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.

The present invention relates to a container (10) moulded from a tubular element. In particular, the container (10) in object is able to contain and dispense at least one solid or fluid substance through at least one hollow containment body (11). Advantageously, the hollow body (11) comprises a first end (111), at an opening side of the containment body (11), and a second end (112) such as to act as the bottom of the hollow body (11). Furthermore, the present invention relates to a moulding system for moulding the aforementioned container and to a method for its manufacturing.

Arrangements are provided for smart functionality with dumb containers, such as for determining medication adherence, tracking product use, and validating product authenticity. An acoustic emitter is engaged with a container or other vehicle. Opening the container causes the acoustic emitter to produce an acoustic emission, without requiring power, processing capacity, or sensors. A cell phone or other station receives and registers acoustic emissions, such as by logging opening of the container, verifying authenticity of the acoustic emission, communicating with an oversight system, or similar. Data as may be encoded in an acoustic emission may include vehicle detection data (e.g., logging a container being opened), vehicle information (e.g., lot number, contents name), vehicle validation (e.g., valid or counterfeit numerical code), and audible user recognition (e.g., brand jingles, warning sounds).

Disclosed is a metal bottle seal that is disposed on the curl of the metal bottle. The bottle seal may be held in place by crimping of the curl. In addition, adhesive may be used to hold the bottle seal on the curl. Adhesives can be used that fill discontinuities that may exist in the curl as a result of substantial drawing and ironing of the metal. Further, the metal bottle seal can be made of a material or laminated with a material that is soft enough to fill the discontinuities. The seal can be preformed as a continuous annulus for easy application to the top of the metal bottle. The metal bottle seal can also be used in conjunction with a cap seal to ensure an adequate and reliable seal.

Arrangements are provided for smart functionality with dumb containers, such as for determining medication adherence, tracking product use, and validating product authenticity. An acoustic emitter is engaged with a container or other vehicle. Opening the container causes the acoustic emitter to produce an acoustic emission, without requiring power, processing capacity, or sensors. A cell phone or other station receives and registers acoustic emissions, such as by logging opening of the container, verifying authenticity of the acoustic emission, communicating with an oversight system, or similar. Data as may be encoded in an acoustic emission may include vehicle detection data (e.g., logging a container being opened), vehicle information (e.g., lot number, contents name), vehicle validation (e.g., valid or counterfeit numerical code), and audible user recognition (e.g., brand jingles, warning sounds).

Arrangements are provided for smart functionality with dumb containers, such as for determining medication adherence, tracking product use, and validating product authenticity. An acoustic emitter is engaged with a container or other vehicle. Opening the container causes the acoustic emitter to produce an acoustic emission, without requiring power, processing capacity, or sensors. A cell phone or other station receives and registers acoustic emissions, such as by logging opening of the container, verifying authenticity of the acoustic emission, communicating with an oversight system, or similar. Data as may be encoded in an acoustic emission may include vehicle detection data (e.g., logging a container being opened), vehicle information (e.g., lot number, contents name), vehicle validation (e.g., valid or counterfeit numerical code), and audible user recognition (e.g., brand jingles, warning sounds).

A container for dispensing a liquid water-insoluble edible fat includes a main body portion containing a body volume and a fill sub-volume, less than the body volume, within a first region of the main body portion. The container includes a pouring portion configured to direct a flow of the liquid water-insoluble edible fat out of the container when the container is tilted off of a vertical axis, and a neck portion connecting the main body portion to the pouring portion. The neck portion has a neck width less than a width of the main body portion in a first direction, the main body volume is configured to further include a catch sub-volume within a second region of the main body portion extending beyond the neck width in the first direction, the second region is different than the first region, and the catch sub-volume is substantially equal to the fill sub-volume.

A container of a plastic material is produced using a blow-fill-seal method, and has a container body (1) for receiving a fluid as well as a neck section (5) connected to the container body (1). At the container free end, a dispensing opening (13) for fluid is sealed via a separating region (15, 19) with a head section (17) that can be removed from the neck section (5) by actuating a movable sleeve section (35). By releasing the separating region (15, 19), the dispensing opening (13) is exposed. From the unactuated state to the actuated state in which the separating region (15, 19) is released, the sleeve section (35) is guided so as to be at least partially in contact with a guide path (23) that is part of the removable head section (17).

A container for dispensing a liquid water-insoluble edible fat includes a main body portion containing a body volume and a fill sub-volume, less than the body volume, within a first region of the main body portion. The container includes a pouring portion configured to direct a flow of the liquid water-insoluble edible fat out of the container when the container is tilted off of a vertical axis, and a neck portion connecting the main body portion to the pouring portion. The neck portion has a neck width less than a width of the main body portion in a first direction, the main body volume is configured to further include a catch sub-volume within a second region of the main body portion extending beyond the neck width in the first direction, the second region is different than the first region, and the catch sub-volume is substantially equal to the fill sub-volume.

Provided is a delamination container having improved oxygen barrier properties. The present invention provides a delamination container provided with a container body having an outer shell and an inner pouch, the inner pouch being adapted to delaminate from the outer shell and contract in association with a decrease of the contents, wherein the inner layer constituting the inner pouch is provided with, in order from the container outer surface side, an outside layer, an adhesive layer, and an inside layer. The outside layer includes an EVOH layer, and the inside layer has a thickness of 60-200 m and a flexural modulus of 250 MPa or less, the value (thickness of the inside layer/thickness of the EVOH layer) being 1.1-5, and the total thickness of the inside layer being 100-250 m.