Flow rate regulator

Abstract

A flow rate regulator (1) having a regulator housing (2), wherein said regulator housing (2) has an outer circumferential edge region (5) that can be placed on an end circumferential edge region (3) of a jet regulator (6) and/or of a sieve (11) and including a central annular gap (12), in which an annular throttle body (13) made of elastic material is present, bounding a control gap (15) between same and an inner and/or outer circumferential wall (14) of the annular gap (12) having a control profile, wherein the open flow-through cross-section of said control gap is changeable under the pressure of the flowing water. The flow rate regulator (1) according to the invention is characterized in that said regulator has a shell-shaped regulator housing (2), the outer circumferential edge region (5) of which is designed as a radially outwardly protruding ring flange, and in that the inner shell chamber (18) of the regulator housing (2) open to the outlet side is dimensioned for receiving a sub-region of the sieve (11) protruding past the end circumferential edge region (3) of the jet regulator (6).

Claims

1. A combination of a jet regulator (6) with a conical-shaped sieve (11), which is arranged, in a flow direction, upstream of an inflow end of the jet regulator (6); and a flow regulator (1), the flow regulator (1) is arranged upstream of the conical-shaped sieve (11), the flow regulator comprises a housing (2) having a central ring gap (12), defined by an inner circumferential wall and an outer circumferential wall, in which is provided an annular choke body (13) of elastic material, which delimits a control gap (15) between itself and at least one of the inner or outer circumferential wall (14) of the ring gap (12) having a control profiling, a clear flow cross section of the control gap (15) can be modified under pressure of the flowing water, a shell interior (18) of the regulator housing (2) open towards an outflow side, the outflow side of the regulator housing (2) receives a central portion of an upstream protruding part region of the conical-shaped sieve (11).

2. The combination as claimed in claim 1, wherein a ring seal (19) is provided at least on an inflow-side face of the ring flange.

3. The combination as claimed in claim 2, wherein the ring seal (19) surrounds the ring flange on an outer edge side.

4. The combination as claimed in claim 3, wherein the ring seal (19) surrounds the ring flange on the outer edge side such that the ring seal has one ring seal part region provided on the inflow-side face and one on an outflow-side face of the ring flange.

5. The combination as claimed in claim 3, wherein the regulator housing (2) is formed as a multi-component injection molding and the ring seal surrounding the ring flange on the outer edge side is made from an elastic or elastomer material component.

6. The combination as claimed in claim 1, wherein the ring gap (12) is arranged approximately coaxial to a housing longitudinal axis of the regulator housing (2).

7. The combination as claimed in claim 1, wherein the choke body cooperates with the control profiling provided on the inner circumferential wall (14) bordering the ring gap (12).

8. The combination as claimed in claim 2, wherein the jet regulator (6) is insertable in a sleeve-like outlet mouthpiece (9) and the ring seal (19) protrudes over an inflow end circumferential edge region of the outlet mouthpiece (9).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Additional embodiments of the invention arise from the claims and the description in conjunction with the drawing. The invention is now explained with its essential details in more depth below with reference to the drawings. The drawings show:

(2) FIG. 1 a jet regulator with a sieve attachment which is inserted in a sleeve-like outlet mouthpiece which on its outer periphery carries an external thread, with which the outlet mouthpiece can be screwed into an internal thread provided on the outlet end of a sanitary outlet fitting, wherein connected upstream of the jet regulator is a flow regulator shown here in longitudinal section with a shell-like regulator housing, of which the outer circumferential edge region which can be placed on the inlet end circumferential edge region of the jet regulator is formed as a radially outwardly protruding ring flange, and wherein a ring seal lies on the inflow-side face of the ring flange and protrudes over the inflow end circumferential edge region of the outlet mouthpiece,

(3) FIG. 2 the jet regulator with sieve attachment, flow regulator and ring seal from FIG. 1 in an exploded view,

(4) FIG. 3 the flow regulator from FIGS. 1 and 2 in a perspective view,

(5) FIG. 4 the flow regulators from FIGS. 1 to 3 in longitudinal section,

(6) FIG. 5 the flow regulators from FIGS. 1 to 4, wherein here in addition a ring seal is provided on the outflow-side face of the ring flange of the flow regulator,

(7) FIG. 6 the jet regulator with sieve attachment, the outflow-side ring seal, the flow regulator itself and the ring seal on the inflow side in relation to the flow regulator, in an exploded view,

(8) FIG. 7 the flow regulator from FIGS. 5 and 6 in a perspective view, and

(9) FIG. 8 the flow regulator from FIGS. 5 to 7 in longitudinal section.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

(10) FIGS. 1 to 8 show a flow regulator 1 in two different embodiments. The flow regulator 1 has a regulator housing 2 which has an outer circumferential edge region 5 which can be placed on the inflow end circumferential edge region 3 of a sleeve-like jet regulator housing 4. The jet regulator housing 4 is part of a jet regulator 6 which is here formed as an aerated jet regulator and is intended to form a homogenous, splash-free and soft perlating water jet.

(11) In order to be able to mount the jet regulator 6 releasably on the outlet end 7 of a sanitary outlet fitting 8, a sleeve-like outlet mouthpiece 9 is provided in which the jet regulator 6 can be inserted from the inflow side up to an insert stop designed here as a ring shoulder 10. In an inflow-side housing part region of the jet regulator housing 4 a sieve attachment 11 is releasably attached which is intended to retain any dirt particles carried in the water and which protrudes over the inflow end of the jet regulator 6 only by a central part region of its conical outer contour.

(12) The regulator housing 2 of the flow regulator 1 has a central ring gap 12 in which is provided an annular choke body 13 of elastic material. This choke body 13 delimits a control gap 15 between itself and an outer inner circumferential wall 14, wherein the clear flow cross section of the control gap can be modified under the pressure of the flowing water. On the inner circumferential wall 14 is also provided a control profiling consisting of wall recesses and protrusions 16, 17 oriented in the flow direction, in which the annular elastic choke body 13 can form or mold itself increasingly under increasing pressure such that the clear flow cross section of the control gap 15 reduces ever more as the pressure increases.

(13) The regulator housing 2 of the flow regulator 1 is formed shell-like. The outer circumferential edge region 5 of the shell-like regulator housing 2 is designed as a radially outwardly protruding ring flange. The shell interior 18 of the regulator housing 2 open towards the outflow side is dimensioned such that it can receive the part region of the sieve attachment 11 protruding over the inflow-side face and in particular the end circumferential edge region 3 of the jet regulator 6.

(14) The flow regulator 1 can therefore also be used subsequently in an existing installation in which a jet regulator 6 and an upstream sieve attachment 11 are already present and mounted at the outlet end 7 of a sanitary outlet fitting 8. The flow regulator 1 is placed only with its outer circumferential edge region 5 formed as a ring flange on the inflow end circumferential edge region 3 of the jet regulator 6 such that the flow regulator 1 covers the inflow side of the jet regulator 6 and the sieve attachment 11 connected upstream of the jet regulator 6. Using the flow regulator 1 therefore a subsequent pressure-compensating upgrade is possible of an existing installation which previously comprised only a jet regulator 6 and a sieve attachment 11. Using the flow regulator 1 the water volume flowing per time unit can be set and limited to a fixed value substantially more precisely than would be possible with the previously known flow limiters.

(15) It is clear from a comparison of the embodiments shown firstly in FIGS. 1 to 4 and secondly in FIGS. 5 to 8 that a ring seal 19 is provided at least on the inflow-side face of the ring flange, which seal is intended to prevent undesirable leakage flows past the outer periphery of the jet regulator housing 4. Whereas the embodiment shown in FIGS. 1 to 4 has only one such inflow-side ring seal 19 which lies on the inflow side of the ring flange and protrudes over the inflow end circumferential edge region of the outlet mouthpiece 9, in the embodiment shown in FIGS. 5 to 8 an outlet-side ring seal 20 is also provided which seals between the outlet side of the ring flange and the inflow end circumferential edge region 3 of the jet regulator 6.

(16) A further embodiment not shown here provides that the ring seal surrounds the ring flange on the outer edge side. The ring seal can here have one ring seal part region on the inflow-side face and one on the outflow-side face of the ring flange. With such an embodiment it can be particularly advantageous if the regulator housing is formed as a multi-component injection molding and if the ring seal surrounding the ring flange on the outer edge side is made from an elastic or elastomer material component.

(17) It is evident from FIGS. 1 and 5 that the ring gap 12 is arranged approximately coaxial to the housing longitudinal axis of the regulator housing 2.