A system and process of printing a package of expanded material (e.g., expanded starch, foam or other expanded material). The expanded material can be heated and extruded, poured, sprayed, or otherwise applied in malleable form that sets up to become a porous protective covering for an item to be packaged. In an example, a layer of expanded material is laid down, and the item in a protective covering (e.g., a plastic bag, sleeve, coating, etc.) is positioned on the layer of expanded material. Additional layers or expanded material may be applied, thereby encasing the item. The top surface of the expanded material may be flattened, such as by operation of a roller, press, or cutter. The top surface may be sprayed with a shellac sealant, paint, or other coating, to allow printing of a label on the top surface.

Dunnage may be applied to surfaces of items by nozzles coupled to one or more robotic arms that may be operated in six degrees of freedom within three-dimensional space. The dunnage is applied in substantially hollow pieces or sections by one or more 3D printing processes, e.g., by deposition. Such pieces or sections may be applied in one or more series or patterns along surfaces of an item prior to enveloping the item in one or more wraps or covers, or depositing the item in one or more containers. Various characteristics of the dunnage, such as materials from which the dunnage is formed, diameters or thicknesses of the dunnage, the series or patterns in which the dunnage is applied to the surface of the item, or any other factors may be selected based on one or more attributes of the items, such as dimensions or shipping and handling instructions.

Dunnage may be applied to surfaces of items by nozzles coupled to one or more robotic arms that may be operated in six degrees of freedom within three-dimensional space. The dunnage is applied in substantially hollow pieces or sections by one or more 3D printing processes, e.g., by deposition. Such pieces or sections may be applied in one or more series or patterns along surfaces of an item prior to enveloping the item in one or more wraps or covers, or depositing the item in one or more containers. Various characteristics of the dunnage, such as materials from which the dunnage is formed, diameters or thicknesses of the dunnage, the series or patterns in which the dunnage is applied to the surface of the item, or any other factors may be selected based on one or more attributes of the items, such as dimensions or shipping and handling instructions.

A film-applying device and method for 3D glass with two opposite curved edges. The film-applying device comprises: an upper base for fixing a film; a lower base for fixing the 3D glass; a roller structure for rotating a rotary cylinder of the upper base; and a lifting cylinder for moving the upper base, the rotary cylinder, and the roller structure up and down and making the roller structure apply a pressure to press-fit the 3D glass and the film. The roller structure comprises a lower roller and an upper press roller; the rotary cylinder is used for rotating the upper base to change or fix the relative position of the upper base and the roller structure. The device has a simplified structure. The device and method are suitable for applying a film to 3D glass with two opposite curved edges due to convenient operations, high film-applying precision and efficiency.

A film-applying device and method for 3D glass with two opposite curved edges. The film-applying device comprises: an upper base for fixing a film; a lower base for fixing the 3D glass; a roller structure for rotating a rotary cylinder of the upper base; and a lifting cylinder for moving the upper base, the rotary cylinder, and the roller structure up and down and making the roller structure apply a pressure to press-fit the 3D glass and the film. The roller structure comprises a lower roller and an upper press roller; the rotary cylinder is used for rotating the upper base to change or fix the relative position of the upper base and the roller structure. The device has a simplified structure. The device and method are suitable for applying a film to 3D glass with two opposite curved edges due to convenient operations, high film-applying precision and efficiency.

A system and process of printing a package of expanded material (e.g., expanded starch, foam or other expanded material). The expanded material can be heated and extruded, poured, sprayed, or otherwise applied in malleable form that sets up to become a porous protective covering for an item to be packaged. In an example, a layer of expanded material is laid down, and the item in a protective covering (e.g., a plastic bag, sleeve, coating, etc.) is positioned on the layer of expanded material. Additional layers or expanded material may be applied, thereby encasing the item. The top surface of the expanded material may be flattened, such as by operation of a roller, press, or cutter. The top surface may be sprayed with a shellac sealant, paint, or other coating, to allow printing of a label on the top surface.

A method for packaging a housing having an essentially parallelepipedal form defined by main faces includes a first larger face and a second larger face and lateral faces, the lateral faces being separated in pairs by corners of the housing, the housing housing a digital detector of ionizing radiation in the form of a flat panel, the method comprising a main step of covering of the housing by several films comprising a first step of covering of the first larger face of the housing by a first film configured, positioned and oriented relative to the first larger face so as to include flaps extending beyond the first larger face and capable of being folded independently of one another to cover adjacent lateral faces.

A film-applying device and method for 3D glass with two opposite curved edges. The film-applying device comprises: an upper base for fixing a film; a lower base for fixing the 3D glass; a roller structure for rotating a rotary cylinder of the upper base; and a lifting cylinder for moving the upper base, the rotary cylinder, and the roller structure up and down and making the roller structure apply a pressure to press-fit the 3D glass and the film. The roller structure comprises a lower roller and an upper press roller; the rotary cylinder is used for rotating the upper base to change or fix the relative position of the upper base and the roller structure. The device has a simplified structure. The device and method are suitable for applying a film to 3D glass with two opposite curved edges due to convenient operations, high film-applying precision and efficiency.

A film peeling machine movement assembly is disclosed in the embodiments of the disclosure, including: a film peeling machine provided with a frame having a first portion and a second portion; a first engaging component connected with one of the first portion and the second portion of the frame; and a first moving device provided with a first moving component and a first side engaging component connected with the first moving component for engagement with the first engaging component for moving the film peeling machine along a first path by the first moving component. The film peeling machine movement assembly of the embodiments of the disclosure is applied, so as to grasp and to move the film peeling machine automatically such that the film peeling machine is moved into and out of a replacement chamber and moved into an operational position automatically.

A film peeling machine movement assembly is disclosed in the embodiments of the disclosure, including: a film peeling machine provided with a frame having a first portion and a second portion; a first engaging component connected with one of the first portion and the second portion of the frame; and a first moving device provided with a first moving component and a first side engaging component connected with the first moving component for engagement with the first engaging component for moving the film peeling machine along a first path by the first moving component. The film peeling machine movement assembly of the embodiments of the disclosure is applied, so as to grasp and to move the film peeling machine automatically such that the film peeling machine is moved into and out of a replacement chamber and moved into an operational position automatically.