掘进机行星执行机构端面加工曲面的几何建模

Q3 Engineering
D Dovhal, I Matsiuk
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The generalized model of the planetary executive device is based on an arbitrarily oriented moving working disk which rotates, with a system of working tools positioned on it. Findings. In the work, modelling and geometric analysis are performed of the characteristic forms of surface carriers (processing surfaces) of the trajectories of the working tool installed on the disks of the planetary executive devices of tunnelling machines. The characteristic peculiarities are revealed of the change in the shape of the processing surface when varying the values of the parameters of the executive device and the nature of the impact of each of them on the shape of this surface, taking into account the peculiarities of the interaction of the working tool with the rocks being destructed. Originality. 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引用次数: 0

摘要

目的。在不同的实施方案中,根据行星执行机构的主要参数,确定位于行星执行机构工作盘上的刀具运动所产生的特征曲面形状。这将有助于更准确地确定执行装置的结构和运动参数的合理值,以适应具体的设计方案和操作条件。方法。利用行星执行机构的刀具系统,综合考虑了行星执行机构的两种旋转运动和平移运动的现有方案和理论方案,给出了行星执行机构加工表面时形成的曲面的一般定义。行星执行机构的广义模型是基于任意方向的旋转运动工作盘,并在其上放置一套工作工具。发现。在工作中,对安装在掘进机行星执行装置圆盘上的刀具轨迹的表面载体(加工表面)的特征形式进行了建模和几何分析。考虑到刀具与被破坏岩石相互作用的特点,揭示了在改变执行装置参数值时加工表面形状变化的特征特征,以及它们对该表面形状的影响的性质。创意。对行星执行机构各种设计的工件的众多运动轨迹所形成的表面载体进行几何分析表明,加工表面一般为螺旋圆柱螺旋面的一个截面。简化后,它变成一个环面曲面的截面,具有二阶闭曲线,其形状取决于工作盘的取向角的值。为了识别表面形成的特征特性,考虑到执行装置的工作盘最大程度地加工表面的情况,分别评估了这些参数对刀具轨迹工作部分表面载体形状(加工表面)的影响,以确保结果的通用性。实用价值。本文的研究结果为解决行星执行机构工作工具与被破坏岩石相互作用的工程问题提供了理论基础,其中这种相互作用的几何参数是至关重要的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Geometric modelling of face processing surfaces by planetary executive devices of tunnelling machines
Purpose. To identify characteristic surface forms generated by the movement of a cutting tool located on the working disks of a planetary executive device depending on its main parameters in various implementation schemes. This will contribute to a more accurate determination of rational values for the structural and kinematic parameters of the executive device for specific design schemes and operating conditions. Methodology. A scheme was used to provide a general definition of the surface formed while processing the face with the system of working tools of a planetary executive device, which integrates all the existing and theoretically possible options of a planetary executive device with two rotational motions and a translational one. The generalized model of the planetary executive device is based on an arbitrarily oriented moving working disk which rotates, with a system of working tools positioned on it. Findings. In the work, modelling and geometric analysis are performed of the characteristic forms of surface carriers (processing surfaces) of the trajectories of the working tool installed on the disks of the planetary executive devices of tunnelling machines. The characteristic peculiarities are revealed of the change in the shape of the processing surface when varying the values of the parameters of the executive device and the nature of the impact of each of them on the shape of this surface, taking into account the peculiarities of the interaction of the working tool with the rocks being destructed. Originality. Geometric analysis of surface carriers formed by numerous trajectories of movement of working tools of various designs of the planetary executive device shows that, in general, the processing surface is a section of a helical cylindrical helicoidal surface. When simplified, it turns into a section of a toroidal surface, with a second-order closed curve, whose shape depends on the values of the orientation angles of the working disk. To identify the characteristic peculiarities of the face surface formation, assessment was performed of the impact of each of these parameters separately on the shape of the surface carriers of the working sections of the tool trajectories (processing surfaces), considering the case of maximum processing of the face surface with the working disks of the executive device to ensure the commonality of the results. Practical value. The results of the studies conducted in the work provide the theoretical basis for solving the engineering issues of the interaction of the working tool of planetary executive devices with rocks being destructed, where the geometric parameters of this interaction are of paramount importance.
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来源期刊
CiteScore
1.70
自引率
0.00%
发文量
148
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