A medicine dispensing system includes canisters and packing assemblies to place specific doses of medicines into capsules. The system removes inert and filler ingredients to place only those active ingredients prescribed to the patient. The system includes a conveyor belt to move the capsules between canisters filled with the active ingredients. A dose is placed and packed into the capsules for each active ingredient. Thus, the number of capsules for a variety of medicines is reduced.

The invention relates to a gripping head (15) for insert sheets (11) for inserting between rows of folding boxes (3) in a receptacle (2), characterized in that it comprises: at least one first aspiration element (17a, 17b) designed to grasp an insert sheet (11), at least one second aspiration element (18a, 18b) designed to grasp an insert sheet (11), at least one linear element (19a, 19b) on which at least the first aspiration element (17a, 17b) is mounted and able to slide, a controllable actuating mechanism (20), designed to displace at least the first aspiration element (17a, 17b) by sliding on the at least one linear element (19a, 19b) into a position of grasping in which the at least one first aspiration element (17a, 17b) and the at least one second aspiration element (18a, 18b) are positioned at a spacing from each other in order to grasp an insert sheet (11).

In order to prevent an increase in width of a part of an accommodation bag from when polycrystalline silicon packed is lifted and until when the polycrystalline silicon is placed into a predetermined position and thus to accurately place the accommodation bag into a predetermined space, an accommodation case (10) includes a side surface body (11) forming an insertion space (12) into which an accommodation bag (B1) accommodating polycrystalline silicon (S1) is to be inserted; lift portions 13 for lifting the side surface body (11); and a tray (15) configured to support the accommodation bag (B1), the tray (15) being configured to be detached from a bottom portion (11a) of the side surface body (11), so that an opening (OP) is formed at the bottom portion of the side surface body (11), the opening (OP) being configured to form a placement path (30) for the accommodation bag (B1).

A holding structure for concurrently holding a plurality of containers for substances for cosmetic, medical or pharmaceutical applications, in particular of vials, is provided. The holder includes a carrier having a plurality of apertures or receptacles into which the containers can be inserted, and holding tabs for holding the containers in the apertures or receptacles. The holding tabs are at least two holding tabs, which are provided at the edge of a respective aperture or receptacle and protrude from an upper side of the carrier for holding the respective container. The holding tabs are resiliently pivoted or folded back as the containers are inserted into the apertures or receptacles. The holding tabs are matched to the containers such that the containers are held by the holding tabs with a radial clearance and low tension.

A method and a feeding apparatus for feeding spacers for cigarette packs are disclosed, in which each spacer comprises a substantially rectangular flat body, the spacers being insertable in cartons for cigarette packs to space out packs with dimensions smaller than the standard dimensions; the spacers are stacked on a pallet that is positioned in a withdrawal station; the stacks of spacers are withdrawn from the withdrawal station and transferred to a respective hopper by passing each stack of spacers through an upper opening of the hopper, to then unload the spacers one by one through a lower opening of the hopper.

A supporting structure for supporting a plurality of sealed medical cartridges is disclosed, comprising a planar supporting plate having a plurality of receptacles for accommodating the sealed cartridges. Retaining protrusions are formed at the bottom ends of the receptacles protruding inward, which are mated with the shoulder portions of the sealed cartridges in such a manner that the shoulder portions of the sealed cartridges are supported on the retaining protrusions of the receptacles and that the upper ends of the sealed cartridges protrude from the upper ends of the receptacles at an upper side of the planar supporting plate, when the sealed cartridges are accommodated upside-down in the receptacles. The inventive nest will be suitable for any nested liquid filling machine without much changes in filling table and general settings.

A packaging machine for packaging articles into cartons includes a first conveyor for conveying cartons along a carton stream, a second conveyor for conveying first article groups adjacent to the carton stream, a third conveyor for conveying divider pads adjacent to the carton stream, and a fourth conveyor for conveying second article groups adjacent to the carton stream. A first lateral transfer mechanism transfers the first article groups transversely into cartons within the carton stream. A second lateral transfer mechanism transfers the divider pads transversely into the cartons within the carton stream and onto said first article groups contained therein. A third lateral transfer mechanism transfers the second article groups transversely into the cartons within the carton stream and onto the divider pads contained therein.

A sheet interleaver is provided for a slicing machine that includes a slicing plane for slicing an elongated food product and a sheet of web material beneath the elongated product. The interleaver includes a supply of web material, a drawing station, and a feed station. A tensioning station is disposed between the supply of web material and the drawing station to maintain the tension of the web material at a pre-determined tension. A web accumulation station is between the drawing station and the feed station to provide a slackened length of web material within an acceptable range of slack between the drawing station and the feed station. The supply of web material is disposed on a spool which rotates about a cylindrical shaft. The cylindrical shaft has a braking mechanism which protrudes from the shaft to generate a frictional force against the spool.

A sheet interleaver is provided for a slicing machine that includes a slicing plane for slicing an elongated food product and a sheet of web material beneath the elongated product. The interleaver includes a supply of web material, a drawing station, and a feed station. A tensioning station is disposed between the supply of web material and the drawing station to maintain the tension of the web material at a pre-determined tension. A web accumulation station is between the drawing station and the feed station to provide a slackened length of web material within an acceptable range of slack between the drawing station and the feed station. The supply of web material is disposed on a spool which rotates about a cylindrical shaft. The cylindrical shaft has a braking mechanism which protrudes from the shaft to generate a frictional force against the spool.

A holding structure for concurrently holding a plurality of containers for substances for cosmetic, medical or pharmaceutical applications, in particular of vials, is provided. The holder includes a carrier having a plurality of apertures or receptacles into which the containers can be inserted, and holding tabs for holding the containers in the apertures or receptacles. The holding tabs are at least two holding tabs, which are provided at the edge of a respective aperture or receptacle and protrude from an upper side of the carrier for holding the respective container. The holding tabs are resiliently pivoted or folded back as the containers are inserted into the apertures or receptacles. The holding tabs are matched to the containers such that the containers are held by the holding tabs with a radial clearance and low tension.