A melter melts particulate hot melt adhesive into a liquefied form. The melter includes a heated receiving device having an interior with an inlet that receives the particulate hot melt adhesive and an outlet. The heated receiving device melts the particulate hot melt adhesive and directs the liquified hot melt adhesive to the outlet. A prepackaged container holds a supply of the particulate hot melt adhesive and includes an outlet. A particulate hot melt adhesive feed device allows the particulate hot melt adhesive to be directed from the outlet of the prepackaged container to the inlet of the heated receiving device.

A melter for heating and melting particulate hot melt adhesive into a liquefied form is disclosed. The melter includes a heated receiving device having an interior with an inlet configured to receive the particulate hot melt adhesive and an outlet. A flexible hopper holds a supply of the particulate hot melt adhesive and a particulate hot melt adhesive feed device allows the particulate hot melt adhesive to be directed from the flexible hopper to the inlet of the heated receiving device.

A collapsible chute for conveying materials with a tubular main body of flexible material with an entrance opening, an exit opening, and a body portion between the entrance and exit openings. A first reinforcing band is fixed to surround the body portion adjacent to the entrance opening, and a first plurality of loops is spaced along the first reinforcing band. A second reinforcing band is fixed to surround the body portion spaced from the first reinforcing band and spaced from the exit opening, and a second plurality of loops is spaced along the second reinforcing band. A third reinforcing band can be fixed to surround the body portion between the first and second reinforcing bands, and a third plurality of loops is spaced along the third reinforcing band. A method for debris removal comprises affixing the entrance opening of the body portion of the main body to an opening of a building structure and evacuating debris through the main body of the collapsible chute.

The invention relates to a feeding carriage for a compressor machine of the type having an upper filling end through which a particulate material which is to be compressed in a mold of the compressor machine is introduced, and a lower discharging end for discharging said particulate material towards said mold. At least some of the elements forming said feeding carriage can move with respect to one another, which thereby allows modifying the geometry of at least one of said lower discharging end, said upper filling end and an intermediate portion of the supply carriage located between both ends. The invention also relates to the use of such a feeding carriage comprising the initial steps of determining optimum carriage geometry for a particulate material which is to be compressed and applying said optimum carriage geometry to the feeding carriage.

A debris disposal chute includes a plurality of tubes having rectangular cross sections of a decreasing size attached together. Flaccid members are connected between hangers pivotably mounted to a casing and the first tube and between the flaccid members of the upper tube and the next lower tube. The casing is pivotably mounted to a receptacle about an axis perpendicular to the hanger axis and the center line of the chute. A header is removably connected to the receptacle by attachment bars and includes a surface inclined towards the open entry. Weight basins are removably connected to the header by leverage connectors on opposite sides of the open entry and the attachment bars.

A debris disposal chute includes a plurality of tubes having rectangular cross sections of a decreasing size attached together. Flaccid members are connected between hangers pivotably mounted to a casing and the first tube and between the flaccid members of the upper tube and the next lower tube. The casing is pivotably mounted to a receptacle about an axis perpendicular to the hanger axis and the center line of the chute. A header is removably connected to the receptacle by attachment bars and includes a surface inclined towards the open entry. Weight basins are removably connected to the header by leverage connectors on opposite sides of the open entry and the attachment bars.

A flexible funnel element attachable to a holder funnel element to form a funnel section of a material guide chute. The funnel elements include releasable connections to able the flexible elements to be interchanged at the holder elements when worn. Due to the modular construction of the funnel sections, the guide chute has component parts of different materials such that selected components may be optimized for wear resistance and maintaining the free flow of material through the chute.

A flexible funnel element attachable to a holder funnel element to form a funnel section of a material guide chute. The funnel elements include releasable connections to able the flexible elements to be interchanged at the holder elements when worn. Due to the modular construction of the funnel sections, the guide chute has component parts of different materials such that selected components may be optimized for wear resistance and maintaining the free flow of material through the chute.

A return device for empties includes a housing; an empties-introduction opening by way of which empties are introducible; a conveying mechanism disposed in the housing and by which empties that have been introduced can be conveyed away. The mechanism has an empties-receptacle portion facing the opening and by which the empties from the opening reach the mechanism. The portion is disposed to be adjacent to the opening and spaced apart therefrom such that a gap is present between the opening and the portion. The device further includes an optical detection device disposed in the housing adjacent to the opening, so as to be able to optically detect in an at least substantially encircling manner introduced empties; and a web extending in a region between a lower portion of the opening and the portion, to be able to serve as a bearing for the empties at least partially bridges the gap.

A method for connecting two containers (10, 12), with the steps: 1) folding a first open end region (22) of a first container (10) around a first ring (14) in such a manner that a cuff (26) arises, 2) folding a second open end region (24) of a second container (12) around a second ring (16) in such a manner that a further cuff (28) arises, 3) introducing the one ring (16) into the other ring (14) with its attached container (10), 4) aligning the two rings (14, 16) parallel to and coaxially with each other, 5) bringing the rings (14, 16) into contact with film material (18) clamped between them, and 6) the cuff (28) which is assigned to the ring (16) introduced into the other ring (14) with its container (10), being turned inside out in the direction of the other cuff (26) which has already been folded on the other ring (14).