DE102009001610A1 - Method for producing information about fibrous material condition of component e.g. heat exchanger, in condensation dryer, involves producing information depending on evaluation of physical parameter of synchronous motor - Google Patents

Abstract

The method involves supplying a component with process air, where the process air is guided into a process air guide (4) by a blower (5). The blower is driven by a permanently excited synchronous motor (18), and a physical parameter concerning to the synchronous motor is evaluated. Information about the condition of the component is produced depending on the evaluation of the physical parameter of the synchronous motor, where an electric current flowing via a winding of a stator of the motor is measured as the physical parameter. An independent claim is also included for a household appliance for drying laundry, comprising a process air guide.

Description

The The invention relates to a method for generating information about a lode state of a flowed by a process air Assembly in a domestic appliance for drying items of laundry, in which a process air in a process air duct is promoted by means of a blower. The invention also relates to a household appliance for drying Laundry.

In the present case, it concerns the cleaning of an assembly flowed through by a process air, which comprises, for example, a heat exchanger, in particular an evaporator, and / or a lint filter (also known as "lint filter") in a condensation dryer. A condensation dryer and a method for cleaning a corresponding assembly in such a dryer are from the document WO 2008/119611 A1 known. It is a condensate water, which is obtained in a process air cycle from the drying of wet laundry and collected in a condensate water pan, used to clean the evaporator. The condensate water is passed from the condensate water tub to a provided above the evaporator washing container. By a sudden opening of the washing container, the condensate water is discharged to the assembly comprising the evaporator, and the assembly is cleaned. Pollution of the assembly to be cleaned occurs because the process air which flows through the assembly in the said process air stream carries water vapor and suspended matter in the form of lint. The lint deposits on the module, because moisture is formed there by cooling the process air by condensing the water vapor, in which the lint is bound more or less firmly. This moisture is the above-mentioned condensate water. The pollution due to such precipitated and bound fluff is therefore referred to below as "leaching". This leaching occurs to a great extent on the assembly where the process air containing lint and steam is cooled. Measures against flooding are therefore to be made primarily in relation to this assembly.

It The object of the invention is to indicate a solution, such as information about the state of fl ow of a corresponding, accurately determined by a process air flowed assembly so that the assembly can be cleaned as needed can.

These The object is achieved by a method with the features according to corresponding independent Claim solved, as well as by a household appliance with the features according to corresponding independent Claim. Preferred and advantageous embodiments the invention are the subject of the dependent claims, additionally preferred embodiments of the Method preferred embodiments of the household appliance and vice versa, and even then, if so not explicitly indicated.

at a method according to the invention for generating information about a state of flooding one of a process air flowed assembly in a household appliance For drying laundry is a process air in one Process air conveyed by means of a blower. The blower is driven by a drive motor. It is at least one related to the drive motor physical Size evaluated, and depending on this Evaluation is the information about the leaching state generated the assembly.

By the inventive method can the information about the leaching state of the assembly, in particular of the lint filter contained therein and / or heat exchanger, are determined particularly accurately. If such information is available, a decision about it may be made be made whether the assembly should be cleaned or not. Compared to the prior art, in which the heat exchanger can be rinsed after each drying cycle, by the water saving methods according to the invention, if the lint, for example, due to the drying of little is dried to form fluff-prone laundry and thus unnecessary cleaning steps are avoided. This is especially true in such household appliances in which for cleaning the heat exchanger water from an external Water supply network is used. The same applies to the lint filter, which either automatically by a cleaning device rinsed or by an operator from the household appliance can be taken out and cleaned. So is a cleaning device to clean the module in the household appliance, so can Water can be saved. If such is not available, so can an operator indicated by a corresponding message be that the assembly is to be cleaned. Then it turns out the advantage that an operator only then by a display is informed when such cleaning is really necessary. Compared to the prior art, in which the cleaning instruction regardless of the state of leaching, namely by a fixed timing, the operator is optionally unnecessarily to clean a still relatively clean Assembly initiates.

The assembly to be cleaned is through the constructive design of the household appliance largely determined. The assembly comprises a lint filter placed in the process air stream for filtering the process air which flows out of the material to be dried, or a heat exchanger optionally arranged behind the lint filter for cooling the process air. The heat exchanger may be an air-to-air heat exchanger for cooling the process air by means of cooling air or a heat sink of a heat pump. Added to this may be parts of the process air duct in the vicinity of the abovementioned components, as long as such parts can also cool the process air and precipitate lint.

The Invention takes advantage of the fact that in a drive motor, be it a DC motor, a synchronous motor or a Asynchronous motor, the load, namely the flow resistance here in the process air duct, determined by the engine parameters can be. In the at least one related to the drive motor physical size may be a motor current and / or an induced voltage and / or a rotational speed of the rotor and / or a torque and / or a phase shift between the motor current and the induced voltage act. change the flow resistance changes also the torque and possibly also the speed of the drive motor. This change can, for example, based on the motor current and / or based on the induced Voltage and / or the phase difference can be detected. The least So a physical quantity will depend on the drive motor chosen so that the change of load and thus the state of leaching can be determined exactly.

in the With regard to the measurement of the current as well as the efficiency It has proved to be advantageous if a drive motor as a permanently excited synchronous motor is used. The runner such an electric machine moves uniformly and synchronous with the angular velocity of the sinusoidal Stator voltage. Thus, the speed of the rotor in a permanently excited synchronous motor usually known, they corresponds to the frequency of the induced voltage. An over At least one winding of the stator flowing current can in a permanently excited synchronous motor without much effort, for Example by means of an inverter, measured and by a control device be evaluated. Does the torque of a synchronous motor change? so this can be done directly on the basis of an evaluation of the the at least one winding of the stator flowing current be recognized. This is based on the fact that the flow resistance in the process air during a drying process or changes over time during several drying processes, because the lint filter and the heat exchanger more and more verflust become. Then there is more and more torque to drive the fan required. In this way, the change of the state of leaching the module are monitored.

Especially in a permanently excited synchronous motor can complement or in addition to the motor current, a phase delay between the phase of one to the at least one winding of the stator applied voltage and the phase of the measured current and evaluated. Depending on this phase delay then the information about the state of lice can be generated become. The fact is exploited that the phase difference between the current and the voltage changes with the load. Increases the flow resistance on the fan on, so does it can be recognized by the phase difference - the phase difference between the current and the voltage decreases or the real part the load rises. An exact statement about the state of leaching can therefore without much effort by evaluating the phase difference to be hit.

It is preferred a connection of the state of leaching of the at least one physical quantity in one Control device by a mathematical equation and / or by a reference characteristic is modeled. Such a reference equation or such a characteristic can through experiments during a development phase of the household appliance determined in advance and be saved as a reference. Such a reference characteristic can for example, in the form of a table. Then the Leaking state can be read particularly easily. For example can be from the at least one physical size an information size as information about derived from the leaching state, for example a percentage or a binary size. The information about So the lode state can be considered as a percentage of lint the module or as a binary information - "lint filter and / or heat exchanger verflust "or" lint filter and / or heat exchanger does not flare "- determined become. Alternatively it can be provided that the at least one physical size directly as a measure of the Flux state is used. Then only the values become for the physical size with in one Memory stored reference values compared, and dependent From this comparison, the heat exchanger and / or the Fluff filter cleaned or not.

It can be provided that when a predetermined state of flooding is reached, at least one electrical signal is output. Such a signal can then cause the execution of various functions of the household appliance.

To the For example, the at least one signal may be automatic cleaning cause the assembly by means of a corresponding cleaning device. This can be done, for example, as follows: A control device recognizes by evaluating supplied signals that the state of leaching has reached a predetermined state. The control device then controls the cleaning device to output the signal at. The cleaning device then cleans the assembly. For cleaning For example, a in the process air from the Drying of wet laundry won and in a condensate water tank Trapped condensate water can be used. It is in the frame of the invention, to an assembly comprising a plurality of particular not functionally or spatially separated components the automated cleaning of each component or not in each Trap of leaching to clean all components at the same time. In a household appliance in the form of a condensation dryer For example, the assembly typically includes a lint filter and a downstream of this heat exchanger. The predominant Part of the lint, the first the lint filter and then the heat exchanger entrained process air carries, is the lint filter collected, so the lint filter is usually faster than the heat exchanger cracks. So it would be possible to provide only an automated cleaning of the lint filter and leave the cleaning of the heat exchanger to a user; a corresponding leaching of the heat exchanger could determined and displayed to the user person, when the invention found Liquefaction also immediately after automated cleaning of the lint filter is found to be too high. Can both components mentioned be automatically cleaned, so could in the invention after cleaning the lint filter one of its lint unaffected leucorrhea of the heat exchanger determined and if necessary, initiate its automatic cleaning.

The issued after reaching the predetermined state of leaching Signal may additionally or additionally also Switch on a light source, the achievement of the predetermined Fluxing state signals. Then an operator gets of the household appliance the information that they are to clean the assembly or its components.

All in all So a method is created, which is a precise determination the leaching state of the corresponding module allows. In this case, the speed and / or the current and / or the induced Voltage and / or a phase difference and / or the torque of Drive motor evaluated. It uses the fact that the Power is proportional to the torque, and that the speed and the torque is dependent on air resistance. At a strong laxity change the air resistance and thus also the speed and / or the torque of the drive motor.

One Household appliance according to the invention is for drying trained by laundry. The home appliance includes a process air duct, in which one of a process air energized assembly and a blower for conveying the process air are arranged. The home appliance includes In addition, a drive motor for driving the fan. For controlling the drive motor, a control device is provided, which is designed to at least one related to the drive motor physical size and dependent from this evaluation to a leaching state of the module certain.

The Assembly preferably comprises a lint filter and / or a Heat exchanger, as above with more details executed.

The presented with reference to the inventive method preferred embodiments and in particular their advantages apply accordingly to the invention Household appliance.

Further Features of the invention will become apparent from the attached Claims, the drawing and the description of the drawing. The features and feature combinations mentioned above in the description as well as the below mentioned in the figure description and / or in the figure alone shown features and feature combinations are not only in the specified combination, but also usable in other combinations or in isolation, without to leave the scope of the invention.

The Invention will now be described with reference to a preferred embodiment and explained in more detail with reference to the attached drawing, wherein the single figure in a schematic representation of a condensation dryer according to an embodiment of the invention illustrated.

A condensation dryer shown in the figure 1 includes a laundry drum 2 , in which pieces of laundry 3 are included. One as a closed process air cycle 4 trained process air duct is provided in which process air cycle 4 powered by a fan 5 a process air flow circulates which moisture from the laundry 3 absorbs and dissipates. By a heater 6 is the process air before entering the laundry drum 2 heated. After the thus heated process air due to the rotation of the laundry drum 2 in this tumbling laundry 3 When it absorbs moisture, it leaves the laundry drum 2 and arrives at an assembly comprising a heat exchanger 7 , There it is cooled, so that the entrained moisture condenses out as condensate water on the structures of the heat exchanger 7 deposits and into a below the heat exchanger 7 arranged condensate water tray 8th drips. From the condensate water tank 8th such condensate water passes through a pump line 9 into which a condensate pump 10 is inserted to a container 11 ,

The heating system 6 and the heat exchanger 7 may be a conventional electrical resistance heater and a conventional air-to-air heat exchanger; They are also to be understood as components of a heat pump, with the heating 6 a heat source from which heat is transferred from the heat pump to the process air, and the heat exchanger 7 a heat sink that absorbs heat from the process air into the heat pump is. In a heat pump of the compressor type, in which a refrigerant circulates, which is cyclically evaporated in the heat sink and liquefied in the heat source, the heat sink is usually referred to as "evaporator" and the heat source as "condenser".

The order of arrangement of the fan 5 and the heater 6 is shown in the figure only by way of example. Alternatively, the blower could 5 in the flow direction immediately behind the heat exchanger 7 and the heater 6 immediately before the laundry drum 2 be arranged.

Between the laundry drum 2 and the heat exchanger 7 is in the process air cycle 4 a lint filter 12 arranged. The lint filter 12 Catches lint, so fine, dust-like fiber particles and the like, which the streaming process air the laundry items 3 snatch off, up. Thus they do not get to the heat exchanger 7 , This is especially necessary because lint, which is on appropriately exposed surfaces of the heat exchanger 7 knock down the thermal conductivity of the structures within the heat exchanger 7 can worsen considerably.

For cleaning the heat exchanger 7 a cleaning device is provided, which is a flushing line 13 having. The flushing line 13 is to the container 11 connected. Into the flushing line 13 is a control 14 , for example, a valve or a throttle integrated. By opening the control 14 can that be in the container 11 located condensate water to the heat exchanger 7 be delivered. In this way, the heat exchanger 7 be cleaned automatically. A separate cleaning device is for cleaning the lint filter 12 intended. It includes a flushing line 15 also attached to the container 11 is connected, and in which another control 16 , For example, a valve or a throttle, is integrated. About the flushing line 15 can the condensate water to the lint filter 12 be delivered. Then the condensate water reaches the lint filter 12 towards the condensate water tray 8th ,

It is of great interest to be able to determine if and when the assembly comprising the heat exchanger 7 and the lint filter 12 should be cleaned. This is done by a lint state of the lint filter 12 and the heat exchanger 7 determined, namely by a control device 17 , The control device 17 can the controls 14 . 16 under the output of appropriate signals open and so the heat exchanger 7 and / or the lint filter 12 clean. The control device 17 controls in addition a permanent magnet synchronous machine 18 which the blower 5 drives.

The control device 17 controls an inverter or inverter 19 , which is for providing AC voltage for the synchronous motor 18 is provided. Here is the inverter 19 coupled to a supply network which has an AC supply voltage for operating the condensation dryer 1 provides. The inverter 19 is with three windings 20 the stator of the synchronous motor 18 coupled, the inverter 19 puts an electrical voltage to each winding 20 at. So that's the synchronous motor 18 designed for operation with three-phase current, this three-phase current especially from the inverter 19 is produced.

The control device 17 can one over the windings 20 measure flowing current. Different embodiments are possible here: only one of the windings can be used 20 flowing electricity is detected. Alternatively, all currents can be via one winding each 20 flow of the stator, to be measured separately. Finally, a total current can be measured, that is, all currents can from the respective windings 20 tapped and summed up. Based on the detected current, which is proportional to the torque of the synchronous motor 18 is determined by the controller 17 the leaching state of the heat exchanger 7 and the lint filter 12 , Any torque fluctuations caused by changing the flow resistance of the process air can be detected directly on the measured values for the current.

To close on the leaching state en, are in a memory of the controller 17 Reference values or a reference equation for the leaching state filed during a development phase of the condensation dryer 1 determined and saved by experiments. Now recognize the controller 17 in that a predetermined state of flooding is achieved, namely on the basis of a comparison of the measured values for the current with the stored reference values, it outputs a signal indicating the opening of the control elements 14 . 16 and so the cleaning of the heat exchanger 7 and the lint filter 12 causes.

The fl ow state can be the control device 17 also based on a phase difference between the phase of the measured current and the phase of the windings 20 determine the applied electrical voltage. It is also possible to use reference values or a reference equation for the phase difference in the control device 17 be filed. The evaluation of the phase difference also allows the conclusions to the load of the synchronous motor 18 , thus on the flow resistance of the process air and thereby on the leaching state of the heat exchanger 7 and the lint filter 12 ,

The lint filter 12 can also be removed in the condensation dryer 1 be arranged. Then an operator can use the lint filter 12 from the condensation dryer 1 remove and clean it. An operator is through a light emitting diode 21 informed that the lint filter 12 has reached a predetermined state of fluffing. The light-emitting diode 21 becomes after detection of the predetermined Befflusungszustand by the control device 17 driven.

Overall, therefore, a condensation dryer 1 created in which the leaching state of the heat exchanger 7 and the lint filter 12 particularly accurate by electrical parameters of the synchronous motor 18 can be determined. In this case, the motor current is evaluated, and the state of flux is determined as a function of this evaluation. Changes the flow resistance and thus the load of the synchronous motor 18 , this is detected immediately on the measured values for the current.

1

condensation dryer

2

washing drum

3

laundry

4

Process air circuit

5

fan

6

heater

7

heat exchangers or evaporator

8th

Condensate water trough

9

pump line

10

condensate pump

11

container

12

lint filter

13

flushing line

14

control

15

flushing line

16

control

17

control device

18

synchronous machine

19

inverter

20

windings of the stator

21

led

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - WO 2008/119611 A1 [0002]

Claims (16)

Method for generating information about an expansion state of an assembly flowed by a process air ( 12 . 7 ) in a domestic appliance ( 1 ) for drying laundry ( 3 ), in which the process air in a process air duct ( 4 ) by means of a blower ( 5 ), which by means of a drive motor ( 18 ), characterized in that at least one on the drive motor ( 18 ) is evaluated and, depending on this evaluation, the information about the state of leaching of the assembly ( 12 . 7 ) is generated. Method according to claim 1, characterized in that the drive motor ( 18 ) is a permanent magnet synchronous motor. A method according to claim 1 or 2, characterized in that as a physical quantity via a winding of the stator of the drive motor ( 18 ) is measured and, depending on measured values for this current, the information about the state of flow is generated. Method according to claim 3, characterized that as a physical quantity a phase delay between the phase of one to the at least one winding of the stator applied voltage and the phase of the measured current and is evaluated, and depending on the phase delay the information about the state of lice is generated. Method according to one of the preceding claims, characterized in that a correlation of the state of fluffing of the at least one size in a control device ( 17 ) is modeled by a mathematical equation and / or a reference characteristic. Method according to one of the preceding claims, characterized in that when a predetermined state of fluffing is achieved, at least one electrical signal is output. A method according to claim 6, characterized in that the at least one signal is a cleaning of the assembly ( 12 . 7 ) by means of a cleaning device ( 13 . 14 . 15 . 16 ). Method according to claim 6 or 7, characterized in that the at least one signal is a switching on of a light source ( 21 ) which signals the achievement of the predetermined lint state. Domestic appliance ( 1 ) for drying laundry ( 3 ), with - a process air duct ( 4 ) in which an assembly flowed by a process air ( 12 . 7 ) and a blower ( 5 ) are arranged for conveying a process air, - a drive motor ( 18 ) for driving the fan ( 5 ), and - a control device ( 17 ) for driving the drive motor ( 18 ), characterized in that the control device ( 17 ) is adapted to at least one on the drive motor ( 18 ) and, depending on this evaluation, a state of leaching of the assembly ( 12 . 7 ). Domestic appliance ( 1 ) according to claim 9, characterized in that the assembly ( 12 . 7 ) a heat exchanger ( 7 ) and / or a lint filter ( 12 ). Domestic appliance ( 1 ) according to one of claims 9 and 10, characterized in that the drive motor ( 18 ) is a permanent magnet synchronous motor. Domestic appliance ( 1 ) according to one of claims 9 to 11, characterized in that the control device ( 17 ) is designed to be a physical quantity via at least one winding of the stator of the drive motor ( 18 ) to measure the flowing electric current and to close it depending on measured values for this current on the leaching state. Domestic appliance ( 1 ) according to one of claims 9 to 12, characterized in that a mathematical equation and / or a characteristic curve in the control device ( 17 ), by which a relationship of the state of fluffing of the at least one size is modeled. Domestic appliance ( 1 ) according to one of claims 9 to 13, characterized by a cleaning device ( 13 . 14 . 15 . 16 ) for cleaning the assembly ( 12 . 7 ), wherein the control device ( 17 ) is adapted to a signal to the cleaning device upon reaching a predetermined state of fluff ( 13 . 14 . 15 . 16 ), which is a cleaning of the assembly ( 12 . 7 ). Domestic appliance ( 1 ) according to one of claims 9 to 14, characterized by a light source ( 21 ) for signaling that a predetermined state of flux has been reached, the control device ( 17 ) is designed, upon reaching the predetermined state of fluffing, the lighting means ( 21 ) head for. Domestic appliance ( 1 ) according to any one of claims 9 to 15, characterized in that it is a condensation dryer ( 1 ).