( 1 ) the nuclear industry : nuclear waste storage tanks for visual inspection, thickness measurement and weld inspection , etc. ;
       ( 2 ) petrochemical enterprises : the inner and outer wall of the vertical metal cans or spherical tank inspection or sand-blasting , painting corrosion ;
       ( 3 ) the construction industry : a giant painting walls, installing tile , wall cleaning , Cabo , etc. ; ( 4 ) Fire Department: used to deliver relief supplies , rescue work ; ( 5 ) Shipbuilding : for internal and external wall painting of the hull and so on.
       So , the wall-climbing robots used in tall glass curtain wall cleaning of the problem emerged. Cleaning the wall climbing robot also belongs to a mobile service robot , the surface cleaning operations can be carried out in a vertical wall and roof movement. Cleaning climbing robot use will greatly reduce cleaning costs rise buildings and improve the working environment of workers , improve labor productivity , with considerable social, economic significance and broad application prospects . The present study for such robots yet mature , reliable solution .
         Climbing wall glass curtain wall cleaning robot successfully developed , will automate the cleaning operation , a cleaning industry has brought a new revolution . Simultaneously by replacing its peripherals can be adapted to other operating tasks , its main carrier mobile robot system can be wall -depth application to the nuclear industry , petrochemical , fire , shipbuilding and other industries. Therefore, the study curtain wall cleaning robot , especially Adsorption feature will be a great economic and social benefits , and its development prospects are very optimistic.
7  References
[1]    MASATAKA  S,   SHINYA  K,   SHIGEO   H.   Basic   systematic wall climbing robot system[C]//Proceedings of IEEE Int. Conf. On Robotics  and  Automation,  Pasadena,  USA,  May 19-23, 2008:3 034-3 039.
         [2]    SHANG Jianzhong, BRIDGE B, SATTAR T, et al. Development of a  climbing  robot  for  inspection  of  long  weld  lines[J].  Industrial Robot: An International Journal, 2008, 35(3): 217-223.
         [3] KALRA L P, GU J. An autonomous self contained wall climbing robot for non-destructive inspection of above-ground storage tanks[J].Industrial Robot:An International   Journal,2007,34(2):122-127.
         [4]XU Zeliang, MA Peisun. A wall-climbing robot for labelling scale of oil tank's volume[J]. Robotica, 2002, 20(2):209-212.
         [5] KIM S, SPENKO M, TRUJILLO S, et al. Smooth vertical surface climbing  with  directional  adhesion[J].  IEEE  Transactions  on Robotics, 2008, 24(1): 65-74.
[6]ASBECK  A  T,  KIM    S,  CUTKOSKY  M  R,  et  al.  Scaling  hard vertical surfaces with compliant microspine arrays[J]. International Journal of Robotics Research, 2006, 25(12): 1 165-1 179.
        [7] ZHAO Boxin, PESIKA N, ROSENBERG K, et al. Adhesion and friction  force  coupling  of  gecko  setal  arrays:  Implications  for structured adhesive surfaces[J]. Langmuir, 2008, 24(4): 1 517-1 524.
        [8] MICHAEL P M, WILLIAM T, MICHAEL T, et al. Waalbot: an agile  small-scale  wall  climbing  robot  utilizing  pressure  sensitive adhesives[C]//Proceedings of IEEE Int. Conf. on Intelligent Robots and Systems, Beijing, China, October 9-15, 2006: 3 411-3 416. 滑动爬壁机器人英文文献和中文翻译(6):http://www.youerw.com/fanyi/lunwen_16703.html