DE3525031A1 - BEAM REGULATOR - Google Patents

Abstract

1. A flow-restricting device (20) for a jet regulator (1) which belongs to sanitary draw-off taps or the like and is provided with at least one builtin part (3, 4), said flow-restricting device taking the form of an exchangeable insert (6) which is disposed with its flow-restricting passages (7) at least approximately in front of the further built-in parts (3, 4) of the jet regulator (1) in the direction of flow, engages over said built-in parts in a hat-shaped manner and is adapted to be supported against the dynamic pressure, characterized in that the insert (6) thereof has an annular wall (9) and a cover part (10) pointing towards the direction of flow (Pf 1) and that the flow-restricting passages thereof take the form of channels (7) disposed in the region of the annular wall and are bevelled at their outlet faces (8).

Description

The invention relates to a jet regulator for connection to sanitary outlet fittings or the like, with a throttle direction to reduce the flow rate, which too at least one insert with at least one passage has channel, and preferably with a jet Laying device and any other built-in parts.

Such flow regulators are in different flow rates divided into classes, which are identified by letters (C, B, S, A, Z) are drawn. Depending on the prevailing pressure ratio in a pipeline network is required for a desired through flow rate a corresponding jet regulator with fixed pre given volume flow selected. For that, however, are the appropriate technical knowledge required. A Selling in so-called self-service shops is therefore problematic matically, especially because of a subsequent change tion of the flow rate practically impossible and is also not provided.

In order to achieve economical water dispensing, is often the use of jet regulators with lower or the lowest flow rate (e.g. flow class Z) strived for. However, it is not certain from the outset whether such a jet regulator can be used at all.  

Due to the comparatively high throttling effect, näm Lich with simultaneous low line pressure malfunctions e.g. occur with a water heater, which then under certain circumstances no longer starts. In this case, too the entire jet regulator must be replaced.

You already know aerators with a throttle direction, in addition to a throttle insert Disc has, depending on the desired Dros selection has a more or less large hole. In order to a corresponding additional throttling can be used enough, but it has been found that there is increased valve noise, which may exceed the permissible maximum value steps. This can disadvantageously jet regulator with such throttling devices not for very low flow rates while maintaining of the permissible limit value for noise development be set. A replacement of the additional Dros In addition, sel disc is cumbersome with one Aid tool feasible and requires an equivalent dexterity and knowledge.

The object of the present invention is a beam controller of the type mentioned with a throttle to create direction that also with additional Redu adornment of the flow rate only small valve noises caused and in particular with this too additional reduction in the permissible range of Noise development does not exceed. Furthermore is Object of the invention that the (additional) throttle device also by non-specialists, especially without help tool assembled and disassembled if necessary that can. In addition, this throttle device is said to  be built up that they are also practically universal still sluggish in connection with different beam regulators can be used.

To solve this problem, the invention in particular whose proposed that the mouth surface of the or Passage channels at least one of the throttle insert parts arranged obliquely to the respective longitudinal axis of the channel and larger than the channel cross-section in the mouth area is.

Through this formation of the passage channels with in Flow course increasing release of the liquid beam in the mouth area, can be with good Dros a significant reduction in noise chen. One equipped with such passage channels Throttle insert can thus be used in an advantageous manner can also be used with a jet regulator, without the overall noise development being a permissible one Exceeds the maximum value.

An expedient embodiment of the invention provides before that the insert part has a downstream, the channel has orifices having a delimitation surface, which in an angle deviating from 90 ° to the longitudinal axis of the Through channels is arranged, this angle in particular approximately between 10 ° and 45 °, preferably is at 20 °. By this arrangement of the limitation area forms relative to the passage channels the desired shape of channel orifices that flow in the direction of flow extend an extended area so that the Liquid flow does not run simultaneously over the entire Cross section is released.  

Appropriately, the one provided with the channel mouths Boundary surface of the insert part to the longitudinal axis of the Jet regulator at an angle and the passageways parallel arranged to this longitudinal axis. Such an insert is particularly easy to manufacture.

An embodiment of the invention for the self-employed Protection is claimed, provides that the insert hat-shaped with a ring wall and one against the Cover part pointing in the direction of flow and in the area arranged through the annular wall passage channels det is at their mouths through the surface the wall is cut at an angle.

In such a hat-shaped insert, the Passage channels with the "cut" mouths accommodate particularly well, the hat shape the same early use in various jet regulators favored.

The hat-shaped insert part is advantageously as first installation part exchangeable in the direction of flow on a subsequent installation part and / or housing section or the like supported against the dynamic pressure. The Throttle insert can be particularly easy installed an existing jet regulator or de to be assembled.

The passage channels expediently have send an outer wall of the hat-shaped insert part diameter that is smaller than the inner cavity of a connected outlet fitting. This will make the front available space is used particularly cheaply, without changing the height of the beam regulator results.  

The ring wall of the insert part expediently has at its free end, a support surface if necessary with projections that match the shape of an adjacent one Installation part, in particular a sieve adapted is, the curved screen surface or the like. Approximately parallel to the support surface and preferably at a distance from the mouth surfaces of the passage channels is arranged. The insert part can well follow on in the direction of flow Support the following installation part, at the same time by the arrangement of the mouths favorable flow conditions and thus also a small one Adjust noise level.

It is preferably provided that the hat-shaped insert part at the open end by an outward-pointing preferably circumferential flange in particular as a support and Centering is enlarged. In addition to a cheaper on the insert is also mechanically sta bilized so that even with different Druckver conditions practically no vibrations can occur that contribute to increased noise would wear.

Additional embodiments of the invention are in the further subclaims listed. Below is the invention using an exemplary embodiment in the drawings described in more detail.

It shows:

Fig. 1 is a partial longitudinal sectional view of an outlet fitting attached to a jet regulator with a throttling device,

Fig. 2 is a partial longitudinal sectional view of a modified as compared to FIG. 1, the jet regulator with throttle device,

Fig. 3 to Fig. 6 are partial views of reactor-use parts under schiedlicher embodiments

Fig. 7 is a cross-sectional view of a throttle insert and

Fig. 8 is a plan view of the insert shown in Fig. 7.

A jet regulator 1 is connected in Fig. 1 to one end of a running armature 2 . Such a jet regulator is used in particular to mix the water emerging from the sanitary spout fitting 2 with air and to produce a uniform water jet. The necessary air intake device and jet device are summarized as assembly 3 . It can be seen on the flow inlet side of the assembly 3 final sieve 4 and in the side wall of this assembly 3 existing air slots 5th Integrated throttle inserts, which are dimensioned according to the desired flow class, can still be located within assembly 3 , particularly in the area of the jet separation device. By using an insert 6, which is particularly clearly recognizable in FIGS . 7 and 8, as an additional throttle, an existing jet regulator 1 with a fixed flow rate class can be changed so that a reduced flow rate and thus another flow rate class results.

The throttle insert 6 can in particular be dimensioned so that a flow class z. B. Z results in which a very economical water consumption can be achieved.

The particular problems with such an additional throttle insert 6 are that it can be used on the one hand in terms of its dimensions without structural changes to the jet regulator and in particular in terms of its height, and on the other hand the additional noise development (valve noise) is so low that the overall noise winding of the jet regulator 1 and that of the throttle insert 6 are still within permissible values.

The insert part according to the invention is provided with passage channels 7 which have outlet surfaces arranged on the outflow side at an angle to the longitudinal channel axis L (see also FIGS. 3 to 6). The orifices 8 thus extend over a comparatively long flow region, a liquid flow passing through the channels 7 through the orifices 8 not being released over its entire cross section at the same time, but rather through the inclined orifices 8 with a partially released liquid flow area-wise guidance of the liquid flow over a circumferential section. Experiments have shown that a significant reduction in noise can be achieved, so that such throttle insert parts 6 only slightly increase the overall noise level of a jet regulator and thus also enable subsequent installation without exceeding the permissible noise level.

The throttle insert 6 is substantially hutför shaped ( Fig. 7) with an annular wall 9 and a counter to the flow direction according to the arrow Pf 1 facing lid part. The passage channels 7 are located in the outer peripheral region of the cover part 10 and continue lengthwise through the ring wall 9 . The Mün extensions 8 are on the inside 11 of the ring wall 9th In the exemplary embodiment, it is formed at an angle to the longitudinal axis A and widens conically outward in the direction of flow. The passage channels 7 are arranged approximately parallel to the longitudinal axis A , so that an oblique cut and thus the desired shape of the orifices 8 is established on the inside 11 of the ring wall 9 . If necessary, the passageways 7 can also deviate somewhat from the parallel position to the longitudinal axis A , but the opening area that is enlarged compared to a vertical cross section is still available. The intersection angle S (see FIGS . 3 to 5) between the channel longitudinal axis L and the mouth surface can be approximately in the range between 10 and 45 °, preferably approximately 20 ° being provided.

The embodiment with the passage channels 7 parallel to the longitudinal axis A has the advantage of being easy to adjust. The insert 6 is namely before preferably made of plastic and is produced by an injection molding process. Due to the parallel arrangement of the through channels 7 , the insert 6 is particularly easy to demold.

Deviations from the preferred embodiment shown in particular in FIGS. 7 and 8 or 3 are shown in FIGS. 4 to 6.

According to FIG. 4, the inner side 11 is a straight or pa rallel aligned to the longitudinal axis A and the through passages 7 extend at an angle to S. In the embodiment of Fig. 5, the internal side is curved b 11, in which case the angle of intersection S between the tangent in the mouth region and the channel longitudinal axis L is located. In the exemplary embodiments described above, the passage cross section of the passage channels 7 has constant dimensions in the flow direction. A preferably circular cross section is provided, which is advantageous in terms of production technology.

FIG. 6 shows a modified embodiment in which the cross section of the channels 7 widens conically towards the mouth 8 .

The various embodiments according to FIGS. 3 to 6 can be used depending on the existing environmental conditions or also depending on the intended manufacturing process.

It should also be mentioned that in addition to the rounded or circular cross section of the passage channels, polygonal, for example square, cross sections can also be provided. To reduce the flow rate according to the flow class Z with about 8 liters per minute at 3 bar pressure, preferably 18 through passage channels 7 with a diameter of 0.9 mm are seen in the insert part 6 . This can be largely independent of the fixed flow class of a jet regulator 1 , this throttle to a flow rate corresponding to the flow class Z.

Fig. 8 shows particularly well that the passage channels 7 are arranged with their inlet openings 12 in the outer circumferential area and then continue in the annular wall 9 . Tests have shown that this arrangement of the passage channels 7 results in an improvement in the beam quality as far as possible in the outer area.

The cover part 10 of the insert part 6 is formed in the exemplary embodiments from as a flat plate. It is comparatively thick-walled and thus rigid, in order to avoid natural vibrations that would lead to noise even under different pressure conditions. If necessary, the cover part 10 can also be shaped conically against the direction of flow. The annular wall 9 with the inclined inner side 11 gives good stability at comparatively small wall thicknesses, so that vibrations are also avoided here.

The hat-shaped insert part 6 has an outwardly facing, circumferential flange 13 at the open end. This serves in particular as a support and holding part and also for centering the insert part. Furthermore, the water flange 13 results in a stabilization of the flange 13 narrower ring wall 9 and also the insert part 6 overall in the transition region.

The ring wall 9 or the flange 13 have an inclined support slope 14 . In the embodiment of a jet regulator 1 shown in FIG. 2, the insert part 6 with this support bevel 14 can rest on the top of the approximately conical sieve 4 and be supported there. It can also be seen that the orifices 8 are arranged at a distance from the surface of the sieve 4 , which results in favorable flow conditions, at least in most applications. The bevel of the support bevel 14 is approximately to the screen surface or another adjacent fitting to be fitted. The channel openings 8 are directed in the direction of flow onto the built-in parts of the jet regulator. Outwardly following the bevels 14 of the flange 13 , the peripheral surface of the flange has a shoulder 15 with a centering bevel 16 . This edge formation of the flange 13 enables a holding tion of the insert 6 in an embodiment of a jet regulator 1 shown in FIG. 1 . The insert 6 is supported with the shoulder 15 approximately radially on a press ring 17 belonging to the assembly 3 , the centering bevel 16 simultaneously providing axial support and centering of the insert 6 . In this application example, there is a sealing ring 18 on the flange 13 , which seals between the outlet fitting 2 and the jet regulator 1 . In the Ausführungsbei game of FIG. 2, the outer edge of the flange 13 is located inside of the seal ring 18 at. Although the A part 6 is held in both applications either by friction or by positive locking, a determination against the direction of flow due to the dynamic pressure occurring at least in substantially downward outlet fittings 2 is not neces sary.

The distance between the lid part 10 and the distance between the mouths 8 of the passages 7 from its support surface 14 is dimensioned such that a dome-shaped part of the sieve 4 fits into the insert part, but between the sieve and the mouths there is preferably a distance. This results in the hat-shaped throttle insert 6 in wesent union, the interior space required for the accommodation of the screen part. On the other hand, the outer dimensions of the insert part 6 are provided so that it can engage something in an inner cavity 19 of an outlet fitting 2 . By adapting the throttle insert 6 to the available space, which is in part stipulated by standardization, no changes to the jet regulator or the outlet fitting are required, and also no increase in the height of the jet regulator de intermediate parts.

The installation of the insert part 6 can be carried out particularly easily, since it is supported as a first installation part in the flow direction on a subsequent installation part or the like. The insert 6 is thus directly accessible for removal after unscrewing the jet regulator from the outlet fitting. Installation can also be carried out in the reverse order.

The insert 6 is expediently added to every sales pack for a jet regulator, in which case the user himself can - by trying - determine whether he leaves the insert 6 for particularly economical water consumption in the jet regulator 1 or it z. B. removed due to low line pressure. Due to the particularly simple design of the insert, this can also be produced very cheaply, so that the total cost of the jet regulator with throttle insert is only slightly increased.

Fig. 2 shows a dashed line on plug-in sieve 20 to cover the passage channels 7th This sieve is in the connection area and also in the area protruding from the insert 6 to the space conditions, in particular the diameter of the inner cavity 19 of the outlet fitting 2 , so that even with the plug-on sieve 20 an unobstructed assembly is possible in the usual way .

Due to the special shape and the dimensional adjustment of the throttle insert 6 to the usually available space in different jet regulators and by the design of its fastening and support parts in a suitable combination for different applications, there is a broad universal use of the throttle insert 6 in the various jet regulators on the market. In this regard, in terms of the valve noise development, operation of a jet regulator 1 with an additional throttle part 6 is only possible through the measures according to the invention for minimizing noise in the insert part 6 .

All in the description, the claims and the drawing Features shown can be both individually and also in any combination with each other be essential.

Claims (22)

1. Jet regulator for connection to sanitary outlet fittings or the like, with a throttle device for reducing the flow rate, which has at least one insert with at least one passage, and preferably with a jet disassembly device and, if appropriate, further built-in parts, characterized in that the mouth surface of the or Passage channels ( 7 ) of at least one of the throttle insert parts ( 6 ) are arranged obliquely to the respective channel longitudinal axis (L) and are larger than the channel cross section in the mouth region. 2. Jet regulator according to claim 1, characterized in that the passage cross section of the channels ( 7 ) in the flow direction has constant dimensions and preferably constant shape, that the mouth area is larger than the channel cross section, so that the projection of the mouth surface onto a perpendicular to the longitudinal axis (L ) of the channel ( 7 ) running level corresponds to the channel cross-section. 3. Jet regulator according to claim 1, characterized in that the projection of the mouth surface on a perpendicular to the channel longitudinal axis (L) extending plane is greater than the inlet cross section of the channel ( 7 ). 4. Jet regulator according to one of claims 1 to 3, characterized in that the insert ( 6 ) has an outflow side, the channel openings ( 8 ) having a boundary surface, the channels at an angle deviating from 90 ° to the longitudinal axis (L) of the passage channels is arranged and that the cutting angle (S) is in particular approximately between 10 ° and 45 °, preferably at approximately 20 °. 5. jet regulator according to claim 4, characterized in that the provided with the channel openings ( 8 ) boundary surface of the insert part ( 6 ) to the longitudinal axis (A) of the jet regulator ( 1 ) obliquely and the passage channels ( 7 ) parallel to this longitudinal axis ( A) are arranged. 6. Jet regulator according to one of claims 1 to 5, characterized in that the passage channels ( 7 ) have a rounded, preferably circular cross-section. 7. jet regulator according to one of claims 1 to 5, characterized in that the passage channels ( 7 ) a polygonal, z. B. have a square cross-section. 8. Jet regulator according to one of claims 1 to 7, characterized in that the cross sections of the passage channels are approximately 0.15 mm ² to approximately 1.8 mm ² , preferably approximately 0.65 mm ² , corresponding to a diameter in the case of circular channels ( 7 ) from about 0.5 mm to 1.5 mm, preferably 0.9 mm and that preferably 10-20, preferably 18 passage channels ( 7 ) are provided. 9. Jet regulator in particular according to one of claims 1 to 8, characterized in that the insert part ( 6 ) hat-shaped with an annular wall ( 9 ) and a counter to the flow direction lid part ( 10 ) and arranged in the region of the annular wall through channels ( 7 ) is formed, which are cut obliquely at their mouths ( 8 ) through the surface of the wall. 10. Jet regulator according to claim 9, characterized in that the hat-shaped insert ( 6 ) as the first installation part replaceable in the flow direction on a subsequent installation part ( 3 ) and / or Ge housing section or the like. Abge is supported against the back pressure. 11. Jet regulator according to one of claims 1 to 10, characterized in that the mouths ( 8 ) on the inside of the ring wall ( 9 ) of the insert ( 6 ). 12. Jet regulator according to one of claims 9 to 11, characterized in that the annular wall ( 9 ) of the insert part ( 6 ) to the longitudinal axis (A) of the jet regulator ( 1 ) oblique, in the direction of flow conically widening outward inner surface ( 11 ) has at which the mouths ( 8 ) of the pa to the longitudinal axis (A) of the jet regulator ( 1 ) approximately pa parallel passages ( 7 ) are arranged. 13. Jet regulator according to one of claims 9 to 12, characterized in that the passage channels ( 7 ) having the annular wall ( 9 ) of the hut-shaped insert ( 6 ) has an outer diameter which is smaller than the inner cavity ( 19 ) of a connected outlet fitting ( 2 ). 14. Jet regulator according to one of claims 9 to 13, characterized in that the ring wall ( 9 ) of the insert part ( 6 ) at its free end has a support surface, optionally with projections that match the shape of an adjacent installation part, in particular a sieve ( 4th ) et wa is adjusted and that the z. B. curved sieve surface or the like. Approximately parallel to the support surface and preferably at a distance from the mouth surfaces of the passage channels ( 7 ) is arranged. 15. Jet regulator according to one of claims 1 to 14, characterized in that the insert ( 6 ) is arranged on the connection side for the outlet fitting ( 2 ) and its channel openings ( 8 ) are directed in the flow direction onto the built-in parts of the jet regulator. 16. Jet regulator according to one of claims 9 to 15, characterized in that the hat-shaped A part ( 6 ) is enlarged at the open end by an outwardly facing, preferably circumferential flange ( 13 ) in particular as a support and for centering. 17. Jet regulator according to claim 16, characterized in that on its the cover ( 10 ) opposite end face of the through the oblique inner side ( 11 ) for cutting the passage channels ( 7 ) narrower ring wall ( 9 ), the support and centering flange ( 13 ). 18. Jet regulator according to claim 16 or 17, characterized in that the orifices ( 8 ) aufwei sending ring wall ( 9 ) of the insert ( 6 ) has an obliquely outward in the region of the flange ( 13 ) extending bevels ( 14 ). 19. Jet regulator according to one of claims 16 to 18, characterized in that the peripheral surface of the flange ( 13 ) has a shoulder ( 15 ) with a Zen trier bevel ( 16 ). 20. Jet regulator according to claim 19, characterized in that the projection ( 15 ) relative to the outer circumference of the flange ( 13 ) is offset inwards and that the centering slope ( 16 ) adjoins this extension on the outside. 21. Jet regulator according to one of claims 1 to 20, characterized in that the distance between the cover part ( 10 ) and the distance between the mouths ( 8 ) of the passage channels ( 7 ) from the contact surface of the insert part ( 6 ) is dimensioned so that a dome-shaped part of a sieve ( 4 ) fits into the insert part, but there is preferably a distance between the sieve and the mouths. 22. Jet regulator according to one of claims 1 to 21, characterized in that the insert part ( 6 ) has an attachable sieve ( 20 ) for covering the passage channels.