CN201240497Y - Bionic robot fish - Google Patents

Abstract

The utility model discloses a bionic robot fish which can move forward with different speeds and turn left and right with different turning radiuses. The bionic robot fish adopts single degree of freedom control mode and uses a servomotor to realize the reversing through a reversing gear set, so as to drive a swing rod to swing; a pin shaft arranged on the rear end of the swing rod drives an elastic thin plate to swing in a reciprocating way; and one end of the elastic thin plate is fixed on a robot fish frame, and the other end is free. The control system controls the elastic thin plate to have different swing modes, so as to control the robot fish to have different swimming modes; when the swing rod symmetrically swings leftwards and rightwards, the robot fish moves forward; the swing amplitude and frequency are changed to control the forward speed of the robot fish; when the swing rod only swings on one side; for example, the swing rod only swings on the left side to enable the fish to turn left, and the robot fish turns; the swing amplitude and frequency of the swing rod are changed to control the turning radius of the robot fish.

Description

Bionic machine fish

Technical field

The utility model relates to a kind of device that underwater exploration, underwater observation, investigation under water etc. can be carried out activity at water that is used for, and specifically is a kind of bionic machine fish.

Background technology

Moving about of fish, the moving about of Te other Shi Ajigasawa section class fish, its power resources mainly are the swings of afterbody.At present, the moving about of the machine fish device of wagging the tail adopts the series connected type of drive of multi-joint mostly, and this mode is controlled more complicated; The mode that perhaps adopts artificial-muscle to drive, these mode costs are very high and control is complicated.

Summary of the invention

Technical problem to be solved in the utility model is at above-mentioned the deficiencies in the prior art, and a kind of simple in structure and bionic machine fish that swimming effect is true to nature is provided.

For solving the problems of the technologies described above, the utility model adopts following technical scheme: a kind of bionic machine fish, comprise fish-skin, the fish tail skeleton, fish body skeleton and be arranged on servomotor torque constant on the fish body skeleton, described fish-skin is enclosed within outside described fish tail skeleton and the fish body skeleton, also comprise a bevel-gear pair, this bevel-gear pair also is arranged on the described fish body skeleton, the output shaft of described servomotor torque constant is captiveed joint with the input shaft of bevel-gear pair, the output shaft of bevel-gear pair is captiveed joint with the fixed end of a fork, end at fish body skeleton also is provided with an elastic sheet, described fish tail skeleton and described elastic sheet are fixedly linked, one end of elastic sheet links to each other with fish body skeleton, and the end of elastic sheet is the fish tail direction, and the middle part of elastic sheet and the free end of described fork flexibly connect.

The appearance profile of described elastic sheet is a fish shape.

The coupling end of described elastic sheet and fish body skeleton offers a notch, this breach extends to the caudal peduncle place of machine fish, described fork is positioned at the center of breach, and offers notch at the free end of fork, and described fork is plugged on the notch inboard of elastic sheet by notch.

Free end at described fork is provided with a short pin, offers notch at the two ends of this weak point pin, and the breach both sides of described elastic sheet are arranged in the notch.

Described short pin is positioned at the caudal peduncle place of machine fish, especially is positioned at the caudal peduncle end of machine fish.

The thickness of described elastic sheet breach both sides is identical, and one-sided thickness is from the terminal linear decrease of fish body skeleton coupling end to breach.

The mechanism of moving about of the utility model machine fish is, in water, is subjected to the cantilever beam of a concentrated force that back and forth changes, and the body centre's curve during the moving about of the curve of its fluctuation and crucian is similar.Core of the present utility model is the swing design of afterbody.Described according to principle, use the afterbody of elastic body simulation fish here, substitute the rigid construction that existing designing institute adopts.Use specially control system of motor control servomotor torque constant to drive the swing of afterbody, elastomeric afterbody is to be realized by the elastic sheet that can be reduced to the cantilever beam model.The power resources of afterbody have only a servomotor torque constant, and concrete mechanical mechanism comprises with the lower part: servomotor torque constant, commutation bevel gear set, elastic sheet and fork.The rotation of servomotor torque constant drives a fork through bevel-gear sett direction reverser commutation back and rotates around it the center rotation; The rotation of fork drives bonded assembly elastic sheet terminal with it and bends, elastic sheet is subjected to the combined action of the distribution resistance of the concentrated force of point of connection and outside water when crooked, just produce the circular swing motion of fish tail, thereby reach unanimity with real fish trip attitude, effect is true to nature.

Compared with prior art, the utlity model has following advantage:

1, bionic machine fish of the present utility model, servomotor torque constant is captiveed joint with fork by the commutation bevel gear set, the rotation of motor is changed into the swing of fork, end at fork connects elastic sheet, and when the machine fish moved about in water, the Thin Elastic of afterbody was subjected to the double action of the concentrated application force and the water distribution resistance of fork, therefore, the swinging track of fish tail portion is a curve, and real fish trip attitude reaches unanimity, and effect is true to nature.

2, after the employing profile is the elastic sheet of fish shape, the swing of machine fish is consistent with the swing curve of true fish more, the concentrated stress point of elastic sheet is at the center of elastic sheet, only be subjected to the time spent of doing of fork concentrated force when elastic sheet, elastic sheet itself just has center stress point distortion greatly, the characteristics that peripheral distortion is little when swing, when the time spent of doing that is subjected to the water distribution resistance simultaneously, the distortion of elastic sheet just more with the curves of moving about of true fish.

3, the utility model machine fish is provided with breach on elastic sheet, thereby the coupling end of elastic sheet and fish body skeleton is divided into two parts up and down, fork is positioned at breach, and elastic sheet is inserted in the notch of fork front end, and is same, have simple in structure, and the swing characteristics that are easy to control.

4, the utility model is provided with short pin at the free end of fork, described short pin is cylindrical, two ends symmetry up and down, all have notch, two parts that elastic sheet is divided into by breach are connected to respectively in the two ends notch of short pin, the single-acting point of fork is converted into short two point of actions of selling, makes that the swing of elastic sheet is more reasonable, up and down reaching unanimity property.

5, the utility model elastic sheet is identical by the up and down two-part thickness that breach is divided into, and one-sided thickness is from the terminal linear decrease of fish body skeleton coupling end to breach, one end of elastic sheet is fixed on the fish body skeleton, the point of action of free-ended concentrated application force is at the caudal peduncle place of fish, the thin slice that adopts width linearity to successively decrease, it is when being subjected to application force, the position of different in width, deflection difference when identical big application force, so after adopting such flake structure, the machine fish is consistent with true fish more in the swing that is right.

6, can control the machine fish and can advance and different turn radius turnings with different speed by the control servomotor torque constant, process is true to nature flexibly, and control method is simple.

Description of drawings

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

Fig. 1 is a machine fish tail internal mechanism sketch.

Fig. 2 is a machine fish internal structure front elevation.

Fig. 3 is the birds-eye view of Fig. 2.

Fig. 4 is the perspective view of Fig. 1.

Fig. 5 is the utility model elastic sheet structural representation.

Fig. 6 fish body line of centers and elastic sheet deformation pattern, 6 (a) are the move about center curve of one group of body contour in the process of true crucian, 6 (b) are that the elastic sheet of the utility model emulation machine fish is subjected to the crooked curve of power to the right to the right, and 6 (c) are that the elastic sheet of the utility model emulation machine fish is subjected to the crooked curve of power left left.

Among the figure: 1, servomotor torque constant, 2, the commutation bevel gear set, 3, fork, 4, elastic sheet, 41, breach, 5, short pin, 6, fish body skeleton, 7, slide block, 8, fish-skin, 9, the fish tail skeleton, 10, be machine fish tail handle, 21～26th, the body contour center curve that crucian moves about, 29～30th, the beaming curve of elastic sheet.

The specific embodiment

The bionical object of the utility model machine fish is a crucian, and the appearance profile of machine fish all designs according to the proportional sizes of actual crucian.(a) figure is the move about center curve of one group of body contour in the process of true crucian in the accompanying drawing 6, is to adopt the method for image acquisition and processing to obtain.When cantilever beam is subjected to the effect of a concentrated force in water, beam can produce bending, the drag effect of the water that can be subjected in BENDING PROCESS.The size of the shape of appropriate design beam, the point of action of concentrated force and concentrated force, the deflection of beam curve just can be similar with the body contour curve that true crucian moves about, as (b) among Fig. 6 and (c), wag the tail the to the right elastic sheet 4 of curve 24 in the process and the utility model emulation machine fish of fish tail is subjected to the right the crooked curve 29 of power to the right, and wag the tail left curve 27 in the process and elastic sheet of fish tail is subjected to left the crooked curve 30 of power left.The power that make a concerted effort and the crucian that makes like this that beam is subjected to is subjected to is the same, makes the machine fish move about as fish.

The utility model bionic machine fish comprises: fish-skin 8, fish tail skeleton 9, fish body skeleton 6 and be arranged on servomotor torque constant 1 on the fish body skeleton 6, described fish-skin 8 is enclosed within outside described fish tail skeleton 9 and the fish body skeleton 6, also comprise a bevel-gear pair 2, this bevel-gear pair 2 also is arranged on the described fish body skeleton 6, the output shaft of described servomotor torque constant 1 is captiveed joint with the input shaft of bevel-gear pair 2, and the output shaft of bevel-gear pair 2 is captiveed joint with the fixed end of a fork 3.Because the machine fish is shaped as strip, its fish body diameter is less, simultaneously, servomotor torque constant 1 volume is bigger, so servomotor torque constant 1 needs horizontal positioned, therefore, need also to comprise that a bevel-gear pair 2 is used for commutating, when less or machine fish fish body diameter is big when servomotor torque constant 1 volume, just need not commutating tooth wheel set 2, and servomotor torque constant 1 is vertically placed, the direct connection fork 3 then, end at fish body skeleton 6 adopts tired bundle, welding or bonding mode captive joint elastic sheet 4, and the appearance profile of elastic sheet 4 is for being preferably fish shape.Fish tail skeleton 9 also is bundled on the elastic sheet 4, the end of elastic sheet 4 is the fish tail direction, the connection mode of elastic sheet 4 and fork 3 can adopt following mode, coupling end at elastic sheet 4 and fish body skeleton 6 offers a breach 41, this breach 41 extends to caudal peduncle 10 places of machine fish, the thickness of elastic sheet 4 breach both sides is identical, and one-sided thickness is seen shown in Figure 5 from the terminal linear decrease of fish body skeleton 6 coupling ends to breach.Fork 3 is positioned at the center of breach, and the free end at fork 3 offers notch, fork 3 is plugged on the breach inboard of elastic sheet 4 by notch, also can be provided with a short pin 5 at the free end of fork 3, short pin 5 is positioned at caudal peduncle 10 places of machine fish, caudal peduncle 10 ends preferably, i.e. the intersection point place of caudal peduncle 10 and tail fin.

Machine fish fish tail structural principle is to use servomotor torque constant 1 after bevel gear set 2 commutations as shown in Figure 1, drives fork 3 swings, and the slide block 7 of fork end directly promotes elastic sheet 4, the attitude of swinging out fish swimming in position.

The short pin 5 of Fig. 2, Fig. 3 and Fig. 4 has connected elastic sheet 4 and fork 3, and the cooperation of short pin 5 and fork 3 is that revolute pair cooperates, and can rotate in the hole of fork, and the cooperation moving sets of short pin 5 and elastic sheet 4 cooperates, and short pin 5 can slippage on elastic sheet 4.Provided the assembling side elevation of fork 3, short pin 5, elastic sheet 4 and skeleton 6 among Fig. 4.The such design of short pin is for 2 requirements: on the one hand in swing process, elastic sheet bends, and fork can not grow or shorten, this just requires to want to the short pin of elastic sheet application force can be along the elastic sheet slippage, on the other hand in swing process, elastic sheet tangentially is constantly to change the bending of lacking the pin place, and this just requires short pin can adapt to the variation of tangential direction, can rotate.

Servomotor torque constant 1 the method on the skeleton 6 of being fixed on is to use the sleeve of two weak points, has the counter sink on knock hole and the fish stature 6 to cooperate on the sleeve, and uses flathead screw to fix.The fixing means of elastic sheet 4 and fish body skeleton 6 uses the binding of thin cotton thread, cotton thread around the number of turn abundant, the predetermincd tension of cotton thread is enough big, and uses glue curing, can not become flexible when moving so that elastic sheet 4 returns physical pendulum.Fish-skin adopts Heveatex to make, and is enclosed within on fish body skeleton skeleton 6 and the fish tail skeleton, and uses glue sealing.

The center of turn of fork 3 is positioned at 2/3 place of fish health, and short pin is positioned at the intersection point place of caudal peduncle and tail fin.By control to servomotor, realize real-time control to caudal peduncle and tail fin point of crossing angle position, make the change in location of moving about according to true crucian in the position of point of crossing, thereby on elastic sheet, simulate the move about curve of body centre of true crucian.

The utility model bionic machine fish can be controlled the machine fish and can advance and different turn radius turnings with different speed by the control servomotor torque constant, and process is true to nature flexibly, and control method is simple.The machine fish swimming comprises specifically and moves about forward and turn that the speed of advancing and the radius of turning all can regulating controls.Regulating control get method be the control fork with different speed, swing in different positions, when requiring the machine fish to advance, fork is swinging, and end position is identical about when swinging at every turn gets final product.When the speed that requires to regulate the machine fish, when moving about forward at a high speed, the change of the swing speed of fork gets final product greatly, and when low speed moved about forward, the speed of fork swing diminished and gets final product; When requiring the machine fish to turn, the half of beat of fork.When turning, require fork to get final product left, when bending to right, require half-dried the swing to get final product at right one side of something in left half of swing.When requiring the machine fish to turn with different turn radiuss, such as turning with tight turn radius left, at full speed half of reciprocating swing gets final product fork on a left side, turns with big turn radius left, and half of reciprocating swing gets final product fork on a left side with low velocity.

Claims (7)

1, a kind of bionic machine fish, comprise fish-skin (8), fish tail skeleton (9), fish body skeleton (6) and be arranged on servomotor torque constant (1) on the fish body skeleton (6), described fish-skin (8) is enclosed within outside described fish tail skeleton (9) and the fish body skeleton (6), it is characterized in that: also comprise a bevel-gear pair (2), this bevel-gear pair (2) also is arranged on the described fish body skeleton (6), the output shaft of described servomotor torque constant (1) is captiveed joint with the input shaft of bevel-gear pair (2), the output shaft of bevel-gear pair (2) is captiveed joint with the fixed end of a fork (3), end at fish body skeleton (6) also is provided with an elastic sheet (4), described fish tail skeleton (8) is fixedly linked with described elastic sheet (4), one end of elastic sheet (4) links to each other with fish body skeleton (6), the end of elastic sheet (4) is the fish tail direction, and the free end of the middle part of elastic sheet (4) and described fork (3) flexibly connects.

2, bionic machine fish according to claim 1 is characterized in that: the appearance profile of described elastic sheet (4) is a fish shape.

3, bionic machine fish according to claim 1 and 2, it is characterized in that: described elastic sheet (4) offers a breach (41) with the coupling end of fish body skeleton (6), this breach (41) extends to the caudal peduncle place (10) of machine fish, described fork (3) is positioned at the center of breach (41), and the free end at fork (3) offers notch, and described fork (3) is plugged on breach (41) inboard of elastic sheet (4) by notch.

4, bionic machine fish according to claim 3 is characterized in that: the free end at described fork (3) is provided with a short pin (5), offers notch at the two ends of this weak point pin (5), and the breach both sides of described elastic sheet (4) are arranged in the notch.

5, bionic machine fish according to claim 4 is characterized in that: described short pin (5) is positioned at the caudal peduncle place (10) of machine fish.

6, bio-robot according to claim 5 is characterized in that: described short pin (5) is positioned at caudal peduncle (10) end of machine fish.

7, bionic machine fish according to claim 6 is characterized in that: the thickness of described elastic sheet (4) breach (41) both sides is identical, and one-sided thickness is from the terminal linear decrease of fish body skeleton (6) coupling end to breach (41).

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