ʻUhinga ʻo e sipinga ʻo e fakaʻauha fale box

ʻOange ʻa e natula makehe ʻo e ngaahi puha fale ʻo e fakaʻauha, customizing kinautolu ki ha ngaahi fie maʻu pau ʻoku mahuʻinga. ʻOku matuʻaki mahuʻinga ʻa e mahino ʻa e mahuʻinga ʻo e ngaahi fika ʻo e ngaahi puha ko ʻeni.

ʻOku fakatataaʻi ʻe he fakatataa excellently ʻa e ʻuhinga ʻo e ngaahi fika ʻo e sipinga ʻo e ngaahi puha fakamoʻoni fale, fakaʻilongaʻi e ngaahi tafaʻaki ʻoku feʻunga mo e tokanga makehe:

1. The number of branches or circuits, commonly available in 4, 6, 8, 10 circuits.

2. The current rating for each circuit.

3. The need for a main switch, and the required current capacity for it.

4. Inlet and outlet methods for the junction box, including the size and specifications of the thread.

5. Corrosion resistance considerations: whether anti-corrosion measures are needed and the level of protection, such as WF1 or WF2 standards.

6. The explosion-proof grade is typically IP54, but higher levels can be achieved with prior specification during customization.

7. Naunau: Three common materials are used for explosion-proof junction boxes. The first type, typically used in factories, is made of cast aluminum alloy and is more affordable. The second type is constructed from welded steel plates, and the third type uses 304 pe 316 stainless ukamea.

This detailed explanation of the model numbers is essential in the practical context. Manufacturing an puha ʻo e tohi fakamoʻoni fale requires providing an electrical schematic and a list of electrical components.