The invention relates generally to mixing bottles, in particular mixing bottles for mixing two liquids.
Bottles for providing liquids, for example liquids to be atomized by an electronic smoking device, typically have a storage compartment for storing the liquid. In case two liquids shall be mixed, each of the liquids is provided in a separate bottle and the liquids need to be mixed outside of the bottles. For example, a base liquid and an additional liquid for the electronic smoking device are provided separately and are mixed for consecutively filling the liquids into the smoking device.
In accordance with one aspect of the present invention, a mixing bottle for mixing two liquids is provided. The mixing bottle comprises a first and a second storage compartment for storing liquids. The first and the second storage compartments are separated from each other. Furthermore, the mixing bottle comprises a mixing compartment. The mixing compartment is connected or connectable to the first storage compartment by a first dosing device of the mixing bottle, for example in a liquid-transmitting manner. The second storage compartment is connected or connectable to the mixing compartment by a second dosing device of the mixing bottle, for example in a liquid-transmitting manner. Moreover, the mixing bottle comprises an outlet opening that is connected to the mixing compartment, e.g. in a liquid-transmitting manner.
The characteristics, features and advantages of this invention and the manner in which they are obtained as described above will become more apparent and be more clearly understood in connection with the following description of exemplary embodiments which are explained with reference to the accompanying drawings.
In the drawings, same reference signs indicate same elements in each of the views:
The first storage compartment 2 comprises a first storage volume 7 and the second storage compartment 3 comprises a second storage volume 8, wherein liquids can be arranged in the first and second storage volumes 7, 8. The first storage volume 7 is arranged between the separation wall 4 and a first outer sidewall section 9 of the mixing bottle 1. The second storage volume 8 is arranged between the separation wall 4 and a second outer sidewall 10 of the mixing bottle 1.
In order to be able to mix liquids stored in the first and second storage compartments 2, 3, the mixing bottle 1 comprises a mixing compartment 11 with a mixing volume 12. In the height direction H, the mixing compartment 11 follows at least one or even both of the first and second storage compartments 2, 3. The first storage volume 7 is connected to the mixing compartment 11 by a first dosing device 13. The second storage volume 8 is connected to the mixing compartment 11 by a second dosing device 14. The dosing devices 13, 14 can interconnect the first storage compartment 2 and the second storage compartment 3 with the mixing compartment 11 in a liquid-conductive manner.
The mixing compartment 11 is furthermore connected to an outlet opening 15 of the mixing bottle 1 in order to be able to empty out mixed liquids from the mixing compartment 11.
The first dosing device 13 comprises a first outlet 16 and the second dosing device 14 comprises a second outlet 17. Via the first and second outlets 16, 17, liquids stored in the first and second storage compartments 7, 8 can flow into the mixing compartment 11, where the liquids mix. Hence, the first and the second outlets 16, 17, can each interconnect one of the first and the second storage compartments 2, 3 with the mixing compartment 11 in a fluid-conducting manner.
The first and second outlets 16, 17 of the exemplary embodiment of
The first storage compartment 2 comprises a first outlet sidewall 18 and the second storage compartment 3 comprises a second outlet sidewall 19, wherein the first and second outlets 16, 17 are arranged in the respective first and second outlet sidewall 18, 19. The first and second outlet sidewalls 18, 19 extend essentially parallel to the height direction H. Alternatively, the first and second outer sidewalls 18, 19 may be arranged at a predetermined angle to the height direction H and for example perpendicular to the height direction H.
According to the exemplary embodiment of
The mixing compartment 11 completely spans over the first and the second storage compartments 2, 3 perpendicular to the separation wall 4 and/or to the height direction H. The first outlet 16 faces the second outlet 17. Alternatively, the first and the second outlets 15, 16 face in the height direction H.
The mixing bottle 1 is shown with first and second liquids 23, 24, each of which being arranged in one of the storage compartments 2, 3.
According to the exemplary embodiment of
In case there is not enough liquid 23, 24 in the respective storage compartment 2, 3 in order to displace the liquid 23, 24 such that it reaches the respective outlet 16, 17, the mixing bottle 1 may be held upside down, i.e. bottom-up, such that the bottleneck 6 and/or the outlet opening 15 faces downwards. In order to be able to mix the liquids 23, 24 in the mixing compartment 11, the outlet opening 15 would need to be closed when holding the mixing bottle 1 upside down.
The flexible first and second outer sidewall sections 9, 10 each form a first and second pump mechanism 25, 26 for pumping the liquids 23, 24 from one of the storage compartments 2, 3 into the mixing compartment 11. The pump mechanisms 25, 26 are shown as displacement pumps with manually actuatable displacement elements. According to the exemplary embodiment of
The mixing bottle 101 of the exemplary embodiment of
In particular, according to the exemplary embodiment of
The mixing bottle 201 of the exemplary embodiment of
In order to be able to close one of the outlets 116, 117, the first and second dosing devices 213, 214 each comprise a first or a second closing element 29, 30. The first and second closing elements 29, 30 of the exemplary embodiment of
The first and second guiding elements 31, 32 guide the first and second closing elements 29, 30 between their closed and opened positions C, O. Furthermore, the first and second guiding elements 31, 32 are permeable for liquid and may be formed by guiding bars or guiding cages that do not unduly hinder liquid flowing into the mixing compartment 11. The first and second guiding elements 31, 32 extend from the from the first and second outlet sidewalls 18, 19 into the mixing compartment 11. For example, the first and second guiding elements 31, 32 extend at least partly towards each other and along the height direction H, i.e. towards the bottleneck 6, for example towards the outlet opening 115.
In the position of the mixing bottle 201 shown in
Hence, the first and second closing elements 29, 30 have a higher density than the liquids 23, 24 in the mixing bottle 201 and for example a higher density than water. The first and second closing elements 29, 30 are for example formed as solid steel balls.
The second closing element 30 is shown in its opened position O, which is arranged at a distance to the second outlet 17. Hence, liquid 24 can flow out of the second storage compartment 3 via the opened, i.e. not blocked, second outlet opening 17 into the mixing compartment 11. No liquid 23 flows from the first storage compartment 2 via the first outlet 16, as the first outlet 16 is blocked by the first closing element 29.
The outlet opening 115 may be arranged at a sidewall section 33 of the bottleneck 6 that essentially extends parallel to the height direction H. In particular, the first and second outlets 16, 17 may be arranged in a common plane that extends parallel to the height direction H, wherein the outlet opening 115 is arranged at a distance to this common plane. For example, the sidewall section 33 that comprises the outlet opening 115 may extend essentially parallel to the common plane.
The mixing bottle 201 may be formed with the flexible sidewalls 9, 10 of the mixing bottle 1, and/or with the first and second based 27, 28 of the mixing bottle 101, in order to improve or facilitate flow of liquid into the mixing compartment 11.
The mixing bottle 301 of the exemplary embodiment of
In the position of the mixing bottle 301, the first closing element 329 is pressed into the first outlet 116 by buoyancy forces caused by the first liquid 23. Hence, the first closing element 329 is shown in its closed position C. The second closing element 330 is lifted off of the second outlet 17, such that liquid 24 can flow out of the second storage compartment 3 and into the mixing compartment 11 via the second outlet 117. Hence, the second closing element 330 is shown in its opened position O.
The mixing bottle 301 may be formed with the flexible sidewalls 9, 10 of the mixing bottle 1, and/or with the first and second based 27, 28 of the mixing bottle 101, in order to improve or facilitate flow of liquid into the mixing compartment 11. In case the displacement element of the dosing device, whose closing element is deliberately placed in its closed position C is actuated, the increasing pressure presses the closing element stronger in the respective outlet and improved sealing effect of this closing element. When actuating the displacement element of the dosing device, whose closing element is deliberately placed in its opened position O, flow of liquid is increased.
In summary, in one aspect, the mixing bottle for mixing two liquids comprises a first and a second storage compartment for storing liquids, the first and the second storage compartments being separated from each other. Furthermore, the mixing bottle comprises a mixing compartment. The mixing compartment is connected to the first storage compartment by a first dosing device, for example in a liquid-transmitting manner. The second storage compartment is connected to the mixing compartment by a second dosing device, for example in a liquid-transmitting manner. Furthermore, the mixing bottle comprises an outlet opening that is connected to the mixing compartment in a liquid-transmitting manner.
An advantage of this mixing bottle may be that two liquids can be mixed within the mixing bottle, such that the liquids do not need to be filled into a separate mixing vessel, thereby reducing the risk of spilling the liquids. Hence, the liquids do not need to be mixed in a liquid reservoir of an electronic smoking device, in case the liquids of the mixing bottle shall be used and for example vaporized or atomized in the electronic smoking device. Mixing the liquids in the electronic smoking device, namely, makes it difficult to measure the liquids to be mixed.
According to an embodiment, the first dosing device comprises a first outlet and the second dosing device comprises a second outlet, the first and second outlets interconnecting the first and second storage compartments with the mixing compartments. An advantage of this embodiment may be that separately connecting the first and second storage compartments via the first and second outlets with the mixing compartment reduces the risk that liquid from one of the storage compartments enters the other one of the storage compartments.
According to an embodiment, the first and the second outlets are usually or normally closed. An advantage of this embodiment may be that usually or normally closed first and second outlets may provide that liquids do not inadvertently flow from one of the storage compartments into the mixing compartments.
According to an embodiment, at least one of the first outlet and the second outlet is adapted to be openable by overpressure, in the respective storage compartment, i.e. a pressure in the respective storage compartment that is higher than the pressure in the mixing compartment. In particular, at least one of the first outlet and the second outlet is adapted to open in case the pressure difference between the respective storage compartment and the mixing compartment is higher than a predetermined pressure difference. Further, at least one of the first outlet and the second outlet is adapted to close again, in case the pressure difference falls below the predetermined pressure difference. For example, both of the first and second outlets can be adapted to be openable by the overpressure. Thus, an advantage of this embodiment may be that the liquids can be easily pressed through the outlets into the mixing compartment. For example, at least one or even both of the first outlet and the second outlet is provided as a nozzle or orifice, which is flexible and which opens due to the overpressure and closes in case the overpressure falls below a predetermined value.
According to an embodiment, at least one of the first dosing device and the second dosing device may comprise a closing element for closing the outlet by gravitational forces. Again, for example, both of the first and second dosing devices may each comprise such a closing element. The closing element may be a sphere or a ball with a higher density than one of the liquids to be mixed, in particular higher than the density of water. The closing elements may be provided as solid spheres or balls, for example formed by metal, e.g. stainless steel.
Alternatively, the at least one closing element for closing the outlet may be adapted to close the outlet by buoyancy forces caused by the liquid in the respective storage compartment. Again, both of the closing elements may be adapted to close the respective outlet by buoyancy forces. The first and second closing elements, hence, may have a density that it less than the density of the liquids to be mixed and, for example, less than the density of water. An advantage of such embodiments may be that the respective outlet can be opened without increasing the pressure within the mixing bottle.
According to an embodiment, the mixing bottle may comprise at least one pump mechanism for pumping liquid from one of the first storage compartment and the second storage compartment into the mixing compartment. In particular, the mixing bottle may comprise two separate pump mechanisms, wherein one of the pump mechanisms is provided for pumping liquid from one of the storage compartments into the mixing compartment, and the other pump mechanism is provided for pumping liquid from the other of the storage compartments into the mixing compartments. An advantage of such an embodiment may be that due to the pump mechanism, pressure in the respective storage compartment can be increased such that liquid flows faster into the mixing compartment, in order to open the outlet and/or in order to press the buoyancy closing element against the outlet. Furthermore, even in case the weight of the respective liquid is insufficient in order to build sufficient pressure for opening the respective outlet, for example if not enough liquid is present in the respective storage compartment, such liquid can still be filled into the mixing compartment.
According to an embodiment, the pump mechanism may be a displacement pump with a manually actuatable displacement element, the displacement element being formed by a flexible sidewall section of one of the storage liquid compartments. In particular, both of the storage liquid compartments may comprise flexible sidewalls. An advantage of such an embodiment may be that such a pump mechanism can be easily formed when forming the mixing bottle with the displacement elements being the flexible sidewalls.
Alternatively or additionally, the displacement pump may comprise manually actuatable displacement elements that are formed by bases of the storage compartments.
According to an embodiment, the mixing bottle may comprise two pump mechanisms, one for pumping liquid from the first storage compartment into the mixing compartment, and one for pumping liquid from the second storage compartment into the mixing compartment. Hence, in case two pump mechanisms are provided, the bases of the first storage compartment and the second storage compartment may be separate bases of the mixing bottle. An advantage of such an embodiment may be that the liquids can be pumped into the mixing compartment separated from each other, thereby avoiding unintended mixing of the liquids.
According to an embodiment, the mixing bottle may comprise a separation wall that separates storage volumes of the first and second storage compartments from each other. The mixing compartment may be arranged at least section wise between the first and the second storage compartments. An advantage of this embodiment may be that the volume of the mixing compartment may be increased.
According to an embodiment, the mixing compartment may completely span over the first and the second storage compartments perpendicular to the separation wall. An advantage of this embodiment may be that the volume of the mixing compartment is even further increased.
According to an embodiment, the first outlet and the second outlet may face each other. An advantage of this embodiment may be that liquid that flows into the mixing compartment causes flow of liquid in the mixing compartment, such that the liquids better mix within the mixing compartment.
While this invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the scope of the appended claims.
Number | Date | Country | Kind |
---|---|---|---|
15190224 | Oct 2015 | EP | regional |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/EP2016/074874 | 10/17/2016 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2017/064322 | 4/20/2017 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
2753990 | Chalfin | Jul 1956 | A |
3179300 | Davidson | Apr 1965 | A |
3197071 | Kuster | Jul 1965 | A |
3581940 | Cella | Jun 1971 | A |
3866800 | Schmitt | Feb 1975 | A |
5370266 | Woodruff | Dec 1994 | A |
5897539 | Elliesen | Apr 1999 | A |
5975364 | Kaufman | Nov 1999 | A |
6286725 | Gerber | Sep 2001 | B1 |
20050103801 | Felten | May 2005 | A1 |
20070119861 | Bhagwat | May 2007 | A1 |
20130175297 | Sugimoto | Jul 2013 | A1 |
20140261488 | Tucker | Sep 2014 | A1 |
Number | Date | Country |
---|---|---|
2 297 729 | Feb 1999 | CA |
2281319 | May 1998 | CN |
1475415 | Feb 2004 | CN |
202156655 | Mar 2012 | CN |
3202275 | Aug 1983 | DE |
19826245 | Jan 2000 | DE |
1382536 | Jan 2004 | EP |
1661820 | May 2006 | EP |
2010133209 | Nov 2010 | WO |
2014077842 | May 2014 | WO |
Number | Date | Country | |
---|---|---|---|
20180290812 A1 | Oct 2018 | US |