CNC system used to create 9-axis rotary transfer
Italian manufacturer Sinico used NUM's CNC system to develop the 9-axis rotary for manufacturing volume batches from metal bars and tubes.
An advanced application-specific CNC system from NUM has reportedly helped machine tool manufacturer Sinico to create a fully automated 9-axis rotary transfer cut-off and end-finishing machine for manufacturing volume batches of parts from metal bars and tubes.
Sinico's new TOP 2000ri machine is used by manufacturers for a wide variety of processes that include cutting, facing, chamfering, boring, centering, turning, drilling, threading, tapping and milling. The machines also handle shaping operations such as flaring, tapering, rolling, pressing, marking and knurling. Manufacturers use the machines to produce parts for an exceptionally diverse range of applications including hydraulic components, electric motors, industrial chains, power transmission, earth moving machinery and automotive components, as well as contract machining.
Loading and setting of blank bars or tubes with the TOP 2000ri reportedly takes just 9 seconds, compared to 21 seconds with the last generation. Capable of accommodating tubes from 8 to 120 mm in diameter and bars from 8 to 80 mm, the machine can accept feed material up to 6.5 meters in length and produce parts up to 640 mm in length. These attributes, combined with its fast changeover capabilities, make the machine a supremely flexible solution for manufacturers producing a wide diversity of parts.
All power supplies, drives and motors - including five high power spindle motors - were also supplied by NUM. The main rotary transfer stage of TOP 2000ri, which clamps and loads cut-to-length material into the end-finishing stages, is driven by a large NUM BPH brushless motor capable of generating up to 36 Nm of torque. This high speed stage feeds up to four workstations sequentially, making 90 degree moves in less than 0.4 seconds. The finishing stages of the machine employ five asynchronous AMS series spindle motors, each rated at 9 kW, plus a further eight NUM brushless motors for various position control tasks.
On the control side, there are seven single-axis NUMDrive C units, six rated at 130 A, and one at 14 A. There are also three dual-axis 50 A NUMDrive C units. The drive rack is powered by a NUM 120 kW regenerative regulated power supply together with an auxiliary power supply. Overall control of the machine is handled by NUM's new Flexium 68 CNC system.
The application-specific software for the Flexium CNC system was apparently developed by NUM in conjunction with Sinico, using the CoDeSys hardware manufacturer-independent IEC 61131-3 programming system. This approach enabled engineers to easily share development. The application-specific HMI uses a NUM FS152i P2 control panel, featuring a touch-sensitive screen and an integrated industrial PC, together with a customized keyboard and a hand wheel for making small parameter adjustments easily and quickly. The code for the HMI was developed by Sinico, using standard Visual Basic to call routines from the NUM-supplied libraries.
The entire process flow on the TOP 2000ri is synchronized by NUM's new CNC kernel, Flexium CNC. This is over four times more powerful than the fastest version of NUM's well-known Axium controller, which has been a popular choice for machine tool applications for many years. The HMI is specifically designed to present machine operators with a clear portrayal of each manufacturing stage, so that they can familiarize themselves easily with the entire process. A large number of different setup parameters can be stored and recalled at any time, enabling a changeover of the part being manufactured to be accomplished in very short timescales. This minimizes machine 'dead' time and helps maximize overall productivity.
The TOP 2000ri features Sinico's patented AVTC system, which continuously varies the feed rate to the machine's cut-off stage to ensure that a constant volume of material is removed. The software automatically generates an ISO program for the ideal cutting speed curve, depending on the dimensions of the bar being processed and the shape that has been specified. This reduces cutting times to an absolute minimum and helps to increase the life of the saw blade.
- Edited by Chris Vavra, Control Engineering, www.controleng.com