The pressure distribution in the first working chambers of an internal-meshing rotary compressor is analyzed and the calculation method is obtained to acquire the pressure distribution of other working chambers,and the forces acted on inner and outer gears are studied by the pressure distribution.
首先分析了内啮合转子压缩机第一个工作腔内压力分布情况,得到了其他各腔压力分布的计算方法,然后根据压力的分布,研究了内外转子的受力情况,得到了内外转子上所承受的气体力和力矩随转角的变化关系,并和其他旋转压缩机进行了对比。
The relationship between the volume of working chambers and rotating angles is the basis to do the thermodynamic calculation for the internal-meshing rotary compressor.
内啮合转子压缩机工作腔容积和转角变化的关系是进行压缩机热力计算的基础,目前还缺乏相应的计算公式。
At last,the proposed method was applied in the compressor rotor vibration test system,the validity was proved.
详细论述了产品设计规划各阶段的决策模型及具体的规划方法,并以某压缩机转子振动实验台为对象,进行了实例研究,初步建立了该多层次设计规划的理论框架。
Taking Screw compressor's rotor (QT600 3) as object , the influences that kinds and contents of complex agents and stabilizers, electroless plating way, and post treatment on P content, morphology, anti corrosion behavior of Ni P alloy coating are studied on the base of experiments.
以材料为QT60 0 3的螺杆压缩机转子为对象 ,在实验的基础上 ,分析化学镀Ni P合金过程中 ,络合剂、稳定剂的种类、含量 ,施镀方式及后处理等对镀层耐蚀性、含磷量、表面形貌等的影响规律。
Compared with the traditional rolling piston compressor,the new rolling piston compressor with a pinned blade has some advantages,such as compacted structure, less frictional power consumption and radial leakage.
新型叶片铰接滚动转子压缩机与传统滚动转子压缩机相比,具有结构更紧凑、摩擦功耗少、径向泄漏少等优点。
The structural characteristics of a new rolling piston compressor with a pinned blade are presented.
介绍了新型叶片铰接滚动转子压缩机的结构特点,与传统滚动转子压缩机相比,具有摩擦功耗少,径向泄漏少等优点,具有相当的优势和发展前景。
A new rolling piston compressor with a pinned blade is presented and its structure characteristics is discussed in comparison with the traditional rolling piston compressor.
提出了一种叶片铰接滚动转子压缩机结构型式 ,并通过与传统结构型式的滚动转子压缩机进行对比 ,分析了这种压缩机的结构特点 ,随后阐述了其工作原理。
By using micro electromechanical system(MEMS) technology,a miniature vapor compression heat pump prototype is developed based on the optimized design of micro Wankel compressor without air outlet valve.
利用微电子机械系统技术,基于无排气阀微型三角转子压缩机的优化设计,研制了微型蒸汽压缩式热泵的样机。
Study on the valve movement of rotary compressor for refrigerator;
冰箱用滚动转子压缩机气阀运动规律研究
Analysis on dynamic performance of rolling piston of rotary compressor for refrigerator;
冰箱用滚动转子压缩机滚动转子动力特性解析
On Pressure-angle chart of rotary compressor for refrigeration;
冰箱用滚动转子压缩机指示图的实验研究
Design and Simulation of CO_2 Two Stage Rolling Piston Compressor
CO_2双级滚动转子压缩机的设计与模拟
LEAKAGE ANALYSIS OF CO_2 TWO STAGE ROLLING PISTON COMPRESSOR
CO_2双级滚动转子压缩机泄漏分析
Research on Mechanism and Application of Noise Reduction of Rotary Piston Compressor;
滚动转子压缩机降噪机理及其应用研究
Experimental Research on No Eccentric Ellipse Rotor Compressor with Single Vane
单滑片无偏心椭圆转子压缩机试验研究
Studying on the Reliability of the Rolling Piston Compressor with a Pinned Blade;
叶片铰接滚动转子压缩机的可靠性研究
Research on Rotor Dynamics Identity and Vibration of Centrifugal Compressor;
离心压缩机转子动力特性与振动分析
Study on the Twin-screw Compressor Rotor Profile Based on NURBS;
基于NURBS的双螺杆压缩机转子型线研究
Analysis and Processing of the Vibration of Turbine Compressor Rotor
透平压缩机转子振动原因分析及处理
Finite element modality analysis on rotor of rotary vane compressor
旋叶式压缩机转子的有限元模态分析
Modeling and Modal Analysis of Rotor of the Rolling Piston Type Rotary Compressor
转子式压缩机的转子有限元建模及模态分析
Applications of Rotor Dynamics Analysis in High Pressure Centrifugal Compressors
转子动力学分析在高压离心式压缩机中的应用
Critical Speed Calculation of Rotor-Bearing System of Centrifugal Compressor;
离心式压缩机转子—轴承系统临界转速计算
Investigation on the Working Properties of a Sliding Vane Compressor with the Pinned Rotary Cylinder Driving the Rolling Piston;
转缸驱动转子滑片压缩机工作特性研究
The numerical algorithm of the exposed frontal area of screw compressor rotors
螺杆式压缩机转子螺齿压缩侧齿槽面积的数值计算方法
two-stage rotary air compressor
二级旋转式空气压缩机
multi-vane rotary compressor
多滑片回转式压缩机
Mathematical Modeling of Rotary Compressors
回转压缩机数学模型
Investigation of Refrigerant Leakage of Rolling Piston Compressors Used in Air Conditioning?
空调用滚动转子式压缩机内制冷剂泄漏的研究
本网站所收集内容来自网友分享仅供参考,实际请以各学校实际公布信息为主!内容侵权及错误投诉:1553292129@qq.com
CopyRight © 2020-2024 优校网[www.youxiaow.com]版权所有 All Rights Reserved. ICP备案号:浙ICP备2024058711号