CN202136314U - Human intracavity tiny canal-oriented microrobot - Google Patents

Abstract

The utility model relates to a human intracavity tiny canal-oriented microrobot, which is characterized by comprising an in-vivo spiral shaft (6), a coil (3), an in-vitro spiral shell (7), a permanent magnet (2), a microbattery (4) and a wireless communication module and a control module (1), wherein the in-vivo spiral shaft (6) is hollow, and a first spiral groove is arranged on the inner surface of the in-vivo spiral shaft (6); the coil (3) is fixedly connected with the in-vivo spiral shaft (6) provided with the first spiral groove; a second spiral groove is arranged on the outer surface of the in-vitro spiral shell (7) and has a rotation direction opposite to the first spiral groove; the permanent magnet (2) is fixedly connected with the in-vitro spiral shell (7) provided with the second spiral groove; the microbattery (4) is communicated with all the components so as to supply electric energy; and the wireless communication module and the control module (1) are communicated with the microbattery (4) and used for controlling motion of the robot in an in-vitro wireless way, wherein the permanent magnet (2) and the coil (3) constitute a micromotor and are supported by a rolling bearing (8).

Description

Microrobot towards the tiny pipeline of human intracavity

Technical field

The present invention relates to a kind of medical micro-robot, particularly a kind of microrobot towards the tiny pipeline of human intracavity.

Background technology

The minimally invasive surgery medical skill is a current international research focus.Minimally invasive surgical techniques was risen the eighties in 20th century, and intervene operation is its important branch.There is the phenomenon that influences the operation quality because of the staff fluctuation of service in intervene operation.And robotics to combine with interventional technique be one of approach that addresses the above problem.At present, the research of minimally invasive surgery medical operating is mainly carried out from two aspects: the one, improve traditional medical endoscope system, system is further microminiaturized; The 2nd, improve the type of drive that the medical endoscope system gets into the human intracavity.For human gastrointestinal tract, people such as Phee have developed " in peep scrambler " robot (Kassim I, Phee L of imitative Eremiatis argi walking; Wan S; Et al.Locomotion techniques for roboticcolonoscopy [J] .IEEE Engineering in Medicine and Biology Magazine.2006 (6): 49-56.), people such as EugeneCheung work out a kind of wriggling endoscope robot (Eugene Cheung, Sukho Park; Byungkyu Kim; Et al.A new endoscopic microcapsule robot using beetle inspired microfibrillar adhesives.Proceedings ofthe 2005 IEEE/ASME International Conference on Advanced Intelligent MechatronicsMonterey, California, USA; 2005; July, 24-28.), domestic Zhejiang University, Shanghai Communications University, Dalian University of Technology etc. have proposed the driving mechanism of various gastrointestinal tract endoscope robots.For vascular micro-robot, the Sweden scientist has developed by microrobot (E.W.H.Jager, O.Inganas in the blood vessel of in blood, urine and cell medium, catching of processing of multiple layer polymer and gold and mobile individual cells; I.Lundstrom.Microrobots for Micrometer-Size Objects inAqueous Media:Potential Tools for Single-Cell Manipulation [J] .Science, 2000,288 (5475): 2335-2338.); It is spiral travel robot (Ishiyama K, Sendoh M, the Yamazaki A of 0.5mm * 8mm that the Japan scientist has proposed a kind of overall dimensions that drives based on external magnetic field; Et al.Swimming of magnetic micro-machinesunder a very wide-range of Reynolds number conditions [J] .IEEE Transactions on Magnetics; 2001,37 (4): 2868-2870.), Nanjing Aero-Space University has developed the blood vessel microrobot (Chen Bai based on sperm movement mechanism; Jiang Surong; Old Radix Crotalariae szemoensis, etc. intervention diagnosis and therapy system and its implementation [P] of driving based on the robot of sperm movement mechanism. Chinese patent: 200910035487,2010-04-07); The Chinese Academy of Sciences has designed a kind of can the craspedodrome and the microrobot (Yang Cenyu of the imitative magnetotactic bacteria that turns at non magnetic tiny pipeline; Wang Zheng, Wang Jinguang, etc. the microrobot research [J] of imitative magnetotactic bacteria. robot; 2009,31 (2): 146-150.).In a word, the home and abroad after deliberation the driving method and the device of various medical micro-robots, but also have some defectives: the one, contact with the inner chamber tube wall during robot motion, easily human body organic organization is caused damage; The 2nd, robot architecture's more complicated, cost is high; The 3rd, robot needs external magnetic field to drive, and is not easy to operate.

A kind of interior driving method of body and driver thereof of medical micro-robot are disclosed in the CN1225523 patent.This driver has adopted a cylindrical micro machine of band spiral fluted, a band spiral fluted cylinder and a flexible clutch.But said structure exists volume excessive, and micro machine must be identical with the cylinder external diameter, and the motor process liquid resistance is excessive, the too high easy damage inner chamber tube wall of micro machine or cylindrical shell helicla flute rotating speed under the less situation of robot suspension thickness.

Summary of the invention

The objective of the invention is to deficiency, a kind of microrobot towards the tiny pipeline of human intracavity (like large artery trunks, urethra etc.) is provided to prior art.This robot volume is small, simple in structure, and driving force is big, robot shells rotating speed adjustable joint, can be in the tiny pipeline of full of liquid suspension operation, and realize shooting and external Radio Control Function.

The invention provides a kind of microrobot towards the tiny pipeline of human intracavity, said robot comprises: body internal coiling axle, and said body internal coiling axle is a hollow, and on the inner surface of said body internal coiling axle, has first helicla flute; Coil, said coil is with to have the said body internal coiling of first spiral fluted axle affixed; Body external spiral shell, the outer surface of said body external spiral shell has second helicla flute, and said second helicla flute is opposite with the said first helicla flute rotation direction; And permanent magnet, said permanent magnet is with to have the said body external spiral of second spiral fluted shell affixed, and micro cell, said micro cell are communicated with above-mentioned each parts so that electric energy to be provided; Wireless communication module and control module; Said wireless communication module and said control module are communicated with said micro cell; With the motion of the said robot of external controlled in wireless, wherein said permanent magnet and said coil are formed micro machine, adopt roller bearings between the two.

Preferably, said robot can also comprise: image-forming module, said image-forming module is communicated with said micro cell, is used for the situation in the tiny pipeline of shooting people intracoelomic cavity.

Preferably, said first helicla flute is a left-hand screw groove and said second helicla flute is the right-hand screw groove; Perhaps said first helicla flute is a right-hand screw groove and said second helicla flute is the left-hand screw groove.

Preferably, said wireless communication module is a RF transceiver.

Preferably, the control circuit of said control module.

Preferably, said image-forming module is a minisize pick-up head.

Preferably, said first helicla flute and the said second spiral fluted thread form are triangle, rectangle, trapezoidal or zigzag.

The present invention also provides a kind of movement technique of above-mentioned microrobot towards the tiny pipeline of human intracavity, when micro machine is switched on, because of body internal coiling shaft portion inertia bigger; Body external spiral shell at first rotates, and forces the inner chamber mucus to produce axially-movable, and its counteracting force promotes the robot motion; Simultaneously; The inner chamber mucus resistance that acts on said body external spiral shell increase will force the reverse rotation of said body internal coiling axle, force an interior mucus to produce an axially-movable, and its counteracting force also acts on robot; Thereby be utilized in the helicla flute of the different rotation directions of robot body surfaces externally and internally in the liquid environment and the rotation of surfaces externally and internally different directions; Produce the consistent liquid counteracting force drive machines people motion of direction, and, can change robot motion's direction through changing the direction of rotation of micro machine.Adjust the mass ratio of body internal coiling axle and body external spiral shell, can change the rotary speed of body internal coiling axle and body external spiral shell.Because the dynamic pressure effect of liquid between robot body external spiral shell and the inner chamber tube wall forms one deck hydrodynamic lubrication mucous membrane between robot shells and inner chamber tube wall.

The present invention compared with prior art has following advantage and beneficial effect:

1. robot of the present invention volume is small, and is simple in structure, and control is convenient; Be adapted at suspension operation in the tiny pipeline of human body of full of liquid; Reduce the damage that human body is caused, can carry out external wireless camera, image transmission and control simultaneously, improved doctor's inspection and diagnosis and treatment efficient.

2. robot of the present invention body surfaces externally and internally all has the helicla flute of different rotation directions, and having overcome only has externally threaded single-unit spiral robot interior micro machine main body high speed rotating, and the shell rotating speed more slowly or the deficiency of not changeing.

3. the mass ratio of robot of the present invention adjustable complete machine body internal coiling shaft portion and body external spiral shell part; The rotary speed of axle in improving; Reduce the rotary speed of shell; Thereby do not reducing under the situation of liquid to the robot motive force damage that the internal lumen wall of external spiral shell high speed rotating possibility causes when reducing robot near the inner chamber tube wall to greatest extent.

4. robot of the present invention can change the robot system volume makes the robot system average density less than under the intracavity pipeline mucus density situation; Only keep axle helicla flute in the robot body; Body fuselage adopts smooth bio-flexible material, equally can drive machines people motion.

Description of drawings

Fig. 1 is the microrobot structural representation towards the tiny pipeline of human intracavity of the present invention.

Reference numerals list:

1-image-forming module, wireless communication module and control module,

The 2-permanent magnet,

The 3-coil,

The 4-micro cell,

5-inner chamber tube wall,

6-body internal coiling axle,

7-body external spiral shell,

The 8-rolling bearing.

The specific embodiment

Below in conjunction with accompanying drawing and embodiment, specific embodiment of the present invention is described in further detail.

As shown in Figure 1, in one embodiment, comprise towards the microrobot of the tiny pipeline of human intracavity: body internal coiling axle 6, this body internal coiling axle 6 is a hollow, and has the left-hand screw groove on the surface within it; Be fixed in the coil 3 of body internal coiling axle 6; Body external spiral shell 7, the outer surface of this body external spiral shell 7 has the right-hand screw groove; Be fixed in the permanent magnet 2 of body external spiral shell 7; The micro cell 4 that is communicated with above-mentioned each parts; And connection micro cell 4 is with the wireless communication module and the control module 1 of the action of the said robot of external controlled in wireless.Permanent magnet 2 is formed micro machine with coil 3, adopts rolling bearing 8 to support between the two.In addition, robot can also comprise the image-forming module of connection micro cell 4 with situation in the tiny pipeline of shooting people intracoelomic cavity.Image-forming module, wireless communication module and control module 1 can be along the heads that is arranged in body circumferentially.In the present embodiment, image-forming module, wireless communication module and control module are respectively minisize pick-up head, RF transceiver, control circuit.Certainly in other embodiments, image-forming module, wireless communication module and control module can be other objects that can be embodied as picture, wireless telecommunications and control.In the present embodiment, the thread form of the right-hand screw groove of the left-hand screw groove of body internal coiling axle 6 and body external spiral shell 7 is trapezoid.Certainly in other embodiments, the thread form of the right-hand screw groove of the left-hand screw groove of body internal coiling axle 6 and body external spiral shell 7 can be triangle, rectangle or zigzag.

When micro machine began to switch on, because of having fixed module such as micro cell 4 on the body internal coiling axle, inertia was bigger, and body external spiral shell high speed rotating forces the inner chamber mucus to produce axially-movable, and its counteracting force promotes the robot motion; Simultaneously, the inner chamber mucus resistance that acts on the increase of body external spiral shell will force the reverse rotation of body internal coiling axle, force an interior mucus to produce an axially-movable, and its counteracting force also acts on robot.Because body fuselage and interior axial screw groove rotation direction with turn to all opposite, so the inner chamber mucus is identical to their counteracting force direction, thus realize no matter be shell or in the axle rotation, all can make robot that the propulsive force of equidirectional is arranged.Because the mucous dynamic pressure effect of inner chamber will form one deck hydrodynamic lubrication mucous membrane between robot body external spiral shell 7 and inner chamber tube wall 5, make robot be in suspended state, thereby reach the purpose that not damaged drives.Change the direction of rotation of robot body fuselage and interior axle, can change robot motion's direction.The mass ratio of adjustment body internal coiling shaft portion and body external spiral shell part, the rotary speed of axle and shell size in can changing.

The situation of the tiny pipe interior of human intracavity that the image-forming module towards the microrobot of the tiny pipeline of human intracavity through the application photographs diagnoses the tiny pipeline of human intracavity whether pathological changes takes place, and also can on this microrobot, carry some medicines and fix a point to throw in to reach the purpose of treatment.

In a l-G simulation test, size and the intravascular fluid body environment actual according to human aortic, set: density of blood is 1053.1kg/m ³, the hemodynamics viscosity is 0.0045135Pas, and aorta diameter is 11mm, and length is 75mm; Right-hand screw groove on the outer surface of body external spiral shell 7: external diameter is 8mm, and axial length is 15mm, and the number of leads is 6, and helical pitch 15mm, helicla flute are rectangle, and groove face is wide to be 1mm, and bottom land is wide to be 1.5mm, and groove depth is 0.8mm; Left-hand screw groove on the inner surface of body internal coiling axle 6: internal diameter is 2.8mm, and axial length is 15mm, and the number of leads is 6, and helical pitch 15mm, helicla flute are rectangle, and groove face is wide to be 1mm, and bottom land is wide to be 0.8mm, and groove depth is 0.6mm; The rotating speed of body fuselage 7 is 1000r/min (just changeing), and the rotating speed of axle 6 is-200r/min (counter-rotating) in the body, robot with the speed of 20mm/s along blood vessel center axis moving linearly.Utilization Fluid Mechanics Computation method; Numerical computations the three-dimensional flow field of robot blood when in blood vessel, moving; Thereby obtain: blood all is directly proportional with density of blood and blood viscosity to the propulsive force and the suffered maximum pressure of blood vessel wall of robot, is inversely proportional to blood vessel diameter; With respect to axle in the body, the increase of body fuselage rotating speed more helps the increase of robot propulsive force, but has also increased the suffered maximum pressure of blood vessel wall; Under the body fuselage rotating speed was not very big situation, the suffered maximum pressure of blood vessel wall all was in the scope that human body can bear.

In another embodiment, can have the right-hand screw groove on the inner surface of the body internal coiling axle 6 of hollow, can have the left-hand screw groove on the outer surface of body external spiral shell 7, can reach above-mentioned effect equally.

Claims (7)

1. the microrobot towards the tiny pipeline of human intracavity is characterized in that, said robot comprises:

Body internal coiling axle (6), said body internal coiling axle (6) is a hollow, and on the inner surface of said body internal coiling axle (6), has first helicla flute;

Coil (3), said coil (3) is with to have the said body internal coiling of first spiral fluted axle (6) affixed;

Body external spiral shell (7), the outer surface of said body external spiral shell (7) has second helicla flute, and said second helicla flute is opposite with the said first helicla flute rotation direction; And

Permanent magnet (2), said permanent magnet (2) be with to have the said body external spiral of second spiral fluted shell (7) affixed,

Micro cell (4), said micro cell (4) are communicated with above-mentioned each parts so that electric energy to be provided;

Wireless communication module and control module (1), said wireless communication module and said control module (1) are communicated with said micro cell (4), with the motion of the said robot of external controlled in wireless,

Wherein said permanent magnet (2) and said coil (3) are formed micro machine, adopt rolling bearing (8) to support between the two.

2. the microrobot towards the tiny pipeline of human intracavity according to claim 1 is characterized in that, said robot can also comprise:

Image-forming module (1), said image-forming module (1) is communicated with said micro cell (4), is used for the situation in the tiny pipeline of shooting people intracoelomic cavity.

3. the microrobot towards the tiny pipeline of human intracavity according to claim 1 and 2 is characterized in that, said first helicla flute is a left-hand screw groove and said second helicla flute is the right-hand screw groove; Perhaps said first helicla flute is a right-hand screw groove and said second helicla flute is the left-hand screw groove.

4. the microrobot towards the tiny pipeline of human intracavity according to claim 1 and 2 is characterized in that said wireless communication module is a RF transceiver.

5. the microrobot towards the tiny pipeline of human intracavity according to claim 1 and 2 is characterized in that, the control circuit of said control module.

6. the microrobot towards the tiny pipeline of human intracavity according to claim 2 is characterized in that said image-forming module is a minisize pick-up head.

7. the microrobot towards the tiny pipeline of human intracavity according to claim 1 and 2 is characterized in that, said first helicla flute and the said second spiral fluted thread form are triangle, rectangle, trapezoidal or zigzag.