The isolating switch has no special arc extinguishing device in its structure, and it is not allowed to use it to carry out the pulling or closing operation. When the isolating switch is pulled, the isolation switch must be pulled after the circuit breaker cuts off the circuit; when closing, the isolation switch must be connected first, and then the circuit breaker is used to close the circuit. The main function of the isolating switch is:
1, isolated power supply
When the electrical equipment is out of power, the isolation switch is used to isolate the equipment that needs to be shut down for maintenance, and the power supply is clearly visible to ensure the safety of the workers and equipment.
2, switching operation
The operating state of electrical equipment can be divided into three working states: operation, standby and overhaul. The operation of changing an electrical device from one operating state to another is referred to as a switching operation. For example, in a circuit with double busbar wiring, an isolating switch (called a busbar isolating switch) connected to the busbar can be used to switch the power supply line from one set of busbar power supply to another set of busbars without interrupting the user's power supply.
3, pull, combine no current or small current circuit
Although there is no special arc-extinguishing equipment, the high-voltage isolating switch can cut off the small current during the pulling process. When the moving and static contacts are quickly opened, the arc between the contacts can be extinguished according to the arc-extinguishing principle of rapidly expanding the arc. . Therefore, the high voltage isolation switch allows the following circuits to be pulled and closed:
1) Pulling and closing voltage transformers and arrester circuits;
2) Pulling and closing the busbar and the capacitance current of the device directly connected to the busbar;
3) No-load transformer with pull and combined excitation current less than 2A: general transformer with voltage of 35kV and capacity of 1000kVA and below; voltage of 110kV with transformer of 3200kVA and below.
4) No-load lines with pull-on and combined capacitor currents not exceeding 5A: overhead lines with a typical voltage of 10kV and a length of 5km or less; overhead lines with a voltage of 35kV and a length of 10km or less.
There are many types of isolating switches, which can be classified according to the following methods:
According to the installation location, it can be divided into indoor and outdoor;
According to the movement mode of the knife gate, it can be divided into horizontal rotation type, vertical rotation type and plug-in type;
According to the number of insulators per phase, it can be divided into single column, double column and three column;
According to the characteristics of operation, it can be divided into single pole and three pole type;
According to the presence or absence of the grounding knife gate, it can be divided into a grounded knife gate and a groundless knife gate.
Heating system control cabinets are designed to coordinate the work of electrical heating systems. At the request of the consumer heating systems Control Cabinet can be equipped with manual or automatic control system. Additionally, optional equipment related to both control systems (manual and automatic control) and the ability to switch between them.
Electrical heating equipment cabinet assembly is carried out taking into account the specific characteristics of a particular object. Electrical heating system control cabinet, depending on requirements, is available in two options: inside building and outdoor.
Electrical heating system control cabinets can be two types: metal or plastic housing.
Due to electrical equipment installed in heating control switchboard the distribution of electrical energy maybe controlled automatically. Sensors installed in the facility, give information about ambient temperature, temperature of the object and temperature of the inner medium of the object.
Then, depending on the information received and set working modes, automatic control cabinet will switch on or switch off the heating, increase or decrease necessary temperature. Thus, the use of heating switchboard ensures proper and economical energy management, as well as rapid response and prevention of emergency situations.
Functionality of the heating systems control cabinet
Functions of heating control system may differ depending on the requirements and specifications of the customer. Main functions are:
the possibility to switch control modes (manual or automatic);
maintain the set temperature of the heated object;
operating mode control;
Heating equipment protection from overheating, over current(overload), short circuit protection;
a complete and safe shutdown of heating equipment from the power supply in case of accidents.
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Nantong Double Star Automation Equipment Co., Ltd. , https://www.nt-doublestar.com