The invention relates to a shower head for a sanitary shower fitting.
There are a large number of sanitary shower fittings—be these hand-held shower attachments, overhead shower attachments or side shower attachments—with which it is possible to achieve a massage action. For this purpose, use is made of mechanically moving elements which can lead to the individual water jets being interrupted. Oscillators, which change the direction of the exiting water jets, are likewise known. A further option for producing a kind of massage action may be provided by aerated water jets.
In a further known massage shower attachment (DE 3018917), a partially rotating water flow is generated in a cylindrical chamber within the shower head. For this purpose, some of the water flowing into the shower attachment is directed axially into the chamber, while the rest of the water is introduced at a number of locations obliquely in relation to the axis of the cylindrical chamber. The one end of the chamber is provided with the spray disc.
In the case of a further known hand-held shower attachment (DE 3300469), the shower head contains a hemispherical vortex chamber in which a water vortex is generated about an axis which runs parallel to the spray disc. Pulsating jets exit out of a small number of holes in the planar boundary surface of this chamber. The massage action can be enhanced by mechanical devices.
In the case of yet a further shower attachment (DE 29710111), this one generating individual droplets, the water is introduced tangentially, in a shower-attachment housing, at the location with the smallest diameter. The shower-attachment housing then widens in the shape of a funnel, and the jet-outlet openings are arranged at the end with the largest diameter.
It is an object of the invention to provide a shower head for a sanitary shower fitting which, without moving parts, can generate shower jets with a massage action with special effects.
In order to achieve this object, the invention proposes a shower head having the features cited in Claim 1. Developments of the invention form the subject matter of dependent claims.
The water thus passes tangentially into the chamber arranged in the shower-head housing, to be precise at a location where the chamber has its largest diameter. The water flow forms a vortex which, on account of the tapering cross section of the chamber, is then accelerated further. When the shower attachment starts up, a pocket of air forms in the interior of the incipient vortex, and this pocket of air circulates with the vortex, although it moves around eccentrically rather than being arranged constantly in the centre. As a result, water jets with a periodically changing voltage exit at the outlet of the jet openings of the spray disc. This gives rise to a massage effect without mechanically moving parts having to be used. In addition, there is no need for the water jet which enters into the shower attachment to be split. The function is maintained even when the pocket of air disappears following a relatively long period of operation.
The chamber which is formed in the shower-head housing, and could also be referred to as a vortex chamber, has, in a cross section parallel to the spray disc, a rounded circumference, in order to assist the vortex which is generated by the tangentially entering water. It has been found, surprisingly, that the circumference or the cross section through the vortex chamber need not be round. It is also the case that an oval shape, which results in the jet-outlet disc being elongate, can be provided with a massage action in this way. There are therefore relatively wide-ranging possibilities available for the shaping of a shower attachment.
In a further development of the invention, it may be provided that the water guide for the water entering into the chamber also opens out tangentially in the inlet region of the chamber as seen in the axial direction. The axial direction is to be understood as the direction which is perpendicular to the jet-outlet disc.
In a development, the tapering region, which adjoins the inlet region of the chamber, preferably begins such that its wall begins virtually parallel to a cross-sectional plane. In other words, there is a pronounced reduction in the cross section of the chamber at the beginning of the tapering region. As the tapering region progresses, the wall of this region then approaches, along a curved transition, a direction which is perpendicular to the spray disc, and therefore the end of the tapering region has a wall which runs tangentially to the axial direction.
The transition between the beginning and the end of the tapering region thus runs along a contour of more or less pronounced curvature, and therefore the vortex which is generated in the chamber is not disturbed in any way along this smooth transition.
In a development of the invention, the tapering region may be configured such that, as it progresses, the diameter of the chamber decreases considerably, for example in a ratio of approximately 2:1 to approximately 6:1.
In contrast, the axial extent of the tapering region, that is to say the dimensions perpendicular to the cross section running parallel to the spray disc, may be considerably smaller than the maximum diameter of the chamber. The axial extent may be, for example, in a region of 1:2 to approximately 1:5 in relation to the maximum diameter of the vortex chamber.
Since the shower head proposed by the invention need not necessarily differ, in respect of its outer configuration, from conventional shapes, it may be provided, in a development of the invention, that the water inlet into the housing is arranged radially. If the shower head is a hand-held shower attachment, it is thus possible for the grip of the hand-held shower attachment to be arranged radially in relation to the shower head.
If, in contrast, the shower head is an overhead shower attachment or a side shower attachment, it may also be provided according to the invention that the water inlet into the housing runs in the axial direction, that is to say perpendicularly to the spray disc. In the case of an axially running water inlet into the housing, it may be provided that this inlet, rather than being arranged in the centre of the shower head, is offset laterally.
In order to generate a tangential flow in the vortex chamber, despite the axial and/or radial progression of the water inlet into the housing, it may be provided, in a development of the invention, that the water guide from the water inlet to the chamber is designed as a channel which runs outside the chamber, along the circumference of the chamber, at least to the extent where it passes at least more or less tangentially into the chamber, for example over an arc length of 20°, preferably over an arc length of at least approximately 45°.
This channel then opens out in the chamber as an outlet opening.
The outlet opening preferably likewise runs along the circumference, to be precise here too, once again, along an arc length which is sufficient to ensure entrance into the chamber in a vortex-generating direction. This may be, for example, at least approximately 15°.
In a further development of the invention, it may be provided that the outlet opening of the channel is located in a plane which runs parallel to the spray disc.
It may be provided, in a development of the invention, that the outlet opening of the channel is located opposite the wall located more or less in a radial plane at the beginning of the tapering region. The entering water is thus directed right into the tapering region.
According to the invention, it may be provided that the channel of the water guide itself has a gradually decreasing cross section. This gives rise to a uniform and defined entry jet into the vortex chamber.
It is also possible for throughflow-regulating means to be provided upstream of the channel. This influences the flow speed and, as a result, the massage frequency.
Since the tapering region has a decreasing cross section, it terminates at a location with the smallest cross section, that is to say a constriction. According to the invention, then, it may be provided that this location is adjoined by a jet-outlet chamber bounded by the spray disc. There is thus a certain distance present between the end of the tapering region, that is to say the constriction, and the spray disc. This distance forms the thickness of the jet-outlet chamber.
Depending on the requirements of each individual case, the diameter of the jet-outlet chamber may be identical to the diameter of the constriction.
However, it is likewise possible, and preferred by the invention, for the diameter of the jet-outlet chamber to be greater, in particular considerably greater, than the minimum diameter of the tapering region. In particular, it may be provided that the diameter of the jet-outlet chamber is approximately equal to, or even somewhat greater than, the maximum diameter of the vortex chamber in its inlet region.
It has been found, surprisingly, that such an increase in the diameter of the jet-outlet chamber in relation to the end of the tapering region nevertheless results in a massage action even at the outer regions of the jet-outlet disc, this massage action being a particularly pleasant one.
According to the invention, it may be provided that, on its side which is directed away from the spray disc, the jet-outlet chamber is terminated by a base around the end of the tapering region. This base may be, in particular, planar.
The jet-outlet chamber, which is formed between the jet-outlet disc and the base, is preferably designed as a flat chamber, the thickness of which is considerably smaller than the diameter of the exit opening of the tapering region.
Water passes into the vortex chamber at the location where the vortex chamber has its largest diameter. According to the invention, then, it may be provided that, on that side of the inlet region which is directed away from the spray disc, the chamber formed in the shower head continues as far as a rear wall of the shower-head housing.
It may be provided, in a development of the invention, that the spray disc has a plurality of regions which can be supplied with water separately from one another with the aid of a changeover device. The regions may preferably have jet-outlet openings of different sizes in order, in this way, to generate differently acting massage jets. For example, harder massage jets may be generated in the centre, whereas the periphery of the spray disc can benefit from the particular advantage of the shower attachment according to the invention for generating soft massage jets.
Further features, details and advantages of the invention can be gathered from the claims and from the abstract, the wording of both of which is incorporated into the content of the description by reference, from the following description of preferred embodiments of the invention and with reference to the drawing, in which:
Referring first of all to
The housing of the shower head has formed in it, outside the upper region of the chamber 6, a channel 12, which extends along a circumference around the chamber 6. The channel 12 has a rectangular cross section with rounded edges. On the right-hand side in
The handgrip 2 contains a channel 15 through which the water flows into the shower head through the shower-attachment hose. This channel 15 is connected to the aforementioned channel 12 via an arcuate conduit portion 16. The channel 12 runs, see also
The partial section in
It is evident from both
As soon as the water has passed the constriction 9, the circulating flow causes it to pass into the flat jet-outlet chamber 11, from where it leaves the shower head through the jet-outlet openings which are present there. The circulating flow gives rise to greater or lesser volumes in a pattern which rotates in circular form around the axis of the chamber 6.
An interspace 19 which is air-filled, but does not perform any function, is formed between the outside of the chamber 6, in the tapering region 8 of the latter, and the base 10, which is provided at the end of the tapering region. This interspace 19 can also be seen in the section in
The longitudinal section in
The longitudinal section through the shower head in
In the case of this embodiment, the channel and its outlet opening 13 progress in the same way as in the embodiment according to
While the previous embodiments show shower heads of hand-held shower attachments, in which the water enters radially through the handgrip 2,
The shower head of
It has already been mentioned that the jet-outlet disc may also have a plurality of regions which can be activated separately. In this respect, reference is made to
The through-passage openings 30 together preferably have a similar throughflow cross section to the jet-out let openings in the outer region taken together.
If the spray disc 5 is rotated with the aid of the adjusting extension 31, then the spray-disc core 25 is displaced into the position which is illustrated in
The spray-disc core, which is displaced in the case of the embodiment illustrated, may also have a different number of jet-outlet openings 30. It is likewise conceivable for it to contain a single central opening.
In the case of the embodiment illustrated, the spray-disc core can be moved axially, whereas the spray disc outside the core is fixed. It is also conceivable for the spray disc to be displaced as a whole in order for the various regions of the spray disc to be switched on.
Number | Date | Country | Kind |
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102009047907.4 | Sep 2009 | DE | national |