FR2632986A1 - Microprocessor-controlled clothes drier - Google Patents

Abstract

A microprocessor 13 compares the desired degree of drying of the washing with the degree of dampness of this washing which is measured by a sensor 18, 19, 20. The drying is interrupted as a function of this comparison. In order to store the desired degree of drying in memory, a potentiometer 23 or switches connected to the input of the microprocessor 13 are provided.

Description

DRYER CONTROLLED BY MICROPROCESSOR
The invention relates to a dryer.

 Electric dryers with a timer have long been known, the operation of which is interrupted after a time predetermined by the user. But the latter cannot precisely determine the time it takes to reach a desired degree of drying for the laundry - (i.e. a desired degree of humidity for the laundry at the end of drying), because this time depends on parameters such as the degree of humidity of the linen introduced into the machine the load of linen and the type of linen - which cannot be evaluated correctly, even in an approximate way.

 To obtain, at the end of drying, a determined degree of humidity of the laundry, driers with so-called electronic control have already been proposed with an element for storing the desired degree of drying of the laundry, this element being associated with a (or more) sensor (s) of parameter (s) function (s) of this degree of humidity; drying is interrupted when the humidity level remaining in the laundry corresponds to the memorized drying level. The detection of the degree of humidity is carried out by measuring the electrical resistance of the laundry between two contacts in a rotary drum where this laundry is placed and / or by detecting the temperature of the air leaving after it has passed through the laundry to be dried. For example, the humidity detection sensor by electrical resistance of the laundry is used for the highest humidity levels while temperature measurement is used for the highest humidity levels. lower, i.e. the highest drying levels.

 In such dryers, the desired degree of drying is displayed by means of keys which introduce the desired command into the memory of a microprocessor. However, in the event of a cut in the electrical power supply to the device, after this power has been restored, the device cannot restart because the data in the microprocessor's memory has disappeared.

 The known solutions to this problem have the disadvantage of being expensive. For example, some dryers use electromechanical programmers which are expensive components.

 The invention provides a cheap solution to the problem of keeping in memory the desired degree of humidity of the laundry after a cut in the power supply to the appliance.

 The dryer according to the invention comprises, in a manner known per se, a microprocessor in which is entered in memory, by the user, the desired degree of humidity and which controls the drying stop when this degree is reached, the measurement of this parameter being carried out by at least one sensor.

It is characterized in that the element for memorizing the desired degree of humidity comprises a potentiometer or switch means, the position of an element of which represents the displayed parameter. Thus in the event of an interruption (for example accidental) of the electrical energy supply to the appliance, when this supply is restored, the latter keeps in memory the degree of humidity displayed, by the position of the. slider or switch (s)
In a preferred embodiment, there is provided, in a manner known per se, a humidity degree probe for detecting the highest humidity levels and an outlet temperature sensor for the air having passed through the laundry to determine the lowest humidity degrees For these lowest humidity degrees, drying is interrupted when the air outlet temperature reaches a determined value, for example 750C, or a determined time, for example 40 minutes, after the lowest humidity threshold detectable by the humidity sensor has been reached. According to the invention the heating power of the drying air is variable and it is memorized in the microprocessor using a potentiometer or a (or) switch (s), and one makes depend on this heating power the limit temperature of the outlet air. Compared to known dryers, a more precise degree of drying is thus obtained and the operating time of the appliance is minimized.

 In one embodiment, a two-position switch is provided which, by the first position, indicates to the microprocessor an automatic operation, and by the second position, controls drying for a determined time (operation called as a timer) independently of the indications provided. by the sensors. The. "automatic" operation is that described above: comparison between the humidity level chosen and the data supplied by the probe and / or the sensor. In the case of "timer" operation, for example, you can use the humidity degree memorization potentiometer to memorize the desired time; in other words the potentiometer cursor can, in this case, be associated with two scales, a humidity degree scale and a time scale.

 Other characteristics and advantages of the invention will appear with the description of some of its embodiments, this being carried out with reference to the single figure which is a diagram of a dryer control device according to the invention. 'invention.

 In the example, the dryer comprises, in a conventional manner, a rotating drum (not shown) intended to contain the laundry to be dried with perforated flanges through which air heated by electrical resistors 10 and / is passed. where he. An electric motor 12 controls the rotation of the drum.

 The automatic operation of this dryer is ensured by a microprocessor 13 with outputs 14 and 15 connected to interface circuits #, respectively 14I and 151, making it possible to switch the heating resistors 10 and 11 on or off, The interface circuits 141 and 151 each include a relay or a triac.

 Similarly, outputs 16 and 17 make it possible to control the switching on or off of the motor 12 and determine its direction of rotation.

 Inputs 18 and 19 of the microprocessor 13 are connected to two spaced metal contacts arranged inside the drum so as to be in contact with the laundry.

The electrical resistance of the laundry presented between these contacts and therefore the resistance between the inputs 18 and 19 - represents the degree of humidity remaining in the laundry.

 However, when the humidity rate T falls below a threshold Ts, the resistance of the laundry remains practically constant. This is why, to measure the lower humidity levels, use is made of a thermistor 20 arranged in the air stream leaving the drum, that is to say in the air stream having already passed through the laundry. The terminals of this thermistor 20 are connected via an interface circuit (not shown) to inputs 21 and 22 of the microprocessor 13. The temperature detected by the thermistor 20 is higher the higher the humidity. remaining in the laundry is lower. Indeed the amount of heat absorbed by the laundry depends on the amount of water to evaporate, that is to say the humidity.

 The degree of drying of the linen desired by the user, that is to say the humidity level which must remain in the linen, is adjustable at will by the user by means of a potentiometer 23 whose position of the cursor 24 represents this degree of drying.

The position of the cursor 24 is introduced into the memory of the microprocessor 13 using a circuit which will be described later.

 Switches 25 and 26 are provided for introducing, by means of a circuit which will also be described later, into the memory of microprocessor 13, the command to power up the resistors 10 or 11, that is to say say the desired heating power.

 Two other switches 271 and 272 allow the selected operating mode to be entered into the memory of microprocessor 7: automatic or timed (timer).

 In the timer operating mode the dryer operates for; a predetermined time which is a function of the position of the cursor 24 of the potentiometer 23.

 In automatic operation, the supply of the resistor 10 -or of the resistor 11 is interrupted when the desired degree of drying, also a function of the position of the cursor 24, is reached. The desired degree of drying or humidity is detected by the signals on inputs 18, 19, 21, 22.

More specifically
For the lowest desired degrees of drying, the measurement is made only by the resistance between the terminals 18 and 19. When, by this measurement, it is detected that the humidity level has reached. the desired value, the microprocessor 13 controls - the stopping of the supply of the electrical resistors 10 and / or 11 Then, in a conventional manner, the motor 12 for driving the drum continues to rotate to allow the laundry to cool, for example for a time of the order of 10 minutes. At the end of this time the drum rotates in opposite directions in order to release the laundry.

 For the highest degrees of drying, the humidity levels are determined, on the one hand, by the resistance between the terminals 18 and 19 and, on the other hand, by the temperature (measured by the thermistor 20 ) air outlet having passed through the laundry.

When the air temperature reaches a predetermined value, which is a function of the position of the potentiometer 24, the supply of the resistors 10 and / or 11 is then interrupted and, as in the other cases, the laundry is then allowed to cool. and a discharge is carried out. The resistance presented between terminals 18 and 19 is then used to establish a safety procedure: if after a determined time, for example 40 minutes, after the highest humidity low detectable by the resistor 18, 19 has been reached, the temperature detected by the thermistor 20 has not yet reached the desired value, the supply of the resistors 10 is interrupted and / or
It should be noted that in previous dryers, for a determined degree of drying, the set temperature was not a function of the heating power, which led, for the lowest powers, to never reach the set temperature and thus to cause the so-called safe operation, that is to say for a time t after detection of the lowest degree of humidity which can be measured by the resistance of the laundry This type of operation was not satisfactory because the drying time could be too long and the degree of drying not quite correspond to that desired.

 According to one aspect of the invention, the set temperature is made to depend on the heating power, which makes it possible to avoid the aforementioned drawback and therefore to obtain a more precise degree of drying and a drying time which is not not prohibitive.

 For the introduction of the position of the cursor 24 of the potentiometer 23 into the memory of the microprocessor 13, use is made of a circuit similar to that described in French patent 86 10069 of July 10, 1986 in the name of the applicant, that is to say say: a first end terminal of the potentiometer 23 is connected to an output 30 of the microprocessor via an interface circuit 50; the second end terminal of this potentiometer is connected, via the circuit 50, on the one hand, to an input 31 of the microprocessor 13, and, on the other hand, to an armature of a capacitor 33 on the 'opposite armature -of which we apply a potential #Vcc of determined value. Finally, the cursor 24 is also connected, by the circuit 50, to an output 35 of the microprocessor.

 The measurements of the various resistances are carried out by determining the time taken by the charge of the capacitor 33 to reach a predetermined value when this capacitor charges or discharges through the resistance to be measured.

 To determine the position of the cursor 24, we proceed as follows: first discharge the capacitor 33 by bringing # the input 31 of the microprocessor to the potential VCC. Then this potential is deleted, which allows the terminal 31 to become an input of the microprocessor again and the output 30 is brought to ground potential while the output 35 is in the alr. Thus the capacitor 33 is charged through the total resistance of the potentiometer 23. After a time t1 the potential on the input 31- reaches a determined value V0. Then, after having discharged the capacitor 33 again, terminal 35 is grounded while terminal 30 is in the air and the time t'1 is determined at the end of which the potential on input 31 reaches said value V0 .The value of resistance between terminal 31 and cursor 24 is clip, p being the total resistance of potentiometer 23.

Under these conditions we can write
a = tT1 / t1
The position of the cursor 24 is thus represented by a number a independent of the value of the resistance - total of the potentiometer - 23
As a variant (not shown), use is made of the provisions described in French patent no. 88 00300 of January 13, 1988 in the name of the plaintiff, which differ from those described above by the fact that an electrical protection resistor is inserted in series. between the potentiometer 23 and the capacitor 331 the input 31 being always connected to the armature of the capacitor, possibly via another- resistance ~ protection. Furthermore, the terminals 30 and 35 of the microprocessor are not connected directly to one end of the potentiometer 23 and to the cursor 24 but to respective switch control electrodes which connect said terminal of the potentiometer 23 and said cursor to ground. In other words, in this variant, the outputs. 30 and 35 control the state of switches. Likewise - the terminal common to the protective resistor and to the potentiometer 23 is connected to ground via a switch controlled by an additional output of the microprocessor. In this case the position a of the cursor is determined by the following relation

In this formula t1 is the discharge time of the capacitor through the single protective resistor; t'2 the discharge time of the capacitor through the series assembly formed by the protection resistor and. by the resistance presented by the potentiometer between its first end terminal and the cursor 24; and t2 is the discharge time of the capacitor through the series assembly formed by the protective resistance and by the total resistance of the potentiometer.

 switches 25 and 26 are connected, on one side, to a terminal 40 on which an AC potential proportional to that of the mains (50 Hz) is applied and, on the other side, to a terminal 41 by means of resistors, respectively 42 and 43, # of distinct values R1 and R2.

 Terminal 41 is connected to ground via a resistor 44 and to the base of an NPN-type transistor 45 via another resistor 46. The emitter of transistor 45 is connected to the ground while its collector is connected to a terminal 32 to which a determined potential is applied via a resistor 47. Finally the collector of transistor 45 is connected to an input 48 of the microprocessor.

 At each alternation of the alternating signal applied to terminal 40, the conduction time of transistor 45 depends on the values of the resistors in series between terminal 40 and base 45 of the transistor. Thus the duration of conduction of the transistor at each half-wave is not the same depending on whether it is the resistor 42 or the resistor 43 which is switched on.

The positions of switches 271 and 272 are
Introduced into the memory of the microprocessor 13 via a circuit 51 analogous to a transistor and a resistor.

 It is conceivable to replace the potentiometer 23 with several switches in parallel such as switches 25 and 26. Conversely, the drying power can be introduced into the memory of the microprocessor using a potentiometer.

 The resistance data between terminals 18 and 19 and 21 and 22 can be entered into the microprocessor memory using a circuit of the type associated with the potentiometer z3 and known by said French patent 86 10069 or 88 00 300.

 In an embodiment in "timer" mode, the operating time depends on the heating power; i.e. from the position of switch 25 or 26.

 In the event of a cut in the electrical energy supply, the operation of the dryer is interrupted. But after this supply has been restored, the dryer can restart because the displays can be read again by the switch position (s) and / or potentiometer (s).

 Another advantage of the dryer according to the invention is that from the same microprocessor 13 always programmed in the same way, the same motor driving the drum, and with the same resistance (s) heating (s) you can provide several types of machine, for example one without timer operation and the other with this option. Thus the manufacturing costs are reduced because a maximum of elements are used for several types of machines.

Claims (9)

 1. Microprocessor dryer (13) comprising at least one sensor (18, 19, 20) of the humidity level of the laundry and means for storing in the microprocessor the desired degree of drying for the laundry, the microprocessor ( 13) comparing the desired degree of drying with the humidity level detected in order to interrupt the drying as a function of this comparison, characterized in that the means for memorizing the degree of drying comprise a potentiometer (23) or one (or more) switch (s) connected to the microprocessor input.  2. Tumble dryer according to claim 1, characterized in that, in order to introduce into the memory of the microprocessor (13) the desired heating power, it comprises means with switch (25, 26) or with potentiometer.  3. Tumble dryer according to claim 2, characterized in that it comprises, for detecting the humidity level of the linen, a device, such as a thermistor (20), for measuring the temperature of the outgoing air laundry and in that the microprocessor (13) depends on the set temperature representing the desired degree of drying - the heating power.  4. Tumble dryer according to any one of the preceding claims, characterized in that it comprises a switch means (271, 272) for selecting the operating mode allowing the drying to be stopped either when the desired degree of drying is reached, either after a determined time after starting.  5. Tumble dryer according to claim 4, characterized in that the determined time, at the end of which drying is interrupted, is a function of the position of the means for introducing the degree of drying into the memory of the microprocessor.  6. Tumble dryer according to claims 3 and 4, characterized in that said determined time, at the end of which drying is interrupted, depends on the heating power.  7. Tumble dryer according to any one of the preceding claims, characterized in that it comprises two humidity degree sensors, a first sensor (18> 19) for the highest humidity degrees sensitive to resistance electric presented by the linen between two contacts, and a second sensor (20) sensitive to the temperature of the air leaving the linen.  8. tumble dryer according to any one of the preceding claims, characterized in that the desired degree of drying being represented by the position of the cursor (24) of a potentiometer (23) the position of this cursor (24) is introduced in memory of the microprocessor (13) by means of a capacitor circuit (33), the position of the cursor being a function of the time of charging or discharging of the capacitor through the total resistance #of the potentiometer and through the resistance presented between the cursor (24 ) and an end terminal of the cursor.  9. tumble dryer according to any one of the preceding claims, characterized in that the desired power being represented by the position of switches (25, 26), on an end of each switch is applied an alternating signal, such that of the sector, and the other terminal of each of these switches is connected to the control electrode of a switch such as a transistor (45) by means of resistors (42, 43) of different values, the conduction time of the controlled switch at each half cycle representing the position of the switches.