A container that may be employed to store a tobacco-containing material is provided. The container may include a lower body portion and an upper lid. The lower body portion may include an intermediate bottom wall that may separate the lower body portion into upper and lower internal storage compartments. An environment modification material may be received in the lower internal storage compartment. The tobacco-containing material may be received in the upper internal storage compartment. The environment modification material may control humidity in the container to preserve the freshness of the tobacco-containing material and/or perform other functions. Vent channels cooperatively formed by the lower body portion and the upper cover may further contribute to humidity control.

Reversible lid (1) for a storage or reheating canister, comprising a first (2) airtight attachment means designed to cooperate with an upper edge (4) of a container (5) when the lid (1) is arranged along a first direction on the container (5) and a second (3) airtight attachment means designed to cooperate with said upper edge (4) of the container (5) when the lid is arranged in the reverse direction on the container (5), characterized in that the lid (1) comprises a two-way steam release mechanism (10), connecting the two opposite surfaces of the lid, and in that said two-way release mechanism (10) allows a flow to pass between the two surfaces of the lid (1) when the pressure difference between the two surfaces is greater than or equal to a value (P0), particularly when reheating food in a microwave oven.

Container assemblies (100) that transition between a sealing state and a retained venting state are described. The container assemblies each include a body portion (110) having an open end (113), and a lid portion (120) adapted to cover the open end of the body portion to create an enclosed volume, e.g. reservoir, and additionally comprise a venting feature (140). When the fluid pressure within the enclosed volume is less than a threshold pressure, the lid portion is in a sealing state such that the lid portion and the body portion cooperate to maintain a substantially fluid-tight seal against fluid leaving the enclosed volume. When the fluid pressure is greater than or equal to the threshold pressure, the lid portion is in a retained venting state such that the excess fluid pressure from the enclosed volume vents through the venting feature while retaining the lid portion on the body portion.

A container lid assembly is provided with a press button opening capability. The lid assembly includes a first outlet opening and a second air opening. A valve member is provided in the lid to which a press button actuator is connected and moveable between a pushed down open position and a pulled up closed position. The press button actuator is connected to the valve member and is moveable between a pressed open position an extended closed position. A biasing member biases the actuator to the extended closed position and the actuator is pressed against the bias of the biasing means. A lock means is provided that controls movement of the actuator such that one press of the actuator causes the actuator to adopt one of the open or closed positions and a second press of the actuator causes the actuator to adopt the other of the open or closed positions.

The mechanical breather valve includes a valve body, on which is installed one-way air inlet and outlet components. A tank, for environmental protection, is fitted with the breather valve and closed so that no volatile gas will be exhausted, when the pressure within is balanced with the outside. When the pressure within is negative, the one-way air inlet hole will draw air from outside to keep the balance of pressure. When the pressure within is increased, one-way air outlet hole will exhaust the additional air. When the tank is tilted or placed upside down, the breather valve can prevent the oil from flowing out of the tank for safe usage.

A multi-layer one-way valve (100) includes: a first layer (10) having at least one first opening (12) formed therein; a second layer (20) having at least one second opening (22) formed therein; and, a third layer (30). The first and second layers are joined together such that at least one first channel (14) is defined therebetween, and the second and third layers are joined together such that at least one second channel (24) is defined therebetween. Additionally, an amount of flow-able liquid is deposited in the first channel between the first and second openings. Suitably, the valve selectively opens to permit gas flow through the first and second channels in response to a pressure differential, the rate of gas flow through the valve is exponentially proportional to the pressure differential.

Embodiments of the present invention provide a three-panel lidding device used to seal a food container. Such devices are particularly useful for covering and sealing a plastic food container, eliminating (or diminishing) the need for an outer carton and the clear film membrane that traditionally covers a food container. The lidding device may contain all brand identifiers, product messaging, ingredient list, instructions (e.g., opening and cooking) printed directly on the device. The device may also allow for venting of the food container during cooking and may then be removed for serving. The device may further provide a foot panel that allows the food product container/lidding device to sit upright, enhancing store front and freezer display options.

A liquid container including: at least two compartments (2; 3) which are each provided with a fluid inlet and outlet and which are connectable to a fluid flow circuit, respectively, at least one communication area (4) between the compartments (2; 3), at least one opening (5) for filling the container, at least one plug (6) for closing the opening (5) for filling the container, the opening (5) for filling the container is an opening common to the compartments (2, 3) and the container further includes at least one member (7) for closing the communication area (4) between the compartments (2, 3), the closing member being movably mounted between an open position of the area and a closed position of the area, the closing member being in a closed position of the area in a closed position of the filling opening plug.

In the field of lids for beverage containers, an airflow cooling lid for hot beverage containers that enables the user to cool down the beverage in the container by blowing outside air across the surface of the beverage without removal of the lid. The airflow cooling lid comprises a circular cover snuggly placed over a hot beverage container having a mounting rim, a surface portion, a drinking opening in form of an opening for consuming the beverage and an exhaust opening to be used as either the intake or exhaust portal for the air drawn over the surface of the beverage. Either or both the drinking opening or the exhaust opening may be angled outward to allow the exhaust air to flow away from the face when blowing through either portal.

What is described here is a closing cap (1) for a container (2), in particular for a container (2) intended to contain pressurised beverages. The cap comprising a lateral wall (3) extending around an axis (Z) and a transversal wall (4) positioned at one end of the lateral wall (3), a separating line (5) being provided on the lateral wall (3) to define a retaining ring (301), which extends as far as a free edge (304) and is configured to internally engage with a locking ring (206) of a neck (201) of the container (2), and a closing element (302) removably engageable with the neck, so as to open or close the container. The cap comprises an inner thread structure, positioned on the inside of the lateral wall (3) of the closing element (302) to engage with an outer thread structure of the neck (201) and to removably couple the closing element (302) to the neck (201) of the container (2). The inner thread structure (305) extends in a spiral around the axis (Z) and comprises at least two vent grooves (306) which extend axially and interrupt the inner thread structure (305) thereby defining first segments (307), near the transversal wall (4) and second segments (308), over which the first segments (307) are axially superposed; wherein each of the first segments (307) extends angularly in a continuous way and at least one segment of the second segments (308) is interrupted by a vent passage (309), to facilitate the discharge of the pressure.