摘要汽车空调压缩机运转实验室是检验压缩机性能指标的最重要的实验装置。通过泵课题,要掌握空调压缩机的主要实验手段,特别是制冷工况的控制、压缩机的模拟驱动,以及各热工参数的测量和数据的处理,能够具体指导一个小型汽车空调压缩机的试验台的设计制造。
作为汽车空调系统的核心部件,压缩机质量的好坏直接影响空调系统的性能,决定着在实际运转过程中能否产生预期的制冷效果,汽车空调压缩机出厂前必须做运转试验并达到相关规定指标,因此开发出相应的汽车空调压缩机运转试验台对压缩机的发展有至关重要的作用。21824
本文的主要研究成果包括:
1.通过对数据的分析,能够计算出符合的设计,给出压缩机台架的设计,选择正确的热工传感器。
2.完成台架的绘制以及多功能台面的设计。
3.数据采集以及完成功率、扭矩、转速、效率等的处理计算。
关键词 汽车空调压缩机 试验台 热工参数 运转 毕业论文设计说明书(论文)外文摘要
Title The Design of Automobile Airconditioning Compressor Test Rig
Abstract
Automotive air conditioning compressor is designed to verify the performance of the compressor laboratory indicators of the important experimental device.By pump issue, we should grasp the main experimental means of the air conditioning compressor, Especially the control of the cooling confition 、simulation-driven compressor, And handle various thermal parameters measurement and data,Specific guidance can be a small design and manufacture of automotive air conditioning compressor test rig.
Automotive air conditioning compressor is the core component of the system, its quality directly affects the performance of the air conditioning system, according to the national standard automotive air conditioning compress oroperation test must be done before leaving the factory and meet specified indicators this end,it is necessary to develop the appropriate automotive air conditioning compress or machine running test units.
The main results of this study include:
1、Through the analysis of the data can be calculated in line with the design, given the design of the compressor bench, select the correct thermal sensor.
2、Finish drawing bench and versatile countertop design.
3、Data acquisition and comple the treatment period. of power, torque, speed, and efficiency.
Keywords Automative air conditioning compressor Test-bed
Thermal parameters Operation
目 次
1 绪论 1
1.1 汽车空调压缩机的现状及展望 1
1.2 汽车空调压缩机的性能要求及特点[2] 3
2 试验台试验研究 5
2.1 汽车空调压缩机运转试验台简介 5
2.2 国内外汽车空调压缩机运转试验台现状及发展 5
2.2 试验台设计依据 6
2.3 汽车空调压缩机运转试验台的组成 7
2.3.1 制冷循环系统 7
2.3.2 动力传动系统 13
2.3.3 变频控制系统 13
2.3.4 测控系统 15
3 数据采集系统的设计 17
3.1 概述 17
3.2 数据的采集 17
3.2.1 压力采集 17