| Customization: | Available |
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| Type: | Rolling Machine |
| Forging Forming Method: | Mold Forging |
| Shipping Cost: | Contact the supplier about freight and estimated delivery time. |
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| NO. | Name | Parameter | |
| 1 | Pressure | 140 Tons | |
| 2 | Maximum plate width | 3200 mm | |
| 3 | Roller working length | 3300 mm | |
| 4 | Maximum plate thickness | Asymmetric rolling | T12×B3200 min×Φ700mm (σs ≤ 245 MPa) |
| Symmetric rolling | T16×B3200 min×Φ700mm (σs ≤ 245 MPa) |
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| 5 | Length of straight section at end under full load | ≤ (2~25) times plate thickness | |
| 6 | Upper roller diameter | Φ340 mm | |
| 7 | Lower roller diameter | Φ180 mm | |
| 8 | Center distance between two lower rollers | 300 mm | |
| 9 | Rolling speed | About 4 m/min | |
| 10 | Upper roller pressure speed | About 120 mm/min | |
| 11 | Number of rollers | 4 | |
| 12 | Number of roller groups | 1 | |
| 13 | Main motor power | 15 kw | |
| 14 | Hydraulic motor power: | 5.5 kw | |
| 15 | Mobile motor power: | 2.2 kw | |
| 16 | Dimensions | 6000*1500*1600 mm | |
| 17 | Weight | About 12 Tons | |
Note: Crafted with precision engineering, this machine showcases a 245Mpa standard, ensuring unmatched reliability. As we constantly strive to enhance our products for optimal performance, please be informed that any parameter updates will not be individually communicated.
Step 1: Initiate the rolling journey by feeding the plate and perfectly aligning the material for a seamless process.
Step 2: The upper roller gracefully moves horizontally to the -X position, then descends elegantly to the Y1 position; the lower roller reverses, artfully guiding the steel plate to the forming position.
Step 3: With precision, the lower roller rotates forward while the upper roller assertively presses down, setting the stage for effective shaping.
Step 4: As the upper roller presses down to the Y2 position and halts, the lower roller continues its forward momentum, ensuring consistent formation.
Step 5: Upon nearing the plate's end, the top roll halts elegantly at position Y3 to execute direct pressure pre-bending with finesse.
Step 6: The top roll rises to position Y2-α, elegantly glides horizontally to the +X position, presses down to Y2 again, and the lower rolls advance forward with precision.
Step 7: As it approaches the plate's end, the top roll pauses at position Y3 once more, expertly performing direct pressure pre-bending with unmatched precision.
Step 8: The top roll transitions seamlessly to X=0, presses down to position Y4, while the lower rolls expertly rotate forward/reverse, delivering flawless compensation bending.
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