The 1800°C dual-platform atmosphere lifting furnace is designed for ultra-high temperature processing with controlled atmosphere and efficient lifting structure.
1800°C dual-platform lifting furnace enables precise atmosphere control, high-temperature stability, and efficient thermal processing for advanced materials.
Product Features
Loading platform entry and exit
The furnace is equipped with an electric lead screw drive system for precise loading platform movement, ensuring smooth, stable, and highly accurate positioning during high-temperature operations. This advanced mechanical transmission design provides excellent control over lifting and lowering speed, which can be flexibly adjusted according to different process requirements, improving operational adaptability and efficiency.
The electric lead screw mechanism offers high transmission accuracy and strong load-bearing capacity, ensuring consistent and reliable platform movement even under high-temperature and heavy-duty working conditions. Its stable motion characteristics effectively reduce mechanical vibration and positioning errors, thereby enhancing overall process precision and repeatability.
By adopting an electrically driven screw system instead of traditional manual or hydraulic lifting methods, the furnace achieves significantly improved automation and operational convenience. Operators can precisely control platform movement, ensuring safe sample loading and unloading while maintaining optimal alignment within the heating chamber.
The adjustable speed function allows users to optimize movement according to different material sizes and process sensitivities, reducing mechanical shock and protecting delicate samples from disturbance. This is particularly important for precision heat treatment, sintering, and research applications requiring strict positional control.
Overall, the electric lead screw drive loading platform enhances system stability, improves operational precision, and ensures safe, smooth, and reliable performance, making it ideal for advanced laboratory research and industrial high-temperature processing applications.
Loading platform lifting
The loading platform adopts a dual-cylinder hydraulic lifting system, ensuring strong lifting capacity, smooth motion, and stable performance during high-temperature furnace operation. This hydraulic structure provides reliable support for heavy loads and maintains precise alignment between the platform and furnace chamber, improving overall operational safety and process consistency.
The lifting speed of the system is fully adjustable, allowing operators to optimize movement according to different process requirements and sample conditions. This flexibility helps reduce mechanical impact during loading and unloading, protecting sensitive materials while improving handling efficiency. The hydraulic system also delivers consistent force output, ensuring smooth and controlled vertical movement even under variable load conditions.
In addition, the system is designed with operational safety in mind. A manual lowering button is integrated into the control system, allowing the platform to be safely lowered in the event of a power failure or emergency situation. This ensures that samples can be retrieved safely even under unexpected conditions, significantly improving equipment reliability and user safety.
The combination of dual-cylinder hydraulic drive, adjustable speed control, and emergency manual operation makes the loading platform highly dependable, efficient, and safe. It is particularly suitable for high-temperature laboratory and industrial applications requiring stable lifting performance, precise positioning, and enhanced operational security.
Communication interface
The electric furnace is equipped with an advanced RS485 communication interface, supporting a stable transmission distance of up to 1,700 meters, which enables reliable remote communication in industrial environments. Through this interface, users can achieve full computer-based control of the furnace, including start, pause, and stop operations, as well as real-time configuration and retrieval of heating programs and system parameters.
The integrated computer control platform provides a user-friendly and highly reliable interface that displays key operating data in real time, such as measured temperature values, setpoints, output power, segment duration, segment numbers, heating curve status, and power percentage trends. This comprehensive visualization improves process monitoring accuracy and operational efficiency.
The system supports flexible data management functions. Heating profiles can be stored directly on the computer and recalled at any time for repeated experiments or production processes. Users can also modify setpoints and frequently used parameters during operation, ensuring adaptability to different process requirements without interrupting system stability.
In addition, the furnace supports configurable data logging intervals ranging from 1 second to 1 hour, enabling both high-resolution monitoring and long-term historical data storage. This ensures complete traceability of thermal processes and supports detailed analysis, quality control, and process optimization.
Overall, this RS485-based intelligent control system enhances automation, remote operability, and data management capability, making it ideal for laboratory research, material testing, and industrial high-temperature processing applications requiring precise control and long-term data reliability.
Input of multiple curves
The furnace is equipped with an advanced multi-segment program control system, offering a standard 30-step programmable function that can be optionally expanded to 50 steps for more complex thermal processes. This flexible design allows users to precisely define heating, holding, and cooling stages according to specific experimental or production requirements.
The system supports multiple programmable configurations to accommodate different process structures. Users can set one curve with 30 (or 50) steps, two curves with 14 (or 28) steps each, three curves with 9 (or 15) steps each, or five curves with 5 (or 9) steps each. This high level of flexibility enables efficient management of diverse thermal profiles within a single control system.
Multiple heating curves can be stored simultaneously in the system memory, allowing users to switch between different process programs easily without reconfiguration. This improves operational efficiency and reduces setup time, especially in environments requiring frequent process changes or repeated experiments.
The program control system ensures accurate execution of each step with stable temperature regulation and reliable timing control. Each segment can be precisely adjusted to meet strict process requirements, ensuring repeatability and consistency across different batches.
Overall, this multi-curve, multi-step programmable control function provides exceptional flexibility, precision, and ease of use, making the furnace highly suitable for laboratory research, material development, and industrial heat treatment applications requiring complex and customizable thermal cycles.
Technical drawings for electric furnaces
Specifications
name
Specifications and Models
Furnace dimensions (length, width, height) in mm
External dimensions (mm)
Voltage ACV
power kW
Lifting electric furnace
GWDL-1700YS2500/800/800
2600×500×600
B=4000, F=1500
A=2800, J=2000
380
180
Note:
1. Special models of furnace chamber dimensions can be customized according to customer requirements (delivery time 17-30 days)!
2. Dimensions are in millimeters (mm). The dimensions shown are for reference only; the actual dimensions shipped from the factory shall prevail.
Application areas
Widely used in material research laboratories for high-temperature sintering, thermal testing, and controlled atmosphere experiments.
Applied in ceramics, metallurgy, and advanced material processing requiring precise multi-step heating and cooling programs.
Suitable for industrial R&D and academic research in heat treatment, diffusion studies, and programmable thermal process development.
Why Choose Us
Flexible multi-step program control for complex processes.
Stable temperature accuracy ensures repeatable test results.
Multiple curve storage improves efficiency and easy operation.
FAQ
Q1: How many program steps does the furnace support? A: It supports 30 steps standard, optionally expandable to 50 steps for more complex heating and cooling processes.
Q2: Can multiple heating curves be stored? A: Yes, the system can store multiple curves and switch between them according to different process requirements.
Q3: What curve configurations are available? A: Options include 1×30(50), 2×14(28), 3×9(15), or 5×5(9) step configurations for flexible programming.
Q4: Is the program control system easy to use? A: Yes, it features an intuitive interface for setting, saving, and modifying multi-step thermal profiles easily.
Q5: What applications benefit from multi-step control? A: It is ideal for sintering, heat treatment, material testing, and research requiring precise thermal cycle control.
