A safety switch comprises a switching device having a casing housing electric and/or electronic control means adapted to be connected with one or more circuits, an operating device adapted to be anchored to a movable part of the access to interact with the switching means when the access is opened/closed for the opening/closure of the circuits, means for detecting the opening of the access associated with the switching device and with the operating device for sending a stop command of the machine or plant upon the detection or request for the opening of the access, driving means for sending activation/deactivation and/or signalling controls and that comprise a touch monitor provided with one or more virtual controls and at least one microprocessor suitable for associating the virtual controls with a control and/or signalling function.

A gear motor includes a gear mechanism driven via a clutch by an electric motor. The clutch is at least partially enclosed by a protective part, and the protective part includes two cowl parts. The cowl parts are connected to one another and each cowl part includes grill openings, e.g., on their side facing toward the electric motor.

A barrier system for equipment having four corners and four sides includes an arm pivotally attached to each of two adjacent corners, each arm configured to have an extended position and a stored position, wherein each arm has a proximal region and a distal region, wherein the proximal region of each arm is attached to a corner, wherein each arm is parallel to another arm when both are in the stored position, and wherein each arm is not parallel to another arm when both are in the extended position; and a safety barrier attached to the distal regions of the adjacent arms.

Position adjustment of an analysis module in an automatic analyzer is performed where a position adjustment instruction and a position where the position adjustment is actually performed are separated from each other. Position adjustment of probe mechanisms is performed by operating probe position adjustment switches formed on a housing of an analysis module. Where interlocking covers (103 and 113) for the module are present, the probe mechanisms of the module are stopped when the closed covers are opened. The position adjustment switches (101A and 101B) and the position adjustment switch (104) are disposed to be separated from each other by a distance at which the switches cannot be operated by a single hand of an operator at the same time. Even when the cover (103) is opened by continuously pressing the position adjustment switch (104), the probe mechanisms of the module are in an operable state for the position adjustment.

It is disclosed a laser marking apparatus provided with a protection shield, comprising a support frame (T) of a working deck (2) and wherein, around said working deck, a protection shield is arranged which fully encircles the working area of said laser marking head (4) and provided with at least partly perimetrally upright arranged panels with respect to said working deck, wherein said panels (P1-P8) are mounted movable from a lower position, wherein said shield encircles said support frame (T) up to a height completely below or flush with the upper surface of said working deck (2), to an upper extended position wherein said shield encircles the area above said working deck (2) up to a working height of said laser marking head (4).

A drive device for an in-core neutron instrumentation system includes a safety circuit between a power supply and a drive motor. The safety circuit is provided inside the cover member, and switches between a conductive state in which power can be supplied to the drive motor and a cut-off state in which power cannot be supplied thereto depending on a mounted state of the cover member. The safety circuit is controlled to be in the conductive state in response to a state in which the cover member is mounted on the base member, and is controlled to be in the cut-off state in response to a state in which the cover member is not mounted on the base member.

A system and method relating to a slicer system, the slicer system includes a slicer that includes a slider blade, a first motor configured to rotate the slicer blade, an in-feed table configured to hold the product and move, while the product is sliced by the slicer blade; an out-feed table configured to receive a sliced portion of a product, in response to the slicer blade slicing the product, at least one second motor, each of the at least one second motor configured to move the out-feed table in at least one direction; and at least one processor configured to cause the sliced portion of the product to be received on the out-feed table in a predetermined shape by controlling the at least one second motor to move the out-feed table while the slicer is slicing the product.

A conveyance robot system according to the present disclosure includes an intrusion detection sensor that detects an intrusion of an object into an arm opening, and a distance sensor that measures a clearance distance indicating a distance between an arm entry/exit surface and a shelf, the arm entry/exit surface being a surface of a conveyance robot in which the arm opening is provided from among surfaces of the conveyance robot constituting a safety cover, and an object being stored in the shelf. The robot control unit disables the intrusion detection sensor to allow a robot arm to perform a work by protruding from the shelf when the clearance distance becomes less than or equal to a present high-speed work allowance threshold.

A conveyance robot system according to the present disclosure includes a conveyance robot, and a robot control unit configured to control an operation of picking up an object performed by the conveyance robot, wherein the robot control unit determines that a movable range area, which is an area outside a safety cover where a robot arm is operated, satisfies a safety ensuring condition that can regard safety of the movable range area as equivalent to the safety inside the safety cover and allow the robot arm to perform a work while projecting toward the shelf.

A confinement cabin has a load-bearing structure, confinement walls connected to the load-bearing structure to delimit an inner space of the cabin, an access opening to the inner space, and a door connected to the load-bearing structure to close the access opening. The door is movable in opening and closing with a pivoting-tilting movement and has a movable arm which at a first end is rotationally connected to the load-bearing structure to rotate around a hinging axis, and a closing panel rotationally connected to a second end of the movable arm to rotate around a tilting axis. Rotation of the panel around the tilting axis is synchronized with rotation of the movable arm around the hinging axis by an elastic transmission system between a first pulley coaxial to the hinging axis and a second pulley coaxial to the tilting axis. Rotation of the panel around the tilting axis is in the opposite direction to rotation of the movable arm around the hinging axis.