) it Between pass through axle sleeve (13) connect.

3. controllable underwater robot according to claim 2, it is characterised in that：The pouring weight (7) is cube shape, described Conduit (9) is the square groove of matching, and the four sides of pouring weight (7) between the corresponding groove face of conduit (9) with being provided with rolling pair.

4. the controllable underwater robot according to any one in claims 1 to 3, it is characterised in that：The main body (1) Rear portion be provided with vertical configuration empennage (15).