讨论了缠绕张力控制对提高纤维发挥强度的重要性。
The importance of winding tension control to increase the developed fiber strength is discussed.
介绍了纤维缠绕张力微机系统的控制原理及硬件、软件的设计方法。
This paper introduces the control principle of the filament winding tension control system and the design method of the hardware and the software.
缠绕过程中缠绕带的缠绕张力采用温度参数法控制,使其达到预定值。
The temperature parameter of the elements is employed to control the winding tension to respected values.
纤维缠绕张力是复合材料缠绕成型工艺中重要的控制参数,直接影响着缠绕制品的质量。
This paper researches in tension control of filament winding system, which is an important control parameter and affects the quality of winding products directly.
本文从纤维缠绕张力、树脂收缩、热应力、芯模等方面探讨了对纤维缠绕复合材料制品收缩变形的影响。
The effect on shrinkage deformation of fibre winding composites were considered by discussing the winding tensile resin thermo-shrinkage stress and the mandrels.
本文针对多轴纤维缠绕机数控系统,提出了一种集成于运动控制器平台上的纤维缠绕张力控制系统的方案。
A new tension control system integrated into the platform of motion controller is developed in this article for the numerical control system of multi-axes filament winding machine.
本文按圆柱壳理论建立了一套在薄壁圆筒外缠绕复合材料的张力公式。
In this paper a set of tension formulas for composite winding outside thin wall cylinder are established according to theory of cylinder shell.
经实际运行证明,所采用的实时中断技术准确、可靠,能够保证复合材料制品缠绕中纱线张力的精密控制性能。
It has been testified that the real time interrupt technology is exact and reliable, thus ensuring the precise control property of yarn tension in the composite product winding technology.
经过实际缠绕证明,所推导的公式是正确合理的,保证了纱线张力的波动率小于5 %。
The actual winding results show that the formula drawn is proper and reasonable, and the fluctuation rate of the yarn tension is lower than 5%.
张力控制是线状、带状及面状弹性材料缠绕工艺中的一项关键技术,它直接影响到缠绕制品的质量。
Tension control is one of the key techniques of the winding process for linear, strip and area elastic materials, it affects the quality of winded products directly.
主要论述了数控纤维缠绕机张力控制系统的设计原理、基本构成及其实现方法。
The design principle, basic composition and implementing method of tension control system of digital control fiber winding machine are described.
航空电动绞车主要用于极端条件下人员救援或物资运送,为保证安全工作,需加装钢缆缠绕机构张力控制系统。
Aviation electric hoist is mainly used for people rescue and material transfer under extreme conditions. However, a tension control system of wire rope winding machine is necessary for safety purpose.
根据非回转体环向缠绕理论及叶片产品的具体要求,分析缠绕工艺,建立了张力控制系统的数学模型。
Next, according as no - gyrating round fiber winding theory and concrete request of vane, analyzing the winding technics, found the mathematics model of tension control system.
设计了以永磁式直流力矩电动机为执行元件的张力控制系统,它能够实时检测和调整缠绕过程中纤维的张力。
The tension control system using permanent-magnet DC torque motor as executive component is design. It can inspect and adjust tension at real-time during winding.
该系统采用静摩擦施力方式给行进中的缠绕纤维施加和调整张力,在对纤维损伤较小的情况下,实现了缠绕纤维的高张力高精度微机控制。
Adjusting filament tension by static friction during the course of winding, high tension of winding filament is controlled precisely with little wear and tear to it.
由此可见,性能优良的数控缠绕机必须配备精确控制张力的张力控制器。
Therefore, it is of great importance to equip an accurate tension controller on numeric control winding machine.
纤维缠绕中张力的控制是关系到产品质量的关键技术。
The tension control is the key technique in the filament winding process to guarantee the product quality.
讨论了张力控制系统的构成原理,设计了以可编程控制器控制的交流伺服系统,实现该设备的可控非回转体环向缠绕运动;
Next, discussing structuring truth of tension control system, designing that PLC control AC servo-system, achieve may control no- gyrating round fiber winding motion;
文章在实验的基础上,对以磁粉离合器为执行元件的数控纤维缠绕机精密张力控制系统进行了深入的探讨与研究。
The paper studied the tension control system for NC Filament Winding Machine with magnetic particle clutch as the tension actuator based on the tests.
经运行证明,该系统技术先进、合理,提高了纤维缠绕中张力的控制精度。
By operating the technique is advanced and reasonable, thus improves the control precision of tension in filament winding.
增加软管缠绕圈数可以增加弹簧张力。
减小弹簧张力可以通过减少弹簧缠绕圈数来实现。
This can be accomplished by removing wraps of hose from the reel sheave.
减小弹簧张力可以通过减少弹簧缠绕圈数来实现。
This can be accomplished by removing wraps of hose from the reel sheave.
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