Apparatus for producing plastic bottles

The invention claimed is: 1. An apparatus for producing capped and labelled plastic bottles, each of the plastic bottles having a longitudinal axis, a lateral wall, and a top neck substantially coaxial with the longitudinal axis, the apparatus comprising: a blow moulding machine comprising a blow moulding carousel rotating about a first vertical axis, the blow moulding carousel including: an input station for receiving a succession of preforms; an output station angularly spaced from the input station about the first vertical axis and releasing a succession of empty bottles; and a plurality of moulding units equally spaced angularly about the first vertical axis along a peripheral portion of the blow moulding carousel, wherein the moulding units are configured to be moved by the blow moulding carousel along a transfer path extending about the first vertical axis and through the input and output stations; a filling machine including: a filling carousel rotating about a second vertical axis, parallel to the first vertical axis, the filling carousel rotating in a direction opposite the blow molding carousel; and a plurality of filling devices, wherein each of the filling devices is configured to introduce a predetermined volume of a pourable product into a respective plastic bottle, wherein the filling carousel is configured to: receive the succession of empty bottles from the output station of the blow moulding machine at a first input station; transport the succession of empty bottles along a circular transfer path; receive a succession of labels at a second input station, arranged downstream and, angularly spaced from the first input station about the second vertical axis; and release a succession of filled and labelled bottles at a second output station, arranged downstream and angularly spaced from the first input station and the second input station about the second vertical axis; a conveying system configured to transfer the plastic bottles within the apparatus, the conveyor system defining a flow line that forms a distance between the blow moulding carousel and the filling carousel without further processing carousels; a pressurization circuit including a valve for activating the pressurization circuit, wherein the pressurization circuit is configured to pressurize each of the succession of empty bottles prior to labelling and filling; a labelling unit configured to label the succession of empty bottles pressurized by the pressurization circuit, wherein the labelling unit is arranged downstream of the first input station on the filling carousel; an actuating device configured to rotate each labelled bottle about the longitudinal axis during filling by a respective one of the filling devices and during transport along the circular transport path by the filling carousel, thereby generating centrifugal force and additional pressure for entrapping gas in the pourable product and prevent foaming of the pourable product; a decompression circuit configured to decompress labelled and fined bottles, wherein the actuating device is configured to rotate each of the labelled and filled bottles during decompression, thereby reducing foaming upon release from the respective one of the filling devices at atmospheric pressure; a capping machine located downstream of the filling machine and configured to cap the labelled and filled bottles, the capping machine including a capping carousel rotating about a third vertical axis, parallel to the first and second vertical axes, wherein the capping carousel is positioned opposite the flow line from the labelling unit; and a central electronic control system including an electronic process control unit configured to monitor and control operations of the blow moulding machine, the filling machine, the labelling unit, the capping machine, and the conveying system. 2. The apparatus as claimed in claim 1 , wherein the conveying system including a plurality of consecutive transport star wheels transferring the bottles in a continuous stream from the blow moulding carousel to the filling carousel. 3. The apparatus as claimed in claim 1 , wherein the labelling unit is arranged adjacent to a first sector of the filling carousel immediately downstream of a location at which the bottles are fed to the filling carousel by transport star wheels of the conveying system. 4. The apparatus as claimed in claim 1 , wherein the succession of empty bottles are advanced from the blow moulding carousel to the filling carousel along a given flow path, and wherein the blow moulding machine, the filling machine, and the labelling unit have control panels located on the same side with respect to the flow path. 5. The apparatus as claimed in claim 1 , wherein the distance to the filling carrousel from the blow moulding carousel is defined by the number of transport star wheels interposed therebetween. 6. The apparatus as claimed in claim 1 , wherein the capping machine is connected to the filling machine by at least one transport star wheel. 7. The apparatus as claimed in claim 6 , wherein the bottles are advanced from the blow moulding carousel to the filling carousel along a given flow path, and wherein the capping machine is arranged on the opposite side of the flow path with respect to the labelling unit. 8. The apparatus as claimed in claim 1 , wherein: the pressurization circuit is selectively in communication with each of the succession of empty bottles advanced by the filling carousel to feed an operative fluid, pressurized at a pressure higher than the atmospheric pressure, into each bottle; the decompression circuit is selectively in communication with each of the labelled and filled bottles advanced by the filling carousel to discharge excess pressure with respect to the atmospheric pressure, after completion of the filling of each bottle with the pourable product; the actuating device is selectively switched to an active state to rotate each labelled bottle about the longitudinal axis during transport by the filling carousel; a filling machine control panel is configured to control activation/deactivation of each filling device and the actuating device, and connection of the pressurization circuit and the decompression circuit with each bottle; and the filling machine control panel is configured to simultaneously maintain the actuating, device in the active state while the decompression circuit is in communication with each labelled and filled bottle so as to rotate each of the labelled and filled bottles about the longitudinal axis during decompression. 9. The apparatus as claimed in claim 8 , wherein the control device is configured to maintain the actuating device in the active state while one of the filling devices is activated so as to rotate each labelled bottle about the longitudinal axis during filling with the pourable product. 10. The apparatus as claimed in claim 8 , wherein the actuating device is controlled by the control device to decelerate the labelled and filled bottles during decompression. 11. The apparatus as claimed in claim 1 , further comprising a plurality of handling units configured to receive the succession of empty bottles from the blow moulding carousel and retain the succession of empty bottles during filling with the pourable product. 12. The apparatus as claimed in claim 11 , wherein the labelling unit is arranged peripherally to the filling carousel and is configured to feed the succession of labels to the plurality of handling units carrying the succession of empty bottles. 13. The apparatus as claimed in claim 11 , wherein each of the handling units includes a support device configure