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Industrial electric push rod has a wide range of applications in industrial scenarios
Industrial electric push rod has a wide range of application prospects in industrial scenarios, which can help enterprises improve production efficiency, reduce costs, improve product quality, and also provide a safer, cleaner and environmentally friendly working environment.
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2024
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Installation and maintenance of the ventilation motor is very simple
During use, avoid putting foreign matter into the vent, so as not to affect the normal operation of the ventilation motor. If the ventilation motor has problems such as abnormal noise or reduced airflow, it should be repaired or replaced in time.
Hub drive has a simpler and lighter design
Industrial electric push rod is widely used in sweeper. Through the electric push rod installed on the sweeper, the automatic operation of the sweeper can be realized, and the cleaning efficiency and quality can be improved. The electric push rod can automatically move according to the preset path and speed, covering a wider area and sweeping the ground more evenly.
Special reducer has an important function and role
As an important part of mechanical equipment, special reducer has important functions and functions. Through reasonable selection and use, the efficiency and performance of mechanical equipment can be effectively improved, the service life of equipment can be extended, and the smooth progress of production can be guaranteed. Therefore, when selecting and using a special reducer, it is necessary to pay attention to the relevant technical parameters and performance indicators to ensure that it can meet actual needs and has good stability and reliability.
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What are the special requirements for explosion-proof motors during maintenance?
1. Explosion proof motors shall not be disassembled at will; During disassembly and maintenance, the explosion-proof surface of the component cannot be used as a fulcrum for the pry bar, and it is not allowed to strike or impact the explosion-proof surface. 2. When disassembling the motor, the fan cover and fan should be removed first, and then the bolts of the end cover and bearing cover should be disassembled with a sleeve wrench. Then, a round wood or copper rod should be used to impact the shaft extension along the axial direction to separate the end cover and the machine base, and finally the rotor should be removed. Dismantle the parts, place the explosion-proof surface facing upwards, and cover it with rubber or cloth pads. Be careful not to lose the fastening bolts, spring pads, etc. 3. When dipping and assembling, the insulation paint or dirt attached to the explosion-proof surface should be cleaned thoroughly. Hard objects such as iron sheets should not be used to scratch, but uneven areas can be ground with oilstone. 4. If the explosion-proof surface is damaged, lead tin solder HISnPb58-2 must be used, with a flux of 30% concentrated hydrochloric acid (for steel parts) or tin zinc solder containing 58-60% tin. The flux should be ammonium chloride 30%, zinc chloride 70%, and a mixed solution of water 100-150% (for cast iron parts) for welding repair. The bonding between the solder and the part should be firm, and the protruding part should be ground flat to achieve the specified smoothness. 5. To prevent rust on the explosion-proof surface, oil or 204-1 displacement rust proof oil should be applied on the explosion-proof surface, but paint is not allowed.
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What are the key quality points for hydraulic testing of explosion-proof motors?
The components that make up the motor casing must undergo a hydrostatic test after precision machining, and the test result must be maintained for 1 minute. The test result is considered qualified if there is discontinuous dripping (1 drop of water every 10 seconds is considered discontinuous dripping). When no reference pressure measurement is conducted, the test pressure is 1 MPa for Class I, IIA, and IIB motors; The pressure of the IIC motor is 1.5MPa. When conducting a hydrostatic test, the following points should be noted: When conducting a hydrostatic test, the components should be handled with care and the explosion-proof surface should be protected to prevent collision. After the hydrostatic test, the internal water and foreign objects of the components must be cleaned to prevent rusting. After the components are dried, the mating surfaces and threaded surfaces of the bolts and screw holes must be coated with anti rust oil before assembly. The water pressure test site must have protective measures to prevent the casting from shattering or injuring people during the test. During the storage and stacking process of components, hard cardboard or thin rubber sheets must be placed between layers to prevent collision.
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What is the working principle of a three-phase asynchronous motor?
(1) Generation of rotor induced current When the stator winding of an electric motor is supplied with three-phase symmetrical alternating current, a rotating magnetic field rotating at a speed of ns is generated between the stator and rotor. Since the rotor is initially stationary, the rotor conductor will be cut by the rotating magnetic field. According to the principle of relative motion, we can also consider the magnetic field as stationary, while the rotor conductor rotates relative to the magnetic field, cutting the magnetic field lines and generating induced electromotive force. As the two ends of the rotor conductor have been short circuited by a short-circuit ring, the conductor has formed a closed circuit, so induced current is also generated in the rotor conductor. (2) Generation of rotor electromagnetic torque The rotor conductor that generates induced current is called an electrified conductor. The electrified conductor is subjected to electromagnetic force in a magnetic field, generating electromagnetic torque to drive the rotor to rotate. Moreover, we can also determine the direction of rotation of the rotor conductor based on the left-hand rule, which is the same as the direction of the rotating magnetic field, but operates at a speed slightly lower than the rotational speed of the rotating magnetic field. Due to the fact that the speed n of this type of motor is always lower than the speed ns of the rotating magnetic field, it is called an asynchronous motor. Also, because the rotor current of this type of motor is generated by electromagnetic induction, it is also called an induction motor.
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What causes the motor winding to ground?
(1) Asynchronous motors are overloaded for a long time, causing friction between the stator and rotor (sweeping the bore). (2) The insulation of the winding is affected by moisture, which reduces the insulation performance and leads to grounding (commonly known as "shell collision") faults. (3) When replacing the stator winding, the insulation slot is not properly padded or damaged. (4) The winding end is too long and collides with the end cover
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