A closure cap for closing the pouring opening of a container has a cylindrical threaded part with an open rim and an inner thread which can co-operate with an outer thread of a container neck of the container, a security ring which is designed to be held on a projection formed on the container neck, a plurality of security webs which releasably connect the security ring with the open rim, and a first retaining strip having a first and a second end, the first end being securely connected to the open rim of the threaded part and the second end being securely connected to the security ring. The closure cap comprises a second retaining strip having a third and a fourth end, the third end being securely connected to the open rim of the threaded part and the fourth end being securely connected to the security ring.

Adhesive compositions that replace gaskets and liners in sealing applications for packages that are detachable with hand force are described. The adhesive compositions are particularly useful in preventing leaks and spillage during storage and transport of its packaged contents. Advantageously, the adhesive composition provides packages with (1) a removal torque of from about 4 to about 20 in-lb and (2) resealable torque on subsequent openings of from about 2 to about 15 in-lb, measured in accordance to ASTM D2063.

An aerosol container includes a main body portion that is constructed and arranged to withstand aerosol pressurization within a range that is about 90-180 prig and a threaded finish portion that is unitary with the main body portion. The threaded finish portion has at least one helical thread, a support ledge beneath the helical thread and a secondary flange that is positioned beneath the support ledge. The secondary flange has an outer circumference that is noncircular in at least one location, whereby it may be engaged during a capping operation to prevent rotation of the container during capping. A method of making an aerosol container in which a preform is capped before the blow molding process is also disclosed.

An airtight cosmetic compact, wherein the airtight feature is created by interaction between a seal facing downwardly from the inside of the cover and the upwardly facing recess of the base. The cover locks on the base by either thread elements on both cap and base or by bayonet like cams, allowing the cover to be twisted on the base compressing the cover against the base and engaging the seal with the base recess. By compressing the seal against the base and holding it in place through the threaded engagement the air-tightness of the compact is achieved and guaranteed.

A vaporizing/discharging container 100 is provided that can properly vaporize and discharge a volatile substance in use, and prevent tampering by children, etc. The vaporizing/discharging container 100 for vaporizing and discharging a volatile substance into the outside, includes a main body 10 configured to contain the volatile substance, and a closure member 20 having a vapor discharging hole 21 for the volatile substance, and configured to be screwed and attached onto the main body 10. A pair of temporary lock mechanisms 30 (31, 32) configured to engage with each other so that resistance occurs against a direction in which the closure member 20 is rotated backward after the closure member 20 is screwed onto the main body 10, are provided between the closure member 20 and the main body 10, and at least one of the temporary lock mechanisms 30 (31, 32) is formed in the shape of steps.

The structural node of tight separable joint of bottle neck with its threaded screwed cap made of plastic includes a cylindrical neck (1) of bottle (2) and a screw cap (3) screwed onto outer thread (4) of the neck, the cap being provided with an inner thread (5) and an inner sleeve (8) joined inseparably with bottom (6) of the cap, whereas outer surface of the sleeve has at least one annular sealing tongue (11 or 13) end of which fits tight to cylindrical surface (12) of the neck (1) or end of the at least one annular tongue (11 or 13) is set tightly in eat least one circumferential groove (14 or 15) provided on inner cylindrical surface (12) of the neck (1). Moreover the cap (3), on inner surface of its sleeve portion (10), has annular offsets (17) situated above its thread (5) ends of which are tightly set in circumferential grooves (18) provided on outer surface of the neck (1) above its outer thread (4) and opposite said offset ends.

A medicine container closure device for recording and broadcasting information about the contents of a container includes a housing that defines an interior space. The housing is configured to couple to a bottle to selectively close the bottle. A power module and a recording-playback assembly are coupled to the housing and are positioned in the interior space. The recording-playback assembly is operationally coupled to the power module. The recording-playback assembly is configured to record and broadcast information regarding the contents of the bottle, such as a name, a usage, a purpose, and a date to refill the contents.

The packaging system according to the invention comprises a container (1), which includes a neck (2) defining an axis (X-X), and a stopper (10) for closing the neck, which includes a skirt (12) adapted to be fastened removably around the neck. In order to quickly and easily check that the stopper is positioned correctly on the neck when the container is closed, the invention provides means for visually checking that the system is in a closed configuration, predetermined afterwards by applying a preset stress for having the skirt cooperate with the neck, said means comprise both: first indicators (20, 22) of the angular position around the axis between the neck and the skirt, said first indicators being respectively borne by the neck and the skirt and being designed to be arranged with an angular spacing between them which is substantially equal to a first predetermined value when the packaging system is in the closed configuration, and second indicators (21, 23) of the position along the axis between the skirt and the neck, said second indicators being separate from the first indicators, borne respectively by the neck and by the skirt, and designed to be arranged parallel to each other with an axial spacing () between them which is below a second predetermined value when the packaging system is in the closed configuration.

Cap (1) for closing a container comprising a neck delimiting an opening, said cap (1) extending along a central axis (A) and comprising: a body part (2) molded from a thermoplastic material and including a top wall (5) and a skirt (15), a grip part (30) overmolded at least partly around the central axis (A), onto a part of the body part (2), from a thermoplastic elastomer (TPE) which is softer than the thermoplastic material of the body part (2), wherein the grip part (30) is overmolded only onto a part of an outer surface (18) of the skirt (15), the grip portion being delimited along the central axis (A) by a top edge (32) arranged at a distance from the top wall (5), and a bottom edge (31) spaced apart from the top edge (32) towards a free end (16) of the skirt (15).

The disclosed inventive concept provides a cap for a coolant reservoir that accommodates the expansion of coolant stored therein. The expanding coolant results from an increase in temperature and causes an increase in pressure to build within the coolant reservoir. The cap includes a base and a crown having an air-dome which extends upwardly therefrom. The base includes a passageway extending therethrough and in fluid communication with an interior cavity or an air gap formed in the crown. As the cap is positioned over an open neck of the coolant reservoir, by being screwed or otherwise fitted thereon, the interior cavity remains positioned above the neck. Thus, as the coolant within the coolant reservoir becomes heated and expands, the interior cavity provides additional space for the coolant to occupy and pressure to build within.