A dispensing closure (40) for a fluent substance-containing system, such as a container, includes a body (54) for receiving the fluent substance from the system, a locking member (56) assembled with the body (54), and a pivotable actuator (60) assembled with the locking member (56) and defining a dispensing flow passage (190) for discharging the fluent substance. The locking member (56) is rotatable relative to the body (54) from a locking position to an unlocking position to permit a user to pivot the actuator (60) from a closed position to a dispensing, open position. The body (54) has a pair of abutments (110) that extend through the locking member (56) in the locking position to prevent the actuator (60) from moving into the open position. In the unlocking position of the locking member (56), the actuator (60) is not prevented by the abutments (110) from moving into the open position.

A discharge-type cap includes an outer housing detachably coupled to an inner surface of an upper opening of a container, a button portion hinged to an upper portion of the outer housing, and a tube having one end located in a lower portion of the outer housing and the other end located on a side of the button portion. The button portion includes an upper tube insertion hole which has a lower surface and a side surface communicating to each other and into which the tube is inserted, and the outer housing includes a lower tube insertion hole having a central portion into which the tube is inserted and inclined in a direction in which the other end of the tube is located.

A closure assembly for a dispenser container comprises a base defining a longitudinal recess and a body configured to be moveably coupled to the base. The base comprises a first seal positioned at a first end of the recess and a second seal positioned at an opposing second end of the recess. The body comprises a first body end and an opposing second body end. A shaft extends from the first body end to the second body end. The body is configured to move between an open position where the body is fluidly connected with the recess, and a closed position where the body engages the first seal and the second seal. The first seal and the second seal are configured to exert a force toward each other in a direction along a longitudinal axis of the body to tension the body.

A closure assembly for a dispenser container comprises a base defining a longitudinal recess and a body configured to be moveably coupled to the base. The base comprises a first seal positioned at a first end of the recess and a second seal positioned at an opposing second end of the recess. The body comprises a first body end and an opposing second body end. A shaft extends from the first body end to the second body end. The body is configured to move between an open position where the body is fluidly connected with the recess, and a closed position where the body engages the first seal and the second seal. The first seal and the second seal are configured to exert a force toward each other in a direction along a longitudinal axis of the body to tension the body.

A bag-in-bottle type of a squeeze dispenser comprising a housing, a cap, a flexible bag for containing fluid, and means to equilibrate atmospheric air pressure with air pressure inside the housing is disclosed. Said means include a closable air channel. The closable air channel, and the cap, may each be in an open or a closed position. When the cap is in an open position, the closable air channel is in a closed position, thus substantially locking the air inside the housing in place and allowing for fluid to be dispensed from the flexible bag upon application of pressing force on the sidewalls of the housing. When the cap is in a closed position, the closable air channel is in an open position, allowing for a flow of atmospheric air into, and out of, the dispenser housing and thereby equilibrating the air pressure inside the housing with air pressure of the atmospheric air.

A closure includes a pivoting closure cap and a closure base configured to more easily align and securely pivot open without uncoupling. In various embodiments, the pivoting closure cap includes a pair of hinge assemblies including hinge pins pivotable between a closed position and an open position where the pivoting closure cap is opened for pouring. The closure base includes a pair of hinge pin receivers with a hinge pin sockets. The hinge pins located and rotatable within the sockets.

A container lid can include: a body having an opening formed therethrough; a sipping member rotatably coupled to the body, a passageway formed through an interior of the sipping member so as to extend from a proximal end of the sipping member to a distal end of the sipping member, the sipping member configured to rotate between a stowed position in which the passageway and the opening are misaligned, such that the opening is sealed, and a released position in which the passageway and the opening are aligned; and a flexible handle connected at a first end to the sipping member and rotatably coupled at a second end to the body via a pivot pin. The handle can be configured such that a substantially downward force exerted on the handle causes rotation of the sipping member toward the released position.

Universal fluid dispensing container cap assemblies having a closure in which is disposed an integrated externally pointing LED light, a battery power source, circuit with switch actuatable to automatically turn-ON the LED when the cap closure is actuated to open an aperture for portion dispensing. This permits one-handed dispensing in low light environments. The LED may be located in or on the cap lid, so that it is automatically oriented to point in the direction of dispensing and at the surface location on which the dispensing is directed, in order to illuminate the target area so that the contents are accurately disposed directly from the container in terms of target location and amount. In Pop-up cap embodiments, the LED may be positioned to shine through a clear cap wall or positioned on the cap exterior, pointing in the direction of the target area. White or colored LEDs may be used.

There is proposed a dispensing apparatus attachable to a container that includes a retractable spout. The dispensing apparatus can dispense a predetermined volume of liquid or aerate a liquid being dispensed, wherein the retractable spout includes a volumetric dispensing assembly for dispense the predetermined volume of liquid, and/or a turbulence forming element that is configured to aerate the liquid.

A vessel with a locking lid has a spindle button. The spindle but has downwardly facing button teeth. The lid frame receives the spindle button in a vertical sliding configuration. The actuator gear is mounted under the spindle button in the lid frame. The actuator gear engages the downwardly facing button teeth. The spindle button is configured to move the actuator gear by one step when the spindle button is pressed down. A lid frame inside surface has an upper engagement and a lower engagement. The actuator gear is configured to alternate between the upper engagement and the lower engagement when the actuator gear moves by one step. A spindle body abuts and is biased upwardly against the actuator gear. The spindle body actuates locking arms mounted on locking arm pivots formed on the spindle body.