Product Description
| Product Data | Model HIR |
|---|
| Heater Body | Outer casing body of these units is made from Impact Resistant FRP, and coated with special heat and scratch resistant PU Hard Coating. |
| Power Supply | Voltage : 440V 10%, 50Hz 10% Nominal Current : 60 Amps. (25 KVA) 90 Amps. (40 KVA) |
| Capacity | 25 KVA / 40 KVA |
| Rating | 100% continuous.Cooling:- Forced Air Cooling of the Mains transformer and the coolant. Forced Feed Cooling of the Induction Coil. Coil Insulation :- Fiber glass reinforced (B class) hermetically Sealed. Extraction :- Built-in spring loaded leer operated pools. |
| Heating mode | Temperature and Time (as per selection) mode. |
| Temperature Controls | 0 to 250° C (max.) using microprocessor based controls adjustable in steps of 1° C. Sensing Accuracy 5° C. |
| Time Controls | 0 to 9.99 minutes adjustable in steps of 0.01 minute. Accuracy 2% |
Advanced Microprocessor ControlsEnjoy highly accurate temperature and time regulation, thanks to the built-in microprocessor that offers precise settings with up to 2% timing accuracy and a temperature sensing accuracy of 5C. Operators can easily switch between temperature and time modes, optimizing efficiency for various industrial heating processes.
Durable and Safe ConstructionDesigned with industrial-grade impact-resistant FRP and a specialized PU hard coating, the HIR units boast excellent resistance to heat, scratches, and wear. Fiber glass reinforced, hermetically sealed insulation ensures both safety and long service life, making these systems well-suited for tough industrial environments.
User-Friendly OperationThe HIR (25 KVA/40 KVA) features an intuitive user interface with adjustable parameters for both temperature (in 1C increments) and time (0-9.99 min, in 0.01 min steps). The built-in spring-loaded extraction mechanism adds convenience and safety, facilitating easy pool operation during handling.
FAQ's of HIR (25 KVA 40 KVA):
Q: How does the HIR (25 KVA/40 KVA) ensure accurate temperature control during operation?
A: The HIR units incorporate advanced microprocessor-based controls with a 5C sensing accuracy, allowing users to precisely adjust temperatures from 0C to 250C in 1C increments. This ensures consistent heating and process quality in industrial applications.
Q: What applications are best suited for the HIR (25 KVA/40 KVA) heating units?
A: These heating units are designed for industrial heating processes requiring robust, high-capacity performance, such as metal forming, heat treatment, or other heavy-duty applications, where precise temperature management and continuous operation are critical.
Q: When should the forced air and feed cooling system be utilized?
A: The forced air and feed cooling is automatically activated during operation to maintain optimal coil and component temperature, ensuring safety and extending the lifetime of the equipment during continuous or prolonged industrial use.
Q: Where can the HIR (25 KVA/40 KVA) be installed?
A: The units are intended for installation in industrial facilities with a three-phase 440V power supply, in areas where efficient, high-capacity heating with continuous duty cycles is required.
Q: What process steps are involved in setting the temperature and timing on these units?
A: Operators can use the microprocessor interface to select the desired mode (temperature or time), enter the target values (temperature in 1C increments, time in 0.01-minute steps), and then initiate the heating cycle. The inverter maintains accuracy throughout operation.
Q: How is the extraction of materials handled during or after heating?
A: Each unit features a built-in spring-loaded extraction system, allowing for safe, convenient removal of heated materials once the cycle is complete, enhancing both safety and productivity.
Q: What benefits do the PU hard coating and impact-resistant FRP body provide?
A: The PU hard coating makes the exterior highly resistant to scratches and heat, while the impact-resistant FRP ensures the body withstands demanding industrial conditions, providing long-term durability and protection against physical or thermal damage.