A pressure roller for an apparatus for compaction of empty (disposable) hollow bodies (beverage containers), particularly plastic bottles or tin cans, having at least one rotating roller that is disposed at a distance from a counter-bearing, forming a gap, has an essentially cylindrical mantle surface that possesses multiple profiled partial regions of the same type and the same width in its working region, following one another in the axial direction. These profiled partial regions are separated from one another, in each instance, by a circumferential recess. Each of these profiled partial regionsviewed axiallyhas multiple sections that follow one another. At least one cam-shaped projection that projects radially away from the mantle surface is disposed in one of these sections.

A compacting apparatus (1) for compacting receptacles has at least one advancing device (2) for conveying a receptacle (G) in a conveying direction (E) to an exit opening (6) of the compacting apparatus (1). The at least one advancing device (2) is configured to act on the receptacle (G) for compacting during conveying. A flap device (5) has an adjustable retaining flap (50) that closes the exit opening (6) in a closed position so that a receptacle (G) conveyed against the retaining flap (50) by the at least one advancing device (2) is retained on the retaining flap (50). The retaining flap (50) is adjustable out of the closed position to release the exit opening (6).

Container compressing arrangement, mountable in a reverse vending machine, for compacting empty containers, in particular beverage bottles or cans which are preferably made of plastic or metallic material, such as PET or tinned metal, the container compressing arrangement including: a first and a second rotatable roller, each of the rollers having a working surface arranged between two oppositely arranged ends, wherein the rollers are arranged adjacent to each other to rotate in opposite directions around a respective rotation axis in a common geometrical xz-plane; and wherein the working surface includes a plurality of ridges extending across the working surface, in an axial direction of the roller, and distributed in the circumferential direction of the working surface, each ridge having a longitudinal extension in the axial direction.

A shaft arrangement for a reverse vending machine, in particular for a compressing arrangement in a reverse vending machine used for recycling. The shaft arrangement includes a sidewall having an inside and an outside, and at least one opening, and at least one shaft extending through the at least one opening, and the at least one shaft includes a radial groove. The shaft arrangement includes a bearing arrangement arranged on the outside of the sidewall, the bearing arrangement includes a bearing block and a bearing connected to the at least one shaft. The shaft arrangement includes a seal arranged around the outer surface of the at least one shaft at the at least one opening. The bearing block is arranged spaced apart from the sidewall to create a gap between the sidewall and the bearing block. The shaft arrangement further includes a plate arranged on the inside of the sidewall.

A compacting apparatus (1) for compacting receptacles has a compacting unit (3) with at least one first advancing device (4) for transporting at least one receptacle (G) in an insertion direction (E). The compacting unit (3) is configured to compact the receptacle (G) while the receptacle (G) is transported in the insertion direction (E). A post-compacting unit (5) is downstream of the compacting unit (3) in the insertion direction (E) and has at least one second advancing device (6) for transporting the at least one receptacle (G) through the post-compacting unit (5). The post-compacting unit (5) is configured to compact the at least one receptacle (G) further. Positions of the at least one first advancing device (4) of the compacting unit (3) and the at least one second advancing device (6) of the post-compacting unit (5) are changeable with respect to one another in the insertion direction (E).

A fully integrated, low maintenance, manually operated beverage container compacting system featuring a free-standing, user powered, enclosed, beverage container compactor and storage receptacle. The compactor includes a self retracting puncture mechanism to release pressure due to air and liquids in sealed containers prior to their compacting. The storage system includes double trap doors with gaskets to create a sealed storage receptacle that reduces odors. A first top trap door includes a rubber gasket to prevent liquids from being expelled out of the compactor; and a bottom trap door is configured for capturing escaped liquids. The bottom trap door is actuated into an open state at an end of a crushing stroke to drop the container into the storage receptacle after captured liquids have drained into a liquid capture container for improved cleanliness. A self reset mechanism renders the system to an initial state for a next user after compacting.

A shaft arrangement for a reverse vending machine, in particular for a compressing arrangement in a reverse vending machine used for recycling. The shaft arrangement includes a sidewall having an inside and an outside, and at least one opening, and at least one shaft extending through the at least one opening, and the at least one shaft includes a radial groove. The shaft arrangement includes a bearing arrangement arranged on the outside of the sidewall, the bearing arrangement includes a bearing block and a bearing connected to the at least one shaft. The shaft arrangement includes a seal arranged around the outer surface of the at least one shaft at the at least one opening. The bearing block is arranged spaced apart from the sidewall to create a gap between the sidewall and the bearing block. The shaft arrangement further includes a plate arranged on the inside of the sidewall.