A disposable travel pouch, a method of making a disposable travel pouch and a method of using a disposable travel pouch. The pouch is sized to accept a quantity of fluent materials such that even when full does not exceed permissible maximums under governmental commercial airline passenger regulations. The construction of the pouch is such that it has sufficient flexibility to allow a substantial entirety of the fluent material contained within to be dispensed by squeezing. A filling structure and a dispensing structure cooperate to allow ease of both filling and dispensing operations, while also allowing a user to switch between a relatively large diameter spout in the filling structure and a relatively small diameter spout in the dispensing structure. The filling structure may be integrally-formed with a body of the pouch while the dispensing structure is separately attachable. An additional closure may be included with the dispensing structure.

An insert made from reticulated foam has a first profile in which an outer perimeter of the insert has a size and a shape that substantially corresponds to an inner surface of a portable container. The insert also has a second profile in which the outer perimeter of the insert has a size and a shape that substantially corresponds to an opening of the portable container. The reticulated foam has a cell density that prevents sloshing noises resulting from jostling movement of the portable container from exceeding 50 db while enabling liquid to exit the portable container at a consumable rate.

A closure (10, 100, 150) for a labware device (20). The labware device (20) defines an interior chamber (25) having at least one opening (92). The closure (10, 100, 150) includes a closure body (12, 102) configured to be mounted to the labware device (20) and in fluid communication with the opening (92). A vent valve (14, 122) is mounted for movement relative to the closure body (12, 102). The vent valve (14, 122), with the closure body (12, 102), defines a space (72, 120) that defines a path between the closure body (12, 102) and the vent valve (14, 122) for gas exchange between the interior chamber (25) and the exterior of the labware device (20). A filter (50) is positioned within the space (72, 120) and is configured to filter contaminants from gas entering the interior chamber (25) via the path.

Described are metering dispensers having a body configured to hold a flowable composition in a chamber, a drive screw coupled to the body, and a plunger threadingly coupled to the drive screw. The plunger includes at least two annular lips that form a fluid seal with the chamber as the plunger travels along the drive screw through the chamber. A base is rotationally coupled to the body with a cam that contacts at least one tab extending externally from the body so that the tab enters at least one low point on the cam by traveling over a trailing edge of the low point, and the trailing edge then prevents the tab from exiting the low point in the direction of the trailing edge.

Described are metering dispensers having a body configured to hold a flowable composition in a chamber, a drive screw coupled to the body, and a plunger threadingly coupled to the drive screw. The plunger includes at least two annular lips that form a fluid seal with the chamber as the plunger travels along the drive screw through the chamber. A base is rotationally coupled to the body with a cam that contacts at least one tab extending externally from the body so that the tab enters at least one low point on the cam by traveling over a trailing edge of the low point, and the trailing edge then prevents the tab from exiting the low point in the direction of the trailing edge.

A system for extracting a liquid from a container. The system comprises a liquid extraction member including a liquid extraction inlet and one or more liquid extraction outlets. The system additionally includes one or more storage vessels each defining a liquid storage inlet coupled in fluid flow communication with the extraction member via one of the liquid extraction outlets. The system additionally includes a pressure differential device operable to cause liquid to flow from the container, through the liquid extraction member, and into one or more of the storage vessels. Furthermore, the system includes one or more fluid restrictors associated with the liquid extraction member and configured to prevent fluid flow in at least one direction through the liquid extraction member to prevent liquid in the liquid extraction member from receding from the liquid extraction member back into the container.

Providing a viscous material feed apparatus and a viscous material feed method capable of further reducing a viscous material remaining in a container, e.g., a bag, housing the viscous material. A viscous material feed apparatus according to the present invention includes: a container (10) configured to include a bag body (11) with a housing space configured to house a viscous material and a spout (20) with a passage configured to deliver the viscous material in the housing space to outside; a squeeze portion (30) configured to squeeze the bag body toward the spout and move the viscous material in the housing space toward the spout; and a nozzle (40) having a hollow shape, the nozzle being configured to be freely inserted into the passage of the spout and withdrawn from the spout, the nozzle being configured to deliver the viscous material collected at the spout to outside.

Providing a viscous material feed apparatus and a viscous material feed method capable of further reducing a viscous material remaining in a container, e.g., a bag, housing the viscous material. A viscous material feed apparatus according to the present invention includes: a container (10) configured to include a bag body (11) with a housing space configured to house a viscous material and a spout (20) with a passage configured to deliver the viscous material in the housing space to outside; a squeeze portion (30) configured to squeeze the bag body toward the spout and move the viscous material in the housing space toward the spout; and a nozzle (40) having a hollow shape, the nozzle being configured to be freely inserted into the passage of the spout and withdrawn from the spout, the nozzle being configured to deliver the viscous material collected at the spout to outside.

Various embodiments relate to a cooking grease receptacle. The receptacle is configurable for depositing, filtration, storage, and/or reuse of cooking oil and grease. An example embodiment is an assembly comprising a reservoir and at least one attachment. The reservoir has a flat bottom end and a flat top end. The top end of the reservoir comprises a reservoir inlet defined by a coupling ridge. The at least one attachment has a sidewall and comprises an outlet defined by at least a portion of the sidewall. The attachment is configured to be fluidly coupled to the reservoir, via the coupling ridge, at the outlet such that a seal is formed between the attachment and the coupling ridge. Various attachments may be interchangeable such that similar coupling mechanisms across attachments are used. In some embodiments, the reservoir and the at least one attachment comprise a heat resistant material capable of withstanding temperatures of up to and including 750 degrees Fahrenheit.

A measuring a closed-loop fluid transfer system is provided that includes a measuring adapter having a first end and a second ends, and a chamber located there between and configured to hold a volume of fluid. The measuring adapter includes a first receiving valve assembly located at the first end of the measuring adapter. The first receiving valve assembly includes a receiving valve member, at least a portion of which is separable from a portion of the first receiving valve assembly. This creates an opening that provides fluid communication to the chamber when a force is exerted on the receiving valve member of the first receiving valve assembly. A second valve assembly located at the second end of the measuring adapter includes a valve member. At least a portion of the valve member of the second valve assembly is separable from a portion of the second valve assembly to create an opening that provides fluid communication to the chamber.