Compression apparatus and filling station comprising such an apparatus

What is claimed is: 1. A fluid-compression apparatus with multiple compression stages, comprising: a first compression chamber; a second compression chamber; an intake system that communicates with the first compression chamber and is configured to allow the admission of fluid to be compressed into said first compression chamber; a transfer system that, in an open configuration, is configured to allow the transfer of fluid from the first compression chamber to the second compression chamber; a mobile piston for ensuring the compression of the fluid in the first and second compression chambers; and a discharge orifice that communicates with the second compression chamber and is configured to allow the outlet of compressed fluid, the piston being mobile in a translational movement in a longitudinal direction, wherein: the first compression chamber is delimited by a fixed lower cavity, a lower end of the piston and a first sealing system formed between the piston and a wall of the lower cavity, the second compression chamber is delimited by a fixed upper cavity, an upper end of the piston, and a second sealing system formed between the piston and a wall of the upper cavity, when the apparatus is in an operating configuration, a longitudinal direction of translation of the piston is vertical, the intake system is situated at a lower end of the apparatus below the discharge orifice, which is situated in an upper part of the apparatus, and the discharge orifice is situated above the transfer system. 2. The apparatus of claim 1 , further comprising an actuating member which moves the piston, wherein said actuating member is situated, in the longitudinal direction, in the upper part of the apparatus level with or above the discharge orifice. 3. The apparatus of claim 1 , wherein the lower cavity and the upper cavity are distinct entities and the piston comprises an internal duct providing the fluidic connection between the first and second compression chambers. 4. The apparatus of claim 1 , wherein the piston is mechanically connected to an actuating member via at least one shaft arranged around the upper cavity and extending in a direction of the longitudinal axis. 5. The apparatus of claim 1 , wherein the transfer system is situated at a level with the upper end of the piston. 6. The apparatus of claim 1 , wherein the second sealing system formed between the piston and a wall of the upper cavity is situated only at a level of the lower end of the second compression chamber and/or below the second compression chamber. 7. The apparatus of claim 1 , wherein: the discharge orifice is situated at a level of the upper end of the upper cavity; and the apparatus further comprises a duct for discharging the compressed fluid that comprises a first end connected to the discharge orifice and a second end situated in the upper part of the apparatus. 8. The apparatus of claim 1 , wherein the intake system is situated at a lower end of the lower cavity. 9. The apparatus of claim 1 , wherein the compression of the fluid in the second compression chamber is brought about by an upstroke of the piston. 10. The apparatus of claim 1 , wherein the apparatus is housed in a sealed enclosure containing a bath of cryogenic cooling fluid, said enclosure forming part of the apparatus. 11. A station for filling tanks with pressurized gas, comprising: a source of liquefied hydrogen; and 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 the fluid compression apparatus of claim 1 .