The workshop vacuuming equipment is far ahead in terms of environmental protection. As an auxiliary equipment or cleaning equipment commonly used in industry, it can be used for waste collection in industrial production, filtering and purifying air, and purifying the environment. At the same time, it can be used with industrial production equipment to absorb dust and debris generated during the production process, ensuring a clean working environment and the health of employees. For example, workshop vacuuming equipment is widely used in the textile and chemical industries, reducing the risk of certain occupational diseases.
Precision instruments, as the name implies, are particularly strict with precision instruments, such as micrometers, electronic scales, microscopes, etc. If these precision instruments are slightly offset or have impurities and dust during the production process, they will have a great impact. After the instrument is used, it should be avoided in the production process, using industrial dust removal process to clean production, avoid mixing into the instrument, affecting the accuracy of the instrument.
Workshop vacuuming equipment is far ahead in environmental protection
Precision instruments belong to instrument science and technology and are closely related to information science and technology. It mainly studies modern precision instruments and intelligent micro-electromechanical systems, including measurement and control technology, microsystem theory and application, intelligent structural systems and technologies, error theory, signal analysis and data processing. Its development and application are closely related to the development of various fields of modern science and technology, especially in the fields of biology, medicine, materials science, aerospace, environmental protection and national defense.
The workshop vacuuming equipment motor is generally used for series excitation single-phase motors. The motor has the characteristics of high speed, small volume, large starting torque and wide voltage fluctuation range. But because it must use brushes and commutators (commutators), when they are not in good contact, it will generate too much excessive spark, causing the brush or commutator to lose too fast, or even burn out, eventually leading to The motor can not start. When detecting and analyzing the motor fault, first open a piece of dustproof foam to expose the brush mounting bracket on the motor, and then use the multimeter 1 to measure the resistance between the motor winding and the lead, which should be around 8-9. If the measured resistance value is much larger than this value, it means that the motor is in poor contact; if the resistance value is “0”, it means that the motor has an open circuit fault.
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