Burner parts and related components for calciner can be divided into six functional systems according to their functions: main structure, control system, ignition system, fuel supply system, combustion system, and power system.
One: Main structure
This part constitutes the main structure and outline of the burner. It includes the shell and related spare parts, and the products on other functional systems are all installed on the main structure.
Two: ignition system
This part of products includes ignition transformers, ignition electrodes, and high-voltage wires. Ignition Transformer: A product used to generate high voltage current and discharge through the electrode tip to ignite the burner. This is a product with very low technical content, and at the same time it is something that is imitated as a product with very low technical content. Ignition electrode: let alone a product with any technical content, unless the shape is too weird and used too little, the editor will not store the original product, nor will it recommend users to use it. High-voltage wire: it is just a high-temperature-resistant, high-voltage power wire, why import it? Not to mention the original ones.
Three: Powertrain
On conventional burners, only the electric motor should be relevant for power.
Four: fuel supply system
On the burner, this is one of the more complicated systems. In fact, the mechanical products involved in this system are far more complicated than the electrical products on the control system. Oil pumps, oil nozzles, fuel heaters, oil cups, oil pipes, fuel solenoid valves, gas valves (including gas solenoid valves), gas pressure regulators, and gas filters
Five: Combustion system
One of the most technical systems in the burner industry. In fact, no matter how advanced the technology of the electrical products responsible for the control is, how precise the oil pump is manufactured, the level of these technologies has nothing to do with the capabilities of the burner manufacturer. What they must rely on is to design the combustion system. Therefore, the level of the combustion system determines the ability of a burner. This part of the product includes combustion tubes, forced air blower impellers, flame discs, oil guns, air core tubes, and built-in or external diffusers. This part of the product constitutes the air-fuel premixing device.
Burner parts and related components for calciner can be divided into six functional systems according to their functions: main structure, control system, ignition system, fuel supply system, combustion system, and power system.
One: Main structure
This part constitutes the main structure and outline of the burner. It includes the shell and related spare parts, and the products on other functional systems are all installed on the main structure.
Two: ignition system
This part of products includes ignition transformers, ignition electrodes, and high-voltage wires. Ignition Transformer: A product used to generate high voltage current and discharge through the electrode tip to ignite the burner. This is a product with very low technical content, and at the same time it is something that is imitated as a product with very low technical content. Ignition electrode: let alone a product with any technical content, unless the shape is too weird and used too little, the editor will not store the original product, nor will it recommend users to use it. High-voltage wire: it is just a high-temperature-resistant, high-voltage power wire, why import it? Not to mention the original ones.
Three: Powertrain
On conventional burners, only the electric motor should be relevant for power.
Four: fuel supply system
On the burner, this is one of the more complicated systems. In fact, the mechanical products involved in this system are far more complicated than the electrical products on the control system. Oil pumps, oil nozzles, fuel heaters, oil cups, oil pipes, fuel solenoid valves, gas valves (including gas solenoid valves), gas pressure regulators, and gas filters
Five: Combustion system
One of the most technical systems in the burner industry. In fact, no matter how advanced the technology of the electrical products responsible for the control is, how precise the oil pump is manufactured, the level of these technologies has nothing to do with the capabilities of the burner manufacturer. What they must rely on is to design the combustion system. Therefore, the level of the combustion system determines the ability of a burner. This part of the product includes combustion tubes, forced air blower impellers, flame discs, oil guns, air core tubes, and built-in or external diffusers. This part of the product constitutes the air-fuel premixing device.