EP2110063A1 - Nozzle system - Google Patents

Abstract

The pipe (1) has a set of nozzles spraying cleaning liquid onto a set of items to be cleaned in a longitudinal extent. Flow of the cleaning liquid is deflected within the pipe in front of one of the nozzle in such a way that a set of nozzle jets (7) emerging through a nozzle opening (4) in the nozzle contains no flow components that are directed in a longitudinal direction of the pipe and emerges from the nozzle orthogonally to the pipe. A deflection body (8) projects into the pipe by a height for deflecting the flow.

Description

Technical area

In dishwashers, be it in household dishwashers or in dishwashers used in the commercial sector, nozzles are used to distribute the cleaning liquid. These nozzles are generally arranged in plural on a spray pipe having an oblong appearance in the axial direction.

State of the art

In dishwashers, both in the household and in the commercial sector, usually nozzles for spraying the cleaning liquid on the material to be cleaned, such as dishes, glasses, cutlery or the like, are used. The nozzles are generally arranged in a greater number on the top or bottom of a generally elongated spray tube or spray arm. In the case of the spray pipes or spray arms, the rinsing liquid generally flows in on one side and flows to the nozzles, which are arranged one after the other in the longitudinal direction of the spray pipe.

Spray arms are often designed so that they have in the middle a bearing point, which allows a rotational movement of the arm, wherein symmetrically from the bearing point of two or more sections, also called wings, extend, at which the individual nozzle openings are formed. In these embodiments of spray arms, the supply of the nozzles with cleaning liquid takes place centrally from the bearing point of the spray arm or the spray tube. However, other embodiments and types of storage are conceivable.

The spray systems mentioned have the task or function, the cleaning liquid in predetermined spray patterns, ie as fan beams in likewise predetermined directions, for example, orthogonal to the longitudinal axis of the spray tube or of the spray arm or spray arm. The required required beam shape and beam direction is generally determined in experiments during the development of the dishwasher and then set. The beam formation should be maintained unchanged, even if the pressure or the volume flow and the resulting flow rate at which the cleaning fluid is supplied to the nozzle systems vary. The variation may be required for reasons of dishwasher operation and may amount to ± 20% of the nominal value.

In commercially used dishwashers, one and the same type of machine is often built in multiple geometrical dimensions. This also changes the length of the spray pipes, which are generally transversal to the machine, i. in continuous machines are arranged perpendicular to the feed direction of the goods to be cleaned. As the length of such a spray system changes, a different number of nozzles are also introduced into the spray tube. In addition, by requirements of the cleaning material on spray pipes of the same length from machine to machine, a different number of nozzles may be required.

The said spray pipes with nozzles are usually made or executed so that in a tubular body, distributed over the entire length, a plurality of round or slot-shaped openings are introduced. A further embodiment, which is known from the prior art, is first to emboss a continuous groove inwardly along the tube and to place the nozzle openings in this groove. Another embodiment known from the prior art is that at the points in the spray tube, where a nozzle is required, first a dome is stamped inwardly or outwardly and the nozzle opening is placed in this dome.

The design of this dome and the placement of the nozzle opening in the dome determines the shape of the dome and its direction. For manufacturing reasons, it is particularly advantageous if each nozzle in the same kind, i. in terms of shape and direction, can be made. When a spray tube of the type described is operated with the same nozzles, it can be observed that the jets on the nozzles form in different directions along the longitudinal direction of the tube, i. the jets close to the feed point of the cleaning liquid are strongly inclined in the direction of flow of the tube, while the more distant from the tube emerging rays are increasingly less inclined, to the last jet, which forms approximately orthogonal to the tube.

This phenomenon, which adversely affects the spray pattern or fan jets, can be prevented by having each nozzle in its own optimal direction is introduced into the spray tube, and thus counteracted the influences of the inner flow in the pipe.

If, for a given basic type of spray lance and its liquid supply, the number of nozzles changes, it can be observed that the previously found setting with regard to the nozzle direction is no longer complied with. This means that for each spray tube variant its own optimal arrangement and introduction direction for the nozzle openings to determine in a complex manner and to realize in the production. However, this results in a considerable additional effort for experiments and in the production of the spray pipes, which is very disadvantageous. Furthermore, it can be observed that, with varying supply pressure of the cleaning liquid in the spray tube, the inclination of the jets issuing from the nozzles also changes, so that an insertion direction of the nozzle opening which has been found to be optimal provides good results only for one operating point.

Instead of injecting the nozzles directly into the mantle of the spray tube and forming them through the thin wall of the spray tube or the spray arm or its wings, complete nozzles, each with its own relatively long inflow section, can also be inserted into the spray tube. This approach means a significantly larger number of components and thus increases the cost of the system considerably.

Another way to avoid the disadvantages described above is to make the spray pipes, the spray arms or Sprüharmflügel with relatively large cross-sections, so that the flow rate of the cleaning liquid within the flow cross-section inside the spray pipes or Sprüharmflügel very low , While today's spray pipes usually have a circular cross section with a diameter of 43 mm, optimized spray pipes would therefore have a diameter of about 100 mm. However, this approach is also disadvantageous because of the required large installation space and the considerable additional material costs.

Presentation of the invention

In view of the above-outlined disadvantages of the prior art solutions, the present invention has for its object to find a solution with all the nozzles of a spray pipe in the same type and direction in the spray tube, the spray arm or Wascharmflügel can be introduced and Nevertheless, the jet image uniformly and consistently forms, in particular independently from the number of nozzles and the pressure prevailing in the spray tube or spray arm supply pressure of the cleaning liquid.

This object is achieved by a spray pipe having the features of claim 1 and a machine for cleaning of items to be cleaned with the features of claim 11. Advantageous developments, which may be implemented individually or in combination, are shown in the dependent claims.

It is proposed a spray pipe for the application of cleaning material to be cleaned with cleaning liquid, which is particularly adapted for use in dishwashers. The spray tube has a longitudinal extent and has in the longitudinal extent of at least two nozzles for spraying cleaning liquid on to be cleaned Good. Within the spray tube, the flow of the cleaning liquid is deflected in front of at least one nozzle such that a jet emerging through a nozzle opening of the nozzle contains substantially no flow component directed in the longitudinal direction of the spray tube and exits the at least one nozzle substantially orthogonally to the spray tube.

Preferably, in the spray tube or spray arm or Sprüharmflügel before the outlet nozzles, through which the cleaning liquid enters the cleaning chamber or in the treatment zone, or in the Anströmbereich the nozzles, a flow profile generated by a main flow, with relatively high flow velocity in the longitudinal direction of the spray tube trains, is decoupled. This can be achieved, for example, by deflecting bodies, behind which a relatively calm flow region is established. By virtue of this measure, the cleaning fluid essentially leaves the openings of the nozzles in question without a flow component which is directed in the longitudinal direction of the spray tube or of the spray arm or of the spray arm blade. The plane of the spray jet can therefore form substantially orthogonal to the longitudinal axis of the spray tube or spray arm or Sprüharmflügels. By "substantially" are meant, for example, deviations of not more than 20 °, preferably not more than 10 ° and particularly preferably not more than 5 °. In order to provide this calming area, there are several technical possibilities which will be described below in connection with the drawings.

Brief description of the drawings

Reference to the drawings, the invention will be described below in more detail.

Figur 1

eine schematische Darstellung der sich bei den Lösungen des Standes der Technik einstellenden negativen Effekte,

Figur 2

eine erste Ausführungsform der erfindungsgemäß vorgeschlagenen Lösung mit einem geprägten Ablenkkörper,

Figur 3

eine weitere, zweite Ausführungsform der Erfindung mit einem eingebauten Ablenkkörper,

Figur 4

eine weitere, dritte Ausführungsform der erfindungsgemäß vorgeschlagenen Lösung mit zungenförmig ausgebildeten Ablenkkörpern und

Figur 5

eine weitere, vierte Ausführungsform der erfindungsgemäß vorgeschlagenen Lösung mit einem eingebauten Trennblech zur Teilung des Strömungskanals.

It shows:

FIG. 1

a schematic representation of adjusting in the solutions of the prior art negative effects,

FIG. 2

a first embodiment of the proposed solution according to the invention with an embossed deflection body,

FIG. 3

a further, second embodiment of the invention with a built-in deflection body,

FIG. 4

a further, third embodiment of the invention proposed solution with tongue-shaped deflecting bodies and

FIG. 5

a further, fourth embodiment of the proposed solution according to the invention with a built-in separating plate for dividing the flow channel.

The representation according to FIG. 1 shows a known from the prior art solution and the adjusting in this, negative effects.

FIG. 1 shows that the flow 6 in the entire spray tube cross-section 2 from the inflow opening 3 to a last nozzle forms strongly in the longitudinal direction of the spray tube 1. The relatively small volume flows, the individual nozzles 4, which are formed as embossings with nozzle opening and emerge from these, therefore contain large proportions of components of movement in the direction of flow 5 of the spray tube 1. As a result, the planes of the nozzle jets 7 emerging from the embossings with nozzle openings 4 tend also in this direction and do not form independently orthogonal to the spray tube 1 from.

embodiments

The representation according to FIG. 2 a first embodiment of the solution proposed by the invention can be seen.

In the illustration according to FIG. 2 a spray pipe 1 is shown, which has inwardly embossed calotte 4, in which nozzle openings 4 are introduced directly, for example by punching. In this case, nose-shaped deflecting bodies 8 are impressed into the jacket of the spray tube 1 in each case in the direction of flow 5 in front of the nozzle openings 4. This baffle 8 direct the longitudinal flow 6 from the inlet openings in the nozzle in the direction of the axis of symmetry of the spray tube 1 and produce the desired effect of an uninfluenced by the longitudinal flow 6 flow of the embossed into the jacket of the spray nozzle opening 4. The baffles 8 are preferably directly in the Nozzle opening 4 or the embossing for the nozzle 4, however, at a maximum distance introduced into the spray tube 1, which corresponds to twice the height of the deflecting 8. The height of the baffle is preferably chosen so that it corresponds to the height of the embossment for the nozzle opening, but is not so high that the supply of subsequent nozzle openings 4, which are embossed in the jacket of the spray tube 1, is not limited.

This means, for example, for a spray pipe 1, which has an inner diameter of about 43 mm and in the lateral surface 10 nozzle openings 4 are introduced, that the height of the baffles 8 is of the order of 10 mm. If a nozzle or a nozzle opening 4 is provided in the mantle of the spray tube 1, which has no embossing inwards, the height of the baffle 8 is to be selected such that it corresponds to the smallest cross section of the nozzle opening. The baffles 8 can be generated, for example, by embossing in the shell of the spray tube 1 from the outside inwards directly in the vicinity of the nozzle opening 4 in the jacket of the spray tube 1. This is associated with the additional advantage that the production of the baffle 8 and the nozzle openings 4 can be done even in one operation, which is very economical. In addition, no additional components are required, which generate additional costs and / or can cause interference during operation.

The representation according to FIG. 3 a further embodiment of the solution proposed by the invention can be seen.

From the illustration according to FIG. 3 shows that the baffles 8 are designed as plastic injection molded parts. These baffles 8 designed as plastic injection-molded parts can be fixed in the spray-tube cross-section 2 of the spray-tube 1, for example via resilient or rigidly formed holding elements 9. From the illustration according to FIG. 3 shows that the holding body 9 in the region of the nozzle opening 4 has an opening into which the dome-shaped inwardly embossed wall of the spray tube 1 protrudes and thus fixes the holding element 9 in the axial direction of the Sprührohrquerschnittes 2 of the spray tube 1.

The representation according to FIG. 4 is a further embodiment of the solution proposed by the invention can be seen.

In the in FIG. 4 illustrated embodiment, the deflection of the spray tube cross-section 2 by flowing longitudinal flow 6 by means of tongues 11. These tongues 11 are inserted into the spray tube 1 and narrow the spray tube cross-section 2. Das in FIG. 4 illustrated sheet metal part 10 includes seen in the flow direction of the longitudinal flow 6 at its outflow end the deflection tongue 11, which can be formed as an end face. Preferably, the sheet metal part 10 is rotationally symmetrical and adapted in terms of its outer diameter to the inner diameter of the spray tube 1. Behind the radially inwardly extending deflection tongues 11, a relatively calmed flow region is established, from which adjusts an orthogonal jet to the longitudinal axis of the spray tube 1 in the region of the nozzle opening 4.

The representation according to FIG. 5 is a further, fourth embodiment of the present invention proposed solution to remove an optimized nozzle system.

As shown in the illustration FIG. 5 can be removed, a decoupled from the longitudinal flow 6 in the spray tube cross-section 2 of the spray tube 1 flow region is generated in this solution. For this purpose, the spray tube 1 is longitudinally divided by at least one partition wall 12 which extends parallel to the jacket of the spray tube 1. This results in the Sprührohrquerschnitt 2 of the spray tube 1 at least two channels. An outflow channel 14 is closed at its front side, so that it has no connection to the inflow opening 3 at the beginning of the spray tube 1. In this separated area, the nozzle openings 4 are introduced, which are therefore not acted upon directly by the longitudinal flow 6. The partition wall 12 is pierced at several points by openings 15, which may for example be designed as circular holes or the like. By this measure, the cleaning liquid from a supply channel 13 passes through the openings 15 in the partition wall 12 in the discharge channel 14. By this measure, similar and uniform jets 7 are also formed on all nozzles, even if all the nozzle openings 4 are made similar.

The in the illustration according to FIG. 5 In the spray tube cross section 2 retracted partition 12 may be formed, for example, by a simple inserted sheet metal with holes. The advantages of this solution are its production-technically impressive simplicity, its robustness and its good effect with respect to the displacement of longitudinal flow components away from the nozzle openings 4 embodied in the jacket of the spray tube 1.

LIST OF REFERENCE NUMBERS

1

lance

2

Sprührohrquerschnitt

3

inflow

4

Embossment with nozzle opening

5

flow direction

6

Flow direction in the pipe

7

Plane of the jets

8th

deflecting

9

retaining element

10

sheet metal part

11

deflecting tongue

12

partition wall

13

supply channel

14

outflow channel

15

connecting opening

Claims (11)

Spray tube (1) for the application of cleaning liquid to be cleaned, in particular for use in dishwashers, wherein the spray tube (1) has a longitudinal extent, wherein the spray tube (1) at least two nozzles for spraying cleaning liquid to be cleaned in the Has longitudinal extent, characterized in that within the spray tube (1) in front of at least one nozzle, the flow of the cleaning liquid is deflected such that a jet through a nozzle opening (4) of the nozzle exiting jet contains substantially no longitudinal direction of the spray tube (1) directed flow component and emerges from the at least one nozzle substantially orthogonal to the spray tube (1). Spray pipe (1) according to claim 1, comprising at least one deflection body (8) projecting by a height into the spray pipe (1) for deflecting the flow. Spray tube according to claim 2, wherein the at least one deflecting body (8) is arranged at a distance in front of the at least one nozzle, which does not exceed four times the height, preferably twice the height. Spray tube according to claim 3, wherein the deflection takes place immediately in front of the at least one nozzle. Spray pipe (1) according to claim 1, characterized in that at all nozzles or nozzle openings (4) measures for flow deflection are made and jets of nozzles of the same nozzle execution substantially uniform and uniform emerge. Spray tube (1) according to claim 1, characterized in that a calmed flow area without a longitudinal direction component is generated in that, seen in the direction of flow, a deflecting body (8) is introduced into the flow cross-section immediately before at least one of the nozzles. Spray pipe (1) according to claim 6, wherein the deflecting body (8) is formed by embossing on the spray pipe (1) from the outside. Spray tube (1) according to claim 6, wherein the deflecting body (8) is inserted as an additional component in the spray tube (1). Spray tube (1) according to one of claims 6 to 8, wherein the deflecting body (8) extends tongue-shaped from an additional component (9) radially inwardly with respect to the axis of symmetry of the spray tube (1). Spray tube (1) according to claim 1, characterized in that a calmed flow area without axial component is produced by the spray tube (1) being longitudinally inserted through at least one inserted partition (12) into at least one supply channel (13) and at least one outflow channel (14 ), wherein the at least two or more nozzles branch off from the outflow channel (14) and in which the supply channel (13) is connected to the outflow channel through one or more openings (15) in the dividing wall (12). Machine for cleaning goods to be cleaned, in particular dishwashing machine, comprising at least one spray pipe (1) according to one of the preceding claims for the application of cleaning liquid to be cleaned.

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