Piston Having Outer Thread

1 . A piston of an internal combustion engine, formed from a lower part and an upper part, having a piston crown, the lower part and the upper part being joined to form the piston by way of one of a non-positive or positively locking connection, characterized in that an external thread is arranged between the lower part and the upper part. 2 . The piston of claim 1 , characterized in that at least two supports are provided between the lower part and the upper part. 3 . The piston of claim 2 , characterized in that there is a gap between the lower part and the upper part in a static state, at least in the region of one of the at least two supports. 4 . The piston of claim 2 , characterized in that at least one nut is provided for maintaining the prestress between the lower part and the upper part of the piston during the operation of the internal combustion engine. 5 . The piston of claim 4 , characterized in that a cup spring ( 6 ) is provided for abutting engagement with the at least one nut for maintaining the prestress between the lower part and the upper part during the operation of the internal combustion engine. 6 . The piston of claim 1 , characterized in that the external thread is formed by a circumferential land of the upper part and a corresponding circumferential land of the lower part. 7 . A piston for use in an internal combustion engine comprising: a lower part having an external threaded portion positioned circumferentially about a piston stroke axis, the lower part having a first contact surface and a second contact surface positioned radially distant from the first contact surface; an upper part having an external threaded portion positioned circumferentially about a piston stroke axis and a first contact surface and a second contact surface positioned radially distant from the first contact surface, the upper part threaded portion selectively threadingly engaging the lower part portion to connect the upper part to the lower part; a main support defined by the abutting engagement of the lower part first contact surface and the upper part contact surface on the threaded engagement of the upper and the lower part; and an auxiliary support defined by the lower part second contact surface and the upper part second contact surface on threaded engagement of the upper part and the lower part. 8 . The piston of claim 7 wherein the lower part further comprises a circumferential land defining the lower part external threaded portion; the upper part further comprises a circumferential land defining the upper part external threaded portion. 9 . The piston of claim 8 wherein the lower part external threaded portion extends in a direction radially outward from the piston stroke axis; and the upper part external threaded portion extends in a direction radially inward toward the piston stroke axis. 10 . The piston of claim 7 wherein the upper part further comprises an extension extending downwardly toward the lower portion along the piston stroke axis; and a nut threadingly engaging the extension operable to selectively axially compress the lower part against the upper part. 11 . The piston of claim 10 further comprising a cup spring positioned between the nut and the extension, the cup spring operable to apply an axially biasing force against the nut and the extension on tightening engagement of the nut to the extension. 12 . The piston of claim 7 further wherein the upper part and the lower part define an axial anti-rotation bore extending through the main support; and an anti-rotation device positioned within the anti-rotation bore, the anti-rotation device operable to prevent rotation of the upper part relative to the lower part about the piston stroke axis. 13 . The piston of claim 7 wherein the upper part and the lower part define an inner region cavity positioned vertically above a pin bore along the piston stroke axis. 14 . The piston of claim 7 further comprising: a cooling gallery defined by the upper part and the lower part extending circumferentially about the piston stroke axis, the cooling gallery further defining a plurality of extension bores in fluid communication with the cooling gallery. 15 . The piston of claim 7 wherein the lower part further comprises a third contact surface and the upper part further comprises a third contact surface, the lower part third contact surface and the upper part third contact surface defining a third support. 16 . The piston of claim 7 wherein the auxiliary support defines a spatial gap between the lower part second contact surface and the upper part second contact surface when the upper part is fully threadingly engaged with the lower part wherein the upper part first contact surface is abuttingly engaged with the lower part first contact surface.