This invention relates generally to a drinking container, and particularly, to a drinking container that comprises respective closing and triggering mechanisms for the drinking and gas vents thereof.
Various drinking containers that are able to keep the fluids contained therein warm exist in the art. These containers are usually comprised of a lid secured to a container body, the lid having a drinking orifice through which the fluid flows from the container into the drinker's mouth. When drinking a hot fluid from the container, the hot air contained in the container often rushes out of the drinking orifice together with the fluid, and spurts onto the drinker's face, causing discomfort.
To solve this problem some of the recent drinking containers comprise a gas vent formed in the lid through which the hot air inside the container exits, and a mechanism to open and close the gas vent. Generally, some of these containers are configured to open simultaneously the gas vent and the drinking orifice, and there is no time for the hot air to escape through the gas vent before the drinker drinks the liquid from the drinking orifice. Other containers require the drinker to perform an extra operation (for example, switching a switch) to manually open the gas vent. This design may have a problem that the drinker forgets to open the gas vent before drinking the liquid, disabling the function of the gas vent.
Therefore, there is a need for a drinking container that comprises a mechanism to ensure that the user opens the gas vent before opening the drinking orifice to drink the liquid from the container.
One of the principle objects of the invention is to provide a drinking container that comprises a mechanism to ensure that the drinking orifice can only be opened only after the gas vent is opened.
Another object of the invention is to provide a lid assembly for a drinking container, which lid assembly can be easily disassembled for purposes of, for example, cleaning the inside of the lid assembly.
These and other objects are satisfied by the present invention, which provides a lid assembly for a drinking container, which lid assembly may comprise:
an upper lid member comprising a drinking orifice and a gas vent formed therethrough;
a closure member pivotally mounted on a top surface of the upper lid member for pivotal movement to close and open the gas vent;
a lower lid member having a window in fluid communication with the drinking orifice and the gas vent to allow a flow of liquid and gas therethrough;
a lever pivotally mounted on the lower lid member;
a baffle plate for closing the drinking orifice and mounted atop the lever to move pivotally along with the pivotal movement of the lever; and
a piston movable within the upper lid member in a direction in order to pivotally move the lever downwardly so that the baffle plate moves away from the drinking orifice, said piston having a piston head exposed externally;
wherein the piston is configured such that the piston is permitted to enable the pivotal movement of the lever only when the closure member is moved to open the gas vent.
In one embodiment of the present invention, the piston may extend through a piston passage formed through a side wall of the upper lid member, and may be configured such that an inner end of the piston abuts against the lever and moves to force the lever to pivot downwardly. Preferably, a torsion spring may be provided to constantly apply an upward pressure to the lever.
In one embodiment of the present invention, a groove may be formed on an upper side of the piston, and an opening may be formed on an upper side of the piston passage and positioned to correspond to the groove so as to allow for housing of a part of the closure member in the groove for prevention of the movement of the piston when the gas vent is closed. A recess formed on the closure member may be adapted to face away from the groove when the gas vent is closed, and adapted to face the groove to allow for the movement of the piston when the closure member is moved to open the gas vent. Preferably, a piston spring may be provided to constantly apply an outward pressure to the piston head.
In one embodiment of the present invention, the closure member may comprise a hinge and a closure plate extending from the hinge, the closure member being mounted on the top surface of the upper lid member in such a manner that the closure plate is pivotal around the hinge.
In one embodiment of the present invention, the gas vent may be formed with an opening direction thereof perpendicular to a longitudinal direction of the hinge, and the lid assembly may comprise a pin protruding beyond the gas vent and received in a niche formed on the hinge to close the gas vent, and the pin being caused to disengage from the niche by the pivotal movement of the closure member and pressed by the closure member to move down away from the gas vent to create a venting space together with the gas vent. Preferably, the pin may be slidably supported by a holder secured below the gas vent to an inner surface of the upper lid member, and a resilient ring may be provided to surround the pin and push the pin to move up when pressed.
In another embodiment of the present invention, the gas vent may be formed with an opening direction thereof in parallel with a longitudinal direction of the hinge, the lid assembly may comprise a pin protruding beyond the gas vent and having a first cam face in corporation with a second cam face formed on an end of the hinge to close the gas vent, wherein a flat surface of the hinge adjoining the second cam face rotates with the pivotal movement of the closure member to force against the first cam face of the pin, so that at least a part of the pin is pushed to move away from the gas vent to create a venting space together with the gas vent. Preferably, a resilient member may be coupled to an opposite end of the pin to the first cam face in order to operably push the pin towards the gas vent.
In one embodiment of the present invention, the lower lid member may be mounted to the upper lid member in a detachable manner. Preferably, the lid assembly may further comprise a lock mechanism for detachably locking the upper and lower lid members together. The lock mechanism may comprise a hook member extending downwardly from the upper lid member; an unlocking member comprising a body extending through the lower lid member and having a hooked head, and a grip portion extending from the body and restrained below the low lid member; and a hook linkage pivotally mounted on the lower lid member and between the hook member and the unlocking member, the hook linkage configured to have a respective slot formed on opposite side surfaces thereof or a respective hooked end on opposite ends thereof, which are engagable with the hook member and the hooked head; wherein a downward movement of the grip portion drives the hooked head to cause the hook linkage to pivot downwardly and to disengage from the hook member to allow the lower lid member to be detached from the upper lid member. Preferably, a resilient block may be placed below the hook linkage to apply an upward pressure to the hook linkage.
In another embodiment of the present invention, a handle may be pivotally mounted to a bottom surface of the lower lid member to facilitate detachment of the lower lid member from the upper lid member.
In one embodiment of the present invention, the window may comprise a main portion and a notch, and a blocking member, which for example takes shape of a ball, may be seated on the window and dimensioned so as to block the main portion with the notch remaining open. Preferably, a restraint having a profile matchable with the blocking member may be provided for restraining the movement of the blocking member.
In another embodiment of the present invention, the blocking member may be shaped to have a stem extending through the window, a top flange extending from one end of the stem, a bottom flange extending from the other end of the stem and sized to fully cover the window, and a constricted spring coiled about the stem and carried on the stem below the top flange so that it acts to bias the bottom flange to fully cover the window, wherein the top flange comes into contact with the lever and is caused to move downwardly when the lever is forced to pivot downwardly by the piston, thereby driving to move the bottom flange away from the window. Preferably, a hollow cylinder for allowing passage of a lower part of the stem may be secured within the window by a plurality of connectors formed on an inner surface of the window, and the hollow cylinder may be sized such that the constricted spring coiled about an upper part of the stem is carried between the hollow cylinder and the top flange. Preferably, a blocking ring is secured on top of the bottom flange and is caused to press against a bottom surface of the lower lid member by the constricted spring to block the window.
In another embodiment of the present invention, the lever may be configured to comprise a first pivoting member having an arm on which the baffle plate is mounted, and a second pivoting member. The second pivoting member is adapted to be acted on by the piston to pivot downwardly thereby causing downward movement of the blocking member so as to expose the window; and the first pivoting member is configured to remain immobilized while the second pivoting member moves to expose the window, and after the window is exposed, is caused to pivot downwardly with the baffle plate moving away from the drinking orifice. Preferably, the first pivoting member may comprise two spaced apart legs extending from the arm and pivotally mounted on the lower lid member; and the second pivoting member protrudes beyond the two legs such that the inner end of the piston moves to act on the second pivoting member only which is caused to pivot downwardly in a space defined by the two legs until the second pivoting member presses towards the first pivoting member causing the first pivoting member to pivot downwardly together.
Another aspect of the present invention provides a drinking container comprising a container body in which a cavity is formed, and a lid assembly of the present invention detachably secured on top of the container body. Preferably, the container body may comprise a dual wall structure comprised of an inner wall component and an outer wall component.
In one embodiment of the present invention, the lid assembly may further comprise an intermediate bracket secured around a periphery of the low lid member and having external threads formed on an outer surface thereof, which external threads cooperate with internal threads formed on an inner surface of the inner wall component to secure the lid assembly to the container body.
While this invention is illustrated and described in preferred embodiments, the drinking container of the present invention may be produced in many different configurations, sizes, forms and materials.
Referring now to the drawings,
The lid assembly 3 comprises a closure member 6 and a piston 27 having a piston head 7. The closure member 6 is configured to be pivotally movable between a fully closed position as shown in
Preferably, the closure member 6 and the piston 27 are configured in such a manner that only when the closure member 6 is in the open position can the piston head 7 be pressed to cause the piston 27 to move. In other words, the drinking orifice 4 can be opened only when the gas vent 5 is open. Such a configuration is advantageous, especially in the case of drinking hot liquid from the container, because it ensures that the hot gas in the container exits from the gas vent 5 before the drinking orifice 4 is allowed to open, preventing the hot gas from spurting out the drinking orifice 4 and at the user.
As shown in
Now referring to
The lower lid member 10 comprises an upper plate 11 and a lower plate 12 formed integrally with a connecting member 13 therebetween. A window 14 allowing a flow of liquid and gas therethrough is formed through both the upper plate 11 and the lower plate 12 and is in fluid communication with the drinking orifice 4 and the gas vent 5. As shown in
Preferably, as shown in
As can be seen in
A pin 22 is slidably supported by a holder 23 secured below the gas vent 5 to an inner surface of the upper lid member 8 and protrudes beyond the upper lid member 8 through the gas vent 5, and is received in the niche 21 when the closure member 6 is in the closed position. A silicon resilient ring 24 surrounding the pin 22 serves as a resilient member applying an upward pressure on the pin 22, causing the pin 22 to move up and block the gas vent 5. The niche 21 rotates to face away from the gas vent 5 along with the pivotal movement of the closure member 6, and therefore the wall of the hinge 19 presses to cause the pin 22 to move downwardly away from the gas vent 5, creating a venting space between the pin 22 and the gas vent 5, which venting space allows the gas within the lid assembly 3 to exit.
As shown in
As shown in
A baffle plate 37, preferably made of rubber, for closing the drinking orifice 4 is mounted atop an upper end of the lever 33, and moves pivotally along with the pivotal movement of the lever 33. The piston 27 has an inner end 38 in abutment against the upper end of the lever 33. As shown in
As shown in
In order for a detachable structure of the lid assembly 3, a lock mechanism is provided, which comprises a hook member 43, a hook linkage 44 and an unlocking member 46. The hook member 43 is formed integrally with and extends downwardly from the spring chamber 41 of the upper lid member 8. The hook linkage 44 is pivotally mounted on a post 45 integral with the upper plate 11 of the lower lid member 10 and is positioned between the hook member 43 and the unlocking member 46. The unlocking member 46 comprises a grip portion 47 restrained below the lower lid member 10, and a body 48 extending upwardly from the grip portion 47 through the cylinder 32 and having a hooked head 55 in engagement with one hooked end of the hook linkage 44, the other hooked end of the hook linkage 44 engages with the hook member 43. Also, it is possible that a respective slot may be formed on opposite side surfaces of the hook linkage 44 to engage with the hook member 43 and the hooked head 55 respectively for the same locking purpose. A resilient silicon block 49 is placed below the hook linkage 44 to constantly force the hook linkage 44 to pivot upwardly, that is, forcing the hook linkage 44 to be into engagement with the hook member 43. The engagement between the hook member 43 and the hook linkage 44 results in the lower lid member 10 secured to the upper lid member 8. To detach the lower lid member 10 from the upper lid member 8, for example, for the sake of cleaning, the grip portion 47 may be pulled downwardly drive the hooked head 55 to move down, which in turns causes the hook linkage 44 to pivot downwardly and to disengage from the hook member 43. In this way, the lower lid member 10 can be detached from the upper lid member 8. The lower lid member 10 and upper lid member 8 can also be easily assembled together by bringing them towards each other until the hook linkage 44 is forced to engage with the hook member 43.
For the sake of simplicity, the lock mechanism described above in the first embodiment is not present in this third embodiment, and the upper lid member 8 and the lower lid member 10 are attached to each other in a conventional detachable manner, for instance by cooperating threads or by snap-fit. As shown in
In this embodiment, the second pivoting member 69 protrudes beyond the two legs 70 such that the inner end 38 of the piston 27 moves to act on the second pivoting member 69 only. The second pivoting member 69 is caused by the piston 27 to pivot downwardly in the space defined by the two legs 70 and comes into contact with the top flange 60 of the blocking member 17. Continued downward movement of the second pivoting member 69 causes the blocking member 17 to move downwardly so as to expose the window 14. The first pivoting member 68 remains immobilized and the baffle plate 37 arranged on the arm 71 of the first pivoting member 68 is kept in place while the second pivoting member 69 moves and before the window (14) is exposed. After the window (14) is exposed, the second pivoting member 69 reaches and presses towards the first pivoting member 68 causing the first pivoting member 68 to pivot downwardly together with the second pivoting member 69. As a result, the baffle plate 37 is driven to move away from the drinking orifice 4.
Such a configuration ensures that the window 14 is opened before the drinking orifice 4 is opened. Since the window 14 can be opened only when the gas vent 5 is opened, this embodiment ensures that the hot gas contained in the cavity 53 of the container body 2 is released through the window 14 and the gas vent 5 before the user is able to drink the liquid from the drinking orifice 4, thus preventing the hot gas from spurting at the user.
While the present invention is described in connection with what is presently considered to be the most practical and preferred embodiment, it should be appreciated that the invention is not limited to the disclosed embodiment, and is intended to closure member various modifications and equivalent arrangements included within the spirit and scope of the claims. Modifications and variations in the present invention may be made without departing from the novel aspects of the invention as defined in the claims, and this application is limited only by the scope of the claims.
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Number | Date | Country | |
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20160106241 A1 | Apr 2016 | US |