Disclosed is a bottling system including a frame having a lane configured to receive a bottle tote holding a plurality of bottles, a filling station located above a first location along the lane, the filling station including a plurality of fill valves configured to simultaneously fill the plurality of bottles, a finishing station located above a second location along the lane, the finishing station including at least one cylinder, the at least one cylinder configured to plunge a plurality of plunging portions, each of the plurality of plunging portions configured to receive a crowing die. The system includes a corking mechanism attachable to the frame at the finishing station, the corking mechanism including a plurality of openings each configured to receive a cork, each of the plurality of plunging portions extending through one of the plurality of openings when plunged by the at least one cylinder.

A system includes a cap having an opening, and a septum configured to engage with the cap. The septum includes a first portion having a first width, and a second portion having a second width smaller than the first width. The second portion is sized and shaped to be received by the opening of the cap.

A system includes a cap having an opening, and a septum configured to engage with the cap. The septum includes a first portion having a first width, and a second portion having a second width smaller than the first width. The second portion is sized and shaped to be received by the opening of the cap.

Systems, methods, devices, and an apparatus for capping blood sample tubes after they are processed in an automated blood sample analysis processing system are provided. One aspect describes an automated blood sample tube capping assembly configured to automatically cap a plurality of sample tubes after they are processed in an automated blood sample analysis processing system.

Vacuum bottle stoppers for wine, particularly suited for partially consumed bottles of wine are disclosed. Systems are also disclosed for evacuating a partially consumed bottle of wine, filling the wine bottle head space with an inert or other gas and the storing the wine bottle while maintaining the inert or other gas in the bottle. The stopper has a vacuum valve and a vacuum indicator in a removable cap. The vacuum valve has a self-closing passageway due to the passageway traversing an elastomeric material. The vacuum indicator moves in response to vacuum and reveals a marking on a valve opener when a desired vacuum is achieved.

Vacuum bottle stoppers for wine, particularly suited for partially consumed bottles of wine are disclosed. Systems are also disclosed for evacuating a partially consumed bottle of wine, filling the wine bottle head space with an inert or other gas and the storing the wine bottle while maintaining the inert or other gas in the bottle. The stopper has a vacuum valve and a vacuum indicator in a removable cap. The vacuum valve has a self-closing passageway due to the passageway traversing an elastomeric material. The vacuum indicator moves in response to vacuum and reveals a marking on a valve opener when a desired vacuum is achieved.

A system includes a cap having an opening, and a septum configured to engage with the cap. The septum includes a first portion having a first width, and a second portion having a second width smaller than the first width. The second portion is sized and shaped to be received by the opening of the cap.

A system includes a cap having an opening, and a septum configured to engage with the cap. The septum includes a first portion having a first width, and a second portion having a second width smaller than the first width. The second portion is sized and shaped to be received by the opening of the cap.

Disclosed is a method of sealing a container with a liquid, the container including a body with an opening at at least one end and including at least one sealing plug, designed to seal the opening after filling, the filling defining a free surface S for filling, the filling having allowed a head space to remain in the container. The method includes: introduction of at least one rod parallel to an inside wall of the body of the container; mechanical insertion of the plug in the body, along the at least one insertion rod, generating at least one channel C, the air of the head space being evacuated between the plug and the rod; and withdrawal of the at least one rod while leaving the plug in place at the level of insertion of the preceding step. Also disclosed are the associated device and the industrial production line.

A system and method for automatic closure of sample vessels such as vessels with medical laboratory samples, having a plurality of identically shaped, stackable closure caps with a convex outer face and concave inner face that are stacked in a closure cap stack such that an upper closure cap in the stack bears with its convex outer face on the concave inner face of a lower closure cap lying immediately below in the stack. The system includes a closure gripper for gripping an uppermost closure cap from the stack, for transferring the gripped closure cap to the sample vessel to be closed, and for introducing the gripped closure cap into an opening of the sample vessel in order to tightly close the opening. The closure gripper has a centering piece insertable into a closure cap such that it bears on the concave inner face of the closure cap.