A flexible container device, comprising a container top portion having a top footprint, a container bottom having a bottom footprint, and a flexible reservoir body in between the container top portion and the container bottom. The flexible reservoir body can be formed by a flexible panel folded and attached to itself along one or more body seams extending along a length of the flexible reservoir body. The flexible reservoir body can be collapsible and foldable.

Apparatus (10) is for use in a cap applicator unit (12). The apparatus (10) comprises a spigot (14) comprising an elongate body (16) and a head (18) connected to one end of the elongate body (16), and an anvil (20) provided with a hole (22) therein, the elongate body (16) of the spigot (14) mounted in the hole (22) of the anvil (20). The size of the hole (22) of the anvil (20) is sufficiently greater than the size of the elongate body (16) of the spigot (14) to permit angular movement of the spigot (14) relative to the anvil (20). The apparatus (10) further comprises at least one tensioning device (24) and (36) arranged to provide a force tensioning the spigot (14) against the anvil (20).

An ultrasonic system and method for sealing a complex interface, such as a Gable top, having multiple and a variety of layers across the interface, or an oval or round spout having a complex geometry. The system includes two ultrasonic horns arranged opposite a gap between which the interface is provided. The frequency and phase of the ultrasonic energy are synchronized as the energy is applied simultaneously while the interface is pressed between a jaw and the energy is applied to both sides of the interface. Only one application of the frequency- and phase-synchronized ultrasonic energy is required to hermetically seal all the layers of the interface together.

An environmentally-friendly cup and method of making the same are provided. The environmentally-friendly cup includes a cup body and a cup base. The cup body is formed by curling a paper material that has a first and a second portion. The second portion has a first and a second straight side. The first portion is connected to the first straight side of the second portion and is curled into a straw. The straw is adhesively bonded to the second straight side of the second portion such that the second portion is curled into a tubular wall with a top opening and a bottom opening. The top end of the straw juts out of the top opening. The straw is directly formed on the cup body and therefore can be easily carried as an integral part of the environmentally-friendly cup without getting lost.

An environmentally-friendly cup and method of making the same are provided. The environmentally-friendly cup includes a cup body and a cup base. The cup body is formed by curling a paper material that has a first and a second portion. The second portion has a first and a second straight side. The first portion is connected to the first straight side of the second portion and is curled into a straw. The straw is adhesively bonded to the second straight side of the second portion such that the second portion is curled into a tubular wall with a top opening and a bottom opening. The top end of the straw juts out of the top opening. The straw is directly formed on the cup body and therefore can be easily carried as an integral part of the environmentally-friendly cup without getting lost.

A squeeze tube includes a fluid-discharge container and a fluid-discharge closure mated to the fluid-storage container. The fluid-discharge closure is coupled to one end of the fluid-storage container and configured to discharge selectively fluid stored in a product-storage region formed in the fluid-storage container.

In an embodiment, a portion control container can have a body and a lid sealed to the body. The lid can have defined therein a spout-type opening. The spout-type opening can be defined by an initiation region having 100% cut-through the lid that transitions to a pattern of reduced strength having less than 100% penetration through the lid. The container can remain sealed until the lid is separate from the container along the seal to provide a dip-type opening or the lid material is torn at the initiation region and pattern of reduced strength to define a spout-type opening for squeeze dispensing of the product from the container.

In an embodiment, a portion control container can have a body and a lid sealed to the body. The lid can have defined therein a spout-type opening. The spout-type opening can be defined by an initiation region having 100% cut-through the lid that transitions to a pattern of reduced strength having less than 100% penetration through the lid. The container can remain sealed until the lid is separate from the container along the seal to provide a dip-type opening or the lid material is torn at the initiation region and pattern of reduced strength to define a spout-type opening for squeeze dispensing of the product from the container.

A container with integrated handles provides an alternative to other containers handling materials. In some embodiments, the container includes an outer surface that encloses a cavity; a first face internal to the container; a second face internal to the container; a third face internal to the container; a fourth face internal to the container; an integrated handle including a first aperture disposed in the first face internal to the container and a second aperture disposed in the second face internal to the container and proximate to the first aperture; and an internal support disposed in the cavity, wherein the internal support traverses the cavity of the container to form a handle cavity by extending from the first face internal to the container to one or more faces internal to the container, wherein the internal support includes a handle cavity flap, a first binder flap, and a second binder flap.

A container with integrated handles provides an alternative to other containers handling materials. In some embodiments, the container includes an outer surface that encloses a cavity; a first face internal to the container; a second face internal to the container; a third face internal to the container; a fourth face internal to the container; an integrated handle including a first aperture disposed in the first face internal to the container and a second aperture disposed in the second face internal to the container and proximate to the first aperture; and an internal support disposed in the cavity, wherein the internal support traverses the cavity of the container to form a handle cavity by extending from the first face internal to the container to one or more faces internal to the container, wherein the internal support includes a handle cavity flap, a first binder flap, and a second binder flap.