NOZZLE DEVICE FOR A FOUNTAIN AND FOUNTAIN

Abstract

Nozzle means for directional jetting of a fountain fluid comprising at least one, in particular elongated, nozzle for directed radiation of the fountain fluid, wherein the nozzle has a main extension direction, so that the fountain fluid can be removed substantially parallel to this main extension direction along a main distribution direction, at least one nozzle carrier on which the nozzle is arranged detachably or inseparably, characterized in that the nozzle carrier forms a main extension plane of the nozzle carrier, and wherein at least the main radiation direction of the nozzle leads away from the main extension plane of the nozzle carrier in at least one directional component.

Claims

1. Nozzle means for directional jetting of a fountain fluid comprising at least one nozzle for directed radiation of the fountain fluid, wherein the nozzle has a main extension direction, so that the fountain fluid can be removed substantially parallel to this main extension direction along a main distribution direction, at least one nozzle carrier on which the nozzle is arranged detachably or inseparably, wherein the nozzle carrier forms a main extension plane of the nozzle carrier, and wherein at least the main radiation direction of the nozzle leads away from the main extension plane of the nozzle carrier in at least one directional component.

2. Nozzle device according to claim 1, wherein in addition, the main direction of extension of the nozzle extends in at least one directional component from the nozzle carrier main extension plane of the nozzle carrier.

3. Nozzle device according to claim 1, wherein the nozzle carrier is formed by at least one bent and/or a straight-line fluid line, this fluid line running at least in places in the nozzle carrier main distribution plane in a circular, ellipsoidal and/or along at least one pipe edge.

4. Nozzle means according to claim 1, wherein the nozzle carrier is in one piece.

5. Nozzle means according to claim 1, wherein the nozzle comprises a nozzle holder, at the free end of which a nozzle head is arranged detachably or inseparably.

6. Nozzle means according to claim 1, wherein at least two nozzles spaced apart from each other are arranged along the length of the nozzle carrier.

7. Nozzle means according to claim 1, wherein at least three nozzles spaced apart from each other at the same or different distances are arranged along the course of the nozzle carrier.

8. Nozzle means according to claim 1, wherein at least one nozzle is inseparable, i. e. not non-destructive, with which nozzle carrier is connected.

9. Nozzle means according to claim 1, wherein the nozzle carrier and the nozzle are each formed with at least one fluid line so that the fluid can pass through them.

10. A fountain comprising at least one fluid pump for conveying a fluid, at least one line for conveying the fluid from a fluid container to and towards a nozzle device in accordance with at least one of the preceding embodiments, wherein, after passing the fluid through the nozzle device, the fluid after leaving the nozzle is led into at least one collecting vessel so that a closed fluid circuit is generated.

11. Fountain according to claim 10, wherein at least one nozzle is arranged at a lateral offset relative to a longitudinal direction of the collecting vessel.

12. Fountain according to claim 11, wherein the nozzle carrier main extension plane extends substantially parallel to the longitudinal direction of the collecting vessel, and the main radiation direction of the nozzle extends away from the nozzle carrier main extension plane in at least one directional component.

13. Fountain after claim 10, wherein the collecting container is fixed interchangeably in a container anchorage.

14. Fountain after claim 10, wherein the collection container is a beer mug.

15. Fountain after claim 10, wherein at least one nozzle has such a main radiation direction in which at least one directional component points inwards in the direction of a geometric centre of the nozzle carrier.

16. Fountain after claim 10, wherein a length and/or the main radiation direction of the nozzle is dimensioned such that, after exiting the nozzle, the fluid falls, solely by the action of gravity and without ducting, into the collecting container arranged below the nozzle.

Description

[0025] In the following, the invention shown above is explained in more detail by means of an example and the corresponding schematic figures.

[0026] FIGS. 1 and 2 show schematically in perspective an example of a embodiment of a fountain 1000 described here, comprising a nozzle device 100 described here.

[0027] In particular, it is evident from the figures that the fountain 1000 comprises at least one fluid pump 1000A for conveying a fluid, at least one pipe 1000B for conveying the fluid from a fluid container 50 to and to a nozzle device 100 in accordance with at least one of the previous embodiments, whereby after passing the fluid through the nozzle device 100, the fluid after leaving the nozzle 1, is led into at least one collecting container 60.

[0028] The nozzle device 100 described here comprises several nozzles 1, whereby each of the nozzles 1 are arranged laterally offset relative to a longitudinal direction L60 of the collecting tank 60.

[0029] Particularly catchy, the two figures also show that a main extension plane H2 extends essentially parallel along the longitudinal direction L60 of the collecting vessel 60 and that the main radiation direction H10 of nozzle 1 projects away from the main extension plane H2 in at least one directional component. The other thing is that the receiver 60 selected in the figures is a beer mug with a hole in the bottom, so that the fluid, for example a beer, can be returned from the beer mug to the receiver 60. This achieves a completely closed liquid circuit.

[0030] In particular, a length L1 and/or the main radiation direction H10 of nozzle 1 is dimensioned in such a way that, after exiting nozzle 1, the fluid falls into the collection ratio 60 below nozzle 1 solely by the action of gravity and without ductwork.

[0031] Regarding the nozzle device 100 described above, it should be noted that the nozzle device 100 comprises at least one nozzle 1, in particular an elongated nozzle 1, for the directed radiation of the fountain fluid, the nozzle 1 having a main direction of extension H1, so that the fountain fluid can be removed substantially parallel to this main direction of extension H1 along a main direction of radiation H10.

[0032] In addition, the nozzle device described here comprises 100 at least one nozzle carrier 2, on which the nozzle 1 is arranged detachably or inseparably, the nozzle carrier 2 forming a nozzle carrier main extension plane H2 and wherein at least the main abstraction direction H10 of the nozzle 1 leads away from the nozzle carrier main extension plane H2 in at least one directional component.

[0033] In the present embodiment example, nozzle carrier 2 has a circular shape. The entire nozzle carrier 2 is located in the main nozzle carrier plane H2 and is formed by a fluid line 20.

[0034] In particular, the figures also show an elongated nozzle holder 12 of nozzle 1 and a nozzle head 13 which can be detached or inseparably arranged on a free end of nozzle holder 12. For example, the nozzle head 13 is also formed by one end of the nozzle holder 12 itself. It is also conceivable that the nozzle head 13 and the nozzle holder 12 are formed with a one-piece pipe element.

REFERENCES

[0035] 1 nozzle [0036] 2 Nozzle carrier [0037] 12 Nozzle holder [0038] 13 Nozzle head [0039] 20 Fluid line [0040] 50 Fluid container [0041] 60 Collecting container [0042] 100 Nozzle equipment [0043] 1000 Fountains [0044] 1000A Fluid pump [0045] 1000B pipe for conveying the fluid [0046] H1 Main stretch direction [0047] H2 Nozzle carrier main extension plane [0048] H10 Main beam direction [0049] L1 Length [0050] L60 Longitudinal direction