Bottling line and method

The invention claimed is: 1. A continuous cycle bottling line for containers of thermoplastic material, comprising: a parison moulding unit for making parisons of thermoplastic material from the thermoplastic material in its raw form; a parison thermal conditioning unit configured to receive the parisons from the parison moulding unit and to heat and cool the parisons, wherein the conditioning unit includes a heating sub-unit and a cooling sub-unit; a blow-moulding unit configured to receive the heated parisons from the conditioning unit and to blow-mould them in such a way as to make containers designed to be filled; a filling unit configured to receive the containers from the blow-moulding unit and to fill them with liquid or semi-liquid food products; a capping unit configured to receive caps made of thermoplastic material and to apply the caps securely to respective full containers; a storage system configured to contain the parisons and connected to the thermal conditioning unit by a first conveyor, designed to transfer the parisons from the cooling sub-unit of the conditioning unit to the storage system, so that the storage system receives parisons to be stored, and by a second conveyor, designed to transfer the parisons from the storage system to the heating sub-unit of the conditioning unit, to feed the selfsame heating sub-unit of the thermal conditioning unit with parisons stored previously, wherein the cooling sub-unit is connected directly to the parison moulding unit, the first conveyor thus connecting the parison moulding unit to the storage system, wherein the first conveyor has a first end, proximal to the parison moulding unit and distal to the storage system, and a second end, distal to the parison moulding unit and proximal to the storage system, the cooling sub-unit is positioned at the first end of the first conveyor, wherein the storage system includes outlet vents and inlet vents cooperating with fans to provide a pressurization system for generating overpressure inside the storage system, and wherein the bottling line defines an integrated system where the connections between the parison moulding unit, the thermal conditioning unit, the blow-moulding unit, the filling unit, the capping unit and the storage system define inside them a controlled-atmosphere environment, and wherein said connections are enclosed within respective ducts, wherein the ducts delimit closed spaces and include outlet vents, so that an internal overpressure is provided inside the ducts, wherein the overpressure maintained inside the ducts is lower than the overpressure pressure provided in the storage system or in the units connected by the connections. 2. The bottling line according to claim 1 , comprising a moulding unit for making caps of plastic material from plastic material in its raw form, the capping unit being configured to receive the caps from the cap moulding unit, wherein the storage system is configured to also contain caps and is connected by one or more conveyors to the cap moulding unit to receive caps to be stored and to the capping unit to feed the latter with caps stored previously, and wherein the connections between the cap moulding unit, the capping unit and the storage system define inside them a controlled-atmosphere environment. 3. The bottling line according to claim 2 , comprising a management unit connected to the storage system, to the thermal conditioning unit, to the cap moulding unit and to the capping unit and programmed to control the storage system and the units according to the following operating configurations: the thermal conditioning unit is in parison heating mode and feeds the blow-moulding unit; the thermal conditioning unit is in parison cooling mode and feeds the storage system; the cap moulding unit feeds the capping unit; the cap moulding unit feeds the storage system. 4. The bottling line according to claim 3 , wherein the thermal conditioning unit comprises a heating sub-unit having infeed connected to the parison moulding unit and to the storage system and outfeed connected to the blow-moulding unit, and a cooling sub-unit having infeed connected to the parison moulding unit and outfeed connected to the storage system, and wherein the management unit is programmed to control the storage system and the units of the line according to the following operating configurations: the cooling sub-unit is off, while the heating sub-unit is on and receives the parisons from the parison moulding unit and feeds them to the blow-moulding unit; the cooling sub-unit is on and receives the parisons from the parison moulding unit and feeds them to the storage system, while the heating sub-unit is on and receives the parisons from the storage system and feeds them to the blow-moulding unit; the cap moulding unit feeds the storage system while the storage system feeds the capping unit. 5. The bottling line according to claim 3 , wherein the blow-moulding unit and the filling unit are connected to the storage system and wherein the management unit is programmed to control the storage system and the units of the line according to the following operating configurations: the blow-moulding unit feeds the filling unit with the containers; the blow-moulding unit feeds the storage system with the containers; the storage system feeds the filling unit with the containers. 6. The bottling line according to claim 5 , comprising a labelling unit having an infeed connected to the storage system and to the outfeed of the blow-moulding unit, and an outfeed connected to the filling unit, wherein the connections between the labelling unit and the storage system, between the labelling unit and the blow-moulding unit and between the labelling unit and the filling machine are located in a controlled atmosphere environment, wherein the management unit is programmed to control the storage system and the units of the line according to an operating configuration where the storage system feeds the labelling unit with the containers and the labelling unit feeds the filling unit with the labelled containers. 7. The bottling line according to claim 1 , wherein the parison moulding unit comprises a rotary compression moulding machine. 8. The bottling line according to claim 7 , comprising a further parison moulding unit having a moulding machine which works by injection or by injection combined with compression, the further moulding unit being connected to the storage system for the feeding thereof, wherein the connection defines for the parisons a path contained in a controlled atmosphere environment. 9. The bottling line according to claim 1 , comprising a labelling unit whose infeed is connected to the outfeed of the capping unit, or whose infeed is connected to the outfeed of the blow-moulding unit and whose outfeed is connected to the infeed of the filling unit, wherein the connections between the labelling unit and the capping unit or between the labelling unit and the blow-moulding unit and the filling unit are located in a controlled atmosphere environment. 10. The bottling line according to claim 1 , comprising a sterilizer operating in the controlled atmosphere environment in order to make it an aseptic environment. 11. The bottling line according to claim 1 , wherein all the units making up the line are connected in such a way that the products transferred from one unit to the other, be they parisons, containers or caps, are in step with each other at all times. 12. The bottling line according to claim 1 , wherein the storage system is internally pressurized with ionized gas. 13. The bottling line according to claim 1 , wherein