CN1348744A

CN1348744A - Six-bar mechanism knee joint with knee moment controller

Info

Publication number: CN1348744A
Application number: CN 01134865
Authority: CN
Inventors: 金德闻; 张瑞红; 张济川; 王人成
Original assignee: Tsinghua University
Current assignee: Tsinghua University
Priority date: 2001-11-16
Filing date: 2001-11-16
Publication date: 2002-05-15
Anticipated expiration: 2021-11-16
Also published as: CN1150868C

Abstract

The present invention relates to structural design of six pole mechanism knee joint with knee moment of force controlling device, it is characterized in that a knee moment of force controlling device is set on the hinge shaft of member (5) and (6), said device is composed of step-by-step motor, driving gear wheel on the motor shaft and controllable friction moment of force system, said system adopts left and right symmetrical structure with central line as axle, and said structure mainly includes screw with left and right helix at two ends, left and right spiral nuts, compression spring and friction conical body set on screw, the friction conical body is fixed with member (6), its external conical surface and internal conical surface of member (5) form conical surface friction. Advantages flexible in operation, good controllability etc.

Description

The six-bar mechanism knee joint of band knee joint moment control device

Technical field

The present invention relates to the design of human body pseudocolloid in a kind of hygiology, relate in particular to the kneed structural design of a kind of six-bar mechanism with the knee joint moment control device.

Background technology

Knee joint is to realize the vitals of artificial leg function.After dressing, the patient should guarantee safety and near natural gait as far as possible.Need to satisfy stable and two basic demands of the shaking peroid characteristics of motion of support phase for this reason.The method that realizes artificial limb support phase stability mainly contains three kinds: 1) braking or locking device are installed; 2) to the line adjustment; 3) rely on the deformed limb muscular strength.Realize that the shaking peroid characteristics of motion then will rely on the appropriate design of knee-joint mechanism and to the technology of knee joint Torque Control two aspects.The track that will satisfy relative motion rule between large and small lower limb and ankle joint in mechanism design is to realize natural gait and to avoid the collision on false foot and ground.Realize that at present the adoptable device of the control of knee joint moment is had mechanical friction type, hydraulic-pneumatic damp type, magnetic powder cluth formula, ER fluid damp type etc.If on knee joint moment device, add control system, then can it be changed on demand in addition, form intelligent artificial limb according to leg speed or road conditions control knee joint moment.

At present, in existing technology, knee-joint mechanism generally adopts single shaft, four-bar mechanism or six-bar mechanism.What the Total Knee of the U.S. (patent 5314498) related to is a kind of six-bar mechanism knee joint, but it can't guarantee the gait of realizing ideal in shaking peroid non-moment control, and it supports the stable of phase is to realize by electromechanical stop, as shown in Figure 1.People such as the Japan Akio Nakagawa of icebox county rehabilitation center have proposed a kind of pneumatic intelligent single-axis knee joint with shaking peroid control function in 1989, and be developed to product (Fig. 2), the damping in its joint is to be realized by the cylinder that is installed in the shank pipe, and the size by microcomputer and step motor control choke valve opening is to adjust the damping force of cylinder.The shortcoming of this knee joint Torque Control method is that structural volume is big.Owing to be single-shaft configuration, be restricted aspect the realization thigh and calf characteristics of motion and the ankle joint track in addition.

Summary of the invention

Purpose of the present invention and task be design a kind of small and exquisite flexibly and the good knee joint torque control device of controllability, be used to realize Torque Control to shaking peroid; Simultaneously by to the optimal design of six-bar mechanism, realize knee joint in shaking peroid desired thigh and calf relative motion rule and ankle motion track, thereby realize natural gait and guarantee the stability of support phase.

The present invention adopts following technical scheme: a kind of six-bar mechanism knee joint with the knee joint moment control device, comprise thigh bar, the shank bar, six six-bar mechanism and hinge axis thereof that member is formed, it is characterized in that on the hinge axis that member 5 and member 6 constitute, a knee joint moment control device being set, this device is by motor, being installed in travelling gear on the step motor shaft and controlled moment of friction system forms, it is the left-right symmetric structure of axle that described moment of friction system adopts with its centrage, this structure mainly comprises the screw rod of the band left and right sides, two ends spiral, a left side, the right-handed nut, compression spring and be arranged on friction cone on the screw rod; Its friction cone and member 6 are circumferentially fixing, and its male cone (strobilus masculinus) and member 5 inner conical surfaces form conical surface friction.

For making thigh and calf relative motion rule and ankle joint track as far as possible near desirable gait, guarantee that simultaneously mechanism is in self-locking position when upright, the present invention utilizes Optimization Design to determine following design variable, and its optimization result is:

Angle theta=88 between thigh bar and the member 1 °; Angle β=11 between shank bar and the member 5 °.Each bar is long than being:

L/l ₁＝[1，2.864，1.6，1.516，1.12，0.872，1.268，0.76，0.68，1.4，1.28，15.32，

0.56，10.68] ^T

L＝[l ₁，l ₂，……l ₁₄] ^T

The sample experiment shows that knee joint torque control device of the present invention goes slick, and has excellent controllability, and measuring moment adjusting range can reach 0.2～5.8Nm.Whole knee joint is small and exquisite flexibly, can well realize the characteristics of motion of shaking peroid and stablizing of the phase of support.

The drawing explanation

Fig. 1 is a kind of six-bar mechanism knee joint structure sketch map in the prior art, and it supports the stable of phase is to realize by electromechanical stop.

Fig. 2 is another kind of structural representation with pneumatic intelligent single-axis knee joint of shaking peroid control function in the prior art.

Fig. 3 is the position view of knee-joint mechanism of the present invention in artificial leg.

Fig. 4 is the variable sketch map when this mechanism is optimized design.

Fig. 5 is the structural representation of knee joint torque control device.

The specific embodiment

Describe concrete structure of the present invention and preferred forms in detail below in conjunction with accompanying drawing.Fig. 3, Fig. 4 are respectively the position of knee-joint mechanism of the present invention in artificial leg and the variable sketch map that this mechanism is optimized when design.Six-bar mechanism is made up of member 1 (AB), member 2 (BD), member 3, (CDG), member 4 (ACE), member 5 (GF) and member 6 (EF) respectively.A～G is seven hinge axis of six-bar mechanism.

Thigh bar 10 and member 1 Joint, shank bar 11 and member 5 Joints.When large and small lower limb bar parallels (Fig. 3), mechanism can self-locking, has reliable stability.

l ₁～l ₁₀The bar of representing six-bar mechanism respectively is long.

l ₁₁: the distance that the anchoring point I of thigh bar 10 and member 1 (AB) is ordered apart from A

l ₁₂: the length of thigh bar HI

The angle of θ: HI and AB

l ₁₃: the anchoring point J of shank bar 11 and FG member is apart from the distance of F

l ₁₄: the length of shank bar JP

The angle of β: JP and FG.

The present invention determines above-mentioned these design variables with Optimization Design.The target of optimizing is to make thigh and calf relative motion rule and ankle joint track as far as possible near desirable gait, guarantees that simultaneously mechanism is in self-locking position when upright.Design result, wherein:

θ=88 °, β=11 °, each bar is long than being:

L/l ₁＝[1，2.864，1.6，1.516，1.12，0.872，1.268，0.76，0.68，1.4，1.28，

15.32，0.56，10.68] ^T

L＝[l ₁，l ₂，……l ₁₄] ^T

The knee joint torque control device as shown in Figure 5.The knee joint torque control device is installed on the hinge axis F of member 5 and member 6, applies position (Fig. 4) as control moment.This device is by motor 9, and travelling gear 7,8 and change moment of friction system form.Becoming the employing of moment of friction system is the left-right symmetric structure of axle with the centrage.Friction cone 17 is circumferentially fixing by key 14 with member 6, can slide vertically.The inner conical surface of its male cone (strobilus masculinus) and member 5 forms conical surface friction.Left and right spin nut 16,19 can move axially in the hole of member 5 under the drive of screw rod 12; Screw rod is supported on bearing 13 and 21, and there is left and right spiral at two.The 15th, bearing (ball) cover, the 10th, the holding screw of fixed gear.When motor rotates by the gear driven screw rod, left and right nut 16,19 will move relative to (or opposing), by ball 20 and disk spring 18 male cone (strobilus masculinus) of cone is pressed to (or leaving) inner conical surface, thereby improve the pressure of (or minimizing) cone of friction, realize

control member

5 and 6 moment of frictions of member.Motor can be controlled by controller by computer, rotates by needed rule.

Claims

1, a kind of six-bar mechanism knee joint with the knee joint moment control device, comprise thigh bar (10), shank bar (11), six six-bar mechanism and hinge axis thereof that member is formed, it is characterized in that on the hinge axis F of member (5) and member (6), a knee joint moment control device being set, this device is by motor (9), be installed in the travelling gear (7) on the step motor shaft, (8) and controlled moment of friction system form, it is the left-right symmetric structure of axle that described moment of friction system adopts with its centrage, this structure mainly comprises the screw rod (12) of the band left and right sides, two ends spiral, a left side, the right-handed nut, compression spring (18) and be arranged on friction cone (17) on the screw rod; Its friction cone and member (6) are circumferentially fixing, and its male cone (strobilus masculinus) and member (5) inner conical surface forms conical surface friction.

2,, it is characterized in that the bar of above-mentioned each member is long than being: L/l according to the described a kind of six-bar mechanism knee joint of claim 1 with the knee joint moment control device ₁=[1,2.864,1.6,1.516,1.12,0.872,1.268,0.76,0.68,1.4,1.28,15.32,

0.56，10.68] ^T

3,, it is characterized in that angle theta=88 ° between thigh bar (10) and the member (1) according to claim 1 or 2 described a kind of six-bar mechanism knee joints with the knee joint moment control device; Angle between shank bar (11) and the member (5) is β=11 °.