中央空调风管清洗机器人关键技术的研究
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摘要
随着社会经济的发展,人们的身心健康也越来越受到重视。而污染的中央空调日益成为危及人们身心的根源。因此,中央空调尤其是中央空调风管的检测与清洗越来越受到社会的重视。在国外,中央空调风管清洗机器人的研究与应用已经发展了相当长的一段时间,而且技术日趋成熟,然而国内则刚刚起步。本论文对中央空调风管清洗机器人的关键技术进行研究,就是为其早日实现批量化、国产化生产和应用做出一定贡献。
论文所研究的风管清洗机器人正是应用于中央空调风管的检测和清洗。风管清洗机器人从结构上可分为机械系统和控制系统两大部分。机械系统主要包括移动小车、清洗装置和视觉及超声波避障系统;而控制系统主要包括车载控制系统和控制箱两部分。论文重点对以下方面进行了研究和探讨:
1.清洗机器人系统的总体规划,系统的具体参数要求、系统组成、主要功能、清洗方案以及清洗的要求和清洗质量的评价标准等;
2.移动小车车体的移动方案、驱动方式、驱动装置及移动小车的越障能力、移动小车在风管内转弯时的通过性和最小转弯半径等;
3.清洗装置中清洗臂举升机构和清洗刷的优化设计,清洗臂作业空间和清洗力分析等;
4.清洗机器人视觉系统的设计,图象处理、特征提取原理及算法,超声波避障系统的设计等;
5.清洗机器人车载控制系统的硬件选用和软件设计,驱动电机和CCD摄像头控制电机的调速、位置伺服控制等;
6.机器人控制箱的整体设计,控制箱硬件的选用,控制任务的划分与实现、通讯协议的指定和通讯模块等问题;
最后对本课题研究存在的不足以及将来的改进方向进行了分析说明。
People pay more and more attention to their health, along with the developmentof economy. At the same time, contaminative central air-conditioning is becoming athreat against people's health. The importance of inspecting and cleaning the centralair-conditioning is emphasized more than ever by the society, especially for theair-duct. The research and application of air-duct robot of central air-conditioninghas been undertaken in other countries for quite a long time, and the technique isgetting well-developed gradually. However, it is still on the start in our country. Thispaper studies the key tcchnology for the central air-conditioning dust cleaning robotin order to make some contribution to the mass and dometic prodution andapplication of it.
The air-duct cleaning robot we developed is applicable in the inspection andcleaning for the air-duct. The air-duct cleaning robot includes two parts: mechanicalsystem and control system. The mechanical system mainly contains a movingvehicle, cleaning equipment, vision monitor system and ultrasonic avoiding barriersystem while the control system contains the car-counted control system and thecontrol cabinet. This paper mainly explores and discusses the aspects as following:
1. Systematic scheme, detailed parameter demand, composition, main function,plan and demand for cleaning and cleaning quality standard of the cleaning robotsystem;
2. Moving scheme, driving style, driving equipments, obstacle capability of themoving vehicle and the capability of turning in the curved duct and minimumturning radius of the moving vehicle;
3. Optimal design for the cleaning arm's lifting mechanism and the cleaningbrush equipment, analysis about working space of the cleaning arm and cleaning force of the cleaning brush;
4. Vision system design for the cleaning robot, picture handling, theorem andalgorithm of feature and design of the ultrasonic avoiding barrier system;
5. Selection of hardware and design of software of the cleaning robotcar-counted control system, adjusting speed and position servo control of the drivingmotor and CCD camera controlling motor;
6. Overall structure design of the cleaning robot control cabinet and the selectionof control cabinet's hardware, division and realization of the control task, designatedof the communication protocol and communication module;
Finally, this thesis summarizes the deficiencies of this topic and extracts someconstructive advices for the further improvement.
论文所研究的风管清洗机器人正是应用于中央空调风管的检测和清洗。风管清洗机器人从结构上可分为机械系统和控制系统两大部分。机械系统主要包括移动小车、清洗装置和视觉及超声波避障系统;而控制系统主要包括车载控制系统和控制箱两部分。论文重点对以下方面进行了研究和探讨:
1.清洗机器人系统的总体规划,系统的具体参数要求、系统组成、主要功能、清洗方案以及清洗的要求和清洗质量的评价标准等;
2.移动小车车体的移动方案、驱动方式、驱动装置及移动小车的越障能力、移动小车在风管内转弯时的通过性和最小转弯半径等;
3.清洗装置中清洗臂举升机构和清洗刷的优化设计,清洗臂作业空间和清洗力分析等;
4.清洗机器人视觉系统的设计,图象处理、特征提取原理及算法,超声波避障系统的设计等;
5.清洗机器人车载控制系统的硬件选用和软件设计,驱动电机和CCD摄像头控制电机的调速、位置伺服控制等;
6.机器人控制箱的整体设计,控制箱硬件的选用,控制任务的划分与实现、通讯协议的指定和通讯模块等问题;
最后对本课题研究存在的不足以及将来的改进方向进行了分析说明。
People pay more and more attention to their health, along with the developmentof economy. At the same time, contaminative central air-conditioning is becoming athreat against people's health. The importance of inspecting and cleaning the centralair-conditioning is emphasized more than ever by the society, especially for theair-duct. The research and application of air-duct robot of central air-conditioninghas been undertaken in other countries for quite a long time, and the technique isgetting well-developed gradually. However, it is still on the start in our country. Thispaper studies the key tcchnology for the central air-conditioning dust cleaning robotin order to make some contribution to the mass and dometic prodution andapplication of it.
The air-duct cleaning robot we developed is applicable in the inspection andcleaning for the air-duct. The air-duct cleaning robot includes two parts: mechanicalsystem and control system. The mechanical system mainly contains a movingvehicle, cleaning equipment, vision monitor system and ultrasonic avoiding barriersystem while the control system contains the car-counted control system and thecontrol cabinet. This paper mainly explores and discusses the aspects as following:
1. Systematic scheme, detailed parameter demand, composition, main function,plan and demand for cleaning and cleaning quality standard of the cleaning robotsystem;
2. Moving scheme, driving style, driving equipments, obstacle capability of themoving vehicle and the capability of turning in the curved duct and minimumturning radius of the moving vehicle;
3. Optimal design for the cleaning arm's lifting mechanism and the cleaningbrush equipment, analysis about working space of the cleaning arm and cleaning force of the cleaning brush;
4. Vision system design for the cleaning robot, picture handling, theorem andalgorithm of feature and design of the ultrasonic avoiding barrier system;
5. Selection of hardware and design of software of the cleaning robotcar-counted control system, adjusting speed and position servo control of the drivingmotor and CCD camera controlling motor;
6. Overall structure design of the cleaning robot control cabinet and the selectionof control cabinet's hardware, division and realization of the control task, designatedof the communication protocol and communication module;
Finally, this thesis summarizes the deficiencies of this topic and extracts someconstructive advices for the further improvement.
引文
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[3] 互联网资料,http://www.epecn.com/qxjqr.html
[4] GB/T 18204.1,公共场所空气中细菌总数检验方法,清洗世界,2003,18(9):25~34
[5] 李先瑞,空调通风管道的管理,节能与环保,2003,6:36~39
[6] 于航,空调风管清扫业及相关研究现状,暖通空调,2003,33(4):48~50
[7] 卫生部,卫生部关于2004年全国公共场所集中空调通风系统卫生抽检工作的通报,卫生部公报,2004:55~56.
[8] GB/T 17095-1997,室内空气中可吸入颗粒物卫生标准,企业标准化,1997,(9):25~34
[9] 建设部,科技部,卫生部,关于做好建筑空调通风系统预防非典型肺炎工作的紧急通知,中国建设信息,2003,(11):19~21
[10] 李磊,叶涛,谭民,移动机器人技术研究现状与未来,机器人,2002,24(5):30~33
[11] 蔡自兴,机器人学,北京:清华大学出版社,2000:1~2
[12] 马宏,白素平,闫钰锋,管道机器人系统的研究,仪器仪表学报,2005,26(8):286~287
[13] 互联网资料,http://www.everstvit.com
[14] 刘坤,魏华,SARS流行期间空调及通风系统的管理,中华医院感染学杂志,2003,13(11):1067~1069
[15] 崔建波,高丽萍,集中空调风道清洗现状与前景分析,清洗世界,2004,20(9)21~25
[16] 毛立民,通风管道清洗机器人专利技术研究与应用,清洗世界,2004,20(5):58~60
[17] Y. Kawaguchi, Internal pipe inspection robot, IEEE International Conference and Automation, 1999, vol. 1: 857~862
[18] Web site of Pipetronix Inc., http://www.pipetronix.com
[19] 吴林,世界机器人技术发展的新方向—特种机器人,中国宇航学会机器人学术年会论文集,1990:1~3
[20] 韩晓明,车立新,谢霄鹏等,中央空调管道清扫机器人的设计,机械,2005,32(1)39~41
[21] 谢文彬,杨建国,李蓓智等,管道检测机器人的研制,机械工程师,2005,(1):16~18
[22] 互联网资料,http://www.wzjzw.com/article/view 431.html
[23] 宋章军,通风管道智能清污机器人MDCR-Ⅰ的研制与开发,机器人,2005,2(27):142~146
[24] Myers D, Potential Use of Walking&Climbing Robots in Nuclear Facilities, Nuclear Engineer, 2001, 42(1): 4~8
[25] 甘小明,徐滨士,管道机器人的发展现状,机器人技术与应用,2003,(6):5~10
[26] GB/T19210-2003,空调通风系统清洗规范,中国标准化,2003,(9):66~67
[27] Wakimoto S, Suzumori K, In-Pipe Inspection Micro Robot Adaptable to Changes in Pipe Diameter, Journal of Robotics and Mechatronics, 2003, 15(6): 609~614
[28] 马重芳,吴玉庭,唐志伟,新技术催生空调清洗产业,建设科技,2004,(11):19~21
[29] T. Sasaki, K. Ozawa, Application of Self-propelled Devices to In-Piping Inspection Technology, Robot, Japan, 1986, (51): 98~103
[30] 张海洪,谈示力,臂面自动清洗机器人清洗工艺分析,机电一体化,2001(1):22~26
[31] Ma S, A stabilized local optimization technique for redundant manipulators, Proc of IEEE Int Conf on Robotics and Automation, 1995, 2791~2796
[32] David Vogel, An Autonomous Pipe Exploration Robot, Department of Mechanical Engineering, University of Florida, 1997, (4): 257~279
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