DE1262070B - Machine housing made of light metal casting - Google Patents

Description

Machine housing made of light metal casting The invention relates to a machine housing Made of cast light metal, especially die-cast light metal, for high-speed piston internal combustion engines with inserts made of a material with higher strength than the cast light metal of the machine housing to the bearings or bearing support shells for the crankshaft receiving points of the machine housing transverse walls.

The advantages of such machine housings made of light metal casting are known their low weight, good thermal conductivity and, in the case of magnesium alloys their suitability for machining. However, the disadvantage is the lower one Resistance of the light metal to high mechanical loads, in particular the impact forces in the area of the bearing shells for the crankshaft. It is also known that feeding these areas during casting is difficult and therefore difficult the formation of the smallest voids or pores can be expected during use of wrought light metal alloys with higher strength values for the manufacture of machine housings is generally out of the question because of the amount of work involved, especially since a non-cutting shaping of such relatively large housing parts on extraordinary encounters technical difficulties.

It has therefore already been proposed to make machine housings made of light metal casting to equip the critical zones with inserts that accommodate the bearing shells, from a kneaded light metal with one opposite the cast light metal higher crush limit are prefabricated and as an integral part of the relevant Cast housing are molded and cast around during its manufacture. With this suggestion So are not the sliding properties or the abrasion resistance of the actual Affects bearing, which is known to be composite metals and in particular aluminum bearings Use molded support rings made of copper or surface layers made of sliding metal can, but it is the load-bearing capacity of the cast housing in the area of the bearing shells vastly improved. In the areas of the bearing shells reinforced in this way Then there is no plastic deformation of the light metal casting even with high permanent loads more, and an increase in the bearing play is solely due to wear and tear the actual sliding surfaces limited.

Instead of such non-cutting, prefabricated inserts made of kneaded light metal, as intimate components of the cast machine housing the use of additional End shield halves or similar adjustment devices that are already known can be dispensed with can make a higher strength of the cast housing in the receiving area of the Bearing shells with inserts firmly anchored in light metal casting according to the invention can be achieved in that the material of the inserts is a copper alloy. You only take a relatively small increase in weight of the cast Machine housing in purchase, but then not only the strength is advantageous and of course the temperature resistance and thermal conductivity of these Areas correspondingly larger, but also given the opportunity to To use cast inserts made of a copper alloy, which is known in Way can be tempered by heat treatment.

The embodiments of the invention are on the one hand to be used Bearings and any bearing support shells and on the other hand in such forms the light metal casting of the relevant machine housing adapted with a corrugated surface or with dovetail-shaped ribs or grooves in a manner known per se a fixed one Result anchoring and, as already suggested for inserts made of kneaded light metal was low, possibly with coatings of alloying metals Melting point during casting firmly adhering connection zones between the prefabricated Form inserts and the light metal casting. The following are seven embodiments of alloys for the production of inserts according to the invention. example I special brass with 57% Cu, up to 3.01 / o Ni, up to 7.5% Al -f- Si -i- Mn -f- Fe -E- Sn, remainder Zn. Example II Bronze with 10% Al, 4% Fe, 4.5% Ni, optionally up to 3.0% Mn, up to 0.5% Zn, up to 0.5% Pb + Sn -f- Si, remainder Cu. example HI brass with 57.0 to 59.5% Cu, 1.0 to 3.0% Pb, the remainder Zn and the permitted admixtures on Fe, Sn, Al, Mn, Ni, Sb.

Example IV Brass with 62.0 to 65.0% Cu, the remainder Zn and the permissible Additions of Fe, Sn, Al, Mn, Ni, Pb, Sb. Example V special brass with 56.0 to 61.0% Cu, 0.2 to 3.0 (1 / o Mn, 0.4 to 1.3% Al, up to 2.0% Ni, up to 1.5% Fe, up to 0.5% Sn, up to 0.8% Si, up to 1.0% Pb, remainder Zn.

Example VI Special brass as in Example V, but with 1.3 to 2.5 % Al.

Example VII Alloy with 1.8 to 2.21% Ni, 0.5 to 0.8% Si, remainder Cu. Inserts made from the cast alloys according to Examples I and II can be advantageous Machined from profiles produced in the continuous casting process by means of vertical saw cuts Inserts made from the wrought alloys according to FIGS. 7 to VII are preferably made from Extruded profiles obtained, which are divided in the same way. The alloy VII can be remunerated in a known manner by heat treatment.

Claims (1)

Claim: Machine housing made of light metal casting, in particular Light metal die-cast, for high-speed piston internal combustion engines with inserts made of a material with higher strength than the cast light metal of the machine housing each to the receiving the bearings or bearing support shells for the crankshaft Place the machine housing transverse walls, d a -characterized that the material of the inserts is a copper alloy.