DE10240480B4 - Device for enriching tap water with a water-soluble gas such as carbon dioxide or oxygen - Google Patents

Abstract

Device for enriching tap water with a water-soluble gas such as carbon dioxide or oxygen, with
a) a mixing chamber, which supplies the drinking water via a feed line and the carbon dioxide via a gas line and from which the carbon dioxide-added drinking water is fed in a dispensing line to a tap;
b) an exchangeable gas cartridge connectable to the gas line, in which the carbon dioxide is stored;
c) a holder for receiving the gas cartridge, which is provided with a connection piece for connecting to a cartridge-side counterpart and for establishing a fluidic connection of the gas cartridge with the gas line;
characterized in that
the holder (20) opposite the connecting piece (21) has a supporting base (22) which
d) is held longitudinally displaceable with respect to the connecting piece (21) in an axially extending displacement direction; and
e) in the displacement direction axially staggered wings (23) has different outer diameter for the axial and lateral support of gas cartridges (15) of different diameters.

Description

The The present invention relates to a device for enriching tap water with a water-soluble Gas such as carbon dioxide or oxygen according to the preamble of the claim 1.

at known devices for enriching tap water with carbon dioxide is a mixing chamber via a supply of drinking water and over a gas line fed to carbon dioxide. In the mixing chamber is the drinking water is mixed with carbon dioxide and that with carbon dioxide staggered drinking water is in a tap line of a tap fed. At the tapping point can then removed carbon dioxide displaced drinking water become. It is known in such devices, the carbon dioxide in a replaceable storage container vorzuhalten.

to Recording the storage container serves a holder. This has a fitting for connection to a reservoir side Counterpart on. The connection of connector and counterpart is used the establishment of a fluidic connection between the reservoir and Gas line.

The used in such a device holder are on the in matched the storage tank used in each plant. The must pressurized storage container be safely received by the holder to avoid possible accidents.

In devices for receiving high-weight gas cylinders, such as those from the DE 296 18 981 U1 are known, raised edges on the base of a gas pocket and other means, such as security chains, provided to ensure the stability of the gas cylinder. So heavy gas cylinders are not provided for the devices considered here.

Also at the DE 742 880 C described device for enriching fruit juices, which are stored in a tank, with carbon dioxide, this obviously uses a large and heavy gas cylinder. This is placed in a bath with warm liquid to possibly supply heat of vaporization.

The Use only one type of reservoir in conjunction with a Holder has the disadvantage that, for example the volume of the reservoir not adapted to the consumption of carbon dioxide in the device can be. This can cause that reservoir via a long life on a system or are arranged a very common one Change of storage tank is required.

In contrast, is It is an object of the invention to provide a device by means of which a greater flexibility in the used storage containers is achieved and in which the reservoir easily and without much installation effort can be exchanged.

The The object underlying the invention is achieved by a device according to the independent claim 1 solved.

By the inventive design of Halters will allow reservoir different outer dimensions and thus to use different volumes. As it is at Gas cylinders and gas cartridges is widely used that the cartridges with small volume not only a smaller outside diameter but also have a smaller axial length, it is only in conjunction with the longitudinally displaceable arrangement the support base with the formation of wings different outer diameter possible, reservoir different Size in the holder to record safely.

The Plant is therefore by the invention in terms of use from different storage containers and improved in terms of the easy replacement of storage containers.

According to one preferred embodiment of the invention, the support floor is stair-like stepped and has circular and / or circular concentric wings. The staircase-like gradation makes it possible to join one and the same Tragboden form several, so at least two, wings, so that a and the same support floor is suitable, in conjunction with various storage containers to be used. It is also possible that the clear width above a wing the outer diameter one on this wing supportable reservoir equivalent. As a result, not only an axial Leadership but also a lateral guidance of the storage container used in the holder achieved in the region of the holder.

According to a further inventive embodiment of the invention, the wings have a curvature, which is shaped according to the curvature of the reservoir in the contact area on the wings. The contour-following adaptation of the wings to the reservoir ent speaking size makes it possible to combine the axial support action and the lateral guiding action of the wings in a common mold section. In this case, this measure can be done alternatively or in addition to the adjustment of the clear width above the support surface to the outer diameter of the reservoir.

According to one Another embodiment of the invention, the support floor in the axial Directed towards the fitting force. The provision of a force application in the axial direction serves on the one hand establishing a secure connection between the holder and the reservoir, on the other hand it also allows the reservoir to exchange in a simple way. It is not absolutely necessary, via appropriate Catches and latches to ensure that the reservoir safely is held.

one advantageous embodiment of the invention entails the holder at least one axially parallel aligned guide rail. At the guide rail is the connector that with the counterpart is connectable, held. Furthermore is on the guide rail a slide axially displaceable. The support floor cantilevers from the Slide off. It is in particular a right angle between Carriage and orientation of the tray provided. The movable one Arrangement of a carriage on a guide rail allows easier Way the longitudinally displaceable Support the support base with respect the connector. These longitudinally movable Arrangement of the base opposite the fitting becomes not only to adapt to different dimensions of storage containers in axial direction but also for easy production of the Replacing the storage container required axial clearance needed.

to support of the storage container on the holder in the area of the wings of the tray is in accordance with a inventive development between the carriage and the guide rail arranged a spring. The spring can be designed as a tension or compression spring be. It acts on the carriage with respect to the guide rail in the direction of the fitting down.

According to one further advantageous embodiment of the invention, the fitting of the holder and the counterpart of the storage container each an axially aligned screw thread for screwing with each other. By this measure will it be possible through the reservoir Introduce and settling on the tray of the holder, wherein it is in at least a wing of the Supported base is to align axially and without applying further holding forces in a mounting position to hold at the counterpart gets into contact with the fitting. By simply turning the reservoir can then screwing from counterpart and connecting piece, making a permanent but solvable Connection between reservoir and holder is created. It is also conceivable that the Place the screw a bayonet connection occurs. Either when using a screw connection as well as in use a bayonet connection can Connector and counterpart so complementary to each other be formed that when screwing or producing the Bayonet connection simultaneously the fluidic connection between Connecting piece and reservoir, so the fluidic connection between the gas line and the interior of the Reservoir, will be produced. Pressurized carbon dioxide can then from the reservoir flow to the mixing chamber. The preparation of this fluidic connection when applying the reservoir can For example, take place by a corresponding functional element of the fitting in the counterpart arranged valve in the opening direction actuated, wherein to maintain the valve opening, a continuous application the valve is required by the functional element. It is alternatively also possible that in the connector one Hollow needle is arranged, which has a sealing surface formed for this purpose reservoir pierces. It is it is preferably provided that the production of the fluidic Connection only occurs when it is ensured that the Connection between fitting and counterpart through not the pressure forces occurring when establishing the connection more unintentionally solved becomes.

According to one Preferred embodiment, the connector is high pressure side to a Reducer trained.

By forming the fitting immediately At the pressure reducer, the line length is pressurized with high pressure is reduced to a minimum. At the same time, by adjusting the pressure reducer to a suitable Adjustment screw at the same time the concentration of the drinking water dissolved Carbon dioxide adapted to the needs become.

According to one Another embodiment of the invention, the holder is on a wall fixable. By attaching the holder to the wall is on the one hand an independent one Arrangement of the holder of the mixing device allows at the same time, a firm connection with a wall is a special one accident-proof attachment of a corresponding pressurized Reservoir.

For example, the holder by means of a Angle screwed to a building wall or directly to the housing of the device.

The Invention will now be described with reference to a drawing embodiment explained in more detail; it demonstrate:

1 : a schematic representation of a device for enriching tap water with carbon dioxide;

2 a perspective view of a holder according to the invention with a storage container arranged thereon;

3 a support floor according to the invention in perspective view; and

4a to 4d by placing or removing a reservoir in or out of the holder.

The 1 shows a device 10 for enriching tap water with carbon dioxide. The construction would be substantially identical to another water-soluble gas such as oxygen when enriched. The drinking water is via the supply line 11 a mixing device 17 fed. In the mixing device 17 a mixing chamber is formed, wherein in the mixing device 17 It is also possible to provide further means for carrying out the enrichment. The carbon dioxide is the mixing device 17 over the gas line 12 from the reservoir 15 fed. At the reservoir 15 it is a conventional CO ₂ bottle. In the gas pipeline 12 is a pressure reducer 28 , For example, a Reduzierventil, arranged on the part of the reservoir 15 provided high pressure to DIN pressure, which is needed for the enrichment of drinking water with the carbon dioxide in the mixing chamber.

From the mixer 17 or from the mixing chamber in the mixing device 17 leads the dispensing line 13 to the tap 14 , In the tap line 13 the carbon dioxide-enriched drinking water is passed. At the tap 14 this can, for example, on a tap or on a suitably trained fitting in portions, for example, by glass, are removed.

The 2 shows in perspective a holder 20 with a storage container held therein 15 ,

On the holder 20 are a pressure reducer 28 and a fitting formed thereon 21 arranged. The connector 21 opposite is a supporting floor 22 on the holder 20 arranged. The supporting floor is cantilevered 22 at right angles from a sledge 25 from the axially along a pair of guide rails 24 of the owner 20 is slidably mounted. Between a guide rail 24 and the sled 25 is a spring 26 arranged the sled 25 and thus also the supporting floor 22 towards the connector 21 with force. The holder 20 is over a flange 19 on a wall or on the housing of the mixing device 17 fixable. The guide rails 24 are axially parallel to the axial alignment of fitting 21 and wings 23 of the supporting floor 22 educated. The storage tank 15 is in the holder 20 on the one hand via the connector 21 and on the other hand via a wing 23 of the supporting floor 22 held. Here is the reservoir 15 on the tray 22 held both axially and laterally guided.

The 3 shows a supporting floor 22 , He has two wings 23 different outer diameter. The two wings 23 are substantially annular and concentric with each other. They are also in the direction of displacement of the tray 22 offset axially. The axial offset AV is chosen so that the web formed by this axial offset 18 has a height which is so great that on the inner axial bearing surface 23 supported storage containers 15 laterally through the bridge 18 is guided. For this purpose, the bridge 18 a clear width L1 and L2, which corresponds to the outer diameter of a corresponding reservoir 15 equivalent. If the reservoir 15 has at its supporting bottom side end a curved surface, can be formed by appropriately curved curved wings 23 not only an axial support of the reservoir 15 but also an axial orientation and lateral support of the reservoir 15 be achieved.

2 shows a reservoir 15 , which is formed large volume and has a large outer diameter. Therefore, the reservoir is 15 through the axial of the fitting 21 closer, outer wing 23 of the supporting floor 22 supported and laterally by the outer web 18 guided. The in the 4a to 4d shown smaller volume gas cylinder, which serves as a reservoir 15 serves, however, is on the of the connector 21 axially away lying inner support ring 23 supported and becomes lateral from the inner web 18 guided, the inner wing 23 bounded radially outward and the axial offset AV between the two wings 23 generated, guided.

The correct axial distance between the support floor 22 and the connector 21 is by axial displacement of the carriage 25 along the axially parallel guide rail 24 he enough. It should be noted that the smaller volume, a smaller outer diameter gas cylinder, the smaller reservoir 15 , Can have a smaller axial length than a larger volume, larger diameter gas cylinder, as for example in the 2 is shown.

The 4a to 4d show different steps in the process of inserting and connecting a reservoir 15 in the holder 20 with the fitting 21 ,

The 4a shows the insertion of a filled storage container 15 , like a gas bottle, in the holder 20 , The storage tank 15 is doing laterally obliquely on the corresponding wing 23 of the supporting floor 22 placed. The support floor is against the action of the spring 26 axially down from the fitting 21 pushed away, so that the counterpart 16 of the storage container 15 under the fitting 21 can be pushed and then aligned axially to this. Under the action of the spring 26 becomes the supporting ground 22 carrying, in the guide rails 24 guided sledges 25 again towards the fitting 21 emotional. This moves the counterpart 16 a little way into the connector 21 into it, until the thread 27 the counterpart 16 in engagement with a corresponding thread of the connector 21 device. The storage tank 15 is thus axially aligned and already in the holder 20 still kept loose. Now that is in the 4b achieved position shown and by turning the reservoir 15 becomes a screw connection between the counterpart 16 and the connector 21 produced. The connector 21 is directly on the pressure reducer 28 trained, in turn, on the holder 20 is arranged. By appropriate design of the fitting 21 is over the stroke during the last revolutions of the two threads against each other, the fluidic connection between the reservoir 15 and the high pressure side input of the pressure reducer 28 produced, which at its pressure-reduced output side with the gas line 12 connected is. In this position, the reservoir 15 safe in the holder 20 kept and protected.

After emptying the reservoir 15 this can according to the in the 4c and 4d shown procedure again from the holder 20 be removed. First, as in 4c shown by turning the reservoir 15 in the same direction of rotation, the screw connection between the counterpart 16 and the connector 21 solved again. The fluidic connection between the reservoir 15 and the pressure reducer 28 is separated again during the first releasing screw turns and the storage chamber of the reservoir 15 again fluidly completed. Once the screw is completely dissolved, the reservoir 15 axially from the fitting 21 led away until the guiding action of the fitting 21 opposite the counterpart 16 is ended. This is the sled 25 that the carrying ground 22 carries, again axially from the fitting 21 moved away. This movement takes place against the force of the spring 26 , so that this sliding movement after removing the reservoir 15 automatically reversed again.

The storage tank 15 can now, as in the 4d shown, taken from the side, the plant of the reservoir 15 on the corresponding wing 23 the supporting floor is thereby solved. The holder 20 is now to accommodate a new reservoir 15 ready.

Claims (12)

A device for enriching tap water with a water-soluble gas such as carbon dioxide or oxygen, with a) a mixing chamber, which is supplied to the drinking water via a feed line and the carbon dioxide via a gas line and from the offset with carbon dioxide drinking water in a tap line to a tapping point; b) an exchangeable gas cartridge connectable to the gas line, in which the carbon dioxide is stored; c) a holder for receiving the gas cartridge, which is provided with a connection piece for connecting to a cartridge-side counterpart and for establishing a fluidic connection of the gas cartridge with the gas line; characterized in that the holder ( 20 ) the fitting ( 21 ) opposite a supporting floor ( 22 ), d) with respect to the fitting ( 21 ) is held longitudinally displaceable in an axially extending displacement direction; and e) the axially displaced in the direction of displacement wings ( 23 ) different outer diameter for the axial and lateral support of gas cartridges ( 15 ) of different diameters. Apparatus according to claim 1, characterized in that the supporting floor ( 22 ) is stepped and circular or annular concentric wings ( 23 ) having. Apparatus according to claim 1 or 2, characterized in that the clear width (L1, L2) above a wing ( 23 ) the outer diameter of a gas cartridge ( 15 ) corresponds. Device according to one of the preceding Claims, characterized in that the wings of a curvature of the gas cartridge ( 15 ) are shaped accordingly. Device according to one of the preceding claims, characterized in that the supporting floor ( 22 ) in the axial direction on the connector ( 21 ) is energized. Device according to one of the preceding claims, characterized in that the holder ( 20 ) at least one axially parallel aligned guide rail ( 24 ), at which the connecting piece ( 21 ) and on which a sled ( 25 ) abkragt. Device according to claim 6, characterized in that between carriages ( 25 ) and guide rail ( 24 ) a feather ( 26 ) is arranged. Device according to one of the preceding claims, characterized in that fitting ( 21 ) and counterpart ( 16 ) each have an axially aligned screw thread ( 27 ) for screwing together. Device according to one of the preceding claims, characterized in that fitting ( 21 ) and counterparts ( 16 ) are formed so complementary to each other, that when connecting together the fluidic connection between fitting ( 21 ) and gas cartridge ( 15 ) will be produced. Device according to one of the preceding claims, characterized in that the connecting piece ( 21 ) high-pressure side of a pressure reducer ( 28 ) is trained. Device according to one of the preceding claims, characterized in that the holder ( 20 ) is attachable to a wall. Device according to one of the preceding claims, characterized in that the holder ( 20 ) by means of an angle ( 19 ) can be screwed to a building wall or to the housing of the device.