A gravure offset printing apparatus includes two clamps, a printing roller and a driving device. The two clamps are applicable to clamp individually two opposing ends of a blanket. The printing roller having an axial direction parallel to a first direction is disposed between the two clamps. The blanket wraps part of a radial periphery of the printing roller. The driving device is to drive the two clamps to undergo reverse motions so as to displace the blanket, and the blanket further rotates the printing roller. A gravure module, disposed on a platform of the gravure offset printing apparatus, has a groove for containing an offset ink. While the two clamps pull the blanket to undergo the reverse motions, a surface of the blanket contacts the gravure module so as to adhere the offset ink on the surface of the blanket.

A rubber blanket for a printing cylinder of a printing machine, comprising at least an upper printing layer made of compact elastomeric material, at least a lower layer having a contact surface in contact with the printing cylinder, and at least one fabric reinforcement layer interposed between the upper layer and the lower layer, the lower layer being made of expanded elastomeric material.

A rubber blanket for a printing cylinder of a printing machine, comprising at least an upper printing layer made of compact elastomeric material, at least a lower layer having a contact surface in contact with the printing cylinder, and at least one fabric reinforcement layer interposed between the upper layer and the lower layer, the lower layer being made of expanded elastomeric material.

A printing machine includes: a printing plate attached to a plate cylinder; a blanket configured to transfer ink from the printing plate to a printed material; a blanket wheel configured to rotate the blanket; and at least one of a distance sensor or a temperature sensor. The distance sensor is provided in the blanket wheel and configured to measure a distance of the printing plate to the blanket wheel, and the temperature sensor is provided in the blanket wheel and configured to measure a temperature of the printing plate.

A printing machine includes: a printing plate attached to a plate cylinder; a blanket configured to transfer ink from the printing plate to a printed material; a blanket wheel configured to rotate the blanket; and at least one of a distance sensor or a temperature sensor. The distance sensor is provided in the blanket wheel and configured to measure a distance of the printing plate to the blanket wheel, and the temperature sensor is provided in the blanket wheel and configured to measure a temperature of the printing plate.

A device for treating substrates has a separation system, with which processed substrates can be separated into one or more waste parts and at least one blank. The device for treating substrates offers improved flexibility. The separation system comprises a transport cylinder and a stripping cylinder associated therewith. The transport cylinder is able to secure replaceable packing, along with first and second openings which, when the packing is secured, are covered at least partially by perforations that may be formed in the packing. A first air supply supplies air to the first openings and a second air supply supplies air to the second openings independently of the supply of the air to the first openings. The first and the second air supply are switchable between a suction air supply and a blower air supply.

A device for treating substrates has a separation system, with which processed substrates can be separated into one or more waste parts and at least one blank. The device for treating substrates offers improved flexibility. The separation system comprises a transport cylinder and a stripping cylinder associated therewith. The transport cylinder is able to secure replaceable packing, along with first and second openings which, when the packing is secured, are covered at least partially by perforations that may be formed in the packing. A first air supply supplies air to the first openings and a second air supply supplies air to the second openings independently of the supply of the air to the first openings. The first and the second air supply are switchable between a suction air supply and a blower air supply.

A pair of metallic beverage container bodies is sequentially decorated in a direct single file queue by a dry offset rotary metallic beverage container decorator. A container body has a common design element, a first unique design element in a first color, and a second unique design element in a second color on its outer surface. The first unique design element is located within a boundary of the second unique design element. A second container body has the common design element, a third unique design element in the first color, and a fourth unique design element in the second color on the outer surface. The third unique design element is unique relative to the first and second design elements. The third unique design element is located within a boundary of the fourth unique design element.

A method for manufacturing a laminate (60) according to the present invention includes: preparing a glass substrate (610) having a main surface (611); and forming a functional layer (660) by gravure offset printing so as to cover the main surface (611) of the glass substrate (610). The functional layer (660) includes at least one of a shatterproof layer, an anti-fingerprint layer, an antireflection layer, and an anti-glare layer, for example.

A method for manufacturing a laminate (60) according to the present invention includes: preparing a glass substrate (610) having a main surface (611); and forming a functional layer (660) by gravure offset printing so as to cover the main surface (611) of the glass substrate (610). The functional layer (660) includes at least one of a shatterproof layer, an anti-fingerprint layer, an antireflection layer, and an anti-glare layer, for example.