CN1586434A - Lower limb walking external skeleton capable of being worn - Google Patents

Abstract

The wearable lower limb walking external skeleton consists of waist support, four-rod hip mechanism, four-rod knee mechanism, four-rod heel knee mechanism and planta support connected successively. For amputated patient or muscular dystrophy patient, the present invention has auxiliary program written in advance for assisting walking. For tourist and the weak, the present invention is worn and the wearer walks, so that the displacement sensors acquires the motion gesture signals of the wearer, and the gait is recorded in the computer and copied to strengthen the walking ability of the wearer. The present invention is used as the walking aid for the patients and the equipment for walking tourist.

Description

Wearable lower limb walking ectoskeleton

Technical field

The present invention relates to wearable lower limb walking ectoskeleton.

Background technology

The people feeling of fatigue very easily occurs under big heavy burden and long-time walking situation.Lower limb muscles atrophy patient or paralytic need walking aid, can be with the mankind's the intelligence and the physical perfect adaptation walking ectoskeleton machinery together of robot and also do not have at present.

Summary of the invention

The purpose of this invention is to provide a kind of wearable walking lower limb exoskeleton auxiliary or enhancing people walking ability that is suitable for.

Wearable walking lower limb exoskeleton of the present invention is to be supported to contact successively by lumbar support, hip four-bar mechanism, knee four-bar mechanism, ankle four-bar mechanism and vola to constitute:

Said lumbar support comprises U type frame and is fixed on the bracing frame that is used for load of U type frame bottom, is respectively equipped with pin hole at the opening of U type frame;

The hip four-bar mechanism comprises hip fork, angular adjustment bar, support bar and hydraulic cylinder, one end of hip fork has axle, this shaft extension goes into to constitute the revolute that horizontally rotates in the pin hole of lumbar support U type frame, one end of the other end of hip fork and angular adjustment bar and hydraulic cylinder is hinged, the other end of angular adjustment bar becomes the α angle with an end of support bar by regulating bolting, and the other end of support bar and the other end of hydraulic cylinder are hinged;

The knee four-bar mechanism comprises fork, cross section is the support bar and the hydraulic cylinder of П type, protrude backward the upper end of support bar, fork has the tip node that is mutually the right angle, the hinged formation in the bottom of an end and the support bar revolute of rotating up and down wherein, one end of the other end and hydraulic cylinder is hinged, the other end of hydraulic cylinder and post upper protrusion place backward is hinged, the support bar of hip four-bar mechanism places the groove of the support bar of knee four-bar mechanism to link to each other by alignment pin, and the hydraulic cylinder of the hydraulic cylinder of knee four-bar mechanism and hip four-bar mechanism is respectively before the support bar of knee four-bar mechanism, rear side;

The ankle four-bar mechanism comprises support bar, herringbone fork and hydraulic cylinder, fork in the upper end of support bar and the knee four-bar mechanism is fastening, the front side of post upper has an end of a projection and hydraulic cylinder hinged, the revolute that the hinged formation in the top of the lower end of support bar and herringbone fork is rotated up and down, the front side end of herringbone fork and the other end of hydraulic cylinder are hinged, the sufficient lateral heel that the front side end of herringbone fork and rear side end and vola are supported is fixed, and supports that in the vola elastic cord being installed.

For ease of gathering the motion pose signal of human body lower limbs when the walking, can be at each installation position, hydraulic cylinder body side displacement sensor.

During use, wearer is dressed in the both legs both sides with walking lower limb exoskeleton of the present invention, the lower back of the U type frame of lumbar support being close to wearer, lie in by elastic cord between the waist of wearer, the control system of whole device, power supply and equipment luggage etc. all can be positioned on the bracing frame of load, reduce the burden that wearer is born luggage.Both feet are fixed on the gripper shoe of vola by elastic cord, and every lower limb all has 3 controllable degrees of freedom, drive ectoskeleton and move.

At amputation patient or amyotrophy patient, the present invention can utilize the walking program of finishing in advance as auxiliary walking instrument.For general traveller or weakling, can wear the present invention's walking earlier, motion pose signal during by the walking of displacement transducer timing acquiring wearer, and the gait by the computer recording wearer, the gait that progressively reappears wearer then, the walking step state of imitation wearer is realized effect auxiliary or enhancing wearer walking movement ability.Use the present invention can alleviate pedestrian's fatigue to a certain extent, improve the human motion limit, and strengthen the ability that human body carries the weight motion.The present invention both can be used as lower extremity amputation patient or amyotrophy patient's walking aid, also can be used as the walking-replacing tool or the open-air scientific investigation equipment of hiking.

Description of drawings

Fig. 1 is the lower limb walking ectoskeleton structural representation of Wearable;

The specific embodiment

Further specify the present invention below in conjunction with accompanying drawing.

With reference to Fig. 1, wearable walking lower limb exoskeleton is to be made of lumbar support 1, hip four-bar mechanism 5, knee four-bar mechanism 10, ankle four-bar mechanism 17 and vola support 19 polyphone successively, said lumbar support 1 comprises U type frame 3 and is fixed on the bracing frame that is used for load 2 of U type frame bottom, opening at U type frame is respectively equipped with pin hole 4, for the big I that makes U type frame is regulated by wearer comfort, U type frame can adopt plate and two the L shaped bars by the band adjustment hole to be formed by connecting.

Hip four-bar mechanism 5 comprises hip fork 6, angular adjustment bar 7, support bar 8 and hydraulic cylinder 9, one end of hip fork 6 has axle, this shaft extension goes into to constitute the revolute that horizontally rotates in the pin hole 4 of lumbar support U type frame, and in the time of can realizing people's walking, lower limb is around the outward turning campaign of axis.One end of the other end of hip fork 6 and angular adjustment bar 7 and hydraulic cylinder 9 is hinged by rotating shaft, the other end of angular adjustment bar 7 becomes the α angle with an end of support bar 8 by regulating bolting, the α angle that angular adjustment bar 7 and support bar are 8 can be adjusted according to the wearer gait, and the other end of the other end of support bar 8 and hydraulic cylinder 9 is hinged by rotating shaft.Swing when utilizing the hip four-bar mechanism to realize walking on the thigh fore-and-aft direction.When walking, when the wearer hip lifts, 9 compressions of hydraulic cylinder in the hip four-bar mechanism, hip fork 6 relatively rotates with support bar 8, realizes following or support lifting the lower limb motion.

Knee four-bar mechanism 10 comprises fork 14, cross section is the support bar 12 and the hydraulic cylinder 11 of П type, protrude backward the upper end of support bar 12, fork 14 has the tip node that is mutually the right angle, the bottom of an end and support bar 12 revolute of rotating up and down wherein by the hinged formation of rotating shaft, one end of the other end and hydraulic cylinder 11 is hinged by rotating shaft, the protrusion place of the other end of hydraulic cylinder 11 and support bar 12 upper ends is hinged, the support bar 8 of hip four-bar mechanism 5 places the groove of the support bar 12 of knee four-bar mechanism, and it is continuous by liking enemy position pin 13 surely, usually, can be as shown in the figure, on support bar 12, hypomere is provided with 4～5 alignment pin adjustment holes respectively, so that wearer is used for regulating distance between knee revolute and the hip revolute according to leg length.The hydraulic cylinder 11 of knee four-bar mechanism and the hydraulic cylinder 9 of hip four-bar mechanism are respectively in the forward and backward side of the support bar 12 of knee four-bar mechanism.Utilize the stretching motion of hydraulic cylinder 11 in the knee four-bar mechanism, can realize the crooked and stretching, extension of knee.

Ankle four-bar mechanism 17 comprises support bar 15, herringbone fork 18 and hydraulic cylinder 16, fork 14 in the upper end of support bar 15 and the knee four-bar mechanism 10 is fastening, the front side of support bar 15 upper ends has an end of a projection and hydraulic cylinder 16 hinged, the revolute that the top of the lower end of support bar 15 and herringbone fork 18 rotates up and down by the hinged formation of rotating shaft, the other end of the front side end of herringbone fork 18 and hydraulic cylinder 16 is hinged, the sufficient lateral heel of the front side end of herringbone fork 18 and rear side end and vola support 19 is fixed, in vola support 19, elastic cord 20 is installed, is placed on the foot for wearer.The ankle four-bar mechanism can be realized the swing of ankle.When the wearer ankle upwarped, hydraulic cylinder 16 contractile motions in the ankle four-bar mechanism drove vola support 19 by the ankle four-bar mechanism and realize upwarping.

At difference installation position, the hydraulic cylinder body side of above-mentioned each mechanism displacement sensor.

Claims (2)

1. wearable walking lower limb exoskeleton is characterized in that supporting (19) formation of contacting successively by lumbar support (1), hip four-bar mechanism (5), knee four-bar mechanism (10), ankle four-bar mechanism (17) and vola:

Said lumbar support (1) comprises U type frame (3) and is fixed on the bracing frame that is used for load (2) of U type frame bottom, is respectively equipped with pin hole (4) at the opening of U type frame;

Hip four-bar mechanism (5) comprises hip fork (6), angular adjustment bar (7), support bar (8) and hydraulic cylinder (9), one end of hip fork (6) has axle, this shaft extension goes into to constitute the revolute that horizontally rotates in the pin hole (4) of lumbar support (1) U type frame, one end of the other end of hip fork (6) and angular adjustment bar (7) and hydraulic cylinder (9) is hinged, the other end of angular adjustment bar (7) becomes the α angle with an end of support bar (8) by regulating bolting, and the other end of the other end of support bar (8) and hydraulic cylinder (9) is hinged;

Knee four-bar mechanism (10) comprises fork (14), cross section is the support bar (12) and the hydraulic cylinder (11) of ∏ type, protrude backward the upper end of support bar (12), fork (14) has the tip node that is mutually the right angle, the hinged formation in bottom of an end and support bar (12) revolute of rotating up and down wherein, one end of the other end and hydraulic cylinder (11) is hinged, the other end of hydraulic cylinder (11) and protrusion place backward, support bar (12) upper end are hinged, the support bar (8) of hip four-bar mechanism (5) places the groove of the support bar (12) of knee four-bar mechanism to link to each other by alignment pin (13), and the hydraulic cylinder (9) of the hydraulic cylinder of knee four-bar mechanism (11) and hip four-bar mechanism is respectively before the support bar (12) of knee four-bar mechanism, rear side;

Ankle four-bar mechanism (17) comprises support bar (15), herringbone fork (18) and hydraulic cylinder (16), fork (14) in the upper end of support bar (15) and the knee four-bar mechanism (10) is fastening, the front side of support bar (15) upper end has an end of a projection and hydraulic cylinder (16) hinged, the revolute that the hinged formation in top of the lower end of support bar (15) and herringbone fork (18) is rotated up and down, the other end of the front side end of herringbone fork (18) and hydraulic cylinder (16) is hinged, the front side end of herringbone fork (18) and rear side end and vola are supported the sufficient lateral heel of (19) and are fixed, and support on (19) that in the vola elastic cord (20) being installed.

2. wearable walking lower limb exoskeleton according to claim 1 is characterized in that at the side of cylinder block of above-mentioned each organization hydraulic pressure cylinder (9), (11), (16) displacement transducer being installed.