G37 Dual Caliper Bracket

Gauge

This type bending is most common for sheet metal workers as it is compatible with machines with smaller capacities.

This type of bend is used most frequently for sheet metalworking because it can be used with machines with reduced capacities. It is not as strong as bottom bending, which is more difficult.

Press brakes are machines that can form sheets of steel. These sheets can be used in manufacturing and industrial applications or as components of other devices. Most press brakes' bending length and pressability are the determining factors. They are usually rated in terms of their pressure per inch (or total PPI) or their metal-pressing capacity. They come in many types and are often equipped with add-ons or tooling to make highly customized components. There are two main types: hydraulic or mechanical press brakes. We'll discuss the differences in each style and the most notable features.

Machines that press brake sheet metal are used to form long sheets. These sheets are commonly used in manufacturing, for industrial applications, or to make components for other devices. Most press brakes have a rating based on their pressability and their bending length. This information is expressed as numbers (e.g., total pressure per inch, or pounds of pressurized material per inch). They are available in many sizes and can often be equipped with additional tools and add-ons to make custom components. The two main types of presses brakes that you will find are hydraulic and mechanical. In the following sections, we will explain the main features and distinguish between the two types.

Dual Cylinder Press Brake 6000

A press brake machine tool is used to bend steel parts and sheets upto 20mm thick. It includes a U/V-shaped die or a punch, depending on what shape you want. The material is put on the die. The punch then presses the sheet into the desired shape.

Generally, the tonnage of a Hydraulic Press Brake is also known as the Press Capacity and is what determines the size of the work-piece that can be processed on the Press Brake and the unit of force measurement which is a press brake can deliver and is what bends work-pieces into desired/specific degrees. The tonnage range of our Press Brakes is between 30 tons to 3000 tons while the bed lengths begin at 4 feet and ranges up to almost 30 feet.

Dual Cylinder Press Brake 6000
Dual Cylinder Press Brake Xbox

Dual Cylinder Press Brake Xbox

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.

High productivity, heavy-duty bending performance, and intuitive operation – all in a cost-efficient package

Order

Mechanical press brakes work by a motor contained within the device. This motor spins the large flywheel at high speeds. The machine operator controls this flywheel using a clutch. After that, the rest of the components are in motion to bend the steel. The mechanical presses brake is easier to operate and maintain, particularly in regards to the electronics. Due to their nature, the mechanical press brakes are able to handle tons two to three-times higher than their inherent rating. The main disadvantage to mechanical press brakes is the fact that the ram within the machine must complete a full circle when it's engaged. It cannot be reversed. This presents safety concerns in the event that the operator makes mistakes and places restrictions on the machine. There is a possibility that the brakes could be locked if the ram travels too fast.

The PA Plus series is a powerful combination of functionality and versatility. The PA Plus series can be customized with a wide range of accessories.

G37 Dual Caliper Bracket
Dual Cylinder Press Brake 5000
Dual Cylinder Press Brake 5000

We also have a range of Press Brakes designed on the hydraulic control system. Its bending capacity is capable of handling thick work-pieces. As a result of its tonnage capacity, it works efficiently on any thick metal material. This range is built in either Single Cylinder or Dual Cylinder Y1+Y2 formats and requires no complex operation to function. Materials that can be processed on our Press Brakes include steel, brass, metal sheets, and aluminum alloys.

Our BB series has the right bending tools for you.

System

Our Servo Hydraulic Press Brkes are highly efficient metal benders. With up to 66% reduced power consumption in standby, and 44% lower energy usage during the bending phase, our Servo Hydraulic Press Brokes are more powerful and efficient than other metal benders. AC Servo "electric motors" drive the ram movement of our servobrakes. They also have variable speed pumps that pump hydraulic oil "on demand". Our sophisticated, advanced technology ensures that the servopress brake is cost-effective. It's hard to find a quieter or more accurate press braking system anywhere.

This dual drive hybrid makes it easy to do any project. It has long-term, high speeds, and is energy-efficient.

Frequently Asked Questions

To pump hydraulic fluid into the system, pressure is applied by hand. The pressure is transferred to another area, and the resultant force can reach 25 tons.

Crowning is the method by which press brakes correct for deflections in both the upper beam or lower bed when pressure applies. There are different methods, depending on the model and make of the press brake.

Hydraulic brakes are more efficient than mechanical disc brakes. This means that you will need to apply less pressure to the lever for equal braking power. This allows for better modulation.

How does a hydraulic press brake work? Hydraulic press brakes use the power of a hydraulic motor, applying force to the metal and compressing it into a die that forms the shape. The shape of the die determines the final shape achieved by the metal bending process.

Three main CNC-controlled axes are located at the top of a modern CNC press brake. These include the control over the bending and back gauges, as well as the control of various productivity options.