In non-fixed locations such as exhibition centers, temporary warehouses, construction sites, and large-scale event venues, 

the control of environmental humidity often presents unique challenges. Traditional dehumidification equipment is typically 

fixed and difficult to adapt to the frequent changes in space functions, the need for rapid relocation of equipment, or the 

temporary setup of facilities. Therefore, a customized dehumidification system that integrates modular structure, mobile 

design, and rapid interface technology has emerged, providing a highly flexible, efficient, and reliable humidity management 

solution for dynamic application scenarios. 

I. Modular Structure: Achieving On-demand Configuration and Rapid Maintenance

The core of modular design lies in decomposing each functional unit of the dehumidification system into independent and 

interchangeable standard modules. Common modules include the dehumidification main unit, air circulation unit, filtration 

unit, control unit, and drainage unit, etc. Each module has standardized physical interfaces and communication protocols, 

supporting plug-and-play functionality.

• Flexible Configuration: Users can freely combine different capacity and function modules according to the size of the

  on-site space, humidity load, and air cleanliness requirements. For example, in a high-dust construction site, the filtration

  module can be strengthened, while in a large exhibition hall, multiple dehumidification main units can be connected in

  parallel to increase the total dehumidification capacity.

• Fast Maintenance and Upgrade: If a module fails, it can be quickly disassembled and replaced with a spare module,

  significantly reducing downtime. During technological updates, specific module replacements can be used to enhance

  system performance and extend the overall system's lifespan. 

II. Mobile Design: Ensuring Equipment Mobility and Environmental Adaptability

The mobility design aims to enable the dehumidification system to be easily and safely moved along with the shift of the usage site.

• Integrated mobile platform: The entire system or major modules can be integrated onto a mobile base equipped with

  heavy-duty casters, shock-absorbing devices, and traction structures. Some designs also consider adapting to various

  handling methods through forklift slots or lifting points.

• Environmental robustness: For complex environments such as construction sites, the equipment shell must have the

  ability to resist impact, dust, and moisture, and the internal components should be reinforced to ensure stable operation

  during transportation and bumpy conditions.

• Diversified energy supply: To adapt to the power supply conditions of temporary sites, mobile dehumidification systems

  are often designed to be compatible with multiple power supply systems and can be optionally equipped with integrated

  generator sets or battery modules to achieve off-grid operation. 

III. Rapid Interface Technology: Simplifying Deployment and System Integration

Rapid interfaces are crucial for connecting various modules and linking the system with on-site facilities. Their design 

directly affects the deployment speed and reliability.

• Air duct rapid connectors: Utilizing snap-fit, magnetic sealing, or flange fastening designs, the connection of air ducts

  can be completed within minutes without the need for specialized tools, ensuring airtightness.

• Power and signal integrated interfaces: Developing multi-pin waterproof composite interfaces to achieve single-point

  connection for power transmission, control signals, and data communication, reducing wiring errors and time.

• Drainage system rapid connection: Equipped with flexible drainage pipes and quick-connect valves, it can be quickly

  connected to on-site drainage outlets or collection containers. Some systems are integrated with built-in water storage

  tanks and water level alarms, providing greater flexibility. 

IV. Integrated Intelligent Control and Remote Management

The flexible deployed dehumidification system usually incorporates an intelligent control system, serving as its "central nervous system". 

• Adaptive operation: Real-time monitoring of environmental temperature and humidity through sensor networks, automatic

  adjustment of operation mode and output capacity, achieving efficient energy conservation.

• Centralized monitoring and remote operation: Supports centralized networking management of multiple devices via wireless

  networks. Maintenance personnel can remotely view status, adjust parameters, and receive fault warnings, significantly

  reducing the need for on-site inspections. 

Conclusion

For scenarios involving temporary facilities and variable demands, the customized dehumidification system design based on 

modularization, mobility, and rapid interface technology has successfully broken through the limitations of traditional fixed 

equipment. It not only enables rapid deployment, migration, and reconfiguration of the equipment, reducing the overall operating 

costs, but also enhances the accuracy and reliability of environmental control through intelligent management. As technology 

continues to evolve, such flexible deployment systems will play a crucial role in more dynamic environments and become an 

important infrastructure for ensuring the environment of modern temporary spaces. 

Article Summary: This article systematically elaborates on the key design concepts for custom dehumidification systems specifically 

designed for temporary facilities or those requiring frequent scene adjustments. It focuses on analyzing how the modular structure 

enables on-demand configuration of functions and convenient maintenance, how the mobile design ensures the ease of equipment 

relocation and environmental adaptability, and how the rapid interface technology significantly simplifies the on-site deployment 

process. The comprehensive application of these technologies has significantly enhanced the deployment flexibility and operational 

efficiency of dehumidification equipment in dynamic scenarios such as exhibitions and construction sites.