[0001] The present invention relates to a laundry dryer, the drying performance of which
is increased.
[0002] In laundry dryers, the door that separates the tub wherein the drying process is
performed from the outer environment cannot be locked not like in the washing machines
and the door must be opened by and over a certain force in compliance with the safety
standards. The reason for this is that there is a risk of a live being, such as small
children or pets, entering into the tub in the dryers that has a larger tub and door
than the washing machines, and therefore, it is desired that the door can be opened
from inside the tub by pushing during the drying process. Moreover, the door may be
opened due to the laundry, that gets stuck between the cover and the cover housing
during the loading of the laundry into the tub by the user and is twisted during the
drying process, or the laundry, that swells towards the end of the drying process
with the overloading of the tub, applying force onto the door, and consequently the
drying process is paused. When the user checks the dryer in order to unload the laundry
at the time the drying process should be finished, he/she sees that the door is open
and the laundry is not completely dried. This situation adversely affects the user
satisfaction.
[0003] In the state of the art International Patent Application No.
WO2008082228, a laundry dryer is disclosed, wherein the door is prevented from opening/closing
accidentally during the drying step.
[0004] In the state of the art Japanese Patent Application No.
JP2013056047, a laundry dryer is disclosed, having sensors that detect if the door is open or
closed.
[0005] German Patent Application
DE 10 201 2209679 A1 discloses a dishwasher with an analog sensor such as a hall sensor for the detection
of door positions.
[0006] The aim of the present invention is the realization of a laundry dryer wherein the
door is prevented from opening before the drying process is completed without the
intention of the user during the drying process.
[0007] The laundry dryer realized in order to attain the aim of the present invention, explicated
in the first claim and the respective claims thereof, comprises at least one detection
means that is disposed on the door or the door housing and that provides the measurement
of the distance between the door and the door housing, and a control unit that compares
the data received from the detection means with a first limit distance value prerecorded
in its memory and corresponding to the position wherein the door is completely closed
and that determines the openness status of the door according to the result of the
comparison.
[0008] In the laundry dryer of the present invention, the detection means enables the distance
between the door and the door housing to be measured directly or indirectly. The control
unit continuously measures the distance between the door and the door housing by using
the data received from the detection means. During the drying step, the control unit
continuously compares the said distance with the distance between the door and the
door housing that is recorded in its memory and that corresponds to the position wherein
the door is completely closed. The control unit determines if the door is open or
closed according to the equality between the said distance and the first limit distance
value. Thus, it is determined if the door is completely closed or not and the control
unit provides the realization of the drying process according to the result thereof.
[0009] In an embodiment of the present invention, the control unit provides the measurement
of the distance between the door and the door housing at the moment the user starts
the drying process and before the tub starts rotating, and warns the user if the distance
between the door and the door housing is not equal to the first limit distance value.
In other words, the control unit detects if the door is completely closed at the start
of the drying step and warns the user if the door is not completely closed. Thus,
the user is enabled to place the laundry, if any, stuck between the door and the door
housing into the tub or to completely close the door, thus the risk of the door opening
due to the laundry getting twisted during the drying process is eliminated.
[0010] In another embodiment of the present invention, the control unit provides the measurement
of the distance between the door and the door housing during the drying process and
after the tub starts rotating, and warns the user if the distance between the door
and the door housing is equal to a second limit distance value predetermined by the
user and corresponding to the position wherein the door is open. The distance detected
by the detection means when the door is opened is equal to or larger than the second
limit distance value.
[0011] In another embodiment of the present invention, the control unit changes the rotation
direction of the tub, thus making the laundry upside down upon detecting that the
distance between the door and the door housing is between the first limit distance
value and the second limit distance value. Thus, the door is prevented from opening
with the pressure of the laundry.
[0012] In another embodiment of the present invention, the control unit tries to prevent
the door from opening by changing the rotation direction of the tub upon detecting
that the distance between the door and the door housing detected by the detection
means is larger than the first limit distance value and tends to increase, in other
words that the measurement value is larger than the previous measurement values. By
changing the rotation direction of the tub, the twisted laundry is enabled to be unfolded
or the laundry swelling and applying pressure onto the door is enabled to be made
upside down, thus the risk of the laundry opening the door is decreased.
[0013] In another embodiment of the present invention, the detection means that provides
the measurement of the distance between the door and the door housing is a pressure
sensor that measures the pressure applied by the door to the door housing. The control
unit determines the openness status of the door according to the correlation between
the pressure value pre-calibrated by the producer and the distance between the door
and the door housing.
[0014] In another embodiment of the present invention, the detection means is composed of
two metal plates positioned on the door and the door housing so as to face each other
and the control unit determines the distance between the door and the door housing
according to the capacitance value between the two metal plates.
[0015] In another embodiment of the present invention, the detection means is composed of
a reed switch, that is disposed on the door or the door housing, and a magnet, that
is disposed on the door housing or the door so as to be opposite to the reed switch,
and the control unit determines the openness status of the door according to the data
received from the reed switch.
[0016] In another embodiment of the present invention, the detection means is an inductive
distance sensor that is composed of a conductive plate, that is disposed on the door
or the door housing, and an inductance, that is disposed on the door housing or the
door so as to be opposite to the conductive plate. The distance is measured according
to the value of the current inducted by the conductive plate on the inductance depending
on the distance between the door and the door housing.
[0017] In another embodiment of the present invention, the detection means is composed of
a magnet, that is disposed on the door or the door housing, and a Hall sensor, that
is disposed on the door housing or the door so as to be opposite to the magnet. The
magnetic field created by the magnet on the Hall sensor changes depending on the distance
between the door and the door housing and thus, the voltage generated by the Hall
sensor and the distance measurement can be performed.
[0018] In another embodiment of the present invention, the dryer is at the same time a washing
machine, and the laundry is first washed, and then dried.
[0019] In the laundry dryer of the present invention, the door is prevented from opening
accidentally due to the force applied by the laundry. Thus, the drying process can
be completed without any errors and the user is prevented from losing time.
[0020] The laundry dryer realized in order to attain the aim of the present invention is
illustrated in the attached figures, where:
Figure 1 - is the perspective view of a laundry dryer.
Figure 2 - is the front view of the laundry dryer relating to an embodiment of the
present invention.
Figure 3 - is the perspective view of the laundry dryer relating to an embodiment
of the present invention.
[0021] The elements illustrated in the figures are numbered as follows:
- 1. Laundry dryer
- 2. Body
- 3. Tub
- 4. Opening
- 5. Door
- 6. Door housing
- 7. Detection means
- 8. Control unit
[0022] The laundry dryer (1) comprises a body (2), a tub (3) that is disposed in the body
(2), wherein the drying process is performed, an opening (4) providing access into
the tub, a door (5) covering the opening (4) and a door housing (6) that is disposed
on the front wall of the body (2), that surrounds the opening (4) and upon which a
portion of the inner surface of the door (5) bears.
[0023] In the laundry dryer (1), the laundry is loaded into the tub (3) through the opening
(4) and the opening (4) is covered by closing the door (5) so that a portion of the
inner surface thereof bears against the door housing (6), thus the user can start
the drying process.
[0024] The laundry dryer (1) of the present invention comprises at least one detection means
(7) that is disposed on the door (5) or the door housing (6) and that provides the
measurement of the distance between the door (5) and the door housing (6), and a control
unit (8) that compares the distance between the door (5) and the door housing (6)
measured by the detection means (7) with a first limit distance value (D1) predetermined
by the producer and corresponding to the position wherein the door (5) is completely
closed, and that controls the openness status of the door (5) according to the result
of the comparison. During the drying process, the control unit (8) monitors the distance
between the door (5) and the door housing (6), that is the openness status of the
door (5) by the data instantaneously received from the detection means (7). When the
door (5) is completely closed, the distance measured by the detection means (7) is
equal to the first limit distance value (D1). The control unit (8) determines the
openness status of the door (5) by comparing the data received from the detection
means (7) with the first limit distance value (D1) recorded in its memory. For example,
the control unit (8) decides that the door (5) is completely closed upon detecting
that the distance measured by the detection means (7) during the drying process is
equal to the first limit distance value (D1).
[0025] In an embodiment of the present invention, the control unit (8) warns the user that
the door (5) is not completely closed if the distance measured by the detection means
(7) at the start of the drying process is larger than the first limit distance value
(D1). When the user loads the laundry into the tub (3), the laundry may protrude towards
the outside of the body so as to hang out from the opening (4). If the user closes
the door (5) without realizing this situation, the laundry hanging out may get stuck
between the door (5) and the door housing (6). In this case, the distance measured
by the detection means (7) is larger than the first limit distance value (D1) corresponding
to the position wherein the door (5) is completely closed at the region where the
laundry get stuck. During the drying process, the laundry stuck between the door (5)
and the door housing (6) is twisted due to the rotation of the tub (3) and may cause
the door (5) to open. The control unit (8) enables the distance between the door (5)
and the door housing (6) to be measured by the detection means at more than one point
at the start of the drying process and before the tub (3) starts rotating and informs
the user that the door (5) is not completely closed if the distance measured by the
detection means (7) is larger than the first limit distance value (D1).
[0026] In another embodiment of the present invention, the control unit (8) warns the user
that the door (5) is opened if the distance measured by the detection means (7) during
the drying process reaches a second limit distance value (D2) predetermined by the
producer and corresponding to the position wherein the door (5) is open. The distance
measured by the detection means (7) can be different from the first limit distance
value (D1) due to the pressure applied by the laundry in the tub (3) to the door (5)
during the drying process. When the pressure applied by the laundry increases, the
distance measured by the detection means (7) reaches the second limit distance value
(D2) corresponding to the position wherein the door (5) is open. When the door (5)
is open, the drying process is paused. The control unit (8) enables the user to intervene
early by warning the user when the distance measured by the detection means (7) reaches
the second limit distance value (D2).
[0027] In another embodiment of the present invention, the control unit (8) warns the user
if the distance measured by the detection means (7) reaches the second limit distance
value (D2) from the first limit distance value (D1) in a duration longer than a duration
predetermined by the producer. By means of this embodiment, the user is warned if
the door (5) is opened due to the pressure applied by the laundry inside the tub (3)
and no warning is given if the door (5) is opened with the intervention of the user.
[0028] In another embodiment of the present invention, the control unit (8) enables the
tub (3) to be rotated in a direction opposite to the previous rotation direction if
the distance measured by the detection means (7) is between the first limit distance
value (D1) and the second limit distance value (D2). If the distance measured by the
detection means (7) during the drying process moves away from the first limit distance
value (D1) but the door (5) is not yet open, in other words the said distance is smaller
than the second limit distance value (D2), the control unit (8) rotates the tub (3)
in a direction opposite to the previous rotation direction in order to eliminate the
risk of the door (5) opening at a later time. Thus, the laundry inside the tub (3)
is made upside down and the pressure applied thereby onto the door (5) decreases.
[0029] In another embodiment of the present invention, the control unit (8) enables the
tub (3) to be rotated in a direction opposite to the previous rotation direction if
the distance measured by the detection means (7) is larger than the first limit distance
value (D1) and tends to increase for a duration predetermined by the producer. The
pressure applied by the laundry inside the tub (3) onto the door (5) increases, the
distance between the door (5) and the door housing (6) slowly increases. The control
unit (8) determines that the said distance tends to increase in the course of time
when the successive distance measurements conducted by the detection means (7) are
larger than the first limit distance value (D1) and the measurement value is larger
than the preceding measurement value. The control unit (8) starts rotating the tub
(3) in a direction opposite to the previous rotation direction in order to decrease
the pressure applied by the laundry onto the door (5). Thus, the laundry inside the
tub (3) gets upside down or the twisted laundry, if any, is enabled to be unfolded
and the door (5) is prevented from opening due to the pressure of the laundry.
[0030] In another embodiment of the present invention, the detection means (7) is a pressure
gauge that measures the pressure applied by the door (5) to the door housing (6).
As the distance between the door (5) and the door housing (6) increases, the pressure
applied by the door (5) onto the door housing (6) decreases. Thus, distance between
the door (5) and the door housing (6) and the pressure applied by the door (5) onto
the door housing (6) can be correlated. The pressure value in the case when the door
(5) is completely closed is matched with the first limit distance value (D1) and the
pressure value in the case when the door (5) is open with the second limit distance
value (D2), and both are recorded into the memory of the control unit (8) by the producer.
In this embodiment, the detection means (7) enables the distance between the door
(5) and the door housing (6) to be measured indirectly.
[0031] In another embodiment of the present invention, the detection means (7) comprises
one conductive plate oppositely on each of the door (5) and the door housing (6).
The control unit (8) determines the distance between the door (5) and the door housing
(6) according to the capacitance data received from the detection means (7), that
depends on the distance between the conductive plates. The capacitance between the
two conductive plates is inversely proportional to the distance between the conductive
plates. Thus, it is determined that the distance between the door (5) and the door
housing (6) increases with the capacitance value decreasing.
[0032] In another embodiment of the present invention, the detection means (7) comprises
a magnet, that is disposed on the door (5) or the door housing (6), and a reed switch,
that is disposed on the door housing (6) or the door (5) so as to be opposite to the
magnet. When the door (5) is completely closed, in other words the distance between
the door (5) and the door housing (6) is equal to the first limit distance value (D1),
the magnet enables the reed switch to be open. When the distance between the door
(5) and the door housing (6) is equal to the second limit distance value (D2) corresponding
to the position wherein the door (5) is open, the reed switch changes to the closed
position and the control unit (8) decides that the door (5) is open as no signal is
received from the reed switch.
[0033] In another embodiment of the present invention, the detection means (7) comprises
a conductive plate, that is disposed on the door (5) or the door housing (6), and
an inductive distance meter, that is disposed on the door housing (6) or the door
(5) so as to be opposite to the conductive plate. As the distance between the door
(5) and the door housing (6) changes, the conductive plate inducts current on the
coil disposed on the inductive distance meter. As the distance between the door (5)
and the door housing (6) increases, the inducted current decreases and thus the control
unit (8) detects the openness status of the door (5).
[0034] In another embodiment of the present invention, the detection means (7) comprises
a magnet, that is disposed on the door (5) or the door housing (6), and a Hall sensor,
that is disposed on the door housing (6) or the door (5) so as to be opposite to the
magnet. The Hall sensor operates by the principle of the Hall Effect and the output
voltage thereof changes depending on the magnitude of the magnetic field therearound.
When the door (5) is closed, the Hall sensor interacting with the magnet disposed
opposite thereto generates an output voltage depending on the distance between the
door (5) and the door housing (6). The control unit (8) determines the distance between
the door (5) and the door housing (6) according to the output voltage of the Hall
sensor.
[0035] In another embodiment of the present invention, the laundry dryer (1) has the function
of washing laundry.
[0036] In the laundry dryer (1) of the present invention, the openness status of the door
(5) is instantaneously monitored by means of the detection means (7) and the control
unit (8). During the drying process, the control unit (8) prevents the door (5) from
opening accidentally without the user intervention by taking precautions such as rotating
the tub (3) in a direction opposite to the previous rotation direction.
1. A laundry dryer (1) comprising a body (2), a tub (3) that is disposed in the body
(2), wherein the drying process is performed, an opening (4) providing access into
the tub, a door (5) covering the opening (4) and a door housing (6) that is disposed
on the front wall of the body (2), that surrounds the opening (4) and upon which a
portion of the inner surface of the door (5) bears,
characterized by
- at least one detection means (7) that is disposed on the door (5) or the door housing
(6) and that provides the measurement of the distance between the door (5) and the
door housing (6),
- a control unit (8) that compares the distance between the door (5) and the door
housing (6) measured by the detection means (7) with a first limit distance value
(D1) predetermined by the producer and corresponding to the position wherein the door
(5) is completely closed, and that controls the openness status of the door (5) according
to the result of the comparison,
- the control unit (8) that enables the tub (3) to be rotated in a direction opposite
to the previous rotation direction if the distance measured by the detection means
(7)
a) is between the first limit distance value (D1) and a second limit distance value
(D2) predetermined by the producer and corresponding to the position wherein the door
(5) is open, or
b) is larger than the first limit distance value (D1) and tends to increase, i.e.
that the value of the distance detected is larger than the previous values of the
distance detected, for a duration predetermined by the producer.
2. A laundry dryer (1) as in Claim 1, characterized by the control unit (8) that warns the user that the door (5) is not completely closed
if the distance measured by the detection means (7) at the start of the drying process
is larger than the first limit distance value (D1).
3. A laundry dryer (1) as in any one of the above claims, characterized by the control unit (8) that warns the user if the distance measured by the detection
means (7) during the drying process reaches a second limit distance value (D2) predetermined
by the producer and corresponding to the position wherein the door (5) is open.
4. A laundry dryer (1) as in any one of the above claims, characterized by the detection means (7) that is a pressure gauge measuring the pressure applied by
the door (5) onto the door housing (6).
5. A laundry dryer (1) as in any one of the Claims 1 to 3, characterized by the detection means (7) that has one conductive plate oppositely on each of the door
(5) and the door housing (6).
6. A laundry dryer (1) as in any one of the Claims 1 to 3, characterized by the detection means (7) that has a magnet, that is disposed on the door (5) or the
door housing (6), and a reed switch, that is disposed on the door housing (6) or the
door (5) so as to be opposite to the magnet.
7. A laundry dryer (1) as in any one of the Claims 1 to 3, characterized by the detection means (7) that has a conductive plate, that is disposed on the door
(5) or the door housing (6), and an inductive distance meter, that is disposed on
the door housing (6) or the door (5) so as to be opposite to the inductive plate.
8. A laundry dryer (1) as in any one of the Claims 1 to 3, characterized by the detection means (7) that has a magnet, that is disposed on the door (5) or the
door housing (6), and a Hall sensor, that is disposed on the door housing (6) or the
door (5) so as to be opposite to the magnet.
9. A laundry dryer (1) as in any one of the above claims, that has the function of washing
laundry.
1. Ein Wäschetrockner (1) umfasst einen Körper (2), eine Wanne (3), die in den Körper
hineingepresst ist und für die Durchführung des Trocknungsprozesses dient, eine Öffnung
(4) für den Zugang zu der Wanne, eine Tür (5) zum Abdecken der Öffnung (4) und eines
Türgehäuses (6), welches an der Vorderwand des Körpers (2) angebracht ist und die
Öffnung (4) und den Abschnitt der innenfläche der Tür (5) umgibt,
ist dadurch gekennzeichnet,
- dass mindestens ein Erfassungseinrichtung (7) an der Tür (5) oder dem Gehäuse (6) angeordnet
ist und den Abstand zwischen der Tür (5) und dem Gehäuse (6) misst,
- eine Kontrolleinheit (8), die den von der Erfassungseinrichtung (7) gemessenen Abstand
zwischen der Tür (5) und dem Türgehäuse (6) mit dem ersten vom Hersteller vorgegebenen
Abstandspositionswert (D1) vergleicht wird, der der Position der Tür (5) vollständig
geschlossen ist uns es steuert, den offenen Zustand der Tür (5) entsprechend des Ergebnisses
zu vergleichen,
- dass die Kontrolleinheit (8) es ermöglicht, die Wanne (3) in eine der vorherigen Richtungen
des entgegengesetzten der Drehrichtung zu drehen, wenn die von der Erfassungseinrichtung
(7) gemessene Entfernung überschritten wird
a) steht zwischen dem ersten Grenzdistanzwert (D1) und einem zweiten Grenzdistanzwert
(D2), der vom Hersteller vorgegeben ist und der Position entspricht, an der die Tür
(5) geöffnet ist, oder
b) ist grösser als der erste Grenzdistanzwert (1) und ist tendenziell am Ansteigen,
das heißt, dass der Wert der erfassten Entfernung länger ist als die vorherigen Werte,
die zum Erfassen der Entfernung durch die Angaben vom Hersteller innerhalb vorgegebener
Dauer.
2. Ein Wäschetrockner (1), wie in Anspruch 1 aufgeführt, ist dadurch gekennzeichnet, dass die Kontrolleinheit (8) den Benutzer warnt, wenn die Tür(5) nicht vollständig geschlossen
ist und wenn der Abstand zu Beginn des Trocknungsprozesses von der Erfassungseinrichtung
(7) gemessen wird und der Prozess grösser als der erste Entfernungsdistanzwert (D1)
ist.
3. Ein Wäschetrockner (1), wie in einem der oben aufgeführten Ansprüchen, ist dadurch gekennzeichnet, dass die Kontrolleinheit (8) den Benutzer warnt, wenn der von der Erfassungseinrichtung
(7) während des Trocknungsvorgangs gemessene Abstand einen zweiten Entfernungsdistanzwert
(D2) erreicht, während die Tür (5) offen ist und die vom Hersteller vorbestimmte Position
entsprechend ist.
4. Ein Wäschetrockner (1), wie in einem der oben aufgeführten Ansprüchen, ist dadurch gekennzeichnet, dass die Erfassungseinrichtung (7) die zugleich ein Druckmesse ist, den ausgeübten Druck
der Tür (5) auf das Türgehäuse (6), misst
5. Ein Wäschetrockner (1), wie in Ansprüchen 1 bis 3, ist dadurch gekennzeichnet, dass das Erfassungsmittel (7), das an der Tür (5) und an dem Türgehäuse (6) jeweils eine
leitende Palette umfasst,
6. Ein Wäschetrockner (1), wie in Ansprüchen 1 bis 3, ist dadurch gekennzeichnet, dass die Erfassungseinrichtung (7), die den Magneten umfasst und an der Tür (5) oder dem
Türgehäuse (6) angeordnet ist und an einem Schilfrohr-Schalter angeordnet ist, der
an dem Türgehäuse (6) oder an der Tür (5) angebracht ist, um dem Magneten parallel
zu stehen.
7. Ein Wäschetrockner (1), wie in Ansprüchen 1 bis 3, ist dadurch gekennzeichnet, dass die Erfassungseinrichtung (7), die eine leitfähige Platte umfasst, die an der Tür
(5) oder dem Türgehäuse (6) angeordnet ist, und das eine induktiver Entfernungsmesser,
der am Türgehäuse (6) oder an der Tür (5) der induktiven Platte gegenüberliegend angeordnet
ist.
8. Ein Wäschetrockner (1), wie in Ansprüchen 1 bis 3, ist dadurch gekennzeichnet, dass die Erfassungseinrichtung (7), die einen Magneten aufweist und an der (5) oder dem
Türgehäuse (6) angeordnet ist und einem Hallensensor, der an der Türgehäuse (6) oder
an der Tür (5) angeordnet ist, um dem Magneten gegenüberliegend ist,
9. Ein Wäschetrockner (1), wie in einem der oben aufgeführten Ansprüchen, hat zugleich
die Funktion, Wäsche zu waschen.
1. Un sèche-linge (1) comprenant un corps (2), une cuve (3) qui est disposée dans le
corps (2), dans lequel le processus de séchage est effectué, une ouverture (4) donnant
accès à la cuve, une porte (5) recouvrant l'ouverture (4) et un cadre de porte (6)
qui est disposé sur la paroi avant du corps (2), qui entoure l'ouverture (4) et sur
lequel une partie de la surface interne de la porte (5) est supportée,
est caractérisé en ce que
- au moins un moyen de détection (7) est disposé sur la porte (5) ou le cadre de la
porte (6) et fournit la mesure de la distance entre la porte (5) et le montant de
porte (6),
- une unité de commande (8) qui compare la distance entre la porte (5) et le cadre
de la porte (6) mesurée par le moyen de détection (7) avec une première valeur de
distance limite (D1) prédéterminée par le fabriquant et correspondant à la position
où la porte (5) est complètement fermée, et qui commande l'état d'ouverture de la
porte (5) selon le résultat de la comparaison,
- l'unité de commande (8) qui permet de faire tourner la cuve (3) dans un sens opposé
au sens de rotation précédent si la distance mesurée par le moyen de détection (7)
a) se situe entre la première valeur de distance limite (D1) et une deuxième valeur
de distance limite (D2) prédéterminée par le fabriquant et correspondant à la position
où la porte (5) est ouverte, ou
b) est supérieure à la première valeur de distance limite (D1) et tend à augmenter,
c'est-à-dire que la valeur de la distance détectée est supérieure aux valeurs précédentes
de la distance détectée, pendant une durée prédéterminée par le fabriquant.
2. Un sèche-linge (1) selon la déclaration 1, est caractérisé par l'unité de commande (8) qui avertit l'utilisateur que la porte (5) n'est pas complètement
fermée si la distance mesurée par le moyen de détection (7) au début du processus
de séchage est supérieure à la première distance limite (D1).
3. Un sèche-linge (1) comme dans l'une quelconque des déclarations ci-dessus, est caractérisé par l'unité de commande (8) qui avertit l'utilisateur, si la distance mesurée par le
moyen de détection (7) pendant le processus de séchage, atteint une seconde valeur
de distance limite (D2) prédéterminée par le fabriquant et correspondant à la position
à laquelle la porte (5) est ouverte.
4. Un sèche-linge (1) comme dans l'une quelconque des déclarations ci-dessus, est caractérisé par le moyen de détection (7) qui est un indicateur de pression mesurant la pression
appliquée par la porte (5) sur le cadre de la porte (6).
5. Un sèche-linge (1) comme dans l'une quelconque des déclarations 1 à 3, est caractérisé par le moyen de détection (7) qui a une plaque conductrice de manière opposée à la fois
sur la porte (5) et le cadre de la porte (6).
6. Un sèche-linge (1) comme dans l'une quelconque des déclarations 1 à 3, est caractérisé par les moyens de détection (7) qui présentent un aimant disposé sur la porte (5) ou
le cadre de la porte (6) et un interrupteur à lames qui est disposé sur le cadre de
la porte (6) ou la porte (5) de façon à être opposé à l'aimant.
7. Un sèche-linge (1) comme dans l'une quelconque des déclarations 1 à 3, est caractérisé par les moyens de détection (7) qui présentent une plaque conductrice disposée sur la
porte (5) ou le cadre de la porte (6) et un compteur de distance inductif disposé
sur le cadre de la porte (6) ou sur la porte (5) de manière à être opposé à la plaque
inductive.
8. Un sèche-linge (1) comme dans l'une quelconque des déclarations 1 à 3, est caractérisé par les moyens de détection (7) qui présentent un aimant disposé sur la porte (5) ou
le cadre de la porte (6) et un capteur Hall disposé sur le cadre de la porte (6) ou
sur la porte (5) de façon à être opposé à l'aimant.
9. Un sèche-linge (1) comme dans l'une quelconque des déclarations ci-dessus, a la fonction
de laver le linge.