CN202184900U - Lower limb rehabilitation training robot mechanism with man-machine movement compatibility - Google Patents

Abstract

The utility model relates to a lower limb rehabilitation training robot mechanism with man-machine movement compatibility, which consists of an outer skeleton mechanism, connecting joints used for being connecting with the lower limbs of a human body, and connecting pieces, wherein the outer skeleton mechanism comprises two branch mechanisms arranged symmetrically on the left and right, and each of the two branch mechanisms consists of a waist member, an upper leg member, a lower leg member, a hip joint and a knee joint. The two branch mechanisms are connected into a whole through waist connecting members, the upper leg member and the lower leg member of each branch mechanism are respectively connected with the thigh and the crus of an unilateral human lower limb through the connecting joint and the connecting piece, and the outer skeleton mechanism as well as all the connecting joints and connecting pieces together forms the lower limb rehabilitation training robot mechanism. The lower limb rehabilitation training robot mechanism can lead the lower limbs of the human body to do left-right side-swing movement and front-back curvature movement by a larger margin. Furthermore, the movement compatability of the man-machine system formed after wearing gets improved obviously, and the safety and effectiveness of the lower limb rehabilitation training can be improved.

Description

A kind of lower limbs rehabilitation training robot mechanism with people-machine motion compatibility

Technical field

This utility model relates to the lower limbs rehabilitation training robot mechanism of a kind of people of having-machine motion compatibility; Can be used as the basic composition unit of wearable type lower limbs rehabilitation training robot system; Be used for the patient of lower limb hemiplegia or lower extremity motor function damage is carried out rehabilitation training, with the reconstruction that helps the patient to recover lower extremity motor function and normal gait.

Background technology

The Unweighting walking training is the main method that lower limb rehabilitation medical adopts, and bears the load of patient's part body weight with the minimizing lower limb by suspender belt, and helps to carry out rehabilitation training by means of exercise stress down the doctor.Generally need two doctors to coordinate each other in the training process, a doctor helps the patient to accomplish lower limb swing and foot-plate contact movement, and another doctor keeps the patient uprightly and help the patient to carry out the hip stretching, extension.The Unweighting walking training can obtain comparatively ideal lower limb rehabilitation medical effect, but depends on doctor's clinical experience to a great extent.In addition, the Unweighting walking training also need be carried out in specific environment, and training process Chinese physician's working strength is big, long when accounting for, efficient is lower.Because professional's shortage, a lot of patients can only select to train voluntarily, often cause rehabilitation efficacy not ideal enough because of the not enough science of method or training burden deficiency.For remedying professional's deficiency, alleviating doctor's working strength also provides medical services timely and effectively for the patient.Since the last century the nineties, some research institutions have carried out the development work of wearable type lower limbs rehabilitation training robot system in succession.Wearable type lower limbs rehabilitation training robot system can significantly reduce doctor's working strength, and has the training parameter good reproducibility, training quota can be set as required and can effectively accelerate advantages such as lower limb rehabilitation process.

Wearable type lower limbs rehabilitation training robot system mainly is made up of weight reducing device, exercise stress and lower limbs rehabilitation training robot etc.The process of lower limb rehabilitation training is: the patient dresses lower limbs rehabilitation training robot mechanism and behind the suspender belt loss of weight, robot mechanism carries out rehabilitation training according to the characteristics of motion guiding lower limb synergy movement of planning in advance.The representational wearable type lower limbs rehabilitation training robot system of existing development mainly contains the LOKOMAT system that Zurich Balgrist medical rehabilitation unit and Hocoma medical apparatus corporation, Ltd develop, the LOPES system of Dutch Twente university biomedical engineering Research Institute and the ALEX system of Delaware, USA university mechanical engineering system laboratory development etc.Wherein, existing part wearable type lower limbs rehabilitation training robot system (like the LOKOMAT system) begins to get into the clinical practice stage.

Wearable type lower limbs rehabilitation training robot system is typical people-machine integrated system; For guaranteeing person machine system's in the rehabilitation training process safety; Require to have the good motion compatibility between lower limbs rehabilitation training robot mechanism and the human body lower limbs, to avoid connecting stronger interaction of (wearing) position generation and people-machine movement interference and the safety problem that causes thus between people-machine.See from the structure composition of existing lower limbs rehabilitation training robot mechanism; The hip joint of robot mechanism adopts single-degree-of-freedom cradle head (like the robot mechanism in the LOKOMAT system) or two single-degree-of-freedom cradle heads (like the robot mechanism in the LOPES system) through the low pairs replacing high pair equivalence of moving more; Knee joint is the single-degree-of-freedom cradle head, and the structure and the motor function in the corresponding joint of the anthropomorphic body lower limb of each joints axes are decomposed the cloth position.The scale parameter of member is then confirmed according to the ratio and the length of human body lower limbs skeleton in the robot mechanism, or member designs becomes adjustable to strengthen the adaptability to the human body lower limbs yardstick.Connect on (wearing) mode at people-machine, all adopt robot mechanism to be connected with the form of dressing of compacting through bandage or the wearing part that is fixed on robot component with the middle and lower part of human body lower limbs at large and small lower limb.

According to human anatomy, the hip joint of human body lower limbs skeleton is a Three Degree Of Freedom ball-and-socket joint as shown in Figure 1, and knee joint is a single-degree-of-freedom coaster ball-and-socket joint shown in Figure 2, knee joint when himself axis rotates also association the sliding motion of axis is arranged.Obviously; Existing lower limbs rehabilitation training robot mechanism is different with human body lower limbs on joint form and joint motions attribute; Difference is that the human body lower limbs hip joint motion is the Three Degree Of Freedom rotation around the ball-and-socket center; Knee joint is a single-degree-of-freedom coaster ball-and-socket joint, and knee joint its joints axes when rotating also has sliding motion, and the motion in each joint of lower limbs rehabilitation training robot mechanism can only be the rotation around himself axis.When human body lower limbs and robot mechanism the middle and lower part of large and small lower limb dress is connected (wearings) after, the spatial kinematic chain that human body lower limbs and robot mechanism formation are sealed.Because both differences on joint form and joint motions attribute, the incompatible phenomenon on the kinesiology meaning appears easily, and cause between people-machine moving and interfere and conflict at connecting portion.If people-machine is in the compact connection of large and small lower limb connecting portion for no relative motion; Only because both differences on the motion of knee joint attribute just possibly cause moving between people-machine conflict, reason is that the theoretical degree of freedom of people-machine local closed chain of formation after large and small lower limb place connects is zero.If permission has very little strain (the soft tissue strain of human body lower limbs connecting portion) at people-machine connecting portion place; Then in the rehabilitation training process when the phase para-position shape of large and small lower limb between people-machine is offset to certain amplitude; Because of the strain of connecting portion excessive; Also the movement interference phenomenon will inevitably occur, cause rehabilitation training to be difficult to carry out or occur safety problem.Therefore; Should take all factors into consideration lower limbs rehabilitation training robot mechanism and human body lower limbs between the difference on joint form, the joint motions attribute and people-machine type of attachment etc. to the influence of person machine system's motion compatibility; Carry out the design of lower limbs rehabilitation training robot mechanism from person machine system's whole angle; To improve the motion compatibility between robot mechanism and the human body lower limbs, improve the safety and the effectiveness of lower limb rehabilitation training.

The utility model content

In order to make lower limbs rehabilitation training robot mechanism have better people-machine motion compatibility; With the safety of raising lower limb rehabilitation training and the medical effect of rehabilitation training, this utility model has designed the lower limbs rehabilitation training robot mechanism of a kind of people of having-machine motion compatibility.Its design concept is: lower limbs rehabilitation training robot mechanism by exoskeleton mechanism and be used for linking to each other with human body lower limbs be connected the joint and connector is formed.Wherein, The function that exoskeleton mechanism is realized is to drive human body lower limbs to do left and right side pendular motion and forward and backward curvature movement, and the effect that connects joint and connector is between ectoskeleton member and bandage or wearing part, to increase freedom of motion to improve the motion compatibility between people-machine.

The technical scheme of this utility model:

A kind of lower limbs rehabilitation training robot mechanism with people-machine motion compatibility, by exoskeleton mechanism and be used for linking to each other with human body lower limbs be connected the joint and connector is formed.As shown in Figure 3, it is identical that exoskeleton mechanism contains two formations, and the branch of left and right symmetric arrangement.Left branch mechanism is by waist member 1, last leg member 2, and following leg member 3, single-degree-of-freedom cradle head A, single-degree-of-freedom cradle head B and single-degree-of-freedom cradle head C form.Wherein, the axis of rotation of cradle head A and cradle head B is orthogonal, constitutes the two freedom degree hip-joint of left branch mechanism.Cradle head C is the knee joint of left branch mechanism, and the axis of rotation of its axis of rotation and joint B parallels.Annexation in the left branch mechanism between the member is: waist member 1 links to each other through cradle head B with last leg member 2, and last leg member 2 links to each other through cradle head C with following leg member 3.Right branch mechanism is by waist member 4, last leg member 5, and following leg member 6, single-degree-of-freedom cradle head D, single-degree-of-freedom cradle head E and single-degree-of-freedom cradle head F form.Wherein, the axis of rotation of cradle head D and cradle head E is orthogonal, constitutes the two freedom degree hip-joint of right branch mechanism.Cradle head F is the knee joint of right branch mechanism, and the axis of rotation of its axis of rotation and joint E parallels.Annexation in the right branch mechanism between the member is: waist member 4 links to each other through cradle head E with last leg member 5, and last leg member 5 links to each other through cradle head F with following leg member 6.Left and right two branches connect as one with it at the two ends of waist coupling member 0 through waist member 1, cradle head A and waist member 4, cradle head D respectively, constitute the exoskeleton mechanism with six rotational freedoms thus.

Exoskeleton mechanism with the connected mode of human body lower limbs is: the last leg member 2 of left branch mechanism and following leg member 3 respectively with the thigh of human body left lower extremity and shank through being connected the joint and connector is connected.Between last leg member 2 and the human body left lower extremity thigh be connected that joint and connector are followed successively by the rod member 8 that connects firmly along the rectangular slide block that moves up of last leg member 2 bars 7, with slide block 7, the Three Degree Of Freedom ball subjoint G that connects firmly with rod member 8 and the bandage 9 that connects firmly with ball subjoint G.The slide block 12 that is followed successively by the rod member 11 that connects firmly along the rectangular slide block that moves up of leg member 3 bars down 10, with slide block 10 between being connected the joint and being connected between following leg member 3 and the human body left lower extremity shank, moves along rod member 11 bar length directions, the rod member 13 that connects firmly with slide block 12, the Three Degree Of Freedom ball subjoint H that connects firmly with rod member 13 and the bandage 14 that connects firmly with ball subjoint H.The last leg member 5 of right branch mechanism and following leg member 6 respectively with the thigh of human body right lower extremity and shank through being connected the joint and connector is connected.Between last leg member 5 and the human body right lower extremity thigh be connected that joint and connector are followed successively by the rod member 16 that connects firmly along the rectangular slide block that moves up of last leg member 5 bars 15, with slide block 15, the Three Degree Of Freedom ball subjoint I that connects firmly with rod member 16 and the bandage 17 that connects firmly with ball subjoint I.The slide block 20 that is followed successively by the rod member 19 that connects firmly along the rectangular slide block that moves up of leg member 6 bars down 18, with slide block 18 between being connected the joint and being connected between following leg member 6 and the human body right lower extremity shank, moves along rod member 19 bar length directions, the rod member 21 that connects firmly with slide block 20, the Three Degree Of Freedom ball subjoint J that connects firmly with rod member 21 and the bandage 22 that connects firmly with ball subjoint J.Described exoskeleton mechanism is connected with all that joint and connector are common to constitute the lower limbs rehabilitation training robot mechanism with people-machine motion compatibility.

In order to simplify the design of lower limbs rehabilitation training robot mechanism; Can in robot mechanism, remove section connecting element as required; As remove slide block 12, rod member 13 and slide block 20, rod member 21, make between rod member 11 and ball subjoint H, rod member 19 and the ball subjoint J to connect firmly.Or the part degree of freedom in the connection joint, lock part, the rotational freedom like locking Three Degree Of Freedom ball subjoint G distaff part 8, Three Degree Of Freedom ball subjoint I distaff part 16 makes ball subjoint G and ball subjoint I all deteriorate to two-freedom Hooke's hinge joint.

Perhaps ball subjoint H and ball subjoint J all deteriorate to two-freedom Hooke's hinge joint; Perhaps ball subjoint G and ball subjoint I, ball subjoint G and ball subjoint I all deteriorate to two-freedom Hooke's hinge joint.All belong to the scope that this lower limbs rehabilitation training robot mechanism technical scheme is contained with above similar simplified design scheme.

The beneficial effect of this utility model: human body lower limbs through the training of bandage 9, bandage 14, bandage 17 and bandage 22 and lower limb health answer a pager's call the device robot mechanism compact be connected after; Recovery exercising robot mechanism can guide human body lower limbs and carry out rehabilitation training, realizes human body lower limbs left and right side pendular motion and forward and backward curvature movement by a relatively large margin.

Since between exoskeleton mechanism and bandage addition be connected joint and connector; Make human body lower limbs and recovery exercising robot mechanism through bandage compact be connected the person machine system who is constituted the motion compatibility be improved significantly, help to improve the medical effect of the safety and the rehabilitation training of lower limb rehabilitation training.

Description of drawings

Fig. 1 is the Three Degree Of Freedom ball-and-socket hip joint of human body lower limbs.

Fig. 2 is the spherical knee joint of single-degree-of-freedom coaster of human body lower limbs.

Fig. 3 is the lower limbs rehabilitation training robot mechanism of this utility model.

Fig. 4 is the embodiment 1 of this utility model.

Fig. 5 is the embodiment 2 of this utility model.

Fig. 6 is the embodiment 3 of this utility model.

Among Fig. 3,0-waist coupling member, 1-waist member, the last leg member of 2-, leg member under the 3-, A-single-degree-of-freedom cradle head; B-single-degree-of-freedom cradle head, C-single-degree-of-freedom cradle head, 4-waist member, the last leg member of 5-, leg member under the 6-, D-single-degree-of-freedom cradle head; E-single-degree-of-freedom cradle head, F-single-degree-of-freedom cradle head, 7-slide block, 8-rod member, G-Three Degree Of Freedom ball subjoint, 9-bandage; The 10-slide block, 11-rod member, 12-slide block, 13-rod member, H-Three Degree Of Freedom ball subjoint, 14-bandage; The 15-slide block, 16-rod member, I-Three Degree Of Freedom ball subjoint, 17-bandage, 18-slide block; The 19-rod member, 20-slide block, 21-rod member, J-Three Degree Of Freedom ball subjoint, 22-bandage.

Among Fig. 4,23-Three Degree Of Freedom ball-and-socket hip joint, the spherical knee joint of 24-single-degree-of-freedom coaster, 25-thigh, 26-shank, 27-Three Degree Of Freedom ball-and-socket hip joint, the spherical knee joint of 28-single-degree-of-freedom coaster, 29-thigh, 30-shank.

Among Fig. 6,31-double rotation freedom degrees Hooke's hinge joint, 32-double rotation freedom degrees Hooke's hinge joint.

The specific embodiment

Embodiment 1:

The embodiment 1 of this utility model is as shown in Figure 4; Lower limbs rehabilitation training robot mechanism with (wearing) mode that is connected of human body lower limbs is: the cradle head A of ectoskeleton left branch mechanism and the axis of rotation intersection point of cradle head B overlap with the central point of human body left lower extremity ball-and-socket hip joint 23; The axis of rotation of the axis of rotation of cradle head C and the spherical knee joint 24 of human body left lower extremity coaster is parallel, and left branch mechanism compacts with the large and small lower limb of left lower extremity with bandage 14 through bandage 9 respectively and is connected.The cradle head D of ectoskeleton right branch mechanism and the axis of rotation intersection point of cradle head E overlap with the central point of human body by lower limb ball-and-socket hip joint 27; The axis of rotation of the axis of rotation of cradle head F and the spherical knee joint 28 of human body right lower extremity coaster is parallel, and right branch mechanism compacts with the large and small lower limb of right lower extremity with bandage 22 through bandage 17 respectively and is connected.

Embodiment 2:

The embodiment 2 of this utility model is as shown in Figure 5, and lower limbs rehabilitation training robot mechanism is identical with embodiment 1 with the connected mode of human body lower limbs in this embodiment.The difference part of embodiment 2 relative embodiments 1 is in robot mechanism, to have removed slide block 12, rod member 13, slide block 20 and rod member 21, and rod member 11 and rod member 19 respectively directly and ball subjoint H and ball subjoint J directly connect firmly.

Embodiment 3:

The embodiment 3 of this utility model is as shown in Figure 6, and lower limbs rehabilitation training robot mechanism is identical with embodiment 2 with the connected mode of human body lower limbs in this embodiment.The difference part of embodiment 3 relative embodiments 2 is in ball subjoint H and ball subjoint J; Removed the rotational freedom of distaff part 11 and rod member 19 bar length directions respectively, ball subjoint H and ball subjoint J deteriorate to the Hooke's hinge joint 31 and 32 with two rotational freedoms respectively.

Claims (2)

1. lower limbs rehabilitation training robot mechanism with people-machine motion compatibility comprises: exoskeleton mechanism and be used for being connected with human body lower limbs be connected joint and connector; It is characterized in that: it is identical that exoskeleton mechanism contains two formations, and the branch of left and right symmetric arrangement, and left and right two branches connect as one through the waist connecting elements;

Left branch mechanism is by waist member (1), last leg member (2), and following leg member (3), single-degree-of-freedom cradle head (A), single-degree-of-freedom cradle head (B) and single-degree-of-freedom cradle head (C) are formed; Wherein, cradle head (A) is orthogonal with the axis of rotation of cradle head (B), constitutes the two freedom degree hip-joint of left branch mechanism; Cradle head (C) is the knee joint of left branch mechanism, and the axis of rotation of its axis of rotation and joint (B) parallels; Right branch mechanism is by waist member (4), last leg member (5), and following leg member (6), single-degree-of-freedom cradle head (D), single-degree-of-freedom cradle head (E) and single-degree-of-freedom cradle head (F) are formed; Wherein, cradle head (D) is orthogonal with the axis of rotation of cradle head (E), constitutes the two freedom degree hip-joint of right branch mechanism; Cradle head (F) is the knee joint of right branch mechanism, and the axis of rotation of its axis of rotation and joint (E) parallels;

Annexation in the left branch mechanism between each member is: waist member (1) links to each other through cradle head (B) with last leg member (2), and last leg member (2) links to each other through cradle head (C) with following leg member (3); Annexation in the right branch mechanism between each member is: waist member (4) links to each other through cradle head (E) with last leg member (5), and last leg member (5) links to each other through cradle head (F) with following leg member (6); Left and right two branches connect as one with it at the two ends of waist coupling member (0) through waist member (1), cradle head (A) and waist member (4), cradle head (D) respectively, constitute the exoskeleton mechanism with six rotational freedoms thus.

2. according to the described lower limbs rehabilitation training robot mechanism of claim (1), it is characterized in that with people-machine motion compatibility: the last leg member (2) of ectoskeleton left branch mechanism and following leg member (3) respectively with the thigh of human body left lower extremity and shank through being connected the joint and connector is connected;

Between last leg member (2) and the human body left lower extremity thigh be connected that joint and connector are followed successively by the rod member (8) that connects firmly along last leg member (2) the rectangular slide block that moves up of bar (7), with slide block (7), the Three Degree Of Freedom ball subjoint (G) that connects firmly with rod member (8) and the bandage (9) that connects firmly with ball subjoint (G); The slide block (12) that is followed successively by the rod member (11) that connects firmly along leg member (3) the rectangular slide block that moves up of bar (10) down, with slide block (10) between being connected the joint and being connected between following leg member (3) and the human body left lower extremity shank, moves along rod member (11) bar length direction, the rod member (13) that connects firmly with slide block (12), the Three Degree Of Freedom ball subjoint (H) that connects firmly with rod member (13) and the bandage (14) that connects firmly with ball subjoint (H); The last leg member (5) of ectoskeleton right branch mechanism and following leg member (6) respectively with the thigh of human body right lower extremity and shank through being connected the joint and connector is connected; Between last leg member (5) and the human body right lower extremity thigh be connected that joint and connector are followed successively by the rod member (16) that connects firmly along last leg member (5) the rectangular slide block that moves up of bar (15), with slide block (15), the Three Degree Of Freedom ball subjoint (I) that connects firmly with rod member (16) and the bandage (17) that connects firmly with ball subjoint (I); The slide block (20) that is followed successively by the rod member (19) that connects firmly along leg member (6) the rectangular slide block that moves up of bar (18) down, with slide block (18) between being connected the joint and being connected between following leg member (6) and the human body right lower extremity shank, moves along rod member (19) bar length direction, the rod member (21) that connects firmly with slide block (20), the Three Degree Of Freedom ball subjoint (J) that connects firmly with rod member (21) and the bandage (22) that connects firmly with ball subjoint (J);

Perhaps connect firmly between rod member (11) and ball subjoint (H), rod member (19) and the ball subjoint (J);

Or ball subjoint (G) and ball subjoint (I) all deteriorate to two-freedom Hooke's hinge joint;

Perhaps ball subjoint (H) and ball subjoint (J) all deteriorate to two-freedom Hooke's hinge joint;

Perhaps ball subjoint (G) and ball subjoint (I), ball subjoint (H) and ball subjoint (J) all deteriorate to two-freedom Hooke's hinge joint.

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