A transport apparatus including a drive; a first arm connected to the drive, where the first arm includes a first link, a second link and an end effector connected in series with the drive, where the first link and the second link have different effective lengths; and a system for limiting rotation of the end effector relative to the second link to provide substantially only straight movement of the end effector relative to the drive when the first arm is extended or retracted.

A transport apparatus including a drive; a first arm connected to the drive, where the first arm includes a first link, a second link and an end effector connected in series with the drive, where the first link and the second link have different effective lengths; and a system for limiting rotation of the end effector relative to the second link to provide substantially only straight movement of the end effector relative to the drive when the first arm is extended or retracted.

A force multiplier (5) configured to assist movement of the operating rod (22) in its axial direction is provided. An engagement recess (52) provided on an outer periphery of the operating rod (22) has a cam surface (52a) configured to make engagement with an engagement ball (51). There is provided a support hole (53) configured to allow movement of the engagement ball (51) in a radial direction of operating rod (22) and to restrict movement of the engagement ball (51) in the axial direction of the operating rod (22). A pressing member (54) configured to press the engagement ball (51) is provided, and the pressing member (54) has a force-multiplying surface (54a).

A force multiplier (5) configured to assist movement of the operating rod (22) in its axial direction is provided. An engagement recess (52) provided on an outer periphery of the operating rod (22) has a cam surface (52a) configured to make engagement with an engagement ball (51). There is provided a support hole (53) configured to allow movement of the engagement ball (51) in a radial direction of operating rod (22) and to restrict movement of the engagement ball (51) in the axial direction of the operating rod (22). A pressing member (54) configured to press the engagement ball (51) is provided, and the pressing member (54) has a force-multiplying surface (54a).

A convertible display includes a number of video display panels which are movable between a first position in which the panels extend in the same plane to define a unified display and a configuration in which one or more of the panels are moved into other planes which allow them to form steps. Multiple of the rotated panels may form a sequence of steps, e.g. a staircase. The convertible display may be moved via a robotic mount, whereby the position or orientation of the convertible display may be changed.

A drive module for rotating a first robot arm member relative to a second robot arm member comprising a motor, a gear head driven by the motor, a pinion driven by the gear head and a slip clutch including an input section with integral gear teeth driven by the pinon, and an output section configured to be coupled to the second robot arm member. A housing is disposed at least about the pinion and slip clutch and configured to be coupled to the first robot arm member.

A portable programmable machine enhances efficiency and ergonomics associated with conducting otherwise manual operations within confined spaces. A main body supports a programmable telescoping arm configured to extend through an access port to reach a confined space. The arm includes an articulating wrist for holding and manipulating tools for autonomously processing work parts. The machine can also act semi-autonomously to accommodate interventions of an operator for overriding and fine-tuning interaction of a tool with a work part for proper processing of the part. The arm communicates with a computer in the main body for processing numerical data, and the operator may use a reference camera to fine tune any particular process. The machine incorporates multiple processing functions, for example collar swaging, nut running, cleaning, and/or application of sealants, all through an aircraft wing access port. The main body has lockable wheels for securing the main body near the access port.

A substrate gripping mechanism, for gripping a substrate between a fixed clamp portion to be engaged with an edge portion of a substrate and a movable clamp portion configured to reciprocate with respect to the fixed clamp portion by a reciprocating driving unit, includes an interlocking member configured to move together with the movable clamp portion, and a first sensor and a second sensor, each having a detection region and configured to detect whether or not the interlocking member exists in the detection region. The interlocking member has a first to a fourth portion connected in a reciprocating direction of the movable clamp portion. The first to the fourth portion have shapes to make detection results thereof by the first sensor and the second sensor different from each other.

A substrate gripping mechanism, for gripping a substrate between a fixed clamp portion to be engaged with an edge portion of a substrate and a movable clamp portion configured to reciprocate with respect to the fixed clamp portion by a reciprocating driving unit, includes an interlocking member configured to move together with the movable clamp portion, and a first sensor and a second sensor, each having a detection region and configured to detect whether or not the interlocking member exists in the detection region. The interlocking member has a first to a fourth portion connected in a reciprocating direction of the movable clamp portion. The first to the fourth portion have shapes to make detection results thereof by the first sensor and the second sensor different from each other.

A purpose is to improve storability of a plurality of connection pieces coupled bendably. A robot arm mechanism includes a revolute joint and a linear extension and retraction joint. The linear extension and retraction joint includes a plurality of first connection pieces coupled bendably and provided with a hollow square cross section and a plurality of second connection pieces coupled bendably and each shaped like a flat plate. The second connection pieces are overlapped on the first connection pieces in upper part of the first connection pieces, thereby forming a columnar body by constraining bending. The columnar body is released when the first connection pieces and the second connection pieces are separated from each other. An ejection section forms the columnar body by joining the first connection pieces to the second connection pieces and supports the columnar body. The plurality of first connection pieces are coupled at an upper part and a lower part of each piece to be folded in a zigzag pattern and stored in a base with top faces of adjacent first connection pieces folded on top of each other and bottom faces of adjacent first connection pieces folded on top of each other alternately.