In a clamping device, the number of components for an article detection means is reduced. In a stacker, a tire is placed on the carry surface. The first gripping member and the second gripping member grip a side of tire placed on the carry surface and include an abutment surface having a bent portion and are capable of abutting with the side of tire. The first sensor and the second sensor include a light axis in a direction along the article. The controller moves the first gripping member and the second gripping member close to each other to the first position where the tire is not gripped. When the tire is detected with the first sensor and second sensor, the controller moves the first gripping member and the second gripping member close to each other to the second position where the tire is gripped.

Linear conveyor for transferring workpieces between two consecutive positions in a throughput direction, including at least one axis extending in and linearly displaceable to the throughput direction, and a slide, disposed on and displaceable along each axis, and to which a carrier element for accommodating the workpiece is attached, each axis being telescopic and including a first axis element displaceable relative to the base, and a second axis element displaceable relative to the first axis element, on which slide is displaceably disposed, and a coupling for coupling of displacement movements of the first axis element, second axis element and slide with each other, such that when the first axis element is displaced relative to the base the second axis element is displaced relative to the first axis element and the slide relative to the second axis element in the same direction of displacement.

A finishing system includes a workpiece carrier configured to hold a workpiece, and a plurality of work stations arranged in a row along an axis defining a process line, each of the plurality of work stations configured to receive the workpiece and treat the workpiece. A hoist runway, including fixed and movable rail sections, extends along the plurality of work stations of the process line. A hoist is movable along the hoist runway to traverse the plurality of work stations, the hoist coupled to the workpiece carrier to raise and lower the workpiece carrier and to move the workpiece carrier along the process line. A side transfer mechanism moves the movable rail section, with the hoist situated thereon, in a direction transverse to the axis so that the hoist is movable out of the process line.

A muntin bar fabrication system can be used to efficiency produce a wide variety of different types of muntin bars, allowing the fabrication of both standard and custom muntin bar assemblies for doors, windows, and other fenestration products. In some examples, the fabrication system includes a muntin bar stock storage assembly that holds multiple different types of muntin bar stock. The system also includes a muntin bar stock extraction device that extracts one of the different types of muntin bar stock from the storage assembly and conveys the extracted muntin bar stock to a feed device. The feed device feeds the extracted piece of muntin bar stock into a cutting system that includes a multi-axis cutter. The cutting system that performs one or more cutting operations on the extracted muntin bar stock so as to fabricate one or more individual muntin bars from the extracted muntin bar stock.

Apparatus for unscrambling articles, in particular containers (100) fed randomly to an inlet of said apparatus, comprising: a transport system (20) for transporting the articles fed to the inlet; devices (31;32) for picking and releasing the articles (100), configured to pick up the articles arranged randomly on the transport system (20) and release them to an extraction system (50) with a predefined orientation and/or position; a detection system (60) designed to detect the position and the arrangement of the articles (100) in transit on the transport system and to provide the information for controlling the pick and release devices (30); a unit (500) for processing and controlling the components and the drives of the apparatus; wherein the extraction system comprises: a plane (40;140) for supporting the containers (100); means (50;150) for extracting the articles (100), designed to pick up the articles and transport them on the plane (40) towards the outlet (O) of the apparatus; said extraction means comprise a plurality of grippers (50;150), each comprising a pair of jaws (51;151), each gripper (50;150) being displaceable along a fixed guide (55) independently of one or more of the other grippers (50;150).

A main mover and sub mover are made to run while changing a relative distance of the sub mover with respect to the main mover to change contact positions of cams and cam followers based on a holding position of a sheet member detected by a position detection device to thereby change a position in a horizontal plane of a holder and correct a holding position of the sheet member held at the holder to a preset reference position.

A handling device comprises a gripping unit which is movable in three dimensions and which is specified for receiving the stack of products disposed in a receiving region, for moving the stack, and for depositing the stack in a depositing region. The gripping unit comprises at least one upper holding element for holding down an upper side of the received stack, and at least one lower holding element for supporting a lower side, opposite the upper side, of the received stack.

Apparatus for unscrambling articles, in particular containers (100), comprising: a transport system (20) for transporting through the apparatus articles randomly arranged on a transport plane; a system (40;140,50) for extracting the articles (100) arranged with a predefined orientation and/or position; devices (31;32) for picking and releasing the articles (100), configured to pick up the articles randomly arranged on the transport system (20) and release them to the extraction system (50) with a predefined orientation and/or position; a detection system (60) designed to detect the position and the arrangement of the articles (100) in transit on the transport system and to provide the information for controlling the gripping and release devices (30); a unit (500) for processing and controlling the components and the drives of the apparatus, designed in particular to receive the position and/or arrangement information of the articles and to control the gripping and release devices (30). The transport system (20) extends substantially in the form of a U with a first outward section (21) configured to transport the containers in a first advancing direction (A1) and a second return section (22) configured to transport the containers in a second advancing direction (A2) different from the first direction (A1), the two sections (21;22) being connected by a curved section (23); and the pick and release devices (31;32) comprise at least one robot (31) arranged upstream of the curved section (23), for picking up articles only from said first section (21), and at least one robot (32) arranged downstream of the curved section, for picking up articles (100) only from the second section (22) of the transport system (20).

A linking system adapted to link a plurality of products comprises a supply device having a tray with a slide slot adapted to load a first row of products therein, a gripping device having a gripper adapted to grip the first row of products and a moving mechanism adapted to move the gripper, and a holder adapted to hold the first row of products. The gripping device is adapted to move the first row of products from the supply device to a holding position on the holder and the holder is adapted to hold the first row of products at the holding position. The gripping device is further adapted to grip a second row of products from the supply device and link the second row of products to the first row of products held by the holder.

An artificially intelligent harvest and reuse system for planting vegetables has a first mechanic arm moving a plurality of planting plates around a first conveyor, a second conveyor, a first shelf and a second shelf. The planting plates are sent to a connecting conveyor for the grown vegetables thereon to be picked up by a second mechanic arm and further sent to a root cutting apparatus then to a packaging apparatus, while the empty planting plates are further sent to an exit end of the first conveyor and a third mechanic arm places nursery foams with sprouts from a storage area onto the empty planting plates. Then the refilled planting plates are sent back to the corresponding shelf via the second conveyor and placed back into the corresponding layers neatly by the first mechanic arm on a first distributing apparatus.