Ford's singular strategy: during the next eight years, Ford will not only consolidate engine and body architectures, but also the line configuration to build them. Here's how. (On Cars).What if every engine plant looked the same? What if the machines were flexible, from the same manufacturer, and placed in the same order around the building? What if all of the processes were the same? And what if you applied these same principles to your body and assembly operations, no matter whether the vehicles being built were unit body or body-on-fame, front-drive, rear-drive, or all-wheel-drive? What would you call such a thing? If you are Ford, you call it your "next generation flexible assembly process." POWERTRAIN As Ford moves ahead with this program, a typical Ford powertrain facility will still have the capacity to build 650,000 engines, but now it will be spread over two lines, not one. When a new design is introduced, one line will continue to build the Current design, while the other is reformatted (most of the changes are expected to be software modifications) to produce the new part. So launching a new engine, or a derivative of a current powerplant, won't require lots of downtime The time during which a computer is not functioning due to hardware, operating system or application program failure. , lost capacity, or a non-standardized launch process. This will be supported by a consolidation of global engine architectures. The modular engine family (4.6 L V8, 5.4 L V10) will be produced in two-valve, three-valve, and four-valve per cylinder variants, as well as single- and dual-sparkplug per cylinder versions for both car and truck applications. Ford's Global inline 4-cylinder engine family, just launched in the Mazda 6, has 100 possible variations, and consolidates eight engine families into one. And the list goes on. Says Kevin Bennett, director of Manufacturing Engineering Manufacturing engineering Engineering activities involved in the creation and operation of the technical and economic processes that convert raw materials, energy, and purchased items into components for sale to other manufacturers or into end products for , Ford Powertrain Operations, "Our engine plants will be able to support each other during the launch process through the cross-shipping of parts, and support the training process as each introduces improvements to the production process." On the cylinder head line in Fords Windsor, Ontario Windsor is the southernmost city in Canada and lies at the western end of the heavily populated Quebec City-Windsor Corridor. Windsor is located directly south of Detroit and is separated from that city by the Detroit River. The city has views of the Detroit skyline. , engine plant, for example, there are four modules with up to 48 Cross-Huller CNC (Computerized Numerical Control) See numerical control. CNC - Collaborative Networked Communication machines in each doing "parallel processing parallel processing, the concurrent or simultaneous execution of two or more parts of a single computer program, at speeds far exceeding those of a conventional computer. " (parts are shuttled between one of six machines performing the same operation, which allows a machine to be taken out of service without adversely affecting uptime), and parts are untouched by human hands Untouched by Human Hands (no ISBN) is a collection of science fiction short stories by Robert Sheckley, published in 1954. It includes:
When the Cleveland Engine Cleveland Engine is a Ford Motor Company engine manufacturing facility in Brook Park, Ohio, United States, a suburb of Cleveland. Opened in 1951, Cleveland Engine Plant number 1 was the site of production for Ford's first overhead valve engine, the Lincoln V8. Plant No. 1 comes on line in 2004, it will be Ford's first fully flexible engine plant. In addition to the equipment and procedures found on the Windsor head line, each block at the Cleveland plant will be loaded onto a pallet that can handle anything from an inline three-cylinder to a V12, and looks like a hobbyist's engine stand. All sides of the engine are accessible to the operator, and an adapter plate at the rear block face takes all of the clamping clamping (klampĀ“ing) in the measurement of insulin secretion and action, the infusion of a glucose solution at a rate adjusted periodically to maintain a predetermined blood glucose concentration. forces. This relieves the stress on the block during the machining and assembly processes. VEHICLE ASSEMBLY Production of the 2004 F-Series at the company's new Rouge assembly complex will kick-off Ford's flexible assembly process. By the end of the decade, the company expects 75% of its vehicle assembly operations to be changed over to the flexible process. In those plants, assembly areas will have the same footprint containing standardized standardized pertaining to data that have been submitted to standardization procedures. standardized morbidity rate see morbidity rate. standardized mortality rate see mortality rate. modules built from a select group of common components. "The only things we will need to change to launch a new product," says Bill Russo, director, Advanced and Manufacturing Engineering, "will be product-specific tooling on the vertical trays, horizontal 'gates, or robot arms-and the software programming." Each flexible assembly plant can produce two different platforms, each with four variations. So not only can Ford produce derivatives off a common platform (think Freestyle The code name for the MCE version of Windows. See Media Center Edition. SUV and Five Hundred sedan Sedan (sədäN`), town (1990 pop. 22,407), Ardennes dept., NE France, on the Meuse River. A noted textile center since the 16th cent., Sedan also has metal and brewing industries. The town became part of French crown lands in 1642. ), but derivatives off unique platforms. "We're not limited to having unit body vehicles in one plant, and body-on-frame in another," says Roman Krygier, group vice president, Ford Global Manufacturing and Quality. "In the same plant we will be able to run a unit body and its derivatives down one line, and a body-on-frame and its derivative down another, because we will have the same standardized modules and assembly sequence for each." The lines also can be adapted to handle any drive configuration available. The assembly process is divided among 16 standardized modules, each with a specific function, and these are combined to create a sub-system. In this context, one cell may apply adhesives, two more would comprise different tool tray types, three others would handle all the welding welding, process for joining separate pieces of metal in a continuous metallic bond. Cold-pressure welding is accomplished by the application of high pressure at room temperature; forge welding (forging) is done by means of hammering, with the addition of heat. , and the pallet cell would take the body from station to station. "In total," says Russo, "there are 300 components--standardized across all of our plants globally--that are needed to create the 16 cells, and these are combined to make up the entire body shop." The standardization standardization In industry, the development and application of standards that make it possible to manufacture a large volume of interchangeable parts. Standardization may focus on engineering standards, such as properties of materials, fits and tolerances, and drafting also will extend to final assembly, as well as to the paint shops, where a wide variety of vehicle sizes will be accommodated. The savings from this new-found flexibility over the next decade are expected to be in the $1.5- to $2.0-billion range. |
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