The invention relates to a container closure (10) comprising a base portion (16) which extends about a reference axis (100) of the container closure (10), a cap portion (18) which in a closed positioned covers a drinking hole (30) in the container closure (10) and in an open position leaves said drinking hole in the container closure (10) uncovered, and a tamper-evident ring (14) which is separate from the cap portion (18) and the base portion (16) and is interlockingly connected to the cap portion (18) and connected to the base portion (14) in a hooked manner. The tamper-evident ring (18) has an annular bead (56) that is not radially covered by the base portion (16) and extends in an annular groove (54) of an outer wall (34) of the cap portion (18), which wall faces radially outward.
The invention relates to a container closure (10) comprising a base portion (16), a pouring region (28) having a peripheral wall (29) that extends about a reference axis (100) of the container closure (10), and a cap portion (18) which is connected to the base portion (16) by means of a hinge (20). The cap portion has a base (36), a peripheral outer wall (34) which extends axially from the base (32) to a peripheral lower edge (41) of the cap portion (18), and an anchoring wall (80) which extends outside the outer wall (34) and at a radial distance from said outer wall (34), and which is connected to the lower edge (41) of the cap portion (18) by means of a bridge (82) of the cap portion (18) that extends radially outwards from the lower edge (41) of the cap portion (18); in the closed position, the anchoring wall (80) protrudes from the bridge (82) in a direction opposite to the base portion (16), and the hinge (20) is connected to the anchoring wall (80) and protrudes from the anchoring wall (80) in the direction of the base portion (16).
A container closure (10) comprises a retaining ring (14) which extends around a reference axis (200) of the container closure (10), a cap part (16) and a hinge (18) which connects the retaining ring (14) to the cap part (16). The cap part (16) has a head plate (24), an enclosing circumferential wall (26) and a grip projection (30) which extends radially outwards from the circumferential wall (26), axially with a distance to the head plate (24). A deformable region (40) of the circumferential wall extends diametrically opposite to the hinge (18), between the head plate (24) and the grip projection (30), and has a latching projection (42) directed radially inwards, a lower wall section (44) which lies between the latching projection (42) and the grip projection (30) and an upper wall section (46) which lies between the latching projection (42) and the head plate (24). A wall thickness of the upper wall section (46) and a wall thickness of the lower wall section (44) are defined such that by means of an elastic deformation of the deformable region (40), a radially outwardly directed movement of the latching projection (42) by more than one third of a radial extent (600) of the latching projection (42) is made possible.
The present disclosure provides a metered dosing assembly configured to dispense a volume of fluid into a container that is selectively sealed by a closure valve having a closure valve member that is movable between sealed and unsealed positions with respect to the container. The metered dosing assembly includes a housing having an interior cavity. A valve is locatable at an end of the housing. The valve includes a valve member, a pin extending from the valve member, and at least one spring leg attachable to the valve member. The pin extends from the valve member and is configured to engage the closure valve member of the closure valve to move the closure valve member to the unsealed position and move the valve member to an open position with respect to the housing. When the valve member is moved to the open position and the closure valve member is moved to the unsealed position, fluid communication is made between the metered dosing assembly and the container.
B67C 3/20 - Bottling liquids or semiliquids; Filling jars or cans with liquids or semiliquids using bottling or like apparatus with provision for metering the liquids to be introduced, e.g. when adding syrups
B67D 7/54 - Filling nozzles with means for preventing escape of liquid or vapour or for recovering escaped liquid or vapour
B67C 9/00 - Emptying bottles, jars, cans, casks, barrels, or similar containers, not otherwise provided for
A universal closure valve adapter (2) attachable to a neck wall (12) of a first container (50) that forms a periphery of an opening having a diameter. The universal closure valve adapter (2) includes a closure valve assembly (52) that is attachable to a closure valve assembly (4) of a second container (1). A flange transversely extending from the closure valve assembly (52) of the first container (50). The flange includes a plurality of tank neck engagement assemblies (10). Each of the plurality of tank neck engagement assemblies (10) are spaced apart from each other about the flange.
B67D 7/02 - Apparatus or devices for transferring liquids from bulk storage containers or reservoirs into vehicles or into portable containers, e.g. for retail sale purposes for transferring liquids other than fuel or lubricants
A61J 1/20 - Arrangements for transferring fluids, e.g. from vial to syringe
B65D 81/32 - Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents for packaging two or more different materials which must be maintained separate prior to use in admixture
6.
CLOSED SYSTEM VALVE ASSEMBLY WITH EXPANDED FLOW PATH
An expanded flow rate receiver valve assembly attaches to a first fluid container and is in fluid communication with the first fluid container. The expanded flow rate receiver valve assembly includes a coupling section that selectively receives a closure valve attached to a second fluid container that selectively releases and restricts fluid contained in the second fluid container. The expanded flow rate receiver valve assembly also includes a valve chamber in fluid communication with the coupling section and located adjacent a coupling section opening. The valve chamber is in fluid communication with the first fluid container.
B67D 7/02 - Apparatus or devices for transferring liquids from bulk storage containers or reservoirs into vehicles or into portable containers, e.g. for retail sale purposes for transferring liquids other than fuel or lubricants
F16L 37/40 - Couplings of the quick-acting type with fluid cut-off means with fluid cut-off means in only one of two pipe-end fittings with a lift valve being opened automatically when the coupling is applied
7.
MEASURING ADAPTER ASSEMBLY FOR CLOSED LOOP FLUID TRANSFER SYSTEM
A measuring a closed-loop fluid transfer system is provided that includes a measuring adapter having a first end and a second ends, and a chamber located there between and configured to hold a volume of fluid. The measuring adapter includes a first receiving valve assembly located at the first end of the measuring adapter. The first receiving valve assembly includes a receiving valve member, at least a portion of which is separable from a portion of the first receiving valve assembly. This creates an opening that provides fluid communication to the chamber when a force is exerted on the receiving valve member of the first receiving valve assembly. A second valve assembly located at the second end of the measuring adapter includes a valve member. At least a portion of the valve member of the second valve assembly is separable from a portion of the second valve assembly to create an opening that provides fluid communication to the chamber.