CN203293211U

CN203293211U - Robot neck device

Info

Publication number: CN203293211U
Application number: CN2013202912629U
Authority: CN
Inventors: 陈晨; 明涛; 黄海凤; 高宏力; 许明恒; 郭亮; 赵斌; 吕金洲; 孔德松; 王振刚
Original assignee: Southwest Jiaotong University
Current assignee: Southwest Jiaotong University
Priority date: 2013-05-24
Filing date: 2013-05-24
Publication date: 2013-11-20
Anticipated expiration: 2023-05-24

Abstract

The utility model discloses a robot neck device which comprises a lower neck machine frame (1) which is connected with a shoulder portion (11), and an upper neck machine frame (8) which is connected with a head portion (9). A head rotation motor (7) is arranged on the upper neck machine frame (8), a shaft of the head rotation motor (7) is connected with the head portion (9), the rear portion of the upper neck machine frame (8) is connected with an upper plate of the lower neck machine frame (1) through a universal joint (10), and the left side of the front portion of the upper neck machine frame (8) and the right side of the front portion of the upper neck machine frame (8) are connected with a rotating shaft of a stepping motor (2) on the left side of the lower neck machine frame (1) and a rotating shaft of a stepping motor (2) on the right side of the lower neck machine frame (1) respectively through ball joint connecting rod mechanisms. The robot neck device is small in size, compact in structure, good in similarity to people, good in stability and flexibility of movement, easy to manufacture and long in service life.

Description

robot neck device

技术领域technical field

本实用新型涉及一种机器人颈部装置。The utility model relates to a robot neck device.

背景技术Background technique

随着机器人技术的进步，家庭服务机器人越来越多，逐步追求提高机器人的拟人度，尤其是头部运动。由于人的头部运动是在颈部控制下的一个三自由度旋转运动，要使机器人的头部实现三自由度自由旋转，必须要求颈部机构，能够实现三自由度自由旋转。现有的机器人颈部装置通常通过由一个电机实现一个自由度上的转动；三个电机安装在串联的上、中、下三个颈部机架上，三个电机共同作用实现三个自由度的转动。这种结构，上、中、下三个颈部机架及三个电机相互串联叠合导致其结构复杂、体积大，尤其是竖直方向占据空间多，容易导致颈部长度超长，从外形上降低与人的相似度。并且串联的三个电机及其机架结构的相互干扰大，颈部运动的稳定性差；下部电机需要同时承受中上部电机及其中上部机架的重量，对其功率要求大，也增加了制造难度和体积，并降低了使用寿命。With the advancement of robot technology, there are more and more domestic service robots, and the anthropomorphic degree of robots is gradually pursued, especially the head movement. Since the human head movement is a three-degree-of-freedom rotational movement under the control of the neck, in order to realize the three-degree-of-freedom free rotation of the robot's head, the neck mechanism must be required to be able to realize the three-degree-of-freedom free rotation. The existing robot neck device usually realizes the rotation on one degree of freedom by one motor; three motors are installed on the upper, middle and lower neck frames in series, and the three motors work together to realize three degrees of freedom rotation. In this structure, the upper, middle and lower neck racks and the three motors are superimposed in series, resulting in a complex structure and large volume, especially in the vertical direction, which easily leads to an excessively long neck length. reduce the similarity with human beings. In addition, the three motors connected in series and their frame structure have great mutual interference, and the stability of the neck movement is poor; the lower motor needs to bear the weight of the middle and upper motors and the middle and upper frame at the same time, which requires a large power and increases the manufacturing difficulty. and volume, and reduce the service life.

实用新型内容Utility model content

本实用新型所要解决的技术问题是提供一种机器人颈部装置，该种机器人颈部装置体积小、结构紧凑，与人的相似度好，运动的稳定性和灵活性好，制造容易，使用寿命长。The technical problem to be solved by the utility model is to provide a robot neck device, which is small in size, compact in structure, good in similarity with human beings, good in motion stability and flexibility, easy to manufacture and long in service life. long.

本实用新型解决其技术问题，所采用的技术方案是：一种机器人颈部装置，包括与肩部相连的颈部下机架，与头部相连的颈部上机架，其特征在于：The utility model solves the technical problem, and the adopted technical scheme is: a robot neck device, comprising a neck lower frame connected with the shoulder, and a neck upper frame connected with the head, characterized in that:

所述的颈部上机架上安装有头部旋转电机，头部旋转电机的轴与头部相连，颈部上机架的后部通过一个万向节与颈部下机架的上板相连，颈部上机架的前部左、右侧分别通过球关节连杆机构与颈部下机架上的左、右侧的步进电机的转轴相连；其中，球关节连杆机构的具体组成为：A head rotation motor is installed on the upper frame of the neck, the shaft of the head rotation motor is connected with the head, and the rear part of the upper frame of the neck is connected with the upper plate of the lower frame of the neck through a universal joint , the front left and right sides of the upper frame on the neck are respectively connected with the rotating shafts of the stepper motors on the left and right sides of the frame under the neck through the ball joint linkage mechanism; wherein, the specific composition of the ball joint linkage mechanism for:

上球关节的上端固定在颈部上机架上，上球关节的下端与斜连杆的上端固定，斜连杆的下端与下球关节的上端固定，横连杆的外端与下球关节的下端固定，横连杆的内端与下机架上的步进电机转轴固定。The upper end of the upper ball joint is fixed on the upper frame of the neck, the lower end of the upper ball joint is fixed with the upper end of the oblique connecting rod, the lower end of the oblique connecting rod is fixed with the upper end of the lower ball joint, and the outer end of the horizontal connecting rod is connected with the lower ball joint. The lower end is fixed, and the inner end of the cross link is fixed with the stepping motor rotating shaft on the lower frame.

本实用新型的工作过程和原理是：Working process and principle of the present utility model are:

颈部上机架上的头部旋转电机直接控制头部旋转运动。颈部上机架后部通过一个万向节、前部左右侧通过两个球关节连杆机构与颈部下机架左右的步进电机转轴相连；颈部下机架左右侧的步进电机对转(反向旋转)时，两个球关节连杆机构的横杆同时上升或下降，进而通过斜杆带动颈部上机架的前部上升或下降实现前后点头的头部运动。点头的幅度由电机对转的角度决定，当两个电机转动的角度不相等时，则实现前后点头运动的同时叠加了左右偏头运动。同理，颈部下机架左右侧的步进电机顺转(同向旋转)时，一个球关节连杆机构的横杆同时上升，另一个球关节连杆机构的横杆下降，进而通过斜杆带动颈部上机架的前部一侧上升，另一侧下降实现头部左右偏头的运动。偏头的幅度由电机顺转的角度决定，当两个电机转动的角度不相等(包括一个不转，另一个转动的情况)时，则实现左右偏头运动的同时叠加了前后点头运动。The head rotation motor on the rack above the neck directly controls the head rotation movement. The rear of the upper frame on the neck is connected to the shafts of the stepping motors on the left and right sides of the lower frame on the neck through a universal joint, and the left and right sides of the front are connected to the shafts of the stepping motors on the left and right sides of the lower frame on the neck through two ball joint linkage mechanisms; During counter-rotation (reverse rotation), the cross bars of the two ball joint linkages rise or fall simultaneously, and then the front part of the frame on the neck is driven by the oblique bar to rise or fall to realize the head movement of nodding back and forth. The amplitude of the nodding is determined by the counter-rotation angles of the motors. When the rotation angles of the two motors are not equal, the forward and backward nodding motions are superimposed on the left and right head tilting motions. In the same way, when the stepping motors on the left and right sides of the frame under the neck rotate forward (rotate in the same direction), the cross bar of one ball joint linkage mechanism rises at the same time, and the cross bar of the other ball joint linkage mechanism descends, and then passes through the oblique The rod drives one side of the front part of the rack on the neck to rise, and the other side to descend to realize the left and right tilting movement of the head. The magnitude of the head tilt is determined by the angle of the forward rotation of the motor. When the rotation angles of the two motors are not equal (including the case where one does not rotate and the other rotates), the left and right head tilt movement is superimposed while the forward and backward nodding motion is achieved.

总之，通过头部旋转电机与左右侧的两个步进电机单独旋转或组合旋转，可以完全模拟实现人头部的三个自由度的旋转运动。In a word, through the rotation of the head rotation motor and the two stepper motors on the left and right sides alone or in combination, the three degrees of freedom rotation of the human head can be completely simulated.

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:

通过两个颈部下机架电机的并联，再与颈部上机架的一个电机串联实现对人头部运动的模拟，较之三个电机及上、中、下三个机架的串联，本实用新型的结构更简单紧凑，体积小，尤其是竖直方向占据空间少，与人颈部的相似度高。电机及传动只有两级串联关系，相互之间干扰小，颈部运动的稳定性和灵活性好。由下部两个电机来承受上部一个电机及机架的重量，下部电机的理论承重量仅为三级串联结构下部电机的1/4，其功率要求大幅降低，也降低了制造难度和体积，并提高了电机的使用寿命。Through the parallel connection of two motors under the neck frame, and then in series with a motor on the upper frame of the neck, the simulation of the movement of the human head is realized. Compared with the series connection of three motors and the upper, middle and lower frames, The structure of the utility model is more simple and compact, and the volume is small, especially the vertical direction occupies less space, and the similarity with the human neck is high. The motor and the transmission have only two stages of series connection, the mutual interference is small, and the stability and flexibility of the neck movement are good. The weight of the upper motor and the frame is supported by the lower two motors. The theoretical load-bearing capacity of the lower motor is only 1/4 of that of the lower motor in the three-stage series structure. The power requirement is greatly reduced, and the manufacturing difficulty and volume are also reduced. The service life of the motor is improved.

下面结合附图和具体实施方式对本实用新型作进一步的详细说明。Below in conjunction with accompanying drawing and specific embodiment the utility model is described in further detail.

附图说明Description of drawings

图1为本实用新型实施例的立体结构示意图。Fig. 1 is a three-dimensional structural schematic diagram of an embodiment of the utility model.

具体实施方式Detailed ways

实施例Example

图1示出，本实用新型的一种具体实现方式是，一种机器人颈部装置，包括与肩部11相连的颈部下机架1，与头部9相连的颈部上机架8，其特征在于：Figure 1 shows that a specific implementation of the present utility model is a robot neck device, comprising a neck lower frame 1 connected with a shoulder 11, an upper neck frame 8 connected with a head 9, It is characterized by:

所述的颈部上机架8上安装有头部旋转电机7，头部旋转电机7的轴与头部9相连，颈部上机架8的后部通过一个万向节10与颈部下机架1的上板相连，颈部上机架8的前部左、右侧分别通过球关节连杆机构与颈部下机架1上的左、右侧的步进电机2的转轴相连；其中，球关节连杆机构的具体组成为：The head rotating motor 7 is installed on the frame 8 on the neck, the shaft of the head rotating motor 7 is connected with the head 9, and the rear part of the frame 8 on the neck is connected with the lower part of the neck through a universal joint 10. The upper plate of the frame 1 is connected, and the front left and right sides of the frame 8 on the neck are respectively connected with the rotating shafts of the stepper motors 2 on the left and right sides of the frame 1 under the neck through a ball joint linkage mechanism; Among them, the specific composition of the ball joint linkage mechanism is:

上球关节6的上端固定在颈部上机架8上，上球关节6的下端与斜连杆5的上端固定，斜连杆5的下端与下球关节4的上端固定，横连杆3的外端与下球关节4的下端固定，横连杆3的内端与下机架1上的步进电机2转轴固定。The upper end of the upper ball joint 6 is fixed on the neck upper frame 8, the lower end of the upper ball joint 6 is fixed to the upper end of the oblique connecting rod 5, the lower end of the oblique connecting rod 5 is fixed to the upper end of the lower ball joint 4, and the horizontal connecting rod 3 The outer end of the outer end is fixed with the lower end of the lower ball joint 4, and the inner end of the transverse link 3 is fixed with the stepping motor 2 rotating shafts on the lower frame 1.

Claims

1. a robot neck device, comprise the neck lower bearing bracket (1) that is connected with shoulder (11), and the neck upper spider (8) that is connected with head (9) is characterized in that:

End rotation motor (7) is installed on described neck upper spider (8), the axle of end rotation motor (7) is connected with head (9), the rear portion of neck upper spider (8) is connected with the upper plate of neck lower bearing bracket (1) by a universal joint (10), and the rotating shaft that the anterior left and right side of neck upper spider (8) passes through respectively the stepper motor (2) of the left and right side on ball-joint linkage and neck lower bearing bracket (1) is connected; Wherein, specifically consisting of of ball-joint linkage:

The upper end of upper ball-joint (6) is fixed on neck upper spider (8), the upper end of the lower end of upper ball-joint (6) and diagonal control arm (5) is fixed, the upper end of the lower end of diagonal control arm (5) and lower ball-joint (4) is fixed, the lower end of the outer end of tranverse connecting rod (3) and lower ball-joint (4) is fixed, and stepper motor (2) rotating shaft on the inner of tranverse connecting rod (3) and lower bearing bracket (1) is fixed.