The present invention discloses a cell photographing and conveying apparatus, including a cell feeding workstation, a detection workstation, a manipulator and an image acquisition device. The manipulator transfers a cell from the cell feeding workstation to the detection workstation. The image acquisition device includes ultraviolet lamps, illumination lamps, and cameras, where the ultraviolet lamps are used for emitting ultraviolet light to the detection workstation. By means of the cell photographing and conveying apparatus, a relatively complete appearance image of the cell can be acquired, thus ensuring detection accuracy.

An autonomously operated system is configured to load at least one unbound deformable article into a container. The system includes a refillable cartridge configured to receive therein the article, at least one extendable conveyor being configured to extend into the refillable cartridge and deposit the article within the refillable cartridge, a driven lifter configured to selectively lower and raise the refillable cartridge relative to the at least one extendable conveyor, one or more sensors configured output a signal indicative of a fill height of the refillable cartridge, and at least one controller configured to, in response a received signal form the one or more sensors, instruct the driven lifter to at least one of raise and lower the refillable cartridge to at least one of one or more loading heights for receiving the article, and lower the refillable cartridge to an unloading position within the container.

The invention relates to a conveying device (1) having an accumulation area (SB) for accumulating objects (O, O1 . . . O2, Oa . . . Oj), and to an operating method for the conveying device (1). By means of a measuring device (L1), the object rear edge (K.sub.HO1) of a first object (O1) and the object front edge (K.sub.VO2) of a second object (O2) which follows the first object (O1) are detected. The position of the objects (O1, O2) is determined by means of rotation signals from the drives (M) of conveyor elements (2, 2.sub.M, 2.sub.L). For the second object (O2), a continuous curve of a speed reduction of a target speed (v.sub.Soll) is calculated, wherein the calculated stop position (P.sub.Stop) of the object front edge (K.sub.VO2) of the second object (O2) is located at the position of the object rear edge (K.sub.HO1) of the stopped first object (O1), or between the object front edge (K.sub.VO1) of the stopped first object (O1) and the object rear edge (K.sub.HO1) of the stopped first object (O1). Subsequently, the second object (O2) is moved and stopped by means of the conveyor elements (2, 2.sub.M, 2.sub.L) on the basis of the calculated speed reduction.

A chemical supply system, includes: a chemical container receiving station configured to receive a chemical container, inspect chemical information of the chemical container and confirm the chemical information; a temporary storage configured to store the chemical container; a chemical supply device configured to supply a chemical in the chemical container to a place of use of the chemical; a first robot configured to transport the chemical container for which the chemical information is confirmed from the chemical container receiving station; and a second robot configured to carry the chemical container transported by the first robot into the chemical supply device..

Compact orienting and transferring device for unitary elongated food products (1) comprising a circular conveyor (10) surrounded by a limitative wall (11) with an extraction opening (12); an extractor device including an extraction path (31, 32, 33) defined on a first conveyor (21) and with an intake end connected to the extraction opening (12), and a circular wheel (40) including a circular groove (50) on the wheel periphery, the first conveyor (21) being a conveyor belt wider than the circular groove entrance (53), a circular portion of the first conveyor (21) being directly supported on the wheel periphery covering the circular groove entrance (53) on a portion of that wheel periphery, defining a circular portion (32) of the extraction path (31, 32, 33) within the circular groove (50).

Method and machine to carry out a control on a group of articles. An initial conveyor is configured to move the articles along an initial path, which starts in an input station; a final conveyor is configured to move the articles along a final path, which is parallel and next to the initial path and ends in an output station; a control unit is configured to carry out a simultaneous control of all articles of the group of articles; a first transferring device is configured to simultaneously transfer the whole group of articles to be controlled from the initial conveyor to the control unit; and a second transferring device is configured to simultaneously transfer the whole group of articles controlled by the control unit to the final conveyor.

A cover member covers a target region set in a portion of a back face of a storage rack or over an entirety of the back face. Storage regions are respectively formed between pairs of two placement sections adjacent to each other in an up-down direction. The cover member is changeable between a closed state in which the cover member covers the target region and an open state in which the cover member has been moved relative to a frame member to expose the target region. Placement section accessory members are on a back face side in a depth direction relative to storage regions formed on corresponding placement sections, are on a front face side in the depth direction relative to the cover member, and overlap the storage regions as viewed in the depth direction.

A conveying device has an accumulation area for accumulating objects, and an operating method operates the conveying device. Using a measuring device, the object rear edge of a first object and the object front edge of a second object which follows the first object are detected. The position of the objects is determined using rotation signals from the drives of conveyor elements. For the second object, a continuous curve of a speed reduction of a target speed is calculated, wherein the calculated stop position of the object front edge of the second object is located at the position of the object rear edge of the stopped first object, or between the object front edge of the stopped first object and the object rear edge of the stopped first object. Subsequently, the second object is moved and stopped using the conveyor elements on the basis of the calculated speed reduction.

A method of printing a tag and attaching the tag to a bag for printing, severing and feeding non-curled tags to sewing machines. The method of printing a tag and attaching the tag to a bag comprising providing a control unit, a bag conveyor, a bag switch, a printer unit, a guide plate sensor, and a feeder assembly; feeding print material into the printer unit through a side entry port; printing and severing a tag; dispensing the tag from an exit port of the printer unit to the staging assembly; and subsequently dispensing the tag upon demand into the feeder assembly for movement to the tag attaching system.

A cross-conveyor sorter with a clearing apparatus for removing misplaced items (Sd) is described, wherein the cross-conveyor sorter has a plurality of carriages which are connected to one another on an endless conveying track, the carriages are provided with a cross-conveyor device, which is oriented transversely to the transportation direction (x) and on which the items (Sp) can be transported and unloaded at predetermined unloading locations. The cross-conveyor sorter clearing apparatus enables the risk-free removal of misplaced items (Sd) during operation. The clearing apparatus is a blow-off device which is arranged on a first side alongside the conveying track.