The Multi-Trak VIP inverter panel has the same features as the VIP inverter panel designed for metal melting. However, its distinct advantage is its potential to enhance production stability. These inverter panels possess the remarkable capability to distribute power to two or more crucibles concurrently. Consequently, they confer exceptional flexibility to melting operations, resulting in significant cost reductions within the process. The Dual-Trak system empowers the simultaneous delivery of power to two melting crucibles, allowing for precise control over desired quantities. Also, a Tri-Trak system has the ability to power three melting crucibles at the same time and as desired. Therefore, it gives wide flexibility in casting process, which can lead to a tremendous increase in production with minimal investment for metal casting. These systems are suitable for use in continuous casting lines.
Mehronic Company’s Multi-Trak systems, spanning Dual-Trak, Tri-Trak, Quad-Trak, and more, exhibit a power range from 145kW to 15000kW.
Distinguishing Features:
⌘ Single power unit with the batch production capacity of multiple units
⌘ Uninterrupted melting and precise temperature control for holding or sintering
⌘ Ability to simultaneously preheat, sinter, melt and/or hold in multiple furnaces
⌘ Increased alloying flexibility
⌘ Increase metal production without increasing power demand levels
⌘ Separate sets of controls for each furnace
⌘ Only one set of power and water connections needed, greatly reducing installation, operation and maintenance costs
⌘ The ability to direct full rated power to one furnace while fully isolating another during maintenance
⌘ Full power delivery to the furnace charge from initiation to the culmination of the melting process
⌘ Automated power control with user-friendly operation
⌘ Uninterrupted furnace operation and safeguarding of the power circuit against abrupt frequency fluctuations during heavy scrap charging
⌘ Swift and effective electronic protection systems
⌘ Elevated efficiency through the utilization of copper bus bars in lieu of water-cooled copper tubes
⌘ Prolonged lifespan of distilled water facilitated by an enclosed and independent water system for coils and panels
⌘ Incorporation of thyristor, diode, or IGBT with nominal values up to double the requisite capacity, reinforced by protective circuits leveraging fiber optics
⌘ Equipped with an advanced, precise ground leak detector capable of assessing and displaying any coil, transformer, or circuit leakage
⌘ Application of industrial polyurethane paints with anti-scratch properties in a multi-layer coating, enhancing panel longevity
⌘ Integration of aluminum and stainless steel components to curtail losses and amplify efficiency
⌘ Utilization of a rectifier with a filter circuit to curtail line harmonics and regulate DC voltage levels
⌘ Protection of the rectifier segment with specialized, fast semiconductor fuses
⌘ Inclusion of micro-switches on the panel door to maximize safety precautions
⌘ Employing high-frequency capacitors with a surplus of reactive power, reinforced by pressure and temperature sensors
⌘ Control circuit cabin cooling facilitated by fans and water-cooled radiators
⌘ Display capabilities for furnace power and other performance metrics, encompassing faults, troubleshooting guidance, sintering, or power program according to a specific time graph
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