Ko nga raina o runga ka tautokohia e nga waahanga o nga pourewa tuku.
Ka whakamahia nga pou hiko mo nga raina taumaha teitei ake.
A ko nga pou rakau, raima ranei ka whakamahia mo nga raina whakaheke iti.
Ko tenei na te mea he teitei ake nga raina taumaha (raina mānukanuka teitei) me whakanoho ki te teitei teitei, i te mea e hiahia ana ratou kia nui ake te waahi haumaru.
Ka taea e nga pou hiko anake te kawe i nga raina tekau tone.
What you see along the road on the suburbs are usually transmission towers.
As for the types of towers, there are cat-head towers, wine-glass towers, gate-shaped towers, V-shaped towers, take.
Voltage on overhead transmission lines
Rated voltage refers to the voltage between any two of the three ABC phases.
The standard domestic voltage of 220 volts is the voltage between any of the three phases to ground.
In reality, the line that transmits electricity to the house is 380 Tuhinga o mua.
And the three phases are separated before entering the house.
Hei tauira, each of the three ABC phases is connected to each of the units in a building.
Overhead ground lines
Transmission lines are also divided into direct current and alternating current (DC and AC).
He AC circuit is composed of phases A, B and C.
The top of the transmission tower is the lightning line, also called overhead ground wire.
Lines located in areas with many storms or high voltage have two lightning lines.
Lines with fewer storms or low voltage may use only one lightning line.
Lightning lines are connected to poles to direct the lightning current to the ground.
Overhead transmission lines
Below the lightning lines are the transmission lines.
The number of wires are all multiples of 3. The single-circuit line contains 3 waea, the two-circuit line contains 6 waea, and the four-circuit line contains 12 waea.
In each circuit there are three wires for each of the three phases A, B and C.
The reason why there are several circuits in a tower is mainly due to the consideration of transmission capacity and footprint. This is why the concepts of “line length” a “circuit length” have also been developed.
For two-circuit lines, the circuit length is twice the line length and so on.
In the case of different voltage levels, the voltage of the upper conductor is higher than that of the lower conductor.
This is because the higher the voltage, the greater the required safety distance to ground.
Lightning lines are well distinguished from transmission lines.
The former is directly on top of the tower, while the latter must be suspended from the tower by insulators.
If there are no insulators, the conductor is shorted directly to the tower.
The insulator is an accessory for overhead wires (alambres aéreos) used to support and secure the conductor.
It can ensure proper distance and insulation between conductors or between conductors and ground.
Insulators should have sufficient electrical insulation strength and moisture resistance.
We hope this article will help you to understand overhead line and electric tower properly.
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