Floor Standing Electrical Enclosure
Heavy Duty Floor Standing Electrical Enclosure
Safety protection:
Complies with international standards (such as UL, IEC), providing protection against electric shock, dust, water and electromagnetic shielding.
Special sealing design, suitable for humid, hot or dusty environments.
Flexible configuration:
Customizable internal compartments, cooling fans, cable management system.
Support floor-mounted or wall-mounted variants to save space.
Efficient heat dissipation:
Integrated ventilation holes or air conditioning compatible design to prevent device overheating.
Functional Characteristics
Anti-slip Base Meets NEMA 12 Industrial Protection Level: Anti-slip base ensures stability on uneven surfaces. Meets NEMA 12, protected from dust, drips, non-corrosive liquids, suitable for industry. LSI: "NEMA 12 base", "anti-slip industrial base", "dust and liquid protection". Protects underlying surfaces.
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| MODEL | DIMENSION | MODEL | DIMENSION | |||||||||
| H | W | D | W1 | W2 | H | W | D | W1 | W2 | |||
| PR9D 1810/4 | 1800 | 1000 | 400 | 494 | 494 | PR9D 2012/4 | 2000 | 1200 | 400 | 594 | 594 | |
| PR9D 1810/6 | 1800 | 1000 | 600 | 494 | 494 | PR9D 2012/6 | 2000 | 1200 | 600 | 594 | 594 | |
| PR9D 1810/8 | 1800 | 1000 | 800 | 494 | 494 | PR9D 2012/8 | 2000 | 1200 | 800 | 594 | 594 | |
| PR9D 1812/4 | 1800 | 1200 | 400 | 594 | 594 | PR9D 2010/4 | 2200 | 1000 | 400 | 494 | 494 | |
| PR9D 1812/6 | 1800 | 1200 | 600 | 594 | 594 | PR9D 2010/6 | 2200 | 1000 | 600 | 494 | 494 | |
| PR9D 1812/8 | 1800 | 1200 | 800 | 594 | 594 | PR9D 2010/8 | 2200 | 1000 | 800 | 494 | 494 | |
| PR9D 2010/4 | 2000 | 1000 | 400 | 494 | 494 | PR9D 2012/4 | 2200 | 1200 | 400 | 594 | 594 | |
| PR9D 2010/6 | 2000 | 1000 | 600 | 494 | 494 | PR9D 2012/6 | 2200 | 1200 | 600 | 594 | 594 | |
| PR9D 2010/8 | 2000 | 1000 | 800 | 494 | 494 | PR9D 2012/8 | 2200 | 1200 | 800 | 594 | 594 | |
FAQ:
How to choose a floor-standing enclosure for energy facilities?
Determine the protection level: The environment of energy facilities is complex. For example, there may be a lot of dust and water vapor in power plants, and outdoor substations may face severe weather such as wind, rain, sand and dust. Therefore, the protection level should be selected according to the actual environment, at least IP54, which can be dustproof and splashproof; in outdoor or extreme environments, IP65 or even higher, such as IP67, is required to completely prevent dust from entering and can be immersed in water for a short time.
Evaluate material quality: Common materials include cold-rolled steel plates, stainless steel and aluminum alloys. Cold-rolled steel plates are low in cost and high in strength, suitable for general indoor environments; stainless steel has strong corrosion resistance, such as 304 and 316L stainless steel, which are suitable for chemical corrosion and humid environments, such as energy facilities in coastal areas; aluminum alloys are light, have good heat dissipation and corrosion resistance, and are often used in scenarios with weight requirements or good heat dissipation.
Consider internal space and structure: Select a chassis with suitable internal space based on the size, quantity and future expansion needs of the equipment to be installed. The chassis should have a reasonable layout, such as separated equipment installation areas and cable management areas, to facilitate equipment installation and cable arrangement. At the same time, the modular design that supports 19-inch standard rack installation is better, which is convenient for expanding equipment, such as adding network servers, power modules, etc.
Pay attention to heat dissipation performance: Equipment in energy facilities will generate heat when running, and good heat dissipation performance is critical. The chassis can be equipped with cooling fans, heat dissipation holes or heat sinks. Some high-end chassis also have intelligent temperature control systems to automatically adjust heat dissipation according to temperature. Choose a chassis with matching heat dissipation capacity according to the heat generated by the equipment and the ambient temperature.
Check electrical performance: The electrical insulation performance and grounding design of the chassis must comply with the electrical safety standards of energy facilities. Ensure that the chassis can effectively prevent electrical short circuits, leakage and other faults to ensure the safety of equipment and personnel. For example, the metal part of the chassis should be reliably grounded, and the insulating material should have good insulation performance.
Consider earthquake and impact resistance: Some energy facilities, such as hydropower stations and wind power plants, may have vibration or impact. The chassis must have a certain earthquake and impact resistance, such as adopting high-strength structural design and installing shock absorbers to ensure the normal operation of the equipment in a vibrating environment.
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