An apparatus includes a structure comprising a predetermined breakable region and a mechanical actuator disposed at or proximate the predetermined breakable region. The mechanical actuator comprises an impact member coupled to a spring arrangement, and a restraint member operably coupled to the spring arrangement. A trigger source is operably coupled to an electrical power source. The trigger source, in response to receiving current from the electrical power source, is configured to release or break the restraint member so as to allow the spring arrangement to forcibly move the impact member into contact with, and break, the predetermined breakable region.

An apparatus comprises a frangible structure coupled or integral to at least a portion of the apparatus and a triggerable mechanism disposed at or proximate the frangible structure. The triggerable mechanism is configured to break the frangible structure in response to a trigger signal. A containment structure is disposed on or over at least a portion of the frangible structure. The containment structure is configured to allow at least the portion of the frangible structure to deform or change shape in response to breaking of the frangible structure while keeping substantially all fragments of at least the portion of the broken frangible structure together.

A system and methods are provided for removal of undesired portions of a fruit or vegetable, such as removal of calyxes from strawberries before they are flash frozen. An automated process for high-throughput fruit or vegetable calyx removal includes a loading system, an identification system, and a removal system. The loading system is configured to transport the fruit or vegetable through the automated process. The loading system may also orient the fruits or vegetables along an axis of the fruit and or align the fruit or vegetables in a desired pattern, orientation, and/or arrangement. The identification system is configured to locate the calyx and determines calyx position data and an optimal cutting path for individual fruit. The removal system uses data received from the identification system to separate the calyx from the fruit or vegetable.

A bundle breaker includes first and second platens located above upstream and downstream breaking supports and first and second actuators configured to move the platens to selectively clamp logs between the platens and the breaking supports. A third actuator moves the second breaking support relative to the first breaking support to break bundles off the log. A foam sheet is attached to the bottom of each of the first and second platens and is configured to be compressed when the logs are clamped. The bottom surfaces of the foam sheets are preferably at least partially coated with an elastomeric coating or at least partially covered by an elastomeric sheet.

A system includes a rod, a nozzle, a camera, and a pressure control system. The rod has a conduit extending along a rod axis. The rod is disposed adjacent to the barrier within the orifice. The nozzle is connected to the rod and is in hydraulic communication with the conduit and the orifice. The camera is also connected to the rod. The nozzle and the camera are configured to protrude from the rod and rotate about the rod axis. The pressure control system is connected to the tubular body and is disposed around the rod. The nozzle is configured to cut away the portion of the barrier upon pumping of a cutting fluid through a conduit of the rod and out of the nozzle towards the barrier. The portion of the barrier is removable from the orifice of the tubular body once cut away.

The invention concerns a process for treating a workpiece, preferably for shaping a workpiece by ablating material, by a liquid jet guided laser beam. The process comprises the following steps: Production of a liquid jet by a nozzle; impinging the liquid jet on a reference surface allocated to the workpiece, whereby an intersection of the liquid jet with the reference surface defines a liquid jet-footprint; effecting a displacement between the liquid jet and the reference surface, whereby the liquid jet-footprint evolves to a trace along a trajectory associated with the trace during the time frame, wherein the trace covers a trace-area; irradiating the workpiece at least during part of the time frame with a laser beam coupled into the liquid jet, preferably for ablating material such that the trace has at least one overlap-area, wherein each of the at least one overlap-areas is defined by an associated common area of an associated second length-section of the trace and an associated first length-section of the trace and wherein the workpiece is irradiated by the laser beam along at least one of the length-sections. It concerns further a computerized numerical control (CNC) program for controlling a liquid jet guided laser machining device and a computer readable medium containing such a CNC program. Further, it contains a computer program for generating the above mentioned CNC program. Finally the invention concerns a liquid jet guided laser machining device to perform the above mentioned process.

Hydraulic fast-coupling assembly for coupling a water jet cutting system with a supporting head of a machine. The fast-coupling assembly has a coupling element suitable for being integral with the water jet cutting system and for being coupled with the supporting head. The coupling element has a central duct. A mobile stem has an internal duct and is suitable for being slidably mounted inside a seat obtained on the supporting head. The peculiarity of the hydraulic fast-coupling assembly is that it has at least one coupling removably connected to the mobile stem and/or to the coupling element. The at least one coupling has an axial duct that puts in communication the internal duct and the central duct.

A bundle breaker has downstream and upstream breaking supports, first and second platens located over the respective breaking supports and first and second actuators to move the platens to selectively clamp portions of a log against the breaking supports. A third actuator shifts the downstream breaking support relative to the upstream breaking support from a first position to a second position to break a bundle from the log. A scrap chute is mounted below a junction of the upstream and downstream breaking support to catch scrap material falling between the upstream support and the downstream breaking support. Each time the downstream breaking conveyor is shifted to the second position, scrap in the chute is jolted and is shifted toward a discharge opening of the scrap chute and, optionally, into a scrap drawer.

The invention relates to machines and methods for separative machining of plate-shaped workpieces by a processing beam. The machines include a first movement unit configured to move the workpiece in a first direction and a second movement unit including a machining head configured to emit the processing beam. The second movement unit is configured to move the machining head in a second direction perpendicular to the first direction to direct the processing beam onto the workpiece. The machines include a first workpiece support unit including a first workpiece-bearing face and a second workpiece support unit including a second workpiece-bearing face spaced apart by a gap from the first workpiece support unit and the first workpiece-bearing face. The gap extends along the second direction. The machines include at least one support slide arranged to move in the second direction within the gap and including a support slide bearing face.

A facing building member, a method of forming a facing building member and a method of forming a cladding panel. The facing building member is usable with other building members in forming a cladding panel. The building member has a front face and a rear side, the rear side being profiled by cutting with a water jet so as to provide at least one mechanical key on the facing building member.