CN209036530U - A kind of adaptive knee-joint rehabilitation training ectoskeleton of multiple degrees of freedom - Google Patents

Abstract

The utility model relates to the adaptive knee-joint rehabilitation training ectoskeletons of multiple degrees of freedom, the ectoskeleton includes thigh bandage, set casing, self-adapting following device, shank driving plate and shank bandage, self-adapting following device includes driving pulley, synchronous pulley, transition pulley, driven pulley, upper junction plate and lower connecting plate, the ectoskeleton of the utility model is separately fixed on the thigh and shank on patient's same leg by thigh bandage and shank bandage, coaxially fixed synchronous pulley is driven with driving driving pulley by driving, synchronous pulley transfers power to transition pulley by upper transmission belt, transition pulley continues power by lower drive belts to be transferred to driven pulley, driven pulley drives the shank driving plate being secured to be swung, shank driving plate drives shank to be swung by shank bandage, pass through the ectoskeleton band Dynamic shank carries out reciprocally swinging to achieve the purpose that carry out knee joint bending knee rehabilitation training, and the utility model is compact-sized, adaptability is good.

Description

A kind of adaptive knee-joint rehabilitation training ectoskeleton of multiple degrees of freedom

Technical field

The utility model relates to the technical field of medical rehabilitation instrument, in particular to a kind of adaptive knee joint of multiple degrees of freedom Rehabilitation training ectoskeleton.

Background technique

With the development of science and technology social medical and health care system is universal, rehabilitation humanoid robot also develops rapidly therewith. Lower limb rehabilitation type exoskeleton robot is under the jurisdiction of healing robot, can replace traditional medical rehabilitation teacher to the patients of physical handicaps into The one-to-one rehabilitation training of row is trained injured muscle by limb motion, stimulates the reparation and regeneration of nervous system, make Injury is restored or is rebuild to the greatest extent, to be finally reached the ability for restoring patient's independent ambulation.Lower limb rehabilitation Type ectoskeleton is to realize auxiliary human leg straight configuration, the functions such as walking by the physical contact interaction of between humans and machines, and need Part human body weight is undertaken, thus lower limb exoskeleton needs with support function and should have good coupling with human body. Currently, many medical institutions and R&D institution pay much attention to the research of lower limb exoskeleton rehabilitation robot both at home and abroad.Knee joint is Maximum joint in human body lower limbs, and structure is the most complicated, thus in the research process of lower limb exoskeleton to knee joint outside Skeletal structure research is particularly important.In the establishment process of knee joint ectoskeleton model, researcher often thinks lower limb exoskeleton There is good coupling at knee joint with human body, the movement of the two is consistent.But Human Physiology knee joint is instantaneously transported Dynamic center curve depends on the hinged face of physical structure and shape of shin bone and femur, and everyone knee joint it is unique and Uniqueness；Meanwhile during dressing training, the sliding friction that can be generated between ectoskeleton and human body leads to lower limb dermoskeleton Bone and human body are there is more or less position deviation between knee joint, and deviation is bigger, and the physics of human body and ectoskeleton connects Touching contact pressure that interface generates will be bigger, then the knee joint of wearer and neighbouring soft tissue will bear it is bigger attached Lotus is loaded, less serious case will cause wearer and generate discomfort, and severe one will cause the secondary injury of wearer.

Utility model content

To solve the above-mentioned problems, the utility model proposes a kind of adaptive knee-joint rehabilitation training dermoskeletons of multiple degrees of freedom Bone.

Particular content is as follows: a kind of adaptive knee-joint rehabilitation training ectoskeleton of multiple degrees of freedom, which includes thigh Bandage, set casing, self-adapting following device, shank driving plate and shank bandage, it is characterised in that:

The self-adapting following device includes driving pulley, synchronous pulley, transition pulley, driven pulley, upper junction plate And lower connecting plate, the set casing are with certain thickness cavity body, the upper end of set casing is in character cut in bas-relief shape, and obliquely downward is equipped with Belt crosses slot, and fixes a fixed column straight up in upper end depressed area, vertically fixes on the one side of fixed column One horizontal connector and level fixes a thigh bandage on the free end of connector, the driving pulley with it is synchronous Belt wheel is coaxially fixed together and is fixed in the cavity body of set casing by revolute pair, on the part of set casing upper end protrusion It is respectively equipped with one and vertical perforative through-hole is set, two are fixed on the medial surface of set casing cavity and is being located at through-hole just Lower section and angle pulley corresponding with through-hole, driving band around its both ends after driving pulley bypass angle pulley and respectively from right Set casing is pierced by the through-hole answered, one end of the upper junction plate is hinged on the one side of set casing, and upper junction plate is solid Determine the axis collinear of the hinge axes and driving pulley on shell, upper junction plate and tightens the two sides that band is located at set casing, institute The synchronous pulley stated is between driving pulley and upper junction plate, one end of the lower connecting plate and the other end of upper junction plate Same side that is hinged and being located at upper junction plate with set casing, the transition pulley are that upper company is coaxially fixed on by revolute pair The belt wheel with two-wheel slot on fishplate bar and lower connecting plate hinge joint, the race of inside passes through upper with synchronous pulley on transition pulley It is driven band connection and forms V belt translation, the driven pulley is fixed on the other end of lower connecting plate, driven pulley by revolute pair It connect to form V belt translation by lower drive belts with the race in the outside on transition pulley, the upper end of the shank driving plate is fixed On the one side of driven pulley, one piece of link block straight down is fixed in the lower end of shank driving plate, in the side of link block Shank bandage is connected by the sphere-pin pair crossed out on face, shank bandage and thigh bandage are respectively positioned on the same side of set casing Face.

Preferably, one is fixed on the medial surface of the upper junction plate presses against the tensioning wheel first that transmission takes, institute The tensioning wheel second pressed against on lower drive belts is fixed on the medial surface for the lower connecting plate stated.

Preferably, it is set on the side on the set casing where upper junction plate there are two block, upper junction plate is located at two Between block block.

Preferably, between the upper junction plate and the ipsilateral edge of lower connecting plate successively with the hinged limit connecting rod of head and the tail Two free ends are hinged.

Preferably, the sphere-pin pair includes spherical fixing component and bowl-shape moving link, in spherical fixation structure Part is equipped with the pin vertical with link block vertical centerline and along spherical shape being arranged radially, and offers on moving link The horizontal arc slide opening to match with pin, fixing component pass through spherically mounted and pass through the pin in fixing component to move Arc slide opening on component.

The advantageous effects of the utility model

The utility model is a kind of adaptive knee-joint rehabilitation training ectoskeleton of multiple degrees of freedom, the fixation in the utility model Shell keeps it relatively fixed with thigh by thigh bandage, and shank driving plate keeps it relatively fixed with shank by shank bandage, leads to It crosses V belt translation and power is transferred to shank driving plate drive shank swing realization kneebend, the upper company in self-adapting following device The articulated structure of fishplate bar and lower connecting plate can be swung according to the bending knee of shank and adaptability is servo-actuated, to eliminate ectoskeleton drive When human body lower limbs carry out rehabilitation training, the position deviation that the two generates at knee joint is adapted to different human body knee joint knot The otherness of structure and size guarantees that power can be transmitted to shank and complete thigh bandage and shank bandage phase while kneebend Human body will not be moved, ectoskeleton is reduced to the limbs of wearer and the soft tissue of surrounding and bring additional load, raising is worn The comfort worn avoids ectoskeleton from bringing secondary injury to human body, therefore the utility model can adapt to different human body knee joint Multiple degrees of freedom rigid flexible system exoskeleton mechanism, improve the coupling and matching degree of ectoskeleton and human body at knee joint, The comfort of wearing is also improved simultaneously.

Detailed description of the invention

Fig. 1 is the stereochemical structure of the adaptive knee-joint rehabilitation training ectoskeleton of multiple degrees of freedom (set casing front partly cut-away) Schematic diagram one；

Fig. 2 is the main view of the adaptive knee-joint rehabilitation training ectoskeleton of multiple degrees of freedom；

Fig. 3 is the cross-sectional view in the direction A-A in Fig. 2；

Fig. 4 is the cross-sectional view in the direction B-B in Fig. 2；

Fig. 5 is the cross-sectional view in the direction C-C in Fig. 2；

Fig. 6 is the schematic perspective view two of the adaptive knee-joint rehabilitation training ectoskeleton of multiple degrees of freedom；

Fig. 7 is the schematic perspective view of self-adapting following device and shank driving plate；

Fig. 8 is the enlarged diagram of D in Fig. 6；

In figure: 1. thigh bandages, 2. fixed columns, 3. driving bands, 4. set casings, 5. blocks, 6. belts are crossed slot, are driven on 7. Band, 8. tensioning wheel first, 9. upper junction plates, 10. driven pulleys, 11. lower connecting plates, 12. transition pulley, 13. limit connecting rods, 14. Lower drive belts, 15. shank driving plates, 16. link blocks, 17. sphere-pin pairs, 18. shank bandages, 19. through-holes, 20. angle pulleies, 21. driving pulley, 22. synchronous pulleys, 23. connectors, 24. tensioning wheel second, 25. fixing components, 26. moving links, 27. columns Pin, 28. arc slide openings.

Specific embodiment

Case study on implementation one, referring to Fig. 1-8, a kind of adaptive knee-joint rehabilitation training ectoskeleton of multiple degrees of freedom, the ectoskeleton Including thigh bandage, set casing, self-adapting following device, shank driving plate and shank bandage,

The self-adapting following device includes driving pulley, synchronous pulley, transition pulley, driven pulley, upper junction plate And lower connecting plate, the set casing are with certain thickness cavity body, the upper end of set casing is in character cut in bas-relief shape, and obliquely downward is equipped with Belt crosses slot and fixes a fixed column straight up in upper end depressed area, vertically fixes on the one side of fixed column One horizontal connector and level fixes a thigh bandage on the free end of connector, the driving pulley with it is synchronous Belt wheel is coaxially fixed together and is fixed in the cavity body of set casing by revolute pair, on the part of set casing upper end protrusion It is respectively equipped with one and vertical perforative through-hole is set, two are fixed on the medial surface of set casing cavity and is being located at through-hole just Lower section and angle pulley corresponding with through-hole, driving band around its both ends after driving pulley bypass angle pulley and respectively from right It is pierced by set casing in the through-hole answered, by driving the stretching of band to control driving pulley rotation；Human body is contracted in using driving band The upper generation tensile force parallel with muscle makes equipment become small in size similar to the ligament and tendon of human body, light-weight, described One end of upper junction plate be hinged on the one side of set casing, hinge axes and driving pulley of the upper junction plate on set casing Axis collinear, upper junction plate and tighten the two sides that band is located at set casing, the synchronous pulley be located at driving pulley and Between upper junction plate, the other end of one end of the lower connecting plate and upper junction plate is hinged and is located at upper junction plate with set casing Same side, the transition pulley be fixed on by revolute pair on upper junction plate and lower connecting plate hinge joint have it is double The belt wheel of race, on transition pulley the race and synchronous pulley of inside by upper transmission band connection formation V belt translation, it is described from Movable belt pulley is fixed on the other end of lower connecting plate by revolute pair, under the race in the outside on driven pulley and transition pulley passes through It is driven band connection and forms V belt translation, the upper end of the shank driving plate is fixed on the one side of driven pulley, is driven in shank One piece of link block straight down is fixed in the lower end of movable plate, small by the sphere-pin pair connection crossed out on the side of link block Leg bandage, shank bandage and thigh bandage are respectively positioned on the same side of set casing, and the utility model can shift torque from thigh To shank, keep the movement in joint unrelated with instantaneous centre rotary shaft, can thus release man-machine joint accurately to the stringent of the heart Limitation.

One is fixed on the medial surface of the upper junction plate presses against the tensioning wheel first that transmission takes, the lower company The tensioning wheel second pressed against on lower drive belts is fixed on the medial surface of fishplate bar.

Set on side on the set casing where upper junction plate there are two block, upper junction plate be located at two pieces of blocks it Between, block plays supporting role, while also playing the effect of the deflection angle of limitation upper junction plate.

The two of limit connecting rod successively hinged with head and the tail is free between the ipsilateral edge of upper junction plate and lower connecting plate End is hinged, and limit connecting rod plays the role of adjusting the deflection angle between upper junction plate and lower connecting plate.

The sphere-pin pair includes spherical fixing component and bowl-shape moving link, is equipped in spherical fixing component One pin vertical with link block vertical centerline and along spherical shape being arranged radially, offers and pin phase on moving link The arc slide opening of matched level, fixing component pass through spherically mounted and pass through pin in fixing component on moving link Arc slide opening.Sphere-pin pair can be avoided the center line and link block for guaranteeing human calf around the axis torque perpendicular to axis Vertical centerline it is substantially parallel, reduce the larger frictional force of bandage and limb skin surface, improve comfort, and make this Utility model keeps being aligned during three-dimensional space motion with human body knee joint pivot center.

The utility model is a kind of adaptive knee-joint rehabilitation training ectoskeleton of multiple degrees of freedom, which is tied up by thigh Band and shank bandage are separately fixed on the thigh and shank on patient's same leg, are driven by driving band driving driving pulley Coaxially fixed synchronous pulley, synchronous pulley transfer power to transition pulley by upper transmission belt, and transition pulley passes through Lower drive belts continue power to be transferred to driven pulley, and driven pulley drives the shank driving plate being secured to be swung, small Leg driving plate drives shank to be swung by shank bandage, drives shank to carry out reciprocally swinging to reach by the ectoskeleton Power is transferred to shank driving plate by V belt translation and shank is driven to swing in fact by the purpose that bending knee rehabilitation training is carried out to knee joint While existing kneebend, the articulated structure of upper junction plate and lower connecting plate in self-adapting following device can be according to shank Bending knee is swung and adaptability is servo-actuated, so that the two is at knee joint when eliminating ectoskeleton drive human body lower limbs progress rehabilitation training The position deviation of generation is adapted to the otherness of different human body knee joint structure and size, and it is small to guarantee that power can be transmitted to Thigh bandage and shank bandage will not be moved relative to human body while leg completes kneebend, reduce ectoskeleton to wearer Limbs and the soft tissue of surrounding bring additional load, improve the comfort of wearing, ectoskeleton avoided to bring secondary wound to human body Evil, therefore the utility model can adapt to the exoskeleton mechanism of the kneed multiple degrees of freedom rigid flexible system of different human body, improve The coupling and matching degree of ectoskeleton and human body at knee joint, while also improving the comfort of wearing.

The utility model increases a double-movement freedom degree to adjust the position of center of rotation of the knee joint in sagittal plane Transmission is set and played the role of, by Denavit-Hartenberg method founding mathematical models, it is practical new thus to obtain this The space in sagittal plane of the instantaneous center of rotation of type finally obtains upper company using target deviation function and constraint condition The length and two deflectable angles of connecting plate of fishplate bar and lower connecting plate, at this point, the instantaneous center of rotation of the utility model Space includes space of the human body knee joint instantaneous center of rotation in sagittal plane, meanwhile, also to sliding between people-machine The space allocation range for rubbing certain, to ensure that ectoskeleton knee joint and the mutual Instantaneous center of human body knee joint exist It is consistent in sagittal plane.

Claims (5)

1. a kind of adaptive knee-joint rehabilitation training ectoskeleton of multiple degrees of freedom, which includes thigh bandage, set casing, adaptive Answer hunting gear, shank driving plate and shank bandage, it is characterised in that:

The self-adapting following device include driving pulley, synchronous pulley, transition pulley, driven pulley, upper junction plate and under Connecting plate, the set casing are with certain thickness cavity body, and the upper end of set casing is in character cut in bas-relief shape, and obliquely downward is equipped with belt Slot is crossed, and fixes a fixed column straight up in upper end depressed area, one is vertically fixed on the one side of fixed column Horizontal connector and level fixes a thigh bandage, the driving pulley and synchronous pulley on the free end of connector It is coaxially fixed together and is fixed in the cavity body of set casing by revolute pair, on the part of set casing upper end protrusion respectively Vertical perforative through-hole is set equipped with one, two underfaces for being located at through-hole are fixed on the medial surface of set casing cavity And angle pulley corresponding with through-hole, driving band around its both ends after driving pulley bypass angle pulley and respectively from corresponding Set casing is pierced by through-hole, one end of the upper junction plate is hinged on the one side of set casing, and upper junction plate is in set casing On hinge axes and driving pulley axis collinear, upper junction plate and tighten the two sides that band is located at set casing, it is described For synchronous pulley between driving pulley and upper junction plate, one end of the lower connecting plate and the other end of upper junction plate are hinged And it is located at the same side of upper junction plate with set casing, the transition pulley is coaxially to be fixed on upper junction plate by revolute pair With the belt wheel with two-wheel slot on lower connecting plate hinge joint, the race and synchronous pulley of inside pass through upper transmission on transition pulley Band connection forms V belt translation, and the driven pulley is fixed on the other end of lower connecting plate, driven pulley and mistake by revolute pair The race in the outside crossed on belt wheel connects to form V belt translation by lower drive belts, the upper end of the shank driving plate be fixed on from On the one side of movable belt pulley, one piece of link block straight down is fixed in the lower end of shank driving plate, on the side of link block Shank bandage is connected by the sphere-pin pair crossed out, shank bandage and thigh bandage are respectively positioned on the same side of set casing.

2. the adaptive knee-joint rehabilitation training ectoskeleton of a kind of multiple degrees of freedom according to claim 1, it is characterised in that: institute One is fixed on the medial surface for the upper junction plate stated presses against the tensioning wheel first that transmission takes, the inside of the lower connecting plate The tensioning wheel second pressed against on lower drive belts is fixed on face.

3. the adaptive knee-joint rehabilitation training ectoskeleton of a kind of multiple degrees of freedom according to claim 1, it is characterised in that: institute It is set on side on the set casing stated where upper junction plate there are two block, upper junction plate is located between two pieces of blocks.

4. the adaptive knee-joint rehabilitation training ectoskeleton of a kind of multiple degrees of freedom according to claim 1, it is characterised in that: institute Two free ends of limit connecting rod successively hinged with head and the tail are hinged between the ipsilateral edge of upper junction plate and lower connecting plate stated.

5. the adaptive knee-joint rehabilitation training ectoskeleton of a kind of multiple degrees of freedom according to claim 1, it is characterised in that: institute The sphere-pin pair stated includes spherical fixing component and bowl-shape moving link, be equipped in spherical fixing component one with connect Block vertical centerline is vertical and along the spherical pin being arranged radially, and the level to match with pin is offered on moving link Arc slide opening, fixing component passes through spherically mounted and pin in fixing component is made to pass through the arc slide opening on moving link.