Construction Machinery Fault Detection Technology and Maintenance Measures
DOI: 10.23977/jemm.2021.060106 | Downloads: 34 | Views: 1501
Author(s)
Zhang Huimin 1
Affiliation(s)
1 Taishan University, Taian, Shandong, 271000, China
Corresponding Author
Zhang HuiminABSTRACT
At present, construction machinery as an important part of engineering construction, and occupies a decisive position. In the process of operation, all kinds of faults often occur in construction machinery. If we want to avoid these faults, we must correctly use the machinery, find out the faults through a variety of detection technologies, and take effective maintenance measures to eliminate the hidden trouble in time, reduce the probability of failure, and ensure the improvement of the operation efficiency of construction machinery. Construction machinery is widely used in infrastructure projects. In order to give full play to its performance in operation, the role of fault detection and maintenance of construction machinery is particularly important. In order to ensure the quality of engineering construction in China, it is necessary to avoid engineering machinery failures as much as possible. Therefore, relevant departments must do a good job in troubleshooting and maintenance of engineering machinery, clarify the impact of mechanical failures on mechanical application, and propose corresponding solutions, thus greatly improving the application effect of machinery and the production efficiency of enterprises.
KEYWORDS
Construction machinery, Fault detection technology, Maintenance measuresCITE THIS PAPER
Zhang Huimin. Construction Machinery Fault Detection Technology and Maintenance Measures. Journal of Engineering Mechanics and Machinery (2021) Vol. 6: 37-41. DOI: http://dx.doi.org/10.23977/jemm.2021.060106
REFERENCES
[1] Xing Huiming. Construction machinery fault detection technology and maintenance measures[J]. Science Technology and Innovation, 2019, No.139(19):142-143.
[2] Xu Wei. Talking about the management and maintenance measures of construction machinery and equipment[J]. Internal Combustion Engine and Parts, 2020, No.309(09):164-165.
[3] Liu Jianbin. Failure analysis and maintenance countermeasures of construction machinery[J]. Science and Technology Innovation Herald, 2018, 015(005): 42-43.
[4] Xu Yali. Fault diagnosis and maintenance measures of hydraulic transmission system[J]. Technology and Market, 2020, v.27; No.318(06):112+114.
[5] Sun Shuangyin. Fault diagnosis and maintenance of hydraulic transmission system of construction machinery[J]. Equipment Management and Maintenance, 2018, 000(014): 54-56.
[6] Xing Huiming. Construction machinery fault detection technology and maintenance measures[J]. Microcomputer Information, 2019, 000(019):136-137.
[7] Xia Qiang. Failure detection and maintenance of construction machinery [J]. Equipment management and maintenance, 2017, 000(019): 102-103.
[8] Shen Chunxia. Overview and future trends of hydraulic fault monitoring and diagnosis technology for construction machinery [J]. Construction Machinery and Maintenance, 2017, 000(003): 28-29.
Downloads: | 7704 |
---|---|
Visits: | 237188 |
Sponsors, Associates, and Links
-
Cybernetics and Mechatronics
-
Digital Manufacturing and Process Management
-
Ultra-Precision Machining Process
-
Journal of Robotics and Biomimetics
-
Prognostics, Diagnostics and Health Management
-
Micro-Electro-Mechanical Systems
-
Journal of Precision Instrument and Machinery
-
Engineering and Solid Mechanics
-
Fracture and Damage Mechanics
-
Frontiers in Tribology
-
Fluid and Power Machinery
-
Chemical Process Equipment
-
Journal of Assembly and Manufacturing
-
Mechanical Vibration and Noise