Fluid compression apparatus and filling station

1 : A fluid compression apparatus comprising: a compression chamber, an intake system in communication with the compression chamber, a piston comprising an axial body moveable in translation in a longitudinal direction to compress the fluid in the compression chamber, the piston being moveable in relation to a static structure of the apparatus, the body of the piston comprising a tubular portion mounted about a static central guide connected to the static structure, a discharge orifice in communication with the compression chamber and designed to enable the egress of compressed fluid, a sealing system formed between the central guide and the tubular portion of the piston, the compression chamber being delimited by the tubular portion of the piston and a terminal end of the central guide, the central guide being connected to the static structure via a support part received in a longitudinal opening formed in the body of the piston and enabling the relative longitudinal sliding of the piston about the support part, wherein, during the translational movements of the piston, the body of the piston slides about the support part without passing through the support part. 2 . The apparatus of claim 1 , wherein the longitudinal opening of the piston is delimited by a fork-shaped portion of the body of the piston with several branches, the longitudinal opening being formed by the spacing between the branches. 3 . The apparatus of claim 1 , wherein the support part extends transversely to the longitudinal direction between two lateral ends projecting beyond the body of the piston, each of the two lateral ends of the support part being connected to the structure. 4 . The apparatus of claim 1 , wherein the central guide is rigidly connected to the support part by at least one of the following: screwing, fitting, and elastic deformation, the support part being rigidly connected to the static structure. 5 . The apparatus of claim 1 , wherein the support part is held longitudinally static in the structure between two longitudinal holding stops located on both sides of the support part in a longitudinal direction. 6 . The apparatus of claim 1 , wherein the structure comprises two tubular housing portions joined longitudinally to one another about the piston. 7 . The apparatus of claim 5 , wherein at least one of the two tubular housing portions forms a longitudinal holding stop at one longitudinal end of the support part. 8 . The apparatus of claim 6 , wherein it comprises a spacer mounted about the body of the piston, the spacer being arranged between the body of the piston and at least one of the two tubular housing portions, the spacer forming a longitudinal holding stop at one longitudinal end of the support part. 9 . The apparatus of claim 1 , wherein the support part is held static transversely to the longitudinal direction by a transverse holding stop formed by the structure. 10 . The apparatus of claim 1 , wherein the discharge orifice is located at the terminal end of the central guide, the apparatus comprising a discharge circuit for the compressed fluid comprising a first end connected to the discharge orifice and a second end located opposite the first end in the longitudinal direction, the discharge circuit for the compressed gas passing through the body of the central guide and the support part. 11 . The apparatus of claim 1 , wherein the body of the piston is made of several parts joined longitudinally to one another in a disassemblable manner. 12 . The apparatus of claim 2 , wherein the tubular portion and the fork-shaped portion of the body of the piston are joined longitudinally to one another in a disassemblable manner. 13 . The apparatus of claim 1 , wherein it is a two-stage compression apparatus and comprises a pre-compression chamber, a pre-intake system in communication with the pre-compression chamber designed to enable fluid to enter the pre-compression chamber, the intake system being in communication with the pre-compression chamber to enable compressed fluid in the pre-compression chamber to be transferred to the compression chamber for additional compression. 14 . The apparatus of claim 1 , wherein it comprises a fluidtight enclosure connected to the structure and designed to contain a bath of cryogenic fluid including a liquid phase and an expansion space, the compression chamber being seated in the enclosure to be immersed in the bath. 15 . A station for filling tanks or lines with pressurized gas, comprising a source of liquefied gas, a withdrawal circuit having a first end connected to the source and at least one second end intended to be connected to a tank to be filled, the withdrawal circuit comprising a pumping apparatus or a fluid compression apparatus of claim 1 .