Nov 29, 2023
Open coil heaters, also known as resistance wire heaters or wire wound heaters, are electric heating elements commonly used in a variety of industrial applications. The structure of an open coil heater is relatively simple, typically consisting of the following components:
1. Resistance Wire:
The core component of an open coil heater is a resistive wire made of materials with high electrical resistance, such as nickel-chromium (NiCr) or iron-chromium-aluminum (FeCrAl) alloys. These alloys are chosen for their ability to generate heat when an electric current passes through them.
2. Support Structure:
The resistance wire is wound into a coil shape, and this coil is supported by a ceramic or other insulating material. The support structure ensures that the coil maintains its shape and provides electrical insulation to prevent short circuits.
3. Insulating Material:
The coil is typically embedded in or surrounded by an insulating material to prevent electrical contact with other components or the surrounding environment. Common insulating materials include ceramic, mica, or other high-temperature resistant materials.
4. Sheath or Cover:
In some applications, an open coil heater may have an additional outer sheath or cover made of materials like stainless steel. This sheath provides protection to the coil and insulation, enhances mechanical strength, and may contribute to the overall durability and corrosion resistance of the heater.
5. Terminal Connections:
The ends of the resistance wire are connected to external electrical terminals, allowing the heater to be connected to a power source. These terminals are often made of materials that can withstand high temperatures and provide secure electrical connections.
6. Mounting Brackets (Optional):
Depending on the application, open coil heaters may include mounting brackets or other features to facilitate easy installation and secure positioning within the equipment.
The basic operation of an open coil heater involves passing an electric current through the resistive wire, which generates heat due to the inherent electrical resistance of the wire. The heat is then transferred to the surrounding environment or to a specific object or material being heated.
