A system and process for forming and sealing a filter in a capsule is provided. The system includes a filter forming station having a mandrel for forming a filter preform, a capsule holder for holding a body of a capsule for receiving the mandrel with the filter preform and a filter sealing station including a sealer for sealing the filter preform to the body at a desired location within the interior surface of the body. The mandrel is adapted to hold the filter preform at a desired position for placement and sealing within the body. The process includes forming a filter preform on a mandrel from a filter material, positioning a body of a capsule for receiving the mandrel with the filter preform, the mandrel being adapted to hold the filter preform, and sealing the filter preform at a desired location to an interior surface of the body.

An apparatus (100) for manufacturing capsules (10) under vacuum for preparing beverages is described, comprising: a plurality of support elements (105) and a driving system (120) adapted to move said support elements (105) and stop them in a plurality of operative stations, wherein each support element (105) comprises a row of housing seats (115), wherein the operative stations comprise at least: a loading station (145) for inserting into the housing seats (115) a glass-shaped body (15), a filling station (150) for filling glass-shaped bodies (15) with a food substance adapted to produce a beverage, a covering station (155) for applying and fixing on the glass/shaped bodies (15) a closing film (45), and a sealing station (160) for placing under vacuum the inner volume of the glass-shaped bodies (15) and for sealing the closing film (45) and wherein said sealing station (160) comprises: a plurality of bell-shaped members (280), each of which is adapted to overlay to one respective housing seat (115) and has mouthpiece directed downward, a movement apparatus (300) for moving each bell-shaped member (280) in vertical direction between a raised position to a lowered position, a vacuum generating apparatus (340) to reduce the inner volume of bell-shaped members (280), and a plurality of welding elements (390), each of which is contained inside a respective bell-shaped member (280) for airtightly welding the closing film (45) on the glass-shaped body (15) contained in the housing seat (115).

A digital pressure canner and related methods of operation that provide for improved safety and consistency during a food canning process by reducing temperature over and undershoot. The digital pressure canner includes a digital control operating with inputs from digital sensors to accurately control the canning temperature during the canning process. By reducing over and undershoot of canning temperatures, foods within the pressure canner are maintained at temperatures sufficient to kill any bacteria or microorganisms for the entire canning cycle. In order to verify operation of the digital canner at sufficient canning temperatures, mechanical safety devices, for example, a pressure relief valve can be utilized in conjunction with digital controllers and sensors to provide audible and visual feedback to a user during the canning process.

The present disclosure provides systems and methods for producing a hydrogen storage vessel that is lightweight. The hydrogen storage vessel may comprise an inner body and an outer body structured as concentric rings with a conic interface. The vessel may have four material layers, including a barrier layer, an insulation layer, a fiber knit, and an abrasion layer. The fiber knit may be braided to trap the hydrogen, as the barrier layer may not be completely impermeable. Additionally, the fiber braid may be clamped to the outer body, enabling pressure pushing on the inner body to wedge and seal the storage vessel.

A system that dispenses precise amounts of ingredients in sequential steps that formulate a craft cocktail, mixed drink or shot into a single serve beverage container. The system then closes the container and a resulting vacuum is created that hermetically seals the lid to the container. The sealed container is then agitated in a prescribed motion to mix the contents as they would normally be done by expert individuals in the field of mixology or bartending. The system comprises of a series of stations that inject ingredients, a closing mechanism for the lid resulting in a vacuum that seals the lid to the container body, method of maintaining the lid on to the container body until vacuum is established, and agitating mechanism that precisely mixes the ingredients into themselves prior to finish packing.

A portable packing table having a temperature-controlled work area is provided. The table defines a chamber for dry ice or like substance and has a surface on which an open-topped upright chimney is mounted for receiving a flow of conditioned air from the chamber and for defining a temperature-controlled work area therein. A fan unit is connected to the table for forcing a flow of ambient air into the chamber, and a control unit is connected to the fan unit for automatically controlling operation of the fan unit to maintain air temperature within the chimney within a set temperature range.

Methods, apparatus, and system to measure and control respiration of a perishable commodity in a vacuum chamber, including for purposes of extending a shelf life of a perishable commodity therein, including.

The present disclosure relates to a transfer plate for a container element. The transfer plate extends in a first direction and a second direction being perpendicular to each other. The transfer plate comprises a cavity portion comprising at least one through-going first cavity adapted to receive and hold the container element, the first cavity having a first open area. The transfer plate further comprises a cover portion being at least as large as, or substantially as large as, the first open area. The disclosure further relates to an attachment unit for attaching a container element to a container body and to an apparatus for attaching container elements to container bodies in a flow of containers. In addition the disclosure relates to a method of attaching a container element to a container body by means of the attachment unit.

Apparatus for extracting pharmaceutical containers from a nest inside a tub includes an advancement line of the tubs, which stops the tubs at a rest station; a handling organ, and a pickup and transfer station. The station has a frame, with a housing for receiving and supporting a nest and rotatable about a first axis into a first operating position near the rest station and into a second operating position near the handling organ. A suction gripper collects at least a further nest containing pharmaceutical containers from a tub in the rest station and positions the further nest in the housing of a second frame stationary in the first operating position. The second frame then rotates into the second operating position for the handling organ to collect the pharmaceutical containers from the “nest.”

Apparatus extracting, from trays, bottles with mouths facing downwards includes an advancement line stopping the trays at a rest station; a handling organ; and a bottle pickup and transfer mechanism having a suction plate, with suction seats receiving and retaining the bottles internally. A frame with a housing receives and releasably retains the suction plate. The frame rotates about a first axis to a first operating position near the rest station and to a second operating position near the handling organ. Gripping and moving means pick up and move the suction plate above the tray with the seated bottles, and to raise the plate with the bottles, and then position the plate at the housing in the first operating position.