Maxon 1104615 Rod
The Maxon 1104615 Rod is a precision-engineered flame sensing electrode designed for integration into high-output industrial combustion systems. As a critical component for flame rectification, this rod provides the necessary microamp signal to the burner management system (BMS) to confirm flame presence and ensure safe ignition control. Built to withstand the extreme thermal stresses of gas-fired process burners, the 1104615 maintains high conductivity and signal integrity even during continuous cycling or high-temperature operation. For technicians servicing Maxon burner assemblies, this industrial burner flame rod is essential for preventing nuisance shutdowns caused by weak flame signals. Proper positioning within the flame envelope is mandatory to achieve optimal flame sensor electrode performance. By replacing worn or carbon-fouled sensors with this genuine Maxon burner part, contractors can maintain stable gas train operations and ensure reliable HVACR flame detection in demanding industrial heating environments.
Key Benefits:
- OEM Maxon flame rod designed for heavy-duty industrial burner applications.
- Delivers precise flame rectification feedback to prevent unsafe fuel flow conditions.
- Constructed from high-grade alloys to resist oxidation in high-temperature combustion environments.
- Ensures consistent microamp signal strength to minimize burner lockout and downtime.
- Universal compatibility across various Maxon gas-fired heating and cooling process systems.
Common Question:
Q: Why is my burner management system failing to detect a flame despite a visible pilot?
A: This is often caused by a fouled or oxidized Maxon 1104615 flame rod. If the rod cannot facilitate proper flame rectification, the microamp signal will drop below the BMS threshold. Inspect the rod for cracks in the ceramic insulator or heavy carbon buildup, and replace the component if signal strength remains inconsistent after cleaning.
Disclaimer: While we strive for 100% accuracy, product data and specifications are subject to change. Please contact our team to confirm compatibility or technical details before purchasing.
Original: $101.24
-65%$101.24
$35.43Maxon 1104615 Rod
The Maxon 1104615 Rod is a precision-engineered flame sensing electrode designed for integration into high-output industrial combustion systems. As a critical component for flame rectification, this rod provides the necessary microamp signal to the burner management system (BMS) to confirm flame presence and ensure safe ignition control. Built to withstand the extreme thermal stresses of gas-fired process burners, the 1104615 maintains high conductivity and signal integrity even during continuous cycling or high-temperature operation. For technicians servicing Maxon burner assemblies, this industrial burner flame rod is essential for preventing nuisance shutdowns caused by weak flame signals. Proper positioning within the flame envelope is mandatory to achieve optimal flame sensor electrode performance. By replacing worn or carbon-fouled sensors with this genuine Maxon burner part, contractors can maintain stable gas train operations and ensure reliable HVACR flame detection in demanding industrial heating environments.
Key Benefits:
- OEM Maxon flame rod designed for heavy-duty industrial burner applications.
- Delivers precise flame rectification feedback to prevent unsafe fuel flow conditions.
- Constructed from high-grade alloys to resist oxidation in high-temperature combustion environments.
- Ensures consistent microamp signal strength to minimize burner lockout and downtime.
- Universal compatibility across various Maxon gas-fired heating and cooling process systems.
Common Question:
Q: Why is my burner management system failing to detect a flame despite a visible pilot?
A: This is often caused by a fouled or oxidized Maxon 1104615 flame rod. If the rod cannot facilitate proper flame rectification, the microamp signal will drop below the BMS threshold. Inspect the rod for cracks in the ceramic insulator or heavy carbon buildup, and replace the component if signal strength remains inconsistent after cleaning.
Disclaimer: While we strive for 100% accuracy, product data and specifications are subject to change. Please contact our team to confirm compatibility or technical details before purchasing.
Product Information
Product Information
Shipping & Returns
Shipping & Returns
Description
The Maxon 1104615 Rod is a precision-engineered flame sensing electrode designed for integration into high-output industrial combustion systems. As a critical component for flame rectification, this rod provides the necessary microamp signal to the burner management system (BMS) to confirm flame presence and ensure safe ignition control. Built to withstand the extreme thermal stresses of gas-fired process burners, the 1104615 maintains high conductivity and signal integrity even during continuous cycling or high-temperature operation. For technicians servicing Maxon burner assemblies, this industrial burner flame rod is essential for preventing nuisance shutdowns caused by weak flame signals. Proper positioning within the flame envelope is mandatory to achieve optimal flame sensor electrode performance. By replacing worn or carbon-fouled sensors with this genuine Maxon burner part, contractors can maintain stable gas train operations and ensure reliable HVACR flame detection in demanding industrial heating environments.
Key Benefits:
- OEM Maxon flame rod designed for heavy-duty industrial burner applications.
- Delivers precise flame rectification feedback to prevent unsafe fuel flow conditions.
- Constructed from high-grade alloys to resist oxidation in high-temperature combustion environments.
- Ensures consistent microamp signal strength to minimize burner lockout and downtime.
- Universal compatibility across various Maxon gas-fired heating and cooling process systems.
Common Question:
Q: Why is my burner management system failing to detect a flame despite a visible pilot?
A: This is often caused by a fouled or oxidized Maxon 1104615 flame rod. If the rod cannot facilitate proper flame rectification, the microamp signal will drop below the BMS threshold. Inspect the rod for cracks in the ceramic insulator or heavy carbon buildup, and replace the component if signal strength remains inconsistent after cleaning.
Disclaimer: While we strive for 100% accuracy, product data and specifications are subject to change. Please contact our team to confirm compatibility or technical details before purchasing.
