Patent Application
20190314773
The present invention relates generally to the field of water carbonators and carbonation infusion pumps and, more particularly, water carbonators and carbonation infusion pumps that may be used to produce carbonated (sparkling) drinking water.
The market for carbonated (sparkling) drinking water continues to grow at a rapid pace. It is well-documented that consumers are increasingly moving away from sugary beverages (including carbonated, artificially-flavored sodas), in favor of healthier drinking options (such as plain sparkling water). Most sparkling water beverages are sold to consumers in the form of pre-packaged drinks, such as individual cans or bottles holding consumable sparkling water. Only a few options exist that permit consumers to produce their own sparkling water at home, and such currently-available options have various drawbacks. Accordingly, there is a growing need for improved devices that enable consumers to produce, store, and dispense their own sparkling water at home, place of business, or other desired locations.
As the following will demonstrate, many of such needs are addressed by the carbonators and infusion pumps described herein.
According to certain aspects of the invention, devices for carbonating drinking water are disclosed. The devices generally include a container that is configured to hold a volume of carbonated drinking water under pressure (preferably filled to about ¾ volume, leaving the top ¼ void with air space); a CO2 gas supply line that is configured to deliver CO2 gas to the volume of carbonated drinking water within the container; and a variable speed electric motor located outside of and adjacent to an external surface of the container (e.g., located on the top or bottom external side of the container). In addition, the devices include a turbine type impeller that is magnetically coupled to and driven by the variable speed electric motor. The turbine type impeller is configured to rotate at variable speeds and to spray carbonated drinking water transferred from a bottom portion of the container into the air space located above the volume of carbonated drinking water within the container. In addition to such devices for carbonating drinking water, the invention further encompasses devices for dispensing carbonated drinking water, which generally include the water carbonator described herein and one or more faucet actuators for dispensing the carbonated drinking water from the carbonator.
The above-mentioned and additional features of the present invention are further illustrated in the Detailed Description contained herein.
The following will describe in detail several preferred embodiments of the present invention. These embodiments are provided by way of explanation only, and thus, should not unduly restrict the scope of the invention. In fact, those of ordinary skill in the art will appreciate upon reading the present specification and viewing the present drawings that the invention teaches many variations and modifications, and that numerous variations of the invention may be employed, used and made without departing from the scope and spirit of the invention.
According to certain preferred embodiments of the present invention, a water carbonator is provided that includes an improved means for continuously carbonating and chilling dispensable drinking water. Referring now to
More specifically, according to certain preferred embodiments of the present invention, the carbonator includes a means for spraying the top, empty, internal air space of the container 2—i.e., above the water level in the container 2—with carbonated water. More particularly, the carbonator includes a recirculating pump 8, which is either mounted on top of the carbonator (
The invention provides that the recirculating pump 8 includes a variable speed electric motor 12, which is configured to produce the rotational force that ultimately rotates a turbine type impeller 14. More particularly, the variable speed electric motor 12 is operably connected to a magnetic slave clutch 16 and magnetic drive clutch 18 (
According to such embodiments, the carbonator further includes a circulation pump inlet 22, which is the portal through which carbonated water enters an impeller shaft 24 (from the volume of water within the container 2). The impeller shaft 24 receives water from inside of the carbonator/container 2 and channels the water up to and through the turbine type impeller 14. In addition, the impeller shaft 24, which is preferably cylindrical, houses a screw-shaped (auger-shaped) impeller blade 26 that rotates (in response to the rotational force generated by the variable speed electric motor 12). The rotation of the screw-shaped impeller blade 26 draws water through the circulation pump inlet 22 and up the impeller shaft 24, so that it will eventually be sprayed out of the outlet window 20 of the turbine type impeller 14 (and onto the top surface of water housed in the container 2).
The carbonator described herein may further include a series of seals and bearings. For example, the carbonator may include a seal 34 separating the variable speed electric motor 12 from the internal area of the carbonator/container 2 (which creates a sealed and water tight barrier between the motor 12 and the internal area of carbonator/container 2); a seal 30 (also configured to create a water-tight seal); a ball bearing 32 (which is configured to facilitate rotation of the turbine type impeller 14); and another bearing 50 (which is configured to facilitate rotation of the screw-shaped impeller blade 26). Still further, the carbonator may include a cooling coil 36 located inside of the carbonator/container 2, through which low-pressure water is circulated and cooled by the carbonated water included therein.
The invention provides that the carbonator described herein may be included within a drinking water dispensing system. In some embodiments, the source of water may be a water tap line (e.g., a water line of a home or building); whereas, in other embodiments, the source of water may be a self-contained bottle of water (e.g., a five gallon water bottle). In either case, the invention provides that—at the instruction of the CPU 6—water may be injected directly into the interior area of the container 2. In such embodiments, the drinking water dispensing system will be equipped with other customary components and features as well.
For example, and referring to
Referring now to
According to yet further embodiments, the invention provides an improved ability to sanitize and disinfect the internal areas of the carbonator—using, for example, a customary cleaning solution, such as 2 PPM solution of chlorine. The invention provides that—during a sanitization process—the turbine type impeller 14 may be instructed (through the CPU 6) to rotate at relatively high speeds (e.g., 6000 RPM). In addition, the customary cleaning solution may be pumped into the internal area of the container 2, so that the turbine type impeller 14 then receives, sprays, and disperses the cleaning solution throughout the internal areas of the container 2, including the areas located above the typical water level (where contaminating bacteria may otherwise colonize).
The carbonator and recirculating pump 8 described herein have several important functionalities. For example, when the turbine type impeller 14 and impeller blade 26 are rotating at relatively low speeds, the assembly produces little or zero noise, but yet mixes the water contained therein to a homogeneous temperature (which allows the water to be maintained at a temperature just above freezing of 33.5-degrees Fahrenheit or 1-degree Celsius). Such lower temperatures also allow the water to have a higher CO2 content/concentration. In addition, even when the water in the container 2 is desired to be heated or to be maintained at warm levels, the dispersion and recirculation of the carbonated water through the turbine type impeller 14 enables the water to have a higher CO2 content. When the turbine type impeller 14 and impeller blade 26 are rotating at relatively higher speeds, the dispersion and recirculation of the carbonated water through the turbine type impeller 14 enables an improved mixing of CO2 gas contained under pressure. The invention provides that the carbonator (and sparkling water dispensers) described herein are also particularly advantageous in that such devices are easier to “startup” than prior art devices. In addition, as described above, the carbonator (and sparkling water dispensers) described herein are easier to thoroughly clean and disinfect compared to prior art devices, particularly those internal areas located above the stored water level.
The many aspects and benefits of the invention are apparent from the detailed description, and thus, it is intended for the following claims to cover all such aspects and benefits of the invention, which fall within the scope and spirit of the invention. In addition, because numerous modifications and variations will be obvious and readily occur to those skilled in the art, the claims should not be construed to limit the invention to the exact construction and operation illustrated and described herein. Accordingly, all suitable modifications and equivalents should be understood to fall within the scope of the invention as claimed herein.
