The automated assembly and manufacture of a submarine sandwich includes a number of robots that are used to slice, open, and add inputs to a roll of bread. The inputs may be sliced and portioned at individual stations and then the inputs can be delivered to the bread or the bread can be conveyed to the inputs. In either sense, the selected inputs are added to the bread, based on the type of sandwich to be assembled. The assembled sandwich is then conveyed to a packaging station, where the sandwich is packaged, labeled, and prepared for shipment.

A perforating apparatus may have a first roll comprising a first design and a second roll comprising a second design, each roll being in close proximity with a support member and each roll comprising a blade or an anvil. A web material may travel a first path between the first roll and the support member or, alternatively, may travel a second path between the second roll and the support member.

A perforating apparatus may have a first roll comprising a first design and a second roll comprising a second design, each roll being in close proximity with a support member and each roll comprising a blade or an anvil. A web material may travel a first path between the first roll and the support member or, alternatively, may travel a second path between the second roll and the support member.

A sheet processing apparatus (1) includes a first processing section (1000), a second processing section (2000), and a third processing section (3000) arranged on a straight line, and conveys a sheet (4200) therebetween. The first processing section (1000) forms a plurality of first processing lines extending in a first direction (an X axial direction) on the sheet (4200), by moving a plurality of tools (1110-1260) to the first direction in relation to the sheet (4200). The second processing section (2000) forms a plurality of second processing lines to a second direction (a Y axial direction) orthogonal to the first direction on the sheet (4200), by moving a plurality of tools to the second direction in relation to the sheet (4200). The third processing section (3000) forms a third processing line (aslant line, curve line) on the sheet, by relatively moving the sheet (4200) and the tool (3110, 3120).

A sheet processing apparatus (1) includes a first processing section (1000), a second processing section (2000), and a third processing section (3000) arranged on a straight line, and conveys a sheet (4200) therebetween. The first processing section (1000) forms a plurality of first processing lines extending in a first direction (an X axial direction) on the sheet (4200), by moving a plurality of tools (1110-1260) to the first direction in relation to the sheet (4200). The second processing section (2000) forms a plurality of second processing lines to a second direction (a Y axial direction) orthogonal to the first direction on the sheet (4200), by moving a plurality of tools to the second direction in relation to the sheet (4200). The third processing section (3000) forms a third processing line (aslant line, curve line) on the sheet, by relatively moving the sheet (4200) and the tool (3110, 3120).

The invention discloses a film-cutting device of an environmental coating machine, belonging to the technical field of mechanical engineering, which solves the existing problem that the protective film clamped by the conveyor belts are difficult to be cut. The film-cutting device of an environmental coating machine comprises frame (1), several pairs of upper conveyor belts (12) and lower conveyor belts (13), coating areas (15), wherein the film-cutting device comprises a rotation pipe (2), two transmission rods (3), film cutters (32), transverse edges (321), longitudinal edges (331), and a drive member and a spreading element arranged on the frame (1); this film-cutting device of an environmental coating machine is able to but the protective film clamped by the conveyor belts, which can improve an efficiency, reduce the usage amount of the protective film and be more environmental.

A method for unpacking a workpiece, in particular an optical lens or an optical lens blank, from a package, includes an automated cutting open step of a first package side of the package, and an automated sliding of the workpiece out of the package step on the first package side. An unpacking apparatus for unpacking a workpiece from a package, has a feed station for receiving a package in which a workpiece is arranged, a cutting-open station having a first cutting or sawing tool for the automated cutting open of a first package side of the package downstream of the feed station, and a slide-out station downstream of the cutting-open station. A relative movement can be produced between the package and the workpiece in an automated manner so that the workpiece slides out of the package on the first package side.

A deagglomerator for use in resizing masses of cells is disclosed. The deagglomerator may include a plurality of apertures defined by a plurality of front and back edges. The masses of cells may be passed through the plurality of apertures from the front to the back, and from the back to the front, repeatedly. The deagglomerator may also include a plurality of blades that may aid in the deagglomeration of the cell masses. The deagglomerator may be configured between two syringes so that the tissue may be passed back and forth from the first syringe through the device to the second syringe, and then back again from the second syringe through the device and to the first syringe. In this way, the masses of cells may be properly deagglomerated.

A deagglomerator for use in resizing masses of cells is disclosed. The deagglomerator may include a plurality of apertures defined by a plurality of front and back edges. The masses of cells may be passed through the plurality of apertures from the front to the back, and from the back to the front, repeatedly. The deagglomerator may also include a plurality of blades that may aid in the deagglomeration of the cell masses. The deagglomerator may be configured between two syringes so that the tissue may be passed back and forth from the first syringe through the device to the second syringe, and then back again from the second syringe through the device and to the first syringe. In this way, the masses of cells may be properly deagglomerated.

A deagglomerator for use in resizing masses of cells is disclosed. The deagglomerator may include a plurality of apertures defined by a plurality of front and back edges. The masses of cells may be passed through the plurality of apertures from the front to the back, and from the back to the front, repeatedly. The deagglomerator may also include a plurality of blades that may aid in the deagglomeration of the cell masses. The deagglomerator may be configured between two syringes so that the tissue may be passed back and forth from the first syringe through the device to the second syringe, and then back again from the second syringe through the device and to the first syringe. In this way, the masses of cells may be properly deagglomerated.