An image control system for a can decorator includes an electronic can decorator control assembly, a mechanical can decorator control assembly and a number of sensors. The electronic can decorator control assembly includes a programmable logic circuit and a number of modules. The mechanical can decorator control assembly is structured to be, and is, operatively coupled to at least one of an ink fountain ink application adjustment assembly, a ductor roll assembly duty cycle adjustment assembly, a printing plate cylinder assembly axial adjustment assembly or a printing plate cylinder assembly circumferential adjustment assembly. The electronic can decorator control assembly is structured to be operatively coupled to the mechanical can decorator control assembly. Each sensor in the number of sensors is structured to measure a can body applied image characteristic and to generate an image signal including data representing the can body applied image characteristic.

A positioning system for positioning a plurality of rotatable objects for processing includes a base plate that is configured to be positioned on a support surface of a processing machine. The base plate defines a plurality of alignment members to align the base plate to the support surface. The positioning system further includes at least three elongate cylindrical members that are arranged in parallel to one another and rotatably supported in alignment with the base plate. The cylindrical members are configured to support the rotatable objects. The positioning system also includes a rotation mechanism configured to cooperate with the cylindrical members and rotate the cylindrical members in synchrony so as to rotate the plurality of rotatable objects in synchrony. The positioning system further includes a rotational control mechanism configured to cooperate with the rotation mechanism to control rotation of the cylindrical members.

A positioning system for positioning a plurality of rotatable objects for processing includes a base plate that is configured to be positioned on a support surface of a processing machine. The base plate defines a plurality of alignment members to align the base plate to the support surface. The positioning system further includes at least three elongate cylindrical members that are arranged in parallel to one another and rotatably supported in alignment with the base plate. The cylindrical members are configured to support the rotatable objects. The positioning system also includes a rotation mechanism configured to cooperate with the cylindrical members and rotate the cylindrical members in synchrony so as to rotate the plurality of rotatable objects in synchrony. The positioning system further includes a rotational control mechanism configured to cooperate with the rotation mechanism to control rotation of the cylindrical members.

While deterioration in processing efficiency caused by printing devices with slow printing speed is suppressed, facilities necessary to manufacture can bodies are able to be shared. A can body manufacturing system includes: a can body conveyance route, by which can bodies are conveyed, provided to branch halfway and thereafter merge again, the can body conveyance route at least including a first branching conveyance route and a second branching conveyance route; a first printing device performing printing on can bodies conveyed by the first branching conveyance route; and a second printing device performing printing on can bodies conveyed by the second branching conveyance route, the number of can bodies on which printing is performed by the second printing device per unit time being different from the number of can bodies on which printing is performed by the first printing device per unit time.

While deterioration in processing efficiency caused by printing devices with slow printing speed is suppressed, facilities necessary to manufacture can bodies are able to be shared. A can body manufacturing system includes: a can body conveyance route, by which can bodies are conveyed, provided to branch halfway and thereafter merge again, the can body conveyance route at least including a first branching conveyance route and a second branching conveyance route; a first printing device performing printing on can bodies conveyed by the first branching conveyance route; and a second printing device performing printing on can bodies conveyed by the second branching conveyance route, the number of can bodies on which printing is performed by the second printing device per unit time being different from the number of can bodies on which printing is performed by the first printing device per unit time.

A printing plate pressure adjustment system for a can decorator including a printing plate cylinder assembly having a printing plate cylinder drive shaft, and a blanket wheel. The system, includes an actuator, a control system structured to control operation of the actuator to adjust a pressure, between the printing plate cylinder assembly and the blanket wheel, an eccentric bushing disposed around the printing plate cylinder drive shaft, wherein rotation of the eccentric bushing causes the printing plate cylinder to move toward or away from the blanket wheel, and a drive mechanism coupled between the actuator and the eccentric bushing, wherein operation of the actuator causes the drive mechanism to rotate the eccentric bushing.

A printing plate pressure adjustment system for a can decorator including a printing plate cylinder assembly having a printing plate cylinder drive shaft, and a blanket wheel. The system, includes an actuator, a control system structured to control operation of the actuator to adjust a pressure, between the printing plate cylinder assembly and the blanket wheel, an eccentric bushing disposed around the printing plate cylinder drive shaft, wherein rotation of the eccentric bushing causes the printing plate cylinder to move toward or away from the blanket wheel, and a drive mechanism coupled between the actuator and the eccentric bushing, wherein operation of the actuator causes the drive mechanism to rotate the eccentric bushing.

An image control system for a can decorator includes an electronic can decorator control assembly, a mechanical can decorator control assembly and a number of sensors. The electronic can decorator control assembly includes a programmable logic circuit and a number of modules. The mechanical can decorator control assembly is structured to be, and is, operatively coupled to at least one of an ink fountain ink application adjustment assembly, a ductor roll assembly duty cycle adjustment assembly, a printing plate cylinder assembly axial adjustment assembly or a printing plate cylinder assembly circumferential adjustment assembly. The electronic can decorator control assembly is structured to be operatively coupled to the mechanical can decorator control assembly. Each sensor in the number of sensors is structured to measure a can body applied image characteristic and to generate an image signal including data representing the can body applied image characteristic.

An image control system for a can decorator includes an electronic can decorator control assembly, a mechanical can decorator control assembly and a number of sensors. The electronic can decorator control assembly includes a programmable logic circuit and a number of modules. The mechanical can decorator control assembly is structured to be, and is, operatively coupled to at least one of an ink fountain ink application adjustment assembly, a ductor roll assembly duty cycle adjustment assembly, a printing plate cylinder assembly axial adjustment assembly or a printing plate cylinder assembly circumferential adjustment assembly. The electronic can decorator control assembly is structured to be operatively coupled to the mechanical can decorator control assembly. Each sensor in the number of sensors is structured to measure a can body applied image characteristic and to generate an image signal including data representing the can body applied image characteristic.

Provided are a personalized automatic customization method and an apparatus for a ring-pull can. In the apparatus, a bin device is located at an upper part of the apparatus, a distributing device is installed below a bin device, and a pushing device is arranged on a side of the distributing device and a positioning device. A pattern of a marking content is set on the control system, and a feeding wheel is driven to rotate so that a canned beverage falls down. The pushing device pushes the ring-pull can to the positioning device. The control system receives the positioning signal, and a marking header of the marking device is driven to mark on an outer surface of the ring-pull can. The pushing device pushes the ring-pull can towards a second chute, and an electrical thrust cylinder extends the electric push rod out thereof to push the discharging hopper forward.