EP2510826A1 - Manually operated dryer - Google Patents

Abstract

The dryer (1) has a fan (3) for producing airflow (10) and a heating device (2) for heating the airflow. A controller (4) actuates the heating device and/or the fan. A motion sensor (5) is connected with the controller for communication. The controller is designed such that the heating device and/or the fan are controlled depending on acquired movement of the motion sensor. The motion sensor comprises an acceleration sensor and arranged in a region of an exhaust opening (9''). The motion sensor is in communication with the controller over a wire connection i.e. optical fiber cable.

Description

The present invention relates to a hand-held dryer, in particular a hair dryer, with at least one heating device and a blower and a controller for controlling the heating device and / or the blower, according to the preamble of claim 1.

Dryers, especially hairdryers, have long been an integral part of many households and businesses. In this case, a generated by a fan air flow is heated by a heater and directed to an object to be dried, such as hair. A dry power or a temperature of the air flow is usually set by a manual control of a heating power of the heater and / or a blower power of the blower. The disadvantage here, however, that the hair to be dried can be damaged, if they experience too high a temperature load. The addition of the dryer by temperature sensors that measure a temperature of the hair can solve this problem only to a limited extent, as too high a temperature on the hair usually means too high a temperature load. Determining the temperature of hair is also difficult and inaccurate.

The present invention therefore deals with the problem of providing for a generic dryer an improved or at least alternative embodiment, which is characterized in particular by a simplified and safer handling.

This problem is solved according to the invention by the subject matter of the independent claim. Advantageous embodiments are the subject of the dependent claims.

The present invention is based on the general idea, in a dryer, in particular a hair dryer, having the features of the preamble of claim 1, at least one motion sensor to be mounted on or in the dryer to measure a movement of the dryer and a heater and / or to control a fan by means of a control as a function of the measured movement. In the following, a dryer is understood to be primarily a dryer, it being understood that the statements made are applicable to all hand-held dryers, that is to say, for example, to hot-air blowers. The dryer is usually moved during the drying process, which also moves a generated by the fan airflow. Thus, an object to be dried undergoes heat input at different points through a temperature of the air flow. With the same dryer performance or air flow temperature, the article locally experiences less heat when the movement of the dryer increases, that is, when the dryer is moved more than at a weaker movement of the dryer or at a standstill of the dryer. The control of the heating power of the heater and the blower power of the fan and thus the dryer power or the air flow temperature depending on the measured movement is therefore a very simple and effective way to change the heat input to the object and adjust, in particular the subject from heat damage and Protect burns. In this case, an increase in the air flow temperature is achieved for example by increasing a heating power of the heater and / or by reducing a fan power of the fan. A reduction of the airflow temperature can be achieved, in particular, by reducing the heating power of the heating device and / or by increasing the blower output of the fan.

Generally, the dryer has a fan, such as a fan, and includes a heater, such as a heating wire, which heats the airflow generated by the fan. In addition, the dryer has the above-mentioned control, which allows variation of the heating power of the heater. A motion sensor is now attached to the dryer so that it measures a movement of the dryer, in particular an acceleration. For this purpose, the motion sensor is preferably located in the vicinity of an air outlet of the dryer. It is also conceivable, for example, an optical motion sensor. The motion sensor can be mounted on the dryer but also in the dryer, with internal motion sensors may have a heat protection, which protects them against any harmful heat effects of the dryer. The controller is coupled through a connection to the motion sensor. In addition, the controller is connected to the heater and configured to program upon a change in the movement of the dryer the heating power of the heater varies, in particular to change the dryer power or the air flow temperature and thus the heat input to the object. This can be realized, for example, by a variation of an electric current flowing through the heating wire.

Additionally or alternatively, it is conceivable that the controller controls the fan of the dryer in dependence of the movement / acceleration. The blower is for this purpose connected to the controller, wherein the controller varies the blower output of the blower depending on the measured movement of the dryer, in particular to change the dryer performance or the air flow temperature and thus the heat input to the object, for example to keep it equal. Such a change can be achieved in the case of the fan as a fan, by changing a speed of the fan.

It is also conceivable that both the heating device and the blower are controllable depending on the detected movement of the dryer. The controller varies the heating power of the heater and the blower power of the fan depending on the measured movement of the dryer either coupled or individually and depending or independent of each other, in particular to vary the dryer performance and the air flow temperature and thus the heat input to the object. Heater and fan may each be connected to a controller or both may be connected to and controlled by the same controller.

A further advantageous embodiment of the dryer additionally has a plurality of motion sensors. These are each mounted individually or together on or in the dryer. The motion sensors have connections to one or more controllers. The individual motion sensors can now be used, in particular by a comparison of the individual detected values of the respective motion sensors, to detect an accurate movement of the dryer. The individual motion sensors are optionally designed to measure different types of movements. For example, motion sensors may be present for movement along the airflow generated by the fan and / or perpendicular to this direction. Also conceivable are motion sensors, the one measure spatial movement. The controller now varies the heating power of the heater and / or the blower power of the fan depending on the measured movement to thereby control the heat input to the object. The heating power of the heater and the blower power of the fan may optionally be controlled depending on a measured motion of a single motion sensor or a combination of motion sensors or all motion sensors.

It should be noted that the respective connections between the controller and the heater or the blower and between the controller and the motion sensors are not necessarily made of an electrical conductor. Possible, for example, wireless connections and optical connections. It is further pointed out that in the presence of multiple controls or motion sensors, the controls or motion sensors can each have connections with each other. All connections can also have a return channel, in particular for matching between the individual components.

The motion-dependent control can be preferably activated and deactivated, and also dryers are conceivable, which have a combination of manual adjustment of the dryer performance and the motion-dependent control. The same applies to dryers with a temperature measuring device, which are designed such that they measure the air flow temperature and thus influence the variation of the heating power of the heater and / or blower power of the fan depending on the measured movement.

Other important features and advantages of the invention will become apparent from the dependent claims, from the drawings and from the associated figure description with reference to the drawings.

It is understood that the features mentioned above and those yet to be explained below can be used not only in the particular combination given, but also in other combinations or in isolation, without departing from the scope of the present invention.

Preferred embodiments of the invention are illustrated in the drawings and will be described in more detail in the following description, wherein like reference numerals refer to the same or similar or functionally identical components.

Fig. 1a

einen seitlichen Querschnitt durch einer möglichen Ausführungsform des erfindungsgemäßen Trockners,

Fig. 1b

eine stark schematisierte Darstellung des erfindungsgemäßen Trockners,

Fig. 2a,b

Flussdiagramme zu Erläuterung der Funktionsweise des erfindungsgemäßen Trockners.

Show, in each case schematically,

Fig. 1a

a lateral cross section through a possible embodiment of the dryer according to the invention,

Fig. 1b

a highly schematic representation of the dryer according to the invention,

Fig. 2a, b

Flow charts to explain the operation of the dryer according to the invention.

According to the Fig. 1a a dryer 1 according to the invention comprises at least one heating device 2, for example a heating wire, and at least one fan 3, here a fan, which are controllable by at least one controller 4, wherein the dryer 1 additionally comprises at least one motion sensor 5 which detects a movement of the Trockners 1 recorded. The designated components of the dryer 1 are housed in the embodiment shown in or on a housing 6. The at least one motion sensor 5 can communicate wirelessly with the controller 4, wherein a wired connection, in particular via a fiber optic cable, is conceivable. The housing 6 comprises an air duct section 7 and a handle 8. The air duct section 7 has openings on two opposite sides which direct an air flow 10 generated by the blower 3 through the air duct section 7. The openings can therefore be divided into an inlet opening 9 'and an outlet opening 9 "with respect to the air flow 10. The fan 3 and the heating device 2 are accommodated on the side of the inlet opening 9' of the air channel section 7, the fan 3 being closer to the inlet opening 9 is placed as the heating device 2. The motion sensor 5 is in the present case outside of the air duct section 7 on the side of the outlet opening 9 "attached. The controller 4 is located in the handle 8 and has no manual adjustment in the present embodiment. The handle 8 also has a connection 11 for power supply.

The controller 4 is, as in Fig. 1b shown coupled by connections 12 to the motion sensor 5, the heater 2 and the fan 3. The controller 4 is now programmed or designed such that it has a fan power of the blower 3, in particular a speed of a fan of the blower, and / or a heating power of the heater 2, in particular an electric current flowing through a heating wire, depending on the motion sensor 5 measured movement of the dryer 1 varies, in particular to change a dryer performance of the dryer 1 and a temperature of the air flow 10 and thus a heat input to an object to be dried. The respective changes in the heating power of the heater 2 and the blower power of the blower 3 can be independent or dependent on each other or individually.

• Fig. 2a zeigt hierbei ein mögliches Flussdiagramm zu Erläuterung der Funktionsweise des erfindungsgemäßen Trockners 1.

The controller 4 may now be programmed according to an advantageous use of the presented dryer 1 and the exemplified embodiment so that it works as follows:

• Fig. 2a shows a possible flow chart to explain the operation of the dryer 1 according to the invention.

The starting point 13 is started via a path 14 to a comparison section 15. In the comparison section 15, the current movement of the dryer 1 is compared with the last measured movement of the dryer 1. If an increase in the movement is detected, then a path 16 leads to an operation step 17, in that the heat output of the heating device 2 is expediently increased and / or the blower line of the blower 3 is reduced and the drying power or the airflow temperature is changed, in particular to vary a heat input to the object or to keep constant or adapt. These changes can be made in each case depending on or independently of each other or at the same time or with a time delay and thereby be in opposite directions, that is to say an increase in the heating power and a reduction in the fan power and vice versa. The changes can continue to be stepless or in stages. Subsequently, the whole returns via a path 18 to the starting point 13 and the matching starts again from the beginning.

If a decrease in the movement of the dryer 1 compared to the last measured movement is detected in the comparison section 15, the operation step 20 is initiated via a path 19, which now reduces the heating power of the heater 2 and / or increases the fan line of the fan 3 and thus the dryer output or the airflow temperature changes. The changes are made in a similar way to the previous paragraph. Subsequently, the whole returns via a path 21 to the starting point 13 and the matching is repeated.

If, on the other hand, no change in the movement of the drier 1 to the last measured movement is detected in the comparison section 15, there is no change in the heating power or the fan power and the sequence returns to the starting point 13 via a path 22 and is repeated.

In the method exemplified above by way of example, at least one threshold value for a movement change between the last measured movement and the currently measured movement is conceivable, whereby the execution of the operations 17 and 20 takes place only when this threshold value of the movement change is reached or exceeded. This is intended in particular to prevent an excessively frequent variation of the heating power of the heating device 2 and / or the blower output of the blower 3.

Fig. 2b shows an alternative or optional procedure. Here, the sequence begins again at the starting point 13 via the path 14 to the comparison section 15. In the comparison section 15, the movement of the dryer 1 is compared with the last measured movement. If there is a change in the movement, then a path 13 leads to an operation step 24. In this case, in the controller 4 or in an external unit, which is connected to the controller 4, appropriate heat outputs of the heating device 2 and / or fan lines of the fan 3 are stored for different movements. These values can be fixed as well as varied and in particular be changed by a user. In operation step 24, the heating power of the heating device 2 and / or the blower output of the blower 3 will now correspond to the values stored for the measured movement customized. These changes can be made dependent on or independently of one another and / or simultaneously or with a time delay and thereby be in opposite directions, ie an increase in the heating power and a reduction in the fan power and vice versa. Thereafter, the process returns to the starting point 13 via a path 25 and starts again. If no change in the movement is detected in the comparison section 15, the method returns via the path 22 to the starting point 13 and the sequence is repeated.

At the in Fig. 2b By way of example, at least one threshold value for the change of the movement is conceivable, wherein the execution of the operation 24 takes place only when this threshold value of the movement change is exceeded. This can be realized, in particular, by depositing heating powers of the heating device 2 and / or fan powers of the blower 3 for movement areas. Such a supplement is intended to prevent an excessively frequent variation of the heating power of the heating device 2 and / or the blower power of the blower 3, in particular with small changes in movement.

According to a further advantageous sequence, a measured airflow temperature of the airflow 10 generated by the dryer 1 is additionally taken into account. The controller now changes the heat output of the heater 2 and / or the blower power of the blower 3 depending on the measured movement until the measured air flow temperature corresponds to the desired air flow target temperature associated with the respective movement. The changes in the heating power and / or the fan power can be carried out depending on or independently of each other and / or simultaneously or with a time delay and thereby be in opposite directions, that is, a reduction of the heating power and an increase in the fan power and vice versa. The changes can be made steplessly or in stages.

Optionally, a maximum heating power and / or a minimum heating power of the heating device 2 can be predetermined in the processes presented above by way of example, with the heating power of the heating device 2 being increased or reduced until the maximum heating power or the minimum heating power has been reached. Likewise, a maximum blower output and / or a minimum blower output of the blower 3 can be predetermined, the blower output of the blower 3 being increased or reduced to the maximum blower output or the minimum blower power is reached. For this purpose, an unspecified adjustment can be provided. The maximum heating power and / or the minimum heating power and / or the maximum blower power and / or the minimum blower power can have fixed values or be variable and depend, for example, on external parameters. Also, a variable specification of these values by a user is conceivable, which adjusts these, for example, to one or more controllers. If a stepped increase or reduction of the respective outputs is provided, a corresponding maximum and / or minimum value of the heating power of the heating device 2 and / or the blower output of the blower 3 can be provided for each stage. Accordingly, a maximum temperature of the air flow 10 and / or a minimum temperature of the air flow 10 may be predetermined, wherein the heating power and / or the fan power is changed until the maximum temperature or the minimum temperature is reached.

It is understood that in the Fig. 2a. and Fig. 2b shown processes and the specifications described thus are arbitrarily combinable and lead to the same result.

Drawing reference list

1.

dryer

Second

heater

Third

fan

4th

control

5th

motion sensor

6th

casing

7th

Air duct section

8th.

Handle

9 '

inlet port

9 "

outlet

10

airflow

11

connection

12

connection

13

starting point

14

path

15

comparison section

16

path

17

operation step

18

path

19

path

20

operation step

21

path

22

path

23

path

24

operation step

25

path

Claims (9)

Hand-held dryer (1), in particular a hairdryer, with at least one fan (3) for generating an air flow (10), - At least one heating device (2) for heating the air flow (10) and a controller (4) for controlling the heating device (2) and / or the blower (3),
characterized, - That the dryer (1) has at least one motion sensor (5) which is communicatively connected to the controller (4), - That the controller (4) is designed such that it controls the heating device (2) and / or the fan (3) in response to a movement detected by the movement sensor (5). Dryer according to claim 1, characterized in that at least one of the motion sensors (5) has an acceleration sensor. Dryer according to claim 1 or 2, characterized in that the at least one movement sensor (5) in the region of an outlet opening (9 ") is arranged. Dryer according to at least one of claims 1 to 3, characterized in that the at least one motion sensor (5) communicates wirelessly with the controller (4). Dryer according to at least one of claims 1 to 3, characterized in that the at least one motion sensor (5) via a wire connection, in particular via a fiber optic cable, with the controller (4) communicates. Dryer according to at least one of claims 1 to 5, characterized in that the at least one movement sensor (5) within a housing (6) of the dryer (1) or on the outside of this is arranged. Dryer according to at least one of claims 1 to 6, characterized in that the controller (4) is designed such that it controls the fan power or the heating power or steplessly controlled in dependence on the measured movement. Dryer according to at least one of claims 1 to 7, characterized in that the at least one movement sensor (5) is designed for detecting spatial movements / accelerations. Dryer according to at least one of claims 1 to 8, characterized in that an adjusting device is provided, by means of which an upper and / or a lower blower power and / or heating power is adjustable / is.

Images