A tray made from cardboard sheet material comprising a rectangular bottom and a ring of side walls, i.e., two first opposing side walls, referred to as first walls, at least one of the first walls being connected on either side by first fold lines to end flaps referred to as first flaps, which may or may not themselves be connected respectively at the top part of same to a second flap by a second fold line, and two second opposing side walls, referred to as second walls. The second walls each comprise a rectangular central panel of which the length is less than the length of the bottom, the panel being connected, at each of the lateral ends of same, by a third fold line to a reinforcing member forming a pillar folded and glued to the central panel, and/or to the first flap of the adjacent first wall, i.e., a first reinforcing element located entirely separated from the adjacent first wall, and a second reinforcing element.

Disclosed here is a container that includes a box, a lid, and a lock.

An automatic heat-insulating material replacement device includes a heat-insulating material replacement rack and a cutter. The replacement rack is rotatably connected to a supporting frame and is pivotally provided with a first and a second reel, which are wound with a first and a second heat-insulating material respectively. The first heat-insulating material has one end to be transported and coated to a substrate. When the first heat-insulating material is almost used up, the replacement rack is rotated to bond the second heat-insulating material to the first heat-insulating material adhesively, allowing the latter to be driven by the former and to be coated to the corresponding substrate. The cutter severs the first heat-insulating material at a position between the opposite end of the first heat-insulating material and the adhesively bonded area of the two heat-insulating materials so that the remaining first heat-insulating material on the first reel can be replaced.

The present invention relates to a method of manufacturing a cellulose product having a flat or non-flat product shape by a pressure moulding apparatus comprising a forming mould. The forming mould has a forming surface defining said product shape, The method comprises the steps of: arranging a cellulose blank containing less than 45 weight percent water in said forming mould; heating said cellulose blank to a forming temperature in the range of 100? C. to 200? C.; and pressing said cellulose blank by means of said forming mould with a forming pressure acting on the cellulose blank across said forming surface, said forming pressure being in the range of 1 MPa to 100 MPa.

An insulated container may include a rigid container surrounding an insulation layer formed from a post-industrial, pre-consumer card waste. The insulation layer may be characterized by a lack of any wrapping material. The insulation layer may be manufactured using a variety of converting processes including, carding, airlay, and needle punch to form a non-woven material for providing consistent density throughout the insulation layer. The insulation layer may include a natural fiber lamination layer on an outer surface of the insulation layer. The insulation layer may be biodegradable in an anaerobic environment.

An insulated container may include a rigid container surrounding an insulation layer formed from a post-industrial, pre-consumer card waste. The insulation layer may be characterized by a lack of any wrapping material. The insulation layer may be manufactured using a variety of converting processes including, carding, airlay, and needle punch to form a non-woven material for providing consistent density throughout the insulation layer. The insulation layer may include a natural fiber lamination layer on an outer surface of the insulation layer. The insulation layer may be biodegradable in an anaerobic environment.

Methods for securing a shrinkable film to a paperboard substrate and methods for making paperboard containers therefrom. In one or more embodiments, a band of adhesive may be applied about a perimeter of a paperboard substrate having a first edge and a second edge opposed to one another and a third edge and a fourth edge opposed to one another. The band of adhesive may at least partially surround a first area that is substantially free from the adhesive. A second area that may be substantially free from the adhesive may be located between the third edge and the first area. The first area and the second area may be separated by the band of adhesive. A shrinkable film may be secured to the paperboard substrate with the adhesive to produce a paperboard blank. The third edge and the fourth edge may be overlapped to form a sidewall. A bottom panel may be secured to the sidewall at or adjacent the second edge. The first edge may be curled to form a brim.

A carrier for holding a plurality of containers includes a plurality of panels extending at least partially around an interior of the carrier, the plurality of panels includes a front panel, a back panel, a first side panel, and a second side panel. The carrier also includes a central partition that divides the carrier into a front portion and a back portion, with each of the front portion and the back portion having at least one divider flap to divide the front portion and the back portion into respective compartments for receiving a respective article. The carrier also includes a plurality of reinforcement flaps foldably connected to a respective panel of the plurality of panels, the plurality of reinforcement flaps includes at least one divider reinforcement flap reinforcing the at least one divider flap.

A method for manufacturing a cellulose product, comprising the steps: dry forming a cellulose blank in a dry forming unit; arranging the cellulose blank in a forming mould; heating the cellulose blank to a forming temperature in the range of 100? C. to 200? C.; and pressing the cellulose blank in the forming mould with a forming pressure of at least 1 MPa.

A system and method of at least partially forming reinforced packages. The method comprises moving a construct in a machine direction on a construct conveyor. The construct conveyor can comprise a primary lug belt with a primary lug, the construct can be disposed on the primary lug belt, and the moving the construct can comprise moving the primary lug belt in the machine direction to push the construct in the machine direction. The method further can comprise positioning a liner on the construct conveyor so that the liner at least partially extends over the construct and moving the liner in the machine direction on a secondary lug belt of the construct conveyor. The secondary lug belt can comprise a secondary lug and the moving the liner can comprise moving the secondary lug belt in the machine direction to push the liner in the machine direction.