WO2016180611A1 - Washer dryer and method for operating a washer dryer - Google Patents

Abstract

The invention relates to a washer dryer (1) comprising at least one process air duct (2), at least one heat pump (7) which is connected to the process air duct (2) in a heat-transferring manner, and at least one control and/or regulating electronic system (12) which is connected to the process air duct (2) and the heat pump (7) in a signal-transmitting manner, wherein a section of the process air duct (2) is formed by a washer dryer (1) outer tub (4) arranged in a stationary manner. The aim of the invention is to allow a more energy-efficient operation of an inexpensively designed washer dryer (1). According to the invention, this is achieved in that the control and/or regulating electronic system (12) is designed to electrically actuate the process air duct (2) and the heat pump (7) such that process air which is heated during a washing process carried out by the washer dryer (1) and during a drying process carried out by the washer dryer (1) can be conducted through the outer tub (4).

Description

 Washer dryer and method for operating a

 washer-dryer

The invention relates to a washer-dryer with at least one process air duct, at least one heat transfer connected to the process air duct heat pump and at least one signal technically connected to the process air duct and the heat pump control and / or control electronics, wherein a portion of the process air flow through a fixedly arranged tub of the washer dryer is formed. Furthermore, the invention relates to a method for operating a washer dryer comprising at least one process air duct and at least one heat pump connected to the process air duct heat pump, wherein a portion of the process air duct is formed by a fixedly arranged tub of the washer dryer.

A washer-dryer makes it possible to wash clothes with a single device and then to dry them. In order to be able to carry out a drying process as energy-saving as possible, a washer-dryer can be equipped with a heat pump which is heat-transfer-connected to a process air duct comprising a blower, with which process air used for drying laundry can be conveyed. A portion of the process air duct is formed by a fixed tub of the washer dryer, in which a laundry drum for receiving laundry to be washed and / or to be dried is rotatably mounted. The washer-dryer also comprises a control and / or regulating electronics with which the operation of the process air duct or of its blower and the operation of the heat pump can be controlled or regulated, for which purpose the control and / or regulating electronics are signal-technically connected to the process air duct or . whose blower and the heat pump is connected.

The heat pump comprises a downstream of the tub with respect to a flow direction of the process air in the process air duct evaporator with which the process air used for drying the laundry heat and thus moisture is withdrawn. Furthermore, the heat pump comprises a switched condenser, with which the process air is heated before it enters the tub. The evaporator and the condenser are parts of a refrigerant circuit of the heat pump, so that heat obtained via the evaporator can be at least partially discharged back to the process air via the condenser. DE 10 2012 222 018 A1 discloses a washer-dryer with a closed process air duct, a heat-pump connected to the process air duct, and control electronics. A portion of the process air duct is formed by a fixedly arranged tub of the washer dryer. The object of the invention is to enable a more energy-efficient operation of a less expensive washer-dryer.

This object is solved by the subject matters of the independent claims. Advantageous, optional embodiments are specified in particular in the dependent patent claims, each of which taken alone or in various combinations with each other may constitute a further developing, in particular preferred or advantageous aspect of the invention, and also explained in the following description and illustrated in the accompanying drawings , Accordingly, a washer-dryer according to the invention comprises at least one process air guide, at least one heat pump connected to the process air guide and at least one control and / or control electronics connected to the process air guide and the heat pump, wherein a section of the process air guide is formed by a fixedly arranged wash tank of the washer dryer, and wherein the control and / or regulating electronics is set up to electrically control the process air duct and the heat pump in such a way that process air heated through the tub can be conveyed during a washing process performed with the washer dryer and during a drying process performed with the washer dryer.

According to the invention, one and the same device, namely the heat pump, is used both during the washing process and during the drying process for the energy-efficient heating of the process air. Also during the washing process is Thus, the laundry to be washed, which is present in a washing drum rotatably arranged in the tub, and heated in the tub existing cleaning liquid by means of the heated process air. Due to the inventive design of the washer dryer or the dual function of the heat pump can be dispensed with other additional heating, so that the inventive washing dryer with a reduced number of components and thus more cost-effective and space-optimized.

The process air duct can be designed as a closed process air cycle, at least during the drying process, in which the process air is circulated by means of a fan of the process air duct. As can be seen from the following description of preferred embodiments of the washer-dryer, the process air guide may be formed during the washing process as an open process air duct or as a closed process air circuit. In the former case, a change between a washing process and a drying process, and vice versa, a change in the design of the process air duct is required, which can be realized for example via an electrical control of arranged on the process air control valve units.

A section of the process air duct is formed by the fixedly arranged lye tank of the washer dryer. The fact that the tub is fixedly arranged is intended to mean that it is not rotatably mounted corresponding to the laundry drum, but substantially maintains its position in a housing of the washer-dryer during a washing process and a drying process. However, it should not be excluded that the position of the tub during a washing process or a drying process relative to the housing of the washer dryer due to loading-related imbalances of the laundry drum and the laundry contained therein varies.

The heat pump is connected via its heat exchanger, which are each designed as an evaporator or condenser, heat transfer with the process air duct. During a washing process and a drying process, heat exchange takes place between the heat exchangers and the process air conducted in the process air duct. In addition to the heat exchangers, the heat pump includes a compressor unit. unit, for example, a compressor, an expansion unit, for example, an expansion valve, and lines, via which the other components of the heat pump are fluidly connected to each other to be traversed by a refrigerant of the heat pump can. The control and / or regulating electronics can be wired or wireless signal technology connected to the process air duct, for example, with the blower, and with the heat pump, in particular with the compressor. As a result, the control and / or regulating electronics can electrically control the process air guide and the heat pump, in particular in order to be able to lead process air heated through the suds container during a washing process and during a drying process. In addition, the power of the blower of the process air duct can be varied via the electrical control of the process air duct. Furthermore, the operation or the power of the heat pump can be varied via the electrical activation of the heat pump. The control and / or regulating electronics can be integrated into an already existing device electronics or be designed separately therefrom. The control electronics can have a microprocessor and an information storage unit in which various programs, in particular washing programs and drying programs, are stored for operating the washer dryer, which can be executed by the microprocessor. According to an advantageous embodiment, the process air guide is designed and electrically controlled via the control and / or control electronics, that during the washing process by means of a blower of the process air guide an ambient air sucked, heated by a condenser of the heat pump and then the liquor container can be fed and that from the Lase container escaping process air by means of an evaporator of the heat pump can be cooled and discharged into an environment of the washer dryer. For this purpose, the process air guide two signal technically connected to the control and / or regulating electronics valve units, in particular three-way valves, have, of which a valve unit downstream of the evaporator and the other valve unit is connected upstream of the capacitor. To carry out the washing process, these valve units are adjusted by means of the control and / or regulating unit such that the ambient air can be sucked in with the blower and the cooled process air in the environment of the washer dryer can be discharged. In order to carry out a drying process, the valve units are controlled or adjusted by the control and / or regulating electronics such that the process air duct is designed as a closed process air circuit.

According to a further advantageous embodiment, the process air duct is designed as a closed process air circuit and has the heat pump at least one additional heat source and at least one signal technically connected to the control and / or control electronics valve unit with which the additional heat source and an evaporator of the heat pump optionally with a refrigerant circuit the heat pump can be connected, wherein during the drying process, the evaporator and during the washing process, the additional heat source is connected to the refrigerant circuit. To carry out a drying process, the control and / or regulating electronics controls the valve unit, for example a three-way valve, in such a way that the evaporator and thus not the additional heat source is connected to the refrigerant circuit. To carry out a washing process, the control and / or regulating electronics controls the valve unit such that the additional heat source and thus not the evaporator is connected to the refrigerant circuit. As a result, heat is supplied to the refrigerant and above the process air via the additional heat source and not, as in a drying process, heat removed via the evaporator, since the evaporator is not connected to the refrigerant circuit and thus not active. In addition, the process air is not dehumidified via the evaporator.

Advantageously, the additional heat source comprises at least one water-containing tank, a latent heat storage, or a heat exchanger. The refrigerant removes heat from the water in the tank and is thereby warmed up. Here, the water can be cooled until ice is formed. As a result, a relatively large amount of heat of a relatively small amount of water can be withdrawn. Alternatively, the refrigerant can extract heat from a latent heat storage. As an alternative, the refrigerant can absorb heat via a heat exchanger, which is, for example, at least partially surrounded or flowed through by an ambient air. For this purpose, an additional fan may be provided with which an ambient air flow to the heat exchanger can be generated. By controlling the fan, the amount of heat transferred to the refrigerant can be varied. A further advantageous embodiment provides that the process air duct is designed as a closed process air circuit and that the heat pump has at least one additional heat source and a plurality of valve units connected to the control and / or regulating electronics, with which the additional heat source from a refrigerant circuit during the drying process Heat pump is disconnected and an evaporator of the heat pump of an expansion unit of the heat pump is connected and with which the additional heat source is connected to the refrigerant circuit during the washing process, the evaporator upstream of the expansion unit and the additional heat source in series with the evaporator and the expansion unit is connected downstream , To carry out a drying process, the control and / or regulating electronics control the valve units, for example three-way valves, in such a way that the additional heat source is disconnected from the refrigerant circuit. The refrigerant then flows from the condenser via the expansion unit to the evaporator. To carry out a washing process, the control and / or regulating electronics controls the valve units such that the additional heat source is connected to the refrigerant circuit. The refrigerant then flows from the condenser via the evaporator to the expansion unit and then to the additional heat source. As a result, the evaporator is used as a further heat source in contrast to a drying process. As a result, the maximum heat output of the heat pump is increased, whereby a shortening of heating times for performing a washing process can be achieved. The additional heat source may be formed according to the aforementioned embodiments.

According to a further advantageous embodiment, the washer dryer at least one coolant circuit comprising a heat exchanger, via which the coolant circuit is heat-transmitting connected to the process air duct, a signal technically connected to the control and / or control electronics pump for circulating a coolant in the coolant circuit and a Coolant reservoir has, wherein the process air duct is designed as a closed process air circuit, wherein an evaporator of the heat pump is heat-transmitting connected to the coolant reservoir, and wherein the pump is activated during the drying process and deactivated during the washing process. The coolant reservoir or coolant contained therein, for example cooling water, is heated during a drying process as well as during a drying process. cooled during a washing process by means of the evaporator of the heat pump. To carry out a drying process, the pump is activated by means of the control and / or regulating electronics, so that the coolant is circulated in the coolant circuit. As a result, heat is removed from the process air guided in the process air duct with the heat exchanger of the coolant circuit, which heat is discharged to the coolant reservoir. In this case, moreover, the water precipitated by the cooling on the heat exchanger can be removed from the heat exchanger and supplied to the coolant reservoir. It can be provided that the coolant is passed through the heat exchanger in such a way that it absorbs heat and moisture contained in the process air through direct contact with the process air. To carry out a washing process, the pump is deactivated by means of the control and / or regulating unit. As a result, the coolant present in the coolant reservoir is cooled further and further by means of the evaporator of the heat pump, and heat is thereby taken up by the refrigerant of the heat pump until finally ice is formed. In addition, the process air is not cooled by means of the heat exchanger. The coolant may be water or a suspension of water and a latent heat storage material. The latter is advantageous because of the greater amount of latent heat available. In addition, a latent heat storage material can be selected with an optimum melting temperature. The higher the melting temperature of the latent heat storage material, the better the energy efficiency of the heat pump.

It is further advantageous if the heat pump and a portion of the process air duct are arranged outside a housing of the washer-dryer. In a housing of a tumble dryer is usually little space for the arrangement of the heat pump available. The arrangement of the heat pump and the portion of the process air duct outside the housing, the housing does not have to be laboriously modified or redesigned. The heat pump and the portion of the process air duct may, for example, be arranged on top of the housing, laterally, in particular behind, on the housing or in a base. The compact unit formed by the heat pump and the portion of the process air duct can be simple and be connected using a small number of lines with the rest of the washer-dryer. Optionally, an above-mentioned additional heat source of the heat pump can be arranged outside the housing of the washer-dryer. Advantageously, the blower of the process air duct is arranged outside the housing. As a result, the space for the fan within the housing can be saved. If sufficient space is available outside of the housing, larger blowers can also be used, with which higher process air volume flows can be generated, whereby the drying speed can be increased. Preferably, the fan with the heat pump and the portion of the process air duct is structurally combined to form a compact unit arranged outside the housing.

According to a further advantageous embodiment, the washer-dryer comprises a separate housing arranged outside the housing, in which the heat pump and the section of the process control or the blower are arranged. This makes the components present in the housing inaccessible. In addition, the aesthetic impression created by the viewer when viewing the washer-dryer is improved. Optionally, an above-mentioned additional heat source of the heat pump can be arranged within the separate housing of the washer-dryer.

In a method according to the invention for operating a washer dryer comprising at least one process air duct and at least one heat pump connected to the process air duct, a portion of the process air duct is formed by a fixedly arranged tub of the washer dryer, during a washing process carried out with the washer dryer and during a heated process carried out with the washer dryer process air is passed through the tub. The process associates the advantages mentioned above with respect to the washer-dryer. In particular, the washer-dryer can be set up to carry out the method. According to an advantageous embodiment, it is provided that aspirated during the washing process by means of a blower of the process air duct ambient air, heated by a condenser of the heat pump and then supplied to the tub and that exiting the tub process air cooled by an evaporator of the heat pump and then into an environment the washer dryer is discharged. With this embodiment, the advantages mentioned above with respect to the corresponding embodiment of the washer dryer are connected accordingly.

According to a further advantageous embodiment, it is provided that a closed process air circuit is used as Prozessluftfüh- tion and that the heat pump is provided with at least one additional heat source, wherein the additional heat source and an evaporator of the heat pump are selectively connected to a refrigerant circuit of the heat pump, wherein during the drying process of the evaporator and during the washing process, the additional heat source is connected to the refrigerant circuit. With this embodiment, the advantages mentioned above with respect to the corresponding embodiment of the washer dryer are connected accordingly.

A further advantageous embodiment provides that a closed process air circuit is used as the process air guide and that the heat pump is provided with at least one additional heat source, wherein disconnected during the drying process, the additional heat source of a refrigerant circuit of the heat pump and an evaporator of the heat pump downstream of an expansion unit of the heat pump is, and wherein during the washing process, the additional heat source connected to the refrigerant circuit, the evaporator upstream of the expansion unit and the additional heat source in series to the evaporator and the expansion unit is connected downstream. With this embodiment, the advantages mentioned above with respect to the corresponding embodiment of the washer dryer are connected accordingly.

According to a further advantageous embodiment it is provided that the process air guide is heat-transmitting connected to a heat exchanger of a coolant circuit, which is a pump for circulating a coolant in the coolant circuit and a coolant reservoir, wherein a closed process air circuit is used as the process air guide, wherein an evaporator of the heat pump is heat-transfer connected to the coolant reservoir, and wherein the pump is activated during the drying process and deactivated during the washing process. With this embodiment, the advantages mentioned above with respect to the corresponding embodiment of the washer dryer are connected accordingly.

The invention is not limited to the specified combination of the features of the independent claims and the dependent claims. In addition, there are further possibilities of combining individual features, in particular if they result from the patent claims, the following description of the exemplary embodiments or directly from the figures of the drawing. In addition, the reference of the claims to the figures by the use of reference numerals is not intended to limit the scope of the claims to the illustrated embodiments.

In the following, the invention will be explained by way of example with reference to the figures of the attached drawing on the basis of preferred exemplary embodiments, wherein the features explained below can represent an aspect of the invention both individually and in different combinations with one another. Show it:

Fig. 1 is a schematic representation of an embodiment of a washer-dryer during a drying process;

Fig. 2 is a schematic representation of the washer-dryer shown in Fig. 1 during a washing operation;

3 shows a schematic representation of a further embodiment of a washer-dryer during a drying process;

Fig. 4 is a schematic representation of the washer-dryer shown in Fig. 3 during a washing operation; 5 shows a schematic illustration of a further embodiment of a washer-dryer during a drying process;

Fig. 6 is a schematic representation of the washer-dryer shown in Fig. 5 during a washing operation;

7 shows a schematic illustration of a further embodiment of a washer-dryer during a drying process;

Fig. 8 is a schematic illustration of the washer-dryer shown in Fig. 7 during a washing operation;

9 shows a schematic illustration of a further embodiment of a washer-dryer during a drying process; Fig. 10 is a schematic illustration of the washer-dryer shown in Fig. 9 during a washing operation;

Fig. 1 1 is a schematic representation of another embodiment of a washer-dryer during a drying process; and

Fig. 12 is a schematic representation of the washer dryer shown in Fig. 1 1 during a washing process.

In the figures, identical or functionally identical components are provided with the same reference numerals.

Fig. 1 shows a schematic representation of an embodiment of a washer-dryer 1 during a drying process. The washer-dryer 1 comprises a process air duct 2 with a blower 3, with which a process air in the process air duct 2 can be moved in accordance with the arrows. A portion of the process air duct 2 is formed by a fixed tub 4 of the washer-dryer 1. The process air duct 2 also comprises two as three-way Valves formed, electrically controllable valve units 5 and 6, which are set to carry out the drying process such that the process air guide 2 is formed as a closed process air circuit.

The washer-dryer 1 further comprises a heat-pump 7 connected in a heat-transmitting manner with the process air duct 2. The heat pump 7 comprises an evaporator 8, a compressor unit 9 in the form of an electrically controllable compressor, a condenser 10 and an expansion unit 11 in the form of a capillary tube.

Furthermore, the washer-dryer 1 comprises a control and / or regulating electronics 12 signal-wise connected to the process air duct 2 and the heat pump 7 via signal connections S. In particular, the control and / or regulating unit 12 is signal-wise connected to the blower 3 and the compressor unit 9, above all also to be able to activate and deactivate the fan 3 and the compressor unit 9 as needed. The control and / or regulating electronics 12 are set up to control the process air guide 2 and the heat pump 7 in such a way that during a washing process carried out with the washer-dryer 1 and carried out with the washer-dryer 1, shown in FIG 1 drying process heated process air through the tub 4 is feasible. The heat pump 7, a portion of the process air duct 2 and possibly also the blower 3 can be arranged outside a housing, not shown, of the washer dryer 1, as shown for example in FIGS. 9 and 10. The washer-dryer 1 can in this case have a separate housing, which is arranged outside the housing and shown in FIGS. 9 and 10, in which the heat pump 7 and the section of the process control 2 or the blower 3 are arranged.

FIG. 2 shows a schematic representation of the washer-dryer 1 shown in FIG. 1 during a washing process. For this purpose, the process air guide 2 is designed and electrically controllable via the control and / or control electronics 12 that during the washing process by means of the blower 3 of the process air duct 2, an ambient air sucked, by means of the condenser 10 of the heat pump 7 and then the liquor container 4 can be fed and that emerging from the tub 4 process air by means of the evaporator 8 of the heat pump 7 and cooled in a Environment of the washer dryer 1 is discharged. For this purpose, the valve units 5 and 6 have been controlled or switched by means of the control and / or regulating electronics 12, so that the process air guide 2 is designed to be open.

FIG. 3 shows a schematic illustration of a further embodiment of a washer-dryer 1 during a drying process. This washer-dryer 1 differs from the exemplary embodiment shown in FIGS. 1 and 2 in that the process-air duct 2 is designed as a closed process-air circuit both during the drying process shown in FIG. 3 and during the washing process shown in FIG. 4, and that the heat pump 7 has an additional heat source 13 and a signaling connection S signal-wise connected to the control and / or regulating electronics 12 valve unit 14, with which the additional heat source 13 and the evaporator 8 are selectively connectable to a refrigerant circuit 15 of the heat pump 7, wherein during the 3, the drying process of the evaporator 8 and during the washing process shown in Fig. 4, the additional heat source 13 is connected to the refrigerant circuit 15. For this purpose, the valve unit 14 is controlled accordingly by means of the control and / or regulating unit 12. The additional heat source 13 may include at least one water-containing tank, a latent heat storage, or a heat exchanger, which is not shown in detail. FIG. 4 shows a schematic representation of the washer-dryer 1 shown in FIG. 3 during a washing process. For this purpose, the valve unit 14 was controlled by means of the control and / or regulating unit 12 such that the additional heat source 13 is connected to the refrigerant circuit 15 of the heat pump 7 and the evaporator 8 is disconnected from the refrigerant circuit 15.

Fig. 5 shows a schematic representation of another embodiment of a washer-dryer 1 during a drying process. This washer-drier 1 differs from the embodiment shown in FIG. 1 in that the process-air duct 2 is designed as a closed process-air circuit both during the drying process shown in FIG. 5 and during the washing process shown in FIG. 6, and that the heat pump 7 has an additional Heat source 16 and a plurality of signal technically connected to the control and / or control electronics not shown, designed as a three-way valves valve units 17 to 21, with which During the drying process shown in FIG. 5, the additional heat source 16 is disconnected from a refrigerant circuit 15 of the heat pump 7 and the evaporator 8 of the heat pump 7 of the expansion unit 1 1 of the heat pump 7 is connected downstream and with which during the washing process shown in FIG Heat source 16 is connected to the refrigerant circuit 15, the evaporator 8 of the expansion unit 1 1 is connected upstream and the additional heat source 16 in series with the evaporator 8 and the expansion unit 1 1 is connected downstream. The additional heat source 16 may comprise at least one water-containing tank, a latent heat storage, or a heat exchanger, which is not shown in detail. To carry out the drying operation, the valve units 17 to 21 are actuated or adjusted by the control and / or regulating electronics according to FIG. 5.

FIG. 6 shows a schematic representation of the washer-dryer 1 shown in FIG. 5 during a washing process. In order to carry out the washing process, the valve units 17 to 21 are activated or adjusted by the control and / or regulating electronics according to FIG. 6, so that the additional heat source 16 is connected to the refrigerant circuit 15, the evaporator 8 of the expansion unit 1 1 is connected upstream and the additional heat source 16 in series the evaporator 8 and the expansion unit 1 1 is connected downstream. Fig. 7 shows a schematic representation of another embodiment of a washer-dryer 1 during a drying process. This washer-dryer 1 differs from the embodiment shown in FIG. 1 by a coolant circuit 22, which is a heat exchanger 23, via which the coolant circuit 22 is heat-transmitting connected to the process air duct 2, a signal technically connected to the control and / or control electronics, not shown Pump 24 for circulating a coolant in the coolant circuit 22 and a coolant reservoir 25 has. The process air guide 2 is designed as a closed process air circuit. The evaporator 8 of the heat pump 7 is heat-transmitting connected to the coolant reservoir 25. The pump 24 is activated during the drying process shown in Fig. 7 and deactivated during the washing process shown in Fig. 8, which is effected via a corresponding control of the pump 24 by means of the control and / or regulating electronics. FIG. 8 shows a schematic representation of the washer-dryer 1 shown in FIG. 7 during a washing process. For this purpose, the pump 24 of the coolant circuit 22 has been deactivated by means of the control and / or regulating unit, not shown, so that the process air is not cooled by the heat exchanger 23. 9 shows a schematic illustration of a further embodiment of a washer-dryer 1 during a drying process. The washer-dryer 1 is constructed substantially in accordance with the embodiment shown in FIGS. 1 and 2, but the heat pump 7 and a portion of the process air duct 2 comprising the two valve units 5 and 6 are outside a housing 26 of the washer-dryer 1 and arranged in a separate common housing 27, which may be arranged laterally, above or below the housing 26. Incidentally, reference is made to the above description of FIGS. 1 and 2. To carry out the drying process, the valve units 5 and 6 have been activated or adjusted by means of the control and / or regulating electronics (not shown) according to FIG.

FIG. 10 shows a schematic representation of the washer-dryer 1 shown in FIG. 9 during a washing process. To carry out the washing process, the valve units 5 and 6 have been activated or adjusted by means of the control and / or regulating electronics (not shown) according to FIG.

Fig. 1 1 shows a schematic representation of another embodiment of a washer-dryer 1 during a drying process. The washer-dryer 1 is constructed substantially in accordance with the embodiment shown in Figs. 3 and 4, however, the heat pump 7 and a portion of the process air duct 2 comprising the valve unit 14 are outside a housing 26 of the washer-dryer 1 and in a separate common housing 27, which may be arranged laterally, above or below the housing 26. In the separate common housing 27 and the additional heat source can be arranged with. Incidentally, reference is made to the above description to Figs. 3 and 4. To carry out the drying process, the valve unit 14 has been activated or adjusted by means of the control and / or regulating electronics (not shown) according to FIG. FIG. 12 shows a schematic representation of the washer-dryer 1 shown in FIG. 11 during a washing process. To carry out the washing process, the valve unit 14 has been activated or adjusted by means of the control and / or regulating electronics (not shown) according to FIG.

LIST OF REFERENCE NUMBERS

I Washer dryer

2 process air guidance

 3 blowers

 4 tubs

 5 valve unit

 6 valve unit

7 heat pump

 8 evaporator

 9 compressor unit

 10 capacitor

 I I expansion unit

12 control and / or control electronics

 13 additional heat source

 14 valve unit

 15 refrigerant circuit

 16 additional heat source

17 valve unit

 18 valve unit

 19 valve unit

 20 valve unit

 21 valve unit

22 coolant circuit

 23 heat exchangers

 24 pump

 25 coolant reservoir

 26 housing

27 separate housing

 S signal connection

Claims

Washer dryer (1) with at least one process air duct (2), at least one heat-transmitting connected to the process air duct (2) heat pump (7) and at least one signaling with the process air duct (2) and the heat pump (7) connected control and / or control electronics ( 12), wherein a portion of the process air guide (2) by a fixedly arranged tub (4) of the washer dryer (1) is formed, characterized in that the control and / or regulating electronics (12) is arranged, the process air guide (2) and the heat pump (7) so electrically to control that during a washing process performed with the washer-dryer (1) and during a drying process performed with the washer-dryer (1) process air through the tub (4) can be guided.

Waschtrockner (1) according to claim 1, characterized in that the process air guide (2) is formed and electrically controllable via the control and / or regulating electronics (12) that during the washing process by means of a blower (3) of the process air duct (2) an ambient air can be sucked in, by means of a condenser (10) of the heat pump (7) can be heated and fed to the tub (4) and that from the tub (4) exiting process air by means of an evaporator (8) of the heat pump (7) cooled and in a Environment of the washer dryer (1) is dischargeable.

Waschtrockner (1) according to claim 1, characterized in that the process air guide (2) is designed as a closed process air circuit and that the heat pump (7) at least one additional heat source (13) and at least one signaling technology with the control and / or regulating electronics (12 ) connected to the additional heat source (13) and an evaporator (8) of the heat pump (7) optionally with a refrigerant circuit (15) of the heat pump (7) are connected, wherein during the drying process, the evaporator (8 ) and during the washing process, the additional heat source (13) is connected to the refrigerant circuit (15). Washer dryer (1) according to claim 3, characterized in that the additional heat source (13) comprises at least one water-containing tank, a latent heat storage, or a heat exchanger.

Waschtrockner (1) according to claim 1, characterized in that the process air guide (2) is designed as a closed process air circuit and that the heat pump (7) at least one additional heat source (16) and a plurality of signal technology with the control and / or regulating electronics (12). connected valve units (17, 18, 19, 20, 21), with which during the drying process, the additional heat source (16) is decoupled from a refrigerant circuit (15) of the heat pump (7) and an evaporator (8) of the heat pump (7) an expansion unit (1 1) of the heat pump (7) is connected downstream and with which the additional heat source (16) is connected to the refrigerant circuit (15) during the washing process, the evaporator (8) of the expansion unit (1 1) is connected upstream and the additional Heat source (16) in series the evaporator (8) and the expansion unit (1 1) is connected downstream.

Waschtrockner (1) according to claim 1, characterized by at least one coolant circuit (22) having a heat exchanger (23), via which the coolant circuit (22) is heat-transmitting connected to the process air guide (2), a signal with the control and / or Control electronics (12) connected pump (24) for circulating a coolant in the coolant circuit (22) and a coolant reservoir (25), wherein the process air guide (2) is designed as a closed process air circuit, wherein an evaporator (8) of the heat pump (7) heat transferring to the coolant reservoir (25) is connected, and wherein the pump (24) is activated during the drying process and deactivated during the washing process.

Washer dryer (1) according to one of claims 1 to 6, characterized in that the heat pump (7) and a portion of the process air guide (2) outside a housing (26) of the washer dryer (1) are arranged.

Washer dryer (1) according to claim 7, characterized in that the blower (3) of the process air guide (2) outside the housing (26) is arranged. Washer dryer (1) according to claim 7 or 8, characterized by a separate housing (26) arranged outside the housing (27), in which the heat pump (7) and the portion of the process control (2) or the fan (3) are arranged ,

A method for operating a washer dryer (1) which has at least one process air duct (2) and at least one heat pump (7) connected to the process air duct (2), wherein a portion of the process air duct (2) is defined by a fixedly arranged tub (4) of the Waschtrock dryer (1) is formed, characterized in that during a washing process carried out with the washer-dryer (1) and during a drying process carried out with the washer-dryer (1) process air is passed through the tub (4). 1 1. A method according to claim 10, characterized in that during the washing process by means of a blower (3) the process air duct (2) sucked in an ambient air, by means of a condenser (10) of the heat pump (7) and then fed to the tub (4) is and that from the tub (4) exiting process air by means of an evaporator (8) of the heat pump (7) is cooled and then discharged into an environment of the washer-dryer (1).

A method according to claim 10, characterized in that a closed process air circuit is used as the process air guide (2) and that the heat pump (7) is provided with at least one additional heat source (13), wherein the additional heat source (13) and an evaporator (8) the heat pump (7) optionally with a refrigerant circuit (15) of the heat pump (7) are connected, wherein during the drying process, the evaporator (8) and during the washing process, the additional heat source (13) with the refrigerant circuit (15) is connected.

13. The method according to claim 10, characterized in that a closed process air circuit is used as process air duct (2) and that the heat pump (7) is provided with at least one additional heat source (16), wherein during the drying process, the additional heat source (16) a refrigerant circuit (15) of the heat pump (7) decoupled and an evaporator (8) of the heat pump (7) an expansion unit (1 1) of the heat pump (7) is connected downstream, and wherein during the washing process, the additional heat source (16) with the refrigerant circuit (15) connected upstream of the evaporator (8) of the expansion unit (1 1) and the additional heat source (16) in series with the evaporator (8) is connected downstream.

14. The method according to claim 10, characterized in that the process air guide (2) is heat-transmitting connected to a heat exchanger (23) of a coolant circuit (22) having a pump (24) for circulating a coolant in the coolant circuit (22) and a coolant reservoir (25), wherein as a process air guide (2) a closed process air circuit is used, wherein an evaporator (8) of the heat pump (7) is heat-transmitting connected to the coolant reservoir (25), and wherein the pump (24) activated during the drying process and is deactivated during the washing process.