A lid for a liquid container has a lid wall with a perimeter, a top side surface, and an underside surface. The lid has an anti-glug device carried on the lid wall and positioned to coincide with a dispensing orifice in the lid wall. The anti-glug device has a channel that partly circumferentially surrounds the dispensing orifice. Terminal ends of the channel define a circumferential gap therebetween. One or more air vents are formed axially through a part of the channel and are disposed circumferentially opposite the circumferential gap.

A plant irrigation dispenser and method controllably dispenses nutritional compositions to a plant. The dispenser comprises a housing defined by a first end and a second end that forms a channel. Impaling members form at the second end of the housing. The housing encloses multiple chambers that contain the nutritional composition. The chambers have a filling end and a dispensing end that forms an opening. A membrane seals the opening. Rotatably manipulating and axially displacing the chambers in relation to the housing allows the impaling members to tear the membrane, so that the nutritional compositions flows through the openings, and onto the plant. A press is in communication with the chamber cavities, so that axially displacing the press in a downward direction forces the nutritional compositions through the openings. A valve assembly retains and manipulates plugs in alignment with the openings to selectively couple and decouple the respective openings.

A container is provided with a lid having a push-button trigger mechanism that operates both a drink seal for a drinking opening and a vent seal for a vent opening. The trigger translates in a straight line transverse to a longitudinal axis of the container body during the entire movement of the trigger to define a straight-line actuation stroke. The vent opening is initially opened during a first portion of the actuation stroke of the trigger, and the drink opening is initially opened during a second portion of the actuation stroke of the trigger.

A container is provided with a lid having a push-button trigger mechanism that operates both a drink seal for a drinking opening and a vent seal for a vent opening. The trigger translates in a straight line transverse to a longitudinal axis of the container body during the entire movement of the trigger to define a straight-line actuation stroke. The vent opening is initially opened during a first portion of the actuation stroke of the trigger, and the drink opening is initially opened during a second portion of the actuation stroke of the trigger.

A drinking bottle assembly includes a lid assembly with a lid housing having a top wall, a flap rotatably coupled to the top wall, and a gasket secured to the flap. A drink opening extends through the top wall. A rim extends above the top wall. At least one notch is located in an inner surface of the rim. The flap includes a flexible portion or extension and at least one locking lug projecting from the flexible portion. The locking lug engages the at least one notch in a closed position. The flap is rotatable from the closed position to a fully open position. The gasket is configured to seal the drink opening in the closed position.

A drinking bottle assembly includes a lid assembly with a lid housing having a top wall, a flap rotatably coupled to the top wall, and a gasket secured to the flap. A drink opening extends through the top wall. A rim extends above the top wall. At least one notch is located in an inner surface of the rim. The flap includes a flexible portion or extension and at least one locking lug projecting from the flexible portion. The locking lug engages the at least one notch in a closed position. The flap is rotatable from the closed position to a fully open position. The gasket is configured to seal the drink opening in the closed position.

A liquid container lid assembly includes a straw having an internal one-way valve and a grommet seal for sealing against the straw. As a result, the disclosed liquid container lid assembly allows a consumer (such as a child) to drink from the straw while preventing accidental spillage without the need for the child to manipulate any part of the lid assembly (such as a lock or valve release). In other words, the liquid container lid assembly is always in a no-spill configuration while simultaneously allowing a consumer to drink from the straw.

A liquid container lid assembly includes a straw having an internal one-way valve and a grommet seal for sealing against the straw. As a result, the disclosed liquid container lid assembly allows a consumer (such as a child) to drink from the straw while preventing accidental spillage without the need for the child to manipulate any part of the lid assembly (such as a lock or valve release). In other words, the liquid container lid assembly is always in a no-spill configuration while simultaneously allowing a consumer to drink from the straw.

Methods of dicing semiconductor wafers, each wafer having a plurality of integrated circuits, are described. In an example, a method of dicing a semiconductor wafer having a plurality of integrated circuits involves forming a mask above the semiconductor wafer, the mask composed of a layer covering and protecting the integrated circuits. The mask is then patterned with a split laser beam laser scribing process, such as a split shaped laser beam laser scribing process, to provide a patterned mask with gaps, exposing regions of the semiconductor wafer between the integrated circuits. The semiconductor wafer is then plasma etched through the gaps in the patterned mask to singulate the integrated circuits.

A container system includes a container for holding a fluid. The container may be positioned within a box that provides structural support to the container while allowing the container system to be stacked. The container may include chamfered corners and a glug mitigation mechanism. The box may include corresponding chamfered corners and one or more access apertures for providing access to the container handle and container opening that are positioned within and below the top surface of the box.