The tube bending machine innovator Unison launches what it believes is a new category of tube bending machine designed to substantially lower the cost and skill level required to produce precision tubular parts in small volumes. Target sectors for the new machine - which can bend tube diameters of up to 2 inches/50 mm - include shipbuilding, and equipment for oil, gas and other processing sectors.
A new CNC-controlled tube bending machine from Unison with a semi-manual action can substantially lower the cost and skill level required to produce precision tubular parts in small volumes.
The new EvBend 2000 rotary draw tube bending machine has a unique architecture combining manual set-up with semi-manual operation of the bending arm - which has servomotor power assistance. This approach makes the machine intrinsically easy to understand and use - requiring just a few minutes of training - and inherently safe. However, very precise tube bending results are also assured by a unique CNC control system for the tube feed, carriage rotation, and bend axes.
EvBend 2000 is a variant of Unison's successful EvBend 1000 manual machine which can handle tubing diameters up to 22 mm and is widely used in the aerospace sector. The new 2000 series machines can provide a bend torque of up to 5500 Nm to assist operation of the bend arm. This assistance allows machines to handle larger tubing diameters up to 2 inches/50 mm, including tubing made from hard high-performance alloy materials.
The EvBend concept is very well liked because of its lower cost compared with buying an automatic bending machine, and for its intrinsically simple and safe mode of operation. With the launch of the EvBend 2000, Unison has found a way to extend this formula to larger tubing sizes, without sacrificing either safety or simplicity. Operator safety continues to be assured by the requirement for human force on the bend arm to engage the power assistance, plus a form of 'dead man's switch', which provides a fail-safe mechanism that instantly removes the power assistance if the operator lets go or relaxes the grip on the handle.
"The project to design a larger version of EvBend was started in response to user demand," says Alan Pickering, CEO of Unison. "The machine is amazingly easy to use. It's intrinsically safe, there's no need for a safety fence, mat or scanner. It's highly cost effective too. If a company has a demand for precision tubular parts in low volume, EvBend 2000 can provide a solution that has both a lower capital equipment cost and a much reduced need for operator skill."
EvBend machines reduce the entry costs to precision rotary draw tube bending by using manual operations to feed and rotate tubing and move the bending arm, but with smart CNC-controlled braking on the carriage feed, rotation and bend arm axes to ensure part shapes are formed with the highest accuracy. Making prototypes or small quantities, and reverse engineering of part shapes, is very easy using this process as the bending program can be broken down into simple steps and reviewed.
There is almost no limit to the intricacy and multi-bend complexity of tubular shapes that can be formed, thanks to EvBend's ultra-compact bending head, and the versatility that manual/semi-manual operation brings to the manipulation process. However, sheer ease of use of EvBend is usually the machine's strongest selling point.
Operators typically grasp how the machine works within minutes. Users can create bending programs in two ways. First, by entering the standard tube bending information (XYZ/YBC/LRA values, or the distance tube is fed out, rotated, and the angle of bend) into dialog screens on the EvBend's Windows operator interface; this data can also be transferred from a coordinate measuring machine. Alternatively, users can program the machine using a teaching mode. This latter method is particularly powerful: it is so simple to use that a part can be reverse-engineered by bending and comparing a tube against an existing part - with the user capturing the underlying material feed, rotation, and angle of bend information as the desired points are reached.
Once the required bend data is entered the user can start bending parts, under the interactive guidance of the machine. EvBend's touch-screen Windows HMI displays the actions required in sequence - with real-time feedback of positional data as tubing is fed, rotated or bent. The precision and repeatability of these feed, rotation and bending operations is assured by a smart electromagnetic braking system. Encoder feedback on each axis ensures that all movements are made with extreme precision. EvBend machines may also be fitted with a pneumatic mandrel. The Windows HMI makes it easy to integrate EvBend into factory networks, and access Unison's powerful range of CAD tools and interfaces for the automated creation of tube bending programs.
EvBend machines can be configured with a right-hand or left-hand bending head. This orientation can also be changed by the user in around 15 minutes
More information: www.unisonltd.com/products/bending-machines/evbend/
Unison started in business by developing control systems for metalworking machinery – supplying a number of prominent UK machine manufacturers in the 1970s and 1980s. In 1991 the company moved into machinery design, focusing on machines for tube bending. At that time, tube bending machines were powered hydraulically. In the early 1990s Unison invented a range of machines employing electrical servo-motors for controlling bending motion. These were the world’s first 'all-electric' machines for tube bending. The performance of Unison's new machine design – with its fast and repeatable software-controlled set-up, right-first-time action, low power consumption, and quiet and clean operation – was an instant success. The company has progressively led the tube bending machinery industry by increasing the tubing diameters that can be formed using all-electric motion and is now one of the world’s leading manufacturers of tube bending machines and associated software. In 2014, Unison took another quantum leap in tube bending machine power by developing a servomotor-powered machine architecture that is capable of bending thick-walled piping with diameters of 225 mm and more. www.unisonltd.com
For more information about Unison, please contact Stuart Singleton at:
Unison Ltd, Faroe House, Thornburgh Road, Scarborough, YO11 3UY, UK.