ALLBEST B-Series CNC Press Brake Machine Regardless of changes in the thickness of the sheet material and its material properties, it can maintain excellent bending angle accuracy. Through a large-sized touch screen, simply move your fingers a few times to complete programming and control all the bending processes. The mold clamping device and rear stop system can be configured according to production requirements. It has strong compatibility and can efficiently handle large quantities of orders, as well as economically handle complex small-batch orders.
1.Precision forming: By using numerical control technology, high-precision angle control can be achieved, ensuring the consistency of part dimensions.
2.Strength enhancement: Through the cold working hardening effect, reinforcing ribs are formed at the bending points, effectively enhancing the structural rigidity.
3.Efficient production: The modern bending machine, in conjunction with the automated equipment, enables rapid mold changes and mass production.
4.Design flexibility: Capable of processing various geometric shapes, meeting diverse requirements ranging from simple boxes to complex contours.
Flexible Power Matching for Optimal Cost-Per-Part: With options from 6kW to 12kW and beyond, it allows precise power selection based on material thickness and cycle time requirements. This achieves the optimal balance between energy consumption and throughput, directly optimizing your cost-per-part.
Superior Dynamics to Boost Capacity Bottlenecks: The high-rigidity structure coupled with high-torque servo drives ensures smooth operation at high accelerations. This minimizes non-cutting time and guarantees consistent contour accuracy during continuous processing of thick plates or complex designs, directly increasing overall workshop capacity.
Process-Optimized for Stainless Steel & Alloys: Integrated with an advanced cutting parameter database and specially optimized gas control, the machine effectively manages the heat-affected zone. It delivers oxidation-free, bright cuts on stainless steel and aluminum, minimizing secondary operations like polishing.
High Automation Readiness for Uninterrupted Production: Designed for seamless integration with automatic loading/unloading, centralized fume extraction, and material storage systems, enabling hours of continuous, even unattended operation. This significantly reduces reliance on skilled operators and is a key step towards lights-out manufacturing.
The back-gauge system, made from high-strength steel, provides precise X, R, Z, and V-axis control for accurate, repeatable sheet positioning. This multi-axis design enhances precision, flexibility, and efficiency for high-quality results.
CNC crowning in a press brake automatically adjusts force along the beam for uniform bends, compensating for deflection to ensure high precision across the sheet. This feature reduces setup time, enhances accuracy, and boosts productivity.
Adopting a powerful CNC system, it can automatically calculate the total material length of bent workpieces and support 2D touch based graphic programming.
Stress relief in manufacturing reduces internal stresses in metal parts, enhancing stability, durability, and precision during machining, welding, and forming while minimizing deformation risks.
Robot arms can achieve seamless and high-precision sheet metal bending. They can easily handle loading, positioning, and unloading, ensuring consistent quality and fast production cycles, reducing labor costs, and improving production efficiency.
A press brake is a machine tool used for bending sheet and plate metal. It uses a press force to push a set of dies against the workpiece, bending it into the desired shape. Press brakes are commonly used in the fabrication of steel and aluminum parts for a variety of industries, including automotive, aerospace, and construction.
Press Brakes are used in a wide range of industries including automotive, aerospace, construction and metal fabrication.
In the automotive industry, Press Brakes are used to make parts such as brackets, frames and other components for cars and trucks.
Parts used in the manufacture of airplanes and other aircraft. The industry generally requires high precision, because the products produced by CNC Press Brake are the key components of the final product, and the bending tolerance should be within an acceptable range.
Press Brake is used to make parts such as roofing and ductwork.
For bending and forming sheet metal and sheet metal into various shapes and sizes.
A CNC Press Brake will be used to bend stainless steel elevators, steel doors and frames, steel windows and baseboards. Sometimes we use a CNC V-groove machine after bending to get the perfect bend angle.
Press Brake plays an important role in the production of electrical cabinets. After the steel plate is cut by the shearing machine, the Press Brake is used to bend it into cabinets of different sizes through different types of punches and molds. Segmented tooling is also an essential link in the production process, especially the left and right corners of the punch, which are crucial when forming the box in the final stage.
Most of the kitchen equipment is made of stainless steel and we need to use the Press Brake to bend them into different shapes to complete the final product.
In this field, large-capacity Press Brake and CNC Press Brake will be widely used, which will put forward higher requirements for bending accuracy and efficiency.
These are just a few examples of the many industries that can benefit from using a Press Brake.
Press brakes are worth the investment because they can greatly improve the efficiency and accuracy of sheet and plate metal bending operations.
They offer a high level of control over the bending process, allowing for the production of parts with a high degree of accuracy and consistency.
This can help to reduce scrap and rework, saving time and money. Press brakes are also versatile and can be used to produce a wide range of different parts, making them a valuable addition to any metal fabrication shop.
Overall, the precision and efficiency offered by a press brake make it a worthwhile investment for many industries.
Press brake works by applying a press force to a set of dies that are used to shape the metal. The press force is typically generated by hydraulic or mechanical means, and it is applied to the dies through a system of levers or linkages. The workpiece is placed on the bed or table of the press brake, and the dies are positioned above it. The position and angle of the dies can be adjusted to achieve the desired bend in the metal. The press force is then applied, pushing the dies against the workpiece and bending it into the desired shape. The position of the workpiece can be measured and controlled using a back gauge or digital readout, ensuring accurate and repeatable results.
