Searching for the perfect blend of serious bending power and cost-efficient operation that doesn’t sacrifice quality or output?
A press brake is a machine that bends metal parts and sheets up 20mm thick. It consists of a U-shaped or V-shaped die, depending on the desired shape of bend, and a punch. The material to bend is placed on the die, and the punch presses it to bend the sheet to the desired degree.
The PA Plus series combines versatility and functionality in one powerful package. The PA Plus series has a wide variety of accessories to make it a customized solution.
The game-changing tool changer gives press brake operators real-time data that can help them perform better.
If timelines and deadlines are pressing in on your production line, a fully automated press brake solution can go a long way toward relieving some pressure—on both your bottom line and your peace of mind. But how?
Hydraulic press brakes use hydraulic pressure to push the ram down instead of relying on mechanics. They can have multiple cylinders, which gives the operator greater control over the bend. This results in a bend that is highly customizable and precise. Hydraulic press brakes have certain disadvantages. They cannot exceed their rated tonnage. Mechanical press brakes are a good choice if your project is flexible.
Hydraulic Press Brakes JobOur CNC control hydraulic press brakes offer users the ability to tackle any project with precision, speed, and volume. These machines can handle the most demanding jobs with impeccable details. The capability to use a removable USB drive means that additional program storage is virtually limitless. Other key features include:
Two ways can press brakes bend metal are available. Bottom bending is the first method. The ram presses the metal down to the bottom of a die. Bottom bending is a more precise method of creating bends that require less pressure from the press brake machine. Each tool is made to make a specific angle, so you will need to buy a new one every time you want to bend. An air pocket is created when you bend by air. This allows the operator the flexibility to adjust for any material's spring back. If the material is too thick, these types of dies can be modified. The downside to air bending is that the angle accuracy is affected by thickness. Therefore, the ram must be replaced accordingly.
The press force of the presses brake is called the tonnage. It controls the amount of pressure that the punch can exert during the bending operation.
Nearly every metal fabrication shop needs a press brake. Despite being one of the most vital pieces of machinery within a shop, press brakes are still misunderstood by even professionals. This short guide will help you understand presses brakes.
This method allows for high levels of angular precision. This method can be used for sheet metal greater than 2mm thick.
Standard press brakes are reliable and dependable, day after day. It is easy to use the controls, which are extremely user-friendly. Our press brakes can handle a wide variety of materials, including soft brass as well heat-treated aluminum alloys and stainless steel.
Our machines offer industry-leading production and come with intuitive operator controls. These control simplify the day-to-day operations for all levels of operators.
Many fields use press brakes, including sheet metal work and production lines in sheet metal.
Diamonds don't last forever. They can become lost, can be fried in an oven, or can be crushed to smithereens by a hydraulic press.
When you travel at a decent speed, the first brake is used. If you need to stop your car or your car's speed reaches the lowest gear, you will need to use your brakes to prevent it from stalling.
Hydraulic brakes are easy to maintain, provided you properly bleed the system and make sure there are no leaks.
Finally, a neodymium magnetic magnet beat a hydraulic press.
Experts estimate that hydraulic brakes require twice as much electrical energy to operate an electric press brake. The hydraulic motors, pumps and oil that hydraulic press brakes use to operate the machine keep it running, even when it's not in use.