The invention relates to a fountain attachment for water effects with an adjustable nozzle comprising a slot size that is adjusted by a coaxial displacement of an exterior pipe relative to an interior pipe. Such a nozzle, for example, can be constructively realized by a deflector element attached to the interior pipe that can be moved in and out of the exterior pipe by the coaxial displacement of the pipes relative to each other.
In such fountain attachments, for adjusting the slot size, a rotation of the pipes relative to each other is translated into the coaxial displacement by means of a guide contour interacting with movable guide balls that are pretensioned by springs. For example, by a rotational movement applied to the exterior pipe, a variable water effect of the fountain attachment can be generated.
In the embodiments known in the prior art, the guide ball is pushed immediately by a spring into the guide contour. The guide ball therefore rubs directly on the spring so that the latter is subjected to strong torsional forces. Both elements wear therefore quickly and must be exchanged in a complex manner. Also, higher water pressures cannot be realized with such a construction.
Therefore, it is the object of the invention to provide an improved fountain attachment that exhibits reduced wear and is suitable in particular for higher water pressures.
In accordance with the invention, this is achieved by a fountain attachment comprising a pressure element that is arranged between the spring and the guide ball. In this context, between spring and guide ball a pressure element is arranged and a direct friction of the guide ball on the spring is eliminated so that the spring is no longer subjected to strong torsional forces. Also, the guide ball can glide better on the pressure element. In this configuration, the spring as well as the guide ball are subjected to significantly reduced wear.
Preferably, an adjustment in the nozzle is realized by a rotational movement applied to the exterior pipe, for example, by means of a toothed belt because in this case the water-conducting interior pipe is stationary and no complex sealing action and no rotary support are required. The guide contour is advantageously configured so as to extend circumferentially because a rotational movement with a constant rotational speed can be applied for control of the nozzle. The application of the rotational movement can be realized by all drive and gear concepts which are conventional in particular in pond construction and technology.
Preferably, between the guide ball and the guide contour clearance is provided so that water for lubrication and cooling can penetrate into the intermediate spaces.
Even though guide elements in the form of balls are preferred for interaction with the guide contour, it is however in principle also possible to employ guide elements that are not spherical or are not exactly spherical, such as rounded rollers or ellipsoids.
According to a preferred embodiment of the invention, the spring which is in particular embodied as a spiral spring comprises an opening which is engaged by a projection of the pressure element. The in particular central opening of the spring thus accommodates a part of the pressure element so that the latter is guided better. In addition, the spring is stabilized by the pressure element. Accordingly, an unfavorable deformation of the spring as well as an unfavorable movement of the pressure element are counteracted; this further minimizes wear. In addition to spiral springs, the use of plate springs or elastic damping elements, for example, in the form of rubber cylinders, is possible.
In a further advantageous embodiment of the invention, the guide ball, at the side facing the spring, is supported by a ball support comprising a partially spherically embodied bearing contour, wherein the bearing contour has a slightly greater radius than the ball. Due to the adaptation of the bearing contour to the exterior contour of the guide ball, the latter can roll on a large surface. This effects a more uniform and therefore slower wear of the guide ball. Preferably, the ball support comprises a completely spherically embodied bearing contour, with the exception of a cutout through which the spring can act in a pretensioning way on the guide ball via the pressure element.
According to a further preferred embodiment, the spring and the pressure element are guided and supported in a housing element. In this way, canting of the elements is counteracted. Also, the housing element is embodied such that it can be removed easily from the fountain attachment. The spring arranged therein as well as the pressure element are therefore easily accessible and exchangeable. Servicing of the fountain attachment is thus possible in a simple way.
In a further preferred embodiment, the ball support is part of the housing element. Thus, in addition to the spring and the pressure element, the guide balls are also easily accessible or exchangeable for servicing by demounting the housing element.
According to a further advantageous embodiment of the invention, the housing element comprises a continuous channel for accommodating the spring; the continuous channel can be closed off by a closure from the exterior. The closure acts in this context as an abutment for the spring. By removal of the closure, the spring can be removed from the housing element and can therefore be exchanged without the housing element having to be demounted.
In a further advantageous embodiment, the housing element comprises a boundary contour which is matched to the exterior radius of the interior pipe. The housing element, which is configured for supporting the spring and the pressure element as well as optionally the guide ball, contributes by its boundary contour, matched complementarily to the exterior radius of the interior pipe, to the supporting action and thus to a calm and guided rotation of the pipes relative to each other.
According to a further advantageous embodiment of the invention, the circumferentially extending guide contour is embodied such that a plurality of coaxial movements up and down can be realized for each rotation. In particular, the guide contour is of a corrugated shape along the circumferential direction. In this way, high-frequency closing cycles with comparatively minimal rotational speed are realizable.
In a further preferred embodiment of the invention, at least two circumferentially extending guide contours are provided. These guide contours extending parallel to each other interact each with at least one movable guide ball pretensioned by at least one spring and increase the stability of the fountain attachment, in particular at higher pressures and/or higher rotational speeds. For simplification of servicing and exact parallel arrangement of the guide ball, the guide balls interacting with their respective guide contour are supported, preferably above each other, in a common housing element.
According to a further preferred embodiment of the invention, at least two, preferably three, particularly preferred four, guide balls interact with a respective circumferentially extending guide contour. A plurality of guide balls on the same guide contour are preferably arranged with constant spacings in circumferential direction relative to each other so that, for example, in case of four balls, one each is positioned at the 3 o'clock, 6 o'clock, 9 o'clock, and 12 o'clock position. The use of a plurality of guide balls on the same guide contour increases the stability of the fountain attachment, in particular when using higher pressures and/or higher rotational speed.
For simplification of mounting and servicing, preferably each guide ball on the same guide contour is provided with its own housing element. When also a plurality of guide contours are provided, the guide balls that are running in different contours are arranged preferably above each other in a common housing element. Mounting and servicing are simplified also in this way.
In a further advantageous embodiment of the invention, the fountain attachment comprises at least one lubrication channel extending from the exterior side to the interior side of the exterior pipe. Water can thus penetrate for lubrication and cooling between exterior pipe and interior pipe. The lubrication channel is in this context preferably arranged such that it is positioned below the water level in use of the fountain.
According to a further preferred embodiment, the lubrication channel opens into an exterior circumferentially extending groove in which a sealing element that is undersized is arranged. The sealing element thus keeps larger dirt particles from penetrating into the lubrication channel while water for lubrication and cooling can still pass the channel. Clogging of the fountain attachment with coarse dirt is thus effectively prevented.
In a further embodiment of the invention, the external pipe has on its interior side a plurality of circumferentially extending grooves for accommodating dirt. Accordingly, primarily smaller dirt particles which are in particular not retained by the sealing element, are collected in the grooves so that the movement of the pipes relative to each other is not disturbed. In certain intervals, the fountain attachment can be disassembled and the dirt can thus be removed from the grooves.
As a whole, the present invention provides a fountain attachment that produces in a wear-reduced way a variable water effect wherein even higher pressures and/or higher rotation speeds can be employed and which, at the same time, can be easily mounted and serviced.
Further advantages and details can be taken from the embodiments described in the following.
Same parts or parts that are acting similarly, are provided with identical reference characters, when useful. Individual technical features of the embodiments described in the following can also lead to further inventive embodiments with the features of the afore described embodiments as well as the features of claim 1.
So that water for lubrication and cooling can penetrate between exterior pipe 4 and interior pipe 6, the fountain attachment 2 is provided with a lubrication channel 26 extending from an exterior side 24 to the interior side 10 of the exterior pipe 4. The lubrication channel 26 opens outwardly into an exterior circumferentially extending groove in which a sealing element 28 that is undersized is arranged so that water can penetrate but coarse dirt particles are retained. At the interior side 10 of the exterior pipe 4, a plurality of circumferentially extending grooves 30 are additionally provided in which smaller dirt particles, which have reached the interior of the fountain attachment 2 past the sealing element 28, can deposit so that the lubrication is not negatively affected.
Spring 16 and pressure element 19 are guided and supported together in a housing element 32. The housing element 32 can be removed and enables simple servicing and in particular the comfortable exchange of springs 16 and pressure elements 19. Moreover, the ball support 22 is partially formed by the housing element 32 so that the ball supports 22 are also accessible by removal of the housing element 32.
The housing element 32 comprises a continuous channel 33 (see
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The specification incorporates by reference the entire disclosure of German priority document 10 2018 119 424.2 having a filing date of Aug. 9, 2018.
While specific embodiments of the invention have been shown and described in detail to illustrate the inventive principles, it will be understood that the invention may be embodied otherwise without departing from such principles.
Number | Date | Country | Kind |
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10 2018 119 424.2 | Aug 2018 | DE | national |