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Kohler-Rehlko KDW Focs cylinder head heating outlet fixing
The heater outlet fitting for the Kohler-Rehlko KDW Focs cylinder head is an essential component in the heating system of industrial and agricultural engines. This element is designed to ensure a proper and efficient connection between the engine cylinder head and the heating system, guaranteeing optimal performance.
Product description
This accessory is manufactured with materials that meet the technical standards required for use in Kohler and Rehlko engines. Its specific design allows for seamless integration into KDW and Focs models, ensuring the integrity of the engine heating system.
Compatibility
- Kohler KDW 1003
- Kohler KDW 1004
- Kohler KDW 1005
- Rehlko Focs 1000
- Rehlko Focs 1001
Applications
Heater outlet fittings are used in a variety of applications where an efficient heating system is required for agricultural machinery and industrial equipment engines. Its main function is to facilitate coolant circulation, helping to maintain the proper engine temperature during operation.
Technical characteristics
This component is characterized by its robust design and ability to withstand harsh conditions, making it a reliable choice for use in demanding environments. The fastener is designed to withstand high temperatures and pressures, ensuring a secure and long-lasting connection.
Maintenance and care
To ensure proper operation of the heater outlet fitting, it is recommended to perform periodic checks of the engine's heating system. This includes inspecting for possible leaks and the overall condition of the related components. Proper maintenance helps prolong the engine's life and prevent operational problems.
Conclusion
The heater outlet fitting for the Kohler-Rehlko KDW Focs cylinder head is a key component in the engine heating system. Its specific design and compatibility with various engine models ensure effective integration into the system, contributing to its proper functioning. This product is essential for those seeking to maintain the efficiency and operational efficiency of their equipment in optimal conditions.
