A method and a device for buffering containers in a container treatment plant are disclosed. The containers are stored in single rows by at least one inlet conveyor belt in an inlet direction, are shifted in single rows on a buffer surface transversely adjacent by shuttles with row pushers guided on rails and driven individually into a buffer direction extending transversely to the inlet direction in single rows, and are withdrawn by at least one outlet conveyor belt adjacent to the buffer surface in the buffer direction in an outlet direction extending transversely to the buffer direction, or by at least one planar motor armature that can be driven towards the buffer surface and that is in particular driven two-dimensionally. Thus, the containers can be decelerated/accelerated with respect to the inlet/outlet conveyor belt in a controlled manner.

Buffer device for buffering containers, with an inlet, an inlet manipulator, a first buffer system, a transposition device, a second buffer system, an outlet manipulator, and an outlet, where containers can be transferred by the inlet manipulator from the inlet to the first buffer system and can be transported along a first direction in the first buffer system, where the transposition device can transfer containers from the first buffer system to the second buffer system, and the containers can be transported in the second buffer system along a second direction that is opposite to the first direction, and the containers can be removed from the second buffer system by the outlet manipulator and fed to the outlet, where the buffer capacity of the buffer device is adjustable.

An omnidirectional anemometer and a method for using such an anemometer to measure the airflow along a conveying path, such as a helical path through a processing chamber. The anemometer is a low-profile, omnidirectional, three-axis anemometer with minimal airflow-occluding structure. Because of its low profile, the anemometer can fit in spiral conveyors with a short tier pitch.

The temporary store for buffering and feeding piece-goods-like foods from production to packaging by means of peripherally-circulating product carrier baskets (1) consists of an inlet area (3) and an outlet area (4) for loading and unloading the product carrier baskets, as well as accumulation sections (2) connected therebetween for filled and emptied product carrier baskets. The accumulation sections are arranged one above the other and overhead.

An article storage device includes a first conveying line, a second conveying line, and a temporary storage passage, wherein the first conveying line and the second conveying line ascend spirally around the temporary storage passage to form a double spiral structure, and two ends of the temporary storage passage respectively are in communication with the first conveying line and the second conveying line, the first conveying line conveys the article to the temporary storage passage, the temporary storage passage receives the article from the first conveying line and conveys the article to the second conveying line, and the second conveying line receives the article from the temporary storage passage and conveys the article.

A sensing system (110) positioned relative to the conveyor belt (34) to sense the physical configuration of the belt side links (44) and (46) as well as the inclination or tilt of the side links.

A method of collating packages that includes receiving a plurality of packages in a main channel of a collation module, conveying the packages in the main channel along parallel grooves having a first portion arranged perpendicularly to the main channel, and conveying the packages in the main channel along a second portion of the parallel grooves angled towards a first side of the collation module, where each package passes through first and second portions of a single groove.

The invention relates to a transfer device for transferring products in an industrial processing line for the in-line processing of products, between a collecting surface and a transit zone running alongside the collecting surface, said transit zone comprising at least two longitudinal conveyors spaced away from a slider bed and each intended to transport a file of products, said device comprising said collecting surface, said transit zone, and a transfer tool transferring between the collecting surface and the transit zone, equipped with at least three longitudinal vertical walls, and intended to push, transversely, longitudinal rows of products which rows are each positioned between two walls. This device is wherein at least one wall of the transfer tool is mounted with the ability to move translationally on said tool in a transverse direction, for a movement of pushing said products. Other subjects of the invention are corresponding methods.

According to one aspect of the present invention, an accumulation module for a product delivery system includes an input shaft configured to receive an external drive force. A transfer shaft reverses an operation of the external drive force to define a reversing drive force. An output shaft receives the reversing drive force. An accumulation belt is operated by the reversing drive force. The accumulation belt operates in opposition to the external drive force.

A manufacturing method for customized fast moving consumer goods (FMCG) comprising the production of the customized goods in a main production process stream or a side stream. The method further comprises temporarily storing the customized goods in a side stream process and subsequently re-inserting said goods into the main production process stream. The customized goods may be finally packaged in a dedicated pack or in a pack that also contains non-customized goods. The method is suitable for, but not limited to, articles such as diapers, absorbent products, tissues and other hygienic products.