The disclosure herein relates to a portable capsule percolator with a drinking cup. In particular, the disclosure relates to a portable and easy to use capsule percolator, operable, using capsules readily available on the market, for making a desired percolated beverage such as coffee, tea, vegetarian drinks and the like, on the go, at the office, while travelling and more specifically, whenever or wherever such a drink is desired. The portable capsule percolator is operable by a pressure differential mechanism without the need of a power source. The portable capsule percolator includes an air-extracting mechanism operable to extract air from a first internal space and a sealing mechanism associated with the flask lid section configured to let outside air into a second internal space generating the pressure differential, activating the percolating process by pushing the liquid through a beverage capsule into a percolating section.

An insulated bottle includes an inner container having an inner wall that defines an inner chamber within which a product is received. The insulated bottle includes an outer container having an outer wall that defines an outer chamber. The inner container is received within the outer chamber of the outer container. A space is defined between the inner wall and the outer wall. The insulated bottle includes a label shrink wrapped to an outer surface of the inner wall of the inner container. The label is positioned within the space defined between the inner wall and the outer wall.

An insulating cup includes an outer body surrounding at least a portion of an inner body. The outer body folds inwardly and upwardly at the bottom end to form a distal fold that spaces the inner surface of the outer body at the bottom end away from the outer surface of the inner body. The outer body further includes an embossment across the majority of the length and width of the sidewall such that the inner surface of the outer body projects outwardly away from the inner body to space apart the inner surface of the outer body from the outer surface of the inner body in the location of the embossment. The distal fold and embossment separate the inner body and the outer body creating an insulating air space between substantially the entire inner surface of the outer body and the outer surface of the inner body.

The invention relates to a double-walled cup (1) which comprises an inner and an outer wall as well as a cup opening on its upper end and a bottom part on its lower end. The outer wall is substantially produced from paper, cardboard or the like. The object of the invention is to improve said double-walled cup (1) in such a manner that it can be more rapidly and simply produced and assembled and to reduce the structural stability of the double-walled cup while maintaining its corresponding thermal insulating properties. For this purpose, the inner cup providing the inner wall is inserted into the outer cup (3) providing the outer wall and is secured therein or thereto in an especially detachable manner. The inner cup (2) is produced from an at least fluid-tight plastic material.

Insulated packaging is provided including an inner substrate and an outer substrate attached to the inner substrate to form an air gap therebetween. An expandable material including expandable microspheres is provided with the expandable material disposed between the inner substrate and the outer substrate. An adhesive material different than the expandable material is disposed between the inner substrate and the outer substrate to attach the inner substrate to the outer substrate. A method for forming the insulated packaging is also provided.

An insulating container can be configured to retain a volume of liquid, and include a first inner wall having a first end having an opening extending into an internal reservoir, and a second outer wall forming an outer shell. The second outer wall can include a second end configured to support the container on a surface. The second outer wall can include a dimple, and the dimple can include a circular base and an inner portion converging to an hole extending into the second outer wall. The hole can be sealed by a resin, and the circular base can be covered by disc formed of the material. Alternatively, a cap can cover the dimple, and a weld can connect the cap to the second outer wall. The container can also include a sealed vacuum cavity forming an insulated double-wall structure between the first inner wall and the second outer wall.

Provided are a double-walled paper cup and a method of manufacture thereof. The double-walled paper cup comprises an inner cup; and an outer sleeve configured to circumferentially envelop the inner cup and to be attached at a top and bottom circumferential edge thereof to the inner cup; wherein the top edge of the outer sleeve is folded inwards on itself to form a contact strip for attachment to a portion of the inner cup adjacent to a lip of the inner cup, the contact strip defining a gap between the inner cup and outer sleeve. The method of manufacturing the paper cup comprises using a cold glue process and a hot melt glue process to attach the outer sleeve and the inner cup together.

A double-walled cup and a process for production of the cup are described. The cup includes an inner cup and a tube-shaped outer sleeve, which is formed from a blank of paper material joined at its ends. The tube-shaped outer sleeve is slid axially onto a prefabricated inner sleeve and secured. The tube-shaped outer sleeve is formed from a flat blank by joining the ends of the blank before being slid on, whereby the ends of the blank are joined by an adhesive applied to a limited area of the outer sleeve. The ends of the blank are joined by a thermoplastic material in the form of an adhesive, which for example can be a hot-melt adhesive or a sealing varnish.

The present embodiments describe an insulated drinking vessel with a multifunction lid. In an embodiment, the drinking vessel can be configured to receive a multifunction lid. The multifunction lid may, in one embodiment, include an opening for receiving a drinking straw. In an embodiment, the multifunction lid may additionally include an opening for drinking or sipping directly through the lid. In an embodiment, the lid may include an operable cover for covering at least one of the openings in a first position and for allowing access to the fluid through the opening in a second position. In a further embodiment, the lid may include a plurality of operable covers. A first operable cover may be configured for covering the drinking straw opening in a first position and allowing insertion of a straw in a second position. The lid may also include an operable cover for covering the sipping spout in a first position and allowing drinking directly through the spout in a second position.

An insulating container can be configured to retain a volume of liquid, and include a first inner wall having a first end having an opening extending into an internal reservoir, and a second outer wall forming an outer shell. The second outer wall can include a second end configured to support the container on a surface. The second outer wall can include a dimple, and the dimple can include a circular base and an inner portion converging to an opening extending into the second outer wall. The opening can be sealed by a resin, and the circular base can be covered by disc formed of the material. The outer wall and the inner wall can be constructed from different materials such that the outer wall is harder and resists indentation, and the inner wall reduces the overall weight of the container.