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Anhui Yawei Machine Tool Manufacturing Co.,Ltd

China AHYW CNC Press Brakes, Guillotine Shearing Machines and CNC Metal Fiber Laser Cutting Machines Manufactures, suppliers, factory in China
Add: Pingqiao Industrial Area, Bowang, Maanshan, Anhui, China
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Electric Technology Mini Brakespress

Electric Technology Brakespress

Metal bending Press brakes are workhorses. No question. But, sometimes they have been more of a plow horse, powerful but slow, than a thoroughbred. In some cases, additional press brake force is needed to make a bend, hence the availability of hydraulic press brakes with a few hundred tons of force at its disposal. Speed in those cases are not as important as brute force.

But not all jobs are like that, and in the past press brakes operations could become production bottlenecks with processed parts waiting in queue for their turn on the brake.

Today, however, the market is replete with press brakes that are fast, compact, and mobile. Some of these new products fall into the burgeoning electric press brake category. Most are geared for the smaller to mid-range tonnage segment, but at least one company, SafanDarley has a range of higher tonnage range products (20 to 300 tons), and other companies are expanding their ranges.


Amada’s press brakes utilize dual servo peer drive system that features a bending motor and an approach/return motor.

Keeping up the pace

When asked why customers are looking to move from hydraulic system to their electric cousins, many of the same answers pop up—energy savings, low maintenance—but the first answer from several of these press-brake suppliers was usually speed with power consumption a close second.

Electric systems are faster, which is important in production situations where the brake supports other processes. Higher stroke rates allow press brakes to be more in line with the upstream process machines such as the laser or the punching machine.

Average cycle time per ram for a fast hydraulic system, is somewhere between six to eight seconds per bend cycle time. For Trumpf’s electric machine, the 7036, “you’re looking at more like 3 to 5 seconds per bend cycle time. We find that we get about 40 percent better cycle time per part on the electric machine than on mass hydraulic brakes.”

The LVD DynaPress features speed and compactness. It can be forklifted to work cells to support upstream processes.

In addition to speed, the footprint of a press brake can be an important consideration.  Compactness, while not an absolute, is a hallmark of many of these electric systems. And, that just makes sense. “If the brake is 14 feet long and the parts they are bending are 6 to 12 in. in length, it doesn’t take a rocket scientist to figure out its pretty inefficient use of space and equipment,” says Bailey.

Electric press brakes in general are lighter than the hydraulic counterparts. LVD’s DynaPress can be moved by forklift to areas of the plant in need of bending capacity. “You can move the press brake to a [manufacturing] cell like a punch cell or a laser cell, where the operator can be forming parts while the laser or the punch are processing more parts.

Another benefit of electric press brakes is that they tend to need less maintenance, “Hydraulic fluid has to be changed, valves and seals can leak, Electric systems generally require less maintenance then do hydraulic systems.


Ergonomics is critical when workers have to bend parts over a long shift.

Energy savings

Energy savings associated with electric press brakes is one of the advantages over hydraulic systems. It should be noted that some hydraulic system are becoming much more energy efficient making use of technology to reduce motor speed when the brake is sitting idle so that the system is not wasting energy. “But still, the electric drive is much more efficient,” says Marzullo. “We calculate it to be 30 percent more efficient.”

The obvious advantage of press brakes is power consumption. This advantage can not only translate into utility cost savings, although those might be minimal, but also earn the company tax breaks for their efficient press break. If you compare our 4-ft electric press brake machine with a 10-ft hydraulic machine, its total energy savings for a year of operation might be, “Often, tax incentives from the government are actually worth quite a bit more than any actual consumption savings that you get for running the equipment. This has been a motivator for a lot of companies investing in more energy efficient equipment.”

Efficiency of these systems is often found in the design and motor technology used to generate the required bending force and acceleration and return speed.

Safan’s electronic control system ensures short response and delay times resulting in bending speeds of up to 20mm/sec. The high acceleration and other servomotor characteristics mean not only fast approach speed but also a seamless change over to bending speed.

Safan, a Netherlands-based company, offers the E-Brake technology that generates pressing force by means of synchronized electric motors that transfers force via belts and pulleys to the beam. The pulley-block pulls the top beam of the press against the effect of laterally arranged return springs into the die and applies the pressing force evenly along the length of the machine, meaning that crowning is rarely an issue.


Trumpf’s TruBend 7036, which is designed to bend small parts, provides energy savings.

Every time you go over a pulley you are multiplying the tonnage. The Safan press brakes feature two motors on most of its models. (Larger models such as the 300T E-Brake have additional motors.) The motors generate 3 tons of force, the rest of the required force is produced via the pulley system. “Let's say a 10-foot machine has 110 tons of force, each one of those pulleys uses 1.5 tons of force going up and 1.5 tons of force doing down. Multiply those figures to determine how many times the belt will go up and down over the pulley system.

The Amada EG 6013 series of press brakes also utilizes synchronized motors, and uses a pulley, but not the pulley and block system that is used by Safan.

Amada's Dual Servo Power drive contains two AC-servomotors that include a 2.9 kW motor for bending and 1.3kW motor for approach and return. Using the high speed for very approach and return, and then we've got a larger high torque motor that kicks in when we the machine goes into bending that can generate more force. So, it can get 66 tons out of our 1.3 motor

The DynaPress from LVD Strippit achieves rapid acceleration and deceleration of the electrical servo-driven ram delivers bending speeds up to 25mm/s The coupling of the ram and servomotors is realized through two heavy-duty ball screws to distribute force and tonnage evenly across the working length.