A bag or bag-like transport container or delivery container that can provide a high degree of thermal insulation. More particularly, the disclosed invention relates to an improved container for storage and transportation of goods that comprises a bag-like or box-like container that can be hand-held and that can provide good thermal insulation. The disclosed invention seeks to provide an improved corrugated sheet container and provides a system having first and second cellulose fiber bag-like elements, at least one of which is provided with a surface metallization treatment whereby to provide beneficial thermal characteristics.

A bag or bag-like transport container or delivery container that can provide a high degree of thermal insulation. More particularly, the disclosed invention relates to an improved container for storage and transportation of goods that comprises a bag-like or box-like container that can be hand-held and that can provide good thermal insulation. The disclosed invention seeks to provide an improved corrugated sheet container and provides a system having first and second cellulose fiber bag-like elements, at least one of which is provided with a surface metallization treatment whereby to provide beneficial thermal characteristics.

The paper recyclable heat sealable bag includes a heat sealable water soluble inner layer coating and an article of paper. The heat sealable coating is applied to the article of paper by a printing press. As the printing press applies the heat sealable coating to the article of paper, the paper recyclable heat sealable bag may be wound into a master roll with a plurality of paper recyclable heat sealable bags. The master roll is fed into an automatic packaging system which fills the bags with a product from at least one of a top edge and a side edge of the paper recyclable heat sealable bags. The paper recyclable heat sealable bag has certain perforations to remove the paper recyclable heat sealable bag more easily from the master roll and sealed with a heat sealer.

The paper recyclable heat sealable bag includes a heat sealable water soluble inner layer coating and an article of paper. The heat sealable coating is applied to the article of paper by a printing press. As the printing press applies the heat sealable coating to the article of paper, the paper recyclable heat sealable bag may be wound into a master roll with a plurality of paper recyclable heat sealable bags. The master roll is fed into an automatic packaging system which fills the bags with a product from at least one of a top edge and a side edge of the paper recyclable heat sealable bags. The paper recyclable heat sealable bag has certain perforations to remove the paper recyclable heat sealable bag more easily from the master roll and sealed with a heat sealer.

A transport pouch includes a flap portion and a body portion separated from each other by a folding portion. The transport pouch also includes a front panel and a rear panel, an adhesive closure, at least one removable cover, and a form closure. When the flap portion of the transport pouch is folded onto the body portion of the transport pouch, the flap area of the adhesive closure is adhered to the body area of the adhesive closure, and the form closure is closed, the folding portion of the transport pouch acts as a barrier that prevents billowing of the body portion of the transport pouch, caused by a relative pressure increase in the transport space due to a pressure drop in the surroundings of the transport pouch, from tearing open the form closure and thus from tearing open the adhesive closure.

A transport pouch includes a flap portion and a body portion separated from each other by a folding portion. The transport pouch also includes a front panel and a rear panel, an adhesive closure, at least one removable cover, and a form closure. When the flap portion of the transport pouch is folded onto the body portion of the transport pouch, the flap area of the adhesive closure is adhered to the body area of the adhesive closure, and the form closure is closed, the folding portion of the transport pouch acts as a barrier that prevents billowing of the body portion of the transport pouch, caused by a relative pressure increase in the transport space due to a pressure drop in the surroundings of the transport pouch, from tearing open the form closure and thus from tearing open the adhesive closure.

A bag, preferably a plastics bag, for the collection of waste, which may include damp waste such as used coffee capsules, wherein, a bag opening is present in the bag front wall, and further comprising a closing flap which has an adhesion area to cover and close the bag opening. The disclosure further relates to a method for collecting waste, which may include damp waste such as used coffee capsules, using the bag according to the disclosure. Moreover, a method for recycling used coffee capsules, comprising collecting a plurality of bags according to the disclosure filled therewith and subjecting this plurality of bags to a melting process. Finally, described herein is use of the bags according to the disclosure for the collection of waste, which may include damp waste such as used coffee capsules, or for the shipping of waste such as used coffee capsules to a collection point.

A bag, preferably a plastics bag, for the collection of waste, which may include damp waste such as used coffee capsules, wherein, a bag opening is present in the bag front wall, and further comprising a closing flap which has an adhesion area to cover and close the bag opening. The disclosure further relates to a method for collecting waste, which may include damp waste such as used coffee capsules, using the bag according to the disclosure. Moreover, a method for recycling used coffee capsules, comprising collecting a plurality of bags according to the disclosure filled therewith and subjecting this plurality of bags to a melting process. Finally, described herein is use of the bags according to the disclosure for the collection of waste, which may include damp waste such as used coffee capsules, or for the shipping of waste such as used coffee capsules to a collection point.

Provided is a method for producing a self-adhesive to be arranged on a package comprising a space to store contents and an opening by which the space and an outside communicate, wherein the opening is repeatedly openable and sealable by the self-adhesive that consists of a cross-linking material of a resin composition containing a (meth)acrylic acid ester copolymer resin having a glass transition temperature of −22.8° C. or more, and a crosslinking agent. The method comprises making the resin composition that contains the (meth)acrylic acid ester copolymer resin, and the crosslinking agent, the resin composition being either emulsion or dispersion; and cross-linking the resin composition.

Provided is a method for producing a self-adhesive to be arranged on a package comprising a space to store contents and an opening by which the space and an outside communicate, wherein the opening is repeatedly openable and sealable by the self-adhesive that consists of a cross-linking material of a resin composition containing a (meth)acrylic acid ester copolymer resin having a glass transition temperature of −22.8° C. or more, and a crosslinking agent. The method comprises making the resin composition that contains the (meth)acrylic acid ester copolymer resin, and the crosslinking agent, the resin composition being either emulsion or dispersion; and cross-linking the resin composition.