DE202010000259U1 - Operating element with setting wheel or sliding element - Google Patents

Abstract

Operating element, comprising a rotatable adjusting wheel, or a sliding element with a thereto or on a hereby connected locking element having at least over a circumferential or longitudinal portion locking grooves, in which a locking lug or a locking cam on a detent spring which is mounted in a contour of the housing is, when turning the adjusting wheel or when moving the sliding element engages detent, characterized in that the detent spring is a bridge spring (3) whose two lateral ends (2) mutually curved ends, the floating in the contour of the housing (5) are, wherein the bearing ends (2) are at least partially supported by the contour (1) on the outside, that the locking projection (6) or the locking cam is centrally above the connecting part of the two lateral ends (2) outwardly protruding or formed and formed in a locking groove or recess dips or against a stepped switching edge (9 ) of a paragraph moves and when turning the adjusting wheel (13) or when moving the sliding element (11, ...

Description

The The invention relates to an operating element, comprising a rotatable setting wheel, or a sliding member with or provided therewith connected locking element, the at least one Has circumferential or longitudinal section locking grooves, in the a latching lug or a locking cam on a detent spring, which in one Contour of the housing is stored, when turning the thumbwheel or engages detent when moving the sliding element.

controls the generic type are in different Executions known. Such controls are for used, electrical switching elements or louvers when turning or Pushed to operate. The detent springs are made of one first abutment level in at least one second abutment level on the locking element spent. In one level is z. B. the switch is closed, in the second level is provided as a contact spring detent spring pivoted so far that made contact with a mating contact becomes. The springs can also have switching cams, so that these in recesses in the locking element of the rotary wheel grab or rest on a separate actuating track and engage in groove-shaped recesses or from it can also be turned out again.

It is also possible, the same principle with sliding elements to use. The slider points while on with the sliding element slidable locking element to a lower operating level, which is either stepped or provided with recesses into which Switching cam engage a detent spring or from which the Detent spring is swung out again in the displacement plane. Such springy Elements are also used to provide haptic feedback to realize a serving person, as for example with adjusting wheels for adjusting flaps in air nozzles be used. By locking in the recesses on the circumference of the control wheel or the adjusting wheel or on the sliding surface the detent is felt by the operator. One Disengagement is only possible by applying an increased rotation or sliding force component possible. This haptic feedback has the advantage that the operator can roughly estimate in which position the operating wheel or slider is located. This can additionally by a sliding scale or numbering visually vis-à-vis a viewing window become.

Examples of a control element with a mechanical detent that allow haptic feedback to the operator are from the DE 102 36 066 B4 known. In this case, a two-legged detent spring is provided, wherein a contour of the housing is accommodated so that the spring legs of the detent spring are held without bias in the housing in a preassembly position and engage in an end position, the spring legs on the ratchet wheel on both sides in the circumferential toothing of the locking element.

Turntable with variable latching profile, in which the locking means are produced by axially mounted balls by means of springs which engage in a correspondingly shaped recess on the circumferential path, are from the DE 10 2007 032 395 A1 known. The detent ball can also be mounted axially and is then engaged behind by a corresponding axially mounted spring, which can engage in a recess of the setting wheel.

A cam switch with a single-ended switching spring is out of the DE 195 05 737 C1 known. Another cam switch with a tangential spring structure of the switching spring is from the DE 948 708 C known.

Switching cam, which are mounted on spring legs and rest against the switching ring of a rotary body having various recesses and elevations are from the DE 195 05 737 C1 known.

at such spring systems are the Ausrastkraft, the latching force, as well as sliding or frictional force of the system individually by shaping and bias the detent spring according to the requirements respectively adapt. A standardization of the spring and a possible Force adjustment of the spring are practically impossible. It must be executed due to use. Furthermore the known detent springs have the disadvantage that, if it is to form springs, with right and left rotation or legal and left shift different Ausrast- and latching forces to be recorded, which is undesirable. Ideal is one Condition in which the Ausrast- and the latching force are equal and this or the sliding or friction force in a simple manner are adjustable, allowing standardized springs for one certain application area can be used.

Solved The object is achieved by designing the operating element according to the The teaching of claim 1. Advantageous embodiments are in the dependent claims specified.

The operating element, regardless of whether it is a rotatable adjusting wheel or a sliding element, cooperates with the locking element provided thereon with a detent spring, which is designed as a bridge spring and sides on both sides has thighs. These side legs have on the side remote from the thumbwheel or the sliding element side curved ends which are floatingly mounted in the contour of the housing. The contour has a bent shape of the spring adapted bearing bed and is formed so that the two legs can be supported laterally and the bent part is deflected from the bottom of the contour back up, while the bridge part outwardly above the locking lug or the switching cam is provided. It can be seen that different locking and Ausrastkräfte and turning and pushing forces are given by the height or by the execution of the bottom contour when using a standard detent spring, that is, by the contour itself, these forces are adjustable or exactly produced. The bent ends are biased by the contour, whereby the force transmitted to the locking cam or the locking projection spring force is changed as desired.

Of the Locking lug or the locking cam is centered in the connecting part attached to the two floors, so that even with left and Clockwise or left and right shift of the locking element, which is directly coupled to the thumbwheel or slider, the same forces act. Instead of dipping in one Of course, locking groove can also be a sliding of the spring be provided on the locking element and then a dipping in a recess or the counter drive against a stop or a lift slope or Ablenkschräge to in one another level under changed plant pressure, a turning point or to continue sliding movement. If several grooves are provided one behind the other, so can the locking lugs or snap locking cams from one groove to the other. This is noticeable on the setting wheel or on the slider, so that a haptic Feedback to the operator is done.

The Bridge spring can basically be made of metal, but it can also be made of plastic. By adaptation the contour in the housing is an adaptation to the material in the same way possible. The contour in the housing is suitably designed as a bearing nest and the bent ends are bent inward so that they bend can also dodge when reducing the nest. hereby is it possible to use a standardized spring because of the contour design different friction and shifting forces are feasible. The detent spring can be formed from a leaf spring or a plastic molding that is substantially a rectangular shape Has cross-sectional contour. But the spring can also be made of a springy Strand material of metal or plastic formed by cutting become.

The Setting wheel or the sliding element, for example, also part be the control device of an air nozzle, as in a Wall or in a body wall of a passenger compartment in a motor vehicle can be used. Part of the setting wheel or the sliding element, which should be operated, it should from a recess projecting from the wall or cover. The thumbwheel or the sliding element but can also be part of a cam switch known type, wherein the bridge spring is not the function of a switching spring here but as an independent spring of haptic Feedback is provided while other cams that are mounted on a ratchet wheel or on the slide switch, operate the switch contacts. For other versions can be provided that the locking groove is a button of a Turn actuator or a sliding element is.

If the bottom of the bearing contour in the housing or the bearing nest opposite the remaining bearing arms, which cover the ground, is arranged displaceably, can be for example by means of a untergreifenden Stell screw also the cogging force and the frictional force to adjust. Incidentally, the bias voltage or latching voltage the spring by introducing the detent springs in contours different Height to be changed.

By the proposed structure of the spring, for example, curved The lower diameter ends of 6 mm can stretch the Spring in the contour with smaller diameter itself. Of course determines the geometry of the control wheel or the slider, the forces acting the spring with. Because the spring is floating and not clamped tightly is and the arcuate formations of the contour can adapt, the spring in the delivery state also generously measured in the entire tolerance be. Only with the insertion is there an exact geometry, which is able to adjust the spring tension exactly. By the Selected geometry works the bridge spring to same time at two points and not, as in known spring systems the case is, to a point. But this can also the number of Actuating cycles are significantly increased because These springs also work better in the force distribution and one-sided Forces that can lead to breakage of the spring, do not attack.

The advantage afforded by the use of a detent spring according to the invention is obvious. The rotational and pushing force are more precisely adjustable, the up and latching force can be more accurately produced via the operating wheel geometry, operating cycles can be increased many times over known leaf spring systems. A minimization of the design times is given, as well as the times for the tool production can be reduced which also leads to a reduction in tooling costs. Endurance tests can also be minimized because the contour of the spring and the bearing contour over conventional designs have wesent Liche improvements. Standardization of the spring also reduces manufacturing and storage costs as well as sales logistics costs.

Around To allow a one-sided mounting, the contour should be at least one conical insertion area for the pre-bent Have spring or molded spring made of plastic, which in a Warehouse area passes in which the spring is self-holding too is secured against unintentional withdrawal. The storage area can z. B. larger by a few tenths of a millimeter be the narrowest point of the insertion area.

The Invention is described below with reference to the drawings Figures explained in addition.

In show the drawings:

1 a schematic representation of a control wheel, which can be rotated relative to a detent spring according to the invention to the left and right, and

2 an embodiment in which a locking element to a slider relative to a detent spring in a housing is displaceable.

In 1 is schematically a thumbwheel 13 drawn in accordance with the arrow 14 can be twisted left and right. The thumbwheel 13 is on a journal 15 in a housing 5 stored. The housing 5 is only partially below the setting wheel 13 represented, namely the area in which the contour 1 is located, in which the bent ends 2 the bridge spring 3 are supported. The housing part 5 has bearing shells 4 for receiving the bridge spring 3 on. The bearing shells 4 and the rest of the contour 1 preferably have conical catchment areas, so that the bridge spring 3 easier in the contour 1 is insertable. In the final position, the bridge spring 3 from the relaxed position spent in the cocked position, in which they on a circumferential path 8th of the adjusting wheel 13 is applied. The cam 6 is then depressed. From the plane of the circumferential path 8th stand two surveys 7 before, which are wave-shaped and a receptacle for the cam 6 form when turning the wheel 13 locks. With left or right turn of the adjusting wheel 13 slides the cam 6 out of the recess and slides over the elevation 7 on the circumferential track 8th , In any case, it is ensured by left and right rotation of the rotary wheel that the same latching and Ausrastkräfte are given and the bridge spring 3 as a standardized spring from the contour 1 is recorded so that the pressure forces taking into account the outer geometry of the setting wheel 13 are given in the desired manner. By changing the height X, the force component can be adjusted.

In 2 is a schematic representation of a sliding element 11 shown, the opposite of the bridge spring 4 that in a contour 1 is stored, can be moved. Significantly, underneath a wavy shape visible by the survey 7 is formed, in which the catch approach 6 engages after assembly. The height X of the bridge spring 3 determines the pressure force. The slider 11 can be moved so that the locking cam 6 slides out of the recess and then on the straight part of the slide 11 conceives. Before that is the bridge spring 3 spent from the relaxed position when inserting in the cocked position. The displacement is indicated by Y.

Above the sliding element 11 is a slider 12 shown, which is a switching edge 9 has and a straight line area 10 , The locking cam 6 lies with ent spannte spring on the straight area 10 at. Here is the slider 12 shifted, the switching edge arrives 9 to the locking cam 6 and tense the spring 3 to a position not shown. As a result, the force required to move, noticeable, thereby also haptic information is transmitted to the operator.

1

contour

2

end up

3

bridge spring

4

bearing shell

5

housing part

6

cam

7

surveys

8th

circumferential path

9

switching edge

10

straight Area

11

sliding element

12

pusher

13

thumbwheel

14

arrow

15

pivot

X

height

Y

displacement

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 10236066 B4 [0004]
• - DE 102007032395 A1 [0005]
• - DE 19505737 C1 [0006, 0007]
• - DE 948708 C [0006]

Claims (10)

Operating element, comprising a rotatable adjusting wheel, or a sliding element with a thereto or on a hereby connected locking element having at least over a circumferential or longitudinal portion locking grooves, in which a locking lug or a locking cam on a detent spring which is mounted in a contour of the housing is, when turning the adjusting wheel or during displacement of the sliding element engages detent, characterized in that the detent spring is a bridge spring ( 3 ), whose two lateral ends ( 2 ) have mutually curved ends floating in the contour of the housing ( 5 ) are stored, wherein the stored ends ( 2 ) at least in sections of the contour ( 1 ) are supported on the outside, that the catch approach ( 6 ) or the locking cam in the middle of the connecting part of the two lateral ends ( 2 ) is attached or formed protruding outwards and immersed in a locking groove or recess or against a step-shaped switching edge ( 9 ) of a paragraph and when turning the setting wheel ( 13 ) or when moving the sliding element ( 11 . 12 ) is pressed out of the respective groove or recess or plane against the spring force and slides along the raised strip or sliding into the next groove or gradation level arresting. Operating element according to claim 1, characterized in that the bridge spring ( 3 ) consists of metal or plastic. Operating element according to claim 1, characterized in that the contour ( 1 ) in the housing ( 5 ) is designed as a two-sided bearing nest and the bent ends ( 2 ) of the bridge spring ( 3 ) are drawn inwards and bent upwards and bent in the bearing shells ( 4 ) at the bottom of the bearing nest or on contour-adapted forming flanks of the bearing nest during insertion and when pressure is exerted on the detent or control cam ( 6 ) move freely. Control element according to claim 2, characterized in that the detent spring ( 3 ) consists of a leaf spring or a plastic molded part having a substantially rechteckformigem cross-section or is made cut from resilient strand material made of metal or plastic. Operating element according to claim 1, characterized in that the setting wheel ( 13 ) or the sliding element ( 11 . 12 ) Is part of an air nozzle which can be inserted into or attached to a wall, wherein a part of the setting wheel ( 13 ) or sliding element ( 11 . 12 ) operable from the wall or a cover protrudes. Operating element according to claim 1, characterized in that the setting wheel ( 13 ) or the sliding element ( 11 . 12 ) Is part of a cam switch, via the at least one switching contact by rotation of the adjusting wheel ( 13 ) is operable. Operating element according to claim 3, characterized in that the bottom of the bearing contour ( 1 ) in the housing ( 5 ) or the bearing nest is arranged displaceably. Operating element according to claim 1, 3 or 7, characterized in that by introducing the detent spring ( 3 ) in contours ( 1 ) of different height, a final deformation of the ends ( 2 ) of the bridge spring ( 3 ) takes place and the bias voltages or locking voltages are adjustable to different degrees. Operating element according to Claim 1, characterized in that the latching or switching cam ( 6 ) symmetrical and also the switching edges ( 9 ) are arranged on the grooves of the ratchet wheel or the sliding element and that the input and Ausrastkräfte in or out of the grooves are the same size. Operating element according to claim 1, characterized in that the contour ( 1 ) has at least one conical insertion channel or is formed as a conical channel having a straight and / or recessed portion as a storage and working section.