CN202027877U - Wearable upper limb motion rehabilitation training exoskeleton with seven degrees of freedom - Google Patents
Wearable upper limb motion rehabilitation training exoskeleton with seven degrees of freedom Download PDFInfo
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- CN202027877U CN202027877U CN2011200872613U CN201120087261U CN202027877U CN 202027877 U CN202027877 U CN 202027877U CN 2011200872613 U CN2011200872613 U CN 2011200872613U CN 201120087261 U CN201120087261 U CN 201120087261U CN 202027877 U CN202027877 U CN 202027877U
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Abstract
The utility model discloses a wearable upper limb motion rehabilitation training exoskeleton with seven degrees of freedom, which comprises a support rod and an exoskeleton training device. The support rod is fixed onto a base, seven rotary joints including a shoulder adduction/abduction joint, a shoulder flexion/stretching joint, a shoulder inward/outward rotary joint, an elbow flexion/stretching joint, an elbow inward/outward rotary joint, a wrist adduction/abduction joint and a wrist flexion/stretching joint are serially connected to form the exoskeleton training device, the joints are directly driven by a motor, and primary spur gear trains are added to the shoulder rotary joint and the elbow rotary joint. The wearable upper limb motion rehabilitation training exoskeleton is simple in structure and fast in response speed. Compared with the prior art, the wearable limb motion rehabilitation training exoskeleton has more motional degrees of freedom, and can adapt to standing posture training and sitting posture training. The length of an exoskeleton rod can be adjusted according to figures of patients, and wearing comfortableness is guaranteed. The joints are limit structures, and safety is improved. Force and torque sensors arranged at the joints acquire kinematic and dynamic data of the joints at real time to bring convenience for physiotherapists for follow-up analysis and development of training program, and optimal rehabilitation effect is achieved.
Description
Technical field
This utility model relates to 7 wearable degree of freedom upper extremity exercise rehabilitation training ectoskeletons, belongs to the medical rehabilitation instrument field.Be applicable to hemiplegic patient's upper extremity exercise rehabilitation training.
Background technology
Along with modern society's aging process is accelerated, the hemiplegic patient colony that is caused by cerebro-vascular diseases also more and more causes the concern of society.The exercise rehabilitation training of this class needs of patients science improves the motor function of Ipsilateral arm.Traditional rehabilitation training is undertaken by Physical Therapist's manual guidance Ipsilateral arm, and this rehabilitation training working strength is big, and training effect and Physical Therapist's skills involved in the labour are closely related, and is difficult to satisfy the patient's requirement that increases day by day.The ectoskeleton of developing at present, or degree of freedom is less, or range of movement is not enough, or training mode is few at the upper extremity exercise rehabilitation training, so the scope of application and rehabilitation efficacy are restricted.
Summary of the invention
The purpose of this utility model provides a kind of 7 wearable degree of freedom upper extremity exercise rehabilitation training ectoskeletons that are suitable for the hemiplegic patient by upper exercise rehabilitation training.
7 wearable degree of freedom upper extremity exercise rehabilitation training ectoskeletons of the present utility model comprise support bar and the ectoskeleton training devices who is fixed on the base, and wherein the ectoskeleton training devices comprises receipts/abduction joint in the shoulder, flexion/extension joint, medial rotation/revolve extrinsic articulation, ancon flexion/extension joint, medial rotation/revolve extrinsic articulation and the interior receipts/abduction joint of wrist and flexion/extension joint seven rotary joints altogether;
Piece is adjusted by first attitude in receipts/abduction joint in the shoulder, second attitude is adjusted piece, the first joint keyset, first drives clamping plate, the first joint drive motors and second drives clamping plate and forms, a wherein side and support bar that first attitude is adjusted the adjacent both sides of piece connect and compose moving sets, opposite side is connected with the wherein side that second attitude is adjusted the adjacent both sides of piece, second attitude is adjusted the opposite side and the first joint keyset of piece and is fixed, the upper and lower surface of the first joint keyset links to each other with the first driving clamping plate and the second driving clamping plate respectively and constitutes moving sets, and the first joint drive motors is fixed on second and drives on the clamping plate;
Shoulder flexion/extension joint comprises that first joint drives take-off lever, second joint drives fixed bar and second joint drive motors, first joint drives an end of take-off lever and is connected with the first joint drive motors output shaft in the interior receipts/abduction joint of shoulder, realize transmission of power, the other end links to each other with the end that second joint drives fixed bar, and the second joint drive motors is fixed on the other end that second joint drives fixed bar; Drive take-off lever and drive motors output shaft junction, first joint in first joint first angle and torque sensor are installed;
Shoulder medial rotation/revolve extrinsic articulation comprises that second joint drives take-off lever, the 3rd joint slip ring upper mounted plate, the 3rd joint slip ring bottom plate, the 3rd joint gear containment vessel, the 3rd joint spur gear group, the 3rd joint drives take-off lever, the 3rd joint glides and encircles, first limited block, the 3rd joint output fixed bar, the 3rd joint centre circle, slip ring on the 3rd joint, second limited block and the 3rd joint drive motors, second joint drives the take-off lever upper end and is connected with second joint drive motors output shaft in the shoulder flexion/extension joint, realize transmission of power, the 3rd joint slip ring upper mounted plate drives take-off lever perpendicular to second joint, one end and second joint drive take-off lever and fix, slip ring is fixed on the other end and the 3rd joint, the 3rd joint slip ring bottom plate drives take-off lever perpendicular to second joint, one end and second joint drive the lower end of take-off lever and fix, the other end and the 3rd joint glide to encircling and fix, first limited block and second limited block all link to each other with slip ring and the 3rd joint ring that glides on the 3rd joint, the 3rd joint centre circle is positioned at slip ring and the middle formation of the 3rd joint downslide ring revolute pair on the 3rd joint, drive take-off lever and the 3rd joint output fixed bar in the 3rd joint and be parallel to second joint driving take-off lever, their upper end symmetry is fixed on centre circle inboard, the 3rd joint, realize transmission of power, the 3rd joint drive motors is fixed on the 3rd joint slip ring upper mounted plate, the 3rd joint drive motors output shaft connects the input gear in the 3rd joint spur gear group, output gear in the 3rd joint spur gear group is fixed on the centre circle outside, the 3rd joint, between the 3rd joint slip ring upper mounted plate and the 3rd joint slip ring bottom plate, be provided with the 3rd joint gear containment vessel, at second joint driving take-off lever and second joint drive motors output shaft junction second angle and torque sensor are installed, the 3rd joint centre circle and the 3rd joint glide and encircle junction installation third angle degree and torque sensor;
Ancon flexion/extension joint comprises that the 3rd L-shaped joint drives the output adjusting rod, the 4th joint drives fixed bar and the 4th joint drive motors, the 3rd joint driving take-off lever one end of the rectangular channel that the 3rd joint drives output adjusting rod one end and shoulder medial rotation/revolve in the extrinsic articulation is connected, constitute moving sets, it is fixing that the 3rd joint drives the other end and the driving fixed bar upper end, the 4th joint of output adjusting rod, and the 4th joint drives the fixed bar lower end and fixes the 4th joint drive motors;
Ancon medial rotation/revolve extrinsic articulation comprises that the 4th joint drives take-off lever, the 5th joint slip ring upper mounted plate, the 5th joint slip ring bottom plate, the 5th joint gear containment vessel, the 5th joint commutating tooth wheels, the 5th joint drives take-off lever, the 3rd limited block, slip ring under the 5th joint, the 5th joint centre circle, the 4th joint drives the output fixed bar, the 4th limited block, slip ring and the 5th joint drive motors on the 5th joint, the output fixed bar lower end, the 3rd joint that the 4th joint drives output fixed bar upper end and shoulder medial rotation/revolve in the extrinsic articulation connects and composes revolute pair, the 4th joint drives the take-off lever upper end and is connected with the 4th joint drive motors output shaft in the ancon flexion/extension joint, realize transmission of power, the 5th joint slip ring upper mounted plate drives take-off lever perpendicular to the 4th joint, one end and the 4th joint drive take-off lever and fix, slip ring is fixed on the other end and the 5th joint, the 5th joint slip ring bottom plate drives take-off lever perpendicular to the 4th joint, the lower end of one end and the 5th joint slip ring bottom plate is fixed, slip ring is fixed under the other end and the 5th joint, the 3rd limited block and the 4th limited block all with the 5th joint on slip ring link to each other with slip ring under the 5th joint, the 5th joint centre circle is positioned at and constitutes revolute pair on the 5th joint under the slip ring and the 5th joint in the middle of the slip ring, the 5th joint drives take-off lever and is parallel to the 4th joint driving take-off lever, its upper end is fixed on centre circle inboard, the 5th joint, the 5th joint drive motors is fixed on the 5th joint slip ring upper mounted plate, the 5th joint drive motors output shaft connects the input gear in the 5th joint commutating tooth wheels, output gear in the 5th joint commutating tooth wheels is fixed on the centre circle outside, the 5th joint, between the 5th joint slip ring upper mounted plate and the 5th joint slip ring bottom plate, be provided with the 5th joint gear containment vessel, drive take-off lever and drive motors output shaft junction, the 4th joint in the 4th joint the 4th angle and torque sensor are installed, the 5th angle and torque sensor are installed in the slip ring junction under the 5th joint centre circle and the 5th joint;
Receipts/abduction joint and flexion/extension joint comprise that the 6th joint drives fixed bar in the wrist, the 6th joint drive motors, the 6th L-shaped joint drives take-off lever, the hand fixed bar, the 7th joint drives take-off lever and the 7th joint drive motors, the rectangular channel that the 6th joint drives fixed bar one end connects ancon medial rotation/revolve the 5th joint in the extrinsic articulation and drives the take-off lever lower end and constitute moving sets, the other end is fixed the 6th joint drive motors, the 6th joint drive motors output shaft is connected with the end that the 6th joint drives take-off lever, realize transmission of power, the 6th joint drives the other end of take-off lever and fixes the 7th joint drive motors, the 7th joint drive motors output shaft connects the 7th joint and drives the take-off lever upper end, the 7th joint drives fixedly hand fixed bar of take-off lever lower end, drive take-off lever and drive motors output shaft junction, the 6th joint in the 6th joint hexagonal degree and torque sensor are installed, the 7th joint drives take-off lever and heptangle degree and torque sensor are installed in drive motors output shaft junction, the 7th joint.
This utility model is simple in structure, and response speed is fast.This utility model compared with prior art has more freedom of motion, can adapt to stance and sitting posture training.Ectoskeleton bar length can be regulated according to patient's stature, guarantees to dress comfortableness.Position limiting structure is adopted in the joint, has improved safety.The angle of joint and torque sensor are gathered the kinesiology and the dynamics data in each joint in real time, make things convenient for the follow-up analysis of Physical Therapist and formulate training program, reach the optimal rehabilitation effect.
Description of drawings
Fig. 1 is the wearable ectoskeletal structural representation of 7 degree of freedom upper extremity exercise rehabilitation trainings;
Fig. 2 is the structural representation in receipts/abduction joint in the shoulder;
Fig. 3 is the structural representation in shoulder flexion/extension joint;
Fig. 4 is shoulder medial rotation/the revolve structural representation of extrinsic articulation;
Fig. 5 is the structural representation in ancon flexion/extension joint;
Fig. 6 is ancon medial rotation/the revolve structural representation of extrinsic articulation;
Fig. 7 is the structural representation in interior receipts/abduction of wrist and flexion/extension joint.
Above-mentioned number in the figure title: 1, support bar; 2, receipts/abduction joint in the shoulder; 3, shoulder flexion/extension joint; 4, shoulder medial rotation/revolve extrinsic articulation; 5, ancon flexion/extension joint; 6, ancon medial rotation/revolve extrinsic articulation; 7, receipts/abduction joint in the wrist; 8, wrist flexion/extension joint; 9, first attitude is adjusted piece; 10, second attitude is adjusted piece; 11, first drive clamping plate; 12, the first joint drive motors; 13, second drive clamping plate; 14, the first joint keyset; 15, first joint drives take-off lever; 16, second joint drives fixed bar; 17, second joint drive motors; 18, second joint drives take-off lever; 19, the 3rd joint slip ring upper mounted plate; 20, the 3rd joint slip ring bottom plate; 21, the 3rd joint gear containment vessel; 22, the 3rd joint spur gear group; 23, the 3rd joint drives take-off lever; 24, the 3rd joint glides and encircles; 25, first limited block; 26, the 3rd joint output fixed bar; 27, the 3rd joint centre circle; 28, slip ring on the 3rd joint; 29, second limited block; 30, the 3rd joint drive motors; 31, the 3rd joint drives the output adjusting rod; 32, the 4th joint drives fixed bar; 33, the 4th joint drive motors; 34, the 4th joint drives take-off lever; 35, the 5th joint slip ring upper mounted plate; 36, the 5th joint slip ring bottom plate; 37, the 5th joint gear containment vessel; 38, the 5th joint commutating tooth wheels; 39, the 5th joint drives take-off lever; 40, the 3rd limited block; 41, slip ring under the 5th joint; 42, the 5th joint centre circle; 43, the 4th joint drives the output fixed bar; 44, the 4th limited block; 45, slip ring on the 5th joint; 46, the 5th joint drive motors; 47, the 6th joint drives fixed bar; 48, the 6th joint drive motors; 49, the 6th joint drives take-off lever; 50, hand fixed bar; 51, the 7th joint drives take-off lever; 52, the 7th joint drive motors.
The specific embodiment
Further specify this utility model below in conjunction with accompanying drawing.
With reference to Fig. 1,7 wearable degree of freedom upper extremity exercise rehabilitation training ectoskeletons comprise: be fixed on support bar 1 and ectoskeleton training devices on the base, wherein the ectoskeleton training devices comprises receipts/abduction joint 2 in the shoulder, flexion/extension joint 3, medial rotation/revolve extrinsic articulation 4, ancon flexion/extension joint 5, medial rotation/revolve extrinsic articulation 6 and the interior receipts/abduction joint 7 of wrist and flexion/extension joint 8 seven rotary joints altogether;
As shown in Figure 2, piece 9 is adjusted by first attitude in receipts/abduction joint 2 in the shoulder, second attitude is adjusted piece 10, the first joint keyset 14, first drives clamping plate 11, the first joint drive motors 12 and second drives clamping plate 13 and forms, a wherein side and support bar 1 that first attitude is adjusted piece 9 adjacent both sides connect and compose moving sets, can move up and down the patient that adjusting highly adapts to different statures along support bar 1, opposite side is connected with the wherein side that second attitude is adjusted piece 10 adjacent both sides, it is fixing that second attitude is adjusted the opposite side and the first joint keyset 14 of piece 10, two attitudes are adjusted the piece combination and can be determined the ectoskeleton attitude, can determine stance and sitting posture by different adjustment piece combinations, the upper and lower surface of the first joint keyset 14 links to each other with the first driving clamping plate 11 and the second driving clamping plate 13 respectively and constitutes moving sets, can adapt to different stature patients by move left and right adjusting connecting rod width, the first joint drive motors 12 is fixed on second and drives on the clamping plate 13;
See Fig. 3, shoulder flexion/extension joint 3 comprises that first joint drives take-off lever 15, second joint drives fixed bar 16 and second joint drive motors 17, first joint drives an end of take-off lever 15 and is connected with the first joint drive motors, 12 output shafts in the interior receipts/abduction joint 2 of shoulder, realize transmission of power, the other end links to each other with the end that second joint drives fixed bar 16, second joint drive motors 17 is fixed on the other end that second joint drives fixed bar 16, drives take-off lever 15 and the first joint drive motors, 12 output shaft junctions in first joint first angle and torque sensor are installed;
With reference to Fig. 4, shoulder medial rotation/revolve extrinsic articulation 4 comprises that second joint drives take-off lever 18, the 3rd joint slip ring upper mounted plate 19, the 3rd joint slip ring bottom plate 20, the 3rd joint gear containment vessel 21, the 3rd joint spur gear group 22, the 3rd joint drives take-off lever 23, the 3rd joint glides and encircles 24, first limited block 25, the 3rd joint output fixed bar 26, the 3rd joint centre circle 27, slip ring 28 on the 3rd joint, second limited block 29 and the 3rd joint drive motors 30, second joint drives take-off lever 18 upper ends and is connected with the first joint drive motors, 17 output shafts in the shoulder flexion/extension joint 3, realize transmission of power, the 3rd joint slip ring upper mounted plate 19 drives take-off lever 18 perpendicular to second joint, it is fixing that one end and second joint drive take-off lever 18, slip ring 28 is fixing on the other end and the 3rd joint, the 3rd joint slip ring bottom plate 20 drives take-off lever 18 perpendicular to second joint, one end and second joint drive the lower end of take-off lever 18 and fix, the other end and the 3rd joint downslide ring 24 are fixing, the 3rd joint centre circle 27 is positioned at slip ring 28 and the 3rd joint downslide ring 24 middle formation revolute pairs on the 3rd joint, realize shoulder medial rotation/motion outside revolving, first limited block 25 and second limited block 29 all link to each other with slip ring 28 and the 3rd joint ring 24 that glides on the 3rd joint, when the 3rd joint take-off lever motion 23 is followed the 3rd joint centre circle 27 when rotating to desired location, limited block can stop it to continue motion, realize limit function, the 3rd joint drives take-off lever 23 and the 3rd joint output fixed bar 26 is parallel to second joint driving take-off lever 18, their upper end symmetry is fixed on the 3rd joint centre circle 27 inboards, realize transmission of power, the 3rd joint drive motors 30 is fixed on the 3rd joint slip ring upper mounted plate 19, the 3rd joint drive motors 30 output shafts connect the input gear in the 3rd joint spur gear group 22, output gear in the 3rd joint spur gear group 22 is fixed on the 3rd joint centre circle 27 outsides, between the 3rd joint slip ring upper mounted plate 19 and the 3rd joint slip ring bottom plate 20, be provided with the 3rd joint gear containment vessel 21, at second joint driving take-off lever 18 and second joint drive motors 17 output shaft junctions second angle and torque sensor are installed, the 3rd joint centre circle 27 and the 3rd joint glide and encircle 24 junctions installation third angle degree and torque sensor;
As shown in Figure 5, ancon flexion/extension joint 5 comprises that the 3rd L-shaped joint drives output adjusting rod 31, the 4th joint drives fixed bar 32 and the 4th joint drive motors 33, the 3rd joint driving take-off lever 23 1 ends of the rectangular channel that the 3rd joint drives output adjusting rod 31 1 ends and shoulder medial rotation/revolve in the extrinsic articulation 4 are connected, constitute moving sets, can move up and down the adjusting length of connecting rod and adapt to different brachium patients, the 3rd joint drives the other end and driving fixed bar 32 upper ends, the 4th joint of output adjusting rod 31 and fixes, and the 4th joint drives fixed bar 32 lower ends and fixes the 4th joint drive motors 33;
See Fig. 6, ancon medial rotation/revolve extrinsic articulation 6 comprises that the 4th joint drives take-off lever 34, the 5th joint slip ring upper mounted plate 35, the 5th joint slip ring bottom plate 36, the 5th joint gear containment vessel 37, the 5th joint commutating tooth wheels 38, the 5th joint drives take-off lever 39, the 3rd limited block 40, slip ring 41 under the 5th joint, the 5th joint centre circle 42, the 4th joint drives output fixed bar 43, the 4th limited block 44, slip ring 45 and the 5th joint drive motors 46 on the 5th joint, the 4th joint drives take-off lever 34 upper ends and is connected with the 4th joint drive motors 32 output shafts in the ancon flexion/extension joint 5, realize transmission of power, the 4th joint drives output fixed bar 43 upper ends and shoulder medial rotation/revolve the 3rd joint in the extrinsic articulation 4 and exports fixed bar 26 lower ends and connect and compose revolute pair, drive take-off lever 34 with the 4th joint and constitute parallel institution, realize the motion miscellaneous function, the 5th joint slip ring upper mounted plate 35 drives take-off lever 34 perpendicular to the 4th joint, it is fixing that one end and the 4th joint drive take-off lever 34, slip ring 45 is fixing on the other end and the 5th joint, the 5th joint slip ring bottom plate 36 drives take-off lever 34 perpendicular to the 4th joint, the lower end of one end and the 5th joint slip ring bottom plate 36 is fixed, slip ring 41 is fixing under the other end and the 5th joint, the 5th joint centre circle 42 is positioned at and constitutes revolute pairs on the 5th joint under the slip ring 45 and the 5th joint in the middle of the slip ring 41, realize ancon medial rotation/motion outside revolving, the 3rd limited block 40 and the 4th limited block 44 all with the 5th joint on slip ring 45 link to each other with slip ring 41 under the 5th joint, when driving take-off lever 39, the 5th joint follows the 5th joint centre circle 42 when moving to desired location, limited block can stop it to continue motion, realize limit function, the 5th joint drives take-off lever 39 and is parallel to the 4th joint driving take-off lever 34, its upper end is fixed on the 5th joint centre circle 42 inboards, follow 42 motions of the 5th joint centre circle, realize transmission of power, the 5th joint drive motors 46 is fixed on the 5th joint slip ring upper mounted plate 35, the 5th joint drive motors 46 output shafts connect the input gear in the 5th joint commutating tooth wheels 38, output gear in the 5th joint commutating tooth wheels 38 is fixed on the 5th joint centre circle 42 outsides, between the 5th joint slip ring upper mounted plate 35 and the 5th joint slip ring bottom plate 36, be provided with the 5th joint gear containment vessel 37, drive take-off lever 34 and the 4th joint drive motors 32 output shaft junctions in the 4th joint the 4th angle and torque sensor are installed, the 5th angle and torque sensor are installed in slip ring 41 junctions under the 5th joint centre circle 42 and the 5th joint;
With reference to Fig. 7, receipts/abduction joint 7 and flexion/extension joint 8 comprise that the 6th joint drives fixed bar 47 in the wrist, the 6th joint drive motors 48, the 6th L-shaped joint drives take-off lever 49, hand fixed bar 50, the 7th joint drives take-off lever 51 and the 7th joint drive motors 52, the rectangular channel that the 6th joint drives fixed bar 47 1 ends connects ancon medial rotation/revolve the 5th joint in the extrinsic articulation 6 and drives take-off lever 39 lower ends and constitute moving sets, can move up and down the adjusting length of connecting rod and adapt to different brachium patients, the other end is fixed the 6th joint drive motors 48, the 6th joint drive motors 48 output shafts are connected with the end that the 6th joint drives take-off lever 49, realize transmission of power, the 6th joint drives the other end of take-off lever 49 and fixes the 7th joint drive motors 52, the 7th joint drive motors 52 output shafts connect the 7th joint and drive take-off lever 51 upper ends, the 7th joint drives fixedly hand fixed bar 50 of take-off lever 51 lower ends, drive take-off lever 49 and the 6th joint drive motors 48 output shaft junctions in the 6th joint hexagonal degree and torque sensor are installed, the 7th joint drives take-off lever 51 and heptangle degree and torque sensor are installed in the 7th joint drive motors 52 output shaft junctions.
During use, patient's upper arm and forearm enter the 3rd joint rotation centre circle of shoulder medial rotation/revolve extrinsic articulation and ancon medial rotation/revolve the 5th joint rotation centre circle of extrinsic articulation successively, hand is fixed on the flexible bandage of hand fixed bar 50, guarantees to dress comfortableness with flexible bandage.At each joint motor output shaft and driving take-off lever junction setting angle and torque sensor.Can conveniently detect articular kinesiology and kinetic parameter.
Claims (1)
1. 7 wearable degree of freedom upper extremity exercise rehabilitation training ectoskeletons, its feature comprises support bar (1) and the ectoskeleton training devices who is fixed on the base, wherein the ectoskeleton training devices comprises receipts/abduction joint (2) in the shoulder, flexion/extension joint (3), medial rotation/revolve extrinsic articulation (4), ancon flexion/extension joint (5), medial rotation/revolve extrinsic articulation (6) and the interior receipts/abduction joint (7) of wrist and flexion/extension joint (8) seven rotary joints altogether;
Piece (9) is adjusted by first attitude in receipts/abduction joint (2) in the shoulder, second attitude is adjusted piece (10), the first joint keyset (14), first drives clamping plate (11), the first joint drive motors (12) and second drives clamping plate (13) and forms, a wherein side and support bar (1) that first attitude is adjusted the adjacent both sides of piece (9) connect and compose moving sets, opposite side is connected with the wherein side that second attitude is adjusted the adjacent both sides of piece (10), it is fixing that second attitude is adjusted the opposite side and the first joint keyset (14) of piece (10), the upper and lower surface of the first joint keyset (14) links to each other with the first driving clamping plate (11) and the second driving clamping plate (13) respectively and constitutes moving sets, and the first joint drive motors (12) is fixed on second and drives on the clamping plate (13);
Shoulder flexion/extension joint (3) comprises that first joint drives take-off lever (15), second joint drives fixed bar (16) and second joint drive motors (17), first joint drives an end of take-off lever (15) and is connected with first joint drive motors (12) output shaft in the interior receipts/abduction joint (2) of shoulder, realize transmission of power, the other end links to each other with the end that second joint drives fixed bar (16), second joint drive motors (17) is fixed on the other end that second joint drives fixed bar (16), drives the take-off lever (15) and first joint drive motors (12) the output shaft junction in first joint first angle and torque sensor are installed;
Shoulder medial rotation/revolve extrinsic articulation (4) comprises that second joint drives take-off lever (18), the 3rd joint slip ring upper mounted plate (19), the 3rd joint slip ring bottom plate (20), the 3rd joint gear containment vessel (21), the 3rd joint spur gear group (22), the 3rd joint drives take-off lever (23), the 3rd joint glides and encircles (24), first limited block (25), the 3rd joint output fixed bar (26), the 3rd joint centre circle (27), slip ring on the 3rd joint (28), second limited block (29) and the 3rd joint drive motors (30), second joint drives take-off lever (18) upper end and is connected with second joint drive motors (17) output shaft in the shoulder flexion/extension joint (3), realize transmission of power, the 3rd joint slip ring upper mounted plate (19) drives take-off lever (18) perpendicular to second joint, it is fixing that one end and second joint drive take-off lever (18), slip ring (28) is fixing on the other end and the 3rd joint, the 3rd joint slip ring bottom plate (20) drives take-off lever (18) perpendicular to second joint, one end and second joint drive the lower end of take-off lever (18) and fix, the other end and the 3rd joint downslide ring (24) are fixing, first limited block (25) and second limited block (29) all link to each other with slip ring (28) and the 3rd joint ring (24) that glides on the 3rd joint, the 3rd joint centre circle (27) constitutes revolute pair in the middle of being positioned at slip ring on the 3rd joint (28) and the 3rd joint downslide ring (24), drive take-off lever (23) and the 3rd joint output fixed bar (26) in the 3rd joint and be parallel to second joint driving take-off lever (18), their upper end symmetry is fixed on the 3rd joint centre circle (27) inboard, realize transmission of power, the 3rd joint drive motors (30) is fixed on the 3rd joint slip ring upper mounted plate (19), the 3rd joint drive motors (30) output shaft connects the input gear in the 3rd joint spur gear group (22), output gear in the 3rd joint spur gear group (22) is fixed on the 3rd joint centre circle (27) outside, between the 3rd joint slip ring upper mounted plate (19) and the 3rd joint slip ring bottom plate (20), be provided with the 3rd joint gear containment vessel (21), at second joint driving take-off lever (18) and second joint drive motors (17) output shaft junction second angle and torque sensor are installed, the 3rd joint centre circle (27) and the 3rd joint glide and encircle (24) junction installation third angle degree and torque sensor;
Ancon flexion/extension joint (5) comprises that the 3rd L-shaped joint drives output adjusting rod (31), the 4th joint drives fixed bar (32) and the 4th joint drive motors (33), the 3rd joint driving take-off lever (23) one ends of the rectangular channel that the 3rd joint drives output adjusting rod (31) one ends and shoulder medial rotation/revolve in the extrinsic articulation (4) are connected, constitute moving sets, it is fixing that the 3rd joint drives the other end and the 4th joint driving fixed bar (32) upper end of output adjusting rod (31), and the 4th joint drives fixed bar (32) lower end and fixes the 4th joint drive motors (33);
Ancon medial rotation/revolve extrinsic articulation (6) comprises that the 4th joint drives take-off lever (34), the 5th joint slip ring upper mounted plate (35), the 5th joint slip ring bottom plate (36), the 5th joint gear containment vessel (37), the 5th joint commutating tooth wheels (38), the 5th joint drives take-off lever (39), the 3rd limited block (40), slip ring under the 5th joint (41), the 5th joint centre circle (42), the 4th joint drives output fixed bar (43), the 4th limited block (44), slip ring on the 5th joint (45) and the 5th joint drive motors (46), output fixed bar (26) lower end, the 3rd joint that the 4th joint drives output fixed bar (43) upper end and shoulder medial rotation/revolve in the extrinsic articulation (4) connects and composes revolute pair, the 4th joint drives take-off lever (34) upper end and is connected with the 4th joint drive motors (32) output shaft in the ancon flexion/extension joint (5), realize transmission of power, the 5th joint slip ring upper mounted plate (35) drives take-off lever (34) perpendicular to the 4th joint, it is fixing that one end and the 4th joint drive take-off lever (34), slip ring (45) is fixing on the other end and the 5th joint, the 5th joint slip ring bottom plate (36) drives take-off lever (34) perpendicular to the 4th joint, the lower end of one end and the 5th joint slip ring bottom plate (36) is fixed, slip ring (41) is fixing under the other end and the 5th joint, the 3rd limited block (40) and the 4th limited block (44) all with the 5th joint on slip ring (45) link to each other with slip ring (41) under the 5th joint, the 5th joint centre circle (42) is positioned at and constitutes revolute pair under slip ring on the 5th joint (45) and the 5th joint in the middle of the slip ring (41), the 5th joint drives take-off lever (39) and is parallel to the 4th joint driving take-off lever (34), its upper end is fixed on the 5th joint centre circle (42) inboard, the 5th joint drive motors (46) is fixed on the 5th joint slip ring upper mounted plate (35), the 5th joint drive motors (46) output shaft connects the input gear in the 5th joint commutating tooth wheels (38), output gear in the 5th joint commutating tooth wheels (38) is fixed on the 5th joint centre circle (42) outside, between the 5th joint slip ring upper mounted plate (35) and the 5th joint slip ring bottom plate (36), be provided with the 5th joint gear containment vessel (37), drive take-off lever (34) and the 4th joint drive motors (32) output shaft junction in the 4th joint the 4th angle and torque sensor are installed, the 5th angle and torque sensor are installed in slip ring (41) junction under the 5th joint centre circle (42) and the 5th joint;
Receipts/abduction joint (7) and flexion/extension joint (8) comprise that the 6th joint drives fixed bar (47) in the wrist, the 6th joint drive motors (48), the 6th L-shaped joint drives take-off lever (49), hand fixed bar (50), the 7th joint drives take-off lever (51) and the 7th joint drive motors (52), the rectangular channel that the 6th joint drives fixed bar (47) one ends connects ancon medial rotation/revolve the 5th joint in the extrinsic articulation (6) and drives take-off lever (39) lower end and constitute moving sets, the other end is fixed the 6th joint drive motors (48), the 6th joint drive motors (48) output shaft is connected with the end that the 6th joint drives take-off lever (49), realize transmission of power, the 6th joint drives the other end of take-off lever (49) and fixes the 7th joint drive motors (52), the 7th joint drive motors (52) output shaft connects the 7th joint and drives take-off lever (51) upper end, the 7th joint drives fixedly hand fixed bar (50) of take-off lever (51) lower end, drive take-off lever (49) and the 6th joint drive motors (48) output shaft junction in the 6th joint hexagonal degree and torque sensor are installed, the 7th joint drives take-off lever (51) and heptangle degree and torque sensor are installed in the 7th joint drive motors (52) output shaft junction.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2011200872613U CN202027877U (en) | 2011-03-29 | 2011-03-29 | Wearable upper limb motion rehabilitation training exoskeleton with seven degrees of freedom |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2011200872613U CN202027877U (en) | 2011-03-29 | 2011-03-29 | Wearable upper limb motion rehabilitation training exoskeleton with seven degrees of freedom |
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| Publication Number | Publication Date |
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| CN202027877U true CN202027877U (en) | 2011-11-09 |
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| CN2011200872613U Expired - Lifetime CN202027877U (en) | 2011-03-29 | 2011-03-29 | Wearable upper limb motion rehabilitation training exoskeleton with seven degrees of freedom |
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| CN (1) | CN202027877U (en) |
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| CN102119902A (en) * | 2011-03-29 | 2011-07-13 | 浙江大学 | Wearable 7-degree-of-freedom upper limb movement rehabilitation training exoskeleton |
| CN104473752A (en) * | 2014-11-10 | 2015-04-01 | 华中科技大学 | Upper limb rehabilitation training device based on grouping coupling drive |
| CN104490565A (en) * | 2014-12-26 | 2015-04-08 | 上海交通大学 | Seven-degree-of-freedom exoskeletal rehabilitation robot for upper limbs |
| CN104546379A (en) * | 2014-12-19 | 2015-04-29 | 上海璟和技创机器人有限公司 | Limb rehabilitation training machine |
| CN105189050A (en) * | 2013-02-28 | 2015-12-23 | 脸谱公司 | Modular exoskeletal force feedback controller |
| CN105411815A (en) * | 2016-01-26 | 2016-03-23 | 哈尔滨工业大学 | Wearable DOF (dual degrees of freedom) elbow rehabilitation training device |
| CN105856199A (en) * | 2016-05-20 | 2016-08-17 | 深圳市君航智远科技有限公司 | Method and device for solving problem of singularity posture of exoskeleton robot shoulder joint |
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| CN106994087A (en) * | 2017-04-24 | 2017-08-01 | 杭州众禾自动化设备有限公司 | A kind of auxiliary power upper limbs ectoskeleton |
| CN107362001A (en) * | 2017-08-02 | 2017-11-21 | 东莞威信运动用品有限公司 | Multivariant human body limb arm assistance exoskeleton |
| CN108354780A (en) * | 2018-03-30 | 2018-08-03 | 东南大学 | Wrist device for healing and training |
| CN108670721A (en) * | 2018-06-04 | 2018-10-19 | 嘉兴学院 | A kind of multiple degrees of freedom master passively mixes whole body exoskeleton rehabilitation training system |
| CN109079841A (en) * | 2018-11-09 | 2018-12-25 | 苏州大学 | A kind of joint for upper limb exoskeleton robot circumnutation |
| CN109397292A (en) * | 2018-11-23 | 2019-03-01 | 华中科技大学 | A kind of 7 degree-of-freedom manipulator control methods and system based on analytic solutions |
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| CN105189050A (en) * | 2013-02-28 | 2015-12-23 | 脸谱公司 | Modular exoskeletal force feedback controller |
| CN104473752A (en) * | 2014-11-10 | 2015-04-01 | 华中科技大学 | Upper limb rehabilitation training device based on grouping coupling drive |
| CN104546379A (en) * | 2014-12-19 | 2015-04-29 | 上海璟和技创机器人有限公司 | Limb rehabilitation training machine |
| CN104546379B (en) * | 2014-12-19 | 2017-03-22 | 上海璟和技创机器人有限公司 | Limb rehabilitation training machine |
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| CN105411815A (en) * | 2016-01-26 | 2016-03-23 | 哈尔滨工业大学 | Wearable DOF (dual degrees of freedom) elbow rehabilitation training device |
| CN105856199A (en) * | 2016-05-20 | 2016-08-17 | 深圳市君航智远科技有限公司 | Method and device for solving problem of singularity posture of exoskeleton robot shoulder joint |
| CN105856199B (en) * | 2016-05-20 | 2018-04-10 | 深圳市君航智远科技有限公司 | A kind of method and device for solving the problems, such as exoskeleton robot shoulder joint Singularity |
| CN106109165A (en) * | 2016-06-21 | 2016-11-16 | 北京工业大学 | A kind of six degree of freedom self adaptation carpal joint convalescence device |
| CN106994087A (en) * | 2017-04-24 | 2017-08-01 | 杭州众禾自动化设备有限公司 | A kind of auxiliary power upper limbs ectoskeleton |
| CN107362001A (en) * | 2017-08-02 | 2017-11-21 | 东莞威信运动用品有限公司 | Multivariant human body limb arm assistance exoskeleton |
| CN107362001B (en) * | 2017-08-02 | 2023-12-19 | 广东群旺科技股份有限公司 | Human limb assistance exoskeleton with multiple degrees of freedom |
| CN108354780A (en) * | 2018-03-30 | 2018-08-03 | 东南大学 | Wrist device for healing and training |
| CN108670721A (en) * | 2018-06-04 | 2018-10-19 | 嘉兴学院 | A kind of multiple degrees of freedom master passively mixes whole body exoskeleton rehabilitation training system |
| CN109079841A (en) * | 2018-11-09 | 2018-12-25 | 苏州大学 | A kind of joint for upper limb exoskeleton robot circumnutation |
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| CN113332098A (en) * | 2021-06-09 | 2021-09-03 | 常州大学 | Seven-degree-of-freedom upper limb rehabilitation robot |
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| C14 | Grant of patent or utility model | ||
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| AV01 | Patent right actively abandoned |
Granted publication date: 20111109 Effective date of abandoning: 20120829 |