Crosshead for a piston rod

What is claimed is: 1 . A crosshead for a piston rod, the crosshead comprising: a main body having a first seat and a second seat, the first seat being configured to hold a connecting rod, the second seat being configured to hold a piston rod; the main body comprising a linking portion defining at least partially the first seat and the second seat for holding respectively the connecting rod and the piston rod; the main body comprising a closing portion defining at least partially the second seat and being configured to secure the piston rod inside the second seat. 2 . The crosshead according to claim 1 , wherein the second seat has a lateral surface configured to engage the piston rod and extending at least along a longitudinal axis, the lateral surface being defined by the linking portion and the closing portion. 3 . The crosshead according to claim 1 , wherein the lateral surface develops around the longitudinal axis; the linking portion and the closing portion having each an angular extension of 180° with respect to the longitudinal axis. 4 . The crosshead according to claim 2 , wherein the lateral surface is at least partially complementary to an engagement surface of a piston rod. 5 . The crosshead according to claim 2 , wherein the lateral surface is a semicylindrical surface. 6 . The crosshead according to claim 2 , wherein the lateral surface is at least partially a semiconical surface. 7 . The crosshead according to claim 4 , wherein the second seat is provided with a plurality of ridges on the lateral surface, the ridges being configured to grasp corresponding teeth on the engagement surface. 8 . The crosshead according to claim 1 , wherein the closing portion further defines at least partially the first seat. 9 . The crosshead according to claim 1 , wherein the linking portion and the closing portion are substantially symmetrical with respect to a plane perpendicular to a hinge axis of the connecting rod. 10 . The crosshead according to claim 1 , wherein the linking portion and the closing portion are two half-parts of the main body. 11 . The crosshead according to claim 1 , wherein a difference between an external diameter of the piston rod and an internal diameter of the second seat is comprised between 0.05 and 0.3 percent of the external diameter, so as to grip onto the piston rod by mechanical interference. 12 . The crosshead according to claim 1 , further comprising at least a fastening element configured to join the linking and closing portions and for locking the piston rod in the second seat. 13 . The crosshead according to claim 1 , wherein the fastening element is configured to apply a load to the linking portion and the closing portions for pushing them together in a direction substantially perpendicular to the longitudinal axis. 14 . The crosshead according to claim 1 , wherein the fastening element comprises a plurality of bolts each developing along a transversal direction, the transversal direction being perpendicular to the longitudinal axis. 15 . A method for assembling a crosshead, comprising a main body having a first seat and a second seat, the first seat being configured to hold a connecting rod, the second seat being configured to hold a piston rod; the main body comprising a linking portion defining at least partially the first seat and the second seat for holding respectively the connecting rod and the piston rod; the main body comprising a closing portion defining at least partially the second seat and being configured to secure the piston rod inside the second seat. the method comprising: joining the linking and the closing portions while placing a piston rod inside the second seat; and securing the linking and the closing portions together, with the fastening element. 16 . The method according to claim 15 , further comprising applying a load to the fastening element to block the piston rod between the linking and closing portions by mechanical interference. 17 . A kit comprising: a crosshead comprising a main body having a first seat and a second seat, the first seat being configured to hold a connecting rod, the second seat being configured to hold a piston rod; the main body comprising a linking portion defining at least partially the first seat and the second seat for holding respectively the connecting rod and the piston rod; the main body comprising a closing portion defining at least partially the second seat and being configured to secure the piston rod inside the second seat. and a piston rod having an engagement surface at least partially complementary to the lateral surface of the second seat of the crosshead. 18 . The kit according to claim 17 , wherein the piston rod comprises a plurality of teeth on the engagement surface, the teeth being configured to be inserted between corresponding ridges on the lateral surface. 19 . The kit of claim 17 further comprising: a connecting rod configured to be attached to the crosshead and to a crankshaft; and a pin integrally formed with the connecting rod and adapted to be inserted in the first seat.