W403-404 Separating Hydraulic Pipe Bending Machine and H-frame Hydraulic Pressing Machine
W403B
Super quality, high ability of anti-tension because of the high carbon steel material process.
|
Model |
Size |
Capacity(T) |
Max.stroke(mm) |
Crimping range(mm) |
|
SPB2 |
1/2"-2" |
12 |
250 |
Ø21.3-Ø60 |
|
SPB3 |
1/2"-3" |
15 |
370 |
Ø21.3-Ø88.5 |
|
SPB4 |
1/2"-4" |
20 |
410 |
Ø21.3-Ø108 |
|
Mould deposition |
Tubing wall thickness(mm) |
Weight(kg) |
|
1/2",3/4", 1",1-1/4", 1-1/2",2" |
2.75-4.5 |
48 |
|
1/2" ,3/4" ,1" ,1-1/4" ,1-1/2" ,2" ,2-1/2" , 3" |
2.75-4.5 |
408 |
|
1/2" ,3/4" ,1" ,1-1/4" ,1-1/2", 2" , 2-1/2", 3",4" |
2.75-4.5 |
155 |
W404
| Model | Capacity(T) | Maximum Vertical Daylight(mm) | Max.Bed width(mm) | Cylinder models | Stroke(mm) | Speed(mm/sec) | Weight(kg) | |
| Fast forward speed | Stamping speed | |||||||
| IPE-1215 | 10T | 1016 | 473 | RC1010 | 254 | 28.2 | 3.8 | 135 |
| IPA-1220 | 8.5 | 2.3 | 72 | |||||
| IPH-1240 | 7.8 | 1.7 | 71 | |||||
| IPH-1234 | 11 | 1.7 | 85 | |||||
| IPH-1244 | 8.5 | 2.3 | 73 | |||||
| IPE-2505 | 25T | 1384 | 736 | RC256 | 152 | 16 | 1.6 | 274 |
| IPE-2510 | RC2514 | 355 | 23 | 3.6 | 313 | |||
| IPA-2520 | RC2514 | 355 | 3.6 | 1 | 276 | |||
| IPH-2531 | RC2514 | 355 | 4.9 | 0.7 | 281 | |||
| IPA-3071 | 30T | 1384 | 736 | RR-3014 | 355 | 42 | 0.6 | 310 |
| IPE-3060 | RR-3014 | 355 | 18 | 2.8 | 325 | |||
| IPH-3080 | RR-3014 | 355 | 3.6 | 0.7 | 301 | |||
| IPE-5010 | 50T | 1233 | 730 | RC-5013 | 330 | 20 | 1.9 | 495 |
| IPA-5021 | RC-506 | 152 | 25 | 0.3 | 439 | |||
| IPH-5030 | RC-506 | 152 | 19 | 0.7 | 439 | |||
| IPH-5031 | RC-506 | 152 | 2.3 | 0.3 | 420 | |||
| IPE-5005 | RC-506 | 152 | 7.7 | 0.8 | 421 | |||
| IPA-5073 | RC-5013 | 330 | 26 | 0.8 | 479 | |||
| IPE-5060 | RC-5013 | 330 | 20 | 1.9 | 499 | |||
| IPH-5080 | RC-5013 | 330 | 19 | 0.7 | 455 | |||
| IPA-10023 | 100T | 1079 | 889 | RC10010 | 254 | 14 | 0.4 | 750 |
| IPE-10010 | RC10010 | 254 | 14 | 1 | 776 | |||
| IPH-10030 | RC10010 | 254 | 10 | 0.4 | 751 | |||
| IPE-10060 | RR-10013 | 330 | 11 | 1 | 816 | |||
| IPH-10080 | RR-1006 | 152 | 10 | 0.4 | 755 | |||
| IPE-15065 | 150T | 1231 | 1219 | RR15013 | 330 | 9 | 1.4 | 1794 |
| IPE-20065 | 200T | 1231 | 1219 | RR-20013 | 330 | 6.7 | 1 | 1794 |
IPE Electric pump IPA Air pump IPH Hand pump
Advantages
High Versatility: Hydraulic presses offer exceptional versatility for a wide range of pressing tasks. They can be used for various applications such as metal forming, bending, straightening, punching, shearing, assembly, and component separation.
Precise Control: The hydraulic operation allows for precise control of the applied force and pressing depth. This precision is crucial for applications like metal forming where exact shaping is required.
Adjustable Pressing Force: The hydraulic system of a press allows for adjustment of the pressing force. This adjustability enables the press to handle a variety of materials and tasks, from delicate assembly work to high-force metal forming operations.
Safe Operation: Hydraulic presses typically incorporate safety features like pressure relief valves to prevent overload and potential equipment damage. Some models may also have two-handed operation requirements or light curtains to minimize the risk of operator injury during operation.
Durability: Hydraulic presses are built from robust materials like high-strength steel to withstand demanding industrial environments and high pressing forces.
Efficiency: Hydraulic presses can significantly improve efficiency compared to manual pressing methods. The speed and control offered by hydraulics allow for faster completion of pressing tasks.
How it Solves Customer Pain Points
Reduces Manual Labor: Hydraulic presses eliminate the need for manual labor in pressing operations. This reduces worker fatigue and the risk of work-related injuries associated with manual pressing.
Improves Process Accuracy: The precise control of hydraulic presses ensures consistent and accurate results in pressing tasks. This minimizes errors and rejects compared to less controllable manual methods.
Increases Production Rate: The speed and efficiency of hydraulic presses can significantly increase production rates for pressing operations. This translates to higher throughput and increased profitability.
Reduces Costs: While there is an initial investment associated with purchasing a hydraulic press, the increased efficiency, reduced labor costs, and minimal maintenance requirements of hydraulic presses can lead to significant cost savings in the long run.
Versatility for Diverse Applications: A single hydraulic press can accommodate a wide range of pressing tasks by utilizing different dies and fixtures. This eliminates the need for multiple specialized machines for various pressing requirements.
Applications
Hydraulic presses are widely used in various industries for numerous applications, including:
● Metal Fabrication: Metal forming, bending, straightening, punching, shearing, and assembly of metal parts.
● Automotive Industry: Component forming, assembly, and part separation tasks in vehicle manufacturing.
● Aerospace Industry: Manufacturing aerospace components requiring high precision forming and assembly.
● Construction Industry: Shaping metal components used in construction applications.
● Appliance Manufacturing: Metal forming and assembly tasks during appliance production.
● Recycling Industry: Compacting and baling recyclable materials.
● Plastics Industry: Molding and forming plastic components.
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