The invention relates to a method for switching the operation of a container treatment system (100) from a first operating mode to a second operating mode. Containers (130) are treated at least in a container treatment machine (101) comprising a heater, a pasteurizer, or a heat exchanger in the first operating mode. According to the method, the containers (130) to be treated in the first operating mode are transported into the container treatment machine (101). The containers are treated in the container treatment machine and are transported to the outlet (103) of the container treatment machine (101). Information indicating that the operation will be switched is stored in the controller of the container treatment system (100). At least one sensor (106) detects the last treated container (130) or the last container to be treated in the first operating mode and outputs a signal indicating same, and a transferring device (105) transports all the containers (130) which have been treated in the first operating mode from the outlet (103) of the container treatment machine to a transport device (104) at the outlet of the container treatment machine on the basis of the indicative signal. The invention also relates to a container treatment system for carrying out the method.

An automated method and system for transporting vials from multiple upstream locations to a downstream location and for combining N number of conveyor lanes from N number of upstream location (e.g., capping stations) down to one conveyor lane. The system is adapted to transport vials from a more-distant upstream location faster than vials from a closer upstream location so that they reach the downstream location at approximately the same time. Guide members placed at an angle to the traveling axis of the conveyor lanes divert the vials onto a single conveyor lane for transporting the vials to a downstream location.

The present invention relates to a transfer apparatus, and the transfer apparatus includes: a first transfer module holding an object to be transferred on the top thereof and transferring the object to be transferred at a first speed in a longitudinal direction; a second transfer module disposed in parallel with the first transfer module and holding the object to be transferred on the top thereof and transferring the object to be transferred at a second speed in the longitudinal direction; and a blowing module causing air to flow upward/downward below at least one of the first transfer module and the second transfer module.

An automated parcel singulator includes a conveyor system, a control and monitoring system, an infeed table, and a hopper system. The hopper system stores and dispenses parcels and boxes onto the infeed table. The infeed tables singulates and moves the boxes and parcels, so that when the boxes and parcels are placed on the conveyor system they form a single line of packages.

A system and method for independently routing vehicles and delivering containers and closures to unit operation stations are disclosed. The containers and closures can, in some cases, be transported on the same vehicle. In other cases, the containers and closures can be transported on different vehicles.

A feed unit, for example for feeding components to smoking article assembly apparatus, has a guide member (14) and a plurality of pushers (21) arranged to push components (2) along a path defined by the guide member (14) for output from the feed unit. The guide member (14) is arranged to separate the components (2) into separate streams (63, 64) according to their orientation. The stream (63) of non-correctly oriented components (2) comprises a channel that is helically rotated to orientate correctly said components (2). Both streams (63, 64) converge downstream said helical section to achieve a single flow of components (2) of similar orientation.

A controller of a robotic material handling system performs a method that conveys articles from a pile within a confined space. One or more articles per operation are robotically moved onto a vertically-positionable nose conveyor surface conveys toward a narrower rearward conveyor. Controller detects a jammed article that is at least partially supported by the nose conveyor and that has failed to fully convey onto the rearward. The controller attempts to dislodge the jammed article by causing at least one of: (i) vertically repositioning the nose conveyor surface; and (ii) activating at least one of the two or more parallel conveyors of the nose conveyor surface to run in a forward direction. After the attempt to dislodge, the controller activates at least one parallel conveyor that is contact with the jammed article in a rearward direction.

An automated method and system for transporting vials from multiple upstream locations to a downstream location and for combining N number of conveyor lanes from N number of upstream location (e.g., capping stations) down to one conveyor lane. The system is adapted to transport vials from a more-distant upstream location faster than vials from a closer upstream location so that they reach the downstream location at approximately the same time. Guide members placed at an angle to the traveling axis of the conveyor lanes divert the vials onto a single conveyor lane for transporting the vials to a downstream location.

Devices and methods for buffering articles may include use of an infeed conveyor, an outfeed conveyor, and at least two accumulation conveyors defining a path extending between the infeed conveyor and the outfeed conveyor. Each accumulation conveyor includes an entrance portion adjacent the infeed conveyor for receiving articles from the infeed conveyor and an exit portion adjacent the outfeed conveyor for delivering articles to the outfeed conveyor.

A side-by-side reducer (SSR) conveyor has one lateral side of driven rollers operating at a different longitudinal running speed than another lateral side of driven rollers. The one lateral has an input section of driven rollers skewed away from the other lateral side followed by a converging zone of driven rollers skewed toward the other lateral side. The separation prevents frictional contact between side-by-side cartons so that one can be longitudinally moved a different velocity than the other to converge in a tandem arrangement.