Decorating machine with a monitoring unit

1 . A decorating machine for decorating containers comprising: a plurality of transporting units for transporting respective containers; a conveyor configured for conveying the units so that the containers are transported by means of the units being conveyed; a decorating module positioned on the periphery of the conveyor, the machine being configured so that the transported containers are sequentially decorated while being transported; wherein each transporting unit comprises: a respective lower support for supporting the bottom of the container; a respective upper support for holding the container on the lower support by acting on the top of the container, and for pressurizing the inner volume of the container, the upper support comprising: a respective pressurization device for pressurizing the inner volume of the container, by generating a fluid pressurization in the inner volume of the container; a respective holding head for holding the top of the container; a respective actuation device for pressing the head against the action of the pressurization, to hold the container on the lower support; and wherein the machine further comprises a monitoring unit which is configured for automatically and visually monitoring the deformation of the containers being conveyed to automatically detect, based on the monitored deformation, the operative condition of at least one of said devices and the level of defectiveness of the containers. 2 . The machine according to claim 1 , wherein the monitoring unit is configured to automatically detect a problem of too low pressure in a respective one of the pressurization devices or a too high defectiveness of the container if at least one container is collapsed on the support. 3 . The machine according to claim 1 , wherein the monitoring unit is configured to automatically discriminate between said problem of too low pressure and said too high defectiveness based on the number of collapsed containers, so that the problem is detected if the number of collapsed containers is above a preestablished threshold value. 4 . The machine according to claim 3 , wherein each of the respective pressurization devices of the transporting units share a same pressurization circuit. 5 . The machine according to claim 1 , wherein the monitoring unit is configured to automatically detect a problem of too high pressure in the pressurization devices if at least one container is too swollen. 6 . The machine according to claim 1 , wherein the monitoring unit is configured to automatically detect a problem in the actuation devices if at least one container is too long from the bottom to the top. 7 . The machine according to claim 6 , wherein each actuation device comprises a respective fluid spring and the actuation devices of the transporting units share a same fluid circuit. 8 . The machine according to claim 1 , wherein the monitoring unit is configured to automatically inform a user selectively about the detected defectiveness, a detected problem, or both. 9 . The machine according to claim 1 , wherein said monitoring unit comprises a camera or fotocamera. 10 . The machine according to claim 1 , wherein the monitoring unit is configured to automatically acquire at least two subsequent images of each container being conveyed, to automatically detect a decentralization of the container with respect to the lower support, the monitoring unit being configured to automatically inform a user about the detected decentralization and being configured to move during acquisition to follow a conveying movement of the lower support. 11 . The machine according to claim 10 , wherein each lower support comprises a respective plate having an axis (Z) and each container presents a longitudinal axis (Y) extending from the bottom to the top, said decentralization corresponding to an offset between the axis (Y) of the container and the axis (Z) of the plate. 12 . The machine according to claim 1 , wherein the monitoring unit is configured to automatically and visually monitor each lower support to automatically detect a level of wear of each of the lower supports, and the monitoring unit being configured to automatically inform a user about the detected wear. 13 . The machine according to claim 12 , wherein the monitoring unit is configured to automatically and visually monitor the conveyor in a setup configuration of the machine to automatically detect an absence of at least one support, and the monitoring unit being configured to automatically inform a user about the detected absence. 14 . The machine according to claim 1 , wherein the conveyor is a carousel configured to rotate on itself to convey the transporting units, wherein each lower support is rotatable on itself with respect to the carousel while being conveyed by the carousel, so that each container is decorated while being conveyed and while rotating on itself, and wherein the monitoring unit is radially offset with respect to the transporting units relative to a rotation axis (X) of the carousel. 15 . A monitoring unit for a decorating machine according to claim 1 .