The disclosure provides a container lid including a resealable closure mechanism. The container lid includes a lid housing having a recess, a rim, an opening, and a connector portion. The container lid additionally contains a sliding actuator that moves in a first direction and a second direction. Further, the container lid has a sealing mechanism that moves in a third direction and a fourth direction, wherein the third direction and the fourth direction are in a plane of movement which is perpendicular to the first direction and the second direction.

Disclose is a double button cream bottle, which comprises a bottle body and a bottle cap for closing the bottle body, wherein an inner ring of the bottle cap is provided with an abutment ring, an upper limit of the abutment ring is provided with a button ring, and the button ring comprises two buttons disposed opposite each other and an elastic ring connecting the two buttons; an upper portion of the bottle body is convexly and radially provided with a flange, a recess is formed at a lower end of the flange, and when the bottle body is inserted into the bottle cap, the elastic ring is snapped in the recess and limits the flange between an inner end of the bottle cap and the elastic ring; an upper end of the bottle body is covered with a cover plate, the cover plate is provided with an elastic piece upwardly tilted, and when it is closed, the elastic piece is limited between the inner end of the bottle cap and the cover plate; a side wall of the bottle cap is provided with button grooves corresponding to the buttons, and when the two buttons are simultaneously pressed, the elastic ring is pressed and deformed and disengages from the recess, so that the flange disengages from the limiting of the elastic ring; and the bottle body is separated from the bottle cap by the elastic force of the elastic piece, and through the above arrangement, the bottle body and the bottle cap can disengage from and be closed to each other without accidental opening.

A re-sealable container is disclosed having a lid, a body, an attachment mechanism, and a seal. The seal may extend from, or be attached to, the lid and engage at least a portion of the body, such as the side wall, including the body sealing surface and/or the lip. The engagement of the seal and body creates a seal that prevents the ingress of moisture and ambient conditions into an interior space of the body. The attachment mechanism may retain the lid in a seated, closed position on the body. The configuration of the seal and attachment mechanism accommodate a degree of error in the joining and placement of the lid and body while allowing for both the formation of a seal between the lid and body and the locking of the lid when the lid is in a closed position.

This application is directed to a Biometric Locking Jar with Integrated Vacuum Pump. More particularly, this application provides a biometric locking lid capable of interfacing with a jar or other container, wherein the biometric locking lid includes a built-in electrically powered vacuum pump and a labyrinth seal lid gasket which acts to lock the jar from unauthorized access by pulling a vacuum within the jar and securing the lid to the jar preventing unauthorized access to the contents of the jar. A user enrolls a fingerprint or thumb print. The vacuum pump is activated by scanning and recognizing a user's enrolled fingerprint. 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 fingerprint or thumb print to release the vacuum and open the jar, allowing access to the contents inside.

A closure can close an outlet of a vessel. The vessel outlet can comprise a tubular cavity with an interior surface. The closure can comprise a male portion comprising a distal undersized portion, a proximal oversized portion, and a taper between the undersized and oversized portion. The male portion can be inserted in the vessel outlet, undersized portion first. Interference between the inner diameter of the vessel outlet and the outer diameter of male portion can occur when the male portion is sufficiently inserted. The interference can cause the undersized portion to flare out and engage the interior surface of the tubular cavity, thereby providing a seal.

A method of over-molding materials includes: providing a first material in a groove in a first portion of a mold such that only a single surface of the first material is exposed to a vacant portion of the mold; providing, via an injection molding process, a second material in a liquid form in the vacant portion of the mold adjacent to, and in engagement with, the first material; and allowing the second material to solidify and become directly coupled to the first material, thus forming a single component. The second material has one or both of a greater hardness when solidified than the first material and/or a higher melting temperature than the first material.

A container assembly includes a vessel and a lid removably coupled to the vessel. The lid includes a circumferential rim at an interface with the vessel, wherein the rim is separated from the vessel by a gap, wherein the gap is open to the atmosphere outside the container. The container includes a gasket disposed at a sealing position between the lid and the vessel to seal a reservoir of the vessel from the gap. The rim includes a recess extending circumferentially along a first portion of the rim. The recess forms a portion of the gap and defines a venting zone extending circumferentially along the first portion of the rim. In response to the internal reservoir of the vessel reaching a threshold pressure, a portion of the gasket moves from the sealing position through the gap such that fluid held in the reservoir is vented past the gasket through the venting zone to reduce the pressure of the reservoir.

A plastic shipping envelope includes a first plastic sheet and a second plastic sheet, bonded to each other at a bottom edge and at side edges thereof, wherein a chamber is present between inner sides of the first and second plastic sheets, and wherein an access opening is provided at a top side of the shipping envelope, a resealable airtight seal with interlocking sealing strips, one of the interlocking sealing strips being arranged on the inside of the first sheet and the other of the interlocking sealing strips being arranged on the inside of the second sheet, both sealing strips being arranged near the access opening, in a direction transverse to the side edges, and a one-way air valve, fluidly connecting the chamber of the shipping envelope to the outside, such that air can be vacated, when the chamber is closed by sealing the airtight seal, from the chamber to the outside, wherein the first sheet has a flap portion that, with respect to the second sheet, extends beyond the top edge of the second sheet, wherein the flap portion of the first sheet is provided with two vertically spaced apart strips of adhesive material, each arranged in a direction transverse to the side edges, each strip of adhesive material being covered, at its side facing away from the flap portion, by a respective user removable backing, and wherein the flap portion is provided with a perforated tear line, arranged in between the strips of adhesive material.

A combination of a container made out of rolled laminated plastic or rolled laminated metal, combined with a child-resistant locking assembly between the container and a cap removably affixed to the container. The container includes a closed rear end, a front wall and a flexible sidewall between the closed rear end and the front. The cap includes a central post inserted into a dispensing opening in a dispensing nozzle of the contain to reduce the possibility of contents in the container seeping out of the dispensing nozzle after the sealing cap is affixed to the nozzle. In addition, a retaining cover is retained on the sealing cap and the retaining cover retains a concealed permanent magnet which enables the retaining cover to rest on a metal shelf so that the remainder of the container extends vertically upward from the retaining cover.

The present invention relates to a system and method for odor treatment. In most embodiments the system comprises a container comprising a receptacle and a lid which is filled with a mixture of odor treating materials. In many embodiments this odor treating material mixture is a combination of sodium bicarbonate and activated carbon. In most embodiments the method for odor treatment comprises five main steps. First, the odor treating material is prepared. Second, the odor treating material is dispensed or placed within the container. Third, the container is sealed, closed, or covered. Fourth, the container is opened. And fifth, the odor treating material is dispensed from container directly onto an odor causing material.