A storage and carrying bag for climbing, rigging, and rescue gear that provides a user with quick and efficient access to stored gear. The bag includes a dual-compartment body, a first fastening mechanism, an at least one second fastening mechanism, a first strap, and a second strap. The dual-compartment body includes a first panel section, a middle panel section, and a second panel section. The first panel section and the second panel section are connected to the middle panel section on either side to delineate a zig-zag storage body. The first fastening mechanism is perimetrically integrated in between the first panel section and the middle panel section to delineate a first compartment. The second fastening mechanism is perimetrically integrated in between the second panel section and the middle panel section to delineate a second compartment. The first strap and the second strap are externally mounted to the dual-compartment body.

A cartridge for an aerosol-generating system includes a liquid storage portion configured to store a liquid aerosol-forming substrate. The liquid storage portion includes one or more flexible walls and is configured to change at least one of the shape and the size of the liquid storage portion upon a change of the volume of the liquid aerosol-forming substrate held in the liquid storage portion. The cartridge includes a sensor configured to detect data of a physical property. The data relates to at least one of a corresponding shape and a corresponding size of the liquid storage portion so that the volume of the liquid aerosol-forming substrate held in the liquid storage portion is determinable from the measured data.

A cartridge for an aerosol-generating system includes a liquid storage portion configured to store a liquid aerosol-forming substrate. The liquid storage portion includes one or more flexible walls and is configured to change at least one of the shape and the size of the liquid storage portion upon a change of the volume of the liquid aerosol-forming substrate held in the liquid storage portion. The cartridge includes a sensor configured to detect data of a physical property. The data relates to at least one of a corresponding shape and a corresponding size of the liquid storage portion so that the volume of the liquid aerosol-forming substrate held in the liquid storage portion is determinable from the measured data.

A catheter connector assembly which may be included with a corporeal drainage system, and a method of draining fluid from a bodily cavity. The catheter connector assembly may include a catheter connector and a drainage line connector. The catheter connector may include a connector body with a coupling feature, a deformable sealing element, and a retaining member. The drainage line connector may include a drainage line body first and second hinge clips, and an actuator. The actuator is designed to deform the deformable sealing element when the drainage line connector is coupled to the catheter connector.

A roll-up water bottle comprises a hollow cylindrical opening adjacent one end thereof. The opening retains a removable closure/filter assembly. That assembly includes a filter retained within a bottle cap. The cap is positioned within a bottle opening support member retained within the hollow cylindrical opening. The filter housing is generally cylindrical but also includes an outer profile that includes a pair of opposed flat walls. When the filter is secured within the bottle cap and the cap secured within the bottle opening support member, a pair of water flow channels are created. Upon the user applying suction or pressure from squeezing the bottle, water contained with the bottle flows through vent openings in the filter, but also up through the water flow channels. The result is a more even distribution of fluid across a greater portion of the filter.

A roll-up water bottle comprises a hollow cylindrical opening adjacent one end thereof. The opening retains a removable closure/filter assembly. That assembly includes a filter retained within a bottle cap. The cap is positioned within a bottle opening support member retained within the hollow cylindrical opening. The filter housing is generally cylindrical but also includes an outer profile that includes a pair of opposed flat walls. When the filter is secured within the bottle cap and the cap secured within the bottle opening support member, a pair of water flow channels are created. Upon the user applying suction or pressure from squeezing the bottle, water contained with the bottle flows through vent openings in the filter, but also up through the water flow channels. The result is a more even distribution of fluid across a greater portion of the filter.

Device for containing fluid substance, including a bag having at least one flexible side wall, a substantially rigid neck delimiting an opening giving access to an internal cavity of the bag, shaped to at least partially accommodate a pumping member for pumping the fluid substance, and provided with a connector for connection to an external container. The bag is made from multilayer material, and the neck is made from a material different from bag material and includes a cup-shaped element having a bottom wall with at least one opening, and a side wall on the outer surface of which the upper edge of the bag is hermetically connected. The device includes a valve element for moving from an opening position, wherein the valve element makes the bag internal cavity accessible, and a closing position, wherein the valve element inhibits access to the internal cavity.

Disclosed are various embodiments of a collapsible containment bag configured to retain a collection of hazardous materials. In one embodiment, the containment bag includes a non-porous liner, a plastic sheeting, and a bag frame. The containment bag may be in a collapsed state initially and later expand for use at the site of an environmental spill. The containment bag may be expanded from the collapsed state through a series of actions that may include pivoting a portion of the containment bag about an edge and pulling opposing sides of the containment bag away from the center of the containment bag.

Disclosed are various embodiments of a collapsible containment bag configured to retain a collection of hazardous materials. In one embodiment, the containment bag includes a non-porous liner, a plastic sheeting, and a bag frame. The containment bag may be in a collapsed state initially and later expand for use at the site of an environmental spill. The containment bag may be expanded from the collapsed state through a series of actions that may include pivoting a portion of the containment bag about an edge and pulling opposing sides of the containment bag away from the center of the containment bag.

A dispenser has a body with a variable-volume storage chamber for storing substance, and a dispensing portion defining a dosage chamber in fluid communication with the storage chamber. A first valve includes a valve seat and a flexible valve cover seated thereon defining a normally-closed fluid-tight seam therebetween. The valve cover relative to moves from the valve seat to allow substance through the seam and out of the dispenser. A second valve allows substance from the storage chamber into the dosage chamber and substantially prevents flow from the dosage chamber into the storage chamber. An actuator is manually movable between (i) a first non-actuated position, and (ii) a second actuated position extending into the dosage chamber for compressing a dose of substance therein, dispensing substance through the first valve. The elasticity of the actuator causes it to return to the first non-actuated position upon manually releasing the actuator.