The wafer stack (100) comprises a first wafer (OW1) referred to as optics wafer and a second wafer (SW) referred to as spacer wafer, said optics wafer (OW1) having manufacturing irregularities. The spacer wafer (SW) is structured such that it at least partially compensates for said manufacturing irregularities. The corresponding method for manufacturing a device, which in particular can be an optical device, comprises carrying out a correction step for at least partially compensating for manufacturing irregularities. Such a correction step comprises providing a wafer (SW) referred to as spacer wafer, wherein that spacer wafer is structured for at least partially compensating for said manufacturing irregularities. Those manufacturing irregularities may comprise a deviation from a nominal value, e.g., a irregularities in focal length. The invention can allow to mass produce high-precision devices at a high yield.

A cutting insert of an embodiment of the present invention includes an upper surface, a lower surface, a side surface connected to each of the upper surface and the lower surface, and an upper cutting edge located at an intersection of the upper surface and the side surface. The lower surface includes a mount part having alternately three first top portions spaced a distance a away from a central axis extending between the upper and lower surfaces and three second top portions spaced a distance b away from the central axis in a bottom view. The mount part further has a concave part including at least the central axis. The second top portions are located closer to the upper surface than the first top portions. A cutting tool with the cutting insert, and a method of manufacturing a machined product by using the cutting tool are also provided.

A carrier device (10) is for handling a lens (12) which is received therein and which has a lateral edge (21), in particular for handling an eyeglass lens (12) in a machining or finishing process. The carrier device (10) comprises a main body (14) and has a connecting member (24) for releasably connecting the main body (14) to the received lens (12). The connecting member (24) forms, with the main body (14), a protective cover (15) surrounding the lateral edge (21) of the received lens (12) and a surface (30) of the received lens (12) directed toward the main body (14). The connecting member (24) is releasably connected to the main body (14).

A volume-reducing container system and method for reducing empty air space within the container as the contents are removed, providing a spiral-grooved container body with a continuous downward spiraling groove along a cylindrical side surface, and providing a cutting cap to seal the container body, and having mounted inside a reducing cutter to follow and cut through the continuous downward spiraling groove when the cutting cap is turned in a nominally clockwise direction, yielding a smaller container and a tail of removed material, a tail channel within the cutting cap to allow passage of the tail of removed material out of the cutting cap, and a tail-trimming cutter which moves away from the tail of removed material during clockwise rotation of the cutting cap, and moves into and cuts the tail of removed material when the cutting cap is rotated counterclockwise.

A volume-reducing container system and method for reducing empty air space within the container as the contents are removed, providing a spiral-grooved container body with a continuous downward spiraling groove along a cylindrical side surface, and providing a cutting cap to seal the container body, and having mounted inside a reducing cutter to follow and cut through the continuous downward spiraling groove when the cutting cap is turned in a nominally clockwise direction, yielding a smaller container and a tail of removed material, a tail channel within the cutting cap to allow passage of the tail of removed material out of the cutting cap, and a tail-trimming cutter which moves away from the tail of removed material during clockwise rotation of the cutting cap, and moves into and cuts the tail of removed material when the cutting cap is rotated counterclockwise.

Apparatus for cutting products, comprising: a base; a cutting head with at least one cutting element along the circumference of the cutting head for cutting products fed into the cutting head, the cutting head being rotatably fitted to the base; an impeller adapted for rotating concentrically within the cutting head to urge products fed into the cutting head towards the circumference of the cutting head by means of centrifugal force; a first drive mechanism for driving the rotation of the impeller at a first rotational speed setting the centrifugal force; and a second drive mechanism for driving the rotation of the cutting head at a second rotational speed, determined such with respect to the first rotational speed that the product is cut by the at least one cutting element at a predetermined cutting velocity.

Replaceable shaving assemblies are disclosed that include a razor cartridge comprising: an elongated housing defining a central open area, and, adjacent each short edge of the housing, a clip-receiving aperture and a clip-receiving channel; a plurality of blades disposed within the open area of the housing, and a pair of clips, each clip having a first leg and a second leg, the first leg extending through the clip-receiving aperture and being bent against a lower surface of the housing, and the second leg being wrapped around the housing and seated in the clip-receiving channel. Shaving systems including such shaving assemblies are also disclosed, as are methods of using such shaving systems and methods of manufacturing these cartridges.

A method and apparatus for replacement of damages display shield (typically glass) covering a display screen on a device, typically a mobile phone. Mobile phones have an electronic display protected by a glass shield. Between the glass and the display is often a plastic polarizing or other intermediary sheet. Removal of a damage glass can be accomplished by cutting thru the polarizer with a moving wire or blade. This separates the glass from the sensitive display and allows replacement of the glass without damaging the more expensive display.

Replaceable shaving assemblies are disclosed that include a blade unit, an interface element configured to removeably connect the blade unit to a handle, on which the blade unit is pivotably mounted, and a return element disposed between the blade unit and interface element. The return element serves as interface piece, connector and pivot all in one. Shaving systems including such shaving assemblies are also disclosed, as are methods of using such shaving systems.

A deflectable lifting device can be mounted to a frame, work surface, or other member of a material conveying system. The deflectable lifting device can have a base that mounts into a mounting slot of a frame, and a bendable arm arranged in the pathway of a material conveying system, such as a paper stripping or paper blanking work station. When a sheet of material travels over the deflectable lifting device, the bendable arm can bend and deflect downwardly, but still contacts the sheet of material to provide a small margin of elevation or lift to the sheet of material. The sheet of material can therefore be elevated above edges, holes, or other obstructions in the pathway, which could otherwise jam or snag the delivery of the sheet of material.