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(11) | EP 0 766 945 A2 |
| (12) | EUROPEAN PATENT APPLICATION |
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| (54) | Device for washing the ceiling of a dishwasher's tank |
| (57) A device for washing the ceiling of a dishwasher's tank essentially consists of three
members: a case (1), a coupling nut (2) and a rotor (3) that rotates about a vertical
axis. The rotor (3) is made up of a plurality of vertical vanes (4) linked at their
internal ends to a blind hollow cylindrical hub (5) provided with a horizontal nozzle
(6) in correspondence to each vane (4). The hub (5) has a central vertical conduit
(7) passing through the nut (2) so as to project into the case (1), and blocked therein
by means of an O-ring (8) leaning upon a slide ring (9). Each vane (4) is essentially
S-shaped and provided with an intermediate deflector (10) and an end deflector (11),
in order to set the rotor (3) into rotation and to convert the horizontal jet coming
out from the relevant nozzle (6) into a vertical water film. |
[0001] The present invention relates to washing devices utilized in dishwashers and more in particular to a device for washing the ceiling of a dishwasher's tank.
[0002] It is well known that some particles of dirt removed from the dishes during the washing may adhere to the ceiling of the tank, especially when the upper sprinkler is placed underneath the top rack. Thus, it would be appropriate for the ceiling to be also washed during the washing cycle in order to avoid encrustations and bad odors.
[0003] The devices that have been used so far may be divided into two categories, namely fixed nozzles and revolving sprinklers. Clearly, fixed nozzles possess a limited effectiveness because of their fixed position, even though they have the advantage of being very simple and cheap.
[0004] On the other hand, revolving sprinklers are more effective but significantly more expensive, and they also have some drawbacks. In the given case that the dishwasher's upper sprinkler is mounted on the ceiling of the tank, such sprinkler should be provided with a series of nozzles also on the upper surface so as to wash the ceiling. However, these additional nozzles would reduce the effectiveness of the washing jets emanating from the lower nozzles, because the water flow would have to be shared among a greater number of nozzles.
[0005] The case when a thorough washing of the ceiling is most necessary occurs with the upper sprinkler located underneath the top rack, because the dishes are hit by upward jets and hence dirt particles would tend to splash onto the ceiling. A dedicated revolving sprinkler for washing the ceiling and attached to the ceiling itself would imply additional costs, as well as a decrease in the height available to the dishes placed in the top rack.
[0006] A further drawback of revolving sprinklers consists in that the washing nozzles are oriented in such a way as to hit always only certain portions of the ceiling, since they follow circular paths, whereby in some areas the dirt is not washed away.
[0007] Therefore the object of the present invention is to provide a device for washing the tank ceiling suitable to overcome the above-mentioned drawbacks.
[0008] This object is achieved by means of a device having the characteristics disclosed in claim 1.
[0009] A first fundamental advantage of the device according to the invention is that of generating a water film through which substantially the whole surface of the ceiling can be washed.
[0010] A second advantage of the present device is that of being quite simple and cheap, and therefore easy to manufacture and to install inside a dishwasher.
[0011] A third advantage of this device comes from its very small size, which allows a complete exploitation of the space existing between the top rack and the tank ceiling.
[0012] Still another advantage of the device is that the same water flow provides both the rotation of the rotor and the washing jets that emanate from said rotor. Therefore, a smaller and more efficient water consumption is achieved in this way.
[0013] These and other advantages and characteristics of the device according to the present invention will be clear to those skilled in the art from the following detailed description of an embodiment thereof, with reference to the annexed drawings wherein:
Figure 1 is a partially sectional schematic front view showing the members that make up the device;
Figure 2 is a cross-sectional view of the rotor along the line A-A of fig.1;
Figure 3 is an enlargement of the area P of fig.1, showing a first variant of the shape of the vanes;
Figure 4 is a half view similarly to fig.1, showing a second variant of the shape of the vanes; and
Figure 5 is a vertical cross-sectional schematic view of a dishwasher provided with the above-stated device.
[0014] With reference to figs.1 and 2, it can be noticed that the device according to the present invention is essentially made up of three members, namely a case 1, a coupling nut 2 that fixes the case 1 in its seat on the tank ceiling, and a rotor 3 that rotates about a vertical axis. The rotor 3 is composed of a plurality of vertical vanes 4 linked at their internal ends to a blind hollow cylindrical hub 5 provided with a horizontal nozzle 6 in correspondence to each vane 4. The hub 5 has a central vertical conduit 7 passing through nut 2 so as to project into case 1, and blocked therein by an O-ring 8 leaning on a slide ring 9. The tightness achieved by the O-ring 8 and the slide ring 9 allows the rotor 3 to freely rotate, while avoiding water leakage even under operating conditions of high pressure, and therefore providing more effectiveness if compared to traditional systems.
[0015] Each vane is essentially S-shaped and it is provided with an intermediate deflector 10, located in correspondence to the first "curve" of the S, and an end deflector 11, also curved. These deflectors 10 and 11 have the twofold purpose of setting rotor 3 into rotation and of converting the horizontal jet coming out from the relevant nozzle 6 into a vertical water film. A gasket 12 is interposed between case 1 and nut 2 for the tightness between the washing device and its corresponding seat formed in the tank ceiling.
[0016] It should be noted that the intermediate deflector 10 has a concavity which opposes that of the end deflector 11, so as to generate a rotational moment which is opposite to that given by the latter to rotor 3. In this way it is feasible to operate at high pressures and/or use rather long vanes 4 while preventing the resulting rotating moment from causing an excessive revolving speed of rotor 3. In the case depicted in fig.2 the resulting moment produces an anti-clockwise rotation, as indicated by arrow R.
[0017] Of course, the vanes 4 may come in a greater number, arranged along the perimeter of hub 5 in a way of obtaining a balanced rotation, typically in opposite angular positions. By using shorter vanes and/or a lower water pressure it may as well be possible to eliminate the intermediate deflector 10 and thus shape vane 4 substantially as a J.
[0018] Referring also to fig.5, the functioning of the device according to the present invention, which is in itself quite simple, is now explained. The water enters the washing device through an upper connection 13 of case 1, incoming from a branch 14 of the conduit 15 which brings the water to the upper sprinkler 16. Passing through conduit 7, the water falls into the hollow hub 5 of rotor 3 and comes out from nozzles 6. Each jet that hits the corresponding vane 4 undergoes a first deviation and a first widening caused by the intermediate deflector 10, and is then again deviated and widened like a fan by the end deflector 11, thus setting rotor 3 into rotation.
[0019] As illustrated in figs.3 and 4, the end of vane 4 may be particularly shaped so as to favour the opening of the jet and consequently the formation of the water film. Besides having a trapezoidal shape rather than a straight one, the end deflector 11 may be provided with a projecting lug 17 along the edge (fig.3), or with a series of grooves 18 arranged like a fan (fig.4). A portion of the jet may also be deviated downwards in order to wash the convex surface of cups and glasses which are usually placed in the top rack, as indicated in fig.5.
1. A device for washing the ceiling of a dishwasher's tank, characterized in that it
includes a case (1) provided with a water connection (13), a coupling nut (2) for
blocking said case (1) into its seat, and a rotor (3) that rotates about a vertical
axis and consisting of a plurality of vertical vanes (4) linked at their internal
ends to a blind hollow cylindrical hub (5) provided with a horizontal nozzle (6) in
correspondence to each vane (4) , the hub (5) being connected to the case (1) by way
of a vertical conduit (7) passing through the nut (2) and rotatably blocked thereon,
each vane (4) being shaped and provided with one or more deflectors capable of deviating
the horizontal jet coming out from the relevant nozzle (6) and converting it into
a vertical water film.
2. A device according to claim 1, characterized in that the rotor (3) includes two essentially
S-shaped opposite vanes (4) provided with an intermediate deflector (10) and an end
deflector (11) placed respectively in correspondence to the first and to the second
curve of the S, said deflectors (10,11) having opposed concavity.
3. A device according to claim 1, characterized in that the rotor (3) includes two essentially
J-shaped opposite vanes (4) provided with a single end deflector (11).
4. A device according to one of the preceding claims, characterized in that the end deflector
(11) has a projecting lug (17) along its edge.
5. A device according to one of the claims 1 to 3, characterized in that the end deflector
(11) has a series of grooves (18) arranged like a fan.
6. A dishwasher characterized in that it comprises a device according to one of the claims
1 to 5.