Described herein is a cannabis storage container and associated method. The method can include covering a cannabis storage container with a cover. The cover can include a gas injection port and a vent. The method can also include injecting an inert gas through the gas injection port. An example of inert gas is Argon. The method can further include removing oxygen through the vent

A pack provided with: a group of tobacco articles; and a sealed wrap, which encloses the group of articles, has a pull-out opening for the articles, is pressurized so as to have an inner pressure that is higher than the atmospheric pressure, and consists of a heat-sealable sheet of wrapping material, which is folded around the group of articles and is stabilized by means of heat-sealing; in the sealed wrap there is a volatile aromatic substance that is independent of the group of tobacco articles.

A container cover for storage container includes a rotary device, an outer cover member, an inner cover member, a first guide block, second guide block, a pumping piston and a piston seat so arranged that when the rotary device is driven by a user to rotate the first guide block, guide rods of the first guide block are moved along a first continuous wave-shaped track of the second guide block, causing the second guide block and the pumping piston to move alternatively up and to further pump air out of the storage container through an air-pimping hole of the piston seat to create a negative pressure. Further, a first spring member an upper rail seat can be provided to balance the movement of the pumping piston and to stabilize the rotation of the first and second guide blocks. A relief valve rod can be selectively used for giving a visual indication indicative of the presence of a negative pressure in the storage container.

Embodiments of the present invention provide a method, anti-static bag, and kit for transporting an electronic component in the anti-static bag. Along with the electronic component, a desiccant and a temperature indicator are added to the anti-static bag. The anti-static bag is then vacuum sealed to reduce the air and moisture in the anti-static bag. The vacuum sealed bag, desiccant, and temperature indicator, insure that the formation of condensation on the electronic component will be minimized, which will potentially prolong the life of the electronic component.

A variable volume evacuable container has a closed bottom, an open top, and a spirally threaded inner wall extending therebetween. A lid configured to threadably engage the inner wall has a top surface, a perimeter, a bottom surface, and a funneling volume within the perimeter and below the bottom surface. A duct is defined through the top and bottom surfaces at the apex of the funneling volume, and a moveable baffle is coupled to the top surface to cover or uncover the duct. The bottom surface slopes continuously upward to the apex so that downward rotation of the lid against contained liquid forces air out of the duct until the liquid fills the funneling volume, allowing the baffle to seal the liquid from air by covering the duct.

There is disclosed a stand-alone, independent and re-usable valve that can be mounted to a conventional food container, such as a food bag, and can be coupled to a suction pump. The valve has a first part for insertion into the food container and a second part for mounting onto the first part with a wall of the food container in between, to obtain an air-tight closure of the valve. Further, an adapter is provided that can cooperate with a single type of coupling element for a suction pump at one end and can cooperate with various types of valves at another end. Additionally, an aerator is provided that can be coupled to a suction pump operating in a blowing mode for aerating liquid.

A resealable, vacuum packable receptacle has a container, a sealing layer, an inner lid, and an outer lid. When (i) the outer lid opening receives the inner lid, (ii) the inner lid is threadably mated with the container, and (iii) the container has the sealing layer positioned over the container's mouth; (A) a portion of the outer lid causes the outer lid or the inner lid to contact the sealing layer to push a desired amount of air from the container which then results in inhibiting air from entering or exiting the container, or (B) the distance between the outer lid's top surface and the inner lid's top surface can be altered, and when the distance is increased, the air pressure in the container is decreased.

Provided is a vacuum-pumping bottle stopper, comprising a base, a shell which can enclose a cavity with the base, a vacuum-pumping device arranged in the cavity and used for pumping out air in a bottle to form a vacuum, a temperature measurement unit, and a temperature display unit, wherein the temperature measurement unit is used for measuring the temperature in the bottle; and the temperature display unit is electrically connected to the temperature measurement unit and is used for displaying the temperature measured by the temperature measurement unit. The temperature measurement unit and the temperature display unit are integrated on the vacuum-pumping bottle stopper, such that the temperature of the liquid in the bottle can be conveniently measured, thereby improving the use satisfaction for a user.

A method of forming a container and filling the container with a product. The method includes heat-set blow molding the container from a preform and hot-filling the container with the product such that the product occupies about 95% or more of a total interior volume of the container. A headspace volume is defined between a top fill line of the product and a brim of the container. The headspace volume is less than about 5% of the total interior volume of the container. The container is capped and allowed to cool. The container is configured to shrink during cooling such that the total interior volume decreases by about 0.5% to 1.5% during cooling. A base of the container is displaced after hot-filling and capping to reduce the total interior volume by less than about an additional 0.5% to 4%. The hot-filling, capping, cooling, and displacing of the base creates a pressure change within the container.

The present application relates to a child resistant bag and an opening method thereof. The child resistant bag includes a bag body, a first wing and a second wing that are arranged at two sides of an inlet of the bag body, wherein the first wing includes a first strip, and an upper wing and a lower wing a connected to two sides of the first strip, the second wing includes a second strip and a lower wing b connected to a lower side of the second strip, a gap is provided between one side of the upper wing and the inner wall of the bag body to form a finger extension area, and a sealing structure is provided between the upper wing and the bag body and within the finger extension area.