Introduction to Electromagnetic Heating Boilers
The electromagnetic heating boiler is a highly efficient and energy - saving heating device. The electromagnetic induction
control box is equipped with an operation panel, which enables precise adjustment of operating parameters. With advanced
electromagnetic induction technology built- in,it can efficiently convert electrical energy into heat energy. The electromagnetic
heating coil is made of special materials, capable of rapid heating and boasting high thermal efficiency.
This boiler has multiple safety guarantees. Warning signs remind users of risks such as electric shock. It also has
requirements for waiting time until the DC bus capacitor discharges, and grounding technology ensures safe operation. It is
easy to operate. Installation and operation can be easily carried out by following the user manual. It is suitable for heating and
hot water supply in various places, bringing users a convenient, efficient and safe heating experience.
Product Description
Advanced Induction Heating Principle
Our electromagnetic induction heaters operate on a revolutionary principle. When an alternating current passes through the coil of the heater, it generates a strong magnetic field. This magnetic field penetrates the heating object, such as a metal workpiece. Eddy currents are then induced within the object. According to Joule's law, these eddy currents cause the resistance of the material to generate heat, resulting in rapid and uniform heating. This non - contact heating method eliminates heat transfer losses associated with traditional heating methods, ensuring maximum energy utilization.
High - Efficiency Heating Performance
Equipped with state - of - the - art components and optimized circuit design, our induction heaters offer remarkable heating efficiency. They can reach high temperatures in a short period, significantly reducing heating time compared to conventional heaters. For example, in industrial applications where large - scale metal heating is required, our heaters can heat metal workpieces from room temperature to several hundred degrees Celsius within minutes. This not only boosts productivity but also saves valuable energy resources, making them an ideal choice for cost - conscious manufacturers.
Working principle
The vast majority of metals will be induced by high-frequency magnetic fields and generate heat on their own
Using this principle, when a coil is energized, a high-frequency magnetic field is generated in the coil, causing the metal rod inside the coil to be induced by the magnetic field and generate heat. Electric energy can be fully converted into thermal energy from the metal rod during the above process. Throughout the process, there is no physical contact between the metal rod and the coil, and the energy conversion is entirely completed by magnetic field eddy currents and metal induction.
Product Structure
High-frequency power supply: provides high-frequency alternating current (frequency usually ranges from hundreds of Hz to tens of kilohertz, or even higher), which is the energy source that generates changing magnetic fields.
Induction coil: usually made of copper tubes (cooling water is passed inside to cool down the coil itself to avoid overheating). When high-frequency current passes through the coil, a high-frequency changing magnetic field will be generated around the coil.
Heated workpiece: It needs to be a conductive material (such as metal), placed inside or near the induction coil, and eddy currents are induced in the changing magnetic field and generate heat.
Cooling system: including cooling water pipelines and water pumps, used to cool down the induction coil and high-frequency power supply to prevent equipment damage due to high temperature.
| Accessory |
Function |
Key Feature |
| Main Unit |
Core control module generating magnetic fields and regulating heating. |
Industrial-grade chips, ±1ºC precision. |
| Induction Coil |
Customized for workpiece shape/size to induce eddy current heating. |
High-temperature enameled wire, optimized efficiency. |
| Temperature Sensor |
Real-time temperature monitoring with feedback to the main unit. |
K-type thermocouple, -200ºC~1300ºC range. |
| Power Cable |
Connects to power supply (220V/380V), ensures stable current. |
Pure copper core, CE certified. |
Operation Manual
|
Guides installation, operation, maintenance, and safety. |
Step-by-step diagrams, troubleshooting tips. |
Product Application Pictures
Dive into the world of cutting-edge technology with the Qinhuangdao Yangguang Electric Co., Ltd's Magnetic Induction Heater! Our electromagnetic boiler transforms electrical energy into thermal energy through the brilliant principle of electromagnetic induction, offering a multitude of advantages across diverse industries.
1. Experience Remarkable Efficiency and Energy Conservation.
Unveiling the Power of Electromagnetic Induction Heating: Our electromagnetic boiler harnesses the power of induction, resulting in the heating body itself generating heat with a phenomenal thermal efficiency that exceeds 90%. Compared to conventional resistance heating boilers, this innovative solution can slash energy consumption by an impressive 20% to 30%.
Harnessing the Power of Intelligent Frequency Conversion Technology: Our system dynamically adjusts power in accordance with real-time heat demands. This smart feature minimizes power usage during low-temperature periods or reduced heat demands, effectively eliminating energy wastage.
2. Unparalleled Safety and Reliability.
Innovative Water and Electricity Separation Design: The electromagnetic boiler's heating system is meticulously segregated from the water system, eliminating leakage risks and ensuring the safest user experience imaginable.
3. Comprehensive Protection Mechanisms
Fortified with a suite of safety protection devices, including over-temperature, over-current, leakage, and water shortage protections, our system is programmed to automatically disconnect power during anomalies, safeguarding against potential faults.
4. Environmentally Conscious and Immaculately Clean.
Embrace Zero Emission Technology: Powered by electricity, our device operates free from harmful emissions like sulfur dioxide, nitrogen oxides, smoke, and dust, aligning perfectly with stringent environmental protection standards.
Whisper-Quiet Operation: With no combustion or mechanical transmission parts involved, our electromagnetic boiler operates with minimal noise, ensuring a serene environment free from noise pollution.
5. Precision-Driven Temperature Control.
Mastery in Temperature Management: Engineered with elite temperature sensors and intelligent controllers, our system delivers unparalleled precision, controlling room or water temperature accurately within a margin of ±1ºC, catering to the specific requirements of our users.
Optimal Temperature Uniformity: Leveraging electromagnetic heating, our system guarantees even heat distribution across the heating body, ensuring uniformly warm water, and mitigating localized overheating or overcooling.
6. Effortless Installation and Space Efficiency.
Compact and Convenient: Our electromagnetic boiler features a sleek, compact design that occupies minimal space, making it perfect for tight locations like basements and equipment rooms. The installation is a breeze-simply connect it to the inlet and outlet pipes and power supply, perform basic debugging, and you're up and running. This streamlined process saves significant time and costs, offering unparalleled convenience.
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