Methods and apparatus for forming containers from container blanks are provided. An apparatus comprises a blank holding apparatus operable to releasably hold a plurality of carton blanks in a first configuration. The apparatus also has a rotary apparatus operable to rotate an engagement device along a rotational path from a first retrieval location where the engagement device is operable to engage with and retrieve a blank from the plurality of blanks held in the blank holding apparatus, to a second operational location. The apparatus also has a movement apparatus inter-connected to the rotary apparatus. The movement apparatus is operable to move the rotary apparatus and the engagement device with the engaged blank away from the blank holding apparatus, which may be translational movement away from the blank holding apparatus.

Methods and apparatus for forming containers from container blanks are provided. An apparatus comprises a blank holding apparatus operable to releasably hold a plurality of carton blanks in a first configuration. The apparatus also has a rotary apparatus operable to rotate an engagement device along a rotational path from a first retrieval location where the engagement device is operable to engage with and retrieve a blank from the plurality of blanks held in the blank holding apparatus, to a second operational location. The apparatus also has a movement apparatus inter-connected to the rotary apparatus. The movement apparatus is operable to move the rotary apparatus and the engagement device with the engaged blank away from the blank holding apparatus, which may be translational movement away from the blank holding apparatus.

A system for handling sheets of flexible material. The system comprises a first roller (5.2) which comprises a plurality of first releasable connectors (3.2) and a second roller (5.3) which comprises a plurality of second releasable connectors. The system further comprises an array of third releasable connectors (2.1) which is displaceable between at least the first and second rollers (5.2, 5.3). The first, second and third releasable connectors releasably attach to a sheet of flexible material in use.

In a sheet processing method for sheets of paper or cardboard, a sheet for processing is, in the processing station, firstly brought to a standstill and then set down, whereas the processed sheet is, in the output station, set down from a moving state. A punching or stamping machine has an input station, a processing station and an output station arranged one behind the other in a sheet transport path, and a sheet gripping device which is designed to set down a sheet for processing in the processing station when the sheet gripping device has come to a standstill in a second reversal position, and to set down a processed sheet in the output station as the sheet gripping device approaches the second reversal position.

In a sheet processing method for sheets of paper or cardboard, a sheet for processing is, in the processing station, firstly brought to a standstill and then set down, whereas the processed sheet is, in the output station, set down from a moving state. A punching or stamping machine has an input station, a processing station and an output station arranged one behind the other in a sheet transport path, and a sheet gripping device which is designed to set down a sheet for processing in the processing station when the sheet gripping device has come to a standstill in a second reversal position, and to set down a processed sheet in the output station as the sheet gripping device approaches the second reversal position.

A device for positioning a garment on a printing platen for printing, comprises a gripper to controllably grip onto a first edge of the garment at a first side of the platen; and a sliding mechanism connected to the gripper to slide the gripper from the first side of the platen to a second side of the platen opposite the first side, thereby to pull the garment edge to the second side across the platen and position the garment across the platen for printing. The use of the device may prevent back pain related to repeated loading and unloading of platen-based textile printing devices.

An apparatus transferring and rotating an object from a retaining station to a releasing station along an annular transfer path, the object has a first orientation in the retaining station which is different from a second orientation in the releasing station; the apparatus includes: a stator having a revolution body provided with a lateral surface on which a first cam profile is formed; a rotor that is rotatable about a first rotation axis with respect to the stator; at least one retaining head of the object connected to the rotor, which has a retaining element coupled to the first cam profile which can be rotated about a second axis of rotation with respect to the rotor; and wherein the stator has a second cam profile and the transferring and rotating apparatus has at least a first annular guide disposed along the transfer path and the head has at least one first slide supporting the retaining element and is slidably coupled to the first annular guide, the first slide being connected to the rotor by way of a respective angular position variation mechanism coupled to the second cam profile to induce the sliding of the first slide into the first annular guide.

An apparatus transferring and rotating an object from a retaining station to a releasing station along an annular transfer path, the object has a first orientation in the retaining station which is different from a second orientation in the releasing station; the apparatus includes: a stator having a revolution body provided with a lateral surface on which a first cam profile is formed; a rotor that is rotatable about a first rotation axis with respect to the stator; at least one retaining head of the object connected to the rotor, which has a retaining element coupled to the first cam profile which can be rotated about a second axis of rotation with respect to the rotor; and wherein the stator has a second cam profile and the transferring and rotating apparatus has at least a first annular guide disposed along the transfer path and the head has at least one first slide supporting the retaining element and is slidably coupled to the first annular guide, the first slide being connected to the rotor by way of a respective angular position variation mechanism coupled to the second cam profile to induce the sliding of the first slide into the first annular guide.

Provided are a medium conveying device and an inkjet printer that can convey a medium stably. In a case where a paper P is conveyed along a plane in a conveying unit 40, a posture of the paper P is corrected by a posture correction unit 20, and then the paper P is delivered to the conveying unit 40 by a delivery unit 30. The delivery unit 30 holds a leading end portion of the paper P of which the posture is corrected by the posture correction unit 2 with a paper holding bar 31, and delivers the paper P to the conveying unit 40 by moving the paper holding bar 31 linearly along a conveying direction of the paper P by the conveying unit 40.

In one example, a sheet media alignment system includes: a guide (12) defining a curved media path (14) that extends from an upstream part of the guide to a downstream part of the guide; a movable blocker (16, 56) to block the curved media path (14) at the downstream part of the guide, the blocker movable into and out of a blocking position in which the blocker is spaced from the downstream part of the guide a first distance; and a driver (24, 58) upstream from the curved media path to drive a media sheet into the guide along the curved media path and into the blocker. The driver is spaced from the upstream part of the guide a second distance greater than the first distance such that a media sheet driven into the blocker will buckle between the driver and the guide before it will buckle between the guide and the blocker.