The invention concerns a method for filling a container with a liquid that is in particular designed for consumption.
For filling a container, in particular a bottle, with a liquid that is designed for consumption, in particular a beverage, this liquid is fed into the container, for example, by means of a supply tube. The problem in this connection is that the liquid is exposed to ambient air with the result of undesirable gas release, gas exchange, or gas introduction.
Based on this, it is the object of the invention to develop a method for filling a container with a liquid that is in particular designed for consumption without the liquid coming into contact with the gas contained in the bottle.
The technical solution is characterized in that into the empty container first at least one balloon-type body is inserted that is liquid-tight relative to the liquid as well as gas-tight, the at least one balloon-type body is filled and inflated with an expansion medium so that the balloon-type body fills out the interior of the container, and the expansion medium escapes again from the balloon-type body so that, into the intermediate space between the balloon-type body and the container generated thereby, the liquid to be filled in is supplied.
In this way, an effective method is provided for filling, without gas contact, a container with a liquid that is designed in particular for consumption. The method is characterized in that the liquid during the filling process does not come into contact with a gas, for example, air or another gas. The advantage of this method resides thus in that the liquid, while the container is being filled, is not subjected to any gas release, gas exchange, or gas introduction. Performing the method provides that into the container first at least one balloon-type body is inserted. In the initial state, the latter can be of any shape. Since this balloon-type body after insertion into the container is filled by means of a medium, the interior of the container is completely filled in this way. For filling the balloon-type body with the expansion medium there are two possibilities. On the one hand, the expansion medium can be fed with overpressure into the balloon-type body so that it is inflated in this way. On the other hand, the intermediate space between the balloon-type body and the inner wall of the container can be subjected to underpressure so that, as a result of the pressure difference that is generated in this way, the balloon-type body will suck in the expansion medium and is thereby inflated. After filling of the balloon-type body with the expansion medium, the expansion medium escapes again from this balloon-type body. For improving the effect, the expansion medium can be sucked away additionally. In the container a space is formed between the balloon-type body and the inner wall of the container into which the liquid is supplied so that the container is filled with this liquid. This is enhanced when the escape of the expansion medium causes an underpressure which sucks in the liquid to be filled in. A further enhancement is provided when the liquid with respect to the expansion medium has an overpressure and is thus supplied to the container with overpressure. Finally, by throttling the escape of the expansion medium, a counter pressure can be maintained that suppresses the release of, for example, CO2, during inflow of the liquid into the container. Since the balloon-type body is liquid-tight as well as gas-tight, the expansion medium which is contained in this balloon-type body cannot come into contact with the liquid. After complete filling of the container, the balloon-type body is then removed again from the container and is ready for the next filling process.
The invention proposes that the balloon-type body is expandable. This means that this balloon-type body upon filling in the medium will expand like an air-filled balloon and, in reverse, will return into its initial shape upon escape or upon pumping away the medium. When the expandable balloon-type body is filled with air, for example, and, subsequently, for filling the container with the liquid, the air supply of the now full balloon-type body is opened again, the air will escape automatically from the balloon-type body in the same way as air escapes from an air-filled balloon. This is so because the balloon-type body contracts as a result of its flexibility and forces out the air contained therein. This effect is enhanced when the liquid has an overpressure relative to the expansion medium (this is so because only the pressure difference of liquid pressure to the expansion medium pressure plus “restoring force” of the balloon-type body is important). The balloon-type body has the advantage that upon introduction into the container it has only a very minimal volume so that the insertion process can be performed without problems.
Alternatively, it is also conceivable that the balloon-type body is not expandable.
A preferred embodiment proposes that the balloon-type body can be inflated in a targeted fashion and, most importantly, can be emptied again and this in such a way that all liquid to be filled into the container can be supplied without problem to the container. Technically, this can be realized in that the balloon-type body is appropriately profiled, i.e., when the expansion medium is emptied from it, the profile first is emptied in the area of the container opening and then, successively, moves to the container bottom. Alternatively, it is also possible that several balloon-type bodies are provided, for example, a first balloon-type body in the bottom area of the container, a second balloon-type body in the center area of the container, as well as finally a third balloon-type body in the area of the container opening. They are inflated as well as, most importantly, emptied sequentially during the filling process with the liquid.
In a further preferred embodiment, it is proposed that the at least one balloon-type body has correlated therewith an elongate support with which the balloon-type body is inserted into the container. This elongate support is to be understood in a general sense. Basically, this support is an elongate narrow structure which can be inserted without problem together with the balloon-type body through the opening of the container into this container. In reverse, the constructive unit of elongate support and balloon-type body can be removed from the container without problem once filling with the liquid is terminated.
A variant embodiment thereof proposes that the support is arranged in a cap. This means that, after introduction of the support into the container, this cap is resting on the container opening and therefore provides a liquid-tight closure with the container opening for the filling process.
Preferably, the above-described cap has an opening through which the liquid can be supplied.
A first variant of the support in the form of a tube is proposed. The basic principle resides in that the balloon-type body or bodies is/are arranged on a tube wherein the balloon-type body envelopes this tube. When then through the tube the balloon-type body is supplied with an the expansion medium, the balloon-type body is inflated about the tube. For this purpose, the tube, in accordance with the number of balloon-type bodies, is provided with appropriate openings for outflow of the expansion medium. The use of a tube has the advantage that it can be introduced together with the balloon-type body in a very simple way into the container.
A second variant of the support in the form of one or several rods on which the balloon-type body is resting is proposed. Basically, it is also possible in this context that the two variants tube/rod are combined. The rod is to be understood in the most general sense. It is an elongate structure. In contrast to the afore described tube, however, this rod is not in the interior of the balloon-type body but the rod and the balloon-type body are positioned adjacent to each other. The advantage of this rod is, on the one hand, that the balloon-type body can be introduced into the container in a simple way because the rod and the balloon-type body together form essentially a constructive unit. On the other hand, the rod has the advantage that, upon gradual inflation of the balloon-type body, it is positioned between the exterior envelope of this balloon-type body and the inner wall of the container. In this way, a small gap between the outer envelope of the balloon-type body and the inner wall of the container is automatically provided through which air can escape toward the container opening. The advantage is thus that even after complete inflation of the balloon-type body no air pockets can form within the container. The air of these air pockets can escape through the afore described gap without a problem from the container opening.
The invention proposes various configurations of the rod. On the one hand, it can be flexible so that it automatically will adjust to the respective contours. However, the rod can also be relatively rigid. In this case, it is shaped such that it is matched to the inner contour of the container.
Moreover, the leading end of the at least one rod is connected to the leading end of the balloon-type body. For this purpose, a plastic string or the like can be provided. The advantage is that in the initial position the balloon-type body, by fixation at the leading end of the rod, has assumed an extended initial position and, therefore, can be inserted without problem through the container opening into the container. A further advantage resides in that a possibly remaining air pocket in the bottom area of the container is forced to escape toward the support.
The invention proposes that the outer surface of the balloon-type body has raised portions, in particular knob-shaped raised portions. Between these raised portions, a gap for escape of air can be formed. In this way, it is possible, as already disclosed in connection with the rod, that automatically a gap between the exterior envelope of the balloon-type body and the inner wall of the container can be generated through which air can escape toward the container opening. The advantage resides thus again in that, even after complete inflation of the balloon-type body, no air bubbles can form in the container. The air of these air pockets can escape without problem via the afore described gap through the container opening. The knob-shaped raised portions can be, for example, designed in a diamond shape.
As a medium for filling the balloon-type body or bodies, a gas, in particular air, or a liquid, in particular water, can be used.
Embodiments of a filling device according to the invention for filling a container with a liquid designed for consumption will be described in the following with the aid of the drawings.
Onto the tube 3, a flexible body 6 is pushed and is attached with its upper circumferential rim seal-tightly on the cap 4. This body 6 can be inflated to a balloon of sorts.
The function is as follows.
The filling device is inserted with the tube 3 leading into the container 1 through the container opening 2.
There are two possibilities for filling the balloon-type body 6 with the expansion medium 8.
On the one hand, the expansion medium 8 can be supplied with overpressure to the balloon-type body 6 so that the latter is inflated in this way.
On the other hand, underpressure can be applied to the intermediate space between the balloon-type body 6 and the inner wall of the container 1 so that, as a result of the produced pressure difference, the balloon-type body 6 will suck in the expansion medium 8 and be inflated in this way.
As illustrated in
After complete filling of the container 1, the filling device is pulled out of the container 1 again (
In this embodiment, first the lowermost balloon-shaped body 6 is inflated (
Moreover, in
The basic principle of filling corresponds to the basic principle as already disclosed above. This means that the rod 9 with its balloon-type body 6 is inserted into the container opening 2 of the container 1 (
Subsequently, the air is then released again from the balloon-type body 6. Since the balloon-type body 6 is similar to an air-filled balloon of sorts, upon release of the air the latter will contract automatically and therefore will force out the air contained in the balloon-type body 6 (
The advantage in using the afore described rod 9 is that the latter, upon filling the balloon-type body 6 with air, is positioned between the outer wall surface of this balloon-type body 6 and the inner wall surface of the container 1 in such a way that along the rod 9 a gap is formed. In this way, a possibility is provided that all air can escape from the container inasmuch as any air pockets should form in case the balloon-type body 6 inflates in an unfavorable way. This is illustrated in the section illustration of
Number | Date | Country | Kind |
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10 2011 100 560.2 | May 2011 | DE | national |
This application is a continuation application of United States application for patent Ser. No. 14/113,427, having a filing date of 23 Oct. 2013, said United States application for patent being a national stage filing of international application No. PCT/DE2012/000309 having an international filing date of 22 Mar. 2012 and designating the United States, said international application claiming a priority date of 05 May 2011, based on prior filed German patent application No. 10 2011 100 560.2, the entire contents of the aforesaid United States application for patent, the aforesaid international application, and the aforesaid German patent application being incorporated herein by reference.
Number | Date | Country | |
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Parent | 14113427 | Oct 2013 | US |
Child | 15448617 | US |