The present invention relates a beverage container, and more particularly to a beverage container comprising a push sealing arrangement, in which a cover assembly and a sealing piece provides a double sealing effect to an access opening of a lid body so as to prevent liquid from spilling out of the beverage container even when it is flipped side way or turned upside down.
A conventional container, such as a beverage container for containing water, usually comprises a container body and a lid detachably attached on the container body. The container body has a container cavity for storing a predetermined amount of fluid, such as water. The lid usually comprises a lid body having a drinking hole communicating with the container cavity, and a sealing handle movably mounted on the lid body for selectively opening or closing the drinking hole.
Conventionally, the sealing handle may be coupled to the lid body in such a manner that the sealing handle can rotate with respect to the lid body. Through rotational movement of the sealing handle, the sealing handle may be selectively rotate to open and block the drinking hole.
A major disadvantage of the conventional beverage container such as the one mentioned above is that there is no locking mechanism to restrict the rotational movement of the sealing handle. For those beverage containers which utilize similar structures, the sealing handle is tightly coupled to the lid body so that although the sealing handle may rotate with respect to the lid body, it is very hard for a user to rotate the sealing handle for opening and closing the drinking hole. This disadvantage presents great inconvenience to users especially when the beverage container is being used in outdoor environment or the users are very young (such as kids) when he or she does not have adequate power to turn the sealing handle.
Moreover, most conventional beverage containers having the sealing handle as mentioned above does not have adequate sealing so that when the beverage container is flipped side way or turned upside down, liquid in the beverage containers may spill out of the container.
Therefore, there is a need to develop a beverage container having a rotatable sealing handle which is easy to be rotated, which can be locked and unlocked with ease, and which has a superior sealing performance.
Certain variations of the present invention provide a beverage container comprising a rotatable sealing arrangement, in which a cover assembly may be selectively rotated to selectively and securely seal a container cavity.
Certain variations of the present invention provide a beverage container comprising a rotatable sealing arrangement which prevents liquid from spilling out of the beverage container even when it is flipped side way or turned upside down.
Certain variations of the present invention provide a beverage container comprising a rotatable sealing arrangement which comprises a cover assembly and a sealing piece for providing double sealing effect to an access opening of a lid body. This effectively prevents liquid from spilling out of the beverage container even when it is flipped side way or turned upside down.
In one aspect of the present invention, it provides a beverage container, comprising:
In another aspect of the present invention, it provides a lid for a container body having a container cavity, the lid comprising:
a lid body detachably attached on the container body to selectively enclose the container cavity, the lid body having a support panel, an actuation slot, and an access opening formed on the support panel; and
This summary presented above is provided merely to introduce certain concepts and not to identify any key or essential features of the claimed subject matter.
The following detailed description of the preferred embodiment is the preferred mode of carrying out the invention. The description is not to be taken in any limiting sense. It is presented for the purpose of illustrating the general principles of the present invention.
In the following descriptions, it should also be appreciated that the terms “arrange” and “set” in the following description refer to the connecting relationship in the accompanying drawings for easy understanding of the present invention. For example, the “arrange” and “set” can refer to one element directly or indirectly set or arrange on another element. Therefore, the above terms should not be an actual connection limitation of the elements of the present invention.
It should also be appreciated that the terms “center”, “length”, “width”, “thickness”, “top”, “bottom”, “front”, “rear”, “left”, “right”, “vertical”, “horizontal”, “upper”, “lower”, “interior”, and “exterior” in the following description refer to the orientation or positioning relationship in the accompanying drawings for easy understanding of the present invention without limiting the actual location or orientation of the present invention. Therefore, the above terms should not be an actual location limitation of the elements of the present invention.
Moreover, it should be appreciated that the terms “first”, “second”, “one”, “a”, and “an” in the following description refer to “at least one” or “one or more” in the embodiment. In particular, the term “a” in one embodiment may refer to “one” while in another embodiment may refer to “more than one”. Therefore, the above terms should not be an actual numerical limitation of the elements of the present invention.
It should be appreciated that the terms “install”, “connect”, “couple”, and “mount” in the following description refer to the connecting relationship in the accompanying drawings for easy understanding of the present invention. For example, the connection can refer to permanent connection or detachable connection. Therefore, the above terms should not be an actual connection limitation of the elements of the present invention.
Referring to
The lid 400 may comprise a lid body 10 detachably attached on the container body 200 to selectively enclose the container cavity 111, the lid body 10 having a support panel 250, a plurality of (but at least one) actuation slots 110, and an access opening 113 formed on the support panel 250.
The push sealing arrangement 300 may comprise a cover assembly 21, a main shaft 13 and a sealing piece 22. The cover assembly 21 may comprise a first cover 211 movably mounted on the support panel 250, and a plurality of (but at least one) connector legs 212 downwardly extended from the first cover 211 to slidably engage with the actuation slots 110 respectively.
The main shaft 13 may downwardly extend from the support panel 250.
The sealing piece 22 may be movably coupled to the main shaft 13 and may comprise a second cover 221 having a through hole 220 and may be positioned underneath the first cover 211 and the access opening 113.
The cover assembly 21 may be slid on the lid body 10 to operatively move between an opened position and a closed position, wherein in the closed position, the cover assembly 21 is slid to drive the first cover 211 to cover on top of the access opening 113, while the second cover 221 of the sealing piece 22 may be driven to move upwardly with respect to the main shaft 13 for blocking a bottom side of the access opening 113 so as to prevent liquid from the container cavity 111 to spill out therefrom, wherein in the opened position, the first cover 211 may be slid to expose the access opening 113 to ambient environment, while the second cover 221 may be driven to move downwardly with respect to the main shaft 13 so as to allow liquid to flow out of the container cavity 111 through the access opening 113.
According to the preferred embodiment of the present invention, the container body 200 may be configured from metallic or plastic material and may have a circular cross-sectional shape. The container body 200 may form a tubular structure in which the container cavity 111 may be formed therein. The container body 200 may further have a top opening 201 communicating the container cavity 111 with an exterior of the container body 200. The lid 400 may be selectively attached on the container body 200 at the top opening 201 to selectively close the container cavity 111.
The lid 400 may mainly be configured from plastic material. The lid body 10 may have a cross sectional shape which is corresponding to that of the container body 200. As shown in
Referring to
Referring to
The lid body 10 may further have a plurality of first engaging threads 122 formed on an external surface of the lower tubular portion 12 while the container body 200 may have a plurality of second engaging threads 205 formed on an inner surrounding surface 204 surrounding the container cavity 111 near the top opening 201, wherein the first engaging threads 122 and the second engaging threads 205 may be positioned to correspond to each other so that the lid body 10 may engage with the container body 200 through detachable engagement between the first engaging threads 122 and the second engaging threads 205. As shown in
As shown in
According to the preferred embodiment of the present invention, each of the upper shaft portion 131 and the lower shaft portion 132 may have a circular cross-sectional shape. One skilled in the art may appreciate that other cross-sectional shapes are also possible.
On the other hand, the lower shaft portion 132 may be divided into a contracted section 1321 and a lower end section 1322, wherein a diameter of the contracted section 1321 may be smaller than that of the lower end section 1322 to form a circumferential slot 1323 at the lower shaft portion 132 due to change in diameter between the contracted section 1321 and the lower end section 1322.
The first cover 211 may be movably positioned on the support panel 250 of the lid body 10. In the preferred embodiment of the present invention, the first cover 211 may be positioned on a top surface 222 of the support panel 250 in a movable manner. A movement of the first cover 211 may be limited by the securing groove 101.
Referring to
On the other hand, the first cover 211 may have a main cover portion 2111 and a pusher end portion 2112, wherein the main cover portion 2111 may be arranged to dispose on the support panel 250 in the elongated portion 1011 of the securing groove 101 for covering the access opening 113 and the actuation slots 110. The main cover portion 2111 may take a variety of forms, an exemplary configuration may be a panel having an external shape corresponding to that of a cross sectional shape of the securing groove 101. The pusher end portion 2112 may extend from the main cover portion 2111 and receive in the elongated portion 1011 of the securing groove 101 when the cover assembly 21 is in the closed position. Note that an external contour or shape of the pusher end portion 2112 may correspond to that of the end portion 1012 of the securing groove 101 so that the pusher end portion 2112 may be slid to receive in the end portion 1012 of the securing groove 101 when the cover assembly 21 is in the opened position.
As shown in
Furthermore, the lid body 10 may further have a plurality of (but at least one) positioning recesses 1103 indently formed on outer sidewalls 1104 of the actuation slots 110 respectively for engaging with the connector legs 212 of the cover assembly 21 respectively. Referring to
Moreover, the lid body 10 may further comprise a plurality of (but at least one) first restraining members 115 downwardly extended from the support panel 250 for restricting a movement of the sealing piece 22 (described below). Each of the first restraining members 115 may take a wide variety of forms. An exemplary configuration in this preferred embodiment is that each of the first restraining members 115 is an elongated and tubular shaft having a central slot 1151.
As shown in
The connector legs 212 may be slidably mounted in the actuation slots 110 respectively in such a manner that the thicker portions 2122 may be arranged to penetrate through the wider portions 1101 of the actuation slots 110 respectively. The thinner portions 2121 of the connector legs 212 may then be allowed to slide along the narrower portions 1102 of the actuation slots 110 respectively so as to facilitate sliding movement of the connector legs 212 along the actuation slots 110.
In this preferred embodiment of the preferred embodiment, the connector legs 212 may be configured from elastic material such as plastic so that the protrusions 2123 of the connector legs 212 may be arranged to engage with the positioning recesses 1103 formed on the actuation slots 110 respectively when the cover assembly 21 is in the closed position. The engagement between the protrusion 2123 and the positioning recesses 1103 may be retained by the inherent elastic force of the connector legs 212. This elastic force may be overcome by manual force which tend to push the cover assembly 21 from the closed position toward the opened position. At that point, the protrusions 2123 may be disengaged from the positioning recesses 1103 respectively.
From the forgoing descriptions, it can be shown that first cover 211 may be arranged to cover the access opening 113 when the cover assembly 21 is in the closed position. On the other hand, the first cover 211 may be slid to expose the access opening 113 to ambient environment when the cover assembly 21 is in the opened position. Thus, the first cover 211 may seal or cover the access opening 113 from a top side of the support panel 250 (i.e. from a top side of the access opening 113). The first cover 211 may further comprise a top cover 50 for allowing a user to conveniently and manually push the first cover through pushing the top cover 50.
The sealing piece 22 may be mounted underneath the support panel 250 to provide sealing to the container cavity 111 from underneath the support panel 250. The sealing piece 22 may further comprise an auxiliary cover 224 sidewardly extended from the second cover 221. In this preferred embodiment of the present invention, the second cover 221 and the auxiliary cover 224 may form an integral structure as a one-piece body.
The sealing piece 22 may further comprise a plurality of (but at least one) traveling members 222 upwardly extended from the second cover 221 to operatively engage with the connector legs 212 respectively. Each of the traveling members 222 may be configured as a panel-like structure having a second inclined surface 2220. As shown in
As shown in
It is worth mentioning that since the support panel 250 restricts an upward movement of the connector legs 212, when the connector legs 212 travel along the traveling members 222, the sealing piece 22 may be forced to move downwardly with respect to the main shaft 13.
Moreover, the sealing piece 22 may further comprise a plurality of (but at least one) second restraining members 223 extended from the second cover 221 and the auxiliary cover 224 respectively, wherein the second restraining members 223 may be positioned corresponding to the first restraining members 115 so that when the cover assembly 21 is in the closed position, the first restraining members 115 may be coupled to the second restraining members 223 respectively for restraining a pivotal movement of the cover assembly 21 with respect to the lid body 10.
According to the preferred embodiment of the present invention, the second restraining members 223 may be configured as shafts extending from the second cover 221 and the auxiliary cover 224 respectively. The second restraining members 223 may be inserted in the central slots 1151 of the first restraining members 115 respectively when the cover assembly 21 is in the closed position. It is worth mentioning that the first restraining members 115 and the second restraining members 223 may be interchangeably positioned on the first cover 211, the second cover 221 and the auxiliary cover 224.
Referring to
The sealing ring 23 may be made of elastic material such as rubber material so that it may deform when subject to external force, and may restore to its original shape when such external force is removed. The sealing ring 23 may be configured as having a quadrilateral cross-sectional shape with a central opening 234 formed within the quadrilateral.
Thus, the second cover 221 may be configured to have a quadrilateral shape wherein the traveling members 222 and the second restraining members 223 are extended from a top side of the second cover 221. The through hole 220 may be formed in the second cover 221. As shown in
Accordingly, the lid body 10 may further comprise a boundary wall 28 downwardly extended from the bottom surface 225 of the support panel 250, wherein the upper portion 232 of the sealing ring 23 may be fittedly engage with the boundary wall 28 so as to seal the gap between the support panel 250 and the sealing ring 23.
The push sealing arrangement 300 may further comprise a resilient element 30 and an end stopper 40 mounted on the main shaft 13 for providing an upward urging force toward the second cover 221 so as to push the sealing piece 22 toward the support panel 250. As an example, the resilient element 30 may be configured as a compression spring and may be mounted on the main shaft 13. On the other hand, the second cover 221 may further have an accommodating cavity 2212 indently formed at a bottom side of the second cover 221, wherein the resilient element 30 may partially receive in the accommodating cavity 2212 and bias against an upper boundary surface 2213 thereof. The resilient element 30 may bias against the upper boundary surface 2213 when it is mounted on the main shaft 13. Thus, the sealing piece 22 may be subject to an upward urging force so that the sealing piece 22 and the sealing ring 23 may bias against the support panel 250 when the cover assembly 21 is in the closed position.
On the other hand, the end stopper 40 may be mounted on the lower shaft portion 132 of the main shaft 13. As shown in
As shown in
The operation of the present invention may be described follows: when the cover assembly 21 is in the locked position, the first cover 211 may slid such that the main cover portion 2111 completely covers the access opening 113 from the top of the support panel 250. At the same time, the sealing piece 22 may be pushed by the resilient element 39 so that the second cover 221 and the auxiliary cover 224 may be pushed to cover the access opening 113 from underneath the support panel 250. This creates a double sealing effect (one from above the support panel 250 and one from underneath the support panel 250) to seal the access opening 113. The result is that when the cover assembly 21 is in the locked position, liquid in the container cavity 111 is prevented from spilling out therefrom through the access opening 113, even when the beverage container is flipped sideway or turned upside down. The sealing ring 23 attaching to the second cover 221 may provide enhanced sealing effect for preventing liquid from spilling out from the access opening 113 through the gap between the support panel 250 and the sealing ring 23.
When a user wishes to drink the liquid stored in the container cavity 111, he or she may slide the first cover 211 and the connector legs 212 may also be driven to slide along the securing groove 101. The manual sliding force exerted to the first cover 211 may drive the connector legs 212 to move along the traveling members 222. This has the effect of pushing the second cover 221 to move downwardly with respect to the main shaft 13 because the first cover 211 and the connector legs 212 are restrained from moving vertically with respect to the lid body 10. At this time, the protrusions 2123 of the connector legs 212 may engage with the positioning recesses 1103 respectively. The second cover 221 will then compress the resilient element 30 and expose the access opening 113 to the container cavity 111 of the container body 200. The user may then be able to drink the liquid from the container cavity 111.
When the user finishes drinking the liquid, he or she may simply exert a slight sliding force to the first cover 211 in the direction which tend to close the access opening 113. This slight force disengages the protrusions 2123 of the connector legs 212 from the positioning recesses 1103 respectively. The upward pushing force exerted by the retention element 39 may cause the connector legs 212 to travel back to the original position along the traveling members 222 and this cause the entire sealing piece 22 to move upwardly along the main shaft 13 and back to its original position. At the same time, since the connector legs 212 are driven to move back down along traveling members 222 respectively, the first cover 211 may be forced to slide back to the original position so as to close the access opening 113. At this time, the cover assembly 21 may be restored to the closed position.
The present invention, while illustrated and described in terms of a preferred embodiment and several alternatives, is not limited to the particular description contained in this specification. Additional alternative or equivalent components could also be used to practice the present invention.
Number | Date | Country | Kind |
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202122039039.2 | Aug 2021 | CN | national |
Number | Name | Date | Kind |
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20220348387 | Ni | Nov 2022 | A1 |
Number | Date | Country | |
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20230063031 A1 | Mar 2023 | US |