A closure device for a container for aseptically receiving a flowable product has a spout with a product filling duct extending axially between a first end and a second end. The closure device has a closure cap which can be mounted onto the spout. In the mounted state, the cap closes the second end of the product filling duct. The closure cap is connectable in axially positively locking fashion to the spout in two axially different positions. The first position is a position in which the closure cap is not fully mounted on the spout, and the second position is a position in which the closure cap is fully mounted on the spout. The closure cap can bear sealingly against the spout in the first position and in the second position to optimize sterility during the filling process.

The invention relates to a production system for producing, processing and/or filling containers and to a method for the production control and/or system specification of this production system. According to the invention, at least one visually imperceptible intensive state variable or material characteristic of components of the containers, which components are provided as solid bodies, is measured in the area of the production system with respect to the batch and/or object in question. Furthermore, at least one production process proceeding therein for treating and/or transporting the components/containers by machine is controlled on the basis of the measured material characteristic and/or intensive state variable. In this way, quality fluctuations of the components can be quantified and can be used both in the control and in a simulation of the individual production processes in order to optimize these production processes and the associated process units.

Method for processing hot-filled plastic containers are provided. In some embodiments, the method may include hot-filling a plastic container, sealing the container, and conveying the sealed container, each with an inner annular wall and a push-up portion in a first position. In some embodiments, the method may further include creating a vacuum pressure in the hot-filled and sealed container and repositioning the push-up portion from the first position to a second position under a mechanical force.

A method of processing a plastic container to increase internal pressure including blow-molding the container to comprise an invertible panel in the base and a standing ring, hot filling and sealing the container, feeding the container into an apparatus with a holding device and forcing a volume reduction and pressure increase into the container, and stacking the containers in bulk pallets on top of one another to increase top load and create a positive pressure within the distribution load of containers.

Method for collision monitoring for a periodically moving, electrically driven component of a container handling machine with another component, wherein a limit value for a measured variable that is indicative of a collision between the components is stipulated that, when exceeded, prompts the drive of the component to be shut down, characterized in that the limit value for the measured variable is determined dynamically for a current period of the movement of the component on the basis of the measured variable measured during a preceding period, and a container handling machine designed to perform the method.

A plastic container comprises an upper portion including a finish defining an opening into the container, a lower portion including a base defining a standing surface, a sidewall extending between the upper portion and the lower portion, the sidewall defining a longitudinal axis, and at least one substantially transversely-oriented pressure panel located in the lower portion. The pressure panel is movable between an outwardly-inclined position and an inwardly-inclined position to compensate for a change of pressure inside the container. The standing surface defines a standing plane, and the entire pressure panel is located between the standing plane and the upper portion of the container when the pressure panel is in the outwardly-inclined position.

The invention relates to a device for introducing an additive fluid into a container such as a bottle. The device comprises a support disk, a plurality of fluid lines, each comprising a fluid outlet situated on the perimeter of the support disk, a fluid manifold fixed on the support disk configured to feed the fluid lines with additive fluid, and dosing valves, a dosing valve equipping each fluid line. The device further comprises a pairing assembly for pairing the device with a transfer wheel of a bottling machine, configured to synchronise a rotation of the support disk with a rotation of the transfer wheel with which it is paired. The invention also relates to a system comprising such a device and to a bottling machine comprising such a system. The invention also relates to a method for transforming a bottling machine comprising adding a device for introducing an additive fluid into a container.

A method of operating a closing station includes decoupling a first closing element from a working position of the closing station and moving it away from the working position, bringing a second closing element into the working position, and coupling it into the container transport path at the working position.

A method and apparatus for assisting the cooling or heating of product, such as beverages, in a container can include agitating the contents of the container to create movement and to generate eddy currents in the contents. The method and apparatus can help to reduce the temperature gradients in the contents and to increase the heat transfer rate of the contents while simultaneously cooling or heating the contents and simultaneously transporting the containers. The containers can be cooled or heated using a cooling or heating media, in a cooling or heating tunnel, or in a reservoir. Agitating the contents of the container can be accomplished with a vibration generator, which can be selected from a pulsating fluid, a shaker, a motor rotating an unbalanced mass, a tactile transducer, an acoustic device, and a subwoofer. The vibration generator can be a pulsating fluid that is also a cooling or heating media.

A palletizing device of container packs, being of a sliding table type, including a structure and a loading surface of the packs with side-by-side parallel rollers mounted on mobile frames with a freely rotation, with two side parts movable from a closed position to an opened position, and reversely, wherein when a locking system of the rollers with a locking means with a cart with a locker mobile from a folded position to an unfolded position, and reversely, is in the unfolded position, the locker is blocking the freely rotation of the rollers, and the locking system has a fixed locking actuator cooperating with the locking actuator to move the locker from the folded position to the unfolded position to lock the rollers of the two sides parts during the movement from the closed to the opened position.