CN101006958A

CN101006958A - Ankle joint rehabilitation training device

Info

Publication number: CN101006958A
Application number: CN 200710048317
Authority: CN
Inventors: 徐礼钜; 张均富; 徐雪梅; 李翔龙
Original assignee: Sichuan University
Current assignee: Sichuan University
Priority date: 2007-01-23
Filing date: 2007-01-23
Publication date: 2007-08-01
Anticipated expiration: 2027-01-23
Also published as: CN101006958B

Abstract

The invention discloses an ankle-joint exercising device based on paralleling mechanism, which comprises the following parts: rotary mechanism with one free degree, spherical paralleling mechanism with two free degrees and tray, wherein the spherical paralleling mechanism is composed of mobile platform to fix tray, two branched chains and fixed platform, which connect each other through driving spoke; the fixed platform of spherical paralleling mechanism connects rotary component of rotary mechanism rigidly, which is set on the rack bearing of rotary mechanism through driving spoke to form 3 free degrees; the tray is assembled on the mobile platform of spherical paralleling mechanism.

Description

Ankle joint rehabilitation training device

One, technical field

The invention belongs to medical instruments field, it relates to a kind of rehabilitation training apparatus, particularly relates to being used for ankle and spraining device with orthopedic rehabilitation instruction.

Two, background technology

Sprained ankle is a kind of common osteoarticular injury, and its incidence rate occupies second in lower extremity injury.The clinical treatment of sprained ankle proves: ankle joint carries out function rehabilitation training at convalescence, and patient's rehabilitation speed is accelerated in the somesthetic sensibility that can quicken organization healing and help recovering ligament, also can prevent from now on owing to unstable the spraining repeatedly of causing of ankle joint.Existing ankle joint rehabilitation training apparatus only has one, two degree of freedom usually, can not simulate the motion of ankle joint complexity truly.N.J. Rutgers university has developed a kind of Rutgers Ankle rehabilitation of anklebone system in 1999, this system is based on the Stewart mechanism and the virtual reality technology of pneumatic servo system control.Rutgers Ankle rehabilitation of anklebone system clinical trial result is obvious, has obtained patient and doctor's good reflection.In the flow of research of rehabilitation of anklebone device, the Jian S.Dai of London university and the people such as Christopher Nester of University of Salford proposed the configuration scheme of the rehabilitation of anklebone parallel institution of three or four degree of freedom, the Zhao Tieshi of Chinese University On The Mountain Of Swallows, proposed to adopt the motion of 3 degree of freedom of 3RSS/S mechanism analog ankle joint in the Dai Jiansheng of hypo and London university.But all there is some weak point to some extent in the above-mentioned rehabilitation of anklebone device of prior art.As the Stewart mechanism that Rutgers Ankle system adopts six degree of freedom, control system complexity, cost are very high, are difficult to apply.3RSS/S mechanism compares with adopting swing hinge owing to adopt ball pivot, and its processing and manufacturing is poor, the manufacturing cost height.

Three, summary of the invention

The deficiency that exists at the ankle joint rehabilitation training device of prior art, purpose of the present invention aims to provide a kind of real motion that can simulate ankle joint, possesses the required function of the ankle joint rehabilitation training of realization, and mechanical system structure is simple, compact, make good processability, the ankle joint rehabilitation training device of low cost of manufacture.

The ankle joint rehabilitation training device that can realize above-mentioned purpose disclosed by the invention, the rotating mechanism that mainly comprises one degree of freedom, the sphere parallel mechanism of two degree of freedom and pallet, described sphere parallel mechanism is by the fixed platform as mechanism's frame, moving platform and 3 connecting rods as output link constitute, wherein a connecting rod connects with fixed platform and moving platform by revolute pair, constitute a movement branched chain that drives the moving platform gyration, other two connecting rods are hinged, the other two ends of two connecting rods connect with fixed platform and moving platform by revolute pair, constitute and drive moving platform another movement branched chain around another axis gyration, the two axial lines of moving platform gyration is perpendicular, article two, movement branched chain is driven by servo drive respectively, the foot palette adjustment is on moving platform, the revolving member rigidity of the fixed platform of sphere parallel mechanism and rotating mechanism is fixed, be placed in by revolute pair on the rack support of rotating mechanism, drive rotation by servo drive, the sphere connection in series-parallel skimulated motion mechanism of constituent apparatus realizes the simulation to the ankle joint real motion.

In technique scheme, the revolute pair axis that constitutes between each member of sphere parallel mechanism can intersect at a point, and preferably the revolute pair axis between each member vertically meets at a bit.

In technique scheme, each the bar arc length degree that constitutes 3 connecting rods of sphere parallel mechanism is JI/2.

In technique scheme, the intersection point of the revolute pair axis between each member of the axis of rotation of rotating mechanism and formation sphere parallel mechanism intersects.

In technique scheme, said servo drive is a servomotor.

The ankle joint rehabilitation training device that the present invention discloses, spherical surface parallel connected (five bars) mechanism design that its ankle joint skimulated motion mechanism is based on 2DOF forms.Two parallel kinematic side chains that spherical surface parallel connected (five bars) mechanism 3 connecting rods form are respectively by driven by servomotor, can make the rotation that realizes both direction as the moving platform of output link, the revolving member rigidity of the fixed platform of two freedom-degree spherical surface parallel connected mechanisms and one degree of freedom rotating mechanism is fixed, be placed in by revolute pair on the rack support of rotating mechanism, drive rotation by servo drive, constituted sphere serial parallel mechanism with 3 revolution degree of freedom, can simulate ankle motion truly, realize functions such as ankle joint traction, rehabilitation trainings.Ankle joint rehabilitation training device disclosed by the invention, because each kinematic pair of its motion is revolute pair, so its manufacturing good processability, low cost of manufacture, mechanical system structure is simple, compact.Particularly adopt the serial parallel mechanism of 3DOF, reduced the difficulty of its kinesiology and Dynamic solving, Control System Design obtains simplifying, and the rehabilitation training data are easy to handle, and have further improved the manufacturing processing characteristics, have reduced the device manufacturing cost.The invention solves the deficiency that the ankle joint rehabilitation training device of prior art exists, for ankle joint rehabilitation training provides a kind of easier convalescence device of accepting to promote for people.

Four, Brief Description Of Drawings

Accompanying drawing 1 is the population structure sketch map of one embodiment of the invention.

Accompanying drawing 2 is the 2DOF sphere parallel mechanism sketch map of embodiment in the accompanying drawing 1.

Accompanying drawing 3 is the 3DOF serial parallel mechanism sketch of embodiment in the accompanying drawing 1.

Accompanying drawing 4 is the population structure sketch map of another embodiment of the present invention.

Accompanying drawing 5 is the 2DOF sphere parallel mechanism sketch map of embodiment in the accompanying drawing 4.

Accompanying drawing 6 is the 3DOF serial parallel mechanism sketch of embodiment in the accompanying drawing 4.

Accompanying drawing 7 is the present invention's population structure sketch map of another embodiment again.

Accompanying drawing 8 is the 2DOF sphere parallel mechanism sketch map of embodiment in the accompanying drawing 7.

Accompanying drawing 9 is the 3DOF serial parallel mechanism sketch of embodiment in the accompanying drawing 7.

Figure grade sign object in above-mentioned each accompanying drawing is: 1 gantry base; 2 rack supports; 3 fixed platforms; 4 connecting rods; 5 connecting rods; 6 shaft couplings; 7 servomotors; 8 foot pallets; 9 moving platforms; 10 connecting rods; 11 servomotors; 12 shaft couplings; 13 servomotors.

Five, the specific embodiment

Provide embodiments of the invention below in conjunction with the explanation of accompanying drawing drawing, and structure of the present invention and operation principle are further described by embodiment.What be necessary here to specify is, the specific embodiment of the present invention is not limited to the form among the embodiment, according to content disclosed by the invention, the person of ordinary skill in the field can also take other concrete mode to implement, therefore, embodiment can not be interpreted as it is the specific embodiment that the present invention only can implement.

Embodiment 1

The structure of the ankle joint rehabilitation training device of present embodiment is shown in Fig. 1, accompanying drawing 2 and accompanying drawing 3.Rotating mechanism by one degree of freedom, the sphere parallel mechanism of two degree of freedom and pallet 8 constitute, described sphere parallel mechanism is by fixed platform 3, constitute as moving

platform

9 and 3 connecting rods of output link, wherein a connecting rod 10 is " Y " type structural poles, connect with fixed platform and moving platform by revolute pair, constitute a movement branched chain of ordering about the moving platform gyration, this movement branched chain is driven by shaft coupling 12 by servomotor 13, moving platform under the driving of this movement branched chain around the Y-axis gyration.Other two connecting

rods

4 and 5 rotate connection mutually by revolute pair, wherein the other end of connecting rod 5 connects by the supporting of revolute pair with fixed platform 3, the other end of connecting rod 4 connects with moving platform by revolute pair, constitute another movement branched chain that drives the moving platform gyration, this movement branched chain is driven by shaft coupling 6 by the servomotor 7 that is installed in the fixed platform supporting, moving platform around the gyration of Z axle, constitutes the sphere parallel mechanism with 2 rotational freedoms under this movement branched chain drives.The sphere parallel mechanism that is constituted, two axiss of rotation of moving platform-Y-axis, Z axle intersect vertically.The fixed platform 3 of sphere parallel mechanism is fixed with the revolving member rigidity of rotating mechanism, be placed in by revolute pair on the rack support 2 of rotating mechanism, under servo drive motor 11 drives, rotate, constitute connection in series-parallel spherical mechanism with 3 rotational freedoms around X-axis.Its schematic diagram of mechanism as shown in Figure 3.Rack support 2 rigidly fixes connection by bolt and gantry base 1.

The work running of the ankle joint rehabilitation training device of present embodiment is as follows: be installed in two servomotors 7 on the

fixed platform

3,13 two

driving members

5 and 10 by driving sphere parallel mechanism, make as the moving platform of sphere parallel mechanism output link and can realize around y, z axle both direction rotates, under servomotor 11 drives, sphere parallel mechanism is rotated around the x axle, formation one has the sphere serial parallel mechanism of 3 rotational freedoms, the foot pallet that fixes with moving platform is under above-mentioned 3DOF connection in series-parallel spherical mechanism drives, can realize simulation, can provide effectively functions such as ankle joint realization traction and rehabilitation trainings to the ankle joint real motion.

Embodiment 2

The structure of the ankle joint rehabilitation training device of present embodiment is shown in Fig. 4, accompanying drawing 5 and accompanying drawing 6.The structure of the structure of present embodiment ankle joint rehabilitation training device and embodiment 1 is basic identical, different places only be, be installed in 2DOF sphere parallel mechanism on the rack support 2 in the servo motor 11 axis of rotation X-axis under driving of driving by revolute pair, intersect at the intersection point of moving platform two axiss of rotation-Y-axis and Z axle.Its schematic diagram of mechanism as shown in Figure 6.

Embodiment 3

The structure of the ankle joint rehabilitation training device of present embodiment is shown in Fig. 7, accompanying drawing 8 and accompanying drawing 9.The structure of the structure of present embodiment ankle joint rehabilitation training device and embodiment 1 is basic identical, different places be, two servomotors that drive two side chains in parallel are installed in respectively on two mounting supports of fixed platform, two axiss of rotation that two parallel kinematic side chains that sphere parallel mechanism output link moving platform constitutes at 3 connecting rods order about the turning down campaign are X-axis and Y-axis, as shown in Figure 8.Be installed in 2DOF sphere parallel mechanism on the rotating mechanism frame by revolute pair, to drive the axis that motor 11 drives turning down campaigns be the Z axle servo, and the intersection point of Z axle and X-axis and Y-axis is crossing.Its schematic diagram of mechanism as shown in Figure 9.

Claims

1, a kind of ankle joint rehabilitation training device, the rotating mechanism that mainly comprises one degree of freedom, the sphere parallel mechanism of two degree of freedom and pallet, it is characterized in that described sphere parallel mechanism is by fixed platform, moving platform and 3 connecting rods constitute, wherein a connecting rod connects with fixed platform and moving platform by revolute pair, constitute a movement branched chain that drives the moving platform gyration, other two connecting rods are hinged, the other two ends of two connecting rods connect with fixed platform and moving platform by revolute pair, constitute and drive moving platform another movement branched chain around another axis gyration, the two axial lines of moving platform gyration is perpendicular, article two, movement branched chain is driven by servo drive respectively, the foot palette adjustment is on moving platform, the revolving member rigidity of the fixed platform of sphere parallel mechanism and rotating mechanism is fixed, be placed in by revolute pair on the rack support of rotating mechanism, drive rotation, the sphere connection in series-parallel skimulated motion mechanism of constituent apparatus by servo drive.

2, ankle joint rehabilitation training device as claimed in claim 1, the revolute pair axis that it is characterized in that constituting between each member of sphere parallel mechanism intersects at a point.

3, ankle joint rehabilitation training device as claimed in claim 2, the revolute pair axis that it is characterized in that constituting between each member of sphere parallel mechanism meets at a bit mutual vertically.

4, as claim 1 or 2 or 3 described ankle joint rehabilitation training devices, each the bar arc length degree that it is characterized in that constituting 3 connecting rods of sphere parallel mechanism is JI/2.

5, ankle joint rehabilitation training device as claimed in claim 4, the intersection point that it is characterized in that the axis of rotation of rotating mechanism and constitute the revolute pair axis between each member of sphere parallel mechanism intersects.

6, ankle joint rehabilitation training device as claimed in claim 5 is characterized in that described servo drive is a servomotor.