The principle of the reactive power compensating device to windings rotor induction motor is described and mathematical model in d,q,0 reference frame is set up.
阐述了绕线式异步电机的无功补偿原理;建立了d,q,0坐标系的数学模型。
If the winding in the 32 kW generator in the passenger car is burned,it can be repaired by rewinding.
32kW 客车发电机绕组烧损后,经过重新绕线是可以修复的。
The dissertation introduces you a kind of intellectualized machine, which can be used to those precise winding for some loops of different standard such as inductance loop, mutual inductance apparatus, round transformer etc.
本文介绍的是一种能自动给某些电感线圈、互感器、环形变压器等不同规格的线圈进行精确绕线的智能机器,其设计与开发涉及到单片机的应用领域、电机的使用方面、红外线与霍尔器件的检测应用、液晶显示与键控的人机对话平台。
For the single way filament winding of a cone structure , the corresponding mathematics model and winding pattern for four axes winding machine were derived by using space analytic geometry.
本文对锥体结构的单向纤维缠绕,应用空间解析几何的知识建立了相应的数学模型,并建立了在相应于四轴缠绕机上的缠绕线型,同时利用VB6。
A computer simulation system of filament winding process based on the optimal design is developed to verify the correctness and practicability of the winding pattern.
基于微分几何理论,提出了用于复合材料环形压力容器成型的纤维缠绕线型,分析了芯模和吐丝嘴的缠绕速比,给出了缠绕参数优化设计方法。
In this paper, the single-chip microcomputer control system for the fully-automatic wire winder is introduced, including the hardware and software design.
介绍了一种全自动绕线机的单片机控制系统,主要对绕线机的硬件和软件两方面的设计进行了研究。
Based on the introduction of technical process and criteria for an automatic double-fly-fork winder (ADW), the hardware and software of control system are designed in this paper.
本文在介绍全自动双飞叉嵌线式转子绕线机工艺流程和技术指标的基础上,设计了绕线机的控制系统硬件结构和控制系统软件程序。
The paper presents the design of a kind of winder controlled by 8098single chip microcomputer.It mainly describes its principles,hardware and software.
介绍了一种采用8098单片机控制和模块化结构的智能绕线机,并阐述了其软、硬件的设计及原理,该系统性能稳定、操作简便,能适应各种绕组,可大幅度提高生产效率和产品质
With the improving of winding quality of mechanical and electrical products , winders controlled by PLC have not been satisfacted with the mechanical and electrical prouducts needs .
随着机电产品对绕组质量要求的提高,原有的PLC控制系统的绕线机已很难满足不断发展的机电产品的要求。