A baling press for baling cotton gin trash and other particulate biomass feedstock. The baling press includes an infeed chute assembly, a compression ram assembly, an extrusion chamber assembly, a strapping storage and dispensing assembly, and a strapping insertion assembly. Methods of producing a bale with the baling press and a bale generated by the baling press are also described.

The system comprising containment equipment is intended for the aseptic transfer of a powder, namely for emptying a container filled with powder into a collection container and/or for filling a container with powder from a storage container. The containment equipment has a working chamber surrounded by a housing. A robot is installed in the containment equipment, having an arm arrangement that moves over a pivot range. If there is a collection container it has an inlet leading from the working chamber, and if there is a storage container it has an outlet leading off into the working chamber. The container can be closed at least with a first closure element. A transfer head is mounted at the inlet into the collection container and/or at the outlet of the storage container, each protruding into the working chamber. The passive part forms the double flap together with an active part contained in the transfer head.

The system comprising containment equipment is intended for the aseptic transfer of a powder, namely for emptying a container filled with powder into a collection container and/or for filling a container with powder from a storage container. The containment equipment has a working chamber surrounded by a housing. A robot is installed in the containment equipment, having an arm arrangement that moves over a pivot range. If there is a collection container it has an inlet leading from the working chamber, and if there is a storage container it has an outlet leading off into the working chamber. The container can be closed at least with a first closure element. A transfer head is mounted at the inlet into the collection container and/or at the outlet of the storage container, each protruding into the working chamber. The passive part forms the double flap together with an active part contained in the transfer head.

An inner membrane removing device includes a heating membrane removing mechanism and a membrane suction mechanism located at a downstream of the heating membrane removing mechanism. The heating membrane removing mechanism includes a heating frame, a membrane pressing component, a membrane welding component configured to fusion weld a nest box inner membrane to a nest box inner lining paper, a first lifting component configured to enable the heating frame and the membrane welding component to be in contact with the nest box inner membrane and a second lifting component configured to enable the membrane pressing component to press against the nest box inner membrane. The membrane pressing component and the membrane welding component are located on an inside of the heating frame. An inner membrane removing method is also provided.

An inner membrane removing device includes a heating membrane removing mechanism and a membrane suction mechanism located at a downstream of the heating membrane removing mechanism. The heating membrane removing mechanism includes a heating frame, a membrane pressing component, a membrane welding component configured to fusion weld a nest box inner membrane to a nest box inner lining paper, a first lifting component configured to enable the heating frame and the membrane welding component to be in contact with the nest box inner membrane and a second lifting component configured to enable the membrane pressing component to press against the nest box inner membrane. The membrane pressing component and the membrane welding component are located on an inside of the heating frame. An inner membrane removing method is also provided.

An apparatus for opening a packaging in which a transport tub for objects is packaged, the packaging having a packaging portion which extends in an extent direction away from the transport tub, the apparatus having a cutting-open device for cutting open the packaging in order to generate an opening in the packaging, the cutting-open device being designed to cut off a first part of the packaging portion in order to generate the opening in the packaging, and having an inflating device for inflating the packaging through the opening generated in the packaging. The apparatus furthermore relates to a system for opening a packaging, and to a method.

A container disassembly workstation for a pharmacy order processing system includes a base, a desktop connected to the base and defining a container disassembly workspace, and a pharmaceutical receptacle assembly extending through the desktop. The pharmaceutical receptacle assembly includes a pharmaceutical dust separation screen configured to retain pharmaceuticals and to permit pharmaceutical dust to pass through the pharmaceutical dust separation screen. The pharmaceutical receptacle assembly also includes a pharmaceutical dust receptacle configured to receive the pharmaceutical dust separation screen and pharmaceutical dust from the pharmaceuticals. The pharmaceutical receptacle assembly further includes a pharmaceutical receptacle positioned adjacent to the pharmaceutical dust receptacle, wherein the pharmaceutical receptacle includes a pharmaceutical receptacle funnel configured to receive the pharmaceuticals from the pharmaceutical dust separation screen and a door hingeably connected to the pharmaceutical receptacle funnel and configured to move between an open position and a closed position.

A working line is for fluidic or fluid products contained in pre-dosed containers. The container includes a cover and/or lid for closing the container. The working line includes a first manipulation station having a manipulator to manipulate the cover and/or lid to remove the cover and/or lid from the container to open the container. A working station carries out at least one operation on the fluid product contained in the container after the removal of the cover and/or lid from the container. A second manipulation station includes a manipulator to manipulate the cover and/or lid to associate the cover and/or lid with the container to close the container. A transportation system moves the pre-dosed containers among different stations. The working station is located between the first manipulation station and the second manipulation station. The manipulator manipulates covers and/or lids associable with the container through joint-type and/or screw-type devices.

A packing box folding system, and the packing box folding system including a transfer conveyor on which transfers the packing box from a packing box introducing position to a folded packing box discharging position; a fixed guide panel which extends between the packing box introducing position and the packing box discharging position and is disposed on one side of the transfer conveyor in the width-direction; and a movable suction device which is disposed on the side opposite to the fixed guide panel in the width-direction of the transfer conveyor and is movable between the packing box introducing position and the packing box discharging position, wherein the movable suction device suctions the side surface of the packing box, which faces the side surface in contact with the fixed guide panel, and presses the suctioned side surface inward in the width-direction.

A product unpacking system includes a work surface at a first height and a product unloading position at a second height. An adjustable cutter is positioned adjacent to the work surface and configured to cut a plurality of sides of each case. A case movement device, such as a robot or manual mover, is configured to retrieve a case from a group of cases and move the case to the cutter to cut a plurality of sides of the case. The case movement device may then move the cut case to an unload position over a product container to allow products within the case to drop into the product container. A system of conveyors may be used to convey empty product containers toward the work surface and to convey filled product containers away from the work surface. The system may be automated to receive recipe information for each case to be unloaded and modify parameters of the system based on the case.