CN106426141B - A kind of artificial-muscle and its application, robot - Google Patents

Abstract

A kind of artificial-muscle is mainly made of driving body, threadlike body, helical orbit；The maximum length of threadlike body is greater than the overall length of helical orbit；Threadlike body a part is limited to spiral shape by helical orbit；The movement of helical orbit limitation threadlike body slides the movement of the particle on the spiral part of threadlike body predominantly along the helix of spiral part；Threadlike body has flexible or elasticity；Driving body drives the screw diameter of helical orbit flexible;The helical orbit is made of a uniform double-layered cylinder of variable diameter；The distance of two layers of double-layered cylinder is greater than two times that threadlike body diameter is less than threadlike body diameter；At least one section of attachment between two layers of double-layered cylinder has threadlike body can be in the channel wherein slided.A kind of artificial-muscle, driving body reasonably include with artificial-muscle above-mentioned.A kind of machine using artificial-muscle has the artificial-muscle.Robot uses the artificial-muscle.The configuration of the present invention is simple, it is economical and practical.

Description

A kind of artificial-muscle and its application, robot

Technical field

The invention belongs to dynamic fields, especially design a kind of artificial-muscle.

Background technique

Artificial-muscle is the problem of robot, and it is big that the artificial-muscle of the prior art stretches, strength small in the presence of the fast strength that contracts The problems such as flexible slow, flexible percentage deficiency, it is difficult to which practical application, the present invention propose a kind of a kind of practical artificial muscle Meat realizes fine motion superposition, can smoothly dock, can quickly popularize with the prior art.

Summary of the invention

The purpose of the present invention is to solve the shortcomings of the prior art proposing a kind of artificial-muscle, the present invention realizes stroke and puts Greatly.

The present invention has following technology contents.

1, a kind of artificial-muscle, it is characterised in that: be mainly made of driving body, threadlike body, helical orbit；Threadlike body is most Long length is greater than the overall length of helical orbit；Threadlike body a part is limited to spiral shape by helical orbit；Helical orbit limitation is linear The movement of body slides the movement of the particle on the spiral part of threadlike body predominantly along the helix of spiral part；Threadlike body tool It is flexible or elastic；Driving body drives the screw diameter of helical orbit flexible.

2, a kind of artificial-muscle as described in technology contents 1, it is characterised in that: the driving body is Fluid pressure cause Dynamic, electric actuation, thermal actuation, magnetic actuation, photic dynamic, Electromagnetically actuated, chemical actuating.

3, a kind of artificial-muscle as described in technology contents 1, it is characterised in that: the helical orbit is in the axial direction at least 2 circles.

4, a kind of artificial-muscle as described in technology contents 1, it is characterised in that: the helical orbit is radially at least 2 circles.

5, a kind of artificial-muscle as described in technology contents 1, it is characterised in that: spiral of the helix tube under driving body driving Overall length variation is greater than screw pitch overall length and changes.

6, a kind of artificial-muscle as described in technology contents 1, it is characterised in that: the helical orbit is equal by a variable diameter Even double-layered cylinder is constituted；The distance of two layers of double-layered cylinder is greater than two times that threadlike body diameter is less than threadlike body diameter；It is double At least one section of attachment between two layers of layer cylinder has threadlike body can be in the channel wherein slided.

7, a kind of artificial-muscle as described in technology contents 1, it is characterised in that: the helical orbit is equal by a variable diameter Even cylinder and at least one stop collar are constituted；Stop collar is located on the cylinder of cylinder one end, the diameter line vertical cylinder of stop collar Axis；Threadlike body is looped around on cylinder, and threadlike body one end is fixedly connected with cylindrical body, and the threadlike body other end passes through stop collar；Line Shape body has at least one circle spiral between threadlike body and cylinder fixed connection point and stop collar.

8, a kind of artificial-muscle as described in technology contents 1, it is characterised in that: the helical orbit is equal by a variable diameter Even cylinder and at least two stop collar are constituted；Stop collar is located on the cylinder at cylinder both ends, the diameter line vertical cylinder of stop collar Axis；Threadlike body is looped around on cylinder, and the both ends of threadlike body are pierced by from stop collar respectively；Threadlike body has between two stop collars There is at least one circle spiral.

9, a kind of artificial-muscle as described in technology contents 1, it is characterised in that: also there is telescoping tube outside it；Threadlike body Both ends be connected to the both ends of telescoping tube.

10, a kind of artificial-muscle as described in technology contents 6, it is characterised in that: also there is dimension shape spring；Tie up shape spring with Telescoping tube is connected.

11, a kind of artificial-muscle, it is characterised in that: driving body reasonably includes artificial described in application technology content 1-7 Muscle.

12, a kind of machine using artificial-muscle, it is characterised in that: have in technology contents 1-7 described in any one Artificial-muscle.

Technology contents explanation and its utility model has the advantages that

Cardinal principle of the invention: change the screw diameter of threadlike body to change the actuation length of threadlike body, due to spiral The change of object diameter will lead to the change of spiral part perimeter, and the change of each circumference of same helix can be superimposed, therefore can Reach the technical effect for making subtle expanding-contracting action superposition amplification, this is for overcoming Electromagnetically actuated magnetic force to increase sharply with distance Become smaller, fluid pressure actuated (air pressure, hydraulic) space more big-movement is slower, inverse piezoelectric effect actuating (one kind of electric actuation) stroke The defect of small etc. the prior art has a very big significance；

If spiral number of turns are N；If Zhou Changwei T1, radius r1, diameter R1, spiral overall length before single turn helix radius change For L1；If Zhou Changwei T2, radius r2, diameter R2, spiral overall length are L2 before single turn helix radius change；

Then there is formula: (1), Δ L=L2-L1=Δ T*N=(T2-T1) the * π Δ r * of N=2 N；

From the above equation, we can see that the displacement equations mode of spiral variable diameter is mainly related unrelated with quantity with circle number, so can lead to Toning number of full circle N adjusts magnification ratio；

Assuming that being used for driving body of the invention using artificial-muscle of the invention, and it is (non-for driving body to set artificial-muscle ) helical orbit circle number M, set spiral overall length change as Δ L', radius change be Δ r'；

Then there is 2 π Δ r'*M of Δ L'=；

Use at least one artificial-muscle as driving body, since spiral is round, therefore can rough identification be mounted on Drive the radius change size Δ r' of the spiral for the artificial-muscle that will lead under the displacement L ideal effect of intracorporal artificial-muscle =Δ L/2(may have Δ r'=Δ L as the driving body of artificial-muscle of the invention using a plurality of artificial-muscle of the invention, In order to which problem reduction does not do excessive description；)

Then have most: 2 π Δ L/2*M of Δ L'=；

Above formula, which substitutes into formula (1), then to be had: 2 π Δ L/2*M=π * of Δ L'=(2 π Δ r * N) the π 2* Δ of * M=2 r*N*M；

From the above, it can be seen that use artificial-muscle of the invention as driving body in artificial-muscle of the invention, adjustment parameter N, M can obtain very big displacement equations multiple；

From the above, it can be seen that it is of the invention be in structure can with recursive structure (one word of recursive structure for the present inventor oneself definition , it refers mainly to repeat nonlinear superposition design structure, recursive structure refers to multi-level (being more than or equal to 3 layers) in the present invention Repeat ' using the threadlike body of low level artificial-muscle it is flexible come drive higher level artificial-muscle helical orbit change Diameter ' design, constitute a displacement equations chain), so that the raising displacement equations multiple of great-jump-forward is (assuming that third layer helical orbit Number is enclosed as B circle, then has Δ L''=2 π 3* Δ r*N*M*B, adjustment parameter N, M, B that can obtain very big displacement equations times Number)；

Above operation is in order to illustrate amplification factor of the invention is main and helical orbit circle number, iterative design number of plies phase It closes, the understanding of reader will not be impacted calculating and a small amount of falsehood occur.

Vocabulary explanation.

' driving body ' refers to that the entity of driving helical orbit screw diameter variation, driving body can be element, device, can also To be functional module, driving body may be with other devices or element common elements or structure, this is common situations in machinery；It drives Kinetoplast is for example: filling a large amount of piezoelectric ceramics on a columnar shape basal surface, manipulates piezoelectric ceramics radially stretching in matrix；It is hollow Inflatable elastic ball etc..

' threadlike body ' refers to thread, such as iron hoop chain, steel cable, spring etc., should tie using when threadlike body of different nature Close ' common knowledge ', ' prior art ', ' rudimentary knowledge ' use different designs, not violate that ' design one can be normal benign Operation artificial-muscle ' technical purpose be deliberately set to cannot to run, such as: should be adopted using when flexible linear body With actuating when increase helical orbit screw diameter mode, and the length of the slack of flexible linear body cannot be greater than actuating when Contracted length, for another example: when using elastic threadlike body, it should be noted that threadlike body elastic force and stretching, extension span relationship avoid using as far as possible Elastic force very little stretches span but very big elastic threadlike body, for another example: it should be noted that the strength of driving body variable diameter should overcome threadiness enough The internal stress of body, so as not to occur because threadlike body intensity is too big and cause threadlike body spiral part can not variable diameter the case where, etc..

' helical orbit ', which refers to, can be limited to threadlike body the constant spiral entity of variable diameter hour circle number or by entity institute The space path of limitation；Helical orbit can be element, device, cavity or slot with spiral shape, constitute helical orbit Element, device may be with other devices or element common elements or structure, this is common situations in machinery field；Helical orbit ratio Such as: the spiral-shaped, cylinder that slot is arranged in by helix tube, the helicla flute of periphery, the slotted element of multiple tools is intracorporal Threaded hole etc., helical orbit can be multiple spiral, helical orbit can be on the whole it is curved, using when design because as far as possible It avoids manufacturing helical orbit using flexible too strong material；It is worth noting that person trained in a certain field may attempt to design Strange track evades the application, but as long as track of its design contains helical orbit, and threadlike body cooperates its track shape Its track should then be regarded at spiral as helical orbit described herein；Since the variation of screw pitch will affect spiral overall length therefore this hair Bright helical orbit avoid the spiral overall length variation weakening screw diameter generated by screw pitch variation from changing production as far as possible when designing The case where raw spiral overall length changes；In the case where ignoring threadlike body completely, vision judges helical orbit of the invention up Go may not be spiral shape (such as situation described in technology contents 6-8 be cooperation threadlike body winding after could visually Obtain spiral shape), helical orbit of the invention is considered as helical orbit when designing or the spiral coil of threadlike body is upward in helical axis Sliding problem, and be defined and prevent because the sliding of spiral coil causes the product designed cannot by rationally designing Flexible situation.

' movement of helical orbit limitation threadlike body makes the movement of the particle on the spiral part of threadlike body predominantly along spiral Partial helix sliding ' it is transported since the movement of the particle on the spiral part of threadlike body can have micro turn and radial direction Dynamic, so ' main ' word is used to meet human language habit, ' main ' word should not be considered as by the reader of the application Fuzzy sets.

' threadlike body a part is limited to spiral shape by helical orbit ' contains threadlike body in helical orbit space interior, line Shape body is slidably coated on the connection relationship that track solid exterior etc. can be such that threadlike body is constrained by helical orbit.

' driving body drives the screw diameter of helical orbit flexible ' the i.e. variation of driving body driving screw diameter.

' telescoping tube ' refers to the pipe that length can passively change.

' dimension shape spring ' refers to that the spring for safeguarding telescoping tube shape, elastic force cannot be too big.

' maximum length of threadlike body ' refer to threadlike body can normal use when maximum length because some threadlike bodies are long It is short variable, therefore have this restriction.

' spiral overall length ' i.e. spiral part expands into the total of the length of straight line after straight line namely each circumference of helical orbit With.

' spiral ', the mankind accurately define spiral without perfection, and people even claim the camber line of a plurality of radial arrangement For spiral, in order to guarantee the clear of definition, spiral of the invention is defined in: at least there is one not to be selfed the continuous of convolution completely The path of point set or line-segment sets, wherein ' complete ' refers to that convolution is greater than or equal to 360 degree, such as spring, Archimedes spiral, electricity The solenoid etc. of magnet, helical axis can be straight line (when helix tube is straight), curve (when helix tube is bent), helical curve (spiral Pipe again spiral when be helix), the present invention in spiral include helix (axial multi-turn) path, vortex filament (radial multi-ring) Path, taper helical path, variable-pitch propeller path, variable diameter helical path, multilayer helical path and other helical wire forms Path and their combination may exist corner angle in spiral of the invention.

Beneficial effects of the present invention: structure is simple, economical and practical.

Detailed description of the invention Fig. 1 is an embodiment schematic diagram of the invention.

Fig. 2 is an embodiment schematic diagram of the invention.

Fig. 3 is an embodiment schematic diagram of the invention.

Fig. 4 is an embodiment schematic diagram of the invention.

Fig. 5 is an embodiment schematic diagram of the invention.

Fig. 6 is an embodiment schematic diagram of the invention；Fig. 7 is the schematic diagram of an embodiment of the invention.

Specific embodiment

Below in conjunction with embodiment, embodiments of the present invention will be described.

Embodiment 1, as shown in Figure 1, a kind of artificial-muscle, by layered electrode A1, piezoelectric ceramics A11, conducting circular cylinder A10, spring A3, multiple snak link A2 are constituted；Snak link A2 helical arrangement constitutes helical orbit；Spring A3 winds the spiral shell that A2 is constituted It revolves in track；Piezoelectric ceramics A11 is covered on the surface conducting circular cylinder A10；Layered electrode A1 covers the surface piezoelectric ceramics A11；It is conductive Cylinder A10 is connect with conducting wire A50；Layered electrode A1 is connect with conducting wire A5；Layered electrode A1 has extension ability；It is logical to A5, A50 Piezoelectric ceramics expands after electricity, is that helical orbit screw diameter (X) increases, and shrinks spring A3 (Y) in the axial direction of helical orbit.

Embodiment 2, as shown in Fig. 2, a kind of artificial-muscle, from ball B1, limit to block B4, steel wire B3 and constitute；Rubber There are cavity B10, cavity B10 to have inlet channel B100 inside ball B1；There is spiral vestibule as helical orbit in the wall of ball B1 B2；In steel wire B3 winding screw track B2；Limiting the expansion direction to block B4 with very strong rigid restriction ball B1 is spiral Track B2 radial direction；After increasing the air pressure in B10 by B100；Ball B1 is swollen on the radial direction (X) helical orbit B2 It is swollen, cause the screw diameter of helical orbit B2 to increase；And then steel wire B3 (Y) in the axial direction of helical orbit is caused to shrink；It uses When the both ends of steel wire B3 can be connected to and need the mechanical joint both ends that activate.

Embodiment 3, as shown in figure 3, a kind of artificial-muscle, by conductive drum C1, spring C3, multiple piezoelectric ceramics C2, C20, multiple arcs conductive plate C4, C40, multiple annulus C6 compositions；Annulus C6 is helically arranged to make up helical orbit；By conducting wire C51 and C50 is shorted, and is powered between conducting wire C50, C5, and piezoelectric ceramics C20 elongation reduces the screw diameter of spring, and then makes Spring is stretching；Matrix is conductive drum C1, and actuation body is conductive drum C1, piezoelectric ceramics C2, arc conductive plate C4, C40；? Common elements, structure are common situations between each part function module of machinery field.

Embodiment 4 is modified on the basis of embodiment 3 piezoelectric ceramics being revised as Pneumatic extension body.

Embodiment 5 is modified on the basis of embodiment 3 piezoelectric ceramics being revised as Pneumatic extension body, and spring is repaired It is changed to steel cable.

Embodiment 6, matrix is changed to passively extend the entity of shortening by modification on the basis of embodiment 3, line Shape body is all mounted in matrix.

Embodiment 7, modification will increase helical orbit quantity in ball B1 wall on the basis of embodiment 2, and make Helical orbit is coaxial parallel (the parallel concept of helix is referring to oriented parallel concept), penetrates one or more in each helical orbit Root steel cable increases load-carrying ability and redundant ability.

One embodiment 8, design vortex-like pipe with toughness, install extrusome between the tube wall of vortex-like pipe, by line Shape body is through in vortex-like pipe.

Embodiment 9, such as Fig. 4 increase a telescoping tube D1 in the external of embodiment 2, and steel wire is connected to telescoping tube The air pressure inside ball B1 is improved by inlet channel B100 in both ends, and telescoping tube D1 is just shunk under the drive of steel wire, relatively Embodiment 2 has dust-proof benefit.

Embodiment 10, such as Fig. 5 are axial between telescoping tube D1 and helical orbit on the flexible inside pipe wall of embodiment 9 The spring D2 of one elastic force very little is installed, the both ends of spring D2 are connected with the both ends of telescoping tube D1.

Embodiment 11, such as Fig. 6 increase on the basis of embodiment 10 shrinks unit.

Modification makes to limit on the basis of embodiment 12, embodiment 9 is fixedly linked to block B4 and one end of telescoping tube D1.

Embodiment 2 is changed to hydraulic control by embodiment 13.

Embodiment 2 is changed to Chemical Control control by embodiment 14, generates gas using a variety of reactants to improve chamber Pressure expands ball B1 in vivo, and increases a drain passage.

3 piezoelectric ceramics of embodiment is changed to mutual exclusion coil by embodiment 15, is increased guide rod between mutual exclusion coil, is made Magnetic force not will lead to rotary motion between mutual exclusion coil, and the movement of distance change is only carried out after energization.

Embodiment 16, the metal clips that 3 piezoelectric ceramics of embodiment is changed to black heat metal clips using laser It is set to stretch because of heating power.

Embodiment 17, the metal clips that 3 piezoelectric ceramics of embodiment is changed to black, the fluid for being passed through different temperatures make Metal clips generates change in size.

Embodiment 18, as shown in fig. 7, a kind of artificial-muscle, by layered electrode E1, piezoelectric ceramic tube E11, stratiform electricity Pole E10, steel wire E3,2 ring E2 are constituted；2 snak link E2 are located at the both ends of piezoelectric ceramic tube E11；Steel wire E3 winds piezoelectric ceramics Pipe E11, the both ends steel wire E3 from two rings from being pierced by respectively；Layered electrode E1 covers the outer surface piezoelectric ceramic tube E11；Layered electrode E10 covers piezoelectric ceramic tube E11 inner surface；Layered electrode E10 is connect with conducting wire E50；Layered electrode E1 is connect with conducting wire E5；Layer Shape electrode E1 has extension ability；Piezoelectric ceramic tube E11 expands after being powered to conducting wire E5, conducting wire E50, keeps the spiral of steel wire E3 straight Diameter increases, and shrinks steel wire E3 in the axial direction of the spiral of steel wire E3.

Embodiment 19 improves on the basis of embodiment 10, and a certain amount of lubricating oil is added in telescoping tube, is used for Reduce the frictional resistance of steel wire.

The above are feasible programs of the invention；Since artificial-muscle of the invention is extrusome, extrusome can change spiral shell The principle of rotation track spiral radius has embodied in the above embodiment of summary of the invention, therefore does not repeat；The present invention includes very much Kind scheme, but its principle is all that change helical orbit screw diameter is long come the actuating for changing spiral circumference and then change threadlike body Degree, it will be appreciated that can be carried out in conjunction with ' common knowledge ', ' prior art ' to the present invention after this central principle Implement design, therefore no being repeated one by one.

Claims (2)

1. a kind of artificial-muscle, it is characterised in that: be mainly made of driving body, threadlike body, helical orbit；

The maximum length of threadlike body is greater than the overall length of helical orbit；

Threadlike body a part is limited to spiral shape by helical orbit；

The movement of helical orbit limitation threadlike body makes the movement of the particle on the spiral part of threadlike body predominantly along spiral part Helix sliding；

Threadlike body has flexible or elasticity；

Driving body drives the screw diameter of helical orbit flexible；

The helical orbit is made of a uniform double-layered cylinder of variable diameter；

The distance of two layers of double-layered cylinder is greater than two times that threadlike body diameter is less than threadlike body diameter；

At least one section of attachment between two layers of double-layered cylinder has threadlike body can be in the channel wherein slided.

2. a kind of machine using artificial-muscle, it is characterised in that: have artificial-muscle described in claim 1.