Patent Application
20120103969
The present invention relates to a container warming apparatus, in general and, in particular, to a warmer for a single or multi compartment container.
Container warmers are known in the art and include a variety of devices for warming containers. Typically, each warming device is adapted to warm a certain kind of container. One known container warming device is a baby bottle warmer, which is used for warming the formula, milk or other nutriments stored inside baby bottles or other containers for baby nutriments.
One example of such a baby bottle warmer is disclosed in U.S. Pat. No. 6,427,863 to Nichols, where a thermos base with an insulted cup is filled up with water which is heated to a predefined temperature. A baby bottle is placed inside the hot water and is retained therein until the food inside the bottle reaches the desired temperature. Nichols further describes a cap with a plurality of vent holes, which allows steam from the hot water in the insulated cup to escape. The bottle warmer according to this US patent permits the bottle to be disposed therein and heated in an upright position only and the heat generated by the warmer spreads upwards to all parts of the bottle heating the entire formulation which it contains.
Baby formulas typically require several steps for preparation. First, sterilized or purified liquid, such as water, must be measured into the bottle. Second, the powdered formula must be measured and added to the liquid, and third, the formulation may be warmed to a proper temperature before feeding the baby, particularly if it is prepared in advance and stored in a refrigerator. This is a time consuming process for a user, especially when the baby is hungry and crying. In addition, sterilized or purified water or other materials, such as substances in powdered form, are not available at all locations, or appropriate facilities for preparing them may not be available, when it is desired to prepare the formulation.
There are also known a wide variety of containers having two compartments for storing separately different components for combining to form a desired formulation immediately prior to consumption. One example of such a container is shown in U.S. Pat. No. 6,113,257 to the present applicant. This patent describes a container including a housing with a dispensing opening and a neck portion between the opening and a bottom end of the housing; and a displaceable member disposed within the housing and having a partition wall with an edge adapted for a sealing engagement with the internal walls of the neck portion, thereby defining two compartments separated by the partition wall. The displaceable member is axially displaceable between two positions along an axis extending through the neck portion, the two positions comprising a first position, where the edge of the partition wall sealingly engages the internal walls of the neck portion, and a second position, where the edge and the internal walls are disengaged permitting flow communication between the two compartments.
Typically, one compartment of the multi-compartment container is filled with one component in powdered form of the formulation, and a second compartment is filled with water or other liquid at a desired temperature and is mixed with the component contained in the first compartment just prior to use. In case of a baby bottle, the multi-compartment container is pre-filled with water in one compartment and powder in the second compartment. Prior to forming the formulation and feeding a crying baby, the water needs to be heated to a proper temperature. In order to speed up the start of the feeding, it would be an advantage if the water is kept warmed at a desirable temperature up until just prior to use while both components of the formulation are already stored in the container. However, heating up the multi-compartment container by known baby bottle warmers may result in heating both the water and the powdered component for extended periods of time. It is known that heating certain substances for extended periods of time may cause an undesirable structural change in the macromolecules of the substance, in a process known as denaturation. Thus, placing a pre-filled multi-compartment container in a conventional bottle warmer in the upright position may result in undesirably heating up all the components in the container, since heat naturally rises.
Accordingly, there is a long felt need for a container warmer that will heat substantially only one or more desired portions of a single compartment or a multi-compartment container.
There is provided, according to the present invention a warming apparatus for warming at least one container having outer walls, which can be a single- or multi-compartment container. The apparatus includes a warmer body, at least one container holder, open at both ends, defined in the body, the container holder including holder walls adapted and configured to cradle a portion of the outer walls of a container for releasably holding that portion of the outer walls, and at least one heating element disposed in the warmer body adjacent the container holder.
According to one embodiment the container holder has a shape complementary to a portion of the container for releasably cradling that portion.
According to another embodiment the warmer body further includes a temperature selector associated with each container holder.
According to one embodiment of the invention, the warmer body further includes a portable energy source.
According to another embodiment of the invention, the warmer body further includes a car outlet plug.
There is also provided, according to the invention, a warming apparatus for warming a multi-compartment container, the apparatus including a warmer body, at least one container holder defined in the body, each for holding a multi-compartment container in a substantially horizontal position, each container holder being sized to hold a portion of the container, and at least one heating element disposed in the body, one of the heating elements being disposed adjacent one of the container holders for heating at least a portion of the container holder.
Still further according to the invention, there is provided a method for forming a warming apparatus for warming a container having outer walls, the method including forming warmer body, defining at least one container holder, open at both ends, in the warmer body for releasably holding a container, forming holder walls in the container holder sized and configured to cradle a portion of the outer walls of a container, and disposing at least one heating element in the warmer body adjacent the container holder.
The present invention will be further understood and appreciated from the following detailed description taken in conjunction with the drawings in which:
a is a side perspective schematic illustration of container warmer constructed and operative in accordance with one embodiment of the present invention;
b is a side perspective schematic illustration of container warmer constructed and operative in accordance with one embodiment of the present invention;
The present invention relates to a container warming apparatus for warming at least one container having outer walls. The container can be a single compartment or multi-compartment container, which may contain substances in one or more compartments while being warmed. The warming apparatus includes a warmer body defining at least one cradle or container holder, open at both ends, and having holder walls adapted and configured to cradle a portion of the outer walls of a container for releasably holding a portion of the container. A heating element is disposed in the warmer body adjacent the container holder for heating a portion of the container which is placed in the cradle.
According to the invention, only a desired portion of the container held in the container holder is heated by the container warmer, while other portions of the container are not warmed or are warmed very little. Thus, the container can be held in a horizontal position, meaning holding the container in a position wherein all of its compartments are substantially leveled in respect to each other and the horizon. The container can also be held in a substantially horizontal position, which includes an acute angle from the horizontal, i.e., about 45° or less, whereby only the desired portion of the container held in the container holder is heated by the container warmer. Alternatively, the container can be held substantially vertically, where the portion to be heated is held above the portion not to be heated, to prevent warming by convection. According to some embodiments of the invention, holder holds the container so that it cannot not fall out unintentionally. Thus, the container holder may be sized for snap fit, or may include conventional flexible stopper elements, as so forth, such that no external means are required to retain the container in the holder/cradle.
According to one embodiment, the cradle of the warming apparatus is sized to permit warming of a portion of a multi-compartment container, and preferably the outer walls of one compartment of the container, while the other portions of the container or other compartments extend outside the cradle. Holding the container in a substantially horizontal position on the warmer apparatus prevents the heat, which naturally rises from the heating element of the warmer and the heated portion of the container, from reaching other portions of the container and heating their contents, as well. This is of particular importance when one substance in a first compartment of the multi-compartment container is being heated, while a second substance contained in a second compartment can be denaturalized when exposed to heat. The warming apparatus according to the present invention allows, for example, heating water contained in one compartment of a two-compartment baby bottle without heating a powdered baby formula contained in the second compartment of the bottle before mixing the two components into a formulation and feeding a baby.
a is a perspective view of a container warmer constructed and operative in accordance with one embodiment of the present invention. Container warmer 10 includes a warmer body 12 having a heating element 18 which can be energized by any conventional power source. It is a particular feature of the present invention that warmer body 12 defines a container holder, here illustrated as a cradle 14, open at both ends, having holder walls 13 for releasably holding or engaging a single- or multi-compartment container in a horizontal position. Cradle 14 is defined in body 14 along a horizontal axis X through body 12. Preferably, cradle 14 is formed with a semi-cylinder shape, which is complementary to typical cylindrically shaped contours of the outer walls of the container, for engaging the outer walls of the container. Cradle 14 extends from one outside wall 15 of body 12 to a second outside wall 17 of body 12, and is open on both ends. Preferably, cradle 14 is sized along axis X to hold a portion of the container, while the other portion or portions of the container extend outside of either one or both ends of cradle 14 and, preferably, of body 12. The heating element heats at least a portion of the cradle which, in turn, heats the outer walls of the portion of the container held therein. The portions of the container which extend outside of cradle 14 are not in contact with warmer body 12, thus remain substantially unheated. Furthermore, these portions of the container are surrounded by ambient air, which enhances heat convection away from these portions.
b, 2 and 3 are perspective, side, and top views, respectively, of a container warmer constructed and operative in accordance with an alternative embodiment of the present invention including two container holders, here illustrated as cradles 14 and 14b, each for holding a container in a substantially horizontal position, substantially as described above with regard to
According to other embodiments of the present invention, cradle 14 may be formed in various shapes to complement the contours of the outer walls of containers having unconventional shapes, such as rectangular or hexagonal, etc. Preferably, the shape of cradle 14 complements the contours of the outer walls of that portion of the container which it is desired to heat.
Preferably, wall 13 of cradle 14 is lined with a heat-conductive plate 16, wherein one side of the plate is adapted to engage, or to be mounted in close proximity to, the heating element in body 12, and the second side of the plate lines cradle 14 and is mounted adjacent a portion of the container to be heated. According to another embodiment, the heating element in body 12 heats a heat convection medium, such as oil or other liquid or heat transferring material, wherein the medium is contained in body 12 and contacts cradle 14 for heating at least a portion of the cradle.
Heat-conductive plate 16 can be made of any heat conductive material, such as metal or other materials having similar heat conductive characteristics. Plate 16, according to this embodiment, is semi-cylindrically shaped and is arranged to completely line cradle 14, as shown in
Container warmer 10, as shown in
Preferably, container warmer 10 includes a thermostat (not shown) associated with each container holder, for maintaining the heating temperature in each holder at a prescribed level, for example, 38° C. in case the container warmer 10 is used for warming baby bottles. In addition, container warmer 10 may further include a temperature selector (not shown), associated with each container holder, which may be adjusted in accordance with the substance to be heated and the desired temperature. According to yet another embodiment, body 12 may include a heating element for each cradle 14 and 14b, wherein one heating element may be set to one pre-selected temperature, while the second heating element is set to another pre-selected temperature.
Container warmer 10 may further include a portable power source, such as batteries, and/or a car plug, for using a car battery as a power source.
It is a particular feature of the present invention that the warming apparatus permits continual warming of only one component before it is mixed with the second component, where the second component is undesirably sensitive to heat. If the user wishes to heat the component which is stored in compartment 22 while avoiding heating the component stored in compartment 24, multi-compartment bottle 20 is placed on bottle warmer 10, here illustrated in a horizontal position, by disposing first compartment 22 inside cradle 14 as shown, resulting in physical contact between the outer walls of compartment 22 and heat-conductive plate 16 in wall 13. The length of cradle 14 is arranged so as to engage the outer walls of compartment 22 only, while the outer walls of compartment 24 extend outside of cradle 14, thus avoiding direct contact with warmer body 12, so as to minimize heat convection from heat-conductive plate 16 to compartment 24. Placing bottle 20 on bottle warmer 10 in a horizontal position substantially eliminates heat convection from heated compartment 22 to compartment 24 (which may occur in conventional bottle warmers by heat naturally rising from first compartment 22 to compartment 24 when bottle 20 is vertically placed and heated). Once the temperature of the component in compartment 22 reaches the desired level, bottle 20 may be removed and the partition wall in the multi-compartment container can be opened, thus permitting flow communication between the two compartments and mixing of the heated component in compartment 22 with the non-heated component in compartment 24, to form a mixture ready for immediate consumption.
While typically it will be preferred that the container be heated in a horizontal position, as stated above, an acute angle up to about 45° may also provide a sufficient tilt between the portion of the container to be heated and the portion of the container extending from the warmer so that there is little or no heating of the upper portion by convection. One example of such a warmer is illustrated in
According to another embodiment of the present invention, the container warmer may include a container holder formed by one or more rotating rollers mounted inside an arcuate or semi-cylindrical cradle defined in the body of the warmer. Rotation of the rollers causes a container, disposed therein, to rotate about its longitudinal axis. Rotation of the container permits physical contact of the entire circumference of the outer walls of the container with the heat-conductive plate, thus accelerating the heating of the component contained therein.
According to yet another embodiment, the container warmer may include a body and a container holder formed by at least two synchronal rotating rollers mounted in the body, extending in parallel to a substantially horizontal axis through the body and in parallel to each other, and spaced apart. The two rotating rollers may cause a container, disposed in the container holder, to rotate about its longitudinal axis. According to this embodiment, each roller may include a heating element arranged to engage and heat the outer walls of the multi-compartment container, or of any portion thereof.
While the invention has been described with respect to a limited number of embodiments, it will be appreciated that many variations, modifications and other applications of the invention may be made. It will further be appreciated that the invention is not limited to what has been described hereinabove merely by way of example. Rather, the invention is limited solely by the claims which follow.
| Number | Date | Country | Kind |
|---|---|---|---|
| 199711 | Jul 2009 | IL | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/IL10/00540 | 7/6/2010 | WO | 00 | 1/5/2012 |
