EP2290668A1 - Device for initiating functions, particularly in vehicles - Google Patents

Abstract

The device has an actuating unit (10) to actuate the functions and a transfer element (11), where a plunger (20) is arranged between the actuating unit and the transfer element. The plunger has a contact surface (21). The actuation is carried forward on the transfer element during interposition of the contact surface by the plunger. A guiding element (30) is provided, in which the plunger is guided through a positive guide (35). The actuating unit is made of soft plastic in certain areas.

Description

The invention relates to a device for triggering functions, in particular on vehicles specified in the preamble of claim 1. Art Such devices are in use in connection with vehicles often use, for example, on electronic keys that are equipped with a remote control function, in the range of buttons, Switches on doors and / or tailgates and generally wherever different components, manufacturing and / or assembly tolerances have, where on the other hand, however, a certain margin must be provided for actuation.

Considering only a gap between an actuating means and a transmission member, this can lead to a rubbery clapping upon movement of the device, such as an electronic key to unwanted noise, such as a rattling or when using rubber parts. However, this is undesirable and should be avoided. For this purpose, buffers or springs are often provided in known devices, which buffer the parts against each other, so as to avoid the unwanted noise. This variant is however expensive in the production and assembly.

The document DE 101 21 045 C2 describes a housing for an electronic key. Here are the individual actuating means directly on the corresponding transmission elements. However, if the key is exposed to temperature differences, for example because it is in the sun or near another source of heat, the individual components expand and permanent actuation of the transmission members by the actuators can occur, resulting in undesirable malfunctions.

The object of the invention is therefore to avoid the disadvantages mentioned and to improve the known devices so that unwanted noise can be avoided, a safe operation is enabled and the device is also still inexpensive to carry out. This object is solved by the characterizing features of claim 1, which has the following special significance.

Between the actuating means and the transmission member, a plunger is arranged, which has a contacting surface. By the plunger operation of the actuating means is transferable to the transfer member with the interposition of this contacting surface. Normally, there is a gap between plunger and transfer member. However, if the actuating means is actuated, this gap is overcome by the plunger and the contacting surface of the plunger comes into operative connection with the transmission member. The plunger is guided in a guide element by a positive guide. This guide element also ensures that manufacturing tolerances are overcome and the plunger is guided safely. By this special arrangement, on the one hand between the plunger and the transmission member, a gap may be provided, so that temperature-related changes in length have no effect on the safe operation of the device, on the other hand, however, there may be no unwanted rattling or clapping noises. In addition, the device is inexpensive to carry out.

As a transfer member can serve, for example, a standard actuator of a button, in which case the actual trip unit of the button is used as a detection means. However, switches, micro-switches, micro-switches, piezo elements, sensors and the like are also conceivable. The appearance of the transmission element and the detection means depends on the individual application. In a particularly preferred embodiment, the transmission member comprises a return element such as a snap-action disc, a return spring od. Like. This serves on the one hand to move the transmission member after the successful operation back to its original position, on the other hand also to the plunger from its operating position, in which a Actuation of the actuating means is present, back to its normal position, in which there is no operation to bring back.

It is particularly advantageous to provide the guide element in the form of a plate. This is easy and inexpensive to produce. The forced operation can then be formed, for example, by a recess in this plate and an arm projecting at least partially into this recess. This is also a simple and inexpensive way to realize the forced operation. In the mounted state, the plunger then at least partially penetrates the recess and comes into engagement with the arm, whereby the forced operation is realized. If then the arm, as proposed in a particularly preferred embodiment, integrally formed with the guide element or it is formed by openings in the guide element, a particularly simple and inexpensive manufacture of the device is possible. It when the arm is formed by two openings in the guide element, which are parallel and curved is particularly advantageous. Thus, the arm has enough leeway for the positive guidance and can thereby also absorb temperature-induced changes in size.

Further advantageous in this embodiment, it is when the plunger with the help of the arm from its actuation position back into its normal position can be transferred. This still saves costs for additional springs or other return elements to bring the plunger in its normal position.

Instead of an arm, the forced operation can also be formed by a spring-loaded contact component. As a contact component then, for example, both a rigid cam and a roller can be selected. In the latter case, it is advantageous if the axis of rotation of the roller extends approximately perpendicular to the direction of movement of the plunger. The spring load then compensates for tolerances between the plunger and the guide. Upon actuation, the plunger moves towards the transfer member and the force applied for actuation overcomes the frictional force between the plunger and the guide. When the operation is terminated, the plunger is preferably transferred to its normal position by a return element, wherein the force exerted by the return element is also large enough to overcome the friction between the plunger and the guide.

In a further preferred embodiment, the transmission and / or the contacting surface are arranged eccentrically to the actuating means or to the plunger. Thus, it is possible, not directly under the plunger centrically arranged transmission elements with the help of the plunger trigger, for example, if the provided below the transmission element board allows no other arrangement of the transmission element or the detection means. Due to the forced operation, it is also irrelevant whether an operator actuates the actuating means centric or off-center. Safe operation of the transmission member by the plunger is ensured due to the positive guidance.

To obtain a better feel, the actuating means may consist of a soft plastic. However, it is advantageous if the plunger is made of a hard plastic, since then reduces the risk of deformation of the plunger and reliable operation of the transfer member is ensured. The guide element or the arm can be made of an elastic material, such as a plastic and a spring plate or the like. Is just the arm made of elastic material, so a secure forced operation is given. When using elastic plastic guide element and arm can be produced in a cost-effective injection molding process.

Fig. 1:

ein Anwendungsbeispiel einer erfindungsgemäßen Vorrichtung in Form eines elektronischen Schlüssels,

Fig. 2:

eine erfindungsgemäße Vorrichtung in Normalposition,

Fig. 3:

die Vorrichtung aus Fig. 2 in Betätigungsposition,

Fig. 4:

die Vorrichtung aus Fig. 2 und 3 von unten gemäß dem Pfeil IV aus Fig. 2,

Fig. 5:

ein plattenförmiges Führungselement perspektivisch von unten,

Fig. 6:

das Führungselement aus Fig. 6 perspektivisch von oben,

Fig. 7:

das Führungselement aus Fig. 5 und 6 in Draufsicht,

Fig. 8:

das Führungselement von Fig. 5 bis 7 im Schnitt gemäß VIII - VIII aus Fig. 7.

Fig. 9a:

ein weiteres Ausführungsbeispiel der erfindungsgemäßen Vorrichtung in einer Darstellung analog zu Fig. 2

Fig. 9b:

die Vorrichtung aus Fig. 9a in Betätigungsposition,

Fig. 10:

ein weiteres Ausführungsbeispiel einer erfindungsgemäßen Vorrichtung

Further advantages and embodiments of the invention will become apparent from the following description, the dependent claims and the drawings. In the figures, the invention is shown in several embodiments. Show it:

Fig. 1:

an application example of a device according to the invention in the form of an electronic key,

Fig. 2:

a device according to the invention in normal position,

3:

the device off Fig. 2 in operating position,

4:

the device off FIGS. 2 and 3 from below according to the arrow IV Fig. 2 .

Fig. 5:

a plate-shaped guide element in perspective from below,

Fig. 6:

the guide element Fig. 6 in perspective from above,

Fig. 7:

the guide element FIGS. 5 and 6 in plan view,

Fig. 8:

the guide element of Fig. 5 to 7 in section according to VIII - VIII Fig. 7 ,

Fig. 9a:

a further embodiment of the device according to the invention in a representation analogous to Fig. 2

Fig. 9b:

the device off Fig. 9a in operating position,

Fig. 10:

a further embodiment of a device according to the invention

Fig. 1 shows an application example of a device according to the invention. Here is an electronic key with remote control function for vehicles shown. This has a plurality of actuating means 10. However, the internal structure of the key will be apparent from the following figures.

Fig. 2 shows a section through an actuating means 10 and the underlying elements. One recognizes the plunger 20, which is here in its normal position 20.1. Furthermore, the transmission member 11 can be seen. This is, for example, an actuator of an electronic micro-probe. The underlying detection means is not shown here and depends on the exact design of the micro-probe or the other component used.

The contacting surface 21, which is provided for contacting with the transmission member 11, is spaced from the transmission member 11 by a gap 22. The plunger 20 penetrates the recess 31 of the guide member 30 and looks with its lower end out of this. At the same time, an arm 32 is provided on the plate-shaped guide element 30. This penetrates with its material partially into the material of the plunger 20 and thus causes the forced operation 35. The arm 32 is formed by means of openings 33, as will be seen later. The plate-shaped guide element 30 has in the region of the recess 31 reinforcements 34 in the form of circumferential bead-shaped noses. This will be explained later in more detail.

Finally, it can be seen that the actuating means 10 has a cam 12 which engages in a receptacle 23 on the plunger 20. As a result, a better transmission of the actuating movement, which acts on the actuating means 10, allows the plunger 20. Of course, other means, the actuating means 10 to hold the plunger 20 in operative connection conceivable. This includes, for example, locking, clipping, the provision of other profiles and finally also welding, gluing and the like.

Fig. 3 now shows the device Fig. 1 However, wherein the plunger 20 is located in its operating position 20.2. The contacting surface 21 is in direct operative connection with the transmission member 11. It can also be seen that the transmission element 11 has already been shifted. It can also be seen that the arm 32 continues to hold the plunger 20 in its positive guide 35. The plunger 20 now projects a little further out of the recess 31. By acting on the arm 32 forces this tries to move back to its original normal position and takes the plunger 20 also in its normal position with 20.1 as soon as the actuating means 10 is no longer actuated.

In the FIGS. 2 and 3 it can be seen that the contacting surface 21 is eccentric to both the plunger 20 and the actuating means 10 is formed. This is because the transmission member 11 is also arranged eccentrically to the plunger 20. The contacting surface 21 is thus aligned with the transmission member 11. The exact arrangement of the transfer member 11 and thus the contacting surface 21 depends on the individual application.

Fig. 4 shows again in detail the arrangement of the plunger 20 in the plate-shaped guide member 30. It can be seen the recess 31 which is formed in the form of a tennis hole or a keyhole. Here, the contacting surface 21 is provided in the region of the recess 31, which has the smaller radius. However, the main part of the plunger 20 is arranged in the region of the recess 31, which has the larger radius.

The arm 32 is formed on the basis of two openings 33. These are bent and parallel to each other. Due to this special embodiment of the arm 32, this has sufficient leeway to produce the one hand, the forced operation 35, on the other hand, but also temperature-related changes. The size of the components to catch. In addition, the arm 32 serves to compensate for manufacturing and assembly tolerances.

The Fig. 5 to 8 again show the guide member 30, which is here designed plate-shaped. On the one side of the guide member 30 32 reinforcements 34 are provided both in the region of the recess 31 and the arm. Furthermore, there is still a general reinforcement 34, which serves the stability of the guide member 30. Of course, such a reinforcement 34 is also conceivable on a contact component 37. The arm 32 is again formed by the openings 33 and projects in regions in the recess 31 in order to provide here the forced operation 35. The recess 31 is again designed here in the form of a keyhole or tennis hole.

The Fig. 9a and 9b show another embodiment of the device according to the invention in an analogous manner FIGS. 2 and 3 , Here, the material of the arm 32 does not penetrate into the material of the plunger 20. Rather, the arm 32 abuts on the plunger 20 and strives to push it - as seen in the drawing - to the left and thus compensate for any existing tolerances. Now find an operation, as on Fig. 9b instead of, this overcomes the friction between the arm 32 and the guide member 30 and the plunger 20. The transmission member 11 has a not shown here in detail return element, which ensures after completion of the operation that the plunger 20 back to its normal position 20.1 is brought.

A final embodiment is in Fig. 10 shown. The positive guide 35 is realized here via a contact member 37 which is acted upon by a spring 36. In the present case, the contact member 37 is designed as a rigid element. However, it is also conceivable instead to provide a rotatably mounted roller whose axis of rotation extends approximately perpendicular to the direction of movement of the plunger 20. As a result, the frictional forces between the positive guide 35 and the plunger 20 are reduced, which makes it easier to transfer the plunger 20 back to its normal position 20.1 by means of a return element arranged on or in the transfer member 11. As a spring 36 can serve a normal coil spring here. However, other types of spring are conceivable.

Finally, it should be pointed out that the embodiments shown here are merely exemplary implementations of this invention. This is not limited to this. Rather, variations and other configurations are possible. For example, the guide element can also be designed differently. The arm can also have a different shape. It is also possible to realize the forced operation in general other than by an arm. As a restoring element, other components can serve as snap disks or return springs.

LIST OF REFERENCE NUMBERS

10

actuating means

11

transmission member

12

cam

20

tappet

20.1

Normal position of 20

20.2

Operating position of 20

21

contacting surface

22

gap

23

admission

30

guide element

31

recess

32

poor

33

breakthrough

34

reinforcement

35

forced control

36

feather

37

contact component

Claims (17)

Device for triggering functions, in particular on vehicles,
with at least one actuating means (10) which is operable to trigger the function,
and at least one transmission member (11) which transmits the operation of the actuating means (10) to a detection means which then detects the operation and triggers the functions,
characterized,
in that a plunger (20), which has a contacting surface (21), is arranged between the actuating means (10) and the transmission member (11),
that can be transmitted by the ram (20) with the interposition of the contacting (21) the operation to the transfer member (11),
wherein the plunger (20) and the transmission member (11) are arranged so that between them normally a gap (22) is located, which, however, in the actuation case, upon actuation of the actuating means (10), is overcome by the plunger (20) , whereby the contacting surface (21) with the transmission member (11) comes into operative connection
and that furthermore a guide element (30) is provided in which the plunger (20) is guided by a positive guide (35). Apparatus according to claim 1, characterized in that the guide element (30) is approximately plate-shaped. Device according to one of claims 1 or 2, characterized in that the positive guide (35) by a recess (31) in the guide element (30) and in the recess (31) at least partially projecting arm (32) is formed. Device according to one of claims 1 to 3, characterized in that the arm (32) with the guide element (30) is integrally formed and / or that the arm (32) by means of openings (33) in the guide element (30) is formed. Device according to one of claims 1 to 4, characterized in that the arm (32) by two openings (33) in the guide element (30) is formed, which are parallel and curved. Device according to one of claims 1 or 2, characterized in that the positive guide (35) by a spring-loaded (36) contact member (37) is formed. Apparatus according to claim 6, characterized in that the contact member (37) is designed as a roller whose axis of rotation is perpendicular to the axis of movement of the plunger (20). Device according to one of claims 1 to 5, characterized in that the plunger (20) has a normal position (20.1) when there is no actuation of the actuating means (10), and further has an actuating position (20.2) when an actuation of the actuating means (20) 10),
and that the plunger (20) by means of the arm (32) from its actuating position (20.2) in its normal position (20.1) can be transferred. Device according to one of claims 1 to 8, characterized in that the transmission member (11) o.ä. a reset element such as a snap-action disc, a return spring. which serves the purpose Return actuator (11) after actuation back to its original position. Apparatus according to claim 9, characterized in that the plunger (20) has a normal position (20.1) when there is no actuation of the actuating means (10), and further has an actuation position (20.2) when an actuation of the actuating means (10) is present, and that the plunger (20) by means of the return element of the transmission member (11) from its operating position (20.2) in its normal position (20.1) can be transferred. Device according to one of claims 1 to 10, characterized in that the guide element (30) in the region of the recess (31) and / or the arm (32) and / or the contact member (37) has a reinforcement (34). Device according to one of claims 1 to 11, characterized in that the recess (31) in the guide element (30) has the shape of a tennis hole or a keyhole. Device according to one of claims 1 to 12, characterized in that the transmission member (11) and / or the contacting surface (21) are arranged eccentrically to the actuating means (10) and / or the plunger (20). Device according to one of claims 1 to 13, characterized in that the actuating means (10) at least partially consists of a soft plastic. Device according to one of claims 1 to 14, characterized in that the plunger (20) at least partially consists of a hard plastic. Device according to one of claims 1 to 15, characterized in that the guide element (30) and / or the arm (32). consist of an elastic material such as a plastic, a spring plate or the like. Device according to one of claims 1 to 16, characterized in that the actuating means (10) has a cam (12), while the plunger (20) has a receptacle (23) into which the cam (12) is receivable.

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