초록 ▼

A drink bottle may include a container and a lid having an open-top channel with a spout and a spout cover disposed within the channel. Each of the spout and the spout cover are movable in opposite directions between a stowed and configurations. The spout may include a projection that frictionally e

A drink bottle may include a container and a lid having an open-top channel with a spout and a spout cover disposed within the channel. Each of the spout and the spout cover are movable in opposite directions between a stowed and configurations. The spout may include a projection that frictionally engages the sidewall to control a rate of movement of the spout.

대표청구항 ▼

1. A drink bottle comprising: a container;a lid connected to the container, the lid including:an open-top channel defined in the lid by an interior sidewall;a spout disposed within the channel,wherein the spout is movable between a stowed configuration and a dispensing configuration, the spout defin

1. A drink bottle comprising: a container;a lid connected to the container, the lid including:an open-top channel defined in the lid by an interior sidewall;a spout disposed within the channel,wherein the spout is movable between a stowed configuration and a dispensing configuration, the spout defining a passageway in fluid communication with an interior of the container when disposed in the dispensing configuration; andwherein the spout includes a projection that extends outward from the spout in a direction transverse to a longitudinal axis of the spout, and frictionally engages the sidewall throughout movement of the spout between the stowed configuration and the dispensing configuration so that a rate of movement of the spout between the stowed configuration and the dispensing configuration is controlled, anda collar connected about the spout such that the projection extends through an opening defined in the collar. 2. The drink bottle of claim 1, further comprising a spout cover and an actuator assembly movably connected to the lid, said actuator assembly operatively coupled to the spout when the spout is disposed in the stowed configuration such that the spout engages the spout cover to responsively retain the spout cover in the stowed configuration, and said actuator assembly selectively operatively uncoupled from the spout in order to facilitate movement of the spout from the stowed configuration to the dispensing configuration and disengagement from the spout cover so that the spout cover responsively moves from the stowed configuration to the dispensing configuration. 3. The drink bottle of claim 2, wherein the spout rate of movement is less than a rate of movement of the spout cover when the spout and the spout cover are moved between the stowed configuration and the dispensing configuration. 4. The drink bottle of claim 1, wherein the projection extends normal to a plane of rotation defined by the longitudinal axis of the spout when moved between the stowed configuration and the dispensing configuration. 5. The drink bottle of claim 1, wherein the projection is disposed above the collar. 6. The drink bottle of claim 1, wherein the projection is configured as an arm extending laterally with respect to the longitudinal axis. 7. The drink bottle of claim 1, further comprising a biasing element disposed to impart a biasing force on the spout in the direction of the dispensing configuration when the spout is disposed in the stowed configuration and wherein during movement of the spout from the stowed configuration to the dispensing configuration the projection frictional engagement with the sidewall dissipates the biasing force. 8. The drink bottle of claim 7, wherein all of the biasing force is dissipated by the projection frictional engagement so that the spout does not contact an end portion of the sidewall in the dispensing configuration. 9. A lid configured for connection to a drink bottle, the lid comprising: an open-top channel defined in the lid by an interior sidewall;a spout disposed within the channel,wherein the spout is movable between a stowed configuration and a dispensing configuration, the spout defining a passageway in fluid communication with an interior of the container when disposed in the dispensing configuration; andwherein the spout includes a projection that extends outward from the spout in a direction transverse to a longitudinal axis of the spout, and frictionally engages the sidewall throughout movement of the spout between the stowed configuration and the dispensing configuration so that a rate of movement of the spout between the stowed configuration and the dispensing configuration is controlled,a collar connected about the spout such that the projection extends through an opening defined in the collar. 10. The lid of claim 9, further comprising a spout cover and an actuator assembly movably connected to the lid, said actuator assembly operatively coupled to the spout when the spout is disposed in the stowed configuration such that the spout engages the spout cover to responsively retain the spout cover in the stowed configuration, and said actuator assembly selectively operatively uncoupled from the spout in order to facilitate movement of the spout from the stowed configuration to the dispensing configuration and disengagement from the spout cover so that the spout cover responsively moves from the stowed configuration to the dispensing configuration. 11. The lid of claim 10, wherein the spout rate of movement is less than a rate of movement of the spout cover when the spout and the spout cover are moved between the stowed configuration and the dispensing configuration. 12. The lid of claim 9, wherein the projection extends normal to a plane of rotation defined by the longitudinal axis of the spout when moved between the stowed configuration and the dispensing configuration. 13. The lid of claim 9, wherein the projection is disposed above the collar. 14. The lid of claim 9, wherein the projection is configured as an arm extending laterally with respect to the longitudinal axis. 15. The lid of claim 9, further comprising a biasing element disposed to impart a biasing force on the spout in the direction of the dispensing configuration when the spout is disposed in the stowed configuration and wherein during movement of the spout from the stowed configuration to the dispensing configuration the projection frictional engagement with the sidewall dissipates the biasing force. 16. The lid of claim 15, wherein all of the biasing force is dissipated by the projection frictional engagement so that the spout does not contact the sidewall in the dispensing configuration. 17. A drink bottle comprising: a container;a lid connected to the container, the lid including:an open-top channel defined in the lid by an interior sidewall;a spout disposed within the channel,wherein the spout is movable between a stowed configuration and a dispensing configuration, the spout defining a passageway in fluid communication with an interior of the container when disposed in the dispensing configuration,wherein the spout includes a projection that extends outward from the spout in a direction transverse to a longitudinal axis of the spout, and frictionally engages the sidewall throughout movement of the spout between the stowed configuration and the dispensing configuration so that a rate of movement of the spout between the stowed configuration and the dispensing configuration is controlled,wherein the lid further comprises a collar disposed within the channel and an opening defined in the collar, andwherein the projection extends outward from the spout and through the opening.