MIXING DEVICE AND MIXING TAP SYSTEM

Abstract

A mixing device for mixing at least two different types of liquids of different ingredients suitable for being placed within a tap spout, preferably at a spout outlet, comprising at least two inlets configured to receive the liquids. The mixing device is adapted to deliver liquids separately at the same time such that the liquids mix at an outlet of the mixing device. The mixing device may further comprise a mixing space adapted to mix the liquids received at the inlets and deliver the mixture of the liquids, or deliver one type of liquid through the mixing space when only one type of liquid is received at the inlets, at the outlet of the mixing device. Each of the inlets is connected to a respective conduit that is fluidly separated from the other conduits. The present invention further relates to mixing tap systems using such a mixing device.

Claims

1. A mixing device for mixing at least two different types of liquids of different ingredients, the mixing device adapted to be placed within a tap spout, the mixing device comprising: at least two inlets configured to receive at least two liquids, wherein each of the at least two inlets is connected to a respective conduit that is fluidly separated from the other conduits; and an outlet, wherein the at least two inlets are adapted to deliver the at least two liquids separately at the same time such that the at least two liquids mix at the outlet.

2. The mixing device of claim 1, further comprises a first mixing space, wherein the mixing device is adapted to (i) mix the at least two liquids received from the at least two inlets and to deliver a mixture of the at least two liquids at the outlet, or (ii) deliver one of the liquids at the outlet when only that one of the liquids is received from the inlets.

3. The mixing device of claim 1, wherein the mixing device comprises three inlets configured to receive three different types of liquids; and wherein the mixing device is adapted to deliver at least two of the three different kinds of liquids separately at the same time such that the at least two different kinds of liquids mix at the outlet.

4. The mixing device of claim 1, wherein the mixing device comprises three inlets configured to receive three different types of liquids; wherein the mixing device is adapted to (i) mix two different types of liquids in the first mixing space and to deliver a mixture of the two different types of liquids at the outlet, or (ii) deliver at the outlet one type of liquid through the first mixing space when only the one type of liquid is received at the inlets, and (iii) deliver at the outlet one unmixed liquid bypassing the first mixing space.

5. The mixing device of claim 1, wherein the mixing device comprises four inlets; wherein at least three of the four inlets are suitable for receiving three different types of liquids and an additional inlet is suitable for receiving air; and wherein the mixing device is adapted to deliver at least two of the three different types of liquids separately at the same time such that the at least two different types of liquids mix at the outlet.

6. The mixing device of claim 1, wherein the mixing device comprises four inlets; wherein at least three of the four inlets are suitable for receiving three different types of liquids and an additional inlet is suitable for receiving air; wherein the mixing device further comprises a second mixing space connected to the first mixing space; wherein the mixing device is adapted to (i) mix at least two of the three different types of liquids in the first mixing space and to deliver a mixture of the least two different types of liquids at the outlet, or (ii) deliver at the outlet one type of liquid through the first mixing space when only the one type of liquid is received at the inlets, and (iii) deliver at the outlet one unmixed liquid bypassing the first mixing space; and wherein the mixing device is further adapted to mix at least one of the mixture of least two different types of liquids, the one type of liquid delivered through the first mixing space, or the unmixed liquid bypassing the first mixing space with air in the second mixing space.

7. The mixing device of claim 6, wherein the second mixing space is divided in two fluidly separated second mixing subspaces; wherein the first mixing subspace is adapted to mix the mixture of the at least two different types of liquids or the one type of liquid delivered from the first mixing space with air; and wherein the second mixing subspace is adapted to mix the unmixed liquid bypassing the first mixing space with air.

8. A mixing tap system, comprising: a tap with a tap base, a tap housing and a tap spout, wherein at least two fluidly separated inlet conduits are connected to the tap base, wherein a first inlet conduit of the at least two inlet conduits is configured to supply a drinking liquid to the tap base from a drinking liquid supplying device, and wherein a second inlet conduit of the at least two inlet conduits is configured to supply an additive liquid to the tap base from an additive liquid supplying device; a first operating member configured to operate a first valve positioned between the tap base and the drinking liquid supplying device and a second valve positioned between the tap base and the additive liquid supplying device for opening and closing the first valve or the second valve for delivering at least one of the drinking liquid or the additive liquid; wherein the tap spout comprises at least a first internal conduit and a second internal conduit running within the tap that are fluidly separated from each other for separately delivering the additive liquid and the drinking liquid; and a second mixing device within the tap spout, the second mixing device comprising a first inlet connected to the first internal conduit and configured to receive the drinking liquid and a second inlet connected to the second internal conduit and configured to receive the additive liquid; and a tap outlet, wherein the first inlet and the second inlet are adapted to deliver the drinking liquid and the additive liquid separately at the same time such that the drinking liquid and the additive liquid mix at the tap outlet; and wherein the second mixing device is arranged in the vicinity of the tap outlet.

9. The mixing tap system of claim 8, further comprising: a third inlet conduit connected to the tap base, wherein the third conduit is configured to supply to the tap base hot line water or cold line water or a mixture of hot and cold line water mixed by a first mixing device that is configured to mix the hot and cold line water for obtaining line water at a desired temperature, wherein the first mixing device is operated by a second operating member configured to deliver hot line water, cold line water, or the mixture of hot and cold line water; and wherein the tap spout comprises a third internal conduit running within the tap that is fluidly separated from the first internal conduit and the second internal conduit for delivering the hot line water or the cold line water or the mixture of hot and cold line water.

10. The mixing tap system of claim 8, further comprising: a third inlet conduit connected to the tap base, wherein the third conduit is configured to supply to the tap base hot line water; a fourth inlet conduit connected to the tap base, wherein the fourth conduit is configured to supply to the tap base cold line water; a first mixing device that is configured to mix hot and cold line water for obtaining line water at a desired temperature, wherein the first mixing device is operated by a second operating member configured to deliver the hot line water, the cold line water, or the mixture of hot and cold line water, wherein the mixture of hot and cold line water is delivered to the first mixing device via a third internal conduit running within the tap that is fluidly separated from the first internal conduit and the second internal conduit.

11. The mixing tap system of claim 9, wherein the first mixing device is positioned in or at the tap base.

12. The mixing tap system of claim 8, further comprising a control unit electrically connected to the first operating member and configured to control operation of the first operating member so as to control a concentration of a mixture of the drinking liquid and the additive liquid delivered by controlling the flow rate or volume amount of each of the drinking liquid and the additive liquid.

13. The mixing tap system of claim 8, wherein at first internal conduit and the second internal conduit run from the tap base through the tap to the second mixing device in parallel or in a concentric manner.

14. The mixing tap system of claim 8, wherein the first internal conduit and the second internal conduit within the tap spout are flexible.

15. The mixing tap system of claim 8, wherein at first internal conduit and the second internal conduit are flexible and run from the tap base through the tap to the second mixing device in a concentric manner; and wherein the first internal conduit is inside the second internal conduit, is fixed with respect to the spout, and is terminating at a tip of the spout with a nozzle.

16. The mixing tap system of claim 15, wherein the first internal conduit is capable of being pulled out with respect to the spout such that a hose end of the first internal conduit is extended out the spout tip.

17. The mixing tap system of claim 16, wherein the first internal conduit is provided with a ballast element for pulling the first internal conduit back to its normal position inside the spout after having pulled it out from the spout and having left it free.

18. The mixing tap system of claim 8, further comprising a second operating unit configured to operate a first pump positioned between the tap base and the drinking liquid supplying device and a second pump positioned between the tap base and the additive liquid supplying device for delivering at least one of the drinking liquid or the additive liquid;

19. The mixing tap system of claim 18, wherein the second pump for delivering the additive liquid is configured to return any additive liquid remaining in the second inlet conduit back to the additive liquid supplying device.

Description

[0049] Preferred embodiments of the present invention will now be described in more detail with respect to the accompanying drawings, in which:

[0050] FIG. 1a is a schematic view of a mixing tap system according to an embodiment of the present invention,

[0051] FIG. 1b is a detailed view of detail G in FIG. 1a,

[0052] FIG. 1c is a perspective, cross-sectional view taken along line B-B in FIG. 1a,

[0053] FIG. 2a is schematic view of a mixing tap system according to another embodiment of the present invention,

[0054] FIG. 2b is a detailed view of detail F in FIG. 2a,

[0055] FIG. 2c is a perspective, cross-sectional view taken along line B-B in FIG. 2a,

[0056] FIG. 3a is a cross-sectional view of a tap with a pull-out spout according to a further embodiment of the present invention,

[0057] FIG. 3b is cross-sectional view from another angle of the tap of FIG. 3a and a detailed view of an inlet connection to a pull out conduit entry,

[0058] FIG. 4a is a bottom view of a mixing device according to another embodiment of the present invention,

[0059] FIG. 4b is a cross-sectional view taken along line C-C in FIG. 4a,

[0060] FIG. 4c is a perspective view of the mixing device of FIGS. 4a and 4b in a disassembled configuration,

[0061] FIG. 4d is a top view of the mixing device of FIG. 4c,

[0062] FIG. 4e is a cross-sectional view taken along line H-H in FIG. 4d,

[0063] FIG. 4f is a cross-sectional view taken along line J-J in FIG. 4d,

[0064] FIG. 5a is a top view of an embodiment of a mixing device according to the present invention,

[0065] FIG. 5b is a cross-sectional view taken along line D-D in FIG. 5a,

[0066] FIG. 5c is a cross-sectional view taken along line E-E in FIG. 5a,

[0067] FIG. 5d is a perspective view of the mixing device of FIGS. 5a-5c in a disassembled configuration,

[0068] FIG. 5e is a top view of the mixing device of FIG. 5d,

[0069] FIG. 5f is a cross-sectional view taken along line O-O in FIG. 5e,

[0070] FIG. 5g is a cross-sectional view taken along line P-P in FIG. 5e,

[0071] FIG. 6a is a top view of a mixing device according to an embodiment of the present invention,

[0072] FIG. 6b is a cross-sectional view taken along line F-F in FIG. 6a,

[0073] FIG. 6c is a perspective view of the mixing device of FIGS. 6a and 6b in a disassembled configuration,

[0074] FIG. 6d is a top view of the mixing device of FIG. 6c,

[0075] FIG. 6e is a cross-sectional view taken along line M-M in FIG. 6d, and

[0076] FIG. 6f is a cross-sectional view taken along line N-N in FIG. 6d.

[0077] At this point, it is primarily to be noted that identical or similar parts of different embodiments of the present invention are denoted with identical or similar reference numbers throughout the following description. It is also noted that the following explanations with respect to the embodiments described are not meant to delimit the scope of the present invention in any manner. Furthermore, if applicable, features, effects and advantages that are described for a specific embodiment may be transferred to another embodiment.

[0078] FIG. 1a presents a first embodiment of a mixing tap system 1 connected to a supply system that is configured to deliver hot and cold line-water from the main 21, to deliver drinking liquids from drinking liquid supplying devices 6, 7, 8 such as chilled water, sparkling water, boiling water, and/or filtered water at ambient temperature, and to deliver additives from additive liquid supplying devices 9, 10, 11. The supplying devices 6-11 may be resupplied via the main 21 or may be resupplied via an inlet provided at the supplying devices 6-11. Although the devices 6-11 are denoted as “supplying” devices, the devices may not only be adapted to supply a liquid directly but may also be adapted to store a specific liquid in a respective vessel, e.g. water may be stored from line water and then chilled or heated to a desired temperature.

[0079] The mixing tap system 1 according to this embodiment comprises a tap with a tap base 25, a tap housing and a tap spout 19, wherein first to fourth inlet conduits 21, 22, 23, 24 are connected to the tap base 25, wherein the first conduit 24 is configured to supply at least one drinking liquid to the tap base 25 from at least one drinking liquid supplying device 6, 7, 8, the second conduit 23 is configured to supply at least one additive liquid to the tap base 25 from at least one additive liquid supplying device 9, 10, 11, the third conduit 21 is configured to supply non-filtered cold line water to the tap base 25, the fourth conduit 22 is configured to supply non-filtered hot line water to the tap base 25.

[0080] The mixing tap system 1 here further comprises a first electronic operating member 13 as a user interface configured to select and operate at least one electronic valve 30, 30′, 30″ and/or at least one pump 31, 31′, 31″ positioned be-tween the tap base 25 and the supplying devices 6, 7, 8, 9, 10, 11 for opening and closing any individual selected valve 30, 30′, 30″ and/or operating any individual selected pump 31, 31′, 31″ for delivering at least one of the drinking liquids and/or at least one of the additive liquids.

[0081] A first mixing device that is arranged at the tap base 25 is configured to mix hot and cold line water for obtaining line water at a desired temperature, wherein the mixing arrangement is operated by a second, in this case mechanical, operating member 14 configured to deliver hot line water, cold line water, or the obtained mixture of hot and cold line water.

[0082] The tap spout 19 of this embodiment comprises separated first, second, and third internal conduits 2, 3, 4 for delivering the isolated additive liquids, the drinking liquids, and line water at the desired temperature.

[0083] The tap of the system 1 is mounted on a kitchen countertop 12. The first operating member 13 is mounted on the left side of the tap base 25. The first operating member 13 according to the shown embodiment may be rotated around a rotation axis and pressed in the axial direction of the rotation axis for controlling the outflow of the liquids supplied to the tap. One or more types of the stored liquids may be selected by rotating the first operating member 13, wherein at least one rotational position of the first operating member 13 is corresponding to a specific liquid, and then pushing the operating member in an axial direction will open at least one valve 30, 30′, 30″ positioned between the drinking liquid supplying devices 6, 7, 8 and the tap inlet or will activate at least one pump 31, 31′, 31″ positioned between the additive liquid supplying devices 9, 10, 11 and the tap inlet to deliver the liquids selected.

[0084] An exemplary selection of drinking liquids stored in the drinking liquid supplying devices 6, 7, 8 might be one of the following (but not limited to): filtered water, filtered water thermally treated, filtered water at ambient temperature, chilled or boiling water, filtered water mixed with a gas (e.g. carbonated water).

[0085] As already stated above, a selection of additive liquids stored in additive liquid supplying devices 9, 10, 11 might be one of the following: flavored liquids, such as fruit or vegetables taste, like lemon taste, orange taste, mint taste, cucumber etc., coffee flavor, tea flavor, alcoholic liquids or liquids mixed with healthy ingredients, such as minerals and vitamin liquids, or other mixtures. Additive liquids may be highly concentrated.

[0086] The first operating member 13 is here further configured to perform a selection such that two types of liquids are delivered simultaneously from the connected supplying devices 6-11. For example one of the drinking liquids and one of the additive liquids may be supplied to the tap to mix the two liquids such that a beverage can be delivered to a user of the mixing tap system 1.

[0087] The first operating member 13 is electrically connected to a control unit 60. The control unit 60 is configured to control the delivery of the drinking liquids, the additive liquids, and the mixed liquids by opening any of the selected valves 30, 30′, 30″ and operating/activating any of the selected pumps 31, 31′, 31″ to supply the liquids to the tap.

[0088] In the embodiment shown in FIG. 1a, a LED is illuminated in a window 15 when the first operating member 13 is turned/pressed, wherein the light color changes when the first operating member 13 is turned to indicate the current selection of liquid delivery. Each individual LED color is therefore associated with a specific valve or pump (drinking liquid(s) or additive liquid(s)), for instance, light red for filtered hot or boiling water, light blue for filtered chilled water, light green for sparkling water light purple for additive one, etc. By pressing the first operating member 13 once against a return force of the first operating member 13, the chosen liquid(s) is/are delivered. Upon subsequent further turning of the rotary handle (the first operating member 13) the flow rate or delivery time (to control the concentration) of the selected liquid can be adjusted to receive a desired concentration of the liquid mixture. Doing so, the light intensity changes accordingly. Pressing and turning the first operating member 13 again allows a selection of a second type of liquid which may be indicated by a second color. Upon subsequent pressing the first operating member 13 two times the selected valve(s) and pump(s) are opened or operated to deliver the selected liquid(s).

[0089] The second operating member 14 is mounted on the right side of the tap base 25 and is configured to be rotated to adjust the temperature of the line water delivered from the first mixing device to the second mixing device 20. When second operating member 14 is pulled/tilted outwards, a flow of line water is allowed to pass the first mixing device and is supplied to the second mixing device 20. By rotating the second operating member 14, the temperature of the mixture of cold and hot line water is adjusted.

[0090] In another embodiment option (not shown) first and second operating members 13, 14 may also be placed externally of the tap, for example attached to a countertop or worktop, disconnected from the tap, and remotely communicate with the system operating the electronic elements either wired or in wireless communication. In an alternative embodiment (not shown) first and second operating members 13, 14 may be realized by touch panel control.

[0091] The hot line water conduit 22 is branched off from the water main line 21, as it is shown on the right side in FIG. 1a. To generate hot line water, a boiler 5 is arranged at the hot line water conduit 22. The boiler may be configured to heat water that is passing through the boiler and/or it may be adapted to store water at a predetermined water temperature.

[0092] Also, a drinking liquid supply line is branched off from the water main line 21, as it is shown on the right side in FIG. 1a, as well. The drinking liquid supply line passes a filtering device 32 that is adapted to remove debris, foreign substances and the like and/or is adapted to change the water hardness of the line water. The water treated by the filtering device 32 is then supplied to the drinking liquid supply devices 6, 7, 8.

[0093] According to the embodiment shown in FIGS. 1a to 1c, the mixing tap system 1 comprises first to third internal isolated conduits 2, 3, 4 for separately delivering liquids supplied to/from the tap base 25. With reference to FIGS. 1b and 1c, the first internal conduit 2 is located in the center of the tap spout 19 and. A second internal conduit 3 is arranged in a manner surrounding the first internal conduit 2, wherein the second internal conduit 3 is surrounded by a wall of the tap spout 19. This wall may be of a metal material. The first internal conduit 4, a second internal conduit 3 may be built by a plastic hose or metal pipe. In other words, the arrangement of the first to third internal conduits 2, 3, 4 is a concentric arrangement.

[0094] Here, the first internal conduit 2 fluidly connects the second conduit 23 (the additive liquid supplying conduit 23 that is supplying additive liquid(s) from the additive liquid supplying devices 9, 10, 11) with the second mixing device 20 (cf. Detail G of FIG. 1b) such that additive liquid(s) are provided over the first internal conduit 2 to the second mixing device 20. The second internal conduit 3 fluidly connects the first conduit 24 (the drinking liquid supplying conduit 24 that is supplying drinking liquid(s) from the drinking liquid supplying devices 6, 7, 8) with the second mixing device 20 (cf. Detail G of FIG. 1b) such that drinking liquid(s) are provided over the second internal conduit 3 to the second mixing device 20. The third internal conduit 4 fluidly connects the first mixing device with the second mixing device 20 (cf. Detail G of FIG. 1b) such that a desired mixture of hot and cold line water is provided over the third internal conduit 4 to the second mixing device 20.

[0095] At the end of the first and second internal conduits 2, 3, a first mixing space 122 is arranged in which the drinking liquid(s) and the additive liquid(s) are mixed and are delivered via a spout outlet 118 of the second mixing device 20, for example, to a cup of a user.

[0096] As can further be seen in FIG. 1b, the mixed line water supplied via the internal conduit 4 is bypassing the first mixing space 122 and is delivered through the spout outlet 118 unmixed. A second mixing space 114 is arranged in the second mixing device 20 to mix air into the liquid(s) provided through the first to third internal conduits 2, 3, 4. In the shown example, the second mixing space 114 is adapted to only mix air into the mixed line water supplied over the third internal conduit 4 bypassing the first mixing space 122. Of course, the second mixing space 114 may also be adapted to mix air into other liquids, e.g. the drinking liquids. For this purpose, it may be beneficial to divide the second mixing space 114 into two subspaces such that mixed or single dinking/additive liquid(s) and line water do not mix in the second mixing space 114 unintentionally.

[0097] Mesh layers 124 may be provided at the spout outlet 118 to even a flow of liquid(s) out of the second mixing device 20. The mesh layers 124 are surrounded by an air inlet 116 that is configured as an annular space such that air is mixed into the liquid in the mixing device 20.

[0098] In the following further embodiments of the present invention are explained with reference to the drawing, wherein all features, effects and advantages that are described for a specific embodiment may be transferred to another embodiment, if applicable. Thus, only differences of the other embodiments to the first embodiment are now described.

[0099] FIGS. 2a to 2c illustrate another embodiment of a mixing tap system 1′ comprising a second mixing device 20′. The tap of FIGS. 2a to 2c is configured to deliver drinking liquids, additive liquids, or a mixture of the two types of liquids for delivering beverages. Unlike the tap presented in FIGS. 1a to 1c, the mixing tap system 1′ lacks the option to deliver main water. This embodiment of the mixing tap system 1′ may be used when a user wishes to use two separated taps, one for delivering line water (not shown) and the other for delivering the drinking liquids, the additive liquids, and the mixture of the two types for providing beverages.

[0100] As a consequence, only two internal conduits 2 and 4 are running through the tap spout 19.

[0101] Nonetheless, the water main line 21 is connected to the drinking liquid supplying devices 6, 7, 8 to refill them and to provide the water pressure, as mentioned above.

[0102] FIGS. 3a and 3b illustrate another embodiment of a mixing tap system comprising the second mixing device 20, wherein the mixing tap system 1″ is a so-called “pull-out” tap that allows a user to pull out the tap spout end (including the second mixing device 20) from the tap spout 19 (see also FIGS. 4a to 4f). Therefore, the third internal conduit 4 is not defined by the wall of the tap spout 19 but is defined by a flexible hose 80 inserted into the tap spout 19. All internal conduits 2, 3, 4 can be pulled out of the spout. An inlet connection to a pull out pipe entry 210 (also referred to as a “manifold” below) is positioned at the entry of the pipes. The manifold 210 comprises three inlets 223, 224, 225 arranged in parallel for receiving mixed line water at inlet 225 (connected to the third internal conduit 4), drinking liquids at inlet 224 (connected to the second internal conduit 3), and additive liquids at inlet 223 (connected to the first internal conduit 2). The line water is delivered to the tap via tap entry 221 and 222 and, after mixing in the first mixing device, the mixed water is delivered to the inlet 225 positioned in the manifold 210.

[0103] The embodiment of FIGS. 3a and 3b is shown in greater detail in FIGS. 4a to 4f, wherein FIGS. 4a to 4f mainly concentrate on the second mixing device 20 of a pull-out-tap, as described above.

[0104] FIGS. 5a to 5c show details of another embodiment of a second mixing device 20″. Here, the first and second internal conduits 2 and 3 are running in parallel through the tap spout 19, wherein the third internal conduit 4 is defined by a flexible hose 4, since the shown embodiment is also a pull-out-tap. Hence, the first mixing space 122 of the second mixing device 20″ has two parallel inlets for the first and second internal conduits 2, 3.

[0105] FIGS. 5d to 5g show further perspectives and cut-outs of the second mixing device 20″ having two parallel inlets.

[0106] Finally, in FIGS. 6a to 6f, another embodiment of a second mixing device 20′″ is shown, wherein the associated mixing tap system is also a pull-out-tap. In general, the embodiment of FIGS. 6a to 6f is very similar to the embodiment of FIGS. 4a to 4f The main difference can be seen in the ending of the first internal conduit 2 which is not opening into a first mixing space 122 but is extended all the way to the spout outlet 118. Consequently, the additive liquid(s) and the drinking liquid(s) do not mix within the second mixing device 20′″ but mix in a first mixing space 122 that is arranged outside the second mixing device 20′″. In other words, the liquids mix after they have left the second mixing device 20′″ via the spout outlet 118.

[0107] This makes it possible to deliver a very small amount of the additive liquid(s), e.g. just a few drops, via the spout outlet 118, since this little amount of additive liquid(s) may otherwise be withheld in the first mixing space 122 due to adhesive forces. The first internal conduit 2 here even penetrates the meh layers 124 to avoid such an adhesion. This is especially advantageous for highly concentrated additive liquid(s).