A crown, for a medical vial opening, has a top portion and a skirt surrounding the top portion. The skirt terminates at a lower edge defined in a first horizontal plane. An opener assembly is mounted to a portion of the top. A first scoring line extends from the portion of the top to which the opener assembly is mounted to the lower edge of the skirt in a continuous radial direction, and a second scoring line provides an upper radial segment extending from the opener assembly to the skirt along a radial axis, and a lower annular segment that extends circumferentially along the skirt in an annular direction and extending from a terminus of the upper radial segment. The lower annular segment is defined in a second horizontal plane equidistant to the first horizontal plane associated with the lower edge of the skirt.

A crown, for a medical vial opening, has a top portion and a skirt surrounding the top portion. The skirt terminates at a lower edge defined in a first horizontal plane. An opener assembly is mounted to a portion of the top. A first scoring line extends from the portion of the top to which the opener assembly is mounted to the lower edge of the skirt in a continuous radial direction, and a second scoring line provides an upper radial segment extending from the opener assembly to the skirt along a radial axis, and a lower annular segment that extends circumferentially along the skirt in an annular direction and extending from a terminus of the upper radial segment. The lower annular segment is defined in a second horizontal plane equidistant to the first horizontal plane associated with the lower edge of the skirt.

A solution is proposed for closing a mouth (125) of a container (110) of a liquid (105). A corresponding closure (135) comprises a cap (205) having fixing means (318) for fixing the cap (205) to the container (110), the cap (205) being rotatable around a longitudinal axis (203) of the container (110) in a fixed condition wherein the closure (135) is fixed to the container (110), a delivery port (336) for delivering the liquid (105) from the container (110), a cap suction conduit (345) for suctioning air into the container (110) during the delivering of the liquid (105) and a connector (342) for connecting a delivery device (805) of the liquid (105), the connector (342) being in fluid communication with the delivery port (336), a cursor (210) having a thread (406) for screwing the cursor (205) with respect to the container (110), a valve member (424) in a closed position wherein the valve member (215) closes the delivery port (336), and a cursor suction conduit (433) slidebly coupled with the cap suction conduit (345), a frangible element (351) closing the cap suction conduit (345) or the cursor suction conduit (433), and dragging means (327, 409) for dragging the cursor (210) into rotation by the cap (205), wherein the closure (135) is configured to cause the cursor (210) to slide with respect to the cap (205) in response to at least one rotation of the cap (205) thereby moving the cursor suction conduit (433) to break the frangible element (351), putting in fluid communication the cursor suction conduit (433) with the cap suction conduit (345), and moving the valve member (424) to an open position, wherein the valve member (215) opens the delivery port (336).

A solution is proposed for closing a mouth (125) of a container (110) of a liquid (105). A corresponding closure (135) comprises a cap (205) having fixing means (318) for fixing the cap (205) to the container (110), the cap (205) being rotatable around a longitudinal axis (203) of the container (110) in a fixed condition wherein the closure (135) is fixed to the container (110), a delivery port (336) for delivering the liquid (105) from the container (110), a cap suction conduit (345) for suctioning air into the container (110) during the delivering of the liquid (105) and a connector (342) for connecting a delivery device (805) of the liquid (105), the connector (342) being in fluid communication with the delivery port (336), a cursor (210) having a thread (406) for screwing the cursor (205) with respect to the container (110), a valve member (424) in a closed position wherein the valve member (215) closes the delivery port (336), and a cursor suction conduit (433) slidebly coupled with the cap suction conduit (345), a frangible element (351) closing the cap suction conduit (345) or the cursor suction conduit (433), and dragging means (327, 409) for dragging the cursor (210) into rotation by the cap (205), wherein the closure (135) is configured to cause the cursor (210) to slide with respect to the cap (205) in response to at least one rotation of the cap (205) thereby moving the cursor suction conduit (433) to break the frangible element (351), putting in fluid communication the cursor suction conduit (433) with the cap suction conduit (345), and moving the valve member (424) to an open position, wherein the valve member (215) opens the delivery port (336).

A solution is proposed for closing a mouth (125) of a container (110) of a liquid (105). A corresponding closure (135) comprises a cap (205) having fixing means (315) for fixing the cap (205) to the container (110), a delivery port (321) for delivering the liquid (105) from the container (110), a valve member (215) in a closed position wherein the valve member (215) closes the delivery port (321), a cap suction conduit (339) for suctioning air into the container (110) during the delivering of the liquid (105) and a connector (327) for connecting to a delivery device (805) of the liquid (105), the connector (327) being in fluid communication with the delivery port (321), a slider (220) slidebly coupled with the cap (205), the slider (220) having a slider suction conduit (440) for suctioning the air into the container (110) during the delivering of the liquid (105) slidebly coupled with the cap suction conduit (339), and a frangible element (345) closing the cap suction conduit (339) or the slider suction conduit (440), wherein the closure (135) is configured to cause the delivery device (805) during the connecting thereof to move inwards the container (110), in a fixed condition wherein the closure (135) is fixed to the container (110), and thus moving the valve member (215) inwards the container to an open position, wherein the valve member (215) opens the delivery port (321), and moving the slider (220) inwards the container to break the frangible element (345), thereby putting in fluid communication the slider suction conduit (440) with the cap suction conduit (339).

A solution is proposed for closing a mouth (125) of a container (110) of a liquid (105). A corresponding closure (135) comprises a cap (205) having fixing means (315) for fixing the cap (205) to the container (110), a delivery port (321) for delivering the liquid (105) from the container (110), a valve member (215) in a closed position wherein the valve member (215) closes the delivery port (321), a cap suction conduit (339) for suctioning air into the container (110) during the delivering of the liquid (105) and a connector (327) for connecting to a delivery device (805) of the liquid (105), the connector (327) being in fluid communication with the delivery port (321), a slider (220) slidebly coupled with the cap (205), the slider (220) having a slider suction conduit (440) for suctioning the air into the container (110) during the delivering of the liquid (105) slidebly coupled with the cap suction conduit (339), and a frangible element (345) closing the cap suction conduit (339) or the slider suction conduit (440), wherein the closure (135) is configured to cause the delivery device (805) during the connecting thereof to move inwards the container (110), in a fixed condition wherein the closure (135) is fixed to the container (110), and thus moving the valve member (215) inwards the container to an open position, wherein the valve member (215) opens the delivery port (321), and moving the slider (220) inwards the container to break the frangible element (345), thereby putting in fluid communication the slider suction conduit (440) with the cap suction conduit (339).

A package having a sanitary dispenser is depicted and described. The package generally includes a dispenser that is sealed from environmental contaminants by a feature or portion of the package. The sealed dispenser portion of the package is accessed prior to use and the user is able to access the contents of the package through the sanitary dispenser. The dispenser may be inverted prior to use and deployed prior to use. A frangible portion may be provided to the dispenser. The dispenser may be re-sealable in the package. A straw may further be provided to the dispenser and be deployable by the user for access to the package contents.

A package having a sanitary dispenser is depicted and described. The package generally includes a dispenser that is sealed from environmental contaminants by a feature or portion of the package. The sealed dispenser portion of the package is accessed prior to use and the user is able to access the contents of the package through the sanitary dispenser. The dispenser may be inverted prior to use and deployed prior to use. A frangible portion may be provided to the dispenser. The dispenser may be re-sealable in the package. A straw may further be provided to the dispenser and be deployable by the user for access to the package contents.

To provide a pouring spout and a pouring unit that make it possible to smoothly couple a pouring spout of a refill container and a pouring unit constituting a packaging container, and keep the pouring spout that is fitted into the pouring unit from separating from the pouring unit while transferring contents from the refill container into the packaging container. The problem is solved by a pouring spout (10) that is used for a refill container (1) storing contents for refilling a packaging container (30) provided with a pouring unit (40) including a nozzle (43), and comprises a spout main body (10A) including a. tubular pouring part (11) with a channel (10b) for allowing the contents to pass therethrough formed on an inner side, and an attached part (15) attachable to the container on one end (A) side in an extending direction of the tubular pouring part (11). The tubular pouring part (11) comprises a guide (50) that protrudes from an inner wall of the channel (10b) toward a center, extends in a direction corresponding to an extending direction of the tubular pouring part (11), and guides the tubular pouring part (11) in an extending direction of the nozzle (43).

To provide a pouring spout and a pouring unit that make it possible to smoothly couple a pouring spout of a refill container and a pouring unit constituting a packaging container, and keep the pouring spout that is fitted into the pouring unit from separating from the pouring unit while transferring contents from the refill container into the packaging container. The problem is solved by a pouring spout (10) that is used for a refill container (1) storing contents for refilling a packaging container (30) provided with a pouring unit (40) including a nozzle (43), and comprises a spout main body (10A) including a. tubular pouring part (11) with a channel (10b) for allowing the contents to pass therethrough formed on an inner side, and an attached part (15) attachable to the container on one end (A) side in an extending direction of the tubular pouring part (11). The tubular pouring part (11) comprises a guide (50) that protrudes from an inner wall of the channel (10b) toward a center, extends in a direction corresponding to an extending direction of the tubular pouring part (11), and guides the tubular pouring part (11) in an extending direction of the nozzle (43).