The weight-bearing capacity of stainless steel lockers primarily depends on the thickness of the steel plate, structural design, and material. The standard single-person model has a single-layer capacity of 20-40kg and an overall capacity of 100-200kg. Customized models can be upgraded to meet specific requirements.
I. Key Influencing Factors
Sheet thickness: 0.6-0.8mm standard models support 20-30kg per layer; 1.0mm and thicker models support 30-50kg per layer.
Structural Design: Panels with reinforced ribs have a load-bearing capacity 30% higher than standard panels; the cabinet frames with a welded structure offer greater stability than assembled ones.
Material Types: The strength of 304/316 stainless steel materials is similar, with the difference in load-bearing capacity mainly coming from the processing technology rather than the material itself.
II. Load-bearing Reference for Different Scenarios
Dormitory/Office Setting (0.6-0.8mm Sheet Material)
Single-layer partition: 20-25kg, suitable for lightweight items such as clothing, bedding, books, etc.
Overall cabinet: 100-150 kg, avoid placing excessively heavy items in one area.
Warehouse/Factory Scene (0.8-1.0mm Sheet Material)
Single-layer partition: 30-40kg capacity, suitable for heavier items such as work clothes, tools, and protective gear.
Overall cabinet weight: 150-200kg, with some reinforced models reaching up to 250kg.
Customized Heavy-Duty Options (1.2mm and thicker materials):
Single-layer partition: 40-60kg, suitable for heavy storage needs in food factories and medical environments.
Overall cabinet: 200-300kg, please confirm the load-bearing design with the manufacturer in advance.
Section 3: Usage Precautions
Disperse heavy items to avoid concentrating pressure in the center of the partition, preventing it from bending or deforming.
Do not exceed the rated load specified by the manufacturer; long-term overloading can lead to cabinet structure loosening.
The multi-layer cabinet prioritizes placing heavy items on the lower shelves to enhance overall stability.