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The modular automation system is scalable, allowing a shop to start with one or two machines and expand to include as many as 12.
To handle as many as 12 machines, the pallet-changing robot rides on a modular rail system that is made up of standardized sections that can be quickly added and linked to produce the length needed.
Manufacturing automation technology boosts productivity, profitability and global competitiveness. However, many shops are reluctant to commit to an automation system because of concerns about flexibility and cost. Determining the scope of an automation system involves trying to anticipate a facility’s future needs, and system design, assembly and installation can include long lead times and significant expense.
The System 3R Transformer modular automation system from GF Machining Solutions addresses those concerns. The system is expandable and scalable; a shop can begin with automation of one or two machines and then easily expand the cell to include as many as 12 stations. The system’s adaptability and flexibility ensure that it will never be too specialized or too small to meet a facility’s future requirements.
OEM automation systems often are designed to integrate certain machine tool brands or styles. The open architecture approach of the Transformer system permits integration of differing manufacturing technologies including mills and turning centers, EDM machines, measurement devices and even parts cleaning equipment. Unconstrained by compatibility issues, individual operations can be optimized and incorporated to achieve full automation of an entire process.
Breaking it Down
The basic components of the system are a robotic pallet changing unit and modular racks or rotating magazines that store pallets fitted with referencing chucks from System 3R. The chucks provide repeatability of 2 microns and enable the transfer of parts from one machine to the next without the need to check positioning or repeat setups.
System 3R tooling allows palletization of workpieces and EDM electrodes of a range of sizes. Different versions of the system feature pallet sizes from 54 mm × 54 mm to 700 mm × 500 mm, and the pallet-changing robot can handle part/pallet combinations weighing as much as 440 lbs (200 kg).
In a one-, two- or three-machine cell, a stationary robotic changing unit accesses either a bookshelf-style or a rotary pallet magazine. A rotary magazine provides 3 times the capacity of a bookshelf magazine, in the same amount of space.
To handle as many as 12 machines, the pallet changing robot rides on a modular rail system. The rail system is made up of standardized sections that can be quickly added and linked to produce the length needed to service the number of machines desired for the cell.
Flexibility for the Future
Most automation arrangements are engineered to meet the requirements of specific part production and shop environments. Expanding or changing the system requires dismantling the prior setup and building a new one from scratch. With the Transformer system, on the other hand, the standardized modular components combine to create customized automated solutions. Together, the modular nature of the robotic handling, rail and magazine components and easily updated software enable the system to be expanded or modified in a matter of a few days rather than in the weeks or months required with traditional automation arrangements. Plus, modularity and simple connectivity enable a shop to expand a Transformer rail system while the rest of the system continues to operate. Standardization of components also contributes to lower equipment costs.
There are two control modes for the system. It can be operated as what is called a simple system, which works much like a toolchanger in that the machine tool sends direct commands to the robot. Or for multiple machine cells, full capability and flexibility is achieved with the use of WorkShopManager software, which links all machining processes together in a clearly arranged production system. The software’s CellManager engages with pallet identification systems, including visual labels or RFID technology, to record the position of every pallet at any given moment. This process permits control of every aspect of the cell, from automatically loading jobs to each machine to recording and monitoring cycle times for each operation. Production data can be entered manually or imported through a data exchange interface with major enterprise resource planning (ERP) systems.
The software permits random loading of pallets and on-the-fly modification of work order and priorities. As a result, the system handles small and large production lots with the same level of efficiency, to the extent that automated one-piece production is possible. When a cell houses a variety of processes, the WorkShopManager software is especially effective in maintaining production flow.
A Good Fit
According to GF Machining Solutions, payback on the investment in a Transformer system is rapid—a result of significantly increased machine utilization. The system’s accuracy and reliability permit lights-out operation that multiplies machine utilization by a factor of three or four.
A selection of grippers, including turning, tilting, tipping arm and double-effector units is available to maximize flexibility of the pallet-changing robotic unit. In-process accessories that enhance system capabilities include in/out loading stations for larger pallets that can be operated without stopping production, a station for draining workpiece cavities after they are machined and a cleaning station that prepares a part for precision inspection on a CMM.
The automation system is especially suited for lights-out production of small- to medium-size precision components in tool and die and moldmaking operations, as well as any other tight-tolerance manufacturing applications.blog comments powered by Disqus