This application is a U.S. National Phase of International Application No. PCT/EP2007/052369, filed Mar. 13, 2007, which designates the U.S. and claims priority to German Application No. 102006017068.7, filed Apr. 11, 2006, the entire contents of each are hereby incorporated by reference.
The invention relates to a tumble-dryer which is of modular construction and comprises a process air guide in which a first air conducting element can be installed for forming a condensation dryer or a second air conducting element for forming an extraction air dryer.
The term “process air guide” covers both a closed process air circuit and an open process air guide. In the case of an extraction air dryer this process air guide is open and the process air is fed into the open after contact with the washing. In the case of a condensation dryer or a circulating air dryer the process air guide is closed and the process air is guided in a closed process air circuit. The process air guide will, in particular, include in the following all the air ducts and components through which process air flows in operation.
DE 42 20 534 A1 discloses a tumble-dryer which can be designed according to both dryer principles that are fundamentally of prior art, namely as a condensation dryer or as an extraction air dryer. If the dryer is designed as a condensation dryer a heat exchanger is arranged in the lower region of the dryer, and if it is designed as an extraction air dryer an air guide is arranged in the lower region, which guide discharges process air via the back of the dryer to the surrounding area. The different designs of this dryer of prior art are conceived independently of each other and have, particularly in the case of the heat exchanger for the condensation dryer and the air guide for the extraction air dryer, very different components which deviate from each other in size and shape. It is therefore also necessary for the further elements of the dryer must be designed differently according to these different variants.
It is therefore the object of this invention to provide a dryer which can be designed in a simple and practical manner either as a condensation dryer or as an extraction air dryer.
A dryer according to the invention is of modular construction and comprises a process air guide in which a first air conducting element can be inserted to form a condensation dryer or a second air conducting element can be inserted to form an extraction air dryer. A common insertion region, in which either the first or second air conducting element is arranged in order to comply with the applicable dryer principle, is formed in the process air guide. Both air conducting elements are designed in such a manner that they are formed so that they are compatible, at least in certain regions, in terms of their installation in this installation region provided.
A dryer may therefore be provided which can be designed simply and practically either as a condensation dryer or as an extraction air dryer. For this purpose essentially only one central element, the air conducting element, is replaceable, and the replacement is carried out quickly and simply due to the compatibility of these two air conducting elements. A much lower development cost than is required for two separate concepts can be achieved, not least because of this compatible modular construction. In addition, the installation of an air conducting element in the installation region is in practice made possible with the same tools and the positioning and arrangement of each air conducting element are essentially the same for both.
The two air conducting elements are preferably each designed compatibly in terms of their insertion in the insertion region. Regardless of which air conducting element is therefore inserted, in particular installed, in the insertion region, the insertion region may therefore remain unchanged. At least one end region of each of the two air conducting elements is therefore designed with such a similarity or equality that it can be mounted on or fitted to an unmodified region of the process air guide. The air conducting elements may therefore be installed with a reduced number of components.
The first air conducting element is preferably designed as a heat exchanger, thereby enabling the condensation dryer to be constructed. The process air escaping from the heat exchanger may preferably be conducted via the process air guide to a process air fan. The process air can then be fed on into a drum or a container for receiving articles to be washed by means of this process air fan.
The second air conducting element is preferably designed as an extraction air guide, enabling an extraction air dryer to be constructed in this design. The extraction air guide is preferably arranged so that it leads or opens directly into the area surrounding the dryer with one end.
In a preferred manner the extraction air guide comprises a main duct and a secondary duct, the secondary duct branching from the main duct, and both ducts opening into the area surrounding the dryer. This provides improved discharge of the process air from the dryer.
The main duct and the secondary duct preferably open into the surrounding area on different sides of the dryer. This guarantees at all times safe, reliable discharge of the process air almost independently of the erection of the dryer. Therefore provision may preferably be made for one of the two ducts to open into the surrounding area on one rear side of the dryer and for the second duct to open into the surrounding area on a lateral wall of the dryer. If the dryer is then positioned relatively close to a wall, for example with its rear wall, safe discharge of the process air can then be achieved via the duct which opens into the surrounding area from the lateral wall.
The extraction air guide is preferably designed in one piece. Provision can be made here for the extraction air guide to be formed of plastic, at least in certain regions. If it is formed completely as a plastic component, it may preferably be provided as an injection moulding, thereby guaranteeing low cost production.
Preferably at least the main duct is designed in tapered fashion. The tapering is preferably achieved in such a manner that the end of the extraction air guide opening into the surrounding area has a smaller diameter than the end which is mounted on corresponding elements of the process air guide.
The situation-dependent installed air conducting element is preferably arranged in a bottom group of the dryer.
In the dryer according to the invention essentially only one component, the air conducting element, is replaced and a condensation dryer or an extraction air dryer is therefore provided. On the basis of a condensation dryer in which the air conducting element is designed as a heat exchanger, an extraction air dryer can be formed by simply replacing this with the extraction air guide. All further adaptations are made by omitting components no longer required for the extraction air dryer, such as the cooling air wheel and condensate pump. All the essential components, and particularly the bottom group, therefore remain essentially unchanged.
Exemplary embodiments of the invention are explained in greater detail in the following with reference to diagrammatic drawings, in which:
The same or functionally similar elements are provided in the figures with the same reference symbols.
Condensation dryer 1 shown diagrammatically in
Because of the design as an extraction air dryer 1′, the process air is discharged via the second end 16b′ of extraction air guide 16′ to the area surrounding extraction air dryer 1′. This is denoted by arrow P2. According to arrow P1, the supply air is fed to discharge air dryer 1′. Process air guide 15′ of extraction air dryer 1′ also has, among other things, end plate 15a, as well as element 15b′ and process air fan 15c.
End plate 15a comprises, in the lower region, an opening 151a through which the process air escaping from the container, not shown, is conducted to heat exchanger system 16. This heat exchanger system 16 has heat exchanger 161 and retaining elements 162 and 163. Retaining element 162 here forms part of first end 16a of heat exchanger system 16, and is provided for installation on, or for the mechanical connection to end plate 15a.
In addition, heat exchanger system 16 has a condensate container 164, and a first pipe 165 is also shown which is provided for pumping a condensate into condensate container 164. A further pipe 166 is designed as a return pipe for a condensate. Furthermore, a condensate pump 167 is shown in the representation. Condensation dryer 1 further comprises a bottom group which, among other things, comprises a component 17 and element 15b. A motor 151c, which is designed to drive a fan impeller 18a, is arranged in component 17. Fan impeller 18a and motor 151c are covered by a cover 18b.
Secondary duct 16c′ extends laterally and opens from lateral wall 11′ into the area surrounding extraction air dryer 1′. For this purpose an opening 11a is formed in this lateral wall 11′. If this discharge via secondary duct 16c′ is not required, opening 11a can be covered by a covering element 11b.
As can also be seen in
Extraction air guide 16′ and heat exchanger 161, in particular with its retaining elements 162 and 163, are designed so that they are compatible in terms of installation in installation region 15d. Because of the replacement by the essentially one central element, heat exchanger 161, on the one hand, and extraction air guide 16′ on the other, a corresponding functional principle of dryer 1 or 1′ may therefore be fulfilled, dependent on this. Neither the fitting of these elements on end plate 15a nor their installation in component 17, need be modified in this case.
In particular, the mechanical fastening of first ends 16a′ and 16a of components 16′ and 16 respectively may be connected with an exact fit to end plate 15a, and here a releasable connection may be provided in the form of clamps. However, a screw connection or the like, or a plug connection, may also be provided.
In comparing condensation dryer 1 with extraction air dryer 1′, parts 161 to 167 and fan impeller 18a, on the basis of the representation in
Number | Date | Country | Kind |
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10 2006 017 068 | Apr 2006 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2007/052369 | 3/13/2007 | WO | 00 | 10/8/2008 |
Publishing Document | Publishing Date | Country | Kind |
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WO2007/118742 | 10/25/2007 | WO | A |
Number | Name | Date | Kind |
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2742708 | McCormick | Apr 1956 | A |
3032887 | Whyte et al. | May 1962 | A |
3229382 | Lambert | Jan 1966 | A |
Number | Date | Country |
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41 39 588 | Jun 1992 | DE |
0 163 265 | Dec 1985 | EP |
2 258 720 | Feb 1993 | GB |
Entry |
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International Search Report PCT/EP2007/052369. |
Number | Date | Country | |
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20090158611 A1 | Jun 2009 | US |