[0001] The present invention relates to a hairdryer and to a method of functioning of such
hairdryer, which allow to avoid damages to the user's hair due to excessively high
temperature of the blown air.
[0002] Hairdryers are available in the market which are capable of monitoring the temperature
of the user's hair being dried in order to avoid too high temperatures to be reached
and hence to avoid the hair to be damaged.
[0003] The patent application n.
US 4424437 A discloses for instance a hairdryer having a radiometer which remotely senses the
infrared radiation emanating from the user's hair being dried and which contains a
control means that causes the heating means in the dryer to turn off when the infrared
radiation indicates the temperature of the hair is about 50 °C.
[0004] Another similar hairdryer is disclosed in the European patent n.
EP 0672871 B1 and it comprises an infrared sensor which is wired to the heater controller. When
a predetermined temperature is attained and sensed by the infrared sensor, the heating
is reduced or discontinued.
[0005] Both the hairdryers disclosed in the above mentioned patent and patent application
however have the main drawback not to allow the user to autonomously control the functioning
of the hairdryer and hence not to allow the user to operate the hairdryer according
to his/her specific needs.
[0006] The patent application
JP 2013081642 A discloses a hairdryer with a switch for setting the air temperature mode of multiple
steps.
[0007] The aim of the present invention is therefore to provide a hairdryer which allows
the user to avoid damages to the hair being dried or styled while ensuring an optimal
flexibility of use and efficiency.
[0008] A further aim of the present invention is to provide a hairdryer which is simple
and safe to be used.
[0009] Another aim of the present invention is to provide a method of functioning of a hairdryer
which is reliable and which allows the user to select autonomously the functioning
parameters of the hairdryer during its use.
[0010] These aims have been achieved by the hairdryer as defined in claim 1 and by the method
of functioning of the hairdryer as defined in claim 12. Further achievements have
been attained by the subject-matters respectively defined in the dependent claims.
[0011] The hairdryer realized in order to attain the aim of the present invention, explicated
in the first claim and the respective dependent claims thereof, comprises a temperature
sensor for sensing the temperature of the surface of the hair being dried or of the
air been blown by the hairdryer, a control unit and vibration means arranged in the
body and, according to a preferred embodiment, in the handle which is grasped by the
user during the use of the hairdryer. The temperature sensor is designed to send temperature
information signals to the control unit and the vibration means are aimed to be activated
by the control unit when the sensed temperature reaches a first threshold value set
by the producer and the control unit receives a correspondent signal from the temperature
sensor for warning the user holding the hairdryer, and in particular grasping the
handle, that the first temperature threshold has been reached.
[0012] In an embodiment, the temperature sensor is an infrared thermometer aimed to sense
the temperature of the surface of the hair being dried or shaped.
[0013] In another embodiment, the control unit is programmed to stop the operation of heating
means of the hot air generating means when the sensed temperature reaches a second
threshold value higher than the first threshold value and the control unit receives
a correspondent temperature signal from the sensor, for avoiding excessively high
temperatures to be reached and hence possible damages to be caused to the user's hair.
[0014] In an embodiment the vibration means comprises a vibrator motor, while in an alternative
embodiment the vibration means comprises a piezoelectric actuator.
[0015] The hairdryer may further comprises light emitting means arranged on the body, connected
to the control unit and designed to provide visual information to the user concerning
the temperature sensed by the temperature sensor, i.e. for instance designed to emit
different visual signals depending on the temperature sensed by the sensor.
[0016] In particular in an embodiment, the light emitting means are designed to emit light
of different colors depending on the range of temperature within which the average
temperature sensed by the temperature sensor falls.
[0017] The light emitting means comprises, according to an embodiment, one or more LEDs.
[0018] In an embodiment, the light emitting means are arranged on the body around the air
vent which is arranged laterally on the body with respect to the frontal blowing outlet.
[0019] In an alternative embodiment, the light emitting means are arranged on the body around
the connection area of the handle to the air blowing portion of the body thus being
easily visible for the user.
[0020] The method of functioning of a hairdryer realized in order to attain the aim of the
present invention, explicated in the twelfth claim and the respective dependent claims
thereof, comprises the operational steps of activating the hot air generating means
in order to emit a flow of hot air, monitoring the temperature of the hair being dried
or of the air been blown through the outlet by means of a temperature sensor, sending
temperature information signals from the temperature sensor to the control unit of
the hairdryer and activating a vibration means arranged in the body by means of the
control unit when the latter receives a temperature information signal from the sensor
related to a temperature equal or higher than a first threshold value set by the producer,
for warning the user holding the body of the hairdryer that the first temperature
threshold has been reached.
[0021] The hairdryer realized in order to attain the aim of the present invention is illustrated
in the attached figures, where:
Figure 1 - is a first perspective view of a hairdryer according to the invention.
Figure 2 - is a second perspective view of a hairdryer according to the invention,
wherein a part of the body of the hairdryer has been removed in order to show the
internal components of the hairdryer.
[0022] The elements illustrated in the figures are numbered as follows:
- 1. Hairdryer
- 2. Body
- 3. Blowing outlet
- 4. Handle
- 5. Hot air generating means
- 6. Motor-driven fan
- 7. Control unit
- 8. Temperature sensor
- 9. Vibration means
- 10. Light emitting means
- 11. Air vent
- 12. Air blowing portion
[0023] The hairdryer 1 comprises a body 2 having a blowing outlet 3 through which air is
emitted. The body 2 of the hairdryer 1 preferably comprises a handle 4, which is a
portion of the body 2 suitable for being grasped by the user. In particular, the body
2 has a case-like shape aimed to define an internal protected space, where the internal
components of the hairdryer 1 are placed. The hairdryer 1 further comprises hot air
generating means 5 arranged in the body 2 and aimed to generate a flow of hot air
to be emitted through the blowing outlet 3. In particular the hot air generating means
5 comprises a motor-driven fan 6 and heating means (not illustrated) electrically
powered.
[0024] According to the embodiment illustrated in the attached Figures, the body 2 comprises
an air blowing portion 12 provided with the blowing outlet 3 and wherein the hot air
generating means 5 are arranged and the handle 4 is connected to the air blowing portion
12, in particular substantially perpendicular to it.
[0025] The hairdryer 1 comprises a control unit 7 arranged in the body 2 and a temperature
sensor 8 for sensing the temperature of the surface of the hair being dried or of
the air being blown through the blowing outlet 3. The sensor 8 is supported by the
body 2 and it is connected to the control unit 7 for sending to it temperature information
signals.
[0026] According to an embodiment, the sensor 8 is attached to the body 2 in proximity of
the blowing outlet 3.
[0027] In particular, in the embodiment illustrated in the attached Figures, the temperature
sensor 8 is an infrared thermometer aimed to sense the temperature of the surface
of the hair being dried or styled. To this aim the sensor 8 is attached to the body
2, protruding externally on the body 2 in correspondence of the blowing outlet 3,
which is intended to be directed toward the user's hair when the hairdryer 1 is in
use. This allows the temperature sensor 8 to be correctly oriented toward the hair
of the user when the hairdryer 1 is in use for sensing the surface temperature of
such hair, while at the same time avoiding possible damages to the sensor 8 or malfunctioning
of the sensor 8 due to the hot air being blown through the outlet 3.
[0028] The hairdryer 1 according to the present invention further comprises vibration means
9 arranged in the body 2 and aimed to be activated by the control unit 7 when the
latter receives a temperature information signal from the sensor 8 related to a temperature
equal or higher of a first temperature threshold value, set by the producer, for warning
the user that such first threshold temperature value has been reached.
[0029] According to an embodiment the first threshold value set for the temperature sensed
by the sensor 8 is a value of temperature at which the hair are susceptible of getting
damaged. For instance, in case the temperature sensor 8 is aimed to sense the temperature
of the surface of the hair being dried, such first temperature threshold could be
set at 70°C.
[0030] Therefore the hairdryer 1 of the present invention, thanks to the presence of the
vibration means 9, is capable of reliably informing the user that a threshold temperature
has been reached, thus allowing the user to select if the heating should be reduced
or discontinued or if he/she prefers to continue drying the hair without intervening
on the heating means, despite of the warning provided by the hairdryer 1. With respect
to other possible warning means, the vibration means 9 is particularly effective,
since the warning vibration is certainly felt by the user, which holds the body 2
of the hairdryer 1 while the hairdryer 1 is in use, whichever is the momentarily position
of the hairdryer 1 with respect to the user's visual, like for instance also when
the hairdryer 1 is positioned behind the head of the user.
[0031] In a preferred embodiment illustrated in the attached figures, the vibration means
9 is arranged in the handle 4 of the body 2. This enhances the vibration feeling transmitted
to the user due to the fact that the handle 4 is grasped by the user while the hairdryer
1 is in use.
[0032] According to an embodiment, the control unit 7 is programmed to stop the operation
of the heating means of the hot air generating means 5 when it receives a temperature
information signal from the sensor 8 related to a sensed temperature that reaches
a second threshold value, as well set by the producer, higher than the first threshold
value the temperature sensor 8. This allows to enhance the safety of use of the hairdryer
1, maintaining the temperature sensed by the sensor 8, i.e. for instance the temperature
of the surface of the hair being dried or of the air blown, within an upper limit
temperature above which the temperature is considered to be harmful for the user.
[0033] In an embodiment, the vibration means 9 comprises a vibrator motor, which is both
economic and functioning reliable.
[0034] In an alternative embodiment the vibration means 9 comprises a piezoelectric actuator,
which can provide high-vibration force.
[0035] According to a further embodiment, the hairdryer 1 comprises light emitting means
10 arranged on the body 2 and connected to the control unit 7 for providing visual
information to the user concerning the temperature sensed by the sensor 8, i.e. concerning
the temperature reached by the surface of the hair being dried or reached by the air
emitted through the blowing outlet 3. The light emitting means 10 allows the user
to visually monitor, in a simple and intuitive manner, the temperature sensed by the
sensor 8.
[0036] In a version of this embodiment, the light emitting means 10 are designed to emit
light of different colors depending on the range of temperature within which the average
temperature sensed by the temperature sensor 8 falls. This allows the user to visually
monitor the range of temperature within which the temperature of the surface of the
hair or of the air emitted through the blowing outlet 3 falls.
[0037] For instance the light emitting means 10 could be designed in order to emit a blue
color when the temperature sensed by the sensor 8 falls within the range of temperature
between 40°C and 50°C, to emit a green color when the temperature sensed by the sensor
8 falls within the range of temperature between 50°C and 60°C, to emit an orange color
when the temperature sensed by the sensor 8 falls within the range of temperature
between 60°C and 70°C and to emit a red color when the temperature sensed by the sensor
8 is above 70°C. In this manner the user can be clearly and easily informed concerning
the range of temperature within which the temperature of the surface of the hair or
the temperature of the air blown by the hairdryer 1 falls, thus having the possibility
to control the functioning parameters of the hairdryer 1 in a more accurate and conscious
manner.
[0038] According to an embodiment, the light emitting means 10 comprises one or more LEDs,
which are economical and require low energy for functioning. In particular the light
emitting means 10 can comprise RGB Color Changing LED, which are capable of producing
numerous different color shades.
[0039] In an embodiment, the body 2 comprises at least one lateral air vent 11, which is
arranged on a side of the body 2, considering the blowing outlet 3 being arranged
frontally on the body 2 and which is advantageously defined by a plurality of apertures.
The light emitting means 10 are arranged on the body 2 around the at least one lateral
air vent 11. This position ensures to the light emitting means 10 a good visibility
on the body 2.
[0040] According to an alternative embodiment, the light emitting means 10 are arranged
on the body 2 around the connection area of the handle 4 to the air blowing portion
12. This allows the light emitting means 10 to be easily seen by the user, for most
of the positions and orientations of the hairdryer 1 while in use.
[0041] The present invention comprises also a method of functioning of a hairdryer 1, in
particular as above specified, for which the same reference numbers will be maintained.
[0042] The method according to the invention comprises activating the hot air generating
means 5 in order to emit a flow of hot air through the blowing outlet 3 of the body
2 of the hairdryer 1.
[0043] In particular the hot air generating means 5 are activated by means of the control
unit 7 upon command of the user, for instance by acting on one or more buttons or
levers by means of which it is possible to turn on and off the hairdryer 1 and for
instance to set the temperature and the speed of the air to be emitted through the
blowing outlet 3.
[0044] The method further comprises monitoring the temperature of the hair being dried or
of the air been blown through the outlet 3 by means of the temperature sensor 8 and
sending temperature information signals from the temperature sensor 8 to the control
unit 7.
[0045] The method according to the invention comprises hence activating the vibration means
9 arranged in the body 2 of the hairdryer 1 and preferably in the handle 4 by means
of the control unit 7, when the temperature sensed by the sensor 8 reaches a first
threshold value, set by the producer, and the control unit 7 receives a correspondent
temperature information signal from the sensor 8, for warning the user holding the
body 2 that the first temperature threshold has been reached.
[0046] In an embodiment, the method further comprises stopping the operation of the heating
means of the hot air generating means 5 by means of the control unit 7 when the sensed
temperature reaches a second threshold value higher than the first threshold value
and as well set by the producer and the control unit 7 receives a correspondent temperature
information signal from the sensor 8.
[0047] In a further embodiment the method comprises commanding the light emitting means
10 arranged on the body 2 of the hairdryer 1 to emit a light for providing visual
information to the user concerning the temperature sensed by the sensor 8.
[0048] In a version of this embodiment, the method further comprises commanding the light
emitting means 10 to emit a light of a first color by means of the control unit 7,
when the latter receives a temperature signal from the sensor 8 falling within a first
range of temperatures, and commanding the light emitting means 10 to emit a light
of a second color, different from the first color, by means of the control unit 7
when the latter receives a temperature signal from the sensor 8, falling within a
second range of temperatures different from the first range temperature.
[0049] The hairdryer 1 and the method according to the present invention ensures an optimal
flexibility in use, while avoiding possible damages to the hair being dried or styled
by accurately informing the user when a excessively high temperature is being reached
by the surface of the hair or by the air blown by the hairdryer 1.
[0050] Moreover the hairdryer 1 and the method allow the user to comfortably use the hairdryer
being ensured to be promptly informed on the excessively high temperature being reached
whichever is the momentarily position of the hairdryer, since it is not necessary
for the user to visualize the hairdryer 1 in order to be informed.
1. A hairdryer (1)
comprising:
- a body (2) having a blowing outlet (3) through which air is emitted;
- hot air generating means (5) arranged in the body (2) and arranged to generate a
flow of hot air to be emitted through the blowing outlet (3);
- a control unit (7) arranged in the body (2);
- a temperature sensor (8) for sensing the temperature of the surface of the hair
being dried or of the air been blown through the outlet (3), which sensor (8) is supported
by the body (2) and it is connected to the control unit (7) for sending to it temperature
information signals;
characterized in that it further comprises vibration means (9) arranged in the body (2) and arranged to
be activated by the control unit (7) when the temperature sensed by the sensor (8)
reaches a first threshold value set by the producer and the control unit (7) receives
a correspondent temperature information signal from the sensor (8), for warning the
user holding the body (2) of the hairdryer (1) that the first temperature threshold
has been reached.
2. A hairdryer (1) as in Claim 1, characterized in that the body (2) of the hairdryer (1) comprises a handle (4) and the vibration means
(9) are arranged in the handle (4) of the body (2).
3. A hairdryer (1) as in Claim 1 or 2, characterized in that the temperature sensor (8) is an infrared thermometer arranged to sense the temperature
of the surface of the hair being dried.
4. A hairdryer (1) as in any of the preceding claims, characterized in that the control unit (7) is programmed to stop the operation of heating means of the
hot air generating means (5) when the sensed temperature reaches a second threshold
value set by the producer higher than the first threshold value and the control unit
(7) receives a correspondent temperature information signal from the sensor (8).
5. A hairdryer (1) as in any of the preceding claims, characterized in that the vibration means (9) comprises a vibrator motor.
6. A hairdryer (1) as in any of the claims 1-4, characterized in that the vibration means (9) comprises a piezoelectric actuator.
7. A hairdryer (1) as in any of the preceding claims, characterized in that it further comprises light emitting means (10) arranged on the body (2) and connected
to the control unit (7) for providing visual information to the user concerning the
temperature sensed by the temperature sensor (8).
8. A hairdryer (1) as in Claim 7, characterized in that the light emitting means (10) are designed to emit light of different colors depending
on the range of temperature within which the average temperature sensed by the temperature
sensor (8) falls.
9. A hairdryer (1) as in Claim 7 or 8, characterized in that the light emitting means (10) comprises one or more LEDs.
10. A hairdryer (1) as in any of the claims 7-9, characterized in that the body (2) comprises at least one lateral air vent (11) and the light emitting
means (10) are arranged on the body (2) around the at least one lateral air vent (11).
11. A hairdryer (1) as in any of the claims 7-9, characterized in that the body (2) comprises an air blowing portion (12) having the blowing outlet (3)
and wherein the hot air generating means (5) are arranged, the handle (4) being connected
to the air blowing portion (12) and the light emitting means (10) being arranged on
the body (2) around the connection area of the handle (4) to the air blowing portion
(12).
12. A method of functioning of a hairdryer (1) according to any one of claims 1 to 11,
the method comprising:
- activating hot air generating means (5) in order to emit a flow of hot air through
a blowing outlet (3) of a body (2) of the hairdryer (1);
- monitoring the temperature of the hair being dried or of the air been blown through
the outlet (3) by means of a temperature sensor (8);
- sending temperature information signals from the temperature sensor (8) to a control
unit (7) of the hairdryer (1); and
- activating a vibration means (9) arranged in the body (2) of the hairdryer (1) by
means of the control unit (7) when the temperature sensed by the sensor (8) reaches
a first threshold value set by the producer and the control unit (7) receives a correspondent
temperature information signal from the sensor (8), for warning the user holding the
body (2) of the hairdryer (1) that the first temperature threshold has been reached.
13. A method of functioning of a hairdryer (1) as in claim 12 further comprising:
- stopping the operation of heating means of the hot air generating means (5) by means
of the control unit (7) when the sensed temperature reaches a second threshold value
set by the producer higher than the first threshold value and the control unit (7)
receives a correspondent temperature information signal from the sensor (8).
14. A method of functioning of a hairdryer (1) as in claim 12 or 13, further comprising
commanding light emitting means (10) arranged on the body (2) of the hairdryer (1)
and connected to the control unit (7) to emit a light of a preset color for providing
visual information to the user concerning the temperature sensed by the sensor (8).
15. A method of functioning of a hairdryer (1) as in claim 14 further comprising:
- commanding the light emitting means (10) to emit a light of a first color by means
of the control unit (7) when the latter receives a temperature information signal
from the sensor (8) falling within a first range of temperatures; and
- commanding the light emitting means (10) to emit a light of a second color, different
from the first color, by means of the control unit (7) when the latter receives a
temperature information signal from the sensor (8), falling within a second range
of temperatures different from the first range temperature.
1. Ein Haartrockner (1)
umfasst:
- einen Körper (2) mit einer Ausblasöffnung (3), durch den die Luft abgegeben wird;
- eine Heißlufterzeugungseinrichtung (5), die in dem Körper (2) angeordnet und angeordnet
sind, um einen Heißluftstrom zu erzeugen, der durch die Ausblasöffnung (3) abgegeben
wird;
- eine Steuereinheit (7), die in dem Körper (2) angeordnet ist;
- einen Temperatursensor (8) für das Erfassen der Temperatur der Oberfläche des zu
trocknenden Haares oder der Luft, die durch den Auslass (3) geblasen wird, wobei der
Sensor (8) vom Körper (2) getragen wird und mit der Steuereinheit (7) verbunden ist,
um Temperaturinformationssignale an ihn zu senden;
gekennzeichnet ist es dadurch, dass es darüber hinaus einen Vibrationsmittel (9) umfasst, das in dem Körper (2)
angeordnet ist und von der Steuereinheit (7) aktiviert wird, wenn die vom Sensor (8)
erfasste Temperatur einen ersten Schwellenwert erreicht und die Steuereinheit (7)
ein entsprechendes Temperaturinformationssignal vom Sensor (8) empfängt, für die Warnung
des Benutzers, der den Körper (2) des Haartrockners (1) hält, dass die erste Temperaturschwelle
erreicht wurde.
2. Ein Haartrockner (1), wie in Anspruch 1 aufgeführt, ist dadurch gekennzeichnet, dass der Körper (2) des Haartrockners (1) einen Griff (4) aufweist, wobei das Vibrationsmittel
(9) im Griff (4) des Körpers (2) angeordnet ist.
3. Ein Haartrockner (1), wie in Anspruch 1 oder 2 aufgeführt, ist dadurch gekennzeichnet, dass der Temperatursensor (8) ein InfrarotThermometer ist, welches dafür angeordnet ist,
um die Temperatur der Oberfläche des zu trocknenden Haares zu erfassen.
4. Ein Haartrockner (1), wie in einem der vorherigen Ansprüchen aufgeführt, ist dadurch gekennzeichnet, dass die Steuereinheit (7) so programmiert ist, dass sie den Betrieb der Heizeinrichtung
der Heißlufterzeugungseinrichtung (5) anhält, wenn die erfasste Temperatur einen zweiten
Schwellenwert erreicht, der höher als der erste Schwellenwert ist und die Steuereinheit
(7) ein entsprechendes Temperaturinformationssignal vom Sensor (8) empfängt.
5. Ein Haartrockner (1), wie in einem der vorherigen Ansprüchen aufgeführt, ist dadurch gekennzeichnet, dass das Vibrationsmittel (9) einen Vibrationsmotor umfasst.
6. Ein Haartrockner (1), wie in Anspruch 1-4 aufgeführt, ist dadurch gekennzeichnet, dass das Vibrationsmittel (9) einen piezoelektrischen Aktuator umfasst.
7. Ein Haartrockner (1), wie in einem der vorherigen Ansprüchen aufgeführt, ist dadurch gekennzeichnet, dass es einen Lichtemissionsmittel (10) umfasst, die an dem Körper (2) angeordnet und
mit der Steuereinheit (7) verbunden ist, um dem Benutzer visuelle Informationen in
Bezug der vom Temperatursensor (8) erfassten Temperatur bereitzustellen.
8. Ein Haartrockner (1), wie in Anspruch 7 aufgeführt, ist dadurch gekennzeichnet, dass das Lichtemissionsmittel (10) so ausgelegt ist, dass es Licht in unterschiedlicher
Farbe in Abhängigkeit von dem Temperaturbereich emittiert, in den die vom Temperatursensor
(8) erfasste Durchschnittstemperatur fällt.
9. Ein Haartrockner (1), wie in Anspruch 7 oder 8 aufgeführt, ist dadurch gekennzeichnet, dass das Lichtemissionsmittel (10) eine oder mehrere LEDs umfasst.
10. Ein Haartrockner (1), wie in einem der Ansprüche 7-9 aufgeführt, ist dadurch gekennzeichnet, dass der Körper (2) mindestens eine seitliche Entlüftung (11) umfasst, wobei die Lichtemissionsmittel
(10) auf dem Körper (2) um die mindestens eine seitliche Entlüftung (11) angeordnet
sind.
11. Ein Haartrockner (1), wie in einem der Ansprüche 7-9 aufgeführt, ist dadurch gekennzeichnet, dass der Körper (2) einen Luftblasabschnitt (12) mit der Ausblasöffnung (3) umfasst und
worauf die Heißlufterzeugungseinrichtung (5) angeordnet sind, wobei der Griff (4)
mit dem Luftblasabschnitt (12) verbunden ist und die Lichtemissionseinrichtung (10)
auf dem Körper (2) um den Verbindungsbereich des Griffs (4) mit dem Luftblasabschnitt
(12) angeordnet ist.
12. Ein Verfahren zum Funktionieren des Haartrockners (1) umfasst:
- das Aktivieren der Heißlufterzeugungseinrichtung (5), um einen Heißluftstrom durch
eine Ausblasöffnung (3) eines Körpers (2) des Haartrockners (1) zu emittieren;
- das Überwachen der Temperatur des zu trocknenden Haares oder der durch den Auslass
(3) geblasenen Luft mithilfe eines Temperatursensors (8);
- das Senden von Temperaturinformationsignalen vom Temperatursensor (8) zu einer Steuereinheit
(7) von dem Haartrockner (1); und
- das Aktivieren eines im Körper (2) des Haartrockners (1) angeordneten Vibrationsmittel
(9) mithilfe der Steuereinheit (7), wenn die vom Sensor (8) erfasste Temperatur einen
ersten Schwellenwert erreicht hat, so empfängt die Steuereinheit (7) ein entsprechendes
Temperaturinformationssignal vom Sensor (8), um den Benutzer, der den Körper (2) des
Haartrockners (1) hält, zu warnen, dass die erste Temperaturschwelle erreicht wurde.
13. Ein Verfahren zum Funktionieren des Haartrockners (1) nach Anspruch 12 umfasst des
Weiteren:
- das Einstellen des Betriebs der Heizeinrichtung der Heißlufterzeugungseinrichtung
(5) mithilfe der Steuereinheit (7), wenn die erfasste Temperatur einen zweiten Schwellenwert
erreicht, der höher als der erste Schwellenwert ist, und die Steuereinheit (7) eine
entsprechende Temperatur empfängt Informationssignal vom Sensor (8).
14. Ein Verfahren zum Funktionieren des Haartrockners (1) nach Anspruch 12 oder 13 umfasst
des Weiteren Befehlslicht emittierendes Mittel (10), das auf dem Körper (2) des Haartrockners
(1) angeordnet und mit der Steuereinheit (7) verbunden ist, um ein Licht einer voreingestellten
Farbe zu emittieren, um dem Benutzer visuelle Informationen bezüglich der vom Sensor
(8) erfassten Temperatur weiterzugeben.
15. Ein Verfahren zum Funktionieren des Haartrockners (1) nach Anspruch 14 umfasst des
Weiteren:
- Befehlslicht emittierendes Mittel (10), das mithilfe der Steuereinheit (7) ein Licht
einer ersten Farbe emittiert, wenn dieser ein Temperaturinformationssignal vom Sensor
(8) empfängt, das in einen ersten Temperaturbereich fällt; und
- Befehlslicht emittierende Mittel (10), das mithilfe der Steuereinheit (7) ein Licht
einer zweiten Farbe, die sich von der ersten Farbe unterscheidet, ausgibt, wenn dieser
ein Temperaturinformationssignal vom Sensor (8) empfängt, das in einen zweiten Temperaturbereich
fällt, der sich von der Temperatur im ersten Bereich unterscheidet.
1. Un sèche-cheveux (1)
comprenant :
- un corps (2) ayant une sortie de soufflage (3) par laquelle l'air est émis ;
- des moyens de génération d'air chaud (5) disposés dans le corps (2) et agencés pour
générer un flux d'air chaud à émettre par la sortie de soufflage (3) ;
- une unité de contrôle (7) disposée dans le corps (2) ;
- un capteur de température (8) pour détecter la température de la surface des cheveux
en cours de séchage ou de l'air soufflé par la sortie (3), lequel capteur (8) est
supporté par le corps (2) et il est relié à l'unité de commande (7) pour lui envoyer
des signaux d'information sur la température ;
est caractérisé en ce qu'il comprend en outre des moyens de vibration (9) disposés dans le corps (2) et agencés
pour être activés par l'unité de commande (7) lorsque la température détectée par
le capteur (8) atteint une première valeur de seuil et que l'unité de commande (7)
reçoit un signal d'information de température correspondant du capteur (8), pour avertir
l'utilisateur tenant le corps (2) du sèche-cheveux (1) que le premier seuil de température
a été atteint.
2. Un sèche-cheveux (1) selon la déclaration 1, est caractérisé en ce que le corps (2) du sèche-cheveux (1) comprend une poignée (4) et les moyens de vibration
(9) sont disposés dans la poignée (4) du corps (2).
3. Un sèche-cheveux (1) selon la déclaration 1 ou 2, est caractérisé en ce que le capteur de température (8) est un thermomètre à infrarouge agencé pour détecter
la température de la surface des cheveux en cours de séchage.
4. Un sèche-cheveux (1) selon l'une des déclarations précédentes, est caractérisé en ce que l'unité de commande (7) est programmée pour arrêter le fonctionnement des moyens
de chauffage des moyens de génération d'air chaud (5) lorsque la température détectée
atteint une deuxième valeur de seuil supérieure à la première valeur de seuil et l'unité
de commande (7) reçoit un signal d'information de température correspondant du capteur
(8).
5. Un sèche-cheveux (1) selon l'une des déclarations précédentes, est caractérisé en ce que le moyen de vibration (9) comprend un moteur de vibrateur.
6. Un sèche-cheveux (1) selon l'une des déclarations 1 à 4, est caractérisé en ce que le moyen de vibration (9) comprend un actionneur piézoélectrique
7. Un sèche-cheveux (1) selon l'une des déclarations précédentes, est caractérisé en ce qu'il comprend en outre des moyens d'émission de lumière (10) disposés sur le corps (2)
et reliés à l'unité de commande (7) pour fournir à l'utilisateur des informations
visuelles concernant la température détectée par le capteur de température (8).
8. Un sèche-cheveux (1) selon la déclaration 7, est caractérisé en ce que les moyens d'émission de lumière (10) sont conçus pour émettre de la lumière de différentes
couleurs en fonction de la plage de température dans laquelle se situe la température
moyenne détectée par le capteur de température (8).
9. Un sèche-cheveux (1) selon la déclaration 7 ou 8, est caractérisé en ce que le moyen d'émission de lumière (10) comprend une ou plusieurs LED.
10. Un sèche-cheveux (1) selon l'une des revendications 7 à 9, est caractérisé en ce que le corps (2) comprend au moins un orifice d'aération latéral (11) et les moyens d'émission
de lumière (10) sont disposés sur le corps (2) autour d'au moins un orifice d'aération
latéral (11).
11. Un sèche-cheveux (1) selon l'une des déclarations 7 à 9, est caractérisé en ce que le corps (2) comprend une partie de soufflage d'air (12) ayant la sortie de soufflage
(3) et dans laquelle sont disposés les moyens de génération d'air chaud (5), la poignée
(4) étant connectée à la partie de soufflage d'air (12) et les moyens d'émission de
lumière (10) étant disposés sur le corps (2) autour de la zone de connexion de la
poignée (4) à la partie de soufflage d'air (12).
12. Un mode de fonctionnement d'un sèche-cheveux (1) comprenant :
- l'activation de moyens de génération d'air chaud (5) afin d'émettre un flux d'air
chaud à travers une sortie de soufflage (3) d'un corps (2) du sèche-cheveux (1) ;
- surveiller la température des cheveux en cours de séchage ou de l'air soufflé par
la sortie (3) au moyen d'un capteur de température (8) ;
- l'envoi de signaux d'information sur la température du capteur de température (8)
à une unité de commande (7) du sèche-cheveux (1) ; et
- activer des moyens de vibration (9) disposés dans le corps (2) du sèche-cheveux
(1) au moyen de l'unité de commande (7) lorsque la température détectée par le capteur
(8) atteint une première valeur de seuil et que l'unité de commande (7) reçoit un
signal d'information de température correspondant du capteur (8), pour avertir l'utilisateur
tenant le corps (2) du sèche-cheveux (1) que le premier seuil de température a été
atteint.
13. Une méthode de fonctionnement d'un sèche-cheveux (1) comme dans la déclaration 12
comprenant en outre :
- l'arrêt du fonctionnement des moyens de chauffage des moyens de production d'air
chaud (5) au moyen de l'unité de commande (7) lorsque la température détectée atteint
une deuxième valeur de seuil supérieure à la première valeur de seuil et que l'unité
de commande (7) reçoit un signal d'information de température correspondant du capteur
(8).
14. Une méthode de fonctionnement d'un sèche-cheveux (1) selon la déclaration 12 ou 13,
comprenant en outre des moyens d'émission de lumière de commande (10) disposés sur
le corps (2) du sèche-cheveux (1) et connectés à l'unité de commande (7) pour émettre
une lumière d'une couleur prédéfinie afin de fournir des informations visuelles à
l'utilisateur concernant la température détectée par le capteur (8).
15. Une méthode de fonctionnement d'un sèche-cheveux (1) comme dans la déclaration 14
comprenant en outre :
- commander le moyen d'émission de lumière (10) pour qu'il émette une lumière d'une
première couleur au moyen de l'unité de commande (7) lorsque celle-ci reçoit un signal
d'information de température du capteur (8) tombant dans une première gamme de températures
; et
- commander le moyen d'émission de lumière (10) pour qu'il émette une lumière d'une
deuxième couleur, différente de la première, au moyen de l'unité de commande (7) lorsque
celle-ci reçoit un signal d'information de température du capteur (8), tombant dans
une deuxième plage de températures différente de la première.