CN203060231U - Wearable lower limb exoskeleton walking-assisting robot - Google Patents

Abstract

The utility model discloses a wearable lower limb exoskeleton walking-assisting robot which comprises an ankle joint movement module, a knee joint movement module, a hip joint movement module, a driving module, a waist and a support module, wherein the knee joint movement module is respectively connected with the ankle joint movement module and the hip joint movement module; the driving module is respectively connected with the knee joint movement module and the hip joint movement module; and the hip joint movement module is connected with the waist and the support module. The wearable lower limb exoskeleton walking-assisting robot disclosed by the utility model is good in consistency of the hip joint movement and the human body movement in walking, small in coaxality and position deviation of the man-machine knee joint, and is compact in structure of the ankle joint.

Description

Translated fromChinese

一种穿戴式下肢外骨骼助行机器人A wearable lower limb exoskeleton walking aid robot

技术领域technical field

本实用新型涉及一种辅助行走装置，尤其涉及一种能用于人体下肢运动障碍康复的穿戴式下肢外骨骼助行机器人。The utility model relates to an auxiliary walking device, in particular to a wearable lower limb exoskeleton walking aid robot which can be used for rehabilitation of human lower limb movement disorders.

背景技术Background technique

目前，下肢助行外骨骼机器人主要用于人体下肢的康复训练和提高人体的负载能力。穿戴式下肢外骨骼机器人可穿戴于人体并与人同步运动，在动态步行移动中跟随检测人体运动信息并主动提供驱动力，以帮助患者正常行走并进行康复训练，或帮助穿戴者完成较大负重和较长时间的行走，减轻穿戴者的疲劳。At present, the lower limb walking exoskeleton robot is mainly used for rehabilitation training of the lower limbs of the human body and to improve the load capacity of the human body. The wearable lower extremity exoskeleton robot can be worn on the human body and move synchronously with the human body. It follows and detects human body motion information during dynamic walking movements and actively provides driving force to help patients walk normally and perform rehabilitation training, or to help the wearer complete heavy loads. And walking for a long time, reduce the fatigue of the wearer.

申请号为201110292009.0的发明设计了一种外骨骼可穿戴下肢康复机器人，包括腰部、髋关节、大腿、膝关节、小腿、踝关节、脚部外骨骼，该外骨骼的特点是使用谐波减速器传动及盘式电机作为驱动，能够实现0回转误差，与患者关节良好贴合，通过固定于患者背后的电池驱动，其各关节活动范围不受结构限制，但外骨骼所能承受的负载小，设计成本比较高。The invention with application number 201110292009.0 designed a wearable exoskeleton lower limb rehabilitation robot, including waist, hip joint, thigh, knee joint, calf, ankle joint, foot exoskeleton, which is characterized by the use of harmonic reducer Driven by transmission and disc motors, it can achieve zero rotation error and fit well with the patient's joints. Driven by a battery fixed on the back of the patient, the range of motion of each joint is not limited by the structure, but the load that the exoskeleton can bear is small. The design cost is relatively high.

申请号为201110350834.1的发明公开了一种医疗器械技术领域的下肢外骨骼康复机器人，包括踝关节运动模块、膝关节运动模块、髋关节运动模块、腰部及支撑架模块和拐杖模块。该实用新型可帮助截瘫患者实现站立并行走，通过采集拐杖与地面的接触信息来控制关节的屈伸运动，踝关节有对拉弹簧可以帮助减少来自地面的冲击。其结构体积、质量较大，结构不紧凑，用于帮助患者正常行走或康复训练会增加患者负担，与患者人体的贴合度差。The invention with application number 201110350834.1 discloses a lower extremity exoskeleton rehabilitation robot in the field of medical device technology, including an ankle joint movement module, a knee joint movement module, a hip joint movement module, a waist and support frame module, and a crutch module. This utility model can help paraplegic patients stand and walk, and control the flexion and extension of the joints by collecting the contact information between the crutches and the ground. The ankle joint has a pair of tension springs to help reduce the impact from the ground. Its structural volume and mass are large, and its structure is not compact. It will increase the burden on the patient when used to help patients walk normally or rehabilitation training, and the fit with the patient's body is poor.

因此，针对上述技术问题，有必要提供一种具有改良结构的穿戴式下肢外骨骼助行机器人，以克服上述缺陷。Therefore, in view of the above technical problems, it is necessary to provide a wearable lower extremity exoskeleton walker robot with an improved structure to overcome the above defects.

实用新型内容Utility model content

有鉴于此，本实用新型的目的在于提供一种穿戴式下肢外骨骼助行机器人，该穿戴式下肢外骨骼助行机器人在步行期间髋部关节运动与人体运动一致性好，人机膝关节同轴性和位置偏差小，脚踝关节结构紧凑。In view of this, the purpose of this utility model is to provide a wearable lower extremity exoskeleton walking aid robot, the hip joint movement of the wearable lower limb exoskeleton walking aid robot has good consistency with the human body movement during walking, and the man-machine knee joint Axial and positional deviations are small, and the ankle joint is compact.

为实现上述目的，本实用新型提供如下技术方案：In order to achieve the above object, the utility model provides the following technical solutions:

一种穿戴式下肢外骨骼助行机器人，其包括踝关节运动模块、膝关节运动模块、髋关节运动模块、腰部及支撑架模块，所述膝关节运动模块分别与踝关节运动模块、髋关节运动模块相连，所述髋关节运动模块与腰部及支撑架模块相连接，所述穿戴式下肢外骨骼助行机器人还包括驱动模块，所述驱动模块分别与膝关节运动模块、髋关节运动模块相连，所述驱动模块包括驱动器下端连接铰链、驱动器上端连接铰链、丝杠、联轴器、直流电机、编码器、电机座，所述直流电机固定于电机座内，所述联轴器连接直流电机与丝杠。A wearable lower extremity exoskeleton walker robot, which includes an ankle joint movement module, a knee joint movement module, a hip joint movement module, a waist and a support frame module, and the knee joint movement module is connected with the ankle joint movement module and the hip joint movement module respectively. The modules are connected, the hip joint movement module is connected with the waist and the support frame module, and the wearable lower extremity exoskeleton walker robot also includes a drive module, and the drive module is connected with the knee joint movement module and the hip joint movement module respectively, The drive module includes a hinge connected to the lower end of the driver, a hinge connected to the upper end of the driver, a lead screw, a shaft coupling, a DC motor, an encoder, and a motor seat. The DC motor is fixed in the motor seat, and the shaft coupling is connected to the DC motor and lead screw.

优选的，在上述穿戴式下肢外骨骼助行机器人中，所述驱动模块还包括丝杠末端固定座、丝杠螺母、丝杠前端固定座、丝杠螺母固定板、导向杆、推杆，所述导向杆的一端固定在电机座上，穿过丝杠前端固定座，所述导向杆的另一端固定在丝杠末端固定座上，所述丝杠螺母固定于丝杠螺母固定板上，所述推杆的一端固定于丝杠螺母固定板上，穿过丝杠末端固定座，所述推杆的另一端固定在驱动器下端连接铰链上，所述驱动器上端连接铰链固定于电机座上。Preferably, in the aforementioned wearable lower extremity exoskeleton walker robot, the drive module further includes a screw end fixing seat, a screw nut, a screw front fixing seat, a screw nut fixing plate, a guide rod, and a push rod. One end of the guide rod is fixed on the motor seat and passes through the front end fixing seat of the screw, the other end of the guide rod is fixed on the fixing seat at the end of the screw, and the screw nut is fixed on the screw nut fixing plate. One end of the push rod is fixed on the screw nut fixing plate and passes through the screw end fixing seat. The other end of the push rod is fixed on the hinge at the lower end of the driver, and the hinge at the upper end of the driver is fixed on the motor base.

优选的，在上述穿戴式下肢外骨骼助行机器人中，所述踝关节运动模块包括前脚掌、固定于前脚掌上的脚部绑带、后脚掌、分别安装于前后脚掌上的两个压力传感器、踝关节角度传感器，所述脚部为前脚掌、后脚掌通过螺栓铰接而成。Preferably, in the aforementioned wearable lower extremity exoskeleton walker robot, the ankle joint motion module includes a forefoot, a foot strap fixed on the forefoot, a rear foot, two pressure sensors respectively installed on the front and back feet, An ankle joint angle sensor, wherein the feet are formed by hinged forefoot and rear sole through bolts.

优选的，在上述穿戴式下肢外骨骼助行机器人中，所述踝关节运动模块还包括固定于后脚掌的踝关节支座、踝关节角度传感器支架、联轴器、关节连接轴，所述两个压力传感器通过孔槽、螺钉固定于前后脚掌上，所述踝关节角度传感器通过螺丝、踝关节传感器支架、联轴器、关节连接轴固定在踝关节上。Preferably, in the above-mentioned wearable lower extremity exoskeleton walker robot, the ankle joint motion module also includes an ankle joint support fixed on the rear sole, an ankle joint angle sensor bracket, a coupling, and a joint connection shaft. Two pressure sensors are fixed on the front and rear soles of the feet through holes and screws, and the ankle joint angle sensor is fixed on the ankle joints through screws, ankle joint sensor brackets, shaft couplings and joint connection shafts.

优选的，在上述穿戴式下肢外骨骼助行机器人中，所述膝关节运动模块包括踝关节连接板、小腿、固定于小腿上的小腿绑带、膝关节驱动器下连接板、膝关节角度传感器，所述膝关节运动模块通过踝关节连接板与踝关节运动模块连接。Preferably, in the above-mentioned wearable lower limb exoskeleton walker robot, the knee joint motion module includes an ankle joint connecting plate, a lower leg, a lower leg strap fixed on the lower leg, a lower connecting plate of the knee joint driver, and a knee joint angle sensor, The knee joint movement module is connected with the ankle joint movement module through the ankle joint connection plate.

优选的，在上述穿戴式下肢外骨骼助行机器人中，所述膝关节运动模块还包括驱动关节连接轴、膝关节连接座、膝关节角度传感器支架，所述小腿与踝关节连接板、膝关节驱动器下连接板、膝关节连接座固连成整体，所述膝关节角度传感器通过膝关节角度传感器支架与膝关节相连。Preferably, in the above wearable lower extremity exoskeleton walker robot, the knee joint motion module also includes a drive joint connection shaft, a knee joint connection seat, a knee joint angle sensor bracket, the lower leg and the ankle joint connection plate, the knee joint The driver lower connecting plate and the knee joint connecting seat are fixedly connected as a whole, and the knee joint angle sensor is connected with the knee joint through the knee joint angle sensor bracket.

优选的，在上述穿戴式下肢外骨骼助行机器人中，所述髋关节运动模块包括髋部支撑件、大腿、固定于大腿上的大腿绑带、膝关节连接板、髋关节角度传感器支架、髋关节角度传感器，所述大腿通过膝关节连接板与膝关节运动模块连接，所述大腿与髋部支撑件相连。Preferably, in the above-mentioned wearable lower extremity exoskeleton walker robot, the hip joint motion module includes a hip support, a thigh, a thigh strap fixed on the thigh, a knee joint connecting plate, a hip joint angle sensor bracket, a hip The joint angle sensor, the thigh is connected with the knee joint movement module through the knee joint connecting plate, and the thigh is connected with the hip support.

优选的，在上述穿戴式下肢外骨骼助行机器人中，所述髋关节运动模块还包括髋关节连接座、膝关节驱动器上连接板、联轴器，所述大腿与髋关节连接座、膝关节驱动器上连接板、膝关节连接板固连在一起，所述髋关节角度传感器通过髋关节角度传感器支架、联轴器与膝关节相连接。Preferably, in the aforementioned wearable lower extremity exoskeleton walker robot, the hip joint motion module also includes a hip joint connection seat, an upper connection plate on the knee joint driver, a shaft coupling, and the thigh and the hip joint connection seat, the knee joint The driver upper connecting plate and the knee joint connecting plate are fixedly connected together, and the hip joint angle sensor is connected with the knee joint through the hip joint angle sensor bracket and the shaft coupling.

优选的，在上述穿戴式下肢外骨骼助行机器人中，所述腰部及支撑架模块包括腰部支撑、腰部绑带、支架、固定于支架上的背带、髋部宽度调节杆、髋部宽度调节螺母，所述腰部绑带分别固定于腰部支撑及支架上，所述腰部支撑通过支架、髋部宽度调节杆、髋部宽度调节螺母连接。Preferably, in the above-mentioned wearable lower extremity exoskeleton walker robot, the waist and the support frame module include a waist support, a waist strap, a bracket, a strap fixed on the bracket, a hip width adjustment rod, and a hip width adjustment nut , the waist straps are respectively fixed on the waist support and the bracket, and the waist support is connected by the bracket, the hip width adjustment rod, and the hip width adjustment nut.

优选的，在上述穿戴式下肢外骨骼助行机器人中，所述腰部及支撑架模块还包括腰部连接轴、固定螺钉，所述腰部支撑通过连接轴与髋部支撑件连接。Preferably, in the above-mentioned wearable lower limb exoskeleton walking-assisted robot, the waist and support frame module further include a waist connection shaft and fixing screws, and the waist support is connected to the hip support through the connection shaft.

从上述技术方案可以看出，本实用新型的穿戴式下肢外骨骼助行机器人在步行期间髋部关节运动与人体运动一致性好，人机膝关节同轴性和位置偏差小，脚踝关节结构紧凑。It can be seen from the above technical scheme that the wearable lower extremity exoskeleton walker robot of the utility model has good consistency between the hip joint movement and the human body movement during walking, the man-machine knee joint coaxiality and position deviation are small, and the ankle joint structure is compact .

与现有技术相比，本实用新型的有益效果是：Compared with the prior art, the beneficial effects of the utility model are:

（1）单下肢具有四个自由度，利用较少却必须的自由度实现行走，降低了机构的复杂程度，提高了装置的效率。(1) The single lower limb has four degrees of freedom, and uses less but necessary degrees of freedom to realize walking, which reduces the complexity of the mechanism and improves the efficiency of the device.

（2）通过膝关节和髋关节的屈伸运动实现跨步行走，踝关节的跖屈背屈运动使穿戴行走过程中不被外骨骼干涉。(2) Striding walking is realized through the flexion and extension of the knee joint and hip joint, and the plantar flexion and dorsiflexion of the ankle joint prevents the exoskeleton from interfering during walking.

（3）每个外骨骼机器让各关节运动自由度与人体关节运动自由度基本保持同轴，这一仿生设计增强了机器的舒适性和可靠性，更有益于外骨骼机器人辅助穿戴者行走。(3) Each exoskeleton machine keeps the freedom of movement of each joint basically coaxial with the degree of freedom of joint movement of the human body. This bionic design enhances the comfort and reliability of the machine, and is more beneficial for the exoskeleton robot to assist the wearer to walk.

附图说明Description of drawings

为了更清楚地说明本实用新型实施例或现有技术中的技术方案，下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍，显而易见地，下面描述中的有关本实用新型的附图仅仅是本实用新型的一些实施例，对于本领域普通技术人员来讲，在不付出创造性劳动的前提下，还可以根据这些附图获得其他的附图。In order to more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the accompanying drawings that need to be used in the description of the embodiments or the prior art will be briefly introduced below. The drawings of the utility model are only some embodiments of the utility model, and those skilled in the art can also obtain other drawings according to these drawings without creative work.

图1是本实用新型穿戴式下肢外骨骼助行机器人的整体结构示意图；Fig. 1 is a schematic diagram of the overall structure of the utility model wearable lower extremity exoskeleton walker robot;

图2是本实用新型穿戴式下肢外骨骼助行机器人中踝关节运动模块的局部示意图；Fig. 2 is a partial schematic diagram of the ankle joint movement module in the wearable lower limb exoskeleton walker robot of the present invention;

图3是本实用新型穿戴式下肢外骨骼助行机器人中膝关节运动模块的局部示意图；Fig. 3 is a partial schematic diagram of the knee joint movement module in the wearable lower limb exoskeleton walker robot of the present invention;

图4是本实用新型穿戴式下肢外骨骼助行机器人中髋关节运动模块的局部示意图；Fig. 4 is a partial schematic diagram of the hip joint movement module in the wearable lower limb exoskeleton walker robot of the present invention;

图5是本实用新型穿戴式下肢外骨骼助行机器人中驱动模块的局部示意图；Fig. 5 is a partial schematic diagram of the driving module in the wearable lower limb exoskeleton walking aid robot of the present invention;

图6是本实用新型穿戴式下肢外骨骼助行机器人中腰部和支架模块的局部示意图；Fig. 6 is a partial schematic diagram of the middle waist and bracket module of the wearable lower limb exoskeleton walker robot of the present invention;

图7是图6另一角度的示意图。FIG. 7 is a schematic diagram of another angle of FIG. 6 .

具体实施方式Detailed ways

本实用新型公开了一种穿戴式下肢外骨骼助行机器人，该穿戴式下肢外骨骼助行机器人在步行期间髋部关节运动与人体运动一致性好，人机膝关节同轴性和位置偏差小，脚踝关节结构紧凑。The utility model discloses a wearable lower extremity exoskeleton walking aid robot. During walking, the wearable lower limb exoskeleton walking aid robot has good consistency between the hip joint motion and the human body motion, and the man-machine knee joint coaxiality and position deviation are small , The ankle joint is compact.

该穿戴式下肢外骨骼助行机器人单下肢具有四个自由度，髋关节的屈伸运动、内收外展运动，膝关节的屈伸运动以及踝关节的跖屈背屈运动。其中，髋关节的屈伸运动和膝关节的屈伸运动有驱动。利用较少却必须的自由度实现行走，降低了机构的复杂程度，提高了装置的效率。通过膝关节和髋关节的屈伸运动实现跨步行走，踝关节的跖屈背屈运动使穿戴行走过程中不被外骨骼干涉，膝关节的运动范围在65°，髋关节的运动范围在45°，即穿戴者可以借助此外骨骼实现正常行走。The wearable lower limb exoskeleton walker robot has four degrees of freedom for a single lower limb, hip flexion and extension, adduction and abduction, knee flexion and ankle plantar flexion and dorsiflexion. Among them, the flexion and extension of the hip joint and the flexion and extension of the knee joint are driven. The walking is realized by using less but necessary degrees of freedom, which reduces the complexity of the mechanism and improves the efficiency of the device. Walking is realized through the flexion and extension of the knee joint and hip joint, and the plantar flexion and dorsiflexion of the ankle joint prevents the exoskeleton from interfering during walking. The range of motion of the knee joint is 65°, and the range of motion of the hip joint is 45°. , that is, the wearer can walk normally with the help of the exoskeleton.

该穿戴式下肢外骨骼助行机器人的每个外骨骼关节运动自由度与人体关节运动自由度基本保持同轴，这一仿生设计增强了机器的舒适性和可靠性，更有益于外骨骼机器人辅助穿戴者行走。The degree of freedom of each exoskeleton joint movement of the wearable lower limb exoskeleton walker robot is basically coaxial with the joint movement freedom of the human body. This bionic design enhances the comfort and reliability of the machine, and is more beneficial to the exoskeleton robot assistance. The wearer walks.

下面将结合本实用新型实施例中的附图，对本实用新型实施例中的技术方案进行详细的描述，显然，所描述的实施例仅仅是本实用新型一部分实施例，而不是全部的实施例。基于本实用新型中的实施例，本领域普通技术人员在没有做出创造性劳动的前提下所获得的所有其他实施例，都属于本实用新型保护的范围。The technical solutions in the embodiments of the present invention will be described in detail below in conjunction with the drawings in the embodiments of the present invention. Apparently, the described embodiments are only part of the embodiments of the present invention, not all of them. Based on the embodiments of the present utility model, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of the present utility model.

如图1所示，本实用新型公开的穿戴式下肢外骨骼助行机器人包括：踝关节运动模块1、膝关节运动模块2、髋关节运动模块3、驱动模块4、腰部及支撑架模块5。其中，膝关节运动模块2分别与踝关节运动模块1、髋关节运动模块3相连，驱动模块4分别与膝关节运动模块2、髋关节运动模块3相连，髋关节运动模块3与腰部及支撑架模块5相连接。该穿戴式下肢外骨骼助行机器人单下肢具有四个自由度，分别为髋部二个自由度，完成髋关节屈伸和收展运动，两关节轴线汇交人体髋关节中心；膝部关节一个自由度，与人体膝关节同轴线，对应人体膝关节的屈伸运动；脚踝关节一个自由度。该穿戴式下肢外骨骼助行机器人实现四个运动方式，分别为髋关节的屈伸运动、内收外展运动，膝关节的屈伸运动以及踝关节的跖屈背屈运动，其中，髋关节的屈伸运动和膝关节的屈伸运动有驱动。As shown in FIG. 1 , the wearable lower extremity exoskeleton walker robot disclosed by the utility model includes: an ankle joint movement module 1 , a kneejoint movement module 2 , a hipjoint movement module 3 , adrive module 4 , and a waist andsupport frame module 5 . Wherein, the kneejoint movement module 2 is connected with the ankle joint movement module 1 and the hipjoint movement module 3 respectively, thedriving module 4 is connected with the kneejoint movement module 2 and the hipjoint movement module 3 respectively, and the hipjoint movement module 3 is connected with the waist and thesupport frame Module 5 is connected. The wearable lower extremity exoskeleton walker robot has four degrees of freedom for a single lower limb, two degrees of freedom for the hip, to complete the flexion, extension and retraction of the hip joint, the axis of the two joints meets the center of the human hip joint; degree, coaxial with the human knee joint, corresponding to the flexion and extension movement of the human knee joint; one degree of freedom for the ankle joint. The wearable lower extremity exoskeleton walker robot realizes four motion modes, which are flexion and extension of the hip joint, adduction and abduction, flexion and extension of the knee joint, and plantar flexion and dorsiflexion of the ankle joint. Among them, the flexion and extension of the hip joint Movement and flexion and extension of the knee are driven.

如图2所示，踝关节运动模块1包括：脚部绑带10、前脚掌11、压力传感器12和14、后脚掌13、踝关节支座15、踝关节角度传感器支架16、踝关节角度传感器17、联轴器18、关节连接轴19。其中，脚部为前脚掌11、后脚掌13通过螺栓铰接而成，并且前后脚掌分别安装压力传感器12、14，压力传感器通过孔槽、螺钉固定于前后脚掌上。脚部绑带10固定于前脚掌11上。踝关节支座15固定于后脚掌，踝关节角度传感器17通过螺丝、踝关节传感器支架16、联轴器18、关节连接轴19固定在踝关节上。As shown in Figure 2, the ankle joint movement module 1 comprises:foot strap 10, forefoot sole 11,pressure sensor 12 and 14, rear sole 13, anklejoint support 15, ankle jointangle sensor support 16, ankle joint angle sensor 17,shaft coupling 18,joint connection shaft 19. Wherein, the pin is that the front sole 11 and the rear sole 13 are hinged by bolts, and the front and rear soles are respectively equipped withpressure sensors 12, 14, and the pressure sensors are fixed on the front and rear soles by holes and screws. Thefoot strap 10 is fixed on theforefoot 11 . Anklejoint bearing 15 is fixed on rear sole, and ankle joint angle sensor 17 is fixed on ankle joint by screw, anklejoint sensor support 16,shaft coupling 18, joint connectingshaft 19.

如图3所示，膝关节运动模块2包括：踝关节连接板20、小腿21、小腿绑带22、膝关节驱动器下连接板23、驱动关节连接轴24、膝关节连接座25、膝关节角度传感器26、膝关节角度传感器支架27。其中，小腿21与踝关节连接板20、膝关节驱动器下连接板23、膝关节连接座25固连成整体。小腿绑带22固定于小腿21上。膝关节运动模块2通过踝关节连接板20与踝关节运动模块1连接。膝关节角度传感器26通过膝关节角度传感器支架27、联轴器与膝关节相连。As shown in Figure 3, the kneejoint movement module 2 comprises: anklejoint connection plate 20,shank 21,calf strap 22, knee joint driverlower connection plate 23, drivejoint connection shaft 24, kneejoint connection seat 25, kneejoint angle Sensor 26, knee jointangle sensor bracket 27. Wherein, thelower leg 21 is fixedly connected with the anklejoint connecting plate 20 , the lower connectingplate 23 of the knee joint driver, and the kneejoint connecting seat 25 into a whole. Thecalf strap 22 is fixed on thecalf 21 . The kneejoint movement module 2 is connected with the ankle joint movement module 1 through the anklejoint connecting plate 20 . The kneejoint angle sensor 26 is connected to the knee joint through a knee jointangle sensor bracket 27 and a coupling.

如图4所示，髋关节运动模块3包括：髋部支撑件30、髋关节连接座31、膝关节驱动器上连接板32、大腿绑带33、大腿34、膝关节连接板35、髋关节角度传感器支架36、髋关节角度传感器37、联轴器38。其中，大腿34与髋关节连接座31、膝关节驱动器上连接板32、膝关节连接板35固连在一起。大腿绑带33固定于大腿34上。大腿34通过膝关节连接板35与膝关节运动模块2连接。大腿34与髋部支撑件30相连。髋关节角度传感器37通过髋关节角度传感器支架36、联轴器38与膝关节相连接。As shown in Figure 4, the hipjoint movement module 3 comprises:hip supporting member 30, hipjoint connecting seat 31, upper connectingplate 32 of knee joint driver,thigh strap 33,thigh 34, kneejoint connecting plate 35, hip jointangle Sensor bracket 36, hipjoint angle sensor 37,coupling 38. Wherein, thethigh 34 is fixedly connected with the hipjoint connecting seat 31 , the upper connectingplate 32 of the knee joint driver, and the kneejoint connecting plate 35 . Thethigh strap 33 is fixed on thethigh 34 . Thethigh 34 is connected to the kneejoint movement module 2 through the kneejoint connecting plate 35 .Thigh 34 is connected tohip support 30 . The hipjoint angle sensor 37 is connected with the knee joint through the hip jointangle sensor bracket 36 and thecoupling 38 .

如图5所示，驱动模块4包括：驱动器下端连接铰链40、丝杠末端固定座41、丝杠螺母42、丝杠43、联轴器44、直流电机45、驱动器上端连接铰链46、编码器47、电机座48、丝杠前端固定座49、丝杠螺母固定板410、导向杆411、推杆412。其中，直流电机45固定于电机座48内，联轴器44连接直流电机45与丝杠43。导向杆411的一端固定在电机座48上，穿过丝杠前端固定座49，另一端固定在丝杠末端固定座41上。丝杠螺母42固定于丝杠螺母固定板410上。推杆412一端固定于丝杠螺母固定板410上，穿过丝杠末端固定座41，另一端固定在驱动器下端连接铰链40上。驱动器上端连接铰链46固定于电机座48上；膝关节驱动器上端连接铰链46通过轴承、连接轴与膝关节驱动器上连接板连接32，下端连接铰链40通过轴承、连接轴与膝关节驱动器下连接板23连接。髋关节驱动器上端连接铰链46通过轴承、驱动关节连接轴与髋部支撑件30连接，下端连接铰链40通过轴承、驱动关节连接轴与膝关节连接板35连接。As shown in Figure 5, thedrive module 4 includes: the lower end of the driver is connected to thehinge 40, the screwend fixing seat 41, thescrew nut 42, thelead screw 43, theshaft coupling 44, theDC motor 45, the upper end of the driver is connected to thehinge 46, anencoder 47,motor seat 48, leading screw frontend fixing seat 49, leading screwnut fixing plate 410,guide rod 411,push rod 412. Wherein, theDC motor 45 is fixed in themotor seat 48 , and thecoupling 44 connects theDC motor 45 and thelead screw 43 . One end of theguide rod 411 is fixed on themotor base 48 , passes through the fixedseat 49 at the front end of the leading screw, and the other end is fixed on the fixedseat 41 at the end of the leading screw. Thescrew nut 42 is fixed on the screwnut fixing plate 410 . One end of thepush rod 412 is fixed on the screwnut fixing plate 410 , passes through the screwend fixing seat 41 , and the other end is fixed on the connectinghinge 40 at the lower end of the driver. The connectinghinge 46 at the upper end of the driver is fixed on themotor base 48; the connectinghinge 46 at the upper end of the knee joint driver is connected with the upper connecting plate of the knee joint driver through the bearing and the connectingshaft 32, and the connectinghinge 40 at the lower end is connected with the lower connecting plate of the knee joint driver through the bearing and the connectingshaft 23 connections. The upper connectinghinge 46 of the hip joint driver is connected with thehip support 30 through a bearing and a driving joint connecting shaft, and the lower connectinghinge 40 is connected with the kneejoint connecting plate 35 through a bearing and a driving joint connecting shaft.

如图6及图7所示，腰部及支撑架模块5包括：腰部连接轴60、腰部支撑61、固定螺钉62、腰部绑带63、背带64、支架65、髋部宽度调节杆66、髋部宽度调节螺母67。其中，腰部支撑61通过轴承、连接轴60与髋部支撑件30连接。腰部绑带63分别固定于腰部支撑61及支架65上。两侧腰部支撑61通过支架65、髋部宽度调节杆66、髋部宽度调节螺母67连接，可调节腰部的宽度。背带64固定于支架65上。As shown in Figure 6 and Figure 7, the waist andsupport frame module 5 includes:waist connection shaft 60,waist support 61, fixingscrew 62,waist strap 63,strap 64,bracket 65, hipwidth adjustment rod 66, hipWidth adjustment nut 67. Wherein, thelumbar support 61 is connected with thehip support 30 through a bearing and a connectingshaft 60 . Thewaist strap 63 is respectively fixed on thewaist support 61 and thebracket 65 . The waist supports 61 on both sides are connected by abracket 65, a hipwidth adjusting rod 66, and a hipwidth adjusting nut 67, so as to adjust the width of the waist. Thestrap 64 is fixed on thebracket 65 .

本实用新型实施例的穿戴式下肢外骨骼助行机器人工作时：首先穿戴者在医生或工作人员的帮助下直立穿戴外骨骼助行机器人本体，然后，根据穿戴者的小腿、大腿和髋部尺寸，调节小腿绑带、大腿绑带、腰部绑带和外骨骼腰部的宽度，使外骨骼助行机器人与人体能良好贴合，使人体的踝关节、膝关节和髋关节对位于机器人相应的旋转轴，以适应穿戴者身体穿戴；穿戴好外骨骼本体后穿戴者在医护人员的帮助下保持站立；外骨骼的控制系统使各驱动器工作，实现其中一侧的腿实现抬腿、跨步，而另一侧跟随运动，然后控制系统使外骨骼仿照人体使两腿往复跨步，帮助穿戴者正常行走、康复训练。When the wearable lower extremity exoskeleton walking-assisting robot of the embodiment of the utility model works: firstly, the wearer wears the body of the exoskeleton walking-assisting robot upright with the help of a doctor or staff, and then, according to the size of the wearer's calf, thigh and hip, , adjust the width of the calf straps, thigh straps, waist straps and the waist of the exoskeleton, so that the exoskeleton walking robot can fit well with the human body, and make the ankle joints, knee joints and hip joints of the human body align with the corresponding rotation of the robot axis to adapt to the wearer's body; after wearing the exoskeleton body, the wearer keeps standing with the help of medical staff; the control system of the exoskeleton makes each driver work, so that one side of the leg can lift the leg and stride, while the exoskeleton The other side follows the movement, and then the control system makes the exoskeleton imitate the human body to make the legs reciprocate and stride, helping the wearer to walk normally and perform rehabilitation training.

本实用新型实施例的穿戴式下肢外骨骼助行机器人在步行期间髋部关节运动与人体运动一致性好，人机膝关节同轴性和位置偏差小，脚踝关节结构紧凑。The wearable lower extremity exoskeleton walking aid robot in the embodiment of the utility model has good consistency between the hip joint movement and the human body movement during walking, the man-machine knee joint coaxiality and position deviation are small, and the ankle joint structure is compact.

与现有技术相比，本实用新型的有益效果是：Compared with the prior art, the beneficial effects of the utility model are:

（1）单下肢具有四个自由度，利用较少却必须的自由度实现行走，降低了机构的复杂程度，提高了装置的效率。(1) The single lower limb has four degrees of freedom, and uses less but necessary degrees of freedom to realize walking, which reduces the complexity of the mechanism and improves the efficiency of the device.

（2）通过膝关节和髋关节的屈伸运动实现跨步行走，踝关节的跖屈背屈运动使穿戴行走过程中不被外骨骼干涉。(2) Striding walking is realized through the flexion and extension of the knee joint and hip joint, and the plantar flexion and dorsiflexion of the ankle joint prevents the exoskeleton from interfering during walking.

（3）每个外骨骼机器让各关节运动自由度与人体关节运动自由度基本保持同轴，这一仿生设计增强了机器的舒适性和可靠性，更有益于外骨骼机器人辅助穿戴者行走。(3) Each exoskeleton machine keeps the freedom of movement of each joint basically coaxial with the degree of freedom of joint movement of the human body. This bionic design enhances the comfort and reliability of the machine, and is more beneficial for the exoskeleton robot to assist the wearer to walk.

对于本领域技术人员而言，显然本实用新型不限于上述示范性实施例的细节，而且在不背离本实用新型的精神或基本特征的情况下，能够以其他的具体形式实现本实用新型。因此，无论从哪一点来看，均应将实施例看作是示范性的，而且是非限制性的，本实用新型的范围由所附权利要求而不是上述说明限定，因此旨在将落在权利要求的等同要件的含义和范围内的所有变化囊括在本实用新型内。不应将权利要求中的任何附图标记视为限制所涉及的权利要求。It is obvious to those skilled in the art that the present invention is not limited to the details of the above exemplary embodiments, and that the present invention can be implemented in other specific forms without departing from the spirit or essential features of the present invention. Therefore, no matter from all points of view, the embodiments should be regarded as exemplary and non-restrictive, and the scope of the present invention is defined by the appended claims rather than the above description, so it is intended to fall within the scope of the claims All changes within the meaning and range of equivalents of the required elements are included in the present invention. Any reference sign in a claim should not be construed as limiting the claim concerned.

此外，应当理解，虽然本说明书按照实施方式加以描述，但并非每个实施方式仅包含一个独立的技术方案，说明书的这种叙述方式仅仅是为清楚起见，本领域技术人员应当将说明书作为一个整体，各实施例中的技术方案也可以经适当组合，形成本领域技术人员可以理解的其他实施方式。In addition, it should be understood that although this specification is described according to implementation modes, not each implementation mode only contains an independent technical solution, and this description in the specification is only for clarity, and those skilled in the art should take the specification as a whole , the technical solutions in the various embodiments can also be properly combined to form other implementations that can be understood by those skilled in the art.

Claims (10)

Translated fromChinese

1.一种穿戴式下肢外骨骼助行机器人，其包括踝关节运动模块、膝关节运动模块、髋关节运动模块、腰部及支撑架模块，所述膝关节运动模块分别与踝关节运动模块、髋关节运动模块相连，所述髋关节运动模块与腰部及支撑架模块相连接，其特征在于：所述穿戴式下肢外骨骼助行机器人还包括驱动模块，所述驱动模块分别与膝关节运动模块、髋关节运动模块相连，所述驱动模块包括驱动器下端连接铰链、驱动器上端连接铰链、丝杠、联轴器、直流电机、编码器、电机座，所述直流电机固定于电机座内，所述联轴器连接直流电机与丝杠。1. A wearable lower extremity exoskeleton walker robot, which comprises an ankle joint motion module, a knee joint motion module, a hip joint motion module, a waist and a support frame module, and the knee joint motion module is respectively connected with the ankle joint motion module, the hip joint motion module, and the hip joint motion module. The joint movement module is connected, and the hip joint movement module is connected with the waist and the support frame module, and it is characterized in that: the wearable lower limb exoskeleton walker robot also includes a drive module, and the drive module is respectively connected with the knee joint movement module, The hip joint movement module is connected, and the drive module includes a hinge connected to the lower end of the driver, a hinge connected to the upper end of the driver, a lead screw, a shaft coupling, a DC motor, an encoder, and a motor seat, and the DC motor is fixed in the motor seat. The shaft device connects the DC motor and the lead screw.2.根据权利要求1所述的穿戴式下肢外骨骼助行机器人，其特征在于：所述驱动模块还包括丝杠末端固定座、丝杠螺母、丝杠前端固定座、丝杠螺母固定板、导向杆、推杆，所述导向杆的一端固定在电机座上，穿过丝杠前端固定座，所述导向杆的另一端固定在丝杠末端固定座上，所述丝杠螺母固定于丝杠螺母固定板上，所述推杆的一端固定于丝杠螺母固定板上，穿过丝杠末端固定座，所述推杆的另一端固定在驱动器下端连接铰链上，所述驱动器上端连接铰链固定于电机座上。2. The wearable lower extremity exoskeleton walker robot according to claim 1, characterized in that: the drive module also includes a lead screw end fixing seat, a lead screw nut, a leading screw front end fixing seat, a lead screw nut fixing plate, Guide rod, push rod, one end of the guide rod is fixed on the motor seat, passes through the front end fixing seat of the screw, the other end of the guide rod is fixed on the end fixing seat of the screw, and the screw nut is fixed on the screw On the lever nut fixing plate, one end of the push rod is fixed on the lead screw nut fixing plate, passes through the screw end fixing seat, the other end of the push rod is fixed on the lower end of the driver connected to the hinge, and the upper end of the driver is connected to the hinge fixed on the motor base.3.根据权利要求1所述的穿戴式下肢外骨骼助行机器人，其特征在于：所述的踝关节运动模块包括前脚掌、固定于前脚掌上的脚部绑带、后脚掌、分别安装于前后脚掌上的两个压力传感器、踝关节角度传感器，所述脚部为前脚掌、后脚掌通过螺栓铰接而成。3. The wearable lower extremity exoskeleton walker robot according to claim 1, characterized in that: the ankle joint movement module includes the forefoot, the foot straps fixed on the forefoot, the rear feet, respectively installed on the front and rear Two pressure sensors and ankle joint angle sensors on the soles of the feet are formed by hinged forefoot and rear soles through bolts.4.根据权利要求3所述的穿戴式下肢外骨骼助行机器人，其特征在于：所述的踝关节运动模块还包括固定于后脚掌的踝关节支座、踝关节角度传感器支架、联轴器、关节连接轴，所述两个压力传感器通过孔槽、螺钉固定于前后脚掌上，所述踝关节角度传感器通过螺丝、踝关节传感器支架、联轴器、关节连接轴固定在踝关节上。4. The wearable lower extremity exoskeleton walker robot according to claim 3, characterized in that: the ankle joint motion module also includes an ankle joint support, an ankle joint angle sensor bracket, and a shaft coupling fixed on the rear sole , the joint connection shaft, the two pressure sensors are fixed on the front and back soles by holes and screws, and the ankle joint angle sensor is fixed on the ankle joint by screws, ankle joint sensor brackets, couplings and joint connection shafts.5.根据权利要求1所述的穿戴式下肢外骨骼助行机器人，其特征在于：所述的膝关节运动模块包括踝关节连接板、小腿、固定于小腿上的小腿绑带、膝关节驱动器下连接板、膝关节角度传感器，所述膝关节运动模块通过踝关节连接板与踝关节运动模块连接。5. The wearable lower extremity exoskeleton walker robot according to claim 1, characterized in that: the knee joint motion module includes an ankle joint connecting plate, a lower leg, a lower leg strap fixed on the lower leg, and a lower knee joint driver A connecting plate and a knee joint angle sensor, the knee joint motion module is connected with the ankle joint motion module through the ankle joint connecting plate.6.根据权利要求5所述的穿戴式下肢外骨骼助行机器人，其特征在于：所述的膝关节运动模块还包括驱动关节连接轴、膝关节连接座、膝关节角度传感器支架，所述小腿与踝关节连接板、膝关节驱动器下连接板、膝关节连接座固连成整体，所述膝关节角度传感器通过膝关节角度传感器支架与膝关节相连。6. The wearable lower extremity exoskeleton walker robot according to claim 5, characterized in that: the knee joint motion module also includes a drive joint connection shaft, a knee joint connection seat, a knee joint angle sensor bracket, and the lower leg It is integrally connected with the ankle joint connecting plate, the lower connecting plate of the knee joint driver, and the knee joint connecting seat, and the knee joint angle sensor is connected with the knee joint through the knee joint angle sensor bracket.7.根据权利要求1所述的穿戴式下肢外骨骼助行机器人，其特征在于：所述的髋关节运动模块包括髋部支撑件、大腿、固定于大腿上的大腿绑带、膝关节连接板、髋关节角度传感器支架、髋关节角度传感器，所述大腿通过膝关节连接板与膝关节运动模块连接，所述大腿与髋部支撑件相连。7. The wearable lower extremity exoskeleton walker robot according to claim 1, characterized in that: the hip joint motion module comprises a hip support, a thigh, a thigh strap fixed on the thigh, and a knee joint connecting plate , a hip joint angle sensor bracket, a hip joint angle sensor, the thigh is connected to the knee joint movement module through the knee joint connecting plate, and the thigh is connected to the hip support.8.根据权利要求7所述的穿戴式下肢外骨骼助行机器人，其特征在于：所述的髋关节运动模块还包括髋关节连接座、膝关节驱动器上连接板、联轴器，所述大腿与髋关节连接座、膝关节驱动器上连接板、膝关节连接板固连在一起，所述髋关节角度传感器通过髋关节角度传感器支架、联轴器与膝关节相连接。8. The wearable lower extremity exoskeleton walker robot according to claim 7, characterized in that: the hip joint motion module also includes a hip joint joint seat, a joint plate on the knee joint driver, a coupling, and the thigh It is fixedly connected with the hip joint connecting seat, the upper connecting plate of the knee joint driver, and the knee joint connecting plate, and the hip joint angle sensor is connected with the knee joint through the hip joint angle sensor bracket and the shaft coupling.9.根据权利要求1所述的穿戴式下肢外骨骼助行机器人，其特征在于：所述的腰部及支撑架模块包括腰部支撑、腰部绑带、支架、固定于支架上的背带、髋部宽度调节杆、髋部宽度调节螺母，所述腰部绑带分别固定于腰部支撑及支架上，所述腰部支撑通过支架、髋部宽度调节杆、髋部宽度调节螺母连接。9. The wearable lower extremity exoskeleton walker robot according to claim 1, characterized in that: the waist and the support frame module include a waist support, a waist strap, a bracket, a strap fixed on the bracket, and a hip width Adjusting bar, hip width adjusting nut, described waist strap is respectively fixed on the lumbar support and support, and described lumbar support is connected by support, hip width adjusting bar, hip width adjusting nut.10.根据权利要求9所述的穿戴式下肢外骨骼助行机器人，其特征在于：所述的腰部及支撑架模块还包括腰部连接轴、固定螺钉，所述腰部支撑通过连接轴与髋部支撑件连接。10. The wearable lower extremity exoskeleton walker robot according to claim 9, characterized in that: the waist and the support frame module also include a waist connection shaft and a fixing screw, and the waist support is supported by the connection shaft and the hip file connection.

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