There is provided a device, system, and method for flexible feeding capable of being integrated into an assembly system. The device includes a disperser, a part retainer, a vibrator, an excess part removal device, a pick-and-placer, carriers, a transporter, a carrier inspection disc, a part remover, a gate, a transfer station, and re-entry tracks. The method includes dispersing parts, agitating parts, removing excess parts, picking captured parts, placing the captured parts into carriers, inspecting the carriers, positioning the carriers at a transfer station, and transferring the parts to a downstream processor. The system includes a flexible feeding device configured to perform flexible feeding operations, a data processor, and a medium having machine-readable instructions executable by the data processor and configured to cause the data processor to generate signals useful in the synchronization of two or more flexible feeding operations.

There is provided a device, system, and method for flexible feeding capable of being integrated into an assembly system. The device includes a disperser, a part retainer, a vibrator, an excess part removal device, a pick-and-placer, carriers, a transporter, a carrier inspection disc, a part remover, a gate, a transfer station, and re-entry tracks. The method includes dispersing parts, agitating parts, removing excess parts, picking captured parts, placing the captured parts into carriers, inspecting the carriers, positioning the carriers at a transfer station, and transferring the parts to a downstream processor. The system includes a flexible feeding device configured to perform flexible feeding operations, a data processor, and a medium having machine-readable instructions executable by the data processor and configured to cause the data processor to generate signals useful in the synchronization of two or more flexible feeding operations.

Embodiments of a system and method for shingulating, singulating, and synchronizing articles in an article feeder system are disclosed. The article feeder system may include a shingulating device configured to receive a stack of articles and to produce a positively lapped stack of articles, a plurality of picking devices configured to pick one or more articles from the positively lapped stack of articles and to produce one or more singulated articles, and one or more synchronization devices configured to deliver the one or more singulated articles to one or more sorter windows.

An ESD protection composite structure includes a link layer, a progressive layer, and a composite layer. The link layer is used for disposing the ESD protection composite structure on a substrate, wherein a material of the link layer includes a metal material. The progressive layer is disposed on the link layer, wherein the material of the progressive layer includes a non-stoichiometric metal oxide material, and an oxygen concentration in the non-stoichiometric metal oxide material is increased gradually away from the substrate in a thickness direction of the progressive layer. The composite layer is disposed on the progressive layer, wherein the composite layer includes a stoichiometric metal oxide material and a non-stoichiometric metal oxide material, and a ratio of the non-stoichiometric metal oxide material and the stoichiometric metal oxide material in the composite layer may make a sheet resistance value of the composite layer 110.sup.7 /sq to 110.sup.8 /sq.

An ESD protection composite structure includes a link layer, a progressive layer, and a composite layer. The link layer is used for disposing the ESD protection composite structure on a substrate, wherein a material of the link layer includes a metal material. The progressive layer is disposed on the link layer, wherein the material of the progressive layer includes a non-stoichiometric metal oxide material, and an oxygen concentration in the non-stoichiometric metal oxide material is increased gradually away from the substrate in a thickness direction of the progressive layer. The composite layer is disposed on the progressive layer, wherein the composite layer includes a stoichiometric metal oxide material and a non-stoichiometric metal oxide material, and a ratio of the non-stoichiometric metal oxide material and the stoichiometric metal oxide material in the composite layer may make a sheet resistance value of the composite layer 110.sup.7 /sq to 110.sup.8 /sq.

A laser processing machine includes a guide member with which a laser head is engaged so as to be movable to one side in a conveying direction, a moving device configured to move the laser head along the guide member, a counterweight which is movably engaged to the other side of the guide member in the conveying direction and moves along the guide member in a direction opposite to a moving direction of the laser head in conjunction with the laser head moved by the moving device, and a control device which controls the moving device to move the counterweight to a position facing the grease feeding device and to perform grease feeding to an engaged portion between the counterweight and the guide member.

A laser processing machine includes a guide member with which a laser head is engaged so as to be movable to one side in a conveying direction, a moving device configured to move the laser head along the guide member, a counterweight which is movably engaged to the other side of the guide member in the conveying direction and moves along the guide member in a direction opposite to a moving direction of the laser head in conjunction with the laser head moved by the moving device, and a control device which controls the moving device to move the counterweight to a position facing the grease feeding device and to perform grease feeding to an engaged portion between the counterweight and the guide member.

The invention relates to a device for transferring elements through a surface comprising a frame fastened in an opening of the surface to be crossed through and a container joined to the frame comprising at least one pair of rods joining the container to the frame on one side of the container, such that each pair of rods is made up of a first rod and a second rod, the first rod and the second rod being parallel to each other, furthermore each rod is fastened to the frame by means of a bolt on one end of each rod and to the container by means of another bolt on the opposite end of the rod such that the rods have the ability to rotate resting on the bolts.

The invention relates to a device for transferring elements through a surface comprising a frame fastened in an opening of the surface to be crossed through and a container joined to the frame comprising at least one pair of rods joining the container to the frame on one side of the container, such that each pair of rods is made up of a first rod and a second rod, the first rod and the second rod being parallel to each other, furthermore each rod is fastened to the frame by means of a bolt on one end of each rod and to the container by means of another bolt on the opposite end of the rod such that the rods have the ability to rotate resting on the bolts.

A method and device for supporting the isolating of pieces of laundry from a pile of laundry by means of an imaging apparatus. A further imaging apparatus serves for raising a front edge region of the piece of laundry onto the feed conveyor in an aligned manner. Furthermore, the gripping of corners or also edges, in particular the alignment thereof, can be detected by means of an imaging apparatus. The gripping and aligning of the pieces of laundry can be controlled or regulated by way of the positions and edge contours of the same which are determined by the imaging apparatuses. As a result, reliable, fully automated isolating of pieces of laundry and/or fully automated, targeted feeding of pieces of laundry to a folding machine or another such laundry subsequent handling apparatus is ensured.