The present invention relates to a cap body operable to be removably coupled to a distal end of the container in a hermetically sealed configuration, wherein the cap body includes a button or nodule cover, a cap channel defined and surrounded by the cap body, and a gas discharge port defined on an outer surface of the cap body. The cap body includes a valve assembly disposed within the cap channel and has a longitudinally biased valve stem, wherein the valve stem has a static position with the distal valve end disposed proximal to the button or nodule cover and with the valve assembly in hermetically sealed configuration with the cap body to fluidly uncouple the first channel end and the container cavity and a gas-evacuation position with the distal valve end in a depressed position to fluidly couple the container cavity, the gas discharge port, and ambient environment.

A food container with vents on handles includes a box and a cover. The box includes a box wall and a receiving room. Two opposite sides of the box wall are provided with a pair of handle portions. Each handle portion is extended with a bent section from the box wall toward a direction which is bent away from the receiving room. An upper portion of each bent section is formed with a venting space communicating with the receiving room. The cover is removably fastened to the box to cloak the receiving room and includes a cover plate, a pair of handle lids and sliding seals. The handle lids can be fixed to the handle portions to cover the venting space. Each handle lid is provided with vents. The sliding seals are separately disposed in the handle lids to be capable of selectively cloaking the vents.

A system and method for dispensing sparkling and other non-pressurized beverages from a container. Sparkling wine and other beverages may be dispensed using a dispensing system that includes a stopper body that can be engaged with the container at the container opening. The stopper body may be arranged to introduce gas into the container during pouring-type dispensing, as well as re-pressurize and seal the container for storage, e.g., to keep a carbonation level of beverage remaining in the container.

The invention concerns a device (1) for mixing, storing and drinking a beverage comprising:a container body (2),a mixing device (23) positioned within the container body,a removable lid (3) comprising: at least two openings, one first opening (31) being configured as a beverage outlet, and one second opening (32) being configured as an air port, said second opening being positioned distant from the edge of the lid, a first member (41) configured for closing or opening the first opening (31) and movable between a first closing position and a second opening position, a second member (41) configured for closing or opening the second opening (32) and movable between a first closing position and a second opening position.

A bottle stopper adapted for self-opening and self-plugging a bottle, comprising a cylindrical cover having a bottom end and a top end. The cylindrical cover is sized and shaped to plug a bottle. A cartridge is encompassed by the cylindrical cover and has a fluid chamber; the cartridge also has at least one lateral protrusion thereon to form between the cartridge and the cylindrical cover. There is at least one fluid channel for fluidly connecting between a space below the bottom end and above the top end. A conduit having at least one inlet and at least one outlet is for fluidly connecting transferring the fluid of the fluid chamber to outside of the bottle stopper. An activation cap is mounted to push the conduit along a longitudinal axis of the cylindrical cover from a closed state to an open state.

A food-storage container includes a container body defining a storage area and a rim. A removable lid is connectable to the rim to seal the storage area. The lid defines a vent hole. A latch assembly of the container has a latch and a vent flap. The latch is pivotally attached to the lid and is configured to engage with the container body to secure the lid to the rim when in a latched position. The vent flap is pivotal relative to the latch between an open position in which the flap is spaced from the vent hole and a sealing position in which the flap seals the vent hole.

Drink containers include a liquid container and a cap assembly removably coupled to the liquid container. Cap assemblies include a switch, a trigger and seal bar. Upon actuating the trigger the seal bar slides back to form a drink outlet opening in the cap assembly. To hold the seal bar in an open state without additional external force from the user, the switch is slid from an unlocked position to a locked position, thereby keeping the drink outlet and a vent formed in the cap assembly open in order to cool down a warm beverage in the liquid container.

A nozzle for fast inflation and deflation includes a flexible plastic body, an air tube, and a sealing plug. The flexible plastic body is connected to a bottom of the air tube, and the sealing plug is flexibly connected to an outer port of the air tube. A valve sheet is in the flexible plastic body. For air inflation or deflation, a gap as an air channel is formed between the valve sheet and the air tube for inflation or deflation without pressing the flexible plastic body. To store air, the air tube is bent downward until the flexible plastic body is deformed to cause the valve sheet to contact the inner port of the air tube so as to avoid air leakage. Then, the air tube is allowed to be slowly plugged by the sealing plug. The problem of internal air leaking out is thus fully solved.

A container and cap assembly has a container and a cap. The cap covers the container, and has an inner cover, a piston, a slider, and an outer cover. The piston is disposed in the inner cover, and is axially movable therein. The slider is mounted on the piston, and is radially movable to move the piston. The outer cover receives the inner cover, the piston, and the slider. The outer cover is rotated in a first direction to close the container, and is continuously rotated in the first direction to move the slider radially and reciprocatingly so as to move the piston axially and reciprocatingly. The piston is moved to exhaust air from the container to produce a vacuum or approximate vacuum in the container. Therefore, contents in the container are protected from moisture without a desiccant material.

A push type exhaust cover, includes: a first cover body, configured with at least one through hole; and a second cover body, one side thereof in combination with one side of the through hole, a curved line configured between the second cover body and the through hole, a periphery of the second cover body in combination with a periphery of the through hole with a dotted broken line, an engagement portion projected from a top surface of the second cover body, pressing the engagement portion down causing the dotted broken line of the second cover body to be broken to fall into the through hole, allowing a top end of the engagement portion to press against another side of the through hole to make the through hole to be in communication with the outside so as to achieve an exhaust effect.