DE102018128489A1 - Heat pump clothes dryer and method for operating it - Google Patents

Abstract

The invention relates to a heat pump laundry dryer, comprising a process air circuit (2) for a process air for drying laundry to be dried and a refrigerant circuit (4) for a refrigerant, the refrigerant circuit (4) comprising an evaporator (6), one with the evaporator (6) A condenser (10) connected as a throttle line (8), a condenser (14) arranged between the evaporator (6) and the condenser (10) in a second flow line (12), a cooler (16) for cooling the Refrigerant, a temperature sensor (18) for detecting the temperature of the refrigerant and a control (20) connected to the compressor (14), the cooler (16) and the temperature sensor (18), and wherein the cooler (16) by means of the Control (20) and at least partially as a function of output signals of the temperature sensor (18) can be controlled. To dry laundry in a heat pump To improve the laundry dryer, it is proposed that the cooler (16) be designed as a Peltier element, the Peltier element (16) depending on the temperature of the refrigerant being controllable by means of the controller (20) in such a way that the refrigerant can be controlled by means of the Peltier element (16) Furthermore, the invention relates to a method for operating a heat pump clothes dryer.

Description

The invention relates to a heat pump clothes dryer according to the preamble of claim 1 and a method for operating a heat pump clothes dryer according to the preamble of claim 4.

Such heat pump tumble dryers and methods for their operation are already known from the prior art in various embodiments.

For example, from the DE 196 38 865 C2 A heat pump laundry dryer comprising a process air circuit for a process air for drying laundry to be dried and a refrigerant circuit for a refrigerant, the refrigerant circuit comprising an evaporator, a condenser connected to the evaporator via a first flow line designed as a throttle line, a between the evaporator and the condenser Compressor arranged in a second flow line, a cooler for cooling the refrigerant, a temperature sensor for detecting the temperature of the refrigerant and a control connected to the compressor, the cooler and the temperature sensor, and wherein the cooler by means of the control and at least partially as a function can be controlled by output signals of the temperature sensor. The first flow line, designed as a throttle line, has a throttle element designed as a thermostatically controlled expansion valve for throttling the refrigerant.

The invention therefore has the problem of improving laundry drying in a heat pump tumble dryer.

According to the invention, this problem is solved by a heat pump clothes dryer with the features of claim 1, which is characterized in that the cooler is designed as a Peltier element, the Peltier element being controllable in dependence on the temperature of the refrigerant by means of the control in such a way that the refrigerant by means of the Peltier element is cooled. Furthermore, this problem is solved by a method for operating a heat pump laundry dryer with the features of patent claim 4, which is characterized in that the cooler is designed as a Peltier element, the Peltier element being controlled as a function of the temperature of the refrigerant by means of the controller in such a way that the refrigerant is cooled by means of the Peltier element.

Advantageous refinements and developments of the invention result from the following subclaims.

The advantage that can be achieved with the invention is, for example, more efficient and faster laundry drying in a heat pump clothes dryer. The cooler is realized in a particularly advantageous manner by means of the Peltier element, since Peltier elements are only small in size and light in weight. Accordingly, the arrangement of the Peltier element in the heat pump clothes dryer can be freely selected within wide suitable limits. Furthermore, Peltier elements do not include any moving components and do not move gases or liquids. It is thus possible to operate the heat pump clothes dryer according to the invention with a lower noise emission compared to heat pump clothes dryers equipped with cooling fans or the like without additional effort, for example a sound-absorbing fastening and / or a sound-absorbing housing.

Basically, the Peltier element can be freely selected according to type, material, dimensions, number and arrangement within wide suitable limits. An advantageous development of the heat pump clothes dryer according to the invention provides that the Peltier element is arranged between the compressor and the condenser. The Peltier element is thus arranged in the flow direction after the compressor and before the condenser in the second flow line. This makes it possible to cool the refrigerant in the refrigerant circuit in the desired manner and in a controlled manner. Cooling of the refrigerant would be necessary, for example, if the refrigerant in the refrigerant circuit has overheated due to the drying process and the compression by the compressor. This ensures that the maximum temperature of the refrigerant required for the safe functioning of the heat pump clothes dryer according to the invention is not exceeded.

A particularly advantageous development of the heat pump tumble dryer according to the invention provides that the Peltier element can be controlled by the controller as a function of the temperature of the refrigerant in such a way that the refrigerant is heated by means of the Peltier element. In this way, the Peltier element not only enables cooling of the refrigerant required under certain conditions in the course of the drying process, but also heating of the refrigerant in the refrigerant circuit. According to this development of the heat pump laundry dryer according to the invention, there is therefore no additional component, for example an additional heat exchanger or the like, for heating the Refrigerant required. This is particularly advantageous in combination with the aforementioned advantageous development of the heat pump laundry dryer according to the invention, namely a Peltier element arranged between the compressor and the condenser, since the process air in the process air circuit can be preheated in a desired manner and in a controlled manner by the condenser directly before it is heated.

Analogous to the last-mentioned advantageous development of the heat pump clothes dryer according to the invention, an advantageous development of the method according to the invention for operating the heat pump clothes dryer according to the invention provides that the Peltier element is controlled by the control as a function of the temperature of the refrigerant such that the refrigerant is heated by means of the Peltier element. The advantages mentioned with regard to the correspondingly designed heat pump clothes dryer also apply to this development of the method according to the invention. This applies in particular in combination with the advantageous further development, according to which the Peltier element is arranged between the compressor and the condenser.

• 1 ein Ausführungsbeispiel des erfindungsgemäßen Wärmepumpenwäschetrockners.

An embodiment of the invention is shown purely schematically in the drawing and is described in more detail below. It shows the only figure:

• 1 an embodiment of the heat pump dryer according to the invention.

In 1 An embodiment of a heat pump clothes dryer according to the invention is shown in a simplified, partial representation. The heat pump clothes dryer is designed as a household appliance and comprises a process air circuit for a process air for drying laundry to be dried and a refrigerant circuit for a refrigerant. The process air circuit is in 1 by arrows 2nd and the refrigerant circuit is through a continuous dashed line 4th symbolizes. The laundry, the process air and the refrigerant are not shown.

The refrigerant circuit 4th has an evaporator 6 , one with the vaporizer 6 via a first flow line designed as a capillary tube 8th connected condenser 10th , one between the evaporator 6 and the condenser 10th in a second flow line 12th arranged compressor 14 , a cooler 16 for cooling the refrigerant, a temperature sensor 18th to detect the temperature of the refrigerant and one with the compressor 14 , the cooler 16 and the temperature sensor 18th Control connected to the signal 20th on, the cooler 16 by means of the control 20th and at least partially as a function of output signals from the temperature sensor 18th is controllable. The first flow line 8th and the second flow line 12th thus connect the evaporator in a flow-conducting manner 6 with the condenser 10th , being in the second flow line 12th between the evaporator 6 and the condenser 10th the compressor 14 is arranged. The first flow line designed as a throttle line 8th is thus formed as a capillary tube in the present embodiment. In principle, however, any other suitable type of throttling, that is, the design of the first flow line designed as a throttle line, is also conceivable.

The cooler 16 is designed as a Peltier element, the Peltier element 16 depending on the temperature of the refrigerant using the controller 20th can be controlled such that the refrigerant by means of the Peltier element 16 is cooled.

As from the 1 can be seen are the Peltier element 16 and the temperature sensor 18th each heat transfer between the compressor 14 and the condenser 10th on the second flow line 12th arranged.

Due to the special property of the Peltier element 16 namely that the Peltier element 16 by means of the control 20th both for cooling and for heating the refrigerant in the refrigerant circuit 4th can be controlled, it is possible to cool or heat the refrigerant as desired. This is the control 20th suitably trained. With the Peltier element 16 it is only necessary to use a supply voltage with which the Peltier element 16 from the controller 20th is supplied to reverse polarity accordingly.

In the following, the method according to the invention for operating a heat pump laundry dryer according to the present exemplary embodiment and using the 1 explained in more detail.

A user of the heat pump clothes dryer fills the heat pump clothes dryer with the laundry to be dried and selects a suitable drying program for controlling the drying process in a manner known to the person skilled in the art. In the course of the drying process, the laundry to be dried is made up of the process air from the process air circuit 2nd flowed through for drying. For this, the dry process air of the process air circuit 2nd first by means of the condenser 10th heated, the refrigerant in the refrigerant circuit 4th cooled and thereby liquefied. The cooled, liquefied refrigerant flows through the first flow line designed as a capillary tube 8th in the evaporator 6 . The process air of the process air circuit 2nd has since been brought into contact with the laundry to be dried, so that the Process air is now moist. By means of the evaporator 6 the moist process air is cooled and thus dehumidified, whereby the refrigerant in the refrigerant circuit 4th warmed and thereby evaporated. The heated and now vaporous refrigerant flows through the second flow line 12th in the compressor 14 , by means of which the refrigerant in the refrigerant circuit 4th is compressed and additionally heated. From the compressor 14 the refrigerant flows through the second flow line 12th back to the condenser 10th of the refrigerant circuit 4th .

This process is repeated during the drying process of the laundry, as a result of which the laundry achieves the degree of drying desired by the user by means of the selected drying program.

In the course of the drying process, the refrigerant may need to be in the refrigerant circuit 4th to cool. For example, because otherwise a predetermined maximum temperature of the refrigerant in the refrigerant circuit 4th would be exceeded. By means of the temperature sensor 18th becomes the temperature of the refrigerant in the refrigerant cycle 4th , namely at the point of the refrigerant circuit 4th on which the temperature sensor 18th is arranged to transmit heat, detected and in a manner known to those skilled in the art to the control 20th forwarded and in control 20th processed. If there is a risk that the temperature of the refrigerant will exceed its maximum permissible temperature, the Peltier element 16 by means of the control 20th and automatically controlled depending on the temperature of the refrigerant in such a way that the refrigerant in the refrigerant circuit 4th by means of the Peltier element 16 is cooled.

Conversely, it may be desirable for the refrigerant to be in the refrigerant circuit 4th by means of the Peltier element 16 is heated. For example, this can be provided in the course of the drying process to complete the drying process by preheating the refrigerant in the refrigerant circuit 4th before it enters the condenser 10th to accelerate. Accordingly, the Peltier element 16 depending on the temperature of the refrigerant in the refrigerant circuit 4th , namely at the point of the refrigerant circuit 4th on which the temperature sensor 18th is arranged to transmit heat, by means of the control 20th is automatically controlled such that the refrigerant by means of the Peltier element 16 is heated.

Such preheating of the refrigerant of the refrigerant circuit 4th is basically to be considered as advantageous for the drying process of the laundry to be dried, since this increases the efficiency and the speed of the drying process. Only if there is a risk of the refrigerant overheating in the refrigerant circuit 4th , that is, if the refrigerant exceeds its permissible maximum temperature, this would be preheating the refrigerant by means of the Peltier element 16 not useful. Overheating of the refrigerant is reliably prevented by means of the heat pump clothes dryer according to the invention and the method according to the present embodiment. The supply voltage of the Peltier element 16 is simply in the manner explained above for cooling the refrigerant in the refrigerant circuit 4th reversed polarity.

The invention is not restricted to the present exemplary embodiment. For example, it is conceivable that the heat pump clothes dryer according to the invention is designed as a commercial device, that is to say a device for professional use.

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 19638865 C2 [0003]

Claims (5)

Heat pump laundry dryer, comprising a process air circuit (2) for a process air for drying laundry to be dried and a refrigerant circuit (4) for a refrigerant, the refrigerant circuit (4) comprising an evaporator (6), one with the evaporator (6) via a throttle line formed first flow line (8) connected condenser (10), a compressor (14) arranged between the evaporator (6) and the condenser (10) in a second flow line (12), a cooler (16) for cooling the refrigerant, a temperature sensor (18) for detecting the temperature of the refrigerant and having a control (20) connected to the compressor (14), the cooler (16) and the temperature sensor (18) in a signal-conducting manner, and wherein the cooler (16) by means of the control (20) and can be controlled at least partially as a function of output signals from the temperature sensor (18), characterized in that the cooler (16) acts as a Peltier element is configured, the Peltier element (16) depending on the temperature of the refrigerant being controllable by means of the controller (20) in such a way that the refrigerant is cooled by means of the Peltier element (16). Heat pump clothes dryer after Claim 1 , characterized in that the Peltier element (16) is arranged between the compressor (14) and the condenser (10). Heat pump clothes dryer after Claim 1 or 2nd , characterized in that the Peltier element (16) can be controlled as a function of the temperature of the refrigerant by means of the controller (20) in such a way that the refrigerant is heated by means of the Peltier element (16). Method for operating a heat pump laundry dryer, the heat pump dryer comprising a process air circuit (2) for a process air for drying laundry to be dried and a refrigerant circuit (4) for a refrigerant, the refrigerant being evaporated in an evaporator (6), in one with the The evaporator (6) is liquefied via a condenser (10) connected as a first flow line (8), is compressed and compressed by means of a compressor (14) arranged between the evaporator (6) and the condenser (10) in a second flow line (12) is cooled by means of a cooler (16), and the temperature of the refrigerant is detected by means of a temperature sensor (18) and the cooler (16) is controlled by a controller (20) and at least partially as a function of output signals from the temperature sensor (18), characterized in that the cooler (16) is designed as a Peltier element, the Peltier element (16) being controlled as a function of the temperature of the refrigerant by means of the controller (20) in such a way that the refrigerant is cooled by means of the Peltier element (16). Procedure according to Claim 4 , characterized in that the Peltier element (16) is controlled as a function of the temperature of the refrigerant by means of the controller (20) such that the refrigerant is heated by means of the Peltier element (16).

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