A method and an apparatus for collecting powder samples in real-time in powder bed fusion additive manufacturing may involves an ingester system for in-process collection and characterizations of powder samples. The collection may be performed periodically and uses the results of characterizations for adjustments in the powder bed fusion process. The ingester system of the present disclosure is capable of packaging powder samples collected in real-time into storage containers serving a multitude purposes of audit, process adjustments or actions.

A method and an apparatus for collecting powder samples in real-time in powder bed fusion additive manufacturing may involves an ingester system for in-process collection and characterizations of powder samples. The collection may be performed periodically and uses the results of characterizations for adjustments in the powder bed fusion process. The ingester system of the present disclosure is capable of packaging powder samples collected in real-time into storage containers serving a multitude purposes of audit, process adjustments or actions.

Systems are presented with special mechanical means to switch a set of lens elements to form a compound lens from a storage position to an imaging position, In the storage mode, these arrangements offer highly efficient space saving schemes suitable for use in application where space is a premium. In the imaging mode, a plurality of lens singlets are brought together on a common imagine axis whereby they operate to form very high quality images at a single image plane. Singlet lenses are held in a lens mount device of a disk element. A plurality of similar cooperating disk elements move against adjacent coupled disks to cause well-regulated desirable motion and positioning. Specifically, portions of the disk include a cam system which permits smooth movement as disk elements are counter rotated with respect to each other thus driving the preferred positioning.

A manipulator device such as a robot arm that is capable of increasing manufacturing throughput for additively manufactured parts, and allows for the manipulation of parts that would be difficult or impossible for a human to move is described. The manipulator can grasp various permanent or temporary additively manufactured manipulation points on a part to enable repositioning or maneuvering of the part.

A manipulator device such as a robot arm that is capable of increasing manufacturing throughput for additively manufactured parts, and allows for the manipulation of parts that would be difficult or impossible for a human to move is described. The manipulator can grasp various permanent or temporary additively manufactured manipulation points on a part to enable repositioning or maneuvering of the part.

The present disclosure relates to an imaging apparatus, an information processing method, a program, and an interchangeable lens that enable depth-of-field adjustment.

The imaging apparatus includes a depth-of-field adjustment function that adjusts the depth of field of at least one monocular optical system among a plurality of monocular optical systems having optical paths independent of one another. For example, the depth-of-field adjustment function includes a mechanism that adjusts the depths of field of the monocular optical systems, and an optical system control unit that adjusts the depths of field of the monocular optical systems by driving the monocular optical systems on the basis of control information. The present disclosure can be applied to an imaging apparatus, an electronic apparatus, an interchangeable lens or a camera system that provides a plurality of monocular lenses, an information processing method, a program, or the like, for example.

The present disclosure relates to an imaging apparatus, an information processing method, a program, and an interchangeable lens that enable depth-of-field adjustment.

The imaging apparatus includes a depth-of-field adjustment function that adjusts the depth of field of at least one monocular optical system among a plurality of monocular optical systems having optical paths independent of one another. For example, the depth-of-field adjustment function includes a mechanism that adjusts the depths of field of the monocular optical systems, and an optical system control unit that adjusts the depths of field of the monocular optical systems by driving the monocular optical systems on the basis of control information. The present disclosure can be applied to an imaging apparatus, an electronic apparatus, an interchangeable lens or a camera system that provides a plurality of monocular lenses, an information processing method, a program, or the like, for example.

An optical system is disposed on an opposite side to an object side with respect to an objective lens, and includes: a rotational movement member that is rotationally movably supported; and a plurality of light transmissive regions that are formed in the rotational movement member, are configured to be able to be disposed at a position intersecting an optical axis of the objective lens, and have different light transmission characteristics, and a rotational movement axis of the rotational movement member is configured to be non-parallel with the optical axis of the objective lens.

An optical system is disposed on an opposite side to an object side with respect to an objective lens, and includes: a rotational movement member that is rotationally movably supported; and a plurality of light transmissive regions that are formed in the rotational movement member, are configured to be able to be disposed at a position intersecting an optical axis of the objective lens, and have different light transmission characteristics, and a rotational movement axis of the rotational movement member is configured to be non-parallel with the optical axis of the objective lens.

An optical module for a machine for machining workpieces and/or for producing molded bodies by way of location-selective solidification of material powder into contiguous regions by a laser beam includes a housing for releasably fastening the optical module to the machine and a collimation optics changer releasably arranged in the housing, having at least two collimation optics which can be moved into a beam path of the laser beam for collimating the laser beam. The collimation optics changer has a mechanism for automatically changing the collimation optics.