630 Amp High Voltage Isolator Switch Vcb Overhead Disconnect Switch Coordinated With Vacuum Circuit Breaker

630 Amp High Voltage Isolator Switch Vcb Overhead Disconnect Switch Coordinated With Vacuum Circuit Breaker

Product Description:

The high-voltage isolator switch, also known as a disconnect switch or an isolator switch, is specifically designed to disconnect or isolate a section of an electrical circuit from its power source. It provides a physical break in the circuit, allowing maintenance personnel to work on the equipment safely without the risk of electric shock. The disconnect isolator does not provide any arc-quenching capabilities like a circuit breaker.
In high-voltage power systems, the high-voltage isolator switchr and the vacuum circuit breake are often coordinated to work together. The circuit breaker is responsible for detecting faults and tripping to interrupt the current flow, while the disconnect isolator is used to physically isolate the circuit and provide a visible indication of the disconnection.
The high-voltage isolator switch plays a crucial role in ensuring the safety of maintenance personnel. Before any maintenance work can be performed on the electrical equipment, the disconnect isolator is operated to open the circuit and provide a visible air gap. This ensures that the equipment is de-energized and safe to work on.

Feature:

1.High Voltage Rating: High voltage isolator switches are designed to withstand high levels of voltage, typically ranging from several thousand volts to several hundred thousand volts.

2.Robust Construction: High voltage isolator switches are typically made of materials that are highly resistant to electrical arcing, corrosion, and other forms of damage, such as porcelain or polymer.

3.Arc Chutes: Many high voltage isolator switches are designed with arc chutes, which help to dissipate the heat generated by electrical arcing and prevent damage to the switch.

4.Earth Switch: Some high voltage isolator switches are equipped with an earth switch, which provides an additional level of safety by grounding the isolated section of the circuit.

5.Interlocking Mechanism: To prevent accidental closure of the switch while maintenance work is being carried out, many high voltage isolator switches are equipped with an interlocking mechanism that prevents the switch from being closed until all safety procedures have been followed.

6. Visual Indicators: High voltage isolator switches may also include visual indicators, such as lights or flags, that provide a clear indication of whether the switch is in the open or closed position.

Application:

1.Maintenance and Repair: The high-voltage isolator switch is commonly used to isolate and ground electrical distribution lines for maintenance and repair activities. It allows maintenance personnel to work safely on energized equipment without the risk of electrocution.

2.Emergency Response: Thehigh-voltage isolator switch can be used in emergency situations, such as power outages or natural disasters, to isolate and ground electrical distribution lines and restore power safely.

3.Switching Operations: The high-voltage isolator switch can be used to open or close switches and perform other switching operations on electrical distribution lines.

Operation:

1.When the high voltage isolator switch is in the closed position, the contacts of the isolator are in contact with each other, allowing current to flow through the circuit. Thet HV electrical isolator is closed by manually or remotely operating the isolator, depending on the type of the HV electrical isolator.

2.To isolate a section of the power system, the high voltage isolator switch must be opened. This is typically done by manually or remotely operating the isolator to separate the contacts and interrupt the flow of current through the circuit.

3.Once the HV electrical isolator is opened, the section of the power system that is connected to the isolator is isolated from the rest of the system. This allows maintenance or repair work to be performed safely on the isolated circuit.

4. When the maintenance or repair work is complete, the high voltage isolator switch can be closed to restore power to the isolated circuit. This is done by manually or remotely operating the isolator to connect the contacts and restore the flow of current through the circuit.

Condition:

1.The maximum altitude for installation should not exceed 1000m.

2.The ambient air temperature should not exceed +40'C, and in general areas, it should not fall below -30'C. In Paramos areas, it should not fall below -40'C.

3.The wind pressure should not exceed 700Pa, corresponding to a wind speed of 34m/s.

4.The isolator should be able to withstand earthquakes of up to 8 degrees in intensity.

5.The isolator should be installed in a location where there is no frequent violent vibration.

6.For ordinary type isolators, they should be kept away from gas, smoke, chemical deposition, salt-spray fog, dust, and other explosive and corrosive materials that can seriously affect the isolator's insulation and conduction capability.

7.Pollution-proof type isolators are suitable for use in severely filthy conduction areas, but they should not be installed in areas with any explosive or fire-causing materials.

Technical Parameters: