A pedestal for a physiological characteristic sensor assembly and a physiological characteristic sensor assembly is provided. The pedestal includes a first side opposite a second side. The pedestal includes a sidewall that interconnects the first side and the second side. The pedestal also includes a first end opposite a second end. The pedestal includes at least one post that extends from the first side adjacent to the first end to couple the pedestal to a physiological characteristic sensor of the physiological characteristic sensor assembly. The pedestal also includes a recess defined in the sidewall at the second end. The recess has a first portion in communication with a second portion. The first portion has a first length that is less than a second length of the second portion along a perimeter of the sidewall, and the second portion is positionable to apply a force to the physiological characteristic sensor.

A double-headed tube structure comprises a tube body, a first tube head, an annular retaining member and a second tube head. The first tube head and a first end portion of the tube body are hermetically connected together. A second end portion of the tube body is sleeved on an outer circumference of the annular retaining member. The second end portion of the tube body, the annular retaining member and the second tube head are hermetically connected together. The annular retaining member communicates with the tube body and the second tube head. The first and second tube heads are sealedly welded at both ends of the tube body by a two-step forming process. Through the annular retaining member, the tube body is not deformed in the two-step forming process, thereby improving the welding and sealing effect.

A device for capping a container with a container cap, for example in a beverage filling plant, includes an isolator for providing a defined atmosphere in the interior thereof; a capper for capping a container with a container cap, which capper is arranged in the isolator; and a cap production device for producing container caps from a hot melt, for example a plastics melt. The cap production device is arranged outside the isolator, and is interconnected with the isolator or is connected to the isolator via a cap transport tunnel in order to feed produced container caps to the capper.

A container supply device includes a guide plate that guides stacking of a plurality of lids in a vertical direction, a lower claw capable of advancing/retreating and mounting a first container located at the lowermost position in a plurality of stacked containers, an upper claw capable of advancing/retreating and including a recess into which a flange portion of a second container sequentially stacked on the first container in the plurality of stacked containers is inserted, and a suction pad that adsorbs and separates the first container from the second container in a state where the second container is supported by the upper claw.

Apparatus for providing a dose of aerosolisable material to a container of a consumable unit for use with an inhalation device is disclosed. The apparatus comprises a hopper for receiving aerosolisable material, the hopper comprising an opening in a lower end of the hopper; and a doser disposed below the hopper, the doser comprising a dosing cavity. The doser is movable between a first position in which the dosing cavity is aligned with the opening such that aerosolisable material is movable from the hopper into the dosing cavity, and a second position in which the dosing cavity is aligned with a container such that the aerosolisable material is movable from the dosing cavity into the container. A method of providing a dose of aerosolisable material to a container of a consumable unit for use with an inhalation device is also disclosed.

Sterilely enclosing a container by means of at least two caps by: gripping a first region of a container provided with a first cap in a first region by means of first tongs, by gripping and clamping the first cap; and sliding a second cap onto a second region of the container in such a way that one or more of: the second cap abuts the first cap, the second cap slips over the first cap, or the second cap is slipped over by the first cap; or the first cap and the second cap are connected by means of complementary screw threads, protrusions, cut-outs, or engagement elements; or a connection that provides sterile sealing-off from the outside of the first and second caps can be formed between the first and second caps, leaving a bridgeable distance between the first and second caps.

The present disclosure relates to a positioning unit for positioning a container element in a container body, comprising a base plate of a rigid material, and a plunger skirt of a resiliently deformable material. A footprint surface of the base plate has a circumferential edge with a side edge portion comprising an inwardly curved segment. The plunger skirt is transformable between an unexpanded state and an expanded state by relative movement in relation to the base plate. 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 positioning a container element in a container body by means of the positioning unit.

A packaging system for medical containers having a main opening, comprising: a vessel having a shoulder; a tray provided with cavities that is intended for receiving a medical container and rests on the shoulder; a plurality of caps that close the main opening; and a lid that seals the vessel. A method for packaging medical containers, comprises the following steps: providing a vessel; arranging a tray on the shoulder of the vessel; arranging medical containers in the cavities; arranging a cap on the medical containers so as to close the main opening thereof; sealing a lid on an upper edge of the peripheral wall of the vessel; and placing the vessel in at least one sealed bag.

An order fulfillment system is described that includes a carton and a mover configured to carry the carton throughout the system. The carton is a preformed, five-sided container with flanges extending outwardly from edges thereof. The mover includes a depression in a top surface thereof that nestably receives the carton therein. The mover may include a vacuum system to aid retention of the carton therein. The mover and carton may include indicia to enable identification and tracking thereof throughout the fulfillment process. A lidding process applies a lid that is adhered to the flanges of the carton and includes identifying indicia thereon. The system provides identification and verification of items placed in the carton and can be easily integrated into existing manual and automated fulfillment systems. A manual system allows a user to manually pick and load cartons and attach a carton lid via an adhesive.

The present invention discloses an automated beverage dispensing system that allows any beverage dispensing apparatus to be converted to a contactless, automated beverage dispensing apparatus.