Installation for pumping cryogenic fluid and filling station comprising such an installation

The invention claimed is: 1. An installation for pumping cryogenic fluid comprising a fluidtight enclosure configured to contain a bath of cryogenic fluid, the enclosure housing a compression chamber communicating with the bath and a piston that moves in order to compress the fluid in the compression chamber, the piston being mounted at a first end of a rod, the installation comprising a drive mechanism driving a second end of the rod in a back and forth movement in a longitudinal direction of travel, the drive mechanism comprising a motor equipped with a rotary shaft and a mechanical conversion system converting the rotational movement of the rotary shaft into a translational movement, in the configuration of operation of the installation, the longitudinal direction of travel of the piston rod being vertical, the motor being fixed rigidly to an upper mounting structure the rotary shaft being coupled to the mechanical conversion system via a connecting system such as a rigid connection or a Cardan joint, an upper first end of the enclosure being connected to the mechanical conversion system, a lower second end of the enclosure bearing against a support that holds it in place and absorbs forces transmitted by the motor via the shaft, the motor being suspended from the upper mounting structure, the motor and the mechanical conversion system being arranged horizontally with the rotary shaft in the horizontal axis. 2. The installation as claimed in claim 1 , wherein the mechanical conversion system is of the connecting rod/crank type. 3. The installation as claimed in claim 1 , wherein the lower second end of the enclosure comes to bear in a housing on the ground ensuring that it is held in a direction transverse to the longitudinal direction. 4. The installation as claimed in claim 1 , further comprising one or more legs connecting the enclosure to the ground or a support on the ground. 5. The installation as claimed in claim 1 , further comprising a flexible and/or adjustable connection connecting the enclosure to the ground. 6. The installation as claimed in claim 1 , further comprising a tank of liquefied gas, said tank being fluidically connected by a set of pipes to the enclosure, the pipes being configured to supply the compression chamber with fluid that is to be compressed. 7. A station for filling tanks or pipes with pressurized gas and comprising a source of liquefied gas, a withdrawal circuit having a first end connected to the source and at least one second end configured to be connected to a tank to be filled, the withdrawal circuit comprising an installation as claimed in claim 1 .