EP0326048B1

EP0326048B1 - Device for controlling the drying of laundry in a laundry drier

Info

Publication number: EP0326048B1
Application number: EP89101046A
Authority: EP
Inventors: Fernando Russo; Elvio Zanon
Original assignee: Industrie Zanussi SpA
Current assignee: Industrie Zanussi SpA
Priority date: 1988-01-25
Filing date: 1989-01-20
Publication date: 1993-09-01
Anticipated expiration: 2009-01-20
Also published as: EP0326048A3; EP0326048A2; DE68908727T2; DE68908727D1; IT8845702A0; IT1220738B; ATE93907T1

Abstract

A device for controlling the drying of laundry in a laundry drier comprises a microprocessor (2) adapted to generate an enabling signal for permitting the identification of drying cycles selected by first, second or third selector means (3, 4, 5). The microprocessor (2) is energized from the electric circuit of the machine in series with the heater element (6), and is electrically separated, by means of opto-insulators (26, 30) or the like, from the low-voltage electric components of the device. These components in particular comprise an integrator circuit (12) and a comparator (21) for controlling the drying degree of the laundry. By the selection of the drying cycles to be performed, the control device permits the automatic execution of the respective cycles with simultaneous control of the laundry drying process.

Description

The invention relates to a laundry dryer comprising a rotary drum, a heater, a moisture sensor and a control circuit according to the precharacterizing part of claim 1.
Known laundry driers are designed to permit the execution of different laundry drying cycles selected in accordance with the type and quantity of the tissues to be dried and with the degree of dryness to be obtained. These drying cycles are adapted to be selected by the preliminary adjustment of a respective program control unit of the machine, which may comprise a conventional electromechanical timer or an electronic microprocessor, or by actuating respective push-button selectors associated to an electronic control device with which the machine is additionally provided for controlling the degree to which the laundry is to be dried.
In particular, the execution of each drying cycle thus selected is automatically controlled by the program control unit by successively energizing and deenergizing the various electric components of the machine, while the pre-selected degree of dryness of the laundry is obtained thanks to the presence of the elctronic control device which is effective, in response to the moisture content of the laundry as detected by means of two detector electrodes disposed in the drum of the machine, to repeatedly energize and deenergize the heater element of the machine.
There are known control devices (German Patent Application no. 2930671) comprising a load circuit substantially composed of a rectangular-pulse generator connected to an electric capacitor through a differentiating element, an amplifier, a diode and a limiting resistor, said capacitor having its terminal connected respectively to ground and to a first detector electrode together with said charge circuit.
The second detector electrode of the machine on its part is electrically insulated from the first detector electrode and is otherwise connected to ground.
Such control devices further comprise an electronic comparator the input terminals of which are connected respectively to the electric capacitor, together with the first detector electrode and said charge circuit, and to a reference voltage source the voltage level of which is adjustable in accordance with the degree of dryness of the laundry to be attained, the output terminal of said comparator being connected to the heater element of the machine through a flip-flop circuit and a control relay.
In this manner the described control device is operable to constantly charge the capacitor to a preselected voltage level through the charge circuit, while the capacitor on its part is partially discharged to ground through the detector electrodes when the latter are short-circuited by the wet laundry contained in the drum of the machine and coming into contact with the electrodes during the rotation of the drum.
The actual charge voltage level of the capacitor is applied to one input of the comparator and continually compared to the reference voltage applied to the other input of the comparator, until the charge voltage is higher than the reference voltage, whereupon there is no output signal at the output terminal of the comparator.
Under these conditions, the comparator causes the heater element of the machine to be maintained in the energized state, with the result that the laundry is progressively dried.
When on the other hand the charge voltage is lower than the reference voltage, indicating that the laundry has been dried to the desired degree of dryness, the comparator supplies a positive signal at its output for causing the heater element to be deenergized through the flip-flop circuit and the control relay.
At this time the program control unit may control the energization of a blower for the laundry cooling phase of the cycle, and for the subsequent termination of the selected drying cycle.
With the above discussed laundry driers it is thus possible to execute the drying of various kinds of fabrics by employing different drying temperatures by subdividing the electric heater element of the machine into several separate sections which may be individually energized or connected to one another in series or in parallel, depending on the required heat output.
EP-A-0039645 describes a laundry dryer having selectors for selecting the desired degree of humidity remaining within the clothes after the drying process. As long as the laundry has not reached the desired level of dryness, a capacitor connected to a supply voltage is discharged each time the humid laundry comes into contact with respective humidity sensors. When the laundry has reached the desired level of dryness, the capacitor is no longer discharged and this is detected by a microprocessor which, if this condition lasts for a certain period of time, stops the drying cycle by de-energizing a heating element.
From US-PS 4,385,452, a laundry dryer is known which similarly to the laundry dryer known from EP-A-0039645 is able to automatically detect the moisture content of the fabric inside the dryer. The moisture content in the clothes can be determined according to the time period between successive pulses from a respective moisture sensor.
In view of this prior art, it is the object of the present invention to provide a laundry dryer having a control device of simple construction, easily operable by the user and capable of performing optimal drying cycles for different material qualities.
This object is solved by the features of claim 1.
The characteristics of the invention will become more clearly evident from the following description, given by way of example with reference to the accompanying drawing, the only figure of which shows an electric circuit diagram of a control device according to the invention for use in a laundry drier.
With reference to the drawing, there is shown an electronic control device 1 for controlling the laundry drying process in a laundry drier, substantially comprising a microprocessor 2 including a memory containing initially stored informations defining all drying cycles which can be executed by the respective drier. Microprocessor 2 is also adapted to automatically control the execution of any drying cycle selected in the manner to be described; the control device further includes first, second and third selector means 3, 4 and 5 in the form of conventional push-button switches mounted in the control panel of the drier and adapted to be manually and separately actuated for selecting respective drying cycles at different drying temperatures.
In particular, for obtaining different drying temperatures the heater element 6 of the drier may be conventionally subdivided into several separate sections (in the present case two sections 7 and 8 adapted to be connected in parallel to one another). These heater element sections may be energized separately or in combination as required for generating the heat energy required for the drying process.
Heater element 6 on its part is connected to a power supply conductor 9 of the drier, and its energization is controlled by microprocessor 2 through a switch element 10 in the form for instance of a triac, a relay or the like, microprocessor 2 being otherwise connected to the other power supply conductor 11 of the drier.
First and third selector means 3 and 5 are both operable to select conventional drying cycles for cotton fabrics and resistant synthetics to be executed with the maximum heat output, to which purpose all sections of heater element 6 are interconnected for obtaining a predetermined degree of dryness of the laundry; in the second case, heater element 6 is maintained in the energized state for a predetermined supplementary period so as to determine the complete drying of the laundry (these drying cycles are denoted as "extra dry cycles").
Second selector means 4 on its part is operable to select drying cycles with reduced heat output for drying delicate synthetic fabrics, providing for the energization of only one section of heater element 6 for a sufficient period for attaining the preselected degree of dryness of the laundry (these drying cycles are referred to as "acrylic drying cycles"). The present control device further comprises an integrator circuit 12 composed of a plurality of electric capacitors 13 connected, in parallel to one another, to limiter resistors, diodes and other per se known electronic components (all of which are now shown), and to two sensor electrodes 14 and 15 disposed in the rotating drum (not shown) of the drier adapted to contain the moist laundry to be dried, sensor electrodes 14 and 15 being connected respectively to integrator circuit 12 and to ground 16 and adapted to be short-circuited by the moist laundry to be dried.
Integrator circuit 12 is energized at a low voltage and adapted, in response to the selection of respective drying cycles by means of first, second and third selector means 3, 4 and 5, corresponding to predetermined degrees of dryness of the laundry, to vary the time constant of capacitors 13.
To this purpose integrator circuit 12 is connected to first and second selector means 3 and 4, respectively, via respective conductors 17 and 18, and to third selector means 5 via a conductor 19 itself connected to conductor 18 and to a logic inverter 20 of conventional type, the function of which will become evident as the description proceeds.
The present control device finally comprises an electronic comparator 21 having its input terminals 22 and 23 connected respectively to integrator circuit 12 and to a fixed-level reference voltage source, and its output terminal 24, to a further conductor 25 adapted to connect second and third selector means 4 and 5 in parallel, and to microprocessor 2 through an optoinsulator 26 or a similar insulating element provided for electrically separating microprocessor 2, which is energized with the mains voltage through the respective conductors 9 and 11, from the components energized at low voltage (and comprising integrator circuit 12, selector means 3, 4 and 5, and electronic comparator 21).
Comparator 21 serves the purpose of comparing the charge voltage level of capacitors 13 of integrator circuit 12 as preselected by first, second or third selector means 3, 4 or 5, to the predetermined reference voltage level, for thus controlling, in response to the result of the comparison, the energization and deenergization of heater element 6 through microprocessor 2 and switch element 10 in the manner to be described.
For permitting microprocessor 2 to identify each drying cycle selected in the manner described, microprocessor 2 is arranged to furnish at its output 27 a continuous enabling signal of rectangular shape to be applied to an associated input 28 of microprocessor 2 and simultaneously to integrator circuit 12 and second and third selector means 4 and 5, to which purpose output 27 is connected to conductors 18 and 19 through conductor 29 and a further optoinsulator 30 or a similar insulating element provided for electrically separating microprocessor 2 from the low-voltage elements defined above.
To this purpose microprocessor 2 is responsive to the absence or presence at output 24 of comparator 21 of said enabling signal when a drying cycle to be executed has been selected by actuating first or second selector means 3 or 4, respectively, and of an enabling signal identical but complementary to the first-named signal, when a drying cycle has been selected by actuating third selector means 5. In the first case, particularly, the absence of the enabling signal at output 24 of comparator 21 results from the fact that different voltage levels are applied to the two inputs 22 and 23 of comparator 21. In the second case, the presence of the enabling signal at output 24 of comparator 21 results from the actuation of second selector means 4. In the third case, finally, the complementary enabling signal is obtained as a result of the presence of logic inverter 20 connected in series with third selector means 5.
In this manner, and depending on the selected drying cycle, microprocessor 2 operates to initiate the respective cycle by causing heater element 6 to be energized in accordance with the required heat output and to subsequently control in an automatic manner the execution of the selected cycle for the full duration thereof.
During the execution of the drying cycle, capacitors 13 of integrator circuit 12 are progressively charged when the enabling signal applied to integrator circuit 12 is at a high level, and are partially discharged to ground 16 via sensor electrodes 14, 15, as they are short-circuited by the moist laundry, when the enabling signal is at a low level.
As long, moreover, as the charge voltage and the reference voltage applied to inputs 22 and 23 of comparator 21 are at different levels, there appears no signal at output 24 of comparator 21, indicating that the laundry has not yet been dried to the selected degree, so that heater element 6 is maintained in the energized state by microprocessor 2. As soon, on the other hand, as these voltages are at the same level, comparator 21 furnishes a signal at output 24, causing heater element 6 to be deenergized by the action of microprocessor 2 and switch element 10.
Subsequently microprocessor 2 may initiate the cooling phase by causing the blower (not shown) of the drier to be energized to thereby cool the laundry and the metallic parts of the drum and the housing of the drier as the conclusion of the selected drying cycle.
The advantages of the present control device are thus fully evident.
As a matter of fact, this device permits to contemporaneously obtain, during the selection of the drying cycle to be executed by the actuation of first, second or third selector means 3, 4 or 5, respectively, the identification and subsequent control of the selected cycle by microprocessor 2, and the adjustment of the degree of dryness required for the respective laundry by the variation of the time constant of capacitors 13 of integrator circuit 12 due to the presence of the enabling signal furnished by the microprocessor. In comparison to known solutions, the present control device is of a simple construction eliminating the need of expensive electromechanical devices for controlling the execution of the drying cycles, thanks to the fact that these operations are directly controlled by the microprocessor which is energized from the electric circuit of the drier and electrically separated by opto- insulators 26 and 30 from the low-voltage electrical components of the control device itself.
This device also permits a combined selection of the drying cycle and of the desired degree of dryness to take place by solely acting on selector means 3, 4 and 5, thus eliminating the need of separate push-button actuators for selecting the degree of moisture (or of dryness) of the laundry as required in previous solutions, with the resultant simplification of the overall construction of the laundry drier.

Claims

Laundry dryer comprising a rotary drum, a heater (6), a moisture sensor (14,15) and a control circuit,
the control circuit including a microprocessor (2), an integrator (12), a comparator (21) and at least three selectors (3,4,5) for selecting desired drying cycles,
the integrator (12) being charged by a supplied voltage and being discharged in accordance with the degree of moisture contained in the laundry detected by the moisture sensor (14,15), thereby allowing the comparator, which is connected to the output of the integrator and to a reference voltage (23), to determine when the appropriate level of dryness associated with the selected drying cycle is reached for informing the microprocessor (2) to de-energize the heater (6),
characterized in that
the heater (6) is operable at different heating levels controllable by the microprocessor (2), the time constant of the integrator depending on the drying cycle selected by the selectors (3,4,5), and
the microprocessor (2) receives signals indicating which drying cycle is being selected by the selectors (3,4,5) for controlling the heater to operate at the appropriate heating level.
Laundry dryer according to claim 1 in which the supplied voltage is a pulse voltage (29) supplied by the microprocessor (2) to the integrator (12) and to two of the selectors (4,5) the first (4) of which upon selection conducts the pulse voltage back to an input of the microprocessor (2), the second (5) of which upon selection conducts an inversion of the pulse voltage back to the input of the microprocessor (2) thereby allowing the microprocessor to determine whether one of these two selectors is being selected or whether a third selector is being selected.
Laundry dryer according to claims 1 or 2 in which the microprocessor maintains the heater in the energized state for a supplementary period after it has been informed by the comparator that the appropriate level of dryness of a specific drying cycle has been reached.
Laundry dryer according to at least one of the preceding claims in which the microprocessor is insulated from the selectors (3,4,5), the comparator (21) and the integrator (12) by electric insulation means (26,30).
Laundry dryer according to at least one of the preceding claims in which the heater (6) comprises at least two heater elements (7,8).