Five Construction Principles of Lifting Columns

In order to ensure that the entrance and exit safety protection engineering tasks required by the lifting column can not only meet the actual operation needs of managers, but also have a high degree of reliability and practicability, and conform to the development trend of digitalization. During the implementation of the project, manufacturers will System functions, technical routes, equipment selection, etc. strictly follow the following engineering implementation principles.

1. Principles of safety and reliability of lifting columns

Due to the density of vehicles and people at each crossing, and the high traffic during peak hours, it is very important to ensure the safety and reliability of the system. At the beginning of the construction of the lifting column control system, a complete safety strategy and a practical and reliable safety design must be considered. When the equipment is selected, the equipment with high reliability and high stability should be selected as much as possible, and the key equipment should be selected as far as possible. There should be backups to ensure the normal use of the system under any conditions.

2. The advanced and practical principle of lifting column

The functions of traffic guidance and traffic restriction of vehicles entering and leaving the gate, and preventing vehicles from forcibly intruding, etc., the automatic lifting column must pay attention to safety, simple operation, strong practicability, and meet the actual use requirements. In the design, it must be based on a high starting point, high quality, The principle design of high reliability adopts the current international advanced and mature technical equipment (module) and construction technology to ensure the technical level and long-term vitality of the system.

3. The principle of flexibility and scalability of the lifting column

In order to adapt to the continuous development of vehicle management, long-term overall planning should be made in the design of the automatic security bollards system, and some equipment should be implemented in stages to consider expansion and reservation. The design of each system should fully consider the sustainable development capability of the lifting column control system. Flexible, reliable and convenient capacity expansion and upgrade performance, you can flexibly increase or decrease or update each subsystem for linkage, ensuring that the front-end system can be easily expanded and increased in the future, and the front-end system can meet the needs of overall relocation after the door position changes.

4. The principle of ease of use and easy maintenance of the lifting column

The design of each system should consider strong manageability. The equipment of the front-end field equipment system can be managed and controlled in the computer room of the management center to ensure the efficient, orderly and reliable performance of the system's management functions. The front-end products and system software of the system are easy to operate and convenient, so that the management personnel of the security department can master the operation essentials of the system through simple training and complete the duty tasks independently.

Lifting column systems should be modular in design for ease of installation, configuration, maintenance and use. At the same time, the operation of the system can really work when the power is turned on, and there is no need to use too many special maintenance tools during the maintenance process. In the event of unexpected problems, the system can ensure data backup and rapid recovery.

5. Principles of environmental protection and comfort of lifting columns

Each post or duty room should be able to provide a suitable working environment for the staff, keep the indoor air fresh, low noise, temperature, humidity and electromagnetic environment must meet the national standards. The design of fully automatic lifting road piles should have environmental protection awareness and methods, and should adopt green environmental protection materials and advanced construction technology to reduce energy consumption and long-term operating costs.