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Automatic feeding bar heating machine

Automatic feeding bar heating machine

1. Main components:

(1) SPZ-15~SPZ-300 intermediate frequency power supply

(2) Forging furnace frame and capacitor box

(3) 600-1500MM long circle heating ring

(4) Pneumatic feeding mechanism

(5) Infrared temperature measuring probe 400–1400℃

(6) Temperature controller

(7) PLC controlled automatic feeding mechanism

2. Oscillation frequency: 1-20KHZ

3. The range of suitable material diameter: Ф10~80

typical application:

Including intermediate frequency power supply, compensation capacitor box and workbench, induction coil, feeding mechanism, etc. According to different application requirements, it may also include infrared thermometers, temperature controllers, and feeding and coiling devices;

The characteristics of the intermediate frequency monolithic heating furnace:

(1) The frequency range is large, from 1KHZ to 20KHZ, and the appropriate frequency can be selected according to the diameter of the specific heating workpiece.

(2) When the whole material is heated in the intermediate frequency forging furnace, the length of the induction coil is 500mm-1 meter long, and multiple materials are being heated at the same time, which ensures the effect of heat transmission;

(3) The medium frequency monolithic heating furnace adopts continuous heating mode, and the load inside the induction coil is relatively balanced, which overcomes the equipment caused by the huge load change when the load of a single bar rises from room temperature to 1100°C during the entire heating process. The huge change in the actual heating power ensures that the actual power of the equipment can be more than 85% of the rated power during the entire continuous heating process, and the equipment can be used effectively.

(4) When heating non-ferrous metals such as copper and aluminum, the actual power of the equipment can be more than 85% of the maximum power through reasonable design of the induction coil and capacitor, and the heating capacity of 3.5KG/KW•hour when heating copper.

(5) Compared with the thyristor intermediate frequency power supply, it is not only small in size and convenient to maintain, but it can also save power by 15-20%.

Main monolithic heating furnace specifications and heating capacity:

 

Including intermediate frequency power supply, compensation capacitor box and workbench, induction coil, feeding mechanism, etc. According to different application requirements, it may also include infrared thermometers, temperature controllers, and feeding and coiling devices; Including intermediate frequency power supply, compensation capacitor box and workbench, induction coil, feeding mechanism, etc. According to different application requirements, it may also include infrared thermometers, temperature controllers, and feeding and coiling devices; Including intermediate frequency power supply, compensation capacitor box and workbench, induction coil, feeding mechanism, etc. According to different application requirements, it may also include infrared thermometers, temperature controllers, and feeding and coiling devices;
The characteristics of the intermediate frequency monolithic heating furnace: The characteristics of the intermediate frequency monolithic heating furnace: The characteristics of the intermediate frequency monolithic heating furnace: The characteristics of the intermediate frequency monolithic heating furnace:
(1) The frequency range is large, from 1KHZ to 20KHZ, and the appropriate frequency can be selected according to the diameter of the specific heating workpiece. (1) The frequency range is large, from 1KHZ to 20KHZ, and the appropriate frequency can be selected according to the diameter of the specific heating workpiece. (1) The frequency range is large, from 1KHZ to 20KHZ, and the appropriate frequency can be selected according to the diameter of the specific heating workpiece. (1) The frequency range is large, from 1KHZ to 20KHZ, and the appropriate frequency can be selected according to the diameter of the specific heating workpiece.
(2) When the whole material is heated in the intermediate frequency forging furnace, the length of the induction coil is 500mm-1 meter long, and multiple materials are being heated at the same time, which ensures the effect of heat transmission; (2) When the whole material is heated in the intermediate frequency forging furnace, the length of the induction coil is 500mm-1 meter long, and multiple materials are being heated at the same time, which ensures the effect of heat transmission; (2) When the whole material is heated in the intermediate frequency forging furnace, the length of the induction coil is 500mm-1 meter long, and multiple materials are being heated at the same time, which ensures the effect of heat transmission; (2) When the whole material is heated in the intermediate frequency forging furnace, the length of the induction coil is 500mm-1 meter long, and multiple materials are being heated at the same time, which ensures the effect of heat transmission;
(3) The medium frequency monolithic heating furnace adopts continuous heating mode, and the load inside the induction coil is relatively balanced, which overcomes the equipment caused by the huge load change when the load of a single bar rises from room temperature to 1100°C during the entire heating process. The huge change in the actual heating power ensures that the actual power of the equipment can be more than 85% of the rated power during the entire continuous heating process, and the equipment can be used effectively. (3) The medium frequency monolithic heating furnace adopts continuous heating mode, and the load inside the induction coil is relatively balanced, which overcomes the equipment caused by the huge load change when the load of a single bar rises from room temperature to 1100°C during the entire heating process. The huge change in the actual heating power ensures that the actual power of the equipment can be more than 85% of the rated power during the entire continuous heating process, and the equipment can be used effectively. (3) The medium frequency monolithic heating furnace adopts continuous heating mode, and the load inside the induction coil is relatively balanced, which overcomes the equipment caused by the huge load change when the load of a single bar rises from room temperature to 1100°C during the entire heating process. The huge change in the actual heating power ensures that the actual power of the equipment can be more than 85% of the rated power during the entire continuous heating process, and the equipment can be used effectively. (3) The medium frequency monolithic heating furnace adopts continuous heating mode, and the load inside the induction coil is relatively balanced, which overcomes the equipment caused by the huge load change when the load of a single bar rises from room temperature to 1100°C during the entire heating process. The huge change in the actual heating power ensures that the actual power of the equipment can be more than 85% of the rated power during the entire continuous heating process, and the equipment can be used effectively.
(4) When heating non-ferrous metals such as copper and aluminum, the actual power of the equipment can be more than 85% of the maximum power through reasonable design of the induction coil and capacitor, and the heating capacity of 3.5KG/KW•hour when heating copper. (4) When heating non-ferrous metals such as copper and aluminum, the actual power of the equipment can be more than 85% of the maximum power through reasonable design of the induction coil and capacitor, and the heating capacity of 3.5KG/KW•hour when heating copper. (4) When heating non-ferrous metals such as copper and aluminum, the actual power of the equipment can be more than 85% of the maximum power through reasonable design of the induction coil and capacitor, and the heating capacity of 3.5KG/KW•hour when heating copper. (4) When heating non-ferrous metals such as copper and aluminum, the actual power of the equipment can be more than 85% of the maximum power through reasonable design of the induction coil and capacitor, and the heating capacity of 3.5KG/KW•hour when heating copper.
(5) Compared with the thyristor intermediate frequency power supply, it is not only small in size and convenient to maintain, but it can also save power by 15-20%. (5) Compared with the thyristor intermediate frequency power supply, it is not only small in size and convenient to maintain, but it can also save power by 15-20%. (5) Compared with the thyristor intermediate frequency power supply, it is not only small in size and convenient to maintain, but it can also save power by 15-20%. (5) Compared with the thyristor intermediate frequency power supply, it is not only small in size and convenient to maintain, but it can also save power by 15-20%.
Main monolithic heating furnace specifications and heating capacity: Main monolithic heating furnace specifications and heating capacity: Main monolithic heating furnace specifications and heating capacity: Main monolithic heating furnace specifications and heating capacity:
Including intermediate frequency power supply, compensation capacitor box and workbench, induction coil, feeding mechanism, etc. According to different application requirements, it may also include infrared thermometers, temperature controllers, and feeding and coiling devices; Including intermediate frequency power supply, compensation capacitor box and workbench, induction coil, feeding mechanism, etc. According to different application requirements, it may also include infrared thermometers, temperature controllers, and feeding and coiling devices; Including intermediate frequency power supply, compensation capacitor box and workbench, induction coil, feeding mechanism, etc. According to different application requirements, it may also include infrared thermometers, temperature controllers, and feeding and coiling devices; Including intermediate frequency power supply, compensation capacitor box and workbench, induction coil, feeding mechanism, etc. According to different application requirements, it may also include infrared thermometers, temperature controllers, and feeding and coiling devices;