Curing Oven for Elevator Motor - Anti-explosion Oven/Furnace

Description:

Truck-in Oven, Curing Oven, industrial furnace for big motor curing after Varnishing or dipping.
Delivery time: 8weeks ready for shippment, and shipping time 3weeks.

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Specifications:

Industrial curing/drying oven is widely used in motor production such as for elevator, wind power system, automotive industry and so on.
For this oven in the picture:

Temperature Range	r.t.~250℃
Heating source	Natural gas
Config.	1. PLC control, digital displace and freedom adjustment; 2. Filter for air input 3. Exhausting fans with converter to control the air outlet, to exhaust wet gas and save energy 4. Automatic Trucks available for 30 tons 5. Anti-explosion

Besides, the varnish/dipping curing, industrial furnaces are widely used in other process of motor production, such as:

Industrial ovens and furnaces play a crucial role in the production of motors, particularly in the manufacturing of components such as windings, coils, and other parts that require heat treatment for durability and performance. Here are some key ways they are used in motor production:

1. Heat Treatment of Motor Components

Hardening and Tempering: Motor parts, particularly steel components like shafts or gears, are often heat-treated to improve strength and wear resistance. This is done by heating the parts in an industrial oven or furnace to a specific temperature, followed by a controlled cooling process.
Annealing: This process involves heating materials like copper wire (used for winding coils) to a specific temperature to relieve stresses and improve its workability before winding the coils.

2. Baking of Coils and Windings

Insulation Curing: After the motor windings are made from copper wire, they are coated with insulation material. These coils need to be baked in an industrial oven to cure the insulation. This process ensures the insulation hardens and adheres properly, preventing electrical shorts and improving the efficiency of the motor.

3. Sintering of Magnetic Materials

Magnetic Component Processing: In motors, particularly in permanent magnet motors or induction motors, sintered materials (such as iron or steel powders) are often used for components like rotor cores. These materials are heated in a furnace to bind the powders together, forming a solid, durable part.

4. Preheating and Post-Welding Treatment

Preheating for Welding: Some motor components, especially those made of alloys or materials that are prone to cracking, are preheated in a furnace before welding. This reduces thermal shock and ensures better weld quality.
Post-Weld Heat Treatment: After welding parts of the motor together, post-weld heat treatment is used to relieve stresses created by the welding process, ensuring the integrity of the structure.

5. Degassing and Cleaning

Degassing: For components made of metals or plastics, heating in a furnace can help remove any residual gases or volatile compounds that might remain from the casting or molding process.
Cleaning: Some motors or motor components undergo a cleaning process in an oven or furnace to remove any oils, residues, or contaminants left over from manufacturing.