Sealed nozzle heater
A heater that is molded under strong pressure using a special mold, resulting in the heating wire, insulation material, and metal case being compressed and solidified together, offering significantly high mechanical strength and lifespan. ■□■Features■□■ ■Expanded inventory for immediate delivery ■The lead wire exit angle for standard stock items is 17° ■Being a sealed type, there is absolutely no risk of leaked resin entering the heater's interior ■Custom products can be made to order. You can choose the lead wire exit angles of 17°, 30°, or 90° in the circumferential direction. The delivery time is approximately 3 weeks. For details, please contact us.
Inquire About This Product
basic information
A heater that is formed by applying strong pressure with a special mold, resulting in the heating wire, insulation material, and metal case being compressed and solidified together, offering significantly high mechanical strength and lifespan. ■□■Features■□■ ■Expanded inventory for immediate delivery ■The lead wire exit angle for standard stock items is 17° ■As it is a sealed type, there is no risk of leaked resin entering the heater interior ■Custom products can be manufactured. You can choose the lead wire exit angles of 17°, 30°, or 90° in the circumferential direction. The delivery time is approximately 3 weeks. For details, please contact us.
Price information
-
Delivery Time
Applications/Examples of results
■□■Applications■□■ ■Mold ■Manifold ■General heating use
Company information
We have built a significant track record in the field of heating control products such as cartridge heaters, nozzle heaters, mold temperature controllers, and thermocouples, as well as thermal management products like insulation boards and temperature control piping components. Our standard products, manufactured to our unique specifications, boast a large inventory, allowing us to respond in real-time to urgent requests. Additionally, for custom products, we can accommodate short lead times and provide consultation as much as possible until the specifications are finalized, which I believe can help reduce the risk of production disruptions.