A container (6) and a metering cap (3) are designed to be fitted together and include a cap (3) defined as a concave component with a curved top and a sloping cylindrical neck on the side thereof, with a mouth (1) that can be closed by a stopper (T), the lower distal end (1a) of the neck extending into the concave cavity defined by the cap (3), wherein this extension does not project beyond the bottom plane defined by the lower peripheral edge (9) of the cap (3); and wherein the container (6) comprises a hemispherical protrusion (2) which corresponds to a cavity (Oi) located on one side of the top of the container (6).

A container (6) and a metering cap (3) are designed to be fitted together and include a cap (3) defined as a concave component with a curved top and a sloping cylindrical neck on the side thereof, with a mouth (1) that can be closed by a stopper (T), the lower distal end (1a) of the neck extending into the concave cavity defined by the cap (3), wherein this extension does not project beyond the bottom plane defined by the lower peripheral edge (9) of the cap (3); and wherein the container (6) comprises a hemispherical protrusion (2) which corresponds to a cavity (Oi) located on one side of the top of the container (6).

A dosing bottle closure (24) has a body (26) and a lid (27). The body (26) has: a sidewall (50) extending from a lower rim (54) to an upper rim (62); and means (58) along the sidewall (50) for engaging a container body (22). The lid (27) is hinged relative to the body for articulation between a closed condition and an open condition. The body defines an internal upwardly open chamber (25) at least partially covered by the lid in the closed condition. The body defines a feed passageway (100) having an outlet (110) to the chamber (25) and spaced above a bottom (72) of the chamber and defines a vent conduit (300).

The dose dispense closure for a squeezable container. The closure has a body cap 20 with inlet orifices 37 and a transit orifice 34 which allows composition into the body cap. A piston 80 is provided within the body cap 20. When the container is squeezed, the piston 80 is forced down, thereby expelling liquid from a control cap 40 until the piston 80 lands on the end of a duct 60 in the control cap 40 to prevent further dispensing. When the squeezing force is removed, the piston 80 returns to its start position. The piston 80 is biased towards the end wall 33 of the body cap 20 by a compression element 87. The body cap 20 is attached directly to the container such that rotation of the body cap allows adjustment of the dosage without having to remove the body cap.

The dose dispense closure for a squeezable container. The closure has a body cap 20 with inlet orifices 37 and a transit orifice 34 which allows composition into the body cap. A piston 80 is provided within the body cap 20. When the container is squeezed, the piston 80 is forced down, thereby expelling liquid from a control cap 40 until the piston 80 lands on the end of a duct 60 in the control cap 40 to prevent further dispensing. When the squeezing force is removed, the piston 80 returns to its start position. The piston 80 is biased towards the end wall 33 of the body cap 20 by a compression element 87. The body cap 20 is attached directly to the container such that rotation of the body cap allows adjustment of the dosage without having to remove the body cap.