robot wrist 中文意思是什麼
robot wrist
解釋
機撲手腕-
An extravehicular mobile robot ( emr ) cannot install a wrist force sensor because of the limitation of its condition
然而,有一些機器人,例如艙外行走機器人,由於條件的限制不能安裝腕力傳感器。 -
The best scheme was chosen after analysis and comparing and the structure was designed. at same time, the kinematics analysis was conducted, coordinate transformation matrix using d - h method was set up, and the kinematics equation direct solution and inverse solution was deduced, the velocity jacobian matrix was constructed using vector product method, and the values of displacement and velocity of some special point including the wrist point were calculated. secondly, the working space of the robot was analyzed and the axes section of practical working space was drawn
首先,作者針對機器人的設計要求提出了多個方案,對其進行分析比較,選擇其中最優的方案進行了結構設計;同時進行了運動學分析,用d - h方法建立了坐標變換矩陣,推算了運動方程的正、逆解;用矢量積法推導了速度雅可比矩陣,並計算了包括腕點在內的一些點的位移和速度;然後藉助坐標變換矩陣進行工作空間分析,作出了實際工作空間的軸剖面。 -
In chapter 2, author points out firstly that the elastic deformation of elastic units of a robot ' s wrist force sensor will be enlarged by the end - effector, the instruments and the work pieces, so the elastic deformation of the sensor will influence the location accuracy or kinetic accuracy of end point of a robot, under the condition of that the robot technology facing the developing of heavy load, light mass and high accuracy. it is discussed respectively that the relationship between the differential kinemics in the sensor ' s coordinate and the location accuracy or kinetic accuracy of the end point. error matrixes of location and kinemics of the end point are presented respectively based on the differential kinemics in the sensor ' s coordinate, and the on - line error compensation methods are introduced subsequently
第二章首先指出機器人腕力傳感器彈性體的彈性變形經過機器人末端連桿、工具、工件等的放大后,會對機器人末端精確定位和運動產生的影響;然後分別研究了傳感器坐標系內的微分運動與機器人末端工件精確定位、運動的關系;在此基礎上,研究了基於腕力傳感器彈性體微分運動的機器人末端定位、運動誤差的誤差矩陣及其在線誤差補償方法;基於機器人動力學的機器人末端定位、運動誤差的誤差矩陣及其在線誤差補償方法;最後,以puma型機器人為對象,給出了基於腕力傳感器內微分運動的機器人末端定位、運動誤差及其在線補償方法的模擬實例:給出了基於機器人動力學的機器人末端定位、運動誤差及其在線補償方法的模擬實例;模擬結果表明, 1 )基於腕力傳感器的機器人末端定位誤差在腕力傳感器允許的載荷下可達十分之幾毫米級。 -
According to the construction and dimension of the robot arm, this paper constructs a model which skew - rpyr wrist model joined to redundant arm
根據機器人手臂的結構和尺寸,在機械動力學軟體「 adams 」的模擬環境下,建立冗餘度手臂和斜四關節手腕連接的虛擬樣機模型。 -
A on - line method for identifying robot load parameters based on robot ' s wrist force sensor is presented aiming at the points that the load parameters must be identified on - line and real - time, and the identification steps are given clearly. 4. experiments of on - line identification inertial parameters of the robot ' s end - effector and load are shown in chapter 4, experiments are done on robot puma562, the work pieces which inertial parameters are already known, are as robot ' s end - effector and load respectively
第七章以一種十字梁多維力傳感器為例,以bernoulli一eulerbeam為基礎,建立傳感器的動力學模型,定義了傳感器維間禍合的禍合函數,研究傳感器各維的固有頻率與傳感器的幾何參數等的關系,傳感器動態應變與傳感器幾何參數、貼片位置等的關系,傳感器的禍合函數與傳感器幾何參數、貼片位置等的關系,力圖揭示傳感器的動態特性的本質關系,為傳感器的動態設計和傳感器結合機器人對機器人系統的影響的研究提供理論基礎 -
We develop the flexible wrist of robot based on spherical gear ' s drive
研製了基於球齒輪傳動的機器人柔性手腕機構。 -
Taking the spherical - wrist of robot ' s end as the target of study, a kind of static error analysis method of spherical - wrist expressed by relative posture errors has been put forward
以機器人末端的球腕為研究對象,提出了一種用相對位姿誤差表示球腕的靜態誤差分析方法。 -
The wrist has two degrees of freedom. the following is the solution of kinematics and inverse kinematics of robot, including setting the kinematic equation by unchaining the closed chains
在此基礎上,建立機器人的運動學和逆運動學方程,其中運動學部分將該機器人的混合鏈結構化解成為等效的開鏈結構,建立開鏈的運動學關系。 -
The disadvantages of the methods are : robot had to be disintegrated in some methods, that is, these methods cannot perform on - line ; or, obtained the combination value of the robot ' s inertial parameters only by the other methods. and the common problem of the four methods is that the joint ' s characteristics of robot cannot be included. then, author developments a new method for on - line identification robot end - effector ' s inertial parameters based on robot ' s wrist force sensor, theoretic analyses of the method are given in details
第五章首先明確機器人連桿的慣性參數並不是機器人單個連桿的慣性參數,機器人連桿的慣性參數必須考慮機器人關節的關節特性;針對目前對機器人的關節特性建模還沒有一個切實和行之有效方法的現狀,提出了一種基於機器人基座力傳感器的機器人連桿慣性參數識別方法,該方法不需對機器人的關節特性建模,可以獲得機器人連桿獨立的慣性參數值(而不是慣性參數的組合值) 。 -
The joint forces are usually sense using strain gauges arranged in the robot wrist assembly
關節受力通常是用安裝在機器人手腕組合件處各種張力傳感器來檢測。
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