AERATOR

Abstract

A jet regulator (1) which can be mounted on the water outlet of a sanitary outlet fitting and has a jet regulator housing (2), in which a jet splitter (3) is provided, which has splitter openings (17) for dividing the water flowing through into individual jets, and at least one insert part (5), which has a grid structure (6) consisting of two sets of parallel webs (7; 8) which touch one another or intersect at crossing nodes (9). In the jet regulator (1), the sets are arranged in two levels offset in the longitudinal direction of the jet regulator; the mutually parallel webs (7) of an inflow side set have a round or rounded web cross-section, and the webs (8) of an outflow side set have a flattened portion (10) on their inflow side and are rounded on their outflow side (11).

Claims

1. A jet regulator (1) which (1) can be mounted on the water outlet of a sanitary outlet fitting, the jet regulator comprising: a jet regulator housing (2): a jet splitter (3), which has splitter openings (17) for dividing the water flowing through into individual jets, located in the jet regulator housing; at least one insert part (5) which (5) has a grid structure (6) comprising two sets of parallel webs (7; 8) that touch or intersect one another at crossing nodes (9); wherein the sets of parallel webs are arranged in two planes offset in a longitudinal direction of the jet regulator, mutually parallel webs (7) of an inflow-side one of the sets have a round or rounded web cross section, and the webs (8) of an outflow-side one of the sets bear a flattened portion (10) on an inflow side thereof and are rounded on an outflow side (11) thereof.

2. The jet regulator (1) as claimed in claim 1 wherein, the flattened portions (10) of the webs (8) provided in the outflow-side set and the rounded outflow sides (11) thereof are connected by web walls (12, 13) arranged parallel to one another in a throughflow direction (Pf1).

3. The jet regulator (1) as claimed in claim 2, wherein the flattened portion (10) of the webs (8) provided in the outflow-side set form a respective right angle with the web walls (12, 13) adjoining either side thereof.

4. The jet regulator (1) as claimed in claim 2, wherein the web walls (12, 13) have a longitudinal extent in the throughflow direction that is greater than diameter of the rounding provided on the outflow side (11).

5. The jet regulator (1) as claimed in claim 1, wherein the webs (7, 8) that cross one another are connected to one another in one piece, and the webs (7, 8) touch one another at the crossing nodes (9) such that the flattened portion (10) of the webs (8) provided in the outflow-side set is arranged approximately in a longitudinal center plane of the webs (7) forming the inflow-side set.

6. The jet regulator (1) as claimed in claim 1, wherein the grid structure (6) of the at least one insert part (5) is bounded by an outer ring (14), and web ends of the webs (7, 8) forming the grid structure (6) are molded on an inner circumference of the outer ring (14).

7. The jet regulator (1) as claimed in claim 1, wherein the at least one insert part (5) is a plastic injection-molded part.

8. The jet regulator (1) as claimed in claim 7, wherein the flattened portion (10) of the webs (8) provided in the outflow-side set are configured to define a tool parting plane of an injection molding tool used to produce the at least one insert part (5).

9. The jet regulator (1) as claimed in claim 1, wherein at least two of said insert parts (5) are connected downstream of the jet splitter (3) in a throughflow direction.

10. The jet regulator (1) as claimed in claim 1, wherein the jet splitter (3) comprises a diffuser which has a cup-shaped diffuser insert (15), a cup base of which forms an impinging and deflecting surface (16) for the inflowing water and which, on a circumferential wall of the cup shape, has the splitter openings (17) which are spaced apart from one another in a circumferential direction and lead into an annular gap (18).

11. The jet regulator (1) as claimed in claim 10, wherein the annular gap (18) narrows in the throughflow direction.

12. The jet regulator (1) as claimed in claim 10, wherein the diffuser insert (15) of the jet splitter (13) is insertable into a diffuser ring (19), and the annular gap (18) is formed between the diffuser insert (15) and the diffuser ring (19) of the diffuser.

13. The jet regulator (1) as claimed in 6, wherein an outflow-side end edge on the outer ring (14) of the at least one insert part (5) is arranged below a plane formed by the grid structure (6) in the throughflow direction (Pf1).

14. The jet regulator (1) as claimed in claim 1, wherein the jet regulator is an aerated jet regulator (1).

15. The jet regulator (1) as claimed in claim 6, wherein on the outflow side of the at least one insert part (5) there is provided a central spacer (21) having an outflow-side end face, which is arranged approximately in a plane with an outflow-side end face (20) of the outer ring (14), and rests on the grid structure (6) of one said insert part (5) that follows in the flow direction or of an outflow-side flow straightener (22).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0023] Refinements according to the invention will emerge from the following description of an exemplary embodiment according to the invention in conjunction with the claims and the drawing. The invention will be described in more detail below on the basis of a preferred exemplary embodiment.

[0024] In the drawings:

[0025] FIG. 1 shows a side view of a jet regulator according to the invention which can also be mounted on the water outlet of a sanitary outlet fitting in order to form the water emerging there into a homogeneous and non-sputtering outlet jet,

[0026] FIG. 2 shows the jet regulator from FIG. 1 in a longitudinal section through the sectional plane II-II from FIG. 1, with at least two insert parts being inserted in the housing interior of the jet regulator housing, each of which has a grid structure composed of two sets of webs crossing one another,

[0027] FIG. 3 shows one of the insert parts of the jet regulator shown in FIGS. 1 and 2, and

[0028] FIG. 4 shows the insert part, which was already shown in FIG. 3 and is shown here in longitudinal section in certain regions, of the jet regulator depicted in FIGS. 1 and 2.

DETAILED DESCRIPTION

[0029] A jet regulator 1 is illustrated in FIGS. 1 and 2. The jet regulator 1 is mounted on the water outlet of a sanitary outlet fitting, not shown here in more detail, in order to form the water emerging there into a homogeneous and non-sputtering outlet jet. For this purpose, the jet regulator 1 has a jet regulator housing 2 in which there is provided a jet splitter 3 having splitter openings 17, which has to divide the water flowing through the jet splitter 3 into a plurality of individual jets. In order to be able to very strongly decelerate the individual jets generated in the jet splitter 3 and, as required, to improve the turbulence and mixing of these individual jets with ambient air, at least one insert part 5 having a grid structure 6 composed of two sets of parallel webs 7, 8, which touch one another or intersect at crossing nodes 9, is inserted in the jet regulator housing 2 of the jet regulator 1. In the longitudinal section according to FIG. 2, it can be seen that the jet regulator 1 depicted here has two such insert parts 5 which follow one another in the throughflow direction Pf1.

[0030] In order to be able to give a finely structured or a fine-mesh configuration to the grid structure 6 of these insert parts 5, as was possible to date using screen disks of metal braided fabric, provision is made that the web sets formed from the webs 7, 8 are arranged in two planes offset in the longitudinal direction of the jet regulator. Since the webs 7, 8 arranged in the various planes are supported against one another, the webs 7, 8 provided in the individual planes can also have comparatively thin configurations. Since the mutually parallel webs 7 of an inflow-side set have a round or rounded web cross section, the inflowing water is initially conducted readily into the grid structure 6 formed by the various webs 7, 8, without the homogeneity of the water emerging from the jet regulator 1 being excessively adversely affected. The water then enters the jet regulator housing 2 in the region of the outflow-side-arranged set of webs 8 of this at least one insert part 5. Since these webs 8 arranged on the outflow side bear a flattened portion 10 on their inflow side, strong deceleration of the water is promoted even if these webs 8 have a comparatively small diameter. Since the webs 8 are rounded on their outflow side, a homogeneous emergence of the water passing through is substantially promoted. Since the insert parts 5 may also be produced as plastic injection-molded parts and do not have to be produced from a metal screen even in the case of a filigree grid structure, the production of the jet regulator 1 and its insert parts 5 and also later recycling of the constituent parts is possible easily and inexpensively.

[0031] As is clear from a comparison of FIGS. 2 and 4, the flattened portion 10 of the webs 8 provided in the outflow-side set and their rounded outflow side 11 are connected via web walls 12, 13, which are arranged parallel to one another in the throughflow direction Pf1.

[0032] In order to be able to give the longitudinal edge of these webs 8 between the inflow-side flattened portion 10, on the one hand, and the adjacent web wall 12 or 13, on the other hand, as sharp-edged a configuration as possible, it is advantageous if the flattened portion of the webs 8 provided in the outflow-side set each forms an approximate respective right angle with the web walls 12, 13 adjoining it on either side.

[0033] The longitudinal sections according to FIGS. 2 and 4 clearly show that the web walls 12, 13 have a longitudinal extent in the throughflow direction Pf1 that is greater than the diameter of the rounding provided on the outflow side 11 of the webs 8. The webs 7, 8 that cross one another of each insert part 5 are connected to one another in one piece, with the webs 7, 8 touching one another at their crossing nodes 9 in such a way that the flattened portion 10 of the webs 8 provided in the outflow-side set is arranged approximately in the longitudinal center plane of the webs 7 forming the inflow-side set. In this respect, the webs 7, 8 in the different planes are arranged offset with respect to one another by half the diameter of the webs 7, for example, and the flattened portion 10 is formed, for example, along a secant of an otherwise semi-circular profile or cross section of the webs 8.

[0034] As is clear from FIGS. 3 and 4, the grid structure 6 of the insert parts 5 is bounded by an outer ring 14, the web ends of the webs 7, 8 forming this grid structure 6 being molded on the inner circumference of the outer rings 14. In this respect, the flattened portion 10 of the webs 8 provided in the outflow-side set may also define a tool parting plane of an injection molding tool used to produce the at least one insert part 5. The insert parts 5 and preferably also the other constituent parts of the jet regulator 1 are produced as plastic injection-molded parts.

[0035] The jet splitter 3 of the jet regulator 1 may be in the form of a perforated plate which has splitter openings and which is arranged in a plate plane oriented transversely to the throughflow opening Pf1. In the case of the jet regulator 1 illustrated here, however, the jet splitter 3 is in the form of a diffuser which has a cup-shaped diffuser insert 15, the cup base of which is in the form of an impinging and deflecting surface 16 for the inflowing water. On the circumferential wall of its cup shape, this cup-shaped diffuser insert 15 has splitter openings 17 which are spaced apart from one another in the circumferential direction and lead into an annular gap 18. This annular gap 18 narrows in the throughflow direction of the water flowing through, with the result that a negative pressure is generated on the outflow side of this jet splitter 3. The diffuser insert 15 of the jet splitter 3 is inserted in a diffuser ring 19 which delimits the annular gap 18 between itself and the diffuser insert 15.

[0036] A comparison of FIGS. 3 and 4 makes it clear that the outflow-side end edge 20 on the insert parts 5 is arranged below the plane formed by the grid structure 6 in the throughflow direction Pf1. This outflow-side end edge 20 thus forms a spacer, which keeps the relevant insert part 5 spaced apart from the insert part 5 that follows in the flow direction or another following constituent part of the jet regulator 1.

[0037] The jet regulator 1 may be in the form of an aerated jet regulator, or what is referred to as a jet aerator, which has aeration openings on the housing circumference of its jet regulator housing, through which aeration openings the ambient air can be drawn into the housing interior of the jet regulator housing. This ambient air is then mixed with the water coming from the jet splitter in a mixing zone arranged on the outflow side of the jet splitter.

[0038] In the exemplary embodiment illustrated here, however, the jet regulator 1 is in the form of a non-aerated jet regulator.

[0039] A comparison of FIGS. 2 and 4 makes it clear that on the outflow side of the insert parts 5 there is provided a respective central spacer 21, the outflow-side end face of which, which is preferably arranged approximately in a plane with the outflow-side end face 20 of the outer ring 14, rests on the grid structure of an insert part that follows in the flow direction or of a flow straightener 22 that follows in the flow direction. In this way, the grid structures 6 of the insert parts 5 are additionally supported, in particular when the grid structure 6 of these insert parts 5 has a comparatively thin and filigree form.

[0040] In the longitudinal section according to FIG. 2, it can be seen that the jet regulator 1 has the flow straightener 22 on its outflow side. This flow straightener has a multiplicity of guide openings 23, which have a greater longitudinal extent than the clear opening cross section. In these guide openings, the water swirled in the housing interior of the jet regulator housing 2 is aligned and homogenized again, so that the water emerging from the jet regulator 1 can emerge as a homogeneous and non-sputtering water jet.

[0041] The longitudinal section according to FIG. 2 also shows that a flow rate regulator 24 is inserted in the cup interior of the cup-shaped diffuser insert 15. This flow rate regulator regulates the flow rate output to a specified value independently of the pressure. For this purpose, the flow rate regulator 24 has an annular throttle body 25 which delimits a control gap 26 between itself and at least one regulating profile provided on an opposite, inner or outer circumferential wall. Under the pressure of the water flowing through, the throttle body 25 produced from elastic material can mold into the regulating profile in such a way that the control gap 26 of the flow rate regulator 24 narrows on the basis of the water pressure.

[0042] It is advantageous if the flattened portion 10 provided on the outflow-side webs 8 constitutes a third of the radius of the overall approximately circular profile shape of these webs 8. It has been shown that, in the case of flattened portions 10 which are arranged on a larger radius, undesired excessive sputtering of the outflowing water can be possible. By contrast, in the case of the flattened portions 10 arranged at a smaller radial distance from the center of the webs 8, there is no appreciable improvement but rather additional mechanical weakening of the grid structure 6 is to be expected.

[0043] As disclosed by the exemplary embodiment shown here, two insert parts 5 are preferably arranged directly one behind the other in the flow direction. In this respect, it is not necessary to align the grid structures 6 of these insert parts 5 in relation to one another or in relation to the jet regulator housing 3. Since the grid structures 6 of the insert parts 5 are kept spaced apart by the outer ring 14 of these insert parts, between the grid structures 6 of these insert parts 5 there is formed a free space which allows the water passing through the inflow-side grid structure to expand and this water flowing through can therefore become steadied so as to form a good jet pattern.

LIST OF REFERENCE SIGNS

[0044] 1 Jet regulator

[0045] 2 Jet regulator housing

[0046] 3 Jet splitter

[0047] 5 Insert part

[0048] 6 Grid structure

[0049] 7 Webs in the inflow-side web set

[0050] 8 Webs in the outflow-side web set

[0051] 9 Crossing nodes

[0052] 10 Flattened portion

[0053] 11 Outflow side

[0054] 12 Web wall

[0055] 13 Web wall

[0056] 14 Outer ring

[0057] 15 Diffuser insert

[0058] 16 Impinging surface

[0059] 17 Splitter opening

[0060] 18 Annular gap

[0061] 19 Diffuser ring

[0062] 20 Outflow-side end edge

[0063] 21 Spacer

[0064] 22 Flow straightener

[0065] 23 Guide openings

[0066] 24 Flow rate regulator

[0067] 25 Throttle body made of elastic material

[0068] 26 Control gap

[0069] Pf1 Throughflow direction