CN106112990B - The lower limb exercise for depressurizing power-assisted machinery exoskeleton device supports exoskeleton mechanism - Google Patents

Abstract

The lower limb exercise for depressurizing power-assisted machinery exoskeleton device supports exoskeleton mechanism, exoskeleton mechanism is supported including hip joint ectoskeleton multi-bar linkage and two shank foots, the construction of two shank foot support exoskeleton mechanisms is identical and symmetrical, and the upper end of each shank foot support exoskeleton mechanism is connect with the lower end left and right side of hip joint ectoskeleton multi-bar linkage respectively；Hip joint ectoskeleton multi-bar linkage includes middle part connecting plate, and middle part connecting plate left and right side is respectively equipped with the symmetrical more bar drive systems of Three dimensional rotation.The present invention fully alleviates people and bears the pressure of weight, and provides good power-assisted effect, substantially increases the weight for bearing weight, is also applied for the power-assisted of the elderly's stair climbing and walking, it may also be used for rehabilitation of the medical instrument to patient.

Description

The lower limb exercise for depressurizing power-assisted machinery exoskeleton device supports exoskeleton mechanism

Technical field

The invention belongs to a kind of decompression power assisting devices for bearing weight, and in particular to a kind of decompression power-assisted machinery The lower limb exercise of exoskeleton device supports exoskeleton mechanism.

Background technology

For people when bearing weight, lower limb and backbone can be by immense pressures, and the limit for bearing weight weight is smaller. Especially in the region of road bumpiness, these places cannot can only bear weight by vehicle by people, and walk road compared with Far, just need naturally it is a kind of can mitigate human pressure, and the device of weight bearing can be increased.In addition, people are in stair activity Or when walking for a long time, it is easy to it is weak fatigue occur.Especially the elderly, in walking and stair climbing, problem is more prominent Go out.Existing walking power assisting device Shortcomings in the prior art：It can not easily realize ankle-joint and hip abduction/interior It receives, even Small-angle Rotation, this is primarily due to power assisting device and lacks degree of freedom.Currently, multiple degrees of freedom, big model can be realized The movable decompression power assisting device for bearing weight, walking and climbing building is enclosed on the market not yet to occur.

Invention content

The present invention provides a kind of simple in structure, highly reliable, effect of easing stress to solve shortcoming in the prior art Well, weight bearing is big, hip joint can be made to realize abduction/adduction movement, a wide range of movable decompression power-assisted machinery exoskeleton device Lower limb exercise support exoskeleton mechanism.

In order to solve the above technical problems, the present invention adopts the following technical scheme that：It depressurizes under power-assisted machinery exoskeleton device Limb movable supporting exoskeleton mechanism, including hip joint ectoskeleton multi-bar linkage and two shank foots support exoskeleton mechanisms, two The construction of a shank foot support exoskeleton mechanism is identical and symmetrical, the upper end of each shank foot support exoskeleton mechanism It is connect respectively with the lower end left and right side of hip joint ectoskeleton multi-bar linkage；

Hip joint ectoskeleton multi-bar linkage includes middle part connecting plate, and middle part connecting plate left and right side is respectively equipped with a left side The more bar drive systems of right symmetrical Three dimensional rotation；

The more bar drive systems of Three dimensional rotation in left side include that more rods virtual shaft revolution driving devices, side kick back and turn driver, preceding Kick back that turn driver, the first mounting base, the second mounting base, connecting rod, drive rod, the first follower lever, the second follower lever, third driven Bar and thigh side guard plate, more rods virtual shaft revolution driving devices mutually turn center line and are horizontally disposed with along the longitudinal direction, and side, which kicks back, to turn to drive The centre of gyration line of dynamic device is arranged in vertical, and preceding kick back turns the center line of driver and be horizontally disposed in left-right direction, and side is kicked It is fixedly connected on rear side of the front side of revolution driving device and middle part connecting plate, side, which kicks back, turns power output end and first on rear side of driver Connection, more rods virtual shaft revolution driving devices are located in the first mounting base on front side of mounting base, thigh side guard plate upper left-hand with before kick The power output end of revolution driving device connects, and preceding kick back turns driver and be located in the second mounting base；

Connecting rod, drive rod, the first follower lever, the second follower lever and third follower lever are equipped with two, and more rods virtual shafts return The top and bottom for turning the power output shaft of driver are fixedly connected with the rear end of a drive rod respectively, first follower lever Rear end be hinged on the top of the first mounting base, the rear end of another first follower lever is hinged on the bottom of the first mounting base, One follower lever and the hinge joint of the first mounting base are located at the front side of the power output shaft of more rods virtual shaft revolution driving devices, drive rod Front end and third follower lever rear end it is hinged, the first driven rod rear end is fixedly connected with connecting rod right end, the left end of connecting rod and the Two driven rod rear ends are hinged, and the rear portion of third follower lever and the right end of connecting rod are hinged, and the third follower lever front end on top is hinged on Second mounting base top right side, the second follower lever front end on top are hinged on the second mounting base top left side, the third of lower part from Lever front end is hinged on the second mounting base bottom right, and the second follower lever front end of lower part is hinged on the second mounting base bottom left side Side.

On front side of thigh side guard plate and rear side is respectively equipped with front arc baffle and rear arc baffle, and Three dimensional rotation more bars in left side drive It is equipped with dismountable left thigh between the front arc baffle and rear arc baffle of dynamic system and fixes band, Three dimensional rotation more bars in right side drive It is equipped with dismountable right thigh between the front arc baffle and rear arc baffle of dynamic system and fixes band.

The shank foot support exoskeleton mechanism in left side includes sole and thigh connecting plate, sole left and right side it Between be equipped with foot and fix band, backplate under shank is equipped on the left of sole, thigh connecting plate lower end is fixed with knee joint revolution and drives The power output end of dynamic device, knee joint revolution driving device is connected with shank upper guard board, shank upper guard board lower end and backplate under shank It is connected by lower stretching structure between upper end, is connected by upper stretching structure between thigh connecting plate upper end and thigh side guard plate lower end It connects；Lower stretching structure is identical with the construction of upper stretching structure.

Lower stretching structure is included in the lower slot for the lower end opening that shank upper guard board lower face opens up and is protected under shank The upper slot for the upper end opening that plate upper surface offers, upper slot and lower slot are correspondingly arranged up and down, in upper slot and lower slot Be inserted with plate, shank upper guard board is connect by two upper bolts with plate top, under shank backplate by two lower bolts and Plate lower part connects.

Using above-mentioned technical proposal, decompression power-assisted machinery exoskeleton device further includes following technical characteristic：It further include shoulder joint Ectoskeleton multi-bar linkage and the double six shaft platform mechanisms of joint of vertebral column ectoskeleton are saved, outside shoulder joint ectoskeleton multi-bar linkage and hip joint The construction of bone multi-bar linkage is identical, the top and bottom of the double six shaft platform mechanisms of joint of vertebral column ectoskeleton respectively with outside shoulder joint It is fixedly connected with the top center of hip joint ectoskeleton multi-bar linkage among bone multi-bar linkage bottom.

The double six shaft platform mechanisms of joint of vertebral column ectoskeleton include upper link block, lower connecting block, lower annulus seat, middle annulus seat and The lower surface for being located at link block is fixed in upper annulus seat, the upper surface of upper annulus seat, and the lower surface of lower annulus seat, which is fixed, to be located at down The upper surface of link block, upper link block front side are fixedly connected on the rear side table of the middle part connecting plate of shoulder joint ectoskeleton multi-bar linkage Middle face, lower connecting block front side are fixedly connected on the rear side surface middle part of the middle part connecting plate of hip joint ectoskeleton multi-bar linkage, ServoBcylinder under the six roots of sensation is equipped between lower annulus seat upper surface and middle annulus seat lower surface, under middle annulus seat upper surface and upper annulus seat ServoBcylinder in the six roots of sensation is equipped between surface, flexural pivot is distinguished on middle annulus seat in the upper end of servoBcylinder under the six roots of sensation, servoBcylinder under the six roots of sensation Lower end distinguish flexural pivot on lower annulus seat, in the six roots of sensation servoBcylinder upper end distinguish flexural pivot on upper annulus seat, servo in the six roots of sensation Flexural pivot is distinguished on middle annulus seat in the lower end of cylinder；The support frame for bearing weight is equipped between upper link block and lower connecting block Frame.

Upper annulus seat lower surface is equipped with six upper hinge balls being located on the circle that above annulus seat center is the center of circle, often Two upper hinge balls are one group and are disposed adjacent that three groups of upper hinge balls are evenly arranged along upper annulus seat center；

Lower annulus seat upper surface is equipped with six lower hinge balls being located on the circle that following annulus seat center is the center of circle, often Two lower hinge balls are one group and are disposed adjacent that three groups of lower hinge balls are evenly arranged along lower annulus seat center；Six upper hinge balls It is arranged in a one-to-one correspondence up and down with six lower hinge balls；

Middle annulus seat, which is equipped with, to be located at using middle annulus seat center as six mounting holes on a circle in the center of circle, each two peace It fills Kong Weiyi groups and is disposed adjacent, three groups of mounting holes are evenly arranged at annulus seat center in, and each group of mounting hole is in vertical direction On projection be located between two adjacent groups lower hinge ball, mounting post is fixed in each mounting hole, mounting post lower end is equipped with Below middle annulus seat first in hinge ball, mounting post upper end be equipped be located at middle annulus seat above second in hinge ball；

The top and bottom of servoBcylinder are equipped with ball-and-socket in the six roots of sensation, and correspondence is rotatably connected on one to six upper hinge balls respectively In the upper ball-and-socket of a upper servoBcylinder upper end, hinge ball corresponds to the upper ball for being rotatably connected on a upper servoBcylinder lower end in six second In nest；

The top and bottom of servoBcylinder are equipped with lower ball-and-socket under the six roots of sensation, and correspondence is rotatably connected on one to six lower hinge balls respectively In the lower ball-and-socket of a lower servoBcylinder lower end, hinge ball corresponds to the lower ball for being rotatably connected on a lower servoBcylinder upper end in six first In nest.

More rods virtual shaft revolution driving devices, side kick back turn driver, preceding kick back turns driver and knee joint revolution driving device For decelerating motor, rotating servo cylinder or rotating servo hydraulic cylinder.

Upper servoBcylinder and lower servoBcylinder are linear hydraulic cylinder, cylinder or electric cylinder.

Since shoulder joint ectoskeleton multi-bar linkage is identical with the construction of hip joint ectoskeleton multi-bar linkage, shoulder joint The specific configuration of ectoskeleton multi-bar linkage repeats no more.Human body is worn by the present invention, and shoulder joint ectoskeleton multi-bar linkage, backbone close The double six shaft platform mechanisms of section ectoskeleton, hip joint ectoskeleton multi-bar linkage are respectively positioned on the rear portion of human body, wherein hip joint ectoskeleton The thigh side guard plate of the both sides of multi-bar linkage is contacted with big leg outer side, and left thigh fixes band by the thigh side guard plate in left side and left side Thigh tighten, right thigh fix band the thigh of the thigh side guard plate on right side and right side is tightened.Equally, shoulder joint ectoskeleton is more Linkage is also carried out using this wearing mode.It is more that two shank foot support exoskeleton mechanisms are used to support shoulder joint ectoskeleton The double six shaft platform mechanisms of linkage, joint of vertebral column ectoskeleton and hip joint ectoskeleton multi-bar linkage, the two of people rides in sole On, it is fixed that band is fixed by foot.Should also include in the present invention for controlling more rods virtual shaft revolution driving devices, side kicks back Turn driver, it is preceding kick back the intelligent controller for turning driver, knee joint revolution driving device, upper servoBcylinder and lower servoBcylinder, and In order to control more rods virtual shaft revolution driving devices, side kick back turn driver, it is preceding kick back turn driver, knee joint revolution driving device, on The power supply of servoBcylinder, lower servoBcylinder and intelligent controller power supply.

The concrete operating principle and mistake of hip joint ectoskeleton multi-bar linkage are known as：When taking a step forward, knee joint revolution driving Device drives under shank backplate and shank upper guard board to forward, the shank of human body with stepping forward, meanwhile, preceding kick back turns driver drive Big leg guard is moved to turn forward.If leg is inwardly or when outer kick side, side, which kicks back, to be turned driver and passes through the first mounting base, driving Bar, the first follower lever, the second follower lever and third follower lever driving thigh side guard plate outwardly or inwardly rotate.Before kick revolution driving Device, side kick back turn driver respectively with more rods virtual shaft revolution driving devices two-by-two or three coordinates, can simulate come The various movement locus of human hip.Wherein more rods virtual shaft revolution driving devices drive two drive rod rotations, drive rod logical Crossing the first follower lever, the second follower lever and third follower lever can drive thigh side guard plate elastic and rotate.

The concrete operating principle and mistake of the double six shaft platform mechanisms of joint of vertebral column ectoskeleton are known as：Using two docked up and down 6-dof motion platform reaches 12 degree of freedom, and six upper servoBcylinders and six lower servoBcylinders elongate or shorten, so as to The backbone of the athletic posture for simulating various spaces, functions and the human body such as bent over, swayed one's hips for human body, supported has no two Sample, and reach good support effect.

When different heights people in use, can by the plate of replacement lower stretching structure and upper stretching structure, height compared with Gao Shi, using longer plate, when height is relatively low, the shorter plate of use, the leg for being equivalent to have adjusted human body in this way is long Degree.

Side guard plate at left and right sides of shoulder joint ectoskeleton multi-bar linkage can be connect with upper limb exoskeleton device, for driving simultaneously Coordinate the spatial movement of upper limb, and good connection positioning action is provided for upper limb exoskeleton device.

In conclusion the configuration of the present invention is simple, novel design, spatial degrees of freedom is high, flexibly light, fully alleviates people The pressure of weight is born, and good power-assisted effect is provided, the weight for bearing weight is substantially increased, is also applied for the elderly and climbs The power-assisted of stair and walking, it may also be used for rehabilitation of the medical instrument to patient.

Description of the drawings

Fig. 1 is the backsight structural representation that the present invention is worn on human body；

Fig. 2 is the right view of Fig. 1；

Fig. 3 is outside shoulder joint ectoskeleton multi-bar linkage in Fig. 1, the double six shaft platform mechanisms of joint of vertebral column ectoskeleton and hip joint The dimensional structure diagram connected between bone multi-bar linkage；

Fig. 4 is the explosive view of hip joint ectoskeleton multi-bar linkage in Fig. 3；

Fig. 5 is the enlarged plan view of the double six shaft platform mechanisms of joint of vertebral column ectoskeleton in Fig. 3；

Fig. 6 is the structural schematic diagram of middle annulus seat in Fig. 5.

Specific implementation mode

As shown in figs 1 to 6, power-assisted machinery exoskeleton device, including sequentially connected shoulder joint dermoskeleton from top to bottom are depressurized The double six shaft platform mechanisms 2 of bone multi-bar linkage 1, joint of vertebral column ectoskeleton, hip joint ectoskeleton multi-bar linkage 3 and two shank foots Exoskeleton mechanism is supported, shoulder joint ectoskeleton multi-bar linkage 1 is identical with the construction of hip joint ectoskeleton multi-bar linkage 3, and backbone closes It is closed respectively with hip among 1 bottom of shoulder joint ectoskeleton multi-bar linkage the top and bottom for saving the double six shaft platform mechanisms 2 of ectoskeleton The top center of section ectoskeleton multi-bar linkage 3 is fixedly connected, the upper end of each shank foot support exoskeleton mechanism respectively with hip The lower end left and right side connection of joint ectoskeleton multi-bar linkage 3.

Hip joint ectoskeleton multi-bar linkage 3 includes middle part connecting plate 4, and 4 left and right side of middle part connecting plate is respectively equipped with one A more bar drive systems of symmetrical Three dimensional rotation；

The more bar drive systems of Three dimensional rotation in left side include more rods virtual shaft revolution driving devices 5, side kick back turn driver 6, Before kick back that turn driver 7, the first mounting base 8, the second mounting base 9, connecting rod 10, drive rod 11, the first follower lever 12, second driven Bar 13, third follower lever 14 and thigh side guard plate 15, more rods virtual shaft revolution driving devices 5 mutually turn center line water along the longitudinal direction Flat setting, side, which kicks back, to be turned the centre of gyration line of driver 6 and is arranged in vertical, and the preceding center line for turning driver 7 that kicks back is along left Right direction is horizontally disposed, and side, which kicks back, to be turned the front side of driver 6 and be fixedly connected with the rear side of middle part connecting plate 4, and revolution driving is kicked in side 6 rear side power output end of device is connect with 8 front side of the first mounting base, and more rods virtual shaft revolution driving devices 5 are located at the first mounting base 8 On, 15 upper left-hand of thigh side guard plate is connect with the power output end for turning driver 7 is before kicked back, and preceding kick back turns driver 7 and be located at In second mounting base 9.

Connecting rod 10, drive rod 11, the first follower lever 12, the second follower lever 13 and third follower lever 14 are equipped with two, more The top and bottom of the power output shaft of rods virtual shaft revolution driving device 5 are fixedly connected with the rear end of a drive rod 11 respectively, The rear end of piece first follower lever 12 is hinged on the top of the first mounting base 8, and the rear end of another first follower lever 12 is hinged on The hinge joint of the bottom of first mounting base 8, the first follower lever 12 and the first mounting base 8 is located at more rods virtual shaft revolution driving devices 5 Power output shaft front side, the front end of drive rod 11 and the rear end of third follower lever 14 are hinged, 12 rear end of the first follower lever with 10 right end of connecting rod is fixedly connected, and the left end of connecting rod 10 and 13 rear end of the second follower lever are hinged, the rear portion of third follower lever 14 and company The right end of bar 10 is hinged, and 14 front end of third follower lever on top is hinged on 9 top right side of the second mounting base, and the second of top is driven 13 front end of bar is hinged on 9 top left side of the second mounting base, and 14 front end of third follower lever of lower part is hinged on 9 bottom of the second mounting base Second follower lever, 13 front end on right side, lower part is hinged on 9 bottom left of the second mounting base.

15 front side of thigh side guard plate and rear side are respectively equipped with front arc baffle 16 and rear arc baffle 17, left side Three dimensional rotation It is equipped with dismountable left thigh between the front arc baffle 16 and rear arc baffle 17 of more bar drive systems and fixes band 18, right side three It is equipped with dismountable right thigh between the front arc baffle 16 and rear arc baffle 17 of the more bar drive systems of dimension rotation and fixes band 36.

The double six shaft platform mechanisms 2 of joint of vertebral column ectoskeleton include upper link block 19, lower connecting block 20, lower annulus seat 21, in The lower surface for being located at link block 19, lower annulus seat 21 are fixed in annulus seat 22 and upper annulus seat 23, the upper surface of upper annulus seat 23 Lower surface fix and be located at the upper surface of lower connecting block 20,19 front side of upper link block is fixedly connected on the more bar machines of shoulder joint ectoskeleton In the middle part of the rear side surface of the middle part connecting plate 4 of structure 1,20 front side of lower connecting block is fixedly connected on hip joint ectoskeleton multi-bar linkage 3 Middle part connecting plate 4 rear side surface in the middle part of, between lower 21 upper surface of annulus seat and middle 22 lower surface of annulus seat be equipped with the six roots of sensation under ServoBcylinder 24 is equipped with servoBcylinder 25 in the six roots of sensation between middle 22 upper surface of annulus seat and upper 23 lower surface of annulus seat, servo under the six roots of sensation Flexural pivot is distinguished on middle annulus seat 22 in the upper end of cylinder 24, and flexural pivot is distinguished on lower annulus seat 21 in the lower end of servoBcylinder 24 under the six roots of sensation, Flexural pivot is distinguished on upper annulus seat 23 in the upper end of servoBcylinder 25 in the six roots of sensation, and flexural pivot is distinguished in middle circle in the lower end of servoBcylinder 25 in the six roots of sensation In ring seat 22；The braced frame for bearing weight is equipped between upper link block 19 and lower connecting block 20（It is not illustrated in figure Come）.

Upper 23 lower surface of annulus seat is equipped with six upper hinges being located on the circle that above 23 center of annulus seat is the center of circle Ball（It does not illustrate and in figure）, each two upper hinge ball is one group and is disposed adjacent, and three groups of upper hinge balls are along upper annulus seat 23 The heart is evenly arranged.

Lower 21 upper surface of annulus seat is equipped with six lower hinges being located on the circle that following 21 center of annulus seat is the center of circle Ball（It does not illustrate and in figure）, each two lower hinge ball is one group and is disposed adjacent, and three groups of lower hinge balls are along lower annulus seat 21 The heart is evenly arranged；Six upper hinge balls and six lower hinge balls are arranged in a one-to-one correspondence up and down.

Middle annulus seat 22, which is equipped with, to be located at using middle 22 center of annulus seat as six mounting holes on a circle in the center of circle, and every two A mounting hole is one group and is disposed adjacent that three groups of mounting holes are evenly arranged at 22 center of annulus seat in, and each group of mounting hole is hanging down The upward projection of histogram is located between two adjacent groups lower hinge ball, and mounting post 27, mounting post are fixed in each mounting hole Hinge ball 26 during 27 lower ends are equipped be located at 22 lower section of middle annulus seat first, 27 upper end of mounting post, which is equipped with, to be located on middle annulus seat 22 Hinge ball 28 in the second of side.

The top and bottom of servoBcylinder 25 are equipped with ball-and-socket in the six roots of sensation, and correspondence is rotatably connected on six upper hinge balls respectively In the upper ball-and-socket of one upper 25 upper end of servoBcylinder, the correspondence of hinge ball 28 is rotatably connected under a upper servoBcylinder 25 in six second In the upper ball-and-socket at end.

The top and bottom of servoBcylinder 24 are equipped with lower ball-and-socket under the six roots of sensation, and correspondence is rotatably connected on six lower hinge balls respectively In the lower ball-and-socket of one 24 lower end of lower servoBcylinder, the correspondence of hinge ball 26 is rotatably connected on a lower servoBcylinder 24 in six first In the lower ball-and-socket at end.

The shank foot support exoskeleton mechanism in left side includes sole 29 and thigh connecting plate 30,29 left side of sole and It is equipped with foot between right side and fixes band 31,29 left side of sole is equipped with backplate 32 under shank, and 30 lower end of thigh connecting plate is fixed and set There is a knee joint revolution driving device 33, the power output end of knee joint revolution driving device 33 is connected with shank upper guard board 34, on shank It is connected by lower stretching structure between 32 upper end of backplate under 34 lower end of backplate and shank, 30 upper end of thigh connecting plate is protected with thigh side Plate is connected between 15 lower end by upper stretching structure；Lower stretching structure is identical with the construction of upper stretching structure.

Lower stretching structure is included in the lower slot for the lower end opening that 34 lower face of shank upper guard board opens up and under shank The upper slot for the upper end opening that 32 upper surface of backplate offers, upper slot and lower slot are correspondingly arranged up and down, upper slot and underthrust Plate 35 is inserted in slot, shank upper guard board 34 is connect by two upper bolts 37 with 35 top of plate, and backplate 32 is logical under shank Two lower bolts 38 are crossed to connect with 35 lower part of plate.

More rods virtual shaft revolution driving devices 5, side kick back turn driver 6, preceding kick back turns driver 7 and knee joint revolution driving Device 33 is decelerating motor, rotating servo cylinder or rotating servo hydraulic cylinder.

Upper servoBcylinder 25 and lower servoBcylinder 24 are linear hydraulic cylinder, cylinder or electric cylinder.

Since shoulder joint ectoskeleton multi-bar linkage 1 is identical with the construction of hip joint ectoskeleton multi-bar linkage 3, shoulder joint The specific configuration of section ectoskeleton multi-bar linkage 1 repeats no more.Human body is worn by the present invention, shoulder joint ectoskeleton multi-bar linkage 1, ridge The double six shaft platform mechanisms 2 of column joint ectoskeleton, hip joint ectoskeleton multi-bar linkage 3 are respectively positioned on the rear portion of human body, wherein hip joint The thigh side guard plate 15 of the both sides of ectoskeleton multi-bar linkage 3 is contacted with big leg outer side, and left thigh fixes band 18 by the thigh in left side Side guard plate 15 and the thigh in left side tighten, and right thigh fixes band 36 and tightens the thigh side guard plate 15 on right side and the thigh on right side. Equally, shoulder joint ectoskeleton multi-bar linkage 1 is also carried out using this wearing mode.Two shank foot support exoskeleton mechanisms are used In support shoulder joint ectoskeleton multi-bar linkage 1, the double six shaft platform mechanisms 2 of joint of vertebral column ectoskeleton and the more bar machines of hip joint ectoskeleton Structure 3, the two of people rides on sole 29, fixes band 31 by foot and fixes.Should also include for controlling in the present invention More rods virtual shaft revolution driving devices 5, side kick back turn driver 6, it is preceding kick back turn driver 7, knee joint revolution driving device 33, on watch The intelligent controller of cylinder 25 and lower servoBcylinder 24 is taken, and more rods virtual shaft revolution driving devices 5, side kick back and turn driver in order to control 6, preceding kick back turns driver 7, knee joint revolution driving device 33, upper servoBcylinder 25, lower servoBcylinder 24 and intelligent controller power supply Power supply.

The concrete operating principle and mistake of hip joint ectoskeleton multi-bar linkage 3 are known as：When taking a step forward, knee joint revolution driving Device 33 drives under shank backplate 32 and shank upper guard board 34 to forward, the shank of human body with stepping forward, meanwhile, preceding kick back turns to drive Dynamic device 7 drives big leg guard to turn forward.If leg is inwardly or when outer kick side, side, which kicks back, to be turned driver 6 and passes through the first installation Seat 8, drive rod 11, the first follower lever 12, the second follower lever 13 and third follower lever 14 drive thigh side guard plate 15 inwardly or to Outer rotation.Before kick back turn driver 7, side kick back turn driver 6 respectively with more rods virtual shaft revolution driving devices 5 two-by-two or three Coordinated, the various movement locus for carrying out human hip can be simulated.Wherein more rods virtual shaft revolution driving devices 5 drive two A drive rod 11 rotates, and drive rod 11 can be driven greatly by the first follower lever 12, the second follower lever 13 and third follower lever 14 Leg side guard plate 15 is elastic and rotates.

The concrete operating principle and mistake of the double six shaft platform mechanisms 2 of joint of vertebral column ectoskeleton are known as：Using two docked up and down A 6-dof motion platform reaches 12 degree of freedom, and six upper servoBcylinders 25 and six lower servoBcylinders 24 elongate or shorten, from And the athletic posture in various spaces can be simulated, the backbone milli for functions and the human body such as bent over, swayed one's hips for human body, supported Without difference, and reach good support effect.

When the people of different heights is in use, can pass through the plate 35 of replacement lower stretching structure and upper stretching structure, height When higher, using longer plate 35, when height is relatively low, the shorter plate 35 of use is equivalent to have adjusted human body in this way Leg length.

The above embodiments are only used to illustrate and not limit the technical solutions of the present invention, although with reference to above-described embodiment to this hair It is bright to be described in detail, it will be understood by those of ordinary skill in the art that：Still can the present invention be modified or be waited With replacing, without departing from the spirit or scope of the invention, or any substitutions, the power in the present invention should all be covered In sharp claimed range.

Claims (4)

1. the lower limb exercise for depressurizing power-assisted machinery exoskeleton device supports exoskeleton mechanism, it is characterised in that：Outside including hip joint Bone multi-bar linkage and two shank foots support exoskeleton mechanism, the construction of two shank foot support exoskeleton mechanisms identical And it is symmetrical, the upper end of each shank foot support exoskeleton mechanism is left with the lower end of hip joint ectoskeleton multi-bar linkage respectively Side is connected with right side；

Hip joint ectoskeleton multi-bar linkage includes middle part connecting plate, and middle part connecting plate left and right side is respectively equipped with one or so pair The more bar drive systems of Three dimensional rotation of title；

The more bar drive systems of Three dimensional rotation in left side include that more rods virtual shaft revolution driving devices, side kick back and turn driver, preceding kick back Turn driver, the first mounting base, the second mounting base, connecting rod, drive rod, the first follower lever, the second follower lever, third follower lever and Thigh side guard plate, more rods virtual shaft revolution driving devices mutually turn center line and are horizontally disposed with along the longitudinal direction, and side, which kicks back, turns driver Centre of gyration line be arranged in vertical, preceding kick back turns the center line of driver and is horizontally disposed in left-right direction, and side, which kicks back, to be turned It is fixedly connected on rear side of the front side of driver and middle part connecting plate, side, which kicks back, turns power output end and the first installation on rear side of driver The connection of seat front side, more rods virtual shaft revolution driving devices are located in the first mounting base, and thigh side guard plate upper left-hand and before kicking back turns The power output end of driver connects, and preceding kick back turns driver and be located in the second mounting base；

Connecting rod, drive rod, the first follower lever, the second follower lever and third follower lever are equipped with two, and more rods virtual shaft revolutions are driven The top and bottom of the power output shaft of dynamic device are fixedly connected with the rear end of a drive rod respectively, after first follower lever End is hinged on the top of the first mounting base, and the rear end of another first follower lever is hinged on the bottom of the first mounting base, first from The hinge joint of lever and the first mounting base is located at the front side of the power output shaft of more rods virtual shaft revolution driving devices, before drive rod End is hinged with the rear end of third follower lever, and the first driven rod rear end is fixedly connected with connecting rod right end, the left end of connecting rod and second from Lever rear end is hinged, and the rear portion of third follower lever and the right end of connecting rod are hinged, and the third follower lever front end on top is hinged on second Second follower lever front end of mounting base top right side, top is hinged on the second mounting base top left side, the third follower lever of lower part Front end is hinged on the second mounting base bottom right, and the second follower lever front end of lower part is hinged on the second mounting base bottom left.

2. the lower limb exercise of decompression power-assisted machinery exoskeleton device according to claim 1 supports exoskeleton mechanism, special Sign is：On front side of thigh side guard plate and rear side is respectively equipped with front arc baffle and rear arc baffle, and Three dimensional rotation more bars in left side drive It is equipped with dismountable left thigh between the front arc baffle and rear arc baffle of dynamic system and fixes band, Three dimensional rotation more bars in right side drive It is equipped with dismountable right thigh between the front arc baffle and rear arc baffle of dynamic system and fixes band.

3. the lower limb exercise of decompression power-assisted machinery exoskeleton device according to claim 2 supports exoskeleton mechanism, special Sign is：The shank foot support exoskeleton mechanism in left side includes sole and thigh connecting plate, sole left and right side it Between be equipped with foot and fix band, backplate under shank is equipped on the left of sole, thigh connecting plate lower end is fixed with knee joint revolution and drives The power output end of dynamic device, knee joint revolution driving device is connected with shank upper guard board, shank upper guard board lower end and backplate under shank It is connected by lower stretching structure between upper end, is connected by upper stretching structure between thigh connecting plate upper end and thigh side guard plate lower end It connects；Lower stretching structure is identical with the construction of upper stretching structure.

4. the lower limb exercise of decompression power-assisted machinery exoskeleton device according to claim 3 supports exoskeleton mechanism, special Sign is：The lower slot and the backplate under shank that lower stretching structure is included in the lower end opening that shank upper guard board lower face opens up The upper slot for the upper end opening that upper surface offers, upper slot and lower slot are correspondingly arranged up and down, upper slot and lower slot interpolation Equipped with plate, shank upper guard board is connect by two upper bolts with plate top, and backplate by two lower bolts and is inserted under shank Plate lower part connects.