DE102015221927A1 - Operating unit, in particular for a vehicle component - Google Patents

Abstract

An operating unit that is particularly suitable for a vehicle component, such as a vehicle component. a heating, ventilation and / or air conditioning is provided, with a housing (12) having a front wall (14) and a control element (16) for manual operation for triggering an operating function and / or for setting a parameter of an operating function Mistake. The operating element (16) on the front wall (14) is displaceably guided between at least two actuating positions (A, B, C, D, E). Each actuation position (A, B, C, D, E) is assigned a different operating function and / or a different parameter setting to a possibly different operating function. By actuating the operating element (16) which is manually transferred to one of the actuation positions (A, B, C, D, E), the operating function assigned to the relevant actuation position (A, B, C, D, E) can be triggered and / or converted into a parameter Operating function adjustable.

Description

The invention relates to an operating unit for in particular a vehicle component, wherein the operating device is provided in particular for a radio, a CD and / or DVD player, a navigation device, an infotainment device, a heating, ventilation and / or air conditioning or a human-machine interface.

Operating devices for manual adjustment / specification of operating parameters and operating functions in electrical devices or components are known in various configurations. Such operating devices have a plurality of operating elements, which are arranged on, for example, the front wall of a housing in different positions. The more operating functions and / or parameter settings are desired, the greater the number of operating elements, which increases the effort for the production of the operating device.

The object of the invention is to provide an operating unit for a particular vehicle component, which has a reduced number of controls without reducing the number of settings.

• – einem Gehäuse, das eine Vorderwand aufweist, und
• – einem Bedienelement zur manuellen Betätigung zwecks Auslösens einer Bedienfunktion und/oder zwecks Einstellens eines Parameters einer Bedienfunktion,
• – wobei das Bedienelement an der Vorderwand zwischen mindestens zwei Betätigungspositionen verschiebbar geführt ist,
• – wobei jeder Betätigungsposition eine andere Bedienfunktion und/oder eine andere Parametereinstellung einer ggf. anderen Bedienfunktion zugeordnet ist und
• – wobei durch Betätigung des manuell in eine der Betätigungspositionen überführten Bedienelements die der betreffenden Betätigungsposition zugeordnete Bedienfunktion auslösbar und/oder ein Parameter einer Bedienfunktion einstellbar ist.

To solve this problem, the invention an operating unit is proposed in particular for a vehicle component such as a heating, ventilation and / or air conditioning, wherein the control unit is provided with

• A housing having a front wall, and
• A control element for manual actuation for triggering an operating function and / or for setting a parameter of an operating function,
• - Wherein the operating element is displaceably guided on the front wall between at least two actuating positions,
• - Each operating position is assigned a different operating function and / or a different parameter setting of a possibly different operating function and
• - In which the operating position associated operating function triggered by actuation of the manually transferred to one of the operating positions control element and / or a parameter of an operating function is adjustable.

With the invention will suggest mutatis mutandis, by shifting one and the same control on z. B. the front wall of a housing to be able to approach different operating positions of the control element on the housing, wherein the various operating positions different operating functions and / or parameter settings that can be made when taking the appropriate operating positions by the control. Depending on the position of the control element in particular three-dimensional space thus changes the type of variable in each approached operating position function (ON / OFF state and / or BIGGER / LESS setting of a parameter, seat heating, air distribution, temperature, blower levels, etc .). In this case, the formation of the operating element itself can be arbitrary. Thus, for example, a turntable, a button, a rocker switch, a touch surface or combinations of these as training of the movable control element possible. The number of positionable control elements per device according to the invention results from the device complexity (range of functions), the possible functional aggregation and the operating logic.

As mentioned above, therefore, at least one operating element of the operating unit according to the invention can be displaced along at least one axis (straight or curved line), in particular on the front wall of the housing. As a rule, this displacement axis is, for example, a horizontal axis, with the displaceability of the operating element along two axes being able to be the second axis, for example a vertical axis. In the third dimension, the control element can also be conveniently converted by the control element in addition to its displaceability substantially perpendicular to this in at least one parallel to the front wall displacement plane movable and displaceable in this at least one additional displacement plane between at least two actuation positions or between the at least two actuation positions is, wherein each actuation position of each shift plane is assigned a different operating function and / or another parameter setting of a possibly other operating function and actuated manually by the operation in an operating position of a shift plane control operating element of the respective operating position and shift plane associated operating function and / or a parameter this or a control function is adjustable. The transfer into a level parallel to the front wall (front wall level) displacement plane, for example, by depressing or pulling the control element, in which case the operating element in this state or this position is again displaced. The state of depression or pulling of the operating element can be maintained automatically, so that the operating element has to be transferred manually again into the front wall plane or, in general terms, into the output sliding plane. In that regard, it may be advantageous if the operating element is automatically returned to the front wall level after movement in a parallel to the front wall displacement plane.

There are various ways to guide the control on the front wall and / or in each of the shift planes. Embodiments for this purpose are mechanical and / or magnetic holding and guiding devices. Magnetic holding and guiding devices usually have a guide slot or the like. Guide slot or groove on. Magnetic holding devices permanently comprise magnets which hold the operating element magnetically fixed to the front wall.

It may be expedient if the operating element is mechanically and / or magnetically fixed in the respective actuation position in the manner of a detent.

In a further advantageous embodiment of the invention, a sensor unit may be provided by means of which it can be detected that the displaceable operating element has assumed one of a plurality of actuation positions. In addition, the sensor unit can also serve to detect the displacement plane in which the control element is currently located.

With the invention, therefore, a novel operating concept is proposed by one and the same control element at different locations, for example, the front wall of a housing can be positioned, by means of the control in each of the operating positions a different operating function selectable and / or another parameter setting is vornehmbar. The advantage of this concept is that only one unit must be present for the operation detection of the operating element, which recognizes, for example, whether the operating element has been rotated or pressed in training as a turntable or Drehdrücksteller. This reduces the hardware overhead for sensing a control actuation.

The invention will be explained in more detail with reference to the drawing. In detail:

1 and 2 schematically two embodiments of the possibilities of displaceability of a turntable on the front wall of a housing,

2 and 4 Front views of two embodiments of front panels to illustrate the displacement of a rotary control element in one of four operating positions, in each of which other operating functions / parameter settings can be selected / made,

5 and 6 Front and cross-sectional views of another embodiment for the structural implementation of the longitudinal displacement of a rotary control element,

7 and 8th a further embodiment in front and cross-sectional view of the structural design of the longitudinal displacement of a rotary control element,

9 and 10 a third Ausfühungsbeispiel in front and cross-sectional view of the structural design of the longitudinal displacement of a rotary control element and

11 and 12 a final embodiment in front and cross-sectional view of the structural design of the longitudinal displacement of a rotary control.

Hereinafter, several embodiments of the invention will be described, wherein, as far as possible, the same elements are provided with the same reference numerals.

Depending on the position of an operating element in three-dimensional space, the type of operating and / or parameter setting function that can be changed with respect to its state (ON, OFF) and / or its characteristic (GREATER, SMALLER) changes according to the invention for example. As a seat heating, the air distribution, the temperature, the blower stage, etc. while the type of control itself can be arbitrary such. As a turntable, a rotary / push button, a button, a tilt and / or rocker switch, a touchpad or combinations thereof. The number of positionable control elements per control unit according to the invention results from the device complexity (range of functions), the possible functional aggregation and the operating logic.

In 1 is schematically an operating unit 10 with a housing 12 and a front wall 14 shown on a trained in this embodiment as a turntable control 16 slidably guided. In this embodiment, the operating element 16 exemplarily take one of three positions A, B and C, wherein in 1 it is shown that the operating element 16 the middle position B occupies. The operating element 16 is along the displacement axis 18 displaceable. In each of the three operating positions A, B and C can be with the rotatable and / or additionally depressible control 16 select another operating function and / or make another parameter setting.

2 shows a control unit 10 ' which also has a housing 12 with a front wall 14 has on a likewise designed in this embodiment as a turn / push button control element 16 along two orthogonal to each other extending displacement axes 18 . 20 is displaceable. In addition, the operating element 16 in the direction of a third axis 22 that are orthogonal to the other two axis 18 . 20 runs, depressible and / or drag. Along the front wall level 24 in which the control element 16 in the illustration according to 2 located, as well as in each parallel sliding plane, in which the control element 16 when pressed or pulled, the control element can 16 take one of four or five operating positions A, B, C, D and E. Due to the additional degree of freedom of depression or drag of the operating element 16 The number of functions which can be set with a single control element in n (in this exemplary embodiment n = five) can be significantly increased. Thus, in three positions with an easy-to-turn knob (two shift levels) instead of three functions six different functions can be set. And thus, for example, in the positions for the temperature setting of a heating or air conditioning additionally a direct individual air distribution for driver and front passenger can be realized. By multiple operation (toggling) of the rotary push button can be added to other functional levels depending on the operating position, which can be used for example for individual temperature adjustment and air distribution and / or for different levels of driver and passenger blower levels.

In the 1 and 2 , in which for the same elements of the respective operating units shown 10 and 10 ' the same reference numerals are used is at 26 each shown a sensor unit whose output signal from an evaluation 28 is processed. By means of the sensor unit 26 can be the current of the control 16 capture occupied actuation position per shift plane. This will be in the evaluation unit 28 processed accordingly, then by twisting or otherwise operating the control element 16 what about a detector 29 It can be recognized to execute the operating function or parameter setting assigned to the respective actuation position and displacement plane.

In 3 is an example of another schematic representation of a control concept with only one turntable 16 shown in one of four different rotary actuator operating positions A, B, C and D along a line 18 is convertible. In the illustration according to 3 is the control element (in the form of the turntable) in the operating position B, in which the air distribution is manually adjustable. Becomes the operating element 16 shifted in the operating position A, for example, the temperature on the driver's side can be adjusted. Accordingly, the temperature for the passenger side can be adjusted when the operating element 16 is moved to the D position. In position C can be by means of the control element 16 set different blower levels. Thus, it is possible for the operating unit 10 '' of 3 on the front wall 14 of the housing 12 to work with a reduced number of controls (a single control element for the setting of four functions or four operating parameters), without limiting the functionality of the operating unit executed in this embodiment as a climate control unit. The above-mentioned logic for determining the displacement and actuation position of the operating element 16 exists here too.

• – Temperatur: 2 getrennt einstellbare Temperaturen
• – Luftverteilung (im Uhrzeigersinn): Frontscheibe, Mann-Anströmer Kopf, Mann-Anströmer Fuß, Front + Mann-Anströmer Kopf + Fuß Zwischenstufen: Kombinationen der Luftverteilung im prozentualen Verhältnis 75/25; 50/50; 25/75 (im Uhrzeigersinn)
• – Gebläse (im Uhrzeigersinn): Stufe 0 bis 5 mit Zwischenstufen, Defrost Frontscheibe, OFF (Gerät aus)
• – Weitere Funktionen Auto-Funktion zweistufig, Heckscheibenheizung, Standheizung, Fronscheibenheizung, Umluft mit Auto-Funktion (Luftqualitätssensor), SYNC (Vereinheitlichung der eingestellten Temperaturen), dreistufige Sitzlüftung & Sitzheizung für Fahrer & Beifahrer, A/C (Klimakompressor On/Off), A/C_Max (Kühlung auf maximaler Stufe)

As can be seen from the above, can thus be with the in 3 exemplified inventive operating concept realize the following functions:

• - Temperature: 2 separately adjustable temperatures
• - air distribution (clockwise): windscreen, man-bleeding head, man-bleeding foot, front + man-bleeding head + foot Intermediate stages: combinations of the air distribution in the percentage ratio 75/25; 50/50; 25/75 (clockwise)
• - Blower (clockwise): Levels 0 to 5 with intermediate stages, defrost windscreen, OFF (device off)
• - Other functions Auto-function two-stage, rear window heating, auxiliary heating, front panel heating, air circulation with auto-function (air quality sensor), SYNC (standardization of set temperatures), three-stage seat ventilation & seat heating for driver & passenger, A / C (air conditioning compressor On / Off), A / C _Max (cooling at maximum level)

In 4 is another example of the arrangement of controls on the front wall 14 of the housing 12 a control unit 10 ''' shown. In contrast to 3 can turn the turn designed as a turntable control 16 in this case along a curved line 18 Move to one of the positions A, B, C and D. The above-mentioned logic for determining the displacement and actuation position of the operating element 16 exists here too.

• – der Zuordnung mehrerer Funktionsarten zu ein und demselben Bedienelement, wobei diejenige Funktionsart, die mit dem Bedienelement ausführbar ist, der jeweiligen Verschiebeposition des Bedienelements zugeordnet ist,
• – einer Reduzierung der Anzahl an Bedienelementen bei gleicher Anzahl an Funktionen gegenüber herkömmlichen Bedienkonzepten, der Steigerung des Umfangs an Funktionen und Individualisierung gegenüber herkömmlichen Bedienkonzepten bei gleichem Bauraum,
• – der Vereinfachung der Bedienung und Bedienlogik von Systemen und
• – der Schaffung einer Vielzahl von neuen möglichen Bedienlogiken.

The field of application for the implementation of the invention relates to the operation of systems of all kinds with man-machine interface both in the automotive sector and outside it. The technical benefits of the invention can be seen in

• The assignment of a plurality of functional types to one and the same operating element, wherein the type of function that can be carried out with the operating element is assigned to the respective displacement position of the operating element,
• A reduction in the number of operating elements with the same number of functions compared to conventional operating concepts, the increase in the scope of functions and individualization compared to conventional operating concepts with the same installation space,
• - Simplification of operation and operation logic of systems and
• - the creation of a multitude of new possible operating logics.

In a purely aesthetic and comfort perspective can be regarded as a virtue of the operating concept according to the invention that a single control element, in particular in the form of a rotary / push button as a central and thus formative design for eye-catching in the vehicle interior and to support new operating concepts towards an experience product or lifestyle Objects as this is particularly advantageous in human-machine interface concepts.

• – verschiedene Führungskonzepte eines zentralen Bedienelements in sichtbarer und/oder nicht sichtbarer Ausführung (siehe weiter unten),
• – Display im zentralen Bedienelement,
• – Bedienelement mit Taste, Wippe, Drehsteller, Dreh/Drücksteller, usw.,
• – Tasten im Drehsteller,
• – auf Sensorik reagierende Bedienelemente in Form von Touchpads bzw. mit selbständig über Aktuatoren verfahrbaren Bedienelementen,
• – personalisierbares zentrales Bedienelement.

There are various expansion possibilities of the inventive concept. Which includes:

• - different management concepts of a central operating element in visible and / or invisible execution (see below),
• - display in the central control element,
• - control element with button, rocker, turntable, turn / push button, etc.,
• - buttons in the turntable,
• - Sensing responsive controls in the form of touchpads or independently via actuators movable controls,
• - Personalizable central operating element.

Based on 5 to 12 four guide concepts for control elements which can be positioned according to the invention will be explained below, each concept being shown schematically in a plan view of, for example, the front panel of an operating device and in a cross-sectional view.

A first management concept is in the 5 and 6 shown. Here, the front panel or front wall 14 an example bulging area 14 ' on which a guide carriage 30 is arranged linearly displaceable. Behind the front wall 14 and thus in the housing is a mechanical linear guide unit 32 by means of a driver element 34 that's over a gap 36 on the front wall 14 is led out through this, with the guide carriage 30 mechanically connected. By means of a rotary bearing 38 is on the guide carriage 30 a rotary control 16 rotatably mounted. The rotational movement of the operating element 16 is in a manner not shown by a rotary detector 40 recorded and an evaluation unit 28 communicated. The signal of the rotary detector 40 can z. B. on grinder concepts or the like. from the front of the front wall 14 through the gap 36 can be "transferred" into the interior of the HMI device, which is not shown in detail. The evaluation unit 28 is also equipped with a sensor unit 26 connected to the sliding position of the operating element 16 detected. The multiple operating positions associated with the control 16 can be approached are in 5 not shown in detail.

The advantage of the leadership concept according to the 5 and 6 is that the mechanical guidance of the operating element is not visible because it is routed inside the HMI device.

The 7 and 8th show a second management concept, in which the mechanical guide unit 32 on the front wall 14 is visible. For this purpose, the guide carriage surrounds 30 , which is the rotatable control 16 possibly with rotary detector (not shown) carries, an upper and a lower guide groove 42 from above or from below. About a hidden, arranged at the bottom of one of the guide grooves gap 36 can be the information about the rotational position of the control 16 inside the housing to the displacement position sensor unit 26 , the rotary detector 40 and the evaluation unit 28 exhibiting logic.

A next management concept is in the 9 and 10 shown. Again, the longitudinal guide of the control element 16 on the front wall 14 visible, noticeable. The guide carriage 30 protrudes through a longitudinal opening 44 the front wall 14 from the inside out, being behind the front wall 14 at the leadership unit 32 is mechanically guided. The area of the longitudinal opening 44 left or right of the control 16 in its currently occupied position is by a sliding aperture 46 locked. Also in this management concept is a logic from the displacement position sensor unit 26 , the rotary detector 40 and the evaluation unit 28 intended.

In the 11 and 12 Finally, a final management concept is shown. This is behind the front wall 14 on the back of a ferromagnetic layer 48 , The guide carriage 30 know permanent magnets 50 on, by means of which the guide carriage 30 at the front of the front wall 14 is held magnetically. Sliding elements 52 serve the better sliding of the guide carriage 30 on the front of the front wall, which, like the front walls or surfaces of the other guide concepts and embodiments of the 1 and 10 scratch resistant, which z. B. by an appropriate surface treatment, coating or the like. can be done.

The guide carriage 30 in turn carries the (rotary) control 16 , The rotation of the control element 16 becomes magnetic on a shaft 54 transmitted, which is arranged inside the HMI device. For the magnetic transmission is a spring-mounted shaft 56 on the guide carriage 30 used by the control 16 is rotated when the control element 16 is turned. The magnetic rotary coupling of both shafts 54 . 56 takes place for. B. by permanent magnets 58 . 60 ,

As based on 11 can be seen, the control element can be 16 in one of three operating positions A, B and C transfer. In each of these three positions, the front wall 14 a detent recess 62 on, in by the spring 64 spring-loaded shaft 56 of the guide carriage 30 that from the control 16 is rotated at the rotation, dips restively.

In the management concept according to 11 and 12 Thus, both the holder of the control element takes place 16 as well as the transmission of its rotation inside the HMI device magnetic. For this purpose, one operating shaft per actuation position 54 provided in the control unit, which is coupled to a separate detector for detecting a rotation of the shaft, which is not shown further. Furthermore, a logic from the displacement position sensor unit is also in this management concept 26 , the rotary detector 40 and the evaluation unit 28 intended.

LIST OF REFERENCE NUMBERS

10

 operating unit

10 '

 operating unit

10 ''

 operating unit

10 '' '

 operating unit

12

 Housing of the operating unit

14

 Front wall of the housing

14 '

 bulging area of the front wall

16

 depressible control element

18

 displacement axis

20

 displacement axis

22

 displacement axis

24

 Front wall plane

26

 sensor unit

28

 evaluation

29

 detector

30

 guide carriage

32

 Linear guide unit

34

 dogging

36

 gap

38

 pivot bearing

40

 rotation detector

42

 guide

44

 longitudinal opening

46

 cover

48

 ferromagnetic layer

50

 permanent magnet

52

 Slide

54

 wave

56

 wave

58

 permanent magnet

60

 permanent magnet

62

 latching depression

64

 feather

A, B, C, D, E

Operating positions of the operating element

Claims (10)

Operating unit, in particular for a vehicle component, such as a heating, ventilation and / or air conditioning system, with - a housing ( 12 ), which has a front wall ( 14 ), and - a control element ( 16 ) for manual actuation for triggering an operating function and / or for setting a parameter of an operating function, - wherein the operating element ( 16 ) on the front wall ( 14 ) is displaceably guided between at least two actuation positions (A, B, C, D, E), wherein each actuation position (A, B, C, D, E) assigns a different operating function and / or a different parameter setting to a possibly different operating function and - wherein by operating the manually in one of the actuating positions (A, B, C, D, E) transferred control ( 16 ) the operating position (A, B, C, D, E) associated operating function can be triggered and / or a parameter of an operating function is adjustable. Operating unit according to claim 1, characterized in that the operating element ( 16 ) in addition to its displaceability substantially perpendicular to it in at least one of the front wall ( 14 ) parallel sliding plane and in this at least one additional displacement plane between at least two actuation positions (A, B, C, D, E) or between the at least two actuation positions (A, B, C, D, E) is displaceable, each actuation position ( A, B, C, D, E) each shift level is assigned a different operating function and / or a different parameter setting of a possibly different operating function and wherein by actuating the manually in an operating position (A, B, C, D, E) of a shift plane transferred control element ( 16 ) the operating position and shift plane associated operating function can be triggered and / or a parameter of this or an operating function is adjustable. Operating unit according to claim 2, characterized in that the operating element ( 16 ) after movement in a plane parallel to the front wall displacement plane automatically in the front wall level ( 24 ) is traceable. Control unit according to one of claims 1 to 3, characterized in that the operating element ( 16 ) is a depressible button, a tilt or rocker button, a rotary ring, a knob or a touchpad. Control unit according to one of claims 1 to 4, characterized in that the operating element ( 16 ) is held mechanically or magnetically on the front wall and / or in each of the displacement plane. Operating element according to one of claims 1 to 5, characterized in that the operating element ( 16 ) is mechanically and / or magnetically fixed in the respective actuation position in the manner of a detent. Control unit according to one of claims 1 to 6, characterized by a sensor unit ( 26 ) for detecting the taking of an actuation position (A, B, C, D, E) by the operating element ( 16 ) and possibly in addition to the detection of the displacement plane in which the control element ( 16 ) is currently located. Control unit according to one of claims 1 to 7, characterized by an evaluation unit ( 28 ), the signals from a sensor unit ( 26 ) for detecting the movement position of the operating element ( 16 ) receives. Control unit according to claim 8, characterized by a detector for detecting the operating position of the operating element ( 16 ). Control unit according to claim 9, characterized by a in the case of the design of the operating element ( 16 ) Rotary detector present as a turntable ( 40 ) for detecting the rotational position of the turntable.

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