The New Boxer Engine of the BMW HP2 Sport

The New Boxer Engine of the BMW HP2 Sport

COVER STORY Gasoline Engines The New Boxer Engine of the BMW HP2 Sport No other engine has dominated a motorcycle brand like the two-cylinder boxer engine from BMW. For 85 years now it has been the driving force behind a wide variety of motorcycles. As the power behind the BMW HP2 Sport, the completely redesigned engine with newly developed DOHC cylinder heads ensures a strong torque in the lower rpm range, continuously rising peak performance and a broad usable rpm band. The performance capabili- ties of the concept have been proven with prototypes during the Endurance World Championship. The experience gathered there has been incorporated directly in the HP2 Sport. This makes the BMW HP2 Sport the strongest, most sporty Boxer of all time from BMW Motorrad. 4 MTZ 04I2008 Volume 69 1 Introduction of the mixture nonetheless permit high Authors mean effective pressure, excellent fuel Notwithstanding the limits for engine consumption figures and low emissions. performance because of the principles ap- An optimized airbox system, adjusted Dr. Christian Landerl plied and the disadvantages in terms of throttle valve housing, new exhaust sys- is General Manager aerodynamics due to the layout of Boxer tem with exhaust valve and a newly ap- Powertrain Deve- cylinders, BMW Motorrad has consciously plicated motor management yield excel- lopment at BMW decided to develop this long-standing en- lent engine response in a very broad usa- Motorrad in Munich gine concept for a street sports bike with ble speed range with a much higher (Germany). the capabilities of a racer. A completely torque in the lower speed range and in- redesigned four-valve cylinder head with creased peak performance. A refined, Dipl.-Ing. double overhead cam shafts enables the emotionally appealing sound, allied with Josef Miritsch moved mass in the valve train to be re- moderate vibrations underline the gener- is Manager Core duced while at the same time increasing al characteristics of this engine. Engine & Drivetrain at the size of the valves, opening up new op- BMW Motorrad in portunities in terms of charge exchange Munich (Germany). and rpm performance. A slightly radial 2 Basic Engine Concept arrangement of the valves with finger fol- Dipl.-Ing. lowers and conically shaped cams enables The basis for the development of the ba- Georg Mittler a central spark plug to be accommodated. sic engine was provided by the engine of is Manager Engine Requirements in terms of mechanical sta- the strongest boxer motorcycle to date, Peripherie at BMW bility for the revised timing drive and the the R 1200 S. The objective was to re-use Motorrad in Munich basic engine with its unchanged shaft lay- the fundamental layout and features. (Germany). out pose an enormous challenge. The This applies, for example, to the stroke/ greatly increased thermal stress makes bore ratio and the layout of the shafts in Dipl.-Ing. optimized oil cooling necessary and en- the crank housing. The key engine pa- Peter Müller sures the stability of the cylinder head. rameters in comparison with the engine is Executive Vice Presi- One of the major challenges was the of the R 1200 S are shown in Table 1. dent Development and charge exchange because the port design Model Lines at BMW was subject to a number of geometrical 2.1 Crank Case, Crank Gear, Motorrad in Munich constraints. Sophisticated optimizations Mass Balancing Mechanism (Germany). of the intake port, the combustion cham- It was possible to keep the necessary ber and improvements in the preparation changes to the vertically divided die cast Dr. Joachim Post is Manager Thermo- dynamics & Calibra- tion at BMW Motorrad Table 1: Main technical data in Munich (Germany). R 1200 S HP 2 Sport Rudolf Schneider Design Flat twin 2-cylinder 2-cylinder is Project Manager Displacement ccm 1170 1170 Powertrain HP2 Sport at BMW Motorrad in Bore / Stroke mm 101 / 73 101 / 73 Munich (Germany). Cylinder spacing mm 42.4 42.4 Number of valves – 4 4 Dr. Valve angle IV / EV ° 19 / 22 Radial Georg Unterweger Diameter IV mm 36 39 is Manager Simulation Valve lift IV mm 10.73 10.86 & Calculation at BMW Motorrad in Munich Diameter EV mm 31 33 (Germany). Valve lift EV mm 10.73 10.97 Main bearing diameter mm 60 60 Conrod big / small end bearing diameter mm 48 / 22 48 / 22 Conrod lenght mm 125 128.1 Max. engine speed 1 / min 8800 9500 Average piston speed m / s 21.4 23.1 Compression ratio 12.5 12.5 MTZ 04I2008 Volume 69 5 COVER STORY Gasoline Engines fied. The front bearing in the engine cover was placed inside the auxiliary shaft, creating a „shaft-in-shaft“ bearing. This does away with the need for the pre- vious bearing point in the front engine cover. 2.2 Cylinder Head, Valve Gear, Control Gear It was only possible to meet the require- ments for significantly improved charge exchange by completely redesigning the timing and valve drive, Figure 3, and cyl- inder head, Figure 4. Considerably en- larged valves and a valve lift and lift pat- tern adjusted to thermodynamic re- quirements could only be shown with actuation by means of a cam follower and two higher cam shafts. The design Figure 1: Engine cross-section permits a maximum speed of 9,500 rpm and offers sufficient reserves for over speeding in the event of shift-ins. The valves are arranged in a radial layout to aluminium crank case so small that The minimum-friction Nicasil coating create space for the central spark plug. there was no need for a new die cast was retained. Consequently the cams are conically mold, Figure 1. Because of the new cylin- The bore diameter of 101 mm and the shaped. Because of the horizontal flow der head design and need to increase the 73 mm stroke were also retained. It was through the cylinder head, the intake thickness of the cylinder liner wall due possible to re-use the crankshaft without cam and the exhaust cam is placed on to the increase engine speeds, the cylin- changes, while the same went for the one cam shaft. der studs had to be moved outwards and main bearing and conrod bearing. The The finger followers, which are also ar- shortened. Partial increases in wall conrod, which is subject to much greater ranged in a radial layout, have already thicknesses were also necessary. The cyl- stresses is a new design made from the proven themselves in several BMW Motor- inders also had to be adjusted slightly in high-strength crackable material 36Mn- rad engines and their small moving mass the area of the chain drive so as to make VS4. The forged piston with reduced ensure optimum dynamic conditions. As space for the new timing drive. Because compression height enables the length a result of this and due to the DLC coat- of the optimized thickness of the liner of the conrod to be increased by 3,1 mm, ing on the investment-cast follower, the wall and the adjusted cylinder bolt posi- Figure 2. The tried-and-tested method of friction loss on the valve gear is very low. tions and screw forces, the result is a cyl- mass balancing using a balance shaft in The cam shafts are carried in a cam shaft inder face that has very little warping, the engine‘s auxiliary shaft was retained, bearing screwed to the cylinder head. The so that the oil consumption is very small. although the bearing concept was modi- FEM-optimized cylinder head/cam shaft bearing module ensures that there is very little distortion of the bearing holes, and therefore the friction and wear and tear are kept low. The valve shaft diameter is 5.5 mm. The intake valve is a solid shaft valve, while the output valve is hollow with a sodium pellet inside. The small di- mensions of the valve ensure bearable forces when touching down, while the nitration guarantees the necessary fric- tion resistance. An extremely friction-re- sistant sintered material in the valve seats leads to excellent tribological behavior by the valve/sit-ring pairing and only causes minor changes in the valve clearance in the maintenance interval. Because of the ergonomic design of the vehicle as a Figure 2: Crankshaft, conrod and piston whole, the position of the throttle valve 6 MTZ 04I2008 Volume 69 housing and thus the intake flange of the intake ports in the cylinder head had to be retained. Together with the necessary banking freedom, this resulted in very congested and difficult conditions for the chain drive. Small chain wheels with mi- nor slippage on the cam shafts are thus unavoidable. Multi-body simulation with flexible elements enabled a careful, dy- namic layout of the tension and guide tracks (some of which involved two parts and two components) for optimum rigid- ity, as well as the hydraulic chain tension- er and a lasting, friction-optimized and low-noise control assembly. Overall the basic layout of the engine allows a very appealing and unassuming sound from the entire engine mechanism thanks to the extremely quiet valve drive. The increase in performance and speed also causes the heat input in the cylinder head to rise dramatically. In or- der to keep the component temperatures within a reasonable range both for me- chanical stresses and for the charge ex- change and combustion, it was necessary to dramatically intensify the oil/air cool- ing of the cylinder head, Figure 5. Cou- pled FEM/CFD simulations [2] were used to revise the precision coolant channel Figure 3: Valve train in the cylinder head with the aim of complying with the permissible temper- ature values and material stresses under all operating conditions.

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