A locking device having a guard lock for safety doors includes a mechanical actuator which can be fastened on a movable door part and a housing which interacts with the actuator and can be fastened to a door counterpart. The housing includes a receptor to which the actuator can be inserted, and the housing comprises a locking element which is displaceable between an unlocked position, in which the actuator can be released, and a locked position, in which the actuator can be fixed relative to the receptor. The actuator comprises an engagement tongue having an engagement recess for mechanical operative engagement with a head end of a locking element in form of an engagement plunger, the engagement plunger being guided in the housing so as to be longitudinally displaceable in a spring-biased manner in the in a plunger longitudinal direction relative to an inner fixed bearing.

An actuator (3) for a safety switch (2) with an actuator head (8), said actuator head being mounted to a core body (6) by means of a connection element (7). The actuator head (8) has, at least in parts, a larger cross section than the connection element (7). The connection element (7) is rigid in the axial direction. The actuator head (8) is held in a base position by means of the connecting element (7). In this base position, the longitudinal axis of the connection element (7) runs at an angle of inclination to the surface of the core body (6).

An actuator (3) for a safety switch (2) with an actuator head (8), said actuator head being mounted to a core body (6) by means of a connection element (7). The actuator head (8) has, at least in parts, a larger cross section than the connection element (7). The connection element (7) is rigid in the axial direction. The actuator head (8) is held in a base position by means of the connecting element (7). In this base position, the longitudinal axis of the connection element (7) runs at an angle of inclination to the surface of the core body (6).

A latch mechanism includes a latch having a first latch protrusion and a second latch protrusion, and a catch having a first catch protrusion and a second catch protrusion. The first catch protrusion engages the first latch protrusion in a first catch position. The second catch protrusion engages the second latch protrusion in a second catch position following release of the first catch position.

A bread cutting machine has a circular blade that is moveable in a guide gap through an extension gap of a machine housing from a waiting position into a cutting space. When the blade is in the waiting position, the guide gap is coverable by a rocker displaceable away from the guide gap simultaneously with the extension of the blade from the waiting position, whereby the guide gap is opened. A cover plate is rigidly fastened to a side surface of the rocker, projects vertically away from the rocker, and covers the extension gap whenever the blade is in the waiting position. By a positive guide, the cover plate is moveable away from the extension gap simultaneously with the movement of the rocker, whereby the extension gap is opened.

An equipment locking and de-energization management system (7) is configured to guarantee safety during the locking and de-energization of a power source (6) of an item of equipment (7) during maintenance thereof. The system includes an intelligent lock (1) to be inserted into the power source (6) and perform the locking thereof, a control device (2) configured to manage and sort the locking steps and a central server (15) to assist with the communication between the elements of the locking and de-energization management system. Also described is an equipment locking and de-energization management method (7) which makes use of the locking and de-energization management system, enhancing the safety, efficiency and productivity during locking and de-energization of the power source (6) of an item of equipment (7) undergoing maintenance.

An equipment locking and de-energization management system (7) is configured to guarantee safety during the locking and de-energization of a power source (6) of an item of equipment (7) during maintenance thereof. The system includes an intelligent lock (1) to be inserted into the power source (6) and perform the locking thereof, a control device (2) configured to manage and sort the locking steps and a central server (15) to assist with the communication between the elements of the locking and de-energization management system. Also described is an equipment locking and de-energization management method (7) which makes use of the locking and de-energization management system, enhancing the safety, efficiency and productivity during locking and de-energization of the power source (6) of an item of equipment (7) undergoing maintenance.

A wireless lockout-tagout state machine-based access control system and method. Embodiments of the present disclosure provide for an electronic access control system that utilizes state machine-based single or multiple access codes to enable context-dependent or context-specific user-access permissions for different access points within an access-controlled area. Each state in the state machine may comprise an access event and a first state can lead to one or more subsequent different states, which may enable a feedback loop back to a past state to ensure a sequence of access events. In certain embodiments, the sequence of access events may be configured to ensure one or more safety protocols or parameters.

A wireless lockout-tagout state machine-based access control system and method. Embodiments of the present disclosure provide for an electronic access control system that utilizes state machine-based single or multiple access codes to enable context-dependent or context-specific user-access permissions for different access points within an access-controlled area. Each state in the state machine may comprise an access event and a first state can lead to one or more subsequent different states, which may enable a feedback loop back to a past state to ensure a sequence of access events. In certain embodiments, the sequence of access events may be configured to ensure one or more safety protocols or parameters.

An equipment locking and de-energization management system (7) is configured to guarantee safety during the locking and de-energization of a power source (6) of an item of equipment (7) during maintenance thereof. The system includes an intelligent lock (1) to be inserted into the power source (6) and perform the locking thereof, a control device (2) configured to manage and sort the locking steps and a central server (15) to assist with the communication between the elements of the locking and de-energization management system. Also described is an equipment locking and de-energization management method (7) which makes use of the locking and de-energization management system, enhancing the safety, efficiency and productivity during locking and de-energization of the power source (6) of an item of equipment (7) undergoing maintenance.