[Object] To provide a resin container having a dense and. thin coating with good gas barrier properties and a resin-container coating apparatus.

[Solution] A metal oxide film 102 is formed on at least one of inner and outer surfaces of a resin container 101. The metal oxide film 102 includes a stack of layers of a metal forming the metal oxide film that are deposited on an atomic level and has a thickness of 5 to 100 nm.

[Object] To provide a resin container having a dense and. thin coating with good gas barrier properties and a resin-container coating apparatus.

[Solution] A metal oxide film 102 is formed on at least one of inner and outer surfaces of a resin container 101. The metal oxide film 102 includes a stack of layers of a metal forming the metal oxide film that are deposited on an atomic level and has a thickness of 5 to 100 nm.

A double container according to the present invention comprises a container body having an outer shell and an inner bag, wherein: a mouth part of the container body is configured by lamination of the outer shell and the inner bag; the inner bag comprises a flange part at an upper end thereof in the mouth part, the flange part covering the upper end of the outer shell from above; and the flange part comprises a pull-out part for pulling the inner bag out of the outer shell.

Provided is a hard container capable of appropriately discharging or spraying content. The present invention provides a resin-made hard container for use with a suction device attached thereto that is configured to discharge or spray suctioned content. The hard container is provided with a container body having an outer shell and an inner bag. The container body is configured such that the inner bag contracts as the content is reduced. An innermost layer of the outer shell comprises an EVOH layer.

Container comprising an inner container and an outer container with facing surfaces, wherein at least part of at least one of the facing surfaces has a surface roughness higher than about 0.1 Ra and/or wherein the difference in roughness of the facing surfaces is at least over a part more than about 0.1 Ra.

Container comprising an inner container and an outer container with facing surfaces, wherein at least part of at least one of the facing surfaces has a surface roughness higher than about 0.1 Ra and/or wherein the difference in roughness of the facing surfaces is at least over a part more than about 0.1 Ra.

A method of manufacturing a delaminatable container is provided that is capable of uniformly delaminating the inner bag from the outer shell. According to the first aspect, a container body is formed having an outer shell and an inner bag. The inner bag preliminary delaminated from the outer shell in an entire circumference of a storage portion of the container body by rotating the container body while pressing the storage portion with a pressing mechanism from outside for compression or by moving the pressing mechanism along an outer circumference of the container body.

A delamination container (1) formed in a shape including a tubular mouth (la) and a trunk (1b), the container (1) including: an outer layer body (2) formed of a resin material; an inner layer body (3) formed of a resin material and disposed on an inner side of the outer layer body (2); and an intermediate layer (4) formed of a resin material different from those forming the outer and inner layer bodies (2) and (3) and disposed between the outer and inner layer bodies (2) and (3). The outer and inner layer bodies (2) and (3) and the intermediate layer (4) are formed by direct-blow molding a laminated parison including resin layers corresponding to them. At an opening end of the mouth (1a), an end portion of the intermediate layer (4) is covered by the outer and inner layer bodies (2) and (3).

A coating carrier for use with a glass coating apparatus includes a coating base comprising a plurality of spindle connector receiving features. Each spindle connector receiving feature includes a cavity that is sized to movably receive a spindle connector of a glass body support assembly that is configured to support a glass container body.

A coating carrier for use with a glass coating apparatus includes a coating base comprising a plurality of spindle connector receiving features. Each spindle connector receiving feature includes a cavity that is sized to movably receive a spindle connector of a glass body support assembly that is configured to support a glass container body.