The invention comprising an appliance for vacuum sealing a bag member. The appliance has a housing including a front wall, a rear wall, and two side walls. The front wall includes an opening for receiving an open top portion of the bag member, where the bag member can then be received within a drip tray placed within a cavity located within the housing, where vacuum pressure may be applied. The drip try includes a barrier member that extends upwardly at a rear portion to redirect the open top portion of the bag member into the drip tray when the bag member has been inserted into the opening. The cavity also includes a heating bar used to apply a seal to the open top portion of the bag member. The front wall of the housing is angled between 15° and 45° relative to a surface on which the appliance rests.

Described herein is a cannabis storage container equipped with an air-tight silicone compressor, childproof cap, and UV tinted glass. The air-tight Silicon Compressor has input pinhole for injecting inert gases after the cap is pressed down to release/displace the internal oxygen through an output pinhole valve.

This application is directed to a Wireless Controlled Locking Jar with Integrated Vacuum Pump. More particularly, this application provides a wireless controlled lock on a jar lid having a built-in electrically powered vacuum pump and lid gasket which acts to lock the jar from unauthorized access by pulling a vacuum within the jar making it impossible to open the lid. The locking jar may be used to keep contents secure and fresh, and also out of the reach of children or other unauthorized individuals as it employs the user's Wi-Fi connected or Bluetooth paired smartphone or other device, in combination with a smartphone or other device software application, to lock and open the jar and allow access to the contents inside. By using the paired device and software application, the jar may be locked and unlocked by the user from any location.

Methods, apparatus, and system for storing perishable products in a vacuum container. An atmosphere control system is coupled to the vacuum container for measuring and maintaining controlled atmospheric conditions within the vacuum container. The atmosphere control system includes a plurality of monitors configured to monitor atmospheric conditions within the vacuum container. The atmosphere control system further includes a vacuum pump configured to reduce total absolute pressure in the vacuum chamber to below a total gas pressure limit, an ozone generator configured to generate gaseous ozone, and an inlet valve coupled to the ozone generator and configured to admit an ozone-containing gas into the vacuum container.

Methods and apparatus for liquid preservation according to various aspects of the present invention may comprise a vessel and a displacer. The displacer may be disposed in an interior volume defined by an interior surface of the vessel. The displacer may change the volume of the interior volume. An aperture at an apex of the displacer or vessel may allow air to escape from the interior volume as the displacer decreases the volume of the interior volume. An at least partially transparent displacement indicator may be positioned atop the aperture.

A handheld vacuum sealer device is provided for drawing a vacuum to remove air from a bag or container to prolong freshness of food stored in the bag or container. The sealer device includes an activation button to initiate drawing the vacuum that is activated at the same time a user pushes downwardly on the sealer device to form a seal between the sealer device and the bag or container. A charging cradle for recharging the sealer device is also provided that charges the sealer device regardless of the orientation of the sealer device when the sealer device is placed within the charging cradle.

A pouch or pocket may act as a container and may be used to securely hold objects (e.g., cell phone, keys, wallet, etc.) during athletic activity (e.g., running). The pouch may be a standalone item or integrally formed as part of other items. The pouch may hold the object to be stored in place within the pouch or pocket. The pouch may provide some cushioning or impact force attenuation to protect the object being held within the pouch or pocket. Additionally, the pouch may be attached to a garment, such as running clothes. The pouch includes an outer envelope sealable by a closure and a one-way valve with foam layers located inside the pouch. After the object is placed in the pouch, the closure is closed, and the air within the pouch is expelled via the one-way valve by compressing the foam layers from the outside.

A cap assembly including a self-sealing membrane that overlaps an opening to an interior of a container. The cap assembly further includes a cap having a cover portion that includes an annular wall that defines a central opening, and at least one evacuating opening located radially outward of the central opening. The cover portion defines a gap above the self-sealing membrane. The gap is configured to allow the self-sealing membrane to be at least partially displaced from the opening to allow fluid communication between the interior of the container and an outside atmosphere when a suction is applied to the cap.

A gravity flow liquid disinfectant dispensing reservoir comprised of a tapered base and a neck portion that extends centrally from the reservoir. An aperture located on the bottom of the reservoir facilitates the dispensing of liquid (i.e., disinfectant) from the reservoir into a holding tank. In another embodiment, a closed system for dispensing a liquid disinfectant into a tank containing liquid (effluent) and controlled via vacuum. The gravity flow device introduces disinfectant to the tank as the water level rises, giving the ultimate amount of contact time for treatment of effluent. Utilizing gravity and vacuum controlled dispensing of disinfectant dispenses disinfectant continuously and automatically in real time and provides for maximum contact time for minimal pathogen survival.