A unit for carrying out an operation on a container fillable with a pourable product is disclosed. The unit comprises: a first area; a second area; at least one operative head, which is adapted to carry out the operation; at least one gripping device for gripping the container and which is movable between a rest position, in which the at least one gripping device receives or discharges the container; and an operative position, in which the at least one gripping device sets the container in a position in which the container undergoes the operation. The unit further comprises: a movable element, which is operatively connected to the at least one gripping device for moving the at least one gripping device between the rest position and the operative position, and which comprises a portion movable between the first area and the second area; and a bellow.

A unit for carrying out an operation on a container fillable with a pourable product is disclosed. The unit comprises: a first area; a second area; at least one operative head, which is adapted to carry out the operation; at least one gripping device for gripping the container and which is movable between a rest position, in which the at least one gripping device receives or discharges the container; and an operative position, in which the at least one gripping device sets the container in a position in which the container undergoes the operation. The unit further comprises: a movable element, which is operatively connected to the at least one gripping device for moving the at least one gripping device between the rest position and the operative position, and which comprises a portion movable between the first area and the second area; and a bellow.

A processing station of a container-processing machine includes an electromagnetic linear drive that raises and lowers a container carrier. The linear drive includes a tubular guide element having a stack of magnets extending through it. This guide element guides the motion of a guided element that has coils. Current through these coils generates a magnetic field that interacts with the field from the tubular guide's magnets. This interaction yields a force that can raise the carrier.

A processing station of a container-processing machine includes an electromagnetic linear drive that raises and lowers a container carrier. The linear drive includes a tubular guide element having a stack of magnets extending through it. This guide element guides the motion of a guided element that has coils. Current through these coils generates a magnetic field that interacts with the field from the tubular guide's magnets. This interaction yields a force that can raise the carrier.

A container-processing machine includes a rotor with processing positions formed thereon, a transfer station, and a static lifting element used by all the processing positions. Each processing position has a processing head and a container carrier. The lifting element is a static lifting element that is used by all of the processing positions. When the processing position is at the transfer station, the lifting element causes relative motion between a container carrier and a processing head of the processing position. This causes the processing position to transition between receiving and discharge states.

A container-processing machine includes a rotor with processing positions formed thereon, a transfer station, and a static lifting element used by all the processing positions. Each processing position has a processing head and a container carrier. The lifting element is a static lifting element that is used by all of the processing positions. When the processing position is at the transfer station, the lifting element causes relative motion between a container carrier and a processing head of the processing position. This causes the processing position to transition between receiving and discharge states.

The invention relate generally to a tightening mechanism for a bottle filling and capping system, and a bottle neck configuration. More specifically, the invention includes a machine for tightening plastic caps onto the threaded necks of plastic bottles, and bottle neck configuration that facilitates the capping process, both of which result in a simple and effective capping operation. A conveying assembly moves the bottle in a circular path where the neck of the bottle and the cap are brought together by moving the bottle under a cap that is loosely held at a particular elevation and angle by a feeder mechanism. The conveying system constricts the rotational movement of the bottle, and a neck support stabilizes the neck of the bottle vertically, as the cap is pressed onto the neck initially by a roller. A capping station in a bottle filling line is comprised of a spring biased toothed finger that engage the peripheral edge of the caps as the bottles are conveyed through the machine. Depending on various factors such as the number and circumferential length of the threads on the cap and bottle a second roller and second toothed finger will be used to complete the tightening process. When a capped bottle exits the capping station, the cap is fully engaged with the bottle in that it is tightened and in its final position relative to the bottle.

The invention relate generally to a tightening mechanism for a bottle filling and capping system, and a bottle neck configuration. More specifically, the invention includes a machine for tightening plastic caps onto the threaded necks of plastic bottles, and bottle neck configuration that facilitates the capping process, both of which result in a simple and effective capping operation. A conveying assembly moves the bottle in a circular path where the neck of the bottle and the cap are brought together by moving the bottle under a cap that is loosely held at a particular elevation and angle by a feeder mechanism. The conveying system constricts the rotational movement of the bottle, and a neck support stabilizes the neck of the bottle vertically, as the cap is pressed onto the neck initially by a roller. A capping station in a bottle filling line is comprised of a spring biased toothed finger that engage the peripheral edge of the caps as the bottles are conveyed through the machine. Depending on various factors such as the number and circumferential length of the threads on the cap and bottle a second roller and second toothed finger will be used to complete the tightening process. When a capped bottle exits the capping station, the cap is fully engaged with the bottle in that it is tightened and in its final position relative to the bottle.

A processing station of a container-processing machine includes an electromagnetic linear drive that raises and lowers a container carrier. The linear drive includes a tubular guide element having a stack of magnets extending through it. This guide element guides the motion of a guided element that has coils. Current through these coils generates a magnetic field that interacts with the field from the tubular guide's magnets. This interaction yields a force that can raise the carrier.

A processing station of a container-processing machine includes an electromagnetic linear drive that raises and lowers a container carrier. The linear drive includes a tubular guide element having a stack of magnets extending through it. This guide element guides the motion of a guided element that has coils. Current through these coils generates a magnetic field that interacts with the field from the tubular guide's magnets. This interaction yields a force that can raise the carrier.