DE102015004062A1 - Air supply device for an air conditioning device in a motor vehicle - Google Patents

Abstract

The invention relates to an air supply device (10, 22) for an air conditioning device in a motor vehicle, having a touch-sensitive input element (12, 14) which is designed to provide a slide control function for setting a parameter of the air conditioning device, and an air supply nozzle. The touch-sensitive input element is arranged directly on the air supply nozzle.

Description

The invention relates to an air supply device for an air conditioning device in a motor vehicle, having a touch-sensitive input element which is designed to provide a slide control function for setting a parameter of the air conditioning device, and an air supply nozzle.

Modern motor vehicles, in particular electric vehicles or hybrid vehicles, have a large number of input options which allow the operation of the devices installed in the motor vehicle. Functions of an air conditioning device such as temperature, fan power and air flow, are nowadays still mostly controlled by electrical buttons, knobs and sometimes even mechanical controls. These controls are also often not placed in the immediate vicinity of the fan nozzles for assembly within an assembly and for design purposes, and have a variety of keys and switches for control. By such remote operation often result in ergonomic disadvantages such as poor visibility or clarity and / or complicated deflection from the controller itself to the fan nozzle. From the DE 10 2008 046 625 A1 is a control for operating air conditioning functions in a motor vehicle known. The control element allows the touch-sensitive control of air conditioning functions by means of sliders for controlling temperature, air flow or the like.

It is therefore an object of the present invention to provide an air supply device, which allows an intuitive and low-noise operation of functions of an air conditioning device.

This object is achieved by an air supply device having the features of patent claim 1. Advantageous developments of the present invention are the subject of the dependent claims.

The invention relates to an air supply device for an air conditioning device in a motor vehicle, with a touch-sensitive input element, which is designed to provide a slider function for adjusting a parameter of the air conditioning device and with an air supply nozzle. In this case, the touch-sensitive input element can react to a direct contact or, for example, can recognize an input as soon as an operating means in the form of a touch pen or a human finger approaches by means of capacitive sensors. For touch-sensitive screens (touch screens) so-called touch gestures are known, for example, simple finger movements such as pinching (sticking gesture) or spreading (spreading gesture) with two fingers.

According to the invention, the air supply device is developed in such a way that the touch-sensitive input element is arranged directly on the air supply nozzle. By means of the touch-sensitive input element in this case a reduction of mechanical operating elements can be achieved, this results in a lower risk of noise such as creaking, squeaking and the like. By combining the air supply device with an associated touch-sensitive input element fewer components are needed and thus reduces the number of possible sources of error or the risk of rejects.

In an advantageous embodiment of the air supply device, the air supply nozzle includes a lamella for guiding an air flow supplied through the air supply nozzle, wherein the touch-sensitive input element is operable on an end face of the lamella.

According to a further advantageous embodiment of the air supply device, the air supply nozzle includes a frame, which forms an outer contour of the air supply nozzle, wherein the touch-sensitive input element is operable on an end side of the frame.

In addition to greater design freedom in the interior, eliminating the typical controls of, for example, temperature controllers, blower amplifiers and air flow controllers, the operation or control of temperature, blower and air flow designed much more intuitive, since it is set where the effect occurs, namely The fan nozzle itself. The temperature, fan power and also the air flow rate can be directly sensed here, also the desired change is experienced immediately as feedback (temperature change / change of the blower power / air flow rate).

In a further advantageous embodiment, the air supply device has an optical display element which is designed to visually represent a parameter set via the input element, in particular in the form of a bar. As a result, a direct and immediate feedback of a set parameter is possible, whereby the operability is significantly improved. This makes it easy to determine whether and at what level the desired parameter has been set. It can be provided that the optical display element lights only during the duration of an operation, or for a Predefinable time after the operation still luminescent. It can also be provided that the display element is adjusted back to a Urhelligkeitspegel after the operation, preferably a cross-fading is realized with a predetermined function, for example, with a linear or exponential curve. As a result, it is also possible to provide the set parameter permanently optically for reading and thus to provide the same information as by a readable position of a mechanical operating element.

In a further advantageous embodiment, the visual display element is designed to represent the parameter as a function of a current value of the parameter by means of a color and / or brightness and / or length of a bar. This results in many possibilities of visualizing a set parameter. For example, it may be provided that the optical display element provides a bar whose end is always below the operating means located in the area of action of the input means. In other words, the displayed bar always follows directly the operating means, which moves over the optical display element or the input element. Alternatively or additionally, in this case also a brightness of the optical display element can be changed, for example a low brightness for a low parameter value and the greatest possible brightness for the largest possible parameter value that can be set. It can also be provided to intuitively understand the set parameter by varying a displayed color.

For example, a small parameter value with the color blue and a high parameter value with the color red can be displayed, whereby the color change from blue to red can be made steplessly by means of a soft fading process. Preferably, the blade for controlling the temperature may have a display which can change the color, for example blue light for cold air and red light for warm air. In particular, it can be provided to use the different possibilities of the parameter representation with one another in any desired combination.

In a further advantageous embodiment, the parameter relates to an adjustment of a temperature controller, a blower power controller and / or an air flow controller. Fan nozzle fins or fan nozzle frame with integrated touch-sensitive input element for realizing a so-called capacitive touch screen function, for example, the control of temperature, fan power or air flow or other relevant for the air conditioning control functions take over. The operation takes place directly at the fan nozzle, at which also a setting is to be changed.

In a further advantageous embodiment, the air supply device has a plurality of input elements, which are each assigned to a setting parameter. As a result, a multiple occupancy of the same control panel is possible, for example, on the one hand for temperature control and, for example, on the other hand to the blower control. In this case, the plurality of input elements may be distributed over a plurality of fins of the air supply device, wherein, for example, the air inlet of the respective nozzle is controlled via the topmost fin, for example, the temperature of the respective nozzle is controlled via a central lamella and the lowest lamella, for example, the blower power of the respective Nozzle is controlled. It can also be provided, depending on a number of available slats an air supply means those slats, which carry an input element and / or an optical display element to arrange so that a targeted operation of a single input element is made possible without the risk of incorrect operation by unintentional activation of a adjacent input element. Likewise, any combination with the frame of the air supply device is possible. Moreover, it can also be provided that an assignment of the input elements to the respective setting parameters can be made by the user himself depending on personal preference.

According to a further advantageous embodiment, the air supply device can be coupled to a further air supply device for jointly controlling the parameter or the parameters with respect to the air supply nozzle and with respect to a further air supply nozzle belonging to the further air supply device. Thus, for example, from an air supply nozzle and all other air supply nozzles are controlled synchronously or individually.

In a further advantageous embodiment, a haptic adjustment aid is formed on the touch-sensitive surface of the air supply device, in particular by a rib structure or corrugation. Such fine sensing ribs may allow for a more precise feel of the adjustment.

Further advantages, features and details of the invention will become apparent from the following description of preferred embodiments and from the drawings. The features and feature combinations mentioned above in the description as well as those mentioned below in the figure description and / or in the Figures alone shown features and feature combinations are not only in the combinations specified, but also in other combinations or alone, without departing from the scope of the invention.

Showing:

1 a schematic representation of a round and a rectangular air supply device with three different inputs,

2 a schematic representation of another embodiment of an air supply device with an optical display element with three different levels set, and

3 a schematic representation of further embodiments of an input via the frame of the respective air supply device.

An air supply device 10 as shown in 1 has an exemplary marked lamella 12 of a total of three blades, which within a frame 14 are arranged. For non-designated elements, which recognizably correspond to the elements designated in previous representations, the same reference numerals, in particular for the 2 and 3 ,

In the case of a first input a, a touch-sensitive input element of the lamella is produced by means of an operating means, which is shown here symbolically as the index finger of a hand 12 actuated. This operation has a first display 16 result, in the embodiment of the left of the control element lying part of the blade 12 red lights up. As the control element is moved, the length of the red glowing bar also changes, as indicated by a double arrow. By stroking the topmost slat, for example, the air supply of the respective nozzle is controlled. For example, by swiping to the right, the air supply can be increased and lowered again by swiping to the left until the nozzle is completely closed. Of course, the mode of operation can also be designed the other way around or it can also be laid on another slat.

In a second input b, an actuation of the touch-sensitive input element of the middle slat takes place, wherein the feedback via a second display 18 he follows. Corresponding to a double arrow shown, when moving to the left, the color shown is changed in the direction of blue, and in the case of a movement to the right, starting from the position shown, the color is changed toward red. By stroking over the middle lamella, the temperature of the respective nozzle is controlled. For example, by swiping to the right, the temperature can be increased and lowered again by swiping to the left. The mode of operation can of course be interpreted the other way around, or be relocated to another slat.

For a third input c, the lowest slat is actuated by three slats. A third ad 20 is similar to the first ad 16 educated. By stroking over the lowest lamella, for example, the blower power of the respective nozzle is regulated. For example, by swiping to the right, the blower power can be increased and reduced again by swiping to the left, especially to zero. Of course, the mode of operation can also be designed the other way round or even laid on another slat.

A likewise in 1 illustrated air supply device 22 points in contrast to the round air supply device 10 a rectangular profile with rounded corners. Furthermore, it is above the third ad 20 at the air supply device 22 the size relationship between the parameter and the third display 20 symbolically represented above the double arrow.

2 shows a further embodiment of an air supply device 24 at a setting in three different stages, namely a first stage I, a second stage II and a third stage III. The active input element and the active display element are in this case arranged on the middle lamella and correspond to n the type of representation of the first display 16 or the third ad 20 , At the air supply device 24 It can easily be seen that a red-shining bar extends to the left of the input means up to a left edge of the middle louver, which length is correspondingly adjusted with increasing movement of the input means to the right in accordance with the second stage II or the third stage III. Thus, the input means (index finger) in the first stage I on the touch-sensitive input element, which extends over the entire area of the corresponding blade, viewed at about 30 percent from the left, in the second stage II at about 55 percent and in the third stage III at about 90 percent. Similarly, the corresponding lengths of the illustrated light bar, which extends from the left edge of the blade to the position of the input means, in the first stage I at 30 percent, in the second stage II at 55 percent and in the third stage III at 90 percent of the available length. Similar to the air supply device 10 in 1 can also with the air supply device 24 in 2 the adjustment can be made in a stepless manner instead of the above-described three-stage manner and can also be the length of the illustrated light beam, the corresponds to a respective setting, be changed continuously.

In an alternative embodiment of an air supply device 26 the representation by the optical display element on the middle lamella is not effected by a change in the length of a light bar, but by a changing color, for example from blue to red. The positions of the operating means in the respective stages I, II and III are identical to the embodiment of the air supply device 24 , Accordingly, in the first stage I results in a light band, which extends from the left edge of the middle lamella to the right edge of the middle lamella and has a blue color. In the second stage II, the light band has a bright red color. In the third stage III, the light band over the entire length of a dark red color.

A representation according to the air supply device 24 is for example advantageous for controlling the air supply or the blower power, whereas the air supply device 26 , which is the second ad 18 corresponds, is particularly advantageous for the representation of a temperature. The input options over the frame 14 of air supply facilities 28 and 30 are in 3 exemplified. Thus shows an embodiment in the form of an air supply device 28 an input option on a round frame 14 on which an operating means is shown in a clockwise direction, that is to say in the case of an input to the right R, or in the counterclockwise direction, that is to say in the case of an input L on the left.

In a further embodiment in the form of an air supply device 30 with a rectangular frame 14 finds an entry on the horizontal lower part of the frame 14 from left to right instead. Alternatively or additionally, also on the right, vertical part of the frame 14 be realized a Touchslider function. An input on the left L always shows the input in the opposite direction. Furthermore, it can also be provided to implement a touch gesture control by means of two fingers, so that an associated parameter is increased when spreading the two active fingers and is reduced when the two fingers are pinched together.

The embodiments are only illustrative of the invention and are not limiting for these. Thus, of course, the input elements and the display elements can be arbitrarily arranged and configured without departing from the spirit of the invention.

Thus, it has been shown above how a reduction of mechanical controls can be achieved by capacitive fan nozzle rings and / or fins and thereby less risk of noise such as creaking, squeaking and so on occurs and fewer sources of error or rejects due to less required components arise. In particular, the multiple occupancy of one and the same control panel has been shown, for example, on the one hand for temperature control and on the other hand for blower control.

LIST OF REFERENCE NUMBERS

10

Air supply means

12

lamella

14

frame

16

first ad

18

second display

20

third ad

22

Air supply means

24

Air supply means

26

Air supply means

28

Air supply means

30

Air supply means

a

first input

b

second input

c

third input

I

first stage

II

second step

III

third step

R

Enter right

L

Input on the left

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102008046625 A1 [0002]

Claims (9)

Air supply device ( 10 . 22 . 24 . 26 . 28 . 30 ) for an air conditioning device in a motor vehicle, comprising - a touch-sensitive input element ( 12 . 14 ) which is adapted to provide a slider function for setting a parameter of the air conditioning apparatus, and - an air supply nozzle, characterized in that - the touch-sensitive input member is disposed directly on the air supply nozzle. Air supply device ( 10 . 22 . 24 . 26 . 28 . 30 ) according to claim 1, characterized in that the air supply nozzle a lamella ( 12 ) for directing an air flow supplied through the air supply nozzle, wherein the touch-sensitive input element at an end face of the slat (FIG. 12 ) is operable. Air supply device ( 10 . 22 . 24 . 26 . 28 . 30 ) according to any one of the preceding claims, characterized in that the air supply nozzle comprises a frame ( 14 ), which forms an outer contour of the air supply nozzle, wherein the touch-sensitive input element at an end face of the frame ( 14 ) is operable. Air supply device ( 10 . 22 . 24 . 26 . 28 . 30 ) according to one of the preceding claims, characterized in that the air supply device ( 10 . 22 . 24 . 26 . 28 . 30 ) an optical display element ( 16 . 18 . 20 ), which is designed to be connected via the input element ( 12 . 14 ) set visual parameters, in particular in the form of a bar. Air supply device ( 10 . 22 . 24 . 26 . 28 . 30 ) according to claim 4, characterized in that the optical display element ( 16 . 18 . 20 ) is adapted to represent the parameter in dependence on a current value of the parameter by means of a color and / or brightness and / or length of a bar. Air supply device ( 10 . 22 . 24 . 26 . 28 . 30 ) according to one of the preceding claims, characterized in that the parameter relates to an adjustment of a temperature controller, a blower amplifier controller and / or an air flow controller. Air supply device ( 10 . 22 . 24 . 26 . 28 . 30 ) according to one of the preceding claims, characterized in that the air supply device ( 10 . 22 . 24 . 26 . 28 . 30 ) has a plurality of input elements, which are each assigned to a setting parameter. Air supply device ( 10 . 22 . 24 . 26 . 28 . 30 ) according to one of the preceding claims, characterized in that it is provided with a further air supply device ( 10 . 22 . 24 . 26 . 28 . 30 ) for jointly controlling the parameter (s) with respect to the air supply nozzle and with respect to one of the further air supply means ( 10 . 22 . 24 . 26 . 28 . 30 ) belonging additional air supply nozzle can be coupled. Air supply device ( 10 . 22 . 24 . 26 . 28 . 30 ) according to one of the preceding claims, characterized in that on the touch-sensitive surface of the air supply device ( 10 . 22 . 24 . 26 . 28 . 30 ) A haptic adjustment aid is formed, in particular by a rib structure or corrugation.

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