An apparatus and methods for producing at extremely high production speeds small pouches filled with tobacco or other granular, powdered or solid content is provided. An endless web substrate, with or without flavor film thereon, is formed into a tubular shape with a longitudinal seam. The tube is cut to individual lengths, and a procession of tubes is crimp-closed at one end, filled and crimp-closed at the other end to complete pouch production. During production, the seams formed at the crimped ends of the pouch are parallel to one another and the longitudinal seam of the pouch is midway between the sides of the pouch and orthogonal to the seams formed at the crimped ends of the pouch.

An apparatus and methods for producing at extremely high production speeds small pouches filled with tobacco or other granular, powdered or solid content is provided. An endless web substrate, with or without flavor film thereon, is formed into a tubular shape with a longitudinal seam. The tube is cut to individual lengths, and a procession of tubes is crimp-closed at one end, filled and crimp-closed at the other end to complete pouch production. During production, the seams formed at the crimped ends of the pouch are parallel to one another and the longitudinal seam of the pouch is midway between the sides of the pouch and orthogonal to the seams formed at the crimped ends of the pouch.

The disclosure relates to a transfer device of a capsule filling machine for transferring at least one capsule from a capsule receptacle of a capsule segment to a downstream process station, and to a capsule filling machine having such a transfer device. The transfer device includes a transport segment having at least one transport receptacle, which extends along a vertical longitudinal axis, wherein the transport receptacle is configured as a clamping receptacle having a clamping element, acting radially with respect to the longitudinal axis of the transport receptacle, for the capsule.

The disclosure relates to a transfer device of a capsule filling machine for transferring at least one capsule from a capsule receptacle of a capsule segment to a downstream process station, and to a capsule filling machine having such a transfer device. The transfer device includes a transport segment having at least one transport receptacle, which extends along a vertical longitudinal axis, wherein the transport receptacle is configured as a clamping receptacle having a clamping element, acting radially with respect to the longitudinal axis of the transport receptacle, for the capsule.

An apparatus for realising a biodegradable packaging of a product for preparation of beverages includes a first feeder group and a second feeder group. The first feeder group is of a first film made of a biodegradable material, in particular a film of polylactic acid (PLA), and a first rotary carousel, configured, together with a series of work stations associated to the first carousel, to realise a pod made of PLA, containing internally thereof a product for preparation of a beverage. The second feeder group is of a second film made of a biodegradable material, in particular a film of Ecoralene, and a second rotary carousel, configured, together with a series of work stations associated to the second carousel, to realise an Ecoralene cladding of the pod to obtain a biodegradable packaging of a product for preparation of a beverage.

An apparatus for realising a biodegradable packaging of a product for preparation of beverages includes a first feeder group and a second feeder group. The first feeder group is of a first film made of a biodegradable material, in particular a film of polylactic acid (PLA), and a first rotary carousel, configured, together with a series of work stations associated to the first carousel, to realise a pod made of PLA, containing internally thereof a product for preparation of a beverage. The second feeder group is of a second film made of a biodegradable material, in particular a film of Ecoralene, and a second rotary carousel, configured, together with a series of work stations associated to the second carousel, to realise an Ecoralene cladding of the pod to obtain a biodegradable packaging of a product for preparation of a beverage.

A system is presented for monitoring and controlling in a sterilizable environment the peeling of a cover from a tub sealed by the cover. The system employs a platform having a fiducial source locating structure for holding the tub, a cover removal station disposed to engage with the cover and to peel the cover from the tub, a light source disposed to illuminate a portion of the platform proximate the cover removal station, a light sensor sensitive to light from the light source and disposed to preferentially collect and measure light diffusely reflected from the illuminated portion of the platform, and a controller with software to operate the system. An associated method for monitoring and controlling the peeling of the cover involves moving a peeled portion of the cover into a predetermined peeling monitor zone within the illuminated portion of the platform, and measuring an intensity of light from the light source diffusely reflected specifically from the peeling monitor zone. The positioning of the elements of the system and the peeling monitor zone allow measured light intensity to be employed as a control measure for the peeling process.

A system is presented for monitoring and controlling in a sterilizable environment the peeling of a cover from a tub sealed by the cover. The system employs a platform having a fiducial source locating structure for holding the tub, a cover removal station disposed to engage with the cover and to peel the cover from the tub, a light source disposed to illuminate a portion of the platform proximate the cover removal station, a light sensor sensitive to light from the light source and disposed to preferentially collect and measure light diffusely reflected from the illuminated portion of the platform, and a controller with software to operate the system. An associated method for monitoring and controlling the peeling of the cover involves moving a peeled portion of the cover into a predetermined peeling monitor zone within the illuminated portion of the platform, and measuring an intensity of light from the light source diffusely reflected specifically from the peeling monitor zone. The positioning of the elements of the system and the peeling monitor zone allow measured light intensity to be employed as a control measure for the peeling process.

A method for sterilizing closure elements (3) for packaging containers (1), wherein the closure elements (3) are collected individually by a holding mechanism (25) in the region of a sterile chamber (12) and are placed onto an opening (4) of a filled packaging container (1) and connected to the latter, and wherein the closure elements (3), while being conveyed inside the sterile chamber (12), are treated by means of at least one sterilizing medium (6, 7, 52) during a sterilizing process.

A method for sterilizing closure elements (3) for packaging containers (1), wherein the closure elements (3) are collected individually by a holding mechanism (25) in the region of a sterile chamber (12) and are placed onto an opening (4) of a filled packaging container (1) and connected to the latter, and wherein the closure elements (3), while being conveyed inside the sterile chamber (12), are treated by means of at least one sterilizing medium (6, 7, 52) during a sterilizing process.