1. Main Structure
This part constitutes the main structure and outline of the burner. It includes an outer casing and related components, and other functional system products are installed on the main structure.
2. Control System
This part includes the controller, servo mechanisms (motors and hydraulic cylinders), flame monitor, pressure or temperature switches, etc. Controller: The core part of burner control, including a process management controller called a proportional controller, a gas leak detector responsible for detecting valve leaks, etc. It is responsible for collecting and triggering signals for each action, equivalent to the brain of the burner. Commonly used brands include Oilon, Siemens, Honeywell, etc., among which Siemens is widely imitated, and its simulation level is high.
Servo system: All electric servo motors and mechanically driven hydraulic cylinders belong to the control system. The reason is that the former and the programmable controller constitute a closed-loop control system, while the latter's power comes from the oil pump, and its execution commands are actually triggered by the controller, controlling the opening and closing of the damper.
Flame monitor: This name is increasingly deviating from the actual functional name of the industry's popular name, and is ultimately confused with controllers that only control switches through flame signals in the controller category. The actual flame can be detected by photoresistors, photocells, and ion probes used to detect flame ions. If it can turn the power on and off by itself, it should obviously be called a controller. As in all industries, all buyers only care about buying the best things with the least money, and all sellers only care about getting more profit with less cost, but what is the source of the object? No one pays attention to it, and it becomes the last part. QRB1, QRB3, QRA2, FC13, and other products with larger doses in photocells have been copied. Among them, QRB1 is quite popular due to its stable quality. This editor hasn't seen a Siemens QRB1 for three years. Pressure and temperature switches: In a broad sense, it should be called a pressure or temperature sensor. Among them, the gas switch in the pressure switch: the gas switch is mainly used for gas control of gas burners, and the air pressure switch is used to control the air (if there is no forced air supply to generate air pressure, the power of the entire machine is cut off). The temperature switch is mainly used to control the heating temperature of high-viscosity fuels (such as heavy oil or residual oil). 3. Ignition System
This section of products includes ignition transformers, ignition electrodes, and high-voltage wires. Ignition transformer: A product used to generate high-voltage current and discharge it through the electrode tip to ignite the burner. This is a low-tech product and is also considered a low-tech product to imitate. Ignition electrode: Needless to say, this product has no technical content, unless the shape is too unusual or the usage is too small; otherwise, the editor will not store the original product or recommend it to users. High-voltage wire: It's just a high-temperature, high-voltage power cord. Why would I import it? Let alone the original ones.
4. Powertrain System
In ordinary burners, only the electric motor is related to power.
5. Fuel Supply System
On a burner, this is a more complex system. In fact, the mechanical products involved in this system are far more complex than the electrical products in the control system. Fuel pump, fuel nozzle, fuel heater, fuel cup, fuel pipe, fuel solenoid valve, gas valve (including gas solenoid valve), gas pressure regulator, gas filter.
6. Combustion System
The most technologically advanced system in the burner industry. In fact, no matter how complex the electrical products responsible for control are, or how complex the oil pump is, the level of these technologies and methods is not related to the capabilities of the burner manufacturer itself, but the design of the combustion system requires them to be self-reliant. Therefore, the level of the combustion system determines the capability of the burner. This part of the product includes the combustion chamber, forced draft blower impeller, flame plate, oil gun, gas core tube, and built-in or external diffuser. This part of the product constitutes an air-fuel premixing device.
1. Main Structure
This part constitutes the main structure and outline of the burner. It includes an outer casing and related components, and other functional system products are installed on the main structure.
2. Control System
This part includes the controller, servo mechanisms (motors and hydraulic cylinders), flame monitor, pressure or temperature switches, etc. Controller: The core part of burner control, including a process management controller called a proportional controller, a gas leak detector responsible for detecting valve leaks, etc. It is responsible for collecting and triggering signals for each action, equivalent to the brain of the burner. Commonly used brands include Oilon, Siemens, Honeywell, etc., among which Siemens is widely imitated, and its simulation level is high.
Servo system: All electric servo motors and mechanically driven hydraulic cylinders belong to the control system. The reason is that the former and the programmable controller constitute a closed-loop control system, while the latter's power comes from the oil pump, and its execution commands are actually triggered by the controller, controlling the opening and closing of the damper.
Flame monitor: This name is increasingly deviating from the actual functional name of the industry's popular name, and is ultimately confused with controllers that only control switches through flame signals in the controller category. The actual flame can be detected by photoresistors, photocells, and ion probes used to detect flame ions. If it can turn the power on and off by itself, it should obviously be called a controller. As in all industries, all buyers only care about buying the best things with the least money, and all sellers only care about getting more profit with less cost, but what is the source of the object? No one pays attention to it, and it becomes the last part. QRB1, QRB3, QRA2, FC13, and other products with larger doses in photocells have been copied. Among them, QRB1 is quite popular due to its stable quality. This editor hasn't seen a Siemens QRB1 for three years. Pressure and temperature switches: In a broad sense, it should be called a pressure or temperature sensor. Among them, the gas switch in the pressure switch: the gas switch is mainly used for gas control of gas burners, and the air pressure switch is used to control the air (if there is no forced air supply to generate air pressure, the power of the entire machine is cut off). The temperature switch is mainly used to control the heating temperature of high-viscosity fuels (such as heavy oil or residual oil). 3. Ignition System
This section of products includes ignition transformers, ignition electrodes, and high-voltage wires. Ignition transformer: A product used to generate high-voltage current and discharge it through the electrode tip to ignite the burner. This is a low-tech product and is also considered a low-tech product to imitate. Ignition electrode: Needless to say, this product has no technical content, unless the shape is too unusual or the usage is too small; otherwise, the editor will not store the original product or recommend it to users. High-voltage wire: It's just a high-temperature, high-voltage power cord. Why would I import it? Let alone the original ones.
4. Powertrain System
In ordinary burners, only the electric motor is related to power.
5. Fuel Supply System
On a burner, this is a more complex system. In fact, the mechanical products involved in this system are far more complex than the electrical products in the control system. Fuel pump, fuel nozzle, fuel heater, fuel cup, fuel pipe, fuel solenoid valve, gas valve (including gas solenoid valve), gas pressure regulator, gas filter.
6. Combustion System
The most technologically advanced system in the burner industry. In fact, no matter how complex the electrical products responsible for control are, or how complex the oil pump is, the level of these technologies and methods is not related to the capabilities of the burner manufacturer itself, but the design of the combustion system requires them to be self-reliant. Therefore, the level of the combustion system determines the capability of the burner. This part of the product includes the combustion chamber, forced draft blower impeller, flame plate, oil gun, gas core tube, and built-in or external diffuser. This part of the product constitutes an air-fuel premixing device.