EP1346760A1 - Apparatus for mixing a liquid and a gas - Google Patents

Abstract

The fluid e.g. water is located in a container (2) which can be removed from the device and closed with a lid (5) which has an integrated valve through which the gas is supplied to the fluid. A gas container is connected to an operating element on which the lid can be pressed to release the supply of gas from the container to the fluid container.

Description

The invention relates to a device for adding gas to a liquid, the liquid being in a container which can be removed from the device located, which is closed with a lid in which a valve is integrated, and which has a gas container.

Devices of this type are known as "water aerators" under different brand names known. They usually add carbon dioxide to water, to get a bubbling water.

The containers filled with water are usually plastic bottles educated. But they can also be made of glass. With the previously known Devices is often a downward gas introduction tube provided, over which a bottle filled with water is passed. The Bottle is then with a thread on its bottle neck or Bayonet lock on the device locked and then over that into the water protruding gas introduction tube carbon dioxide introduced into the water or blown.

The bottle is then unlocked again and removed from the device, it becomes depressurized. It is then stored with a Cover provided.

It is now relatively complex to put the bottle filled with water over the gas inlet pipe to guide them, lock them there and then release them again. Moreover has the introduction of the gas of above always the disadvantage that due to the usual rise of the gas in a liquid no intensive mixing of the gas with that in the area of the bottom of the bottle is present because the gas inlet pipe in ends a considerable distance from the bottom of the bottle. You can try to get the gas at a significant pressure and therefore a substantial one Passing speed through the gas inlet tube to the bottom area to get the bottles. Ultimately, however, this also does not ensure that it really reaches the bottom of the bottle. In addition, the for an intimate mixture of gas and liquid requires a rather slow one Gas flow not possible in this way.

In order to avoid this problem, DE-U 296 22 248 now proposes to provide a corresponding valve at the bottom of a bottle through which the gas must be introduced into the bottle. To counteract overpressure, there is a pressure relief valve in the screwed cap on the bottle intended.

However, this design has the disadvantage that there is a valve in the bottom of the bottle is integrate. This leads to a weakening of the soil. The corresponding equipped bottle is therefore less stable or considerably heavier. Moreover Such a bottle is also relatively expensive to manufacture because for at least two valves should be provided for each bottle.

The object of the present invention is therefore a device as specified above evolve to be both easy to use as well as being inexpensive to manufacture and at the same time high security offers.

This object is achieved in that the gas supply to the Liquid flows through the valve integrated in the lid.

On the one hand, this device has the advantage that there is no longer a separate valve is to be provided on the bottom of the bottle. The bottle is therefore more stable.

Furthermore, only one valve is required, namely on the cover. For the bottles a simple blowing process can be used for the production, which is another cost advantage.

The device also has the advantage of being above that in the bottle liquid can form a gas cushion that is slightly higher Has pressure than the ambient air. This leads in particular in the long run to an increased gas absorption in the water compared to the state of the Technology. In the prior art, after the bottle is removed from the gas inlet pipe only ambient pressure in the bottle. Against that prevails in the container according to the invention even after removal from the Device continues an increased pressure.

This is of particular interest if the device does not use carbon dioxide but oxygen should be added to the water. For this purpose the device described here is provided in particular.

It has been found that it is very effective in high water enrichment of over 40 mg O ₂ / | H ₂ O can be achieved, the losses of oxygen gas being very small when the water is added.

In order to facilitate the operation of the device, it is proposed that the the device provided to connect the gas container to an actuating element, on which the lid of the liquid container can be pressed directly, whereby the actuating element then the supply of gas from the gas container releases to the liquid container.

In this way, a simple, reliable operation of the device can be achieved. In particular, the pressure on the lid is exerted by the liquid container - the bottle - is pressed down. Since the Bottle can be held by an operator, does not have to be separate Mechanics are provided, such as a button through which the container / bottle is pressed down. This has a price advantage in the manufacture of the device and also increased operational reliability.

In order to further increase safety, the actuating element assigned a pressure relief valve integrated in the device. About this ensures that there is only a limited space inside the lidded container Pressure is built up. The gas tank is basically a pressure reducing valve downstream. Should still on the actuator high pressure occur, this can be reduced via the pressure relief valve.

The actuating element is preferably to be actuated from above, whereby then the lid with the valve integrated in it essentially below of the container and the liquid located therein. Since the Liquid above the lid flows through when gas is introduced the lid or the valve of this gas integrated into it then through the liquid upwards and can change due to the long flow path and the Mix the low flow rate well with the liquid.

It has also been found that by shaking the liquid and above the gas-filled bottle for better mixing of liquid, especially water and gas, especially oxygen is. Due to the described position of the liquid container at adding gas is at least before opening the bottle later a rotation or tilting of the bottle required, which in the higher gas content the liquid thus benefits.

As already stated, an enrichment of water, for example with oxygen in the order of magnitude of over 40 mg O ₂ / | H ₂ O can be achieved, with a normal concentration only about 20 to 25 mg O ₂ / | H ₂ O is.

The resulting oxygen concentration in the water can thereby be dosed so that a precisely defined pressure in the container through the above pressure relief valve described is reached. Depending on the result Pressure in the bottle then prevails between the oxygen concentration in the water and the oxygen concentration in the one above Gas cushion a pressure equilibrium at least in partial pressure.

By a corresponding reduction in the amount of water in the interior volume of the container can be in the gas above the water depending on the Duration of oxygen supply or bubbling a different amount Oxygen content and therefore also a differently high oxygen partial pressure can be achieved. This then leads to a corresponding oxygen partial pressure also in the water under the gas cushion.

It is particularly relevant here that in the device according to the invention the pressure in the gas-loaded bottle is maintained over the long term because it is only broken down when the bottle is opened for the first time. Up to this point of time the oxygen content in the water can change asymptotically approximate maximum value and is then held permanently.

In order to facilitate the filling with gas it is proposed that when touching down of the lid on the actuating element of the lid in one of the actuating element Surrounding leadership is to be introduced, which in its contour to the circumference the lid is adjusted. This achieves exact guidance of what is particularly advantageous if the actuating element is a spring-loaded Hollow pin is, which corresponds to a corresponding receptacle on the lid.

In this spring-loaded hollow pin, it is proposed to provide a cross hole, a gas supply line when the actuating element is actuated brings the gas container into flow connection with the valve on the cover, so that the gas from the gas container into the liquid inside the Liquid container can flow.

This is a very reliable construction.

Figur 1

eine perspektivische Darstellung einer Vorrichtung als Ausführungsbeispiel

Figur 2

einen Schnitt durch eine Vorrichtung gemäß Figur 1;

Figur 3

einen Ausschnitt aus Figur 2 in Vergrößerung.

Further advantages and features of the invention result from the following description of an exemplary embodiment. It shows

Figure 1

a perspective view of a device as an embodiment

Figure 2

a section through a device according to Figure 1;

Figure 3

a section of Figure 2 in enlargement.

In Figure 1 you can see a device for adding a liquid Gas in perspective view.

The housing 1 of the device has an essentially C-shaped contour. In this housing is a container 2 can be used and removed again, the in the example shown here is designed as a plastic bottle. How can be seen, the container 2 or the bottle with its bottom 3 after inserted at the top and with its neck 4 into the device downwards. On the Neck 4 has a cover 5 placed on it, which is described in detail below becomes.

By depressing the container 2, the liquid in it, preferably water, charged with gas from a gas container 6 in Form of a gas bottle originates in the parallel to the container 2 Section of the housing 1 is housed. This is on average according to the figure 2 recognizable.

This gas container is replaceably seated on one shown only schematically here Pressure reducer 7. There is a connector 8 on this pressure reducer attached to which a gas line 9 connects.

About this gas line is in the pressure reducer 7 compared to the pressure in Gas container 6 pressure-reduced gas is guided to a valve element 10, such as it is shown in section in Figure 3.

The gas line 9 is connected to this valve element 10 through a connection socket 11 attached, through which they are also in flow communication with a feed opening 12 is with a spring chamber 13th

A helical spring 14 is provided within this spring chamber 13 presses a hollow pin 15 into a raised position. The hollow pin 15 is there at its lower end, which cooperates with the helical spring 14 provided with a plug 16. This plug 16 carries one circumferential seal 17, which when raised by the spring 14 position of the Hollow pin 15 with the plug 16 inserted into an annular space 18 is and thus fluidically shuts it off.

When pressing down the hollow pin 15 against the spring force of the coil spring 14, the plug 16 is down into the screw chamber 13 lowered, whereby the annular space 18 in flow communication with the feed opening 12 or the gas line 9 is brought. At the same time it becomes a Cross bore 19 brought into flow communication with the annular space 18. This Cross bore is in flow connection with the hollow core 20 of the Hollow pin 15. By a sitting on the outside of the hollow pin 15 O-ring seal 21 ensures that no gas on the outside Hollow pin 15 flows past, but this only through the hollow core 20th of the hollow pin 15 is passed.

The hollow pin 15 cooperates with an insert 22 at its upper end, which is integrated as a valve in the lid 5 of the liquid container 2. With this Insert 22 branches from a blind bore 23 essentially radially Bores 24 from. These radial bores open into a circumferential one Gap 25 leading to the interior of the container 2 through a lip seal 26 is closed. The side of the gap opposite the lip seal 25 is closed to the outside by a sealing ring 27.

The lip seal 26 is designed so that when pressure occurs in the gap 25 this past the lip seal 26 into the interior of the liquid container 2 can be dismantled. On the other hand, the lip seal 26 refills Reduction of the pressure in the gap 25 sealing again, so that no liquid in run the opposite direction past the insert 22 out of the cover 5 can.

The blind hole 23 is arranged such that when the cover 5 is inserted, a guide 28 corresponds to the hollow core 20 of the hollow pin 15, wherein the blind bore 23 ends at a stop 29 up to which the hollow pin 15 can be inserted into a receptacle 30, which on insert 22 on cover 5 is trained.

The function of the device described so far is such that when inserted of the lid 5 in the contour of essentially its circumference adapted guide 28 the insert 22 with its receptacle 30 over the Hollow pin 15 is guided, which is surrounded by the guide 28.

The hollow pin 15 is inserted into the receptacle 30 until it is against hits the stop 29. Upon further insertion of the cover 5 into the guide 28 the hollow pin 15 is then pressed down against the force of the spring 14, so that then gas from the line 9 via the feed opening 12 into the Annulus 18 flows and from there through the transverse bore 19 into the hollow core 20 of the hollow pin 15. From there, the gas then passes through the blind hole 23 and the radial bores 24 in the gap 25, from where it is then on the lip seal 26 flows into the interior of the container 2, in which liquid is present, which is mixed with the gas.

For safety reasons, a pressure relief valve 31 is provided, which with corresponds to the annular space 18 or the screw chamber 13 and at one Occurrence of excessive pressure in one of these rooms opens. This is to prevent that too high a pressure occurs inside the liquid container 2.

It is essential in the whole constellation that the actuation just described the gas supply on the one hand through the valve integrated in the cover 5 takes place and that on the other hand this valve is actuated in relation to the Liquid container is at the bottom. This causes the gas to flow into the container from below 2 and has a long mixing path. The lid 5 is over a thread 32 securely attached to the neck 4 of the container 2.

At the same time, this type of operation is both reliable and an inexpensive device is also possible. In particular, compared to prior art a variety of levers etc. away.

Claims (7)

Device for adding a gas to a liquid, the liquid being located in a container (2) which can be removed from the device and which is closed with a cover (5) into which a valve (22) is integrated, and which contains a gas container (6 ) having,
characterized in that the gas is supplied to the liquid through the valve (22) integrated in the cover (5). Device according to claim 1,
characterized in that the gas container (6) is connected to an actuating element (15) onto which the cover (5) can be pressed and which thereby releases the supply of gas from the gas container (6) to the liquid container (2). Device according to claim 1,
characterized in that a pressure relief valve (31) is associated with the actuating element (15). Device according to claim 2,
characterized; that the actuating element (15) can be actuated from above, the lid (5) being arranged below the container (2). Device according to claim 2,
characterized in that the cover (5) is to be inserted into a guide (28) surrounding the actuating element (15), the contour of which is adapted to the circumference of the cover (5). Device according to claim 2,
characterized in that the actuating element is a spring-loaded hollow pin (15) which corresponds to a receptacle (30) on the cover (5). Device according to claim 6,
characterized in that a transverse bore (19) is provided on the hollow pin (15) and , when the actuating element (15) is actuated, brings a gas supply line (9) into flow connection with the valve (22) on the cover (5).

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