The dual-station alternating operation design significantly enhances quenching efficiency, reduces workpiece loading and unloading downtime, and is ideal for batch heat treatment of workpieces.
Employing a fully enclosed protective structure coupled with a CNC control system, the equipment enables automated induction hardening of workpieces, effectively isolating quenching fumes and coolant splatter to create a safer and more environmentally friendly working environment.
The entire machine features a modular design for easy maintenance; it boasts high heating efficiency and low energy consumption, enabling 24-hour continuous operation; it is well-suited for the uniform heating and through-heating of large workpieces, ensuring stable heat-treatment quality.
Stable power output and strong overload capability; equipped with multiple protection features including overcurrent, overvoltage, low-water, and overheating protection, ensuring safe and reliable operation; suitable for heating large and medium-sized workpieces, with heat-treatment efficiency far exceeding that of conventional equipment.
The coil is wound with pure copper wire, offering excellent conductivity and low losses; it boasts superior insulation performance, high-temperature resistance, and strong anti-interference capabilities; its compact structure makes it compatible with various medium-frequency power supplies and quenching machines, while ensuring easy installation and stable operation.
The circuit design is mature, with stable performance and a low failure rate; power and frequency are adjustable, making it compatible with a wide range of heat-treatment processes; wiring is simple, allowing for quick integration with quenching machines, medium-frequency furnaces, and other equipment.
Supports programmable setting of heating parameters for a high degree of automation; features remote monitoring and self-diagnostic fault detection; can be integrated with automated production lines to achieve end-to-end intelligent heat treatment, while accommodating customized process requirements.
Fast heating, minimal oxidation and decarburization, and significant energy savings; precise temperature control and uniform heating, suitable for a variety of processes including forging, smelting, and quenching; compact footprint, small space requirement, and low operating noise.
IGBT inverter technology delivers high efficiency and low energy consumption; it is suitable for surface heat treatment of various medium-sized workpieces, ensuring uniform heating and minimal distortion; it also features comprehensive protection functions and stable operation.
Compact and agile, with simple installation and commissioning; fast startup, precise heating, and low energy consumption; ideal for small-batch, precision heating applications and highly versatile.
Ultra-high-frequency heating allows precise control over hardening layer depth; compact size and lightweight design facilitate easy installation and relocation; energy-efficient operation makes it ideal for precision heat treatment of small parts, with simple and intuitive operation.
Utilizes advanced variable frequency control technology, enabling flexible power adjustment and industry-leading heating efficiency; excellent body heat dissipation performance with strong stability; customizable heating solutions based on workpiece processes to meet extreme industrial heat treatment requirements.