Wall-Mounted DC Control Power Panel

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Product Description

The control of the offset printing ink doctor blade is a complex ink-transfer process that involves the ink, the printing plate, and the paper. In gravure printing, however, the ink doctor blade operation is relatively straightforward. The blade must be highly wear-resistant to ensure high-quality print results and must be capable of meeting the high-speed requirements of modern gravure presses. An ink doctor blade is a thin blade mounted on the printing press that scrapes excess ink from the surface of the cylinder; it comes in both metal and non-metal varieties. Throughout each printing cycle, the ink doctor blade plays a critical role in removing ink from non-image areas.
Standard blades feature perfectly uniform blade thickness. Throughout the squeegee’s service life, the contact area with the doctor roll remains consistent, ensuring completely uniform tone. The blade’s polished finish enables rapid alignment between the blade and the doctor roll at the start of printing, thereby minimizing waste.
The blade geometry with a larger bevel angle results in reduced blade wear, while the decreased contact area delivers a crisp scraping performance. The extended diagonal design also helps minimize blade breakage. The bevel angle ranges from 4° to 15° and is suitable for short-run, layered printing applications.
The coated blade is made from a carbon steel substrate and features a nickel coating. This coating delivers outstanding corrosion resistance and oxidation resistance, making it ideally suited for printing with corrosive inks and varnishes. During operation, the coating also helps to compensate for minor damage to the doctor blade edge caused by impurities in the ink, thereby reducing color variation and the formation of streaks. The coated doctor blade is particularly well suited for coating applications.
When blade angle adjustment is difficult, new blades can be used on gravure printing presses. The sharp blades provide elastic tension while maintaining a high contact angle. This design ensures stable blade pressure and maintains the correct contact angle. Reducing printing pressure extends the service life of the cylinders and minimizes streaking.
With advances in science and technology, research on trapezoidal doctor blades for printing has shown that, owing to their constant contact area with the impression cylinder from end to end, they deliver consistent print quality, leading to their increasing adoption by printing manufacturers. Today, the vast majority of doctor blades on the market are trapezoidal.

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The basic operating principle of the system is as follows:


1. When the AC input is normal 
When the AC input to the system is normal, the two AC inputs are selected by the AC switching control circuit, and one of them is routed through the AC distribution unit to supply power to each charging module. The charging modules convert the three-phase AC into 220 V or 110 V DC, which is then isolated by isolation diodes before being delivered as output—providing power for battery charging on one hand and supplying the load with its normal operating current on the other. 
The monitoring subsystem adopts a distributed architecture to monitor and control the system. Operating parameters of the charging cabinets and feeder cabinets, as well as those of the charging modules, are acquired and processed separately by the power distribution monitoring circuit and the module monitoring circuit, respectively. The processed data are then transmitted via serial communication ports to the monitoring module, which performs unified processing and displays the results on an LCD screen. In addition, the system can be configured and controlled through human–machine interface operations; remote monitoring can also be integrated as needed. Furthermore, the monitoring module provides equalization/float charging control and current-limiting control for each charging module, thereby ensuring proper battery charging and extending battery life. 2. When AC input power is lost or abnormal 
When the AC input power is lost or experiences a fault, the charging module shuts down and the battery supplies power to the load. The monitoring module continuously monitors the battery voltage and discharge duration; when the battery discharge reaches the preset undervoltage threshold, the monitoring module triggers an alarm. Once the AC input returns to normal, the charging module resumes charging the battery. This illustrates the energy flow during system operation.

 

 

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