WO2012079980A1

WO2012079980A1 - Combined mechanical and electronic key, the wings of which differ in length

Info

Publication number: WO2012079980A1
Application number: PCT/EP2011/071346
Authority: WO
Inventors: Stefan Holowin; Miroslaw Koziol
Original assignee: Huf Hülsbeck & Fürst Gmbh & Co. Kg
Priority date: 2010-12-17
Filing date: 2011-11-30
Publication date: 2012-06-21
Also published as: CN103348073B; EP2652227A1; DE102010061332A1; DE102010061332A9; CN103348073A; EP2652227B1

Abstract

The invention relates to a combined mechanical and electronic key (1) for a motor vehicle, with a housing (10) which, at the edge region (11), has a slotted link (13) formed by a multiplicity of grooves (12), an electronic unit arranged in the housing (10), a key part (20) which has a bearing (30) which is mounted so as to be rotatable about an axis (31) along the slotted link (13), an activation element (32) which is accommodated in the bearing (30) and has at least two radially protruding wings (33) and a radially protruding driver (34), wherein the activation element (32) is movable between a passive position (2) and an active position (3), the key part (20) is movable between an inoperative position (4) and a use position (5), and, in the inoperative position (4) and in the use position (5) of the key part (20), in which the activation element (32) takes up the passive position (2), each wing (33) is located in a respective groove (12) and, during the movement between the inoperative position (4) and the use position (5), in which the activation element (32) takes up the active position (3), the wings (33) are released from the grooves (12) and the driver (34) engages in a contour (35) of the bearing (30). According to the invention, the slotted link (13) has webs (24) between the grooves (12), said webs serving as sliding surfaces (24) for the wings (33a, 33b) during the movement of the key part (20), and the wings (33a, 33b) are designed so as to differ in length, wherein at least the longer wing (33), located in a groove (12) of the slotted link (13), extends far beyond the webs (24) into the housing (10) both in the inoperative position (4) and in the use position (5) of the key part (20).

Description

Combined mechanical and electronic key whose blades are of different lengths

Description

The invention relates to a combined mechanical and electronic key for a motor vehicle, having a housing which has at the edge region a running with a plurality of grooves backdrop, arranged in the housing electronics, a key part having a bearing point which is rotatable about an axis is mounted along the gate, an activation element, which is received in the bearing and has at least two radially projecting wings and a radially projecting driver, wherein the activation element between a passive and in an active position is movable, the key part between a rest position and a use position is movable, in the rest position and in the position of use of the key part, in which the activation element occupies the passive position, each wing is in each case a groove, and during movement between the rest position and the use position, wherein the activation element occupies the active position, the wings are detached from the grooves and the driver engages in a contour of the bearing.

Such ID donors are described for example in DE 10 2006 036 503 A1. It has disadvantageously been shown that it repeatedly occurs that the unfolded key parts are used by users for further, improper functions, for. B. to open various containers with the unfolded key part. For this reason, often cause material destruction at the bearing of the key part, with areas of the housing can break out.

The object of the present invention is to avoid the above-mentioned disadvantages, in particular to provide a combined mechanical and electronic key, in which larger forces that can act on the key part can be better absorbed by the housing.

The object is achieved by all features of claim 1. In the dependent claims advantageous developments are carried out.

According to the invention it is provided that the gate has webs between the grooves, which serve as sliding surfaces for the wings during the movement of the key part, the wings are designed differently long, wherein at least the longer wing both in the rest position and in the position of use of the key part in a groove of the backdrop is located extending far beyond the webs out into the housing. An essential core of the invention is that in the position of use of the key part, the longer wing has a larger engagement surface or bearing surface with the housing when the wings are within the grooves. Due to the larger attack surface larger power transfers can be made from the wing to the grooves, which can be done effectively at break vulnerable points in the backdrop of the housing. If improper use on the key part by the user and thus increased forces acting on the key part and on the contour of the bearing, these higher loads are reliably absorbed in the bearing due to the at least one longer wing, without material destruction on the housing arise. Advantageously, the longer wing may be extended at least 50% of the length of the shorter wing, in particular be extended at least 100% of the length of the shorter wing. Thus, at least the longer wing can extend far beyond the bridge in the direction of the housing. Of course, the grooves for receiving the longer wing are adapted according to the size, so that the longer wing is completely received in the groove in the rest position and the position of use of the key part.

In one possible embodiment of the invention, the wings may differ in their wing width B. This geometric design of the wings causes a larger contact surface between the wings and the scenery, in particular the grooves is created in the position of use of the key part, whereby larger forces can be absorbed by the backdrop of the housing, which possibly on the unfolded key part in the ID Or in the combined key.

In a further embodiment of the invention, the grooves may be composed of at least a first pair of grooves and a second pair of grooves, wherein in the rest position of the key part, the wings are engaged in the first pair of grooves and in the position of use of the key part, the wings are engaged in the second pair of grooves, in particular the backdrop is designed such that the second pair of grooves is aligned with the interior of the housing. The essential advantage is that in the position of use of the key part, the wings are received in the inner second pairs of grooves. At the same time, the second pair of grooves on a larger mass of material that provides the housing of the bearing available. If now an improper use of the key part by the user takes place, so that increased forces acting on the key part and the contour of the bearing, these increased loads are reliably absorbed in the bearing due to the inner second pairs of grooves, without material destruction on the housing arise.

According to the invention, at least one longer groove of the first groove pair corresponding to the longer wing can separate two webs, at least one longer groove of the second groove pair corresponding to the longer wing separating two webs from one another. It is also conceivable that the webs are circular about the axis of rotation of the Key part extend and / or that the webs are designed as arcuate segments which extend together about the axis of rotation of the key part.

According to the invention the activation element is mounted axially displaceable to the axis of rotation of the key part in the bearing. The activation element is advantageously an externally accessible button, pushbutton, etc., which the user can actuate to effect movement of the key part between the rest position and the use position. By actuation of the activation element, the wings move out of the detent position of the grooves, so that a movement of the key part about the axis of rotation is possible.

In a preferred embodiment of the invention, it is conceivable that the electronics is completed by a wall from the outside of the key, at the same time the wall separates the backdrop of the electronics. The electronics may for example have transmitting and / or receiving units, which provide for a data communication between the combined key - also called the I-D transmitter - and the motor vehicle, in particular its locking device and / or central locking device. In the data communication example, a code, preferably via electromagnetic waves are exchanged, so that after positive evaluation of the code, for example, the doors, the trunk lid of the motor vehicle etc. remote controlled unlocked and / or locked and other functions can be triggered. In order to protect the encapsulated electronics inside the housing against environmental influences such as moisture, dirt, particles, etc., the wall provides adequate protection. Advantageously, the housing consists of at least two housing circuits, which are brought to each other and at the same time seal the electronics sealingly and at the same time provide a corresponding hold of the key part at the bearing point. Advantageously, the housing has at least one probe element in order to start data communication between the ID transmitter and the motor vehicle by actuation of the probe element and to trigger corresponding functions.

Conveniently, the bearing is spaced from the wall which encapsulates the electronics. Thus, the key part at the bearing can reliably between be moved in its two positions, whereby in each position of the key part is ensured that the electronics are protected from the outside.

In a measure improving the invention it can be provided that the wings point in the position of use of the key part to the wall, wherein in particular the driver is directed to the outside of the key part. Advantageously, the protective wall is spaced from the bearing point, wherein the wall between the gate of the housing and the inner region of the housing is arranged. At the same time the housing can absorb larger forces from the key part, since the wings are directed in the position of use of the key part to the interior of the housing and thus to the protective wall. In this position of the wings, which are locked within the second pairs of grooves, the housing provides a large mass of material, against which the wings can support, without material damage to the housing can occur.

It is also conceivable that the contour of the bearing point has at least two levels, wherein a first level has a recess in which the driver is received during the movement of the key part between its positions. Thus, the activation element can exert a stroke within the bearing to move between the passive and the active position. The driver is located in the recess of the first level when the activation element is in its active position. In the active position, the activation element is at the same time detached with its wings and / or spaced from the backdrop of the housing, so that a corresponding rotational movement of the key part with its bearing point about the axis is possible. The vanes also rotate about the axis during movement of the key part, with the follower held firmly in the recess of the first plane.

In addition, the contour of the bearing point may have a second plane, in which two recesses are provided, in which the wings are in the rest position and the position of use of the key part. In the passive position of the activation element, the key part is either in the rest position or in the position of use. For example, the second level may be above or below the first level within the bearing of the key part. Each wing is located in the passive position of the activation element in each case a recess of the contour of the bearing and is held there detent and / or positive fit, wherein at the same time each wing is within a groove of the backdrop of the housing. Thus, in this position of the key part a movement of the key part, without actuating the activation element accordingly, not possible.

The activation element preferably exerts a linear lifting movement between its passive and its active position, wherein the wings and the driver between the first and the second plane to move and occupy the corresponding position within the contour of the bearing. Advantageously, the activation element may have a cylindrical main body whose lateral surface has the wings and the driver, which extend in particular in a star shape from the lateral surface.

Advantageously, it can be provided that the activation element is spring-loaded, in particular that the activation element is designed like a sleeve and has a cavity in which a spring element is arranged, which acts on the activation element. For example, it is possible that the spring element is a spiral spring, which exerts a force on the activation element in the rest position of the key part in the direction of the axis and at the same time exerts a torque on the activation element. If the user actuates the activation element, the activation element exerts a lifting movement within the bearing of the key part. The wings leave the grooves of the backdrop and thus cancel the detent position. At the same time, the driver moves into the recess of the bearing of the key part. Alternatively, the driver is in each position of the key part in the recess of the bearing. For a corresponding lifting movement of the activation element can be exercised, the user must exert a greater force on the activation element, as the force exerted by the spring element in the direction of the axis of rotation of the key part on the activation element. The activation element is outside the detent position to the backdrop of the housing, that is, the wings of the activation element are detached from each groove of the gate, the torque exerted by the spring element on the activation element, a movement of the key part from its rest position to the use position. Thus, a simple "automatic" unfolding of the key part in the position of use can be effected To move key part back to the rest position, the activation element must be pressed again and at the same time a manual force directed to the key part, which brings the key part in the rest position. During the movement of the key part from the position of use to the rest position, the spring element advantageously exerts a corresponding force in the direction of the axis of rotation on the activating element. The projection-like wings slide so long on sliding surfaces, which are to be found between the pairs of grooves of the backdrop, until the wings are arrived at and / or above the grooves, so that the spring presses the activation element with its wings in the grooves on their pressure force, whereby the latching connection is restored.

Preferably, the bearing point may comprise a guide cam which extends in a recess extending around the axis of rotation of the key part. This guide cam can have the function within the overall construction that a reliable rotational movement of the key part is ensured about its axis of rotation. The around the axis of rotation of the key part extending recess in which the guide cam moves during the movement of the key part, is arranged in the housing spaced from the backdrop. The recess may have a first and / or a second stop against which the guide cam of the bearing can drive. As a result, the rest position and / or the position of use of the key part can be defined.

In one possible embodiment of the invention, the angle of rotation α between the rest position and the position of use a = 180 °. This means that the key is pivoted from its folded position (rest position) to the unfolded position (use position) about its axis of rotation of the bearing at an angle of a = 180 °. For this embodiment of the invention, the first pair of grooves and the second pair of grooves are arranged symmetrically within the gate of the housing. A pivoting range, in which the angle α is smaller or larger than 180 °, is also conceivable. For these embodiments, it is only necessary that the position of the first pair of grooves and the second pair of grooves is chosen accordingly within the gate to ensure a reliable locking position of the key part in the rest position and also in the position of use. In an advantageous embodiment, the housing may consist of two housing shells and / or housing halves with a sealing element, wherein in particular the housing with the sealing element may be a 2K injection-molded part. Alternatively, the sealing element may be positively and / or non-positively and / or materially secured to one of the housing shells and / or the protective wall. The housing and / or the scenery with their sliding surfaces can be made of a glass fiber reinforced polyamide. In addition, the material of the housing and / or the scenery may comprise glass fibers and / or carbon fibers and / or aramid fibers. The key part and the bearing point may consist of a metallic material in a further embodiment of the invention, wherein in an advantageous embodiment of the invention, the bearing point and the key part form a common component, in particular a monolithic component.

The contour of the bearing with the two recesses for the wings and the recess for the driver can form a common component with the key part. Alternatively and / or additionally, it can be provided that the housing and / or a housing half with the link and / or the wall, including the pairs of grooves, form a material-uniform component, in particular of plastic.

Further advantages, features and details of the invention will become apparent from the following description in which a possible embodiment of the invention is described in detail with reference to the drawings. The features mentioned in the claims and in the description may each be essential to the invention individually or in any desired combination. Show it:

1 is a purely schematic representation of the combined key, wherein the key part is in the position of use,

2 shows the combined key according to FIG. 1, wherein the key part is in the rest position, FIG.

3 shows a further simplified representation of the combined key according to FIG. 1,

Fig. 4 is a further simplified representation of the combined key of FIG. 2 and Fig. 5 is a simplified representation of the combined key with the associated motor vehicle.

FIGS. 1 to 5 show an exemplary embodiment of a combined mechanical and electronic key 1 - referred to below as a combined key - which has a key part 20 that can be moved between a rest position 4 and a use position 5. The combined key 1, which can also be referred to as an ID transmitter, comprises a housing 10 which has a link 13 at its edge region 11. The gate 13 includes a plurality of grooves 12 which lie in a plane. In the present embodiment, four grooves 12 are provided, between which sliding surfaces 24 extend.

In addition, in the housing 10, which may for example consist of two superimposed housing shells or housing halves 10a, 10b, not explicitly shown electronics arranged. This electronics serves to create a data communication between the motor vehicle 7 and the key 1. The electronics are sealed within the housing 10 and thus reliably encapsulated, so that no moisture, dirt, particles, etc. can get from the outside area 6 into the area of the electronics.

So that the key part 20 can be reliably moved between its positions 4, 5, a corresponding bearing point 30 is arranged on the key part 20, which can be moved about the slot 13 of the housing 10 about an axis 31. As shown in FIG. 1, the bearing 30 has a contour 35 which is composed of two planes 21, 22. In the first plane 21, a recess 36 is provided and in the second plane 22, which lies below the first plane 21, two recesses 37 are formed. In addition, the contour 35 of the bearing 30 has a central opening in which an activation element 32 is inserted. This activation element 32 is mounted axially displaceable below the central opening to the axis of rotation 31 of the key part 20. This means that the activation element 32 can execute a lifting movement in the direction of the drawing plane within the bearing 30, which will be discussed below. The activation element 32 is thus movably received in the bearing 30 and has in the present embodiment, two radially projecting wings 33a, 33b, which are in the recesses 37 of the bearing 30 according to the Fig. 1 and Fig. 2. Furthermore, the activation element 32 has a radially protruding driver 34, which is positioned below the recess 36 according to FIGS. 1 and 2 and thus is not located within the recess 36 of the bearing 30.

At the same time both wings 33a, 33b according to the Fig. 3 and Fig. 4 in dependence on the position 4, 5 of the key part 20 in the grooves 12 of the gate 13 a. In Fig. 3, the position of use 5 of the key part 20 is shown. The grooves 12 are composed according to the embodiment of a first pair of grooves 12a and a second pair of grooves 12b. In the use position 5 of the key part 20, the wings 33a, 33b are engaged in the first pair of grooves 12a, so that a movement of the key part 20 in the direction of rest position 4 in FIG Fig. 2 and Fig. 4 is blocked.

As shown in Figure 3 and Figure 4, the link 13 webs 24 between the grooves 12a, 12b, wherein the webs 24 as sliding surfaces 24 for the wings 33a, 33b during movement of the key member 20 between the rest position 4 and the position of use 5 serve. A vane 33a is made longer than the second vane 33b. Both in the rest position 4 and in the position of use 5 of the key part 20, the longer wing 33a extends far beyond the webs 24 into the housing 10. The webs 24 extend in a circle around the axis of rotation 31 of the key part 20. Here, the webs 24 designed as a circular arc-shaped segments, which extend together about the axis of rotation 31 of the key part 20. The advantage of the longer wing 33a is that a larger contact surface is created in the use position 5 and in the rest position 4 of the key part 20 in the region of the grooves 12 for the longer wing 33a. Thus, larger forces can be transmitted from the key part 20 via the wings 33a, 33b on the housing material, without the risk of material destruction.

As can be seen in all figures, a wall 15 is provided on the housing 10, which is not explicitly shown electronics from the outer region 6 of the key. 1 concludes. At the same time the wall 15 separates the backdrop 13 of the electronics. In the position of use 5 of the key part 20 are the wings 33a, 33b in the first pair of grooves 12a and point to the outside area 6, wherein the driver 34 of the activation element 32 is directed to the wall 15 of the key 1. The driver 34 is located on the sliding surface 24 and on the web 24th

As can be seen in FIGS. 3 and 4, the groove 12b (in the 1 o'clock position) and the groove 12a (in the 7 o'clock position) are adapted to the length of the longer blade 33a, at the same time as these longer grooves 12a, 12b each two webs 24 completely separate from each other.

Also, the activation element 32 has different levels, wherein in the lower level, the two wings 33a, 33b are located and positioned in the upper level of the driver 34. According to FIG. 3, the driver 34 is located above the wings 33a, 33b, which are latchingly received in the first pair of grooves 12a.

According to FIG. 4, both wings 33a, 33b are located in the second groove pair 12b, which is aligned with the wall 15. At the same time the driver 34 is located on the sliding surface 24 which lies between the first pair of grooves 12a.

According to the illustrated embodiment, the activation element 32 has a cylindrical main body 38, the lateral surface 40 of the wings 33a, 33b and the driver 36 has. The wings 33a, 33b and the driver 34 extend in a star shape from the lateral surface 40 to the outside. On the activation element 32 acts a spring element 23, which is indicated only schematically in the drawings. The spring element 23 may be, for example, a spiral spring. The activation element 32 has a sleeve-like shape with a cavity 39, in which the spring element 23 is arranged and acts on the activation element 32. On the one hand, the spring element 23 acts with a force in the direction of the axis 31 on the activation element 32 when the key part 20 is in the rest position 4 or 5 in the position of use. At the same time, the spring element 23 exerts a torque on the activation element 32 when the key part 20 is in the use position 5 and / or in the rest position 4. The activation element 32 serves as a kind of push button to be actuated by the user when it is desired to move the key part 20 from the rest position 4 into the use position 5 about the axis 31. By way of a corresponding actuation on the activating element 32 in the direction of the axis 31, both wings 33a, 33b are lifted out of the second groove pair 12b, the driver 34 simultaneously traveling into the recess 36 of the bearing 30. During this lifting movement of the activating element 32, the wings 33a, 33b move within the recesses 37 of the bearing 30. When the activating element 32 is actuated by the user, it moves from its passive position 2, in which the wings 33a, 33b are inside the grooves 12 are moved to the active position 3, in which the driver 34 is located in the recess 36 of the bearing 30 itself. When the wings 33a, 33b have left the second pair of grooves 12b, the torque acting on the activating element 32 by the spring element 23 causes the activating element 32 to be pivoted counterclockwise about the axis 31. At the same time the key part 20 rotates from its rest position 4 shown in FIG. 4 in its position of use 5, which is shown in Fig. 3. During the movement of the key part 20, the wings 33a, 33b slide along the webs 24 of the contour 35. If the wings 33a, 33b are above the first pair of grooves 12a, the spring force acting on the spring element 23, which acts in the direction of the axis 31, causes the activation element 32 to move back into the passive position 2 via a lifting movement. At the same time, the spring element 23 presses the wings 33a, 33b in the plane of the drawing into the first pair of grooves 12a, whereby a latching connection of the bearing 30 in the slot 13 is created. During this movement of the activation element 32 back into the passive position 2, the driver 34 simultaneously leaves the recess 36 of the bearing 30. Thus, the use position 5 according to FIG. 1 and FIG. 3 is reached. In an alternative of the invention, the recess 36 and / or the driver 34 may be designed so that in each position 2, 3 of the activation element 32 of the driver 34 is located in the recess 36.

Now, if the user wants to move the key part 20 of the use position 5 in the rest position 4, an actuation of the activation element 32 is necessary again. The activation element 32 leaves again via a lifting movement of its passive position 2 in the direction of active position 3, in which the wings 33 a, 33 b, the first Leave groove pair 12a and at the same time the driver 34 moves into the Aufnehmung 36 of the bearing 30. As shown in FIG. 3, the spring element 23 exerts a counterclockwise torque on the activation element 32, it is necessary that the user exerts a corresponding force (greater than the counteracting torque) on the key part 20, so that this from the use position 5 in the direction Resting position 4 is pivoted about the axis 31. At the same time, the wings 33a, 33b move on the sliding surfaces 24 until the wings 33a, 33b are above the first pair of grooves 12a. The spring force acting on the activation element 32 in the direction of the axis 31 ensures that the activation element 32 with the wings 33a, 33b is pressed into the second groove pair 12b in a latching manner.

In the illustrated embodiment, the angle of rotation α between the rest position 4 and the use position 5 a = 180 °. In Fig. 1 and Fig. 2, a guide cam 25 is shown schematically, which extends in a running around the axis of rotation 31 of the key part 20 recess, which is not explicitly shown, the housing 10 extends. The guide cam 25 causes the key member 20 can exert a satisfactory rotational movement about the axis 31. At the same time, the guide cam 25 can move in the not explicitly illustrated recess against a first and / or a second stop, whereby the use position 5 and the rest position 4 of the key part 20 is defined.

The wings 33a, 33b may have a different width B and / or different lengths L to each other, so that a larger contact surface between the wings 33a, 33b and the first 12a and the second pair of grooves 12b is formed. As a result, the link 13 and the housing 10 receive larger forces starting from the key part 20.

B ez u se c h e l iest

key

passive position of 32

active position of 32

Rest position of 20

Use position of 20

outdoors

Motor vehicle housing

a housing half

b housing half

border area

groove

a first pair of grooves

b second pair of grooves

scenery

interior

Wall key part

first level of 30

second level of 30

spring element

Sliding surface, bridge

Guide cam bearing

axis energizer

wing

a longer wing

b shorter wing

takeaway

contour

recess

cylindrical body of 32 cavity of 32 lateral surface of 38

Claims

Patent claims

1. A combined mechanical and electronic key (1) for a motor vehicle, comprising a housing (10) which has at the edge region (1 1) a with a plurality of grooves (12) running link (13),

an electronics arranged in the housing (10),

a key part (20) having a bearing (30) rotatably mounted about an axis (31) along the link (13),

an activation element (32) which is received in the bearing (30) and at least two radially projecting wings (33) and a radially projecting carrier (34), wherein

the activation element (32) is movable between a passive (2) and an active position (3),

the key part (20) is movable between a rest position (4) and a use position (5),

in the rest position (4) and in the position of use (5) of the key part (20), in which the activation element (32) occupies the passive position (2), each wing (33) in each case a groove (12) is located, and

during the movement between the rest position (4) and the use position (5), in which the activation element (32) assumes the active position (3), the wings (33) are detached from the grooves (12) and the driver (34) engages in a contour (35) of the bearing (30),

characterized,

in that the link (13) has webs (24) between the grooves (12) serving as sliding surfaces (24) for the wings (33a, 33b) during movement of the key part (20), the wings (33a, 33b) being different are executed long, wherein at least the longer wing (33a) both in the rest position (4) and in the position of use (5) of the key part (20) in a groove (12) of the link (13) are located far above the webs (24) extends into the housing (10).

2. Combined key (1) according to claim 1,

characterized,

that the longer wing (33a) is extended at least by 50% of the length of the shorter wing (33b), in particular by at least 100% of the length of the shorter wing (33b) is extended.

3. Combined key (1) according to claim 1 or 2,

characterized,

the blades (33a, 33b) differ in their blade width (B).

4. Combined key (1) according to one of the preceding claims,

characterized,

in that the grooves (12) are composed at least of a first pair of grooves (12a) and a second pair of grooves (12b),

in the rest position (4) of the key part (20) the wings (33) in the first pair of grooves (12a) are engaged and in the position of use (5) of the key part (20) the wings (33) in the second pair of grooves (12b) are engaged wherein in particular the slide (13) is designed such that the second pair of grooves (12b) to the inner region (14) of the housing (10) is aligned.

5. Combined key (1) according to claim 4,

characterized,

in that at least one longer groove (12) of the first groove pair (12a) corresponding to the longer wing (33a) separates two webs (24) and at least one longer groove (12) of the second groove pair (12b) corresponding to the longer wing (33a) two webs (24) separated from each other.

Combined key (1) according to one of the preceding claims,

characterized,

in that the webs (24) extend in a circle around the axis of rotation (31) of the key part (20) and / or in that the webs (24) are designed as arcuate segments which run together around the axis of rotation (31) of the key part (20).

7. Combined key (1) according to one of the preceding claims,

characterized,

the activation element (32) is mounted so as to be axially displaceable relative to the axis of rotation (31) of the key part (1) in the bearing point (30).

8. Combined key (1) according to one of the preceding claims,

characterized,

in that the electronics are terminated by a wall (15) from the outer region (6) of the key (1), at the same time the wall (15) separating the link (13) from the electronics.

Combined key (1) according to one of the preceding claims,

characterized,

that the wings (33a, 33b) in the position of use (5) of the key part (20) to the wall (15), wherein in particular the driver (34) to the outer region (6) of the key part (20) is directed.

10. Combined key (1) according to one of the preceding claims,

characterized,

in that the contour (35) of the bearing (30) has at least two planes (21, 22), wherein a first plane (21) has a recess (36) in which the catch (34) moves during the movement of the key part (20). is recorded between his positions (4,5).

1 1. Combined key (1) according to claim 10,

characterized,

in that the contour (35) has a second plane (22) in which two recesses (37) are provided, in which the wings (33a, 33b) in the rest position (4) and the position of use (5) of the key part (20 ) are located.

12. Combined key (1) according to one of the preceding claims,

characterized,

in that the activating element (32) has a cylindrical main body (38) whose lateral surface (40) has the wings (33a, 33b) and the driver (34), which in particular extend in a star shape from the lateral surface (40).

13. Combined key (1) according to one of the preceding claims,

characterized,

in that the activating element (32) is spring-loaded, in particular that the activating element (32) is designed like a sleeve and has a cavity (39) in which a spring element (23) is arranged, which acts on the activating element (32).

14. Combined key (1) according to one of the preceding claims,

characterized,

the spring element (23) is a spiral spring (23) which exerts a force on the activation element (32) in the rest position (4) of the key part (20) in the direction of the axis (31) and at the same time applies a torque to the activation element (32). exercises.

15. Combined key (1) according to one of the preceding claims,

characterized,

in that the bearing point (30) has a guide cam (25) which extends in a recess running around the axis of rotation (31) of the key part (20).

16. Combined key (1) according to one of the preceding claims,

characterized,

the angle of rotation α between the rest position (4) and the position of use (5) is a = 180 °.

17. Combined key (1) according to one of the preceding claims, characterized

in that the wings (33a, 33b) lie in a plane on the activating element (32) which is different from the plane in which the catch (34) is arranged on the activating element (32).

18. Combined key (1) according to one of the preceding claims,

characterized,

the bearing point (30) is movably mounted within two housing halves (10a, 10b), wherein in particular the housing halves (10a, 10b) are aligned approximately perpendicular to the axis of rotation (31) of the key part (20).