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Cut to length production line supplier factory from China: What causes the transformer to make abnormal noise? Impurities or gases in the oil: Impurities or gases in the oil inside the transformer may cause unstable oil flow or air oscillations, resulting in abnormal noise. Mechanical failure: Mechanical failures inside the transformer, such as equipment failures such as transformer cooling fans or pumps, may cause abnormal sounds. Loose or leaky pipes: Loose or leaky pipes inside the transformer can cause air oscillations or unstable gas flow, which can produce unusual noises. External environmental factors: Factors such as excessive temperature of the transformer operating environment or noise interference may also cause abnormal sounds. Therefore, if the transformer makes abnormal noise, it is necessary to check and repair the transformer in time. The specific maintenance method needs to be selected according to the cause of the abnormal sound and the specific situation in order to restore the normal operation and stability of the transformer. At the same time, during the installation, operation and maintenance of the transformer, attention should be paid to environmental temperature, humidity, noise and other factors to avoid adverse effects on the transformer. See additional details on cut to length line manufacturers.
Rising temperature: The capacity of the transformer will decrease as the temperature rises. Therefore, it is necessary to consider the appropriate heat dissipation method and heat dissipation area when designing the transformer to ensure that the temperature rise of the transformer does not exceed the allowable range. Connection method: Different transformer connection methods, such as star, delta, etc., will also affect the capacity of the transformer. For the star connection, the capacity of the transformer can be increased by about 3 times; for the delta connection, the capacity of the transformer is relatively small. Insulation level: The insulation level of the transformer determines the insulation capability and safety performance of the transformer, and also affects the capacity of the transformer. To sum up, the capacity of the transformer is related to factors such as input voltage and output voltage, load nature, temperature rise, connection method and insulation level. When selecting a transformer, it is necessary to comprehensively consider various factors according to the actual situation to ensure the normal operation and stability of the transformer.
The metal laser cutting machine focuses the laser emitted from the laser into a laser beam with high power density through the optical path system. The laser beam irradiates the surface of the workpiece to make the workpiece reach the melting point or boiling point. At the same time, the high-pressure gas coaxial with the beam blows away the molten or gasified metal. With the movement of the relative position between the beam and the workpiece, the material will finally form a slit, so as to achieve the purpose of cutting. Laser cutting process uses invisible light beam to replace the traditional mechanical knife. It has the characteristics of high precision, fast cutting, not limited to the limitation of cutting pattern, automatic typesetting, material saving, smooth incision and low processing cost. It will gradually improve or replace the traditional metal cutting process equipment.Want to konw more about metal cutting machine, contact us, one of the most professional metal laser cutting machine manufacturers & suppliers in China.
The cooling methods are divided into natural air cooling (AN) and forced air cooling (AF). When air cooled naturally, the transformer can run continuously for a long time under rated capacity. When forced air cooling, transformer output capacity can be increased by 50%. Suitable for intermittent overload operation, or emergency overload operation; Because the load loss and impedance voltage increase greatly during overload, it is in non-economic operation state, so it should not be in continuous overload operation for a long time.Welcome to inquiry price for dry type substation transformer.
The transformer coils are referred to as the primary and secondary windings. When applying AC current to the primary winding of the transformer, the transformer coil creates a pulsing magnetic field. The core of the transformer works to direct the path of the magnetic field between the primary and secondary coils to prevent wasted energy.The machine is a very powerful and versatile machine which can wind a wide range of HV coils for distribution transformers using round and rectangular wires. It is fully automatic with paper strip winding.Winding material lnsulated with an epoxy resin -environmentally friendly.
The company mainly produces 150 model oil-type transformercore shearing equipment below 1 600KVA, 300 model dry type transformer core shearing equipment below 6300KVA, 400 model special transformer core shearing equipment below 12500KVA and 600 model special transformer core shearing equipment below 63000KVA. 800 model extra transformer core shearing equipment, 1000 model extra transformer core shearing equipment, the type 1250 model CRGsilicon steel CNC slitting machine, and the dry type transformer core under 110KV automatic cutting and laminated processing center, oil transformer core automatic cutting robot automatic lamination processing center, reactor cutting center below 35Kv, 220KV high voltage transformer tc. CANWIN hire famous designer in Europe as our senior consultant, and germany Siemens as our strategic partner. The products have formed 5 series and more than 50 specifications.
The cut to length line is a special equipment for the production of transformer core, is our latest generation of cross shear line. This cut to length production line is used for shearing, O punching and V notch of transformer core sheet. The special point of this ctl line is that two O punch and one V notch can work at the same time to produce transformer core pieces with 3, 5, 7 steps in vertical direction and 3, 5, 7 steps in horizontal direction.
The loss in magnetic flux in the transformer must therefore be minimized by providing a suitable mean between the primary and secondary windings. For this purpose, silicon steel magnetic cores are usually used. By using a core type transformer, magnetic losses are reduced and a greater amount of magnetic flux is conveyed between the primary and secondary coils, thereby increasing the transformer’s overall efficiency. Electrical materials play an important role in the field of engineering technology. Various technologies should be realized through certain equipment, and the equipment needs to be made of specific materials. Without corresponding materials, even technologies and products that are feasible in principle cannot be realized. The emergence of new materials can often bring significant technological progress. See extra information on https://www.canwindg.com/
Digital measurement – Digital measurement of transformers or other components can be conducted, and the measurement results can be called and collected from the process layer and station control layer through digital networks, thus monitoring transformers and other equipment.Status visualization – The operation status of transformers can be visualized and observed in the power grid.Smart grid or other related systems can express the status information of transformer self-detection or information interaction.
Insulation level: There are standards for insulation levels. The insulation level of a transformer with a rated high voltage of 35 kV and a rated low voltage of 10 kV is represented as LI200AC85/LI75AC35, where LI200 indicates that the transformer has a high-voltage lightning impulse withstand voltage of 200 kV, a power frequency withstand voltage of 85 kV, and a low-voltage lightning impulse withstand voltage of 75 kV, and a power frequency withstand voltage of 35 kV. The current insulation level of Aux High-Tech Co., Ltd.’s oil-immersed transformer products is LI75AC35, indicating that the transformer has a high-voltage lightning impulse withstand voltage of 75 kV and a power frequency withstand voltage of 35 kV. Because the low voltage is 400 V, it can be ignored.
The consequences of poor power quality, including voltage unbalances, can be far-reaching: Random Equipment Malfunctions: Voltage sags, swells, transients, and harmonics can cause unpredictable equipment malfunctions, leading to unscheduled downtime, reduced productivity, and increased maintenance costs. Data Corruption: Poor power quality can cause errors in data processing equipment, leading to data corruption and loss of valuable information. Loss of Process Control: Voltage unbalances and other power quality issues can disrupt process control systems, affecting the quality of the output and leading to production losses. Regular monitoring is indispensable in identifying and addressing power quality issues promptly. Implementing effective strategies to manage these issues can significantly mitigate their adverse impacts. These might include investing in innovative solutions like those offered by companies such as CANWIN Automatic Equipment Co., Ltd. With their commitment to quality and innovation, such businesses play a crucial role in helping others maintain high power quality and, in turn, achieve optimal performance and longevity of their transformer equipment.