A packaging apparatus for small piece goods, the use of the packaging apparatus, and a method for producing a blister tube are provided. The packaging apparatus includes a packaging material guiding device for providing a shaped packaging material web suitable for receiving small piece goods, a longitudinal joining device which is arranged downstream of the packaging material guiding device and a transverse joining device which is arranged downstream of the packaging material guiding device. The transverse joining device joins the shaped packaging material web together at predetermined intervals transversely to the direction of travel to form a transverse joining area. The transverse joining device includes two joiners, which have a plurality of embossers that are individually movable transversely to the direction of travel and have an embosser stop area which cooperate such that elevations that are palpable are formed by the embossers in the transverse joining area.

A packaging apparatus for small piece goods, the use of the packaging apparatus, and a method for producing a blister tube are provided. The packaging apparatus includes a packaging material guiding device for providing a shaped packaging material web suitable for receiving small piece goods, a longitudinal joining device which is arranged downstream of the packaging material guiding device and a transverse joining device which is arranged downstream of the packaging material guiding device. The transverse joining device joins the shaped packaging material web together at predetermined intervals transversely to the direction of travel to form a transverse joining area. The transverse joining device includes two joiners, which have a plurality of embossers that are individually movable transversely to the direction of travel and have an embosser stop area which cooperate such that elevations that are palpable are formed by the embossers in the transverse joining area.

An apparatus for sealing an open end of a package comprises a first longitudinally extending sealing jaw, bearing mounted on a first eccentric shaft rotatable around a first rotational axis, and a second longitudinally extending sealing jaw, bearing mounted on a second eccentric shaft rotatable around a second rotational axis, the second sealing jaw being parallel with the first sealing jaw. At least one motor drives rotation around the first and second rotational axis in opposite directions, wherein the first and the second sealing jaws oppose each other, and are allowed to oscillate between sealing and open positions by moving towards and away from each other. A first and second transversally extending guiding bar cooperate with the first and second eccentric shaft via guiding pins running in guiding grooves, such that transverse play between the first and the second eccentric shaft and the first and second sealing jaw is allowed.

An apparatus for sealing an open end of a package comprises a first longitudinally extending sealing jaw, bearing mounted on a first eccentric shaft rotatable around a first rotational axis, and a second longitudinally extending sealing jaw, bearing mounted on a second eccentric shaft rotatable around a second rotational axis, the second sealing jaw being parallel with the first sealing jaw. At least one motor drives rotation around the first and second rotational axis in opposite directions, wherein the first and the second sealing jaws oppose each other, and are allowed to oscillate between sealing and open positions by moving towards and away from each other. A first and second transversally extending guiding bar cooperate with the first and second eccentric shaft via guiding pins running in guiding grooves, such that transverse play between the first and the second eccentric shaft and the first and second sealing jaw is allowed.

A method for separating portions of a food mass (3) from a film tube (1), which is continuously advanced along a tube-conveying path (9) at belt-running speed and is filled with the food mass, in particular with processed cheese (3), wherein the film tube filled with the food mass (2) is initially formed into a band of defined thickness by means of a pair of calibrating rollers, and wherein, in order to form separate food portions (3), the food mass is then displaced, by means of a pair of displacement rollers acting upon one another, out of displacement regions (2) extending transversely across the film tube, wherein the displacement rollers are driven by means of a drive, which is controllable in terms of the running thereof, in a manner decoupled from the belt-running speed.

A form fill seal apparatus for forming and filling a plurality of bags with a product having a tube formation assembly forming a tubular film, a bag forming assembly configured to form transverse seals and to cut the tubular film to form bags. A product delivery system is provided to deliver product from a positive displacement pump to a product delivery tube. A control system is structurally configured to direct the positive displacement pump to operate in two different modes, a first, continuous operating mode and a second, dosing operating mode. A method of filling is likewise disclosed.

An inductor for transverse sealing a packaging material tube filled with food product comprises a main body comprising first and second sealing surfaces facing the packaging material during a sealing state, a recess in the main body for receiving a knife during a cutting state, and an electric conductor arrangement, in the main body for inducing eddy currents in the packaging material during the sealing state. The first/second sealing surfaces each comprise a top section, an inner sealing section between the recess and the top section, and an outer sealing section between the top section and an outer edge of the inductor. The inner sealing section is inclined towards the recess, and the outer sealing section is inclined towards the outer edge, so that product in the tube is pushed away from a sealing band of the tube as the first/second sealing surfaces are pressed towards the sealing band.

A packaging unit and method for packaging pharmaceuticals into pouches. The packaging unit includes a feed stock roll to form pouches and an electronic processor electrically coupled to the packaging equipment. The electronic processor is configured to determine an amount of pharmaceuticals being loaded into the pouch, determine a length of the pouch based on the amount of pharmaceuticals, and control the packaging equipment to form the pouch having the length.

In a method and apparatus for producing a small pouch with a predetermined amount of particulate material therein, a predetermined amount of the particulate material is portioned from a bulk supply and compacted into a single discrete caplet. The caplet is the deposited into an open hollow pouch closed at one end thereof, and the open end is then closed with the caplet between the closed ends of the pouch. The caplet in the pouch is then compressed to return it to its particulate form. The particulate material may be granular or shredded tobacco.

The disclosure relates to preparation, processing, and packaging of fresh foods, particularly proteins. In various implementations, the methods include steps for ozone exposure, reduction of surface moisture, introduction of a modified atmosphere, and high pressure pasteurization. Prior to packaging the protein may be exposed to ozone and undergo dehydration to reduce the amount of moisture on the surface of the protein. The protein may then be packaged in a modified atmosphere, lacking oxygen, and then undergo high-pressure pasteurization.