EP0383028A2 - Dishwashing machine compromising an electro-mechanic reversing device - Google Patents

Abstract

The dishwashing machine is provided with a reversing device with a common input connection (2) and separate output connections (3-6), via which spraying devices can be connected to a circulation pump in a variable sequence in terms of flow. For this purpose, the reversing device has a multi-way valve in the form of a multiple rotary slide valve which has at least two independently adjustable perforated slides (7, 10, 12) in a common housing (1). In this arrangement, the perforated slides have main and subsidiary passages (8, 11) in different configurations and can be rotated relative to one another in such a way that the main and subsidiary passages are mutually overlaid in different combinations and in alignment with at least one of the output connections (3-6). <IMAGE>

Description

The invention relates to a dishwasher.

In the dishwasher which has already been proposed, a driven multi-way valve is provided as the reversing device.

The invention is based on the object of specifying a reversing device in a dishwasher designed according to the preamble of the first claim, in which the washing liquid supplied to a common input connection can optionally flow via one or more of the output connections to corresponding spray devices.

This object is achieved according to the invention by the characterizing features of the first claim.

In a configuration of a reversing device as a multi-way valve according to the invention, in a basic position of the perforated slide, all output connections are connected to the input connection via congruent main passages. Then one of the hole slides, which has a secondary passage offset in the direction of adjustment, around which adjusted corresponding path, then this hole slide covers the respective adjacent main passages of the other hole slides, while its secondary passage comes into alignment with the main passages of the other hole slides, which are then axially aligned. This one passageway can then optionally be made to the individual output connections by moving all the slides together. The rinsing liquid is thus directed from the input connection to only one of the output connections. If, for example, a second slide valve is provided with two additional secondary passages, these secondary passages can be made to coincide with two of the main passages of the additional slide valve (s), so that the input connection is then connected to the corresponding two output connections in terms of flow. Here, too, a pair of output connections can each be brought into flow connection with the input connection by adjusting all hole slides together. Accordingly, a third hole slide valve can be used to selectively connect three output connections to the input connection. In any case, however, a bypass-free field must be provided between at least two main passages for each hole slide valve if the hole slide valves are designed as perforated disks which can be rotated through 360 degrees. Such perforated disks are preferably fixed on concentrically mounted actuation shafts, each of which has its own drive in drive connection, the respective drive connection having to travel a step for each step in the manner of a stepping mechanism, which corresponds to the division between a main passage and a secondary passage. In addition, it is also possible to set the individual hole slides, which are preferably designed to be displaceable in a straight line, into the individual desired positions via a control cam gear.

Other advantageous developments of the invention are specified in the remaining claims.

The invention is explained in more detail below with the aid of sketches of an exemplary embodiment.

• Fig. 1 einen Schnitt durch eine Umsteuervorrichtung mit konzentrisch zueinander gelagerten Lochscheiben und
• Fig. 2 eine Schnittdarstellung entlang der Linie A - B der Fig. 1 mit Blick auf die Ausgangsanschlüsse der Umsteuervorrichtung.

It shows:

• Fig. 1 shows a section through a reversing device with concentrically mounted perforated disks and
• FIG. 2 shows a sectional illustration along the line A - B of FIG. 1 with a view of the output connections of the reversing device.

In a housing 1 of a multi-way valve designed as a rotary slide valve, which serves as a reversing device for spray devices in a dishwasher, there is a common input connection 2, through which washing liquid for the spray devices is supplied in operation by a circulating pump. Output connections 3, 4, 5 and. 6. A perforated slide 7 in the form of a perforated disk rotatably mounted in the housing 1 is placed on the ends of the output connections 3 - 6 located inside the housing 1. This first perforated disc 7 slides in the plane of the adjacent ends of the output connections 3 - 6 and lies sealingly on the edges thereof. In this perforated disc 7 there are main passages 8, which are arranged according to the number and local arrangement of the output connections 3 - 6. 1, these main passages 8 lie in alignment with the respectively associated output connections 3 - 6. In addition, a secondary passage 9 is arranged on the bisector between two of the main passages 8 on the same bolt circle diameter, as shown in FIG. 3.

A further perforated disk 10 rests on the perforated disk 7 and, like the perforated disk 7, has main passages 8 lying congruent with the output connections, as shown in FIG. 4. This perforated disc 10 is provided with two additional secondary passages 11 on two bisector angles between adjacent ones, offset by 90 degrees Main passages 8 provided. In Fig. 1, this perforated disc 10 is placed flat on the perforated disc 7, that in the present case only one of the secondary passages 11 is in alignment with the output connection 3. In the same way, however, the second secondary passage 11 then also lies in alignment with the outlet connection 6.

Finally, a third perforated disk 12, shown in FIG. 5, rests on the perforated disk 10, the main passages 8 of which are in alignment with the associated output connections 3 - 6. In this perforated disk 12, diametrically opposite, 8 secondary passages 13 are arranged on a bisector between two adjacent main passages. The perforated disks 7, 10, 12 are mounted concentrically to one another and in the center of the output connections 3 - 6 via actuating shafts 16, 17, 18 so as to be rotatable about an axis 14 which is perpendicular to the plane receiving the inner ends of the output connections 3 - 6. This axis 14 thus runs parallel to the axes of the output connections 3-6.

In the above-described position of the perforated disks 7, 10, 12 shown in FIG. 1 with respect to the output connections 3 - 6, the secondary passages 11 of the disk 10 lie in alignment with the associated main passages 8 of the perforated disks 7, 12, while the main passages 8 of the perforated disk 10 are rotated by 45 degrees and cannot overlap with the output connections 3 - 6. Due to the bypass free fields 15 between those main passages 8 of the disc 10, between which there are no secondary passages 11, the output connections 4 u. 5 closed after these bypass-free fields 15 enter in this area between the main passages 8 of the perforated disks 7, 12. By rotating all three perforated disks 7, 10, 12 together in steps of 90 degrees, the output connections 3 - 6 can then communicate in pairs with the input connection 2. If the perforated disk 12 is also rotated by 90 degrees with respect to the position shown in FIG. 5, then an otherwise free flow path is closed by one of the bypass-free fields 15 of the perforated disk 12 the 90-degree rotation could lead to brief loading of one of the output connections 3 - 6 with flushing liquid.

If, on the other hand, only one of the output connections 3 - 6 is to be brought into flow connection with the input connection 2, then it is sufficient to lock the perforated disks with one another in the basic position shown in FIGS 45 degrees and in the further steps by 90 degrees. The secondary passage 9 then determines, with the congruent secondary passages 11, 13, the flow path between the inlet connection 2 and the respectively selected outlet connection 3-6.

If all four output connections 3 - 6 are to be fed with rinsing liquid simultaneously via the input connection 2, this happens when the perforated disks 7, 10, 12 are left in the basic position shown in FIGS. 3 - 5.

If two diametrically opposite output connections 3-6 are to be brought into flow connection alternately with the input connection 2, then the perforated disk 7 can be left in the basic position according to FIG. 3, while the middle perforated disk 10 clockwise by 90 degrees and the third perforated disk 12 by Would be rotated 45 degrees. Subsequently, either only the third perforated disk 12 or all three perforated disks need to be rotated together by 90 degrees in a mutually locked position. In further position combinations of these perforated disks and combined positioning steps of 45 degrees and 90 degrees, several or only one of the output connections 3 - 6 can alternately be brought into flow connection with the input connection 2.

In the present case, the output connections 3 - 6 are offset at the same angle to one another and the perforated disks 7, 10, 12 are concentric in the housing 1 on actuating shafts 16, 17, 18. stored. Different from the form shown with four output connections, a different number of output connections can also be provided, the angular positions of the main and secondary passages 8, 9, 11, 13 then having to be adapted accordingly. Each of the perforated disks can be assigned its own drive unless a suitable multiple gear with controllable coupling devices is not provided. If individual drives are provided, then it is expedient to synchronize the movement sequence in such a way that the passages in the area of the respective output connection 3 - 6 are properly covered. In the case of a multiple gearbox, on the other hand, after setting the passageways in which an overlap of the passageways is required, the gearbox parts are mutually locked so that the perforated disks are then rotated together. Stepper motors can also be used to control the perforated disks, the step size of which corresponds to the distance between a main and a secondary passage.

If, instead of rotatable perforated discs, straight or non-360 degree adjustable slide valves are used, it is advisable to control these individual slide valves using a gearbox with control cams on the associated shaft. The perforated slide or perforated discs can also be driven via a friction clutch and pawls.

Claims (13)

1. Dishwasher with an electromechanical multi-way valve as a reversing device with a common input connection and separate output connections via which spray devices can be connected to a circulation pump in a variable sequence in terms of flow, characterized in that the multi-way valve has at least two independently adjustable slide valves (7, 10, 12) in A housing (1) has that the hole slides (7, 10, 12) are mounted close to one another and slidably over the outlet connections (3-6), and a number corresponding to the number and local arrangement of the outlet connections (3-6) of main passages (8) have at least one slide valve (7) at least one additional secondary passage (9) and one slide valve (10,12) have at least two additional secondary passages (11,13) offset to adjacent main passages (8) and that at least between two main passes (8) for each hole slider a bypass-free field (15) is provided. 2. Dishwasher according to claim 1, characterized in that the output connections (3-6) are offset at the same angle to one another and the perforated slide are designed as centrally mounted perforated disks (7, 10, 12). 3. Dishwasher according to claim 2, characterized in that four output connections (3-6) are provided. 4. Dishwasher according to claim 2, characterized in that in one of the perforated disks (10) two secondary passages (11) on the one hand by 45 degrees relative to adjacent main passages (8) and on the other hand are offset by 90 degrees. 5. Dishwasher according to claim 3 or 4, characterized in that in one of the perforated disks (12) two secondary passages (13) are arranged offset by 45 degrees relative to adjacent main passages (8) and by 180 degrees. 6. Dishwasher according to claim 3 or one of the following, characterized in that in one of the perforated disks (7) only one secondary passage (9) is arranged offset by 45 degrees with respect to adjacent main passages (8). 7. Dishwasher according to claim 1 or one of the following, characterized in that each hole slide (7,10,12) is assigned its own controllable drive. 8. Dishwasher according to claim 2 or one of the following, characterized in that the perforated disks (7,10,22) are fixed on concentrically mounted actuating shafts (16,17,18) which are in drive connection with the respective drive. 9. Dishwasher according to claim 8, characterized in that the perforated disks (7, 10, 12) can be locked against one another in selectable mutual assignments of the main and secondary passages and can be driven together via one of the drives. 10. Dishwasher according to claim 1 or one of the following, characterized in that the perforated slide (7, 10, 12) are controlled by stepper motors, the step size of which corresponds to the distance between a main and a secondary passage. 11. Dishwasher according to at least one of claims 1 to 9, characterized in that the control of the individual hole slide (7,10,12) via a gear with control cam on the associated shaft. 12. Dishwasher according to at least one of claims 1 to 9, characterized in that the control of the individual perforated disks (7, 10, 12) takes place via a gear with control cams on a separate shaft of the gear. 13. Dishwasher according to at least one of claims 1 to 9, characterized in that the perforated slide (7, 10, 12) is driven via a friction clutch and locking pawls.

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