With societal advancement and the rapid development of science and technology, we continuously introduce new methods and products in electrical design for pharmaceutical factories.
Keywords: Emergency Lighting Power Supply; Pharmaceutical Factory Application; Electrical Design
0. Introduction
The Lighting Emergency Power Supply (EPS), abbreviated as FPS, utilizes the latest power electronic products and application technologies. It is an intelligent centralized emergency power supply system with a microcontroller system and control chip at its core. The backup operation mode and intelligent detection ensure the reliable operation of the inverter host and battery pack. The unique step-up processing unit effectively identifies phase impacts, avoiding false protection actions during full-load switching and联动 control. Equipped with a standard control feedback interface, the more agile and user-friendly联动 control function allows users to be freed from on-site maintenance and control. The EPS can input single-phase or three-phase power as needed and provides single-phase or three-phase output. Combined with on-site wiring, it can be used in various scenarios requiring emergency, non-emergency, and fire linkage control.
The design of pharmaceutical clean rooms incorporates advanced technology, economic practicality, safety, and reliability, ensuring quality while meeting energy-saving requirements. Therefore, the application and promotion of a new product involve multifaceted considerations. In addition to ensuring quantity, a technical and economic comparison must be made, as shown in Table 1.
Based on the advantages of EPS, we have applied it to practical designs, such as at the Hayaosan Sanjing Pharmaceutical Factory, where EPS was used in the emergency lighting system. The installation is now complete, and the manufacturer has provided positive feedback.
- Ankorri's Selection Scheme for Fire Emergency Lighting and Evacuation Guidance System
1.1 System Overview
The fire emergency lighting and evacuation guidance system is primarily composed of several parts, including emergency lighting controllers, fire emergency lighting centralized power supplies or emergency lighting distribution boxes, and fire emergency lighting fixtures. This system is capable of data exchange and sharing with platforms such as the AcrelEMS corporate microgrid management cloud platform or fire automatic alarm systems.
When used in conjunction with a fire alarm controller, this system provides real-time monitoring and control of the equipment within the system, facilitating daily management and maintenance, and ensuring stable system operation. Based on this, it guarantees that during a fire, the system can accurately change the directional indication of fire emergency signage lights, illuminate emergency lighting, assist people inside the building in choosing evacuation routes, guide them to safe escape directions, and protect their personal safety, alleviating concerns about safety issues for various users.
1.2 Application Scenarios
Fire emergency lighting and evacuation signage systems suitable for various industries including residential, hotel, office buildings, shopping complexes, hospitals, tunnels, rail transit, underground parking, warehouses, and factories.
1.3 System Structure
1.4 System Features
1.4.1 System Main Operation Interface
The toolbar, flat display, layer list, and status bar provide a clear view of the monitoring equipment's operating status, allowing direct navigation to the specific location of any faults based on the information displayed in the status bar.
1.4.2 Lighting Configuration Interface
View all lighting status and quantities.
1.4.3 Information Interface
View historical operations, fault, and event information, and search by date.
1.4.4 Permission Management Interface
The system is primarily composed of emergency start, emergency stop, and manual fire alarm. The emergency start and stop are used to test the normal operation of the equipment's emergency functions, while the manual fire alarm test specifically checks the system's activation at the designated fire point.
2. Conclusion
As science continues to evolve, we can expect even more innovative and superior products to emerge. This necessitates broadening our horizons and embracing new ideas to keep our design work fresh and innovative, ultimately better serving the construction of pharmaceutical enterprises.
Reference
Liu Yingxin, Lei Zhu, Application and Promotion of Fire Emergency Lighting Power in Lighting Design for Pharmaceutical Factory Buildings[J].
Ankorri Enterprise Microgrid Design and Application Handbook, 2022.05 Edition
