Third machining cell purchased to fulfil hypercar contract
At the end of 2017, when Tamworth-based Alcon Components was awarded a contract to supply the lightweight monobloc brake calipers for a new hybrid electric hypercar, the subcontractor turned to Kingsbury to supply an automated, turnkey machining cell to produce the aluminium components.
Comprising a Hermle C 32 U 5-axis machining centre fed with pallets from an Erowa Robot Easy 250 automated storage and handling system, the cell was delivered in mid-2018 and started producing the calipers immediately, as the job had already been proved out on a nearly identical cell installed in 2016. The only difference is that the latest machine has a greater extended tool capacity than the previous cell.
The hypercar has one brake caliper per wheel, the set of four requiring in excess of 24 hours of machining from solid aluminium billets. The production route comprises four operations: pre-milling on another vertical machining centre, op 1 on the Hermle C 32 U, transfer back to the other machining centre for simple boring cycles; and finish machining on the C 32 U. Fully Interpolative 5-axis machining of free-form surfaces accounts for less than 10 per cent of the cycles on the Hermle machine, with 4+1 and 3+2 strategies used wherever possible to maximise production efficiency.
A limited number of road-going hypercars will be produced and a few track-only versions are also planned. Alcon is responsible for the full foundation brake system, pedal box and actuation as well as a number of high precision chassis components.
When the contract has been completed, Alcon will split its ongoing production of calipers for high-performance road cars, race cars and defence vehicles between the two automated Hermle-Erowa C 32 U cells at Tamworth. A smaller C 20 U on the shop floor, purchased in 2007 in a slightly different configuration with an Erowa automated pallet storage offset to the side rather than positioned directly in front of the machine, will then be reserved for producing prototypes.
The German-built Hermle C 32 U 5-axis vertical machining centre has a 650 x 650 x 500 mm working volume. The Erowa store, which holds twelve 210 mm diameter pallets, supplies them automatically to the working area via a horizontally-travelling load / unload arm.
Alcon’s production engineering manager Brian Cutler commented, “As on the previous Hermle 5-axis machines, the latest model is equipped with Blum laser tool breakage monitoring and length setting, Renishaw part probing, an 18,000 rpm HSK 63 spindle and 80 bar through-tool coolant. Comprehensive swarf management has been provided, consistent with unattended production from light alloys.
“Brake caliper production is a natural application for 5-axis machining. Compared with 4-axis metalcutting, it is not only faster but also inherently more accurate, as approach angles can be adjusted to allow shorter and hence more rigid toolholders to access awkward areas of the component. We easily hold tolerances down to 13 microns.”
Additionally, 5-axis capability gives Alcon’s designers more flexibility when developing products, as they can include complex surfaces and holes at compound angles, without increasing the number of set-ups or unduly lengthening cutting cycles. Consequently, in respect of the modern design of its products, the company has had a lot of positive feedback from the market.
Read more in the Kingsbury guide to 5-axis CNC machining for further information on the benefits of integrating these versatile manufacturing centres.