Parameter interacted design method for five-degree-of-freedom hybrid robot

An integrated design and robotics technology, applied in the direction of manipulators, program-controlled manipulators, manufacturing tools, etc., can solve problems such as unrealizable, complex design problems, and inability to guarantee robot dynamic performance, etc., to achieve integrated optimal design, avoid mutual coupling, and save Effects of Design Effort

Active Publication Date: 2017-11-17
TIANJIN UNIV
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Problems solved by technology

However, the existing parallel / hybrid robot design methods are mostly limited to the design of scale parameters, which cannot guarantee the dynamic performance of the robot, and it is difficult to obtain robot equipment with excellent comprehensive performance; in addition, considering that the performance of the robot varies with the configuration, if the design Inspecting the statics and dynamics performance of its entire workspace during the process will make the design problem extremely complex and impossible to achieve

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  • Parameter interacted design method for five-degree-of-freedom hybrid robot
  • Parameter interacted design method for five-degree-of-freedom hybrid robot
  • Parameter interacted design method for five-degree-of-freedom hybrid robot

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[0047] A parameter integration design method for a five-degree-of-freedom hybrid robot of the present invention will be described in detail below with reference to the embodiments and the accompanying drawings.

[0048]In the parameter integration design method of a five-degree-of-freedom hybrid robot of the present invention, the five-degree-of-freedom hybrid robot adopts a five-degree-of-freedom structure containing a multi-axis rotating bracket disclosed in Patent No. ZL201510401279.9 Hybrid robots. Such as figure 1 , figure 2 As shown, it is composed of a translational two-rotation three-degree-of-freedom parallel mechanism and a two-degree-of-freedom rotor 6 with two rotational degrees of freedom connected in series, wherein the parallel mechanism includes three axially extendable Or shortened active adjusting device 2 / 3 / 4, a driven adjusting device 1, a rotating bracket 12 and a frame.

[0049] One end of the first active length adjusting device 2 is connected to two...

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Abstract

The invention discloses a parameter integrated design method for a five-degree-of-freedom hybrid robot. The parameter integrated design method comprises the following steps of: taking a working space midpoint as a reference point, taking kinematics performances as constraint conditions, and taking maximum working space volume as a target to determine scale parameters of a mechanism; taking static rigidity performances as constraints, and taking elastic kinematics performances as an optimization target to determine key structural parameters of a part; and determining parameters of a servo motor based on drive joint equivalent rotational inertia, rotation speed and rotation torque during motion along typical track. According to the parameter integrated design method disclosed by the invention, kinematics, statics and dynamics performances of the robot are comprehensively taken into consideration with the adoption of a hierarchical idea, so that integrated design of scale, structure and drive parameters can be realized. Kinematics, statics and dynamics performances, on any configuration, of the robot are mainly related to motion/force transmissibility of the mechanism, and therefore, parameters can be designed on a working space center to ensure global performances of the robot, and design workload can be greatly saved.

Description

technical field [0001] The invention relates to a five-degree-of-freedom hybrid robot. In particular, it relates to a parameter integration design method of a five-degree-of-freedom hybrid robot including scale, structure and driver parameters. Background technique [0002] The rapid development of aviation / aerospace, new energy, high-speed railway and other industries has led to an increasing demand for large structural parts. Such parts have the characteristics of large dimensions, complex geometric shapes, and high precision requirements, and their manufacture and maintenance face many challenges. Patent ZL201510401279.9 discloses a five-degree-of-freedom hybrid robot with a multi-axis rotating bracket, which consists of a three-degree-of-freedom parallel mechanism and a two-degree-of-freedom rotor connected in series, wherein the parallel mechanism includes a frame, Three active adjustment devices that can be extended or shortened in the axial direction, a driven adjus...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B25J9/00B25J9/16
CPCB25J9/0072B25J9/1605
Inventor 黄田董成林刘海涛肖聚亮梅江平牛文铁
Owner TIANJIN UNIV
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