EP1319112B1 - Device comprising a momentary contact switch for actuating a lock on a door or hinged lid, in particular, for a vehicle - Google Patents

Device comprising a momentary contact switch for actuating a lock on a door or hinged lid, in particular, for a vehicle Download PDF

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Publication number
EP1319112B1
EP1319112B1 EP01969602A EP01969602A EP1319112B1 EP 1319112 B1 EP1319112 B1 EP 1319112B1 EP 01969602 A EP01969602 A EP 01969602A EP 01969602 A EP01969602 A EP 01969602A EP 1319112 B1 EP1319112 B1 EP 1319112B1
Authority
EP
European Patent Office
Prior art keywords
accordance
plunger
tumblers
swivel
locking
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
EP01969602A
Other languages
German (de)
French (fr)
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EP1319112A1 (en
Inventor
Gerd Buschmann
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Huf Huelsbeck and Fuerst GmbH and Co KG
Original Assignee
Huf Huelsbeck and Fuerst GmbH and Co KG
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Filing date
Publication date
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Publication of EP1319112A1 publication Critical patent/EP1319112A1/en
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Publication of EP1319112B1 publication Critical patent/EP1319112B1/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Classifications

    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B13/00Devices preventing the key or the handle or both from being used
    • E05B13/10Devices preventing the key or the handle or both from being used formed by a lock arranged in the handle
    • E05B13/105Devices preventing the key or the handle or both from being used formed by a lock arranged in the handle the handle being a pushbutton
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B29/00Cylinder locks and other locks with plate tumblers which are set by pushing the key in
    • E05B29/0006Other locks than cylinder locks with plate tumblers
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S292/00Closure fasteners
    • Y10S292/37Push button operators
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T70/00Locks
    • Y10T70/70Operating mechanism
    • Y10T70/7441Key
    • Y10T70/7486Single key
    • Y10T70/7508Tumbler type
    • Y10T70/7559Cylinder type
    • Y10T70/7582Sliding plug
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T70/00Locks
    • Y10T70/70Operating mechanism
    • Y10T70/7441Key
    • Y10T70/7486Single key
    • Y10T70/7508Tumbler type
    • Y10T70/7559Cylinder type
    • Y10T70/7588Rotary plug
    • Y10T70/7593Sliding tumblers
    • Y10T70/7599Transverse of plug
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T70/00Locks
    • Y10T70/70Operating mechanism
    • Y10T70/7441Key
    • Y10T70/7486Single key
    • Y10T70/7508Tumbler type
    • Y10T70/7559Cylinder type
    • Y10T70/7588Rotary plug
    • Y10T70/7593Sliding tumblers
    • Y10T70/7599Transverse of plug
    • Y10T70/7616Including sidebar
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T70/00Locks
    • Y10T70/70Operating mechanism
    • Y10T70/7441Key
    • Y10T70/7757Push or pull key operation

Definitions

  • the invention is directed to a device of the type specified in the preamble of claim 1.
  • the operation of the closure is effected by a manually stroke-actuated button, which acts case by case on an input member of the closure provided on the door.
  • the device has a lock cylinder which can be actuated via a key associated with it.
  • the tumblers in the lock cylinder are transferred from their normally present locked position into a free position.
  • the tumblers protrude from the lock cylinder and cooperate with a locking edge, which is substantially parallel to an axial plane defined by the axis of the lock cylinder.
  • the lifting movement of the button is not transferred to the input element of the shutter. This is only possible if the tumblers have been brought by the key in its release position and therefore can no longer interact with the locking edge.
  • the lock cylinder is made in this case a tumbler receiving cylinder core and a cylinder guide in which the core is rotatable by means of the inserted correct key.
  • the cylinder guide has at least one locking channel whose lateral flanks generate blocking edges.
  • the user of the known device must therefore be informed of the sequence of operations, namely rotation of the key on the one hand and pressing the key serving as a key cylinder on the other hand, and pay attention to this order. Furthermore, relatively expensive components are required, which indeed transmit the lifting movement of the known lock cylinder in the release position of the tumblers, but block in the blocking position or bring about a freewheeling of the cooperating components.
  • FR 1 279 704. Another device with an axially liftable probe is known from FR 1 279 704.
  • the tumblers of a non-rotatable lock cylinder are usually in a locked position, but they can be transferred by means of an associated key in a release position.
  • the invention has for its object to develop a reliable device referred to in the preamble of claim 1 species, which avoids the disadvantages mentioned. This is inventively by in the plate of the Claim specified measures achieved, which have the following special significance.
  • the lock cylinder via the key need not be rotated. It is sufficient to insert the correct key, whereby the tumblers in the lock cylinder are transferred from their normally present locked position in their release position. Therefore, the lock cylinder is arranged non-rotatably in the device according to the invention. Movable is in the invention, however, the locking edge.
  • the stroke movement originating from the button is converted into a transverse movement of the blocking edge oriented transversely to an axial plane defined by the lock cylinder. This locking edge scans the lock cylinder on whether at least one of the tumblers still protrudes or whether, due to the correct inserted key, all tumblers are withdrawn.
  • the input member 40 of a closure not shown in detail is designed as a so-called "Bowden cable".
  • This Bowden cable 40 comprises a jacket 41 which is fixedly connected to a carrier 16, which advantageously also has an axial guide 17 for a button.
  • Bowden cable jacket 40 is a flexible soul, which is hinged to the working end of a working arm 45 of FIG. 1 and a lever 57 of the device shown in Fig. 4a or 6a.
  • the working arm 45 is rotatably connected to a pivot member 31 which scans the tumblers 21 and 21 'of a lock cylinder 20 with a locking edge 30.
  • pivot member 31 is provided with a C-profile 37, on the two legs 38, 38 ', the two locking edges 30, 30' are arranged.
  • the tumblers 21 are arranged in a row 23, which at the same time determines the axial plane through the lock cylinder 20.
  • the actuating unit 15 is under the pressure of a return spring 19, which is supported on the other hand on the working arm 45 and thus provides for its initial position in Fig. 1. But above all, the return spring 19 generates a restoring force 18 on the actuating unit 15. End stops 43, 44, optionally with an elastomer layer lying between them, provide a defined rest position 11.1 of the button 11 to be actuated with respect to the carrier 16.
  • a gentler scanning of the release position of the tumblers results in the second and third embodiments according to the devices 10.2 and 10.3 of Fig. 4a and 5.
  • the locking edges 30 and the not further shown further locking edges 30 'on a thrust member 32 the the actuating unit 15 of Fig. 4a or in the probe 11 of Fig. 5 is initially transversely movable. This is done by a slide guide 50 in an adjacent spool 34.
  • This slide guide 50 is arranged in duplicate and consists of two slot-shaped inclined guide members 52 in the spool 34 and two stationary sliding members 51 which are anchored in the local carrier 16 and in the axial guide 17.
  • the button has the 11 shown in FIG. 4b longitudinal slots 54 for the sliding parts 51.
  • the thrust member 32 is a similar U-profile 37 as the pivot member 31 of Fig. 3a and 3b.
  • Fig. 4a shows the position with the key removed 22. Then the locking edge 30 is at a distance 24.1 in approximately parallel position to the axial plane 23.
  • the transverse load springs 39 provide in conjunction with an end stop 49 between the two parts 32, 34 that these components 32, 34 are in the rest position 11.1 of Fig. 4a at a maximum distance 59 to each other.
  • a return spring 19 provides for a restoring force 18 of the actuator 15.
  • the acting between the thrust member 32 and the spool 34 resilient transverse loads 39 are minimized and do not affect the outstanding tumblers 21.
  • the lifting movement 12 is transmitted via guide rails 13 from the lifting part 11 to the slide 32.
  • the third embodiment 10.3 of FIG. 5 differs from that in Fig. 4a in that the lock cylinder 20 is not connected to the button 11 to a unit 15, as in Fig. 4a, but is stationary in the carrier 17 sits.
  • the thrust member 32, the spool 34 and the intermediate transverse load spring 39 are seated in a carriage 90, which is arranged longitudinally movable in the axial guide 17 in the sense of local lifting arrow 12.
  • a button 11 is firmly connected, which is jointly liftable.
  • the slide 90 is under the restoring force 18 of a return spring 19.
  • the extension position 11.1 of the probe 11 at the front of the axial guide 17 od by stop action of a flange 91..
  • the like. Determined, for example, cooperates with the inner surface of the front wall 92 of the housing.
  • the mode of operation of the device 10.3 corresponds to the above-described device 10.2 of FIGS. 4a, 4b.
  • the locking edge 30 is again on a pivot member 31 which is articulated at 33 at one end of a transmission lever 57.
  • the transmission lever 57 is fixedly mounted in the housing at 63 and his other arm engages the trained here as a Bowden cable 40 input member 40 of the closure.
  • the pivot member 31 has special guide means 60. These consist in the present case, on the one hand from a mitbewegbarer with the actuator 15 control pin 65 and on the other hand from a profiled pin guide 66 on the pivot member 31.
  • the pivot member 31 is under the action of a spring load 75.
  • the pin guide 66 is formed in the device 10.4 in Fig. 6b as a breakthrough 77 in the pivot member 31, the pin guide is formed by a sunken in the pivot member 31 groove 78 in the fifth device 10.5 of FIG.
  • This groove 78 has an analogous groove profile to the opening 77, which is why the same effects as in the device 10.4 arise here.
  • the transmission lever 57 is formed as an angle lever, which is why the input member 40 of the shutter can assume a different angular position than in the device 10.4.
  • attachment means 79 such as e.g. Rivets
  • the lock cylinder 20 is connected to the button 11 to the common actuator unit 15.
  • the control pins 65 are composed of two opposing sections, between which the here formed as a hollow body pivot member 31 is arranged in this case.
  • the control member 31 in Fig. 8 has two mutually opposite groove pairs.
  • FIGS. 9 and 10 show a sixth embodiment of the device 10.6 according to the invention, which in many respects corresponds to the device 10.5 of FIG. As far as matches exist, the previous description applies. It is enough to enter into the differences.
  • the button 11 of the actuating unit 15 is formed in two parts; it has a lid 80, which serves as a pressure surface 58 for pressure actuation 12, and consists of a sleeve member 93 with thickened bottom portion 94.
  • the lock cylinder 20 is supported with its front end on the inner surface 81 of the bottom part 94. In this area can also have an elastomer seal 95 may be provided for the keyway 26.
  • the lid 80 is designed as a flap lid and is mounted in front of the bottom part 94 of the sleeve 11 at 82.
  • the hinged lid 80 can be pivoted between the cover layer 80.1 shown in FIG. 9 and an open position 80.2 shown in FIG. 10 in the direction of the arrow 83.
  • a blocking lever 85 With the actuating unit 15 mitbeweglich, is a blocking lever 85.
  • the hinged lid 80 has a cam 84 which pivots in the folding movement 83 the blocking lever 85 between two positions 85.2 on the one hand and 85.1 on the other. If the cover 80 is in its open position 80.2 of FIG. 10, then the cam 84 has released the blocking lever 85. Then, the blocking lever 85 can be pivoted out due to a force acting on it return spring 88 in its blocking position 85.1, where he engages behind a blocking shoulder 87 in the axial guide 17 of the actuating unit 15. Then a lifting movement 12 of the unit 15 is blocked.
  • the bottom part 94 of the actuating unit 15 receives the end of the inserted key 22. Then located in its cover 80.1 hinged lid 80 overlaps the free end of the key. Now comes the mentioned pressure surface 58 of the actuator 15 to the effect.
  • This cover layer 80.1 may be secured by latching means 89 which are arranged between the free end of the hinged lid 80 on the one hand and the bottom part 94 of the actuating unit 15.

Description

Die Erfindung richtet sich auf eine Vorrichtung der im Oberbegriff des Anspruches 1 angegebenen Art. Die Betätigung des Verschlusses erfolgt durch einen manuell hubbetätigbaren Taster, welcher fallweise auf ein Eingangsglied des an der Tür vorgesehenen Verschlusses wirkt. Außerdem besitzt die Vorrichtung einen Schließzylinder, der über einen ihm zugeordneten Schlüssel betätigbar ist. Durch den Schlüssel werden die Zuhaltungen im Schließzylinder aus ihrer normalerweise vorliegenden Sperrlage in eine Freilage überführt. In der Sperrlage ragen die Zuhaltungen aus dem Schließzylinder heraus und wirken mit einer Sperrkante zusammen, die im wesentlichen parallel zu einer durch die Achse des Schließzylinders gelegten Axialebene verläuft. In der Sperrlage wird- die Hubbewegung des Tasters nicht auf das Eingangsglied des Verschlusses übertragen. Das ist erst möglich, wenn die Zuhaltungen vom Schlüssel in ihre Freigabelage gebracht worden sind und folglich nicht mehr mit der Sperrkante zusammenwirken können.The invention is directed to a device of the type specified in the preamble of claim 1. The operation of the closure is effected by a manually stroke-actuated button, which acts case by case on an input member of the closure provided on the door. In addition, the device has a lock cylinder which can be actuated via a key associated with it. By the key, the tumblers in the lock cylinder are transferred from their normally present locked position into a free position. In the locking position, the tumblers protrude from the lock cylinder and cooperate with a locking edge, which is substantially parallel to an axial plane defined by the axis of the lock cylinder. In the locked position, the lifting movement of the button is not transferred to the input element of the shutter. This is only possible if the tumblers have been brought by the key in its release position and therefore can no longer interact with the locking edge.

Bei der bekannten Vorrichtung dieser Art (DE 197 46 381 C1) ist der Schließzylinder selbst der hubbetätigbare Taster. Der Schließzylinder besteht in diesem Fall aus einem die Zuhaltungen aufnehmenden Zylinderkern und aus einer Zylinderführung, in welcher der Kern mittels des eingesteckten richtigen Schlüssels verdrehbar ist. Die Zylinderführung besitzt mindestens einen Sperrkanal, dessen seitliche Flanken Sperrkanten erzeugen. An den Sperrkanten stützen sich bei abgezogenem Schlüssel die aus dem Zylinderkern herausragenden Zuhaltungen ab und verhindern daher eine Drehung des Zylinderkerns. Bei dieser bekannten Vorrichtung ist die Sperrkante fest und die Zuhaltungen sind durch Drehung des Zylinderkerns demgegenüber rotativ beweglich. Um durch Hubbewegung des Schließzylinders erfolgreich auf den Verschluss einwirken zu können, ist vorausgehend über den im Zylinderkern steckenden Schlüssel eine Drehung des Zylinderkerns gegenüber der Zylinderführung erforderlich. Erfolgt die Drehbetätigung des Schlüssels nicht, so ist die Hubbewegung des bekannten Schließzylinder wirkungslos; die Hubbewegung wird in diesem Fall nicht auf ein hinter dem Schließzylinder angeordnetes Eingangsglied des Verschlusses übertragen.In the known device of this type (DE 197 46 381 C1) of the lock cylinder itself is the hub-actuated button. The lock cylinder is made in this case a tumbler receiving cylinder core and a cylinder guide in which the core is rotatable by means of the inserted correct key. The cylinder guide has at least one locking channel whose lateral flanks generate blocking edges. When the key is removed, the tumblers protruding from the cylinder core are supported on the locking edges and therefore prevent rotation of the cylinder core. In this known device, the locking edge is fixed and the tumblers are by contrast rotatable by rotation of the cylinder core. In order to be able to act successfully on the closure by stroke movement of the lock cylinder, a rotation of the cylinder core relative to the cylinder guide is required in advance via the key inserted in the cylinder core. If the turning operation of the key does not occur, then the lifting movement of the known lock cylinder is ineffective; the lifting movement is not transmitted in this case to an arranged behind the lock cylinder input member of the closure.

Der Benutzer der bekannten Vorrichtung muss folglich auf die Reihenfolge der Betätigungen, nämlich Drehung des Schlüssels einerseits und Drücken des als Tasters dienenden Schließzylinders andererseits hingewiesen werden und diese Reihenfolge beachten. Ferner sind verhältnismäßig aufwendige Bauteile erforderlich, welche die Hubbewegung des bekannten Schließzylinders zwar in Freigabelage der Zuhaltungen übertragen, aber in Sperrlage blockieren bzw. einem Freilauf der zusammenwirkenden Bauteile herbeiführen.The user of the known device must therefore be informed of the sequence of operations, namely rotation of the key on the one hand and pressing the key serving as a key cylinder on the other hand, and pay attention to this order. Furthermore, relatively expensive components are required, which indeed transmit the lifting movement of the known lock cylinder in the release position of the tumblers, but block in the blocking position or bring about a freewheeling of the cooperating components.

Bei einer Vorrichtung anderer Art, bei der die Zuhaltungen nicht mit einer seitlich neben ihnen angeordneten Sperrkante zusammenwirken (DE 199 27 500 A1) ist es bekannt, den Schließzylinder unverdrehbar in einer Zylinderführung anzuordnen. Normalerweise ist der Schließzylinder in seiner Hubbewegung gesperrt. Wenn man aber den Schlüssel einsteckt, dann ist eine lineare Hubbewegung möglich, wodurch eine Türverriegelung freigegeben wird. Eine Abtastung der Zuhaltungen durch seitliche Sperrkanten findet nicht statt:In a device of another type, in which the tumblers do not cooperate with a locking edge arranged laterally next to them (DE 199 27 500 A1), it is known to arrange the lock cylinder non-rotatably in a cylinder guide. Normally, the lock cylinder is locked in its stroke. But if you einsteckt the key, then a linear lifting movement is possible, whereby a door lock is released. A scanning of the tumblers by lateral blocking edges does not take place:

Eine weitere Vorrichtung mit einem axial hubbeweglichen Taster ist aus FR 1 279 704 bekannt. Die Zuhaltungen eines unverdrehbarren Schließzylinders befinden sich normalerweise in einer Sperrlage, aber sie können mittels eines zugehörigen Schtüssels in eine Freigabelage überführt werden.Another device with an axially liftable probe is known from FR 1 279 704. The tumblers of a non-rotatable lock cylinder are usually in a locked position, but they can be transferred by means of an associated key in a release position.

Der Erfindung liegt die Aufgabe zugrunde, eine zuverlässige Vorrichtung der im Oberbegriff des Anspruches 1 genannten Art zu entwickeln, welche die genannten Nachteile vermeidet. Dies wird erfindungsgemäß durch die im Kennzeichen des Anspruches 1 angegebenen Maßnahmen erreicht, denen folgende besondere Bedeutung zukommt.The invention has for its object to develop a reliable device referred to in the preamble of claim 1 species, which avoids the disadvantages mentioned. This is inventively by in the plate of the Claim specified measures achieved, which have the following special significance.

Bei der Erfindung braucht der Schließzylinder über den Schlüssel nicht gedreht zu werden. Es genügt ein Einstecken des richtigen Schlüssels, wodurch die Zuhaltungen im Schließzylinder aus ihrer normalerweise vorliegenden Sperrlage in ihre Freigabelage überführt werden. Deswegen ist der Schließzylinder bei der erfindungsgemäßen Vorrichtung unverdrehbar angeordnet. Beweglich ist bei der Erfindung dagegen die Sperrkante. Die vom Taster ausgehende Hubbewegung wird in eine quer zu einer durch den Schließzylinder gelegten Axialebene orientierte Querbewegung der Sperrkante umgewandelt. Diese Sperrkante tastet den Schließzylinder darauf ab, ob wenigstens eine der Zuhaltungen noch hinausragt oder ob, aufgrund des richtigen eingesteckten Schlüssels, alle Zuhaltungen zurückgezogen sind. Befinden sich nämlich wenigstens eine der Zuhaltungen noch in ihrer Sperrlage, so verhindert diese eine Querbewegung der Sperrkante. Die Umsteuerung des Eingangsglieds vom Verschluss erfolgt ausschließlich durch die Querbewegung der Sperrkante. Bleibt diese Querbewegung aus, so empfängt auch das Eingangsglied des Verschlusses keinen Impuls; der Verschluss wird dann nicht betätigt. Weitere Bauteile zur Wirksam- oder Unwirksamsetzung der Hubbewegung vom Taster gegenüber dem Verschluss sind nicht mehr erforderlich. Die Erfindung hat einen sehr einfachen Aufbau.In the invention, the lock cylinder via the key need not be rotated. It is sufficient to insert the correct key, whereby the tumblers in the lock cylinder are transferred from their normally present locked position in their release position. Therefore, the lock cylinder is arranged non-rotatably in the device according to the invention. Movable is in the invention, however, the locking edge. The stroke movement originating from the button is converted into a transverse movement of the blocking edge oriented transversely to an axial plane defined by the lock cylinder. This locking edge scans the lock cylinder on whether at least one of the tumblers still protrudes or whether, due to the correct inserted key, all tumblers are withdrawn. If at least one of the tumblers is still in its locked position, this prevents a transverse movement of the blocking edge. The reversal of the input member from the shutter is done exclusively by the transverse movement of the locking edge. If this transverse movement does not take place, then the input member of the shutter receives no pulse; the shutter will not be pressed. Other components for the effective or ineffective setting of the lifting movement of the button relative to the closure are no longer required. The invention has a very simple structure.

Die Erfindung kann in verschiedener Weise verwirklicht werden, wobei jeder Ausführung der Erfindung spezifische Vorteile zukommen. Die Sperrkante kann Bestandteil eines schwenkbar gelagerten Schwenkglieds, eines quergeführten Schubglieds oder eines sowohl eine Schwenk- als auch eine Schiebebewegung ausführendes Kombinationsglieds sein. Diese Maßnahmen sind in den Unteransprüchen, den Zeichnungen und in der Beschreibung näher erläutert. In den Zeichnungen ist die Erfindung in mehreren Ausführungsbeispielen schematisch dargestellt. Es zeigen:

Fig. 1,
teilweise im Schnitt, einen Längsschnitt durch eine erste Ausführungsform der erfindungsgemäßen Vorrichtung in ihrer Ruhestellung bei herausgezogenem Schlüssel,
Fig. 2,
ein Detail der Vorrichtung in Draufsicht, nämlich in Blickrichtung des Pfeils II von Fig. 1,
Fig. 3a
einen Querschnitt durch die Vorrichtung von Fig. 1 längs der Schnittlinie III - III von Fig. 1, wobei die in einer anderen Ebene liegenden weiteren Bauteile nicht mit eingezeichnet worden sind,
Fig. 3b
einen der Fig. 3a entsprechenden Querschnitt durch die Vorrichtung bei eingestecktem Schlüssel,
Fig. 4a
einen der Fig. 1 entsprechenden Axialschnitt durch eine zweite Ausführungsform der erfindungsgemäßen Vorrichtung bei abgezogenem Schlüssel,
Fig. 4b
die in Fig. 4a gezeigte Vorrichtung, wenn der Schlüssel eingesteckt und der zugehörige Taster sich in einer Zwischenstellung seiner Hubbewegung befindet, wobei die Endlage einiger Bauteile nach Vollzug der Hubbewegung strichpunktiert angedeutet sind,
Fig. 5
ein drittes Ausführungsbeispiel der Erfindung, zwar bei eingestecktem Schlüssel aber noch in der Ruhestellung,
Fig. 6a,
in einer der Fig. 5 entsprechenden Darstellung, ein viertes Ausführungsbeispiel der Erfindung in Ruhestellung bei eingestecktem Schlüssel,
Fig. 6b
die Vorrichtung von Fig. 6a in ihrer Ruhestellung, nach Vollzug der Hubbewegung,
Fig. 7
ein fünftes Ausführungsbeispiel der Erfindung, wenn sich der Taster in seiner ursprünglichen, durch eine Federkraft und Endanschläge bestimmten Ruhestellung befindet, wobei die Lage eines Bauteils in der Eindrückposition des Tasters strichpunktiert angedeutet ist und wobei der Schnittverlauf in Fig. 7 durch die Schnittlinie VII - VII von Fig. 8 verdeutlicht ist,
Fig. 8,
einen längs der Schnittlinie VIII - VIII von Fig. 7 ausgeführten Schnitt durch ein Teilstück der in Fig. 7 gezeigten Vorrichtung,
Fig. 9,
in einer gegenüber Fig. 7 abgewandelten Ausführung, ein sechstes Ausführungsbeispiel der erfindungsgemäßen Vorrichtung in der Ruheposition, wobei sich ein Bauteil, nämlich ein Klappdeckel, in seiner Zuklapplage befindet und
Fig. 10
die in Fig. 9 gezeigte Vorrichtung, wenn sich ein Bauteil, nämlich ein Klappdeckel, in einer Aufklapplage befindet und dadurch den Gebrauch des Tasters blockiert.
The invention can be implemented in various ways, with each embodiment of the invention having specific advantages. The locking edge may be part of a pivotally mounted pivot member, a transverse thrust member or a both a pan and a sliding movement exporting combination member. These measures are explained in more detail in the subclaims, the drawings and in the description. In the drawings, the invention is shown schematically in several embodiments. Show it:
Fig. 1,
partly in section, a longitudinal section through a first embodiment of the device according to the invention in its rest position with the key removed,
2,
a detail of the device in plan view, namely in the direction of arrow II of Fig. 1,
Fig. 3a
1 through the device of FIG. 1 along the section line III-III of FIG. 1, wherein the other components located in another plane have not been drawn,
Fig. 3b
3 a corresponding cross-section through the device with the key inserted,
Fig. 4a
1 corresponding axial section through a second embodiment of the device according to the invention with the key removed,
Fig. 4b
the device shown in Figure 4a, when the key is inserted and the associated button is in an intermediate position of its lifting movement, the end position of some components are indicated by dash-dotted lines after completion of the stroke movement,
Fig. 5
A third embodiment of the invention, although with inserted key but still in the rest position,
6a,
in a representation corresponding to FIG. 5, a fourth exemplary embodiment of the invention in the rest position with the key inserted,
Fig. 6b
the device of Fig. 6a in its rest position, after completion of the lifting movement,
Fig. 7
a fifth embodiment of the invention, when the button is in its original, determined by a spring force and limit stops rest position, the position a component in the push-in position of the probe is indicated by dash-dotted lines and wherein the sectional profile in FIG. 7 is illustrated by the section line VII - VII of FIG. 8,
8,
a section along the section line VIII - VIII of Figure 7 through a portion of the device shown in Figure 7,
Fig. 9,
in a comparison with FIG. 7 modified embodiment, a sixth embodiment of the device according to the invention in the rest position, wherein a component, namely a hinged lid, is in its Zuklapplage and
Fig. 10
the device shown in Fig. 9, when a component, namely a hinged lid, is in a Aufklapplage and thereby blocks the use of the button.

Im dargestellten Ausführungsbeispiel ist das Eingangsglied 40 eines nicht näher gezeigten Verschlusses als sogenannter "Bowdenzug" ausgebildet. Dieser Bowdenzug 40 umfasst einen Mantel 41, der ortsfest mit einem Träger 16 verbunden ist, der vorteilhafterweise zugleich eine Axialführung 17 für einen Taster aufweist. Im Bowdenzug-Mantel 40 befindet sich eine flexible Seele, die an dem Arbeitsende eines Arbeitsarms 45 gemäß Fig. 1 bzw. einem Umlenkhebel 57 der in Fig. 4a oder 6a gezeigten Vorrichtung angelenkt ist. Im erstgenannten Fall, bei der Vorrichtung 10.1, ist der Arbeitsarm 45 drehfest mit einem Schwenkglied 31 verbunden, welches mit einer Sperrkante 30 die Zuhaltungen 21 bzw. 21' eines Schließzylinders 20 abtastet. Dazu ist, wie die Fig. 3a und 3b zeigen, dass Schwenkglied 31 mit einem C-Profil 37 versehen, an dessen beiden Schenkeln 38, 38' die beiden Sperrkanten 30, 30' angeordnet sind. Die Zuhaltungen 21 sind in einer Reihe 23 angeordnet, welche zugleich die Axialebene durch den Schließzylinder 20 bestimmt.In the illustrated embodiment, the input member 40 of a closure not shown in detail is designed as a so-called "Bowden cable". This Bowden cable 40 comprises a jacket 41 which is fixedly connected to a carrier 16, which advantageously also has an axial guide 17 for a button. In Bowden cable jacket 40 is a flexible soul, which is hinged to the working end of a working arm 45 of FIG. 1 and a lever 57 of the device shown in Fig. 4a or 6a. In the former case, in the device 10.1, the working arm 45 is rotatably connected to a pivot member 31 which scans the tumblers 21 and 21 'of a lock cylinder 20 with a locking edge 30. For this purpose, as Figs. 3a and 3b show that pivot member 31 is provided with a C-profile 37, on the two legs 38, 38 ', the two locking edges 30, 30' are arranged. The tumblers 21 are arranged in a row 23, which at the same time determines the axial plane through the lock cylinder 20.

Damit im ersten Ausführungsbeispiel der Vorrichtung 10.1 von Fig. 1 bei abgezogenem Schlüssel oder falschem Schlüssel gewaltsame Betätigungen 12 des Tasters 11 bzw. der durch den Einbau des Schließzylinders 20 erzeugten Betätigungseinheit 15 nicht zerstört werden, ist am Arbeitsarm 45 eine aus Fig. 2 ersichtliche Sollbruchstelle 48 vorgesehen. Diese entsteht durch eine dünne Ausbildung einer zungenförmigen Abstützstelle 47. Bei Gewaltanwendungen bricht daher die zungenförmige Abstützstelle 47. Die in Sperrlage 21.1 befindlichen Zuhaltungen 21, 21' gemäß Fig. 3 a werden dann nicht beschädigt.Thus, in the first embodiment of the device 10.1 of Fig. 1 with removed key or wrong key violent operations 12 of the button 11 and the generated by the installation of the lock cylinder 20 actuator unit 15 are not destroyed, is on the working arm 45 a of FIG. 2nd apparent breaking point 48 provided. This results from a thin formation of a tongue-shaped support point 47. In violent applications, therefore, the tongue-shaped support point 47 breaks. The tumblers 21, 21 'in the locked position 21.1 according to FIG. 3 a are then not damaged.

Bei der Vorrichtung 10.1 von Fig. 1 steht die Betätigungseinheit 15 unter dem Druck einer Rückstellfeder 19, die sich anderends am Arbeitsarm 45 abstützt und damit für dessen Ausgangsposition in Fig. 1 sorgt. Die Rückstellfeder 19 erzeugt aber vor allem eine Rückstellkraft 18 auf die Betätigungseinheit 15. Dabei sorgen Endanschläge 43, 44, gegebenenfalls mit einer dazwischenliegenden Elastomerlage, für eine definierte Ruhestellung 11.1 des zu betätigenden Tasters 11 bezüglich dem Träger 16.In the device 10.1 of Fig. 1, the actuating unit 15 is under the pressure of a return spring 19, which is supported on the other hand on the working arm 45 and thus provides for its initial position in Fig. 1. But above all, the return spring 19 generates a restoring force 18 on the actuating unit 15. End stops 43, 44, optionally with an elastomer layer lying between them, provide a defined rest position 11.1 of the button 11 to be actuated with respect to the carrier 16.

Eine schonendere Abtastung der Freigabelage der Zuhaltungen ergibt sich im zweiten und dritten Ausführungsbeispiel gemäß den Vorrichtungen 10.2 und 10.3 von Fig. 4a und 5. Hier befinden sich die Sperrkanten 30 bzw. die nicht näher gezeigten weiteren Sperrkanten 30' an einem Schubglied 32, das in der Betätigungseinheit 15 von Fig. 4a oder im Taster 11 von Fig. 5 zunächst querbeweglich ist. Dies geschieht durch eine Kulissenführung 50 in einem benachbarten Steuerschieber 34. Diese Kulissenführung 50 ist doppelt angeordnet und besteht aus zwei schlitzförmigen geneigten Führungsteilen 52 im Steuerschieber 34 und aus zwei ortsfesten Gleitteilen 51, die im dortigen Träger 16 bzw. in der Axialführung 17 verankert sind. Um die Hubbewegung 12 zu erlauben, besitzt daher der Taster 11 die aus Fig. 4b ersichtlichen Längsschlitze 54 für die Gleitteile 51. Hier erfolgt eine sehr zuverlässige und doch schonende Abtastung der Zuhaltungen 21. Es versteht sich, dass auch hier das Schubglied 32 ein ähnliches U-Profil 37 wie das Schwenkglied 31 von Fig. 3a und 3b aufweist.A gentler scanning of the release position of the tumblers results in the second and third embodiments according to the devices 10.2 and 10.3 of Fig. 4a and 5. Here are the locking edges 30 and the not further shown further locking edges 30 'on a thrust member 32, the the actuating unit 15 of Fig. 4a or in the probe 11 of Fig. 5 is initially transversely movable. This is done by a slide guide 50 in an adjacent spool 34. This slide guide 50 is arranged in duplicate and consists of two slot-shaped inclined guide members 52 in the spool 34 and two stationary sliding members 51 which are anchored in the local carrier 16 and in the axial guide 17. In order to allow the lifting movement 12, therefore, the button has the 11 shown in FIG. 4b longitudinal slots 54 for the sliding parts 51. Here is a very reliable and yet gentle scanning of the tumblers 21. It is understood that the thrust member 32 is a similar U-profile 37 as the pivot member 31 of Fig. 3a and 3b.

Fig. 4a zeigt die Position bei entferntem Schlüssel 22. Dann befindet sich die Sperrkante 30 in einem Abstand 24.1 in etwa paralleler Lage zur Axialebene 23. Die Querbelastungsfedern 39 sorgen in Verbindung mit einem Endanschlag 49 zwischen den beiden Teilen 32, 34 dafür, dass sich diese Bauteile 32, 34 in der Ruhestellung 11.1 von Fig. 4a in einem Maximalabstand 59 zueinander befinden. Auch hier sorgt eine Rückstellfeder 19 für eine Rückstellkraft 18 der Betätigungseinheit 15. Wird hier eine Druckbetätigung 12 des Tasters 11 ausgeführt, so trifft die zum Schubglied gehörende Stoßstelle 55 nicht die entsprechende Gegenstoßstelle 56 des zugehörigen Übertragungshebels 57, sondern fährt wirkungslos in einen Freiraum 64 dieses Hebels 57 ein. Die zwischen dem Schubglied 32 und dem Steuerschieber 34 wirkenden federnden Querbelastungen 39 sind minimal ausgebildet und beeinträchtigen die herausragenden Zuhaltungen 21 nicht. Die Hubbewegung 12 wird über Führungsleisten 13 vom Hubteil 11 auf den Schieber 32 übertragen.Fig. 4a shows the position with the key removed 22. Then the locking edge 30 is at a distance 24.1 in approximately parallel position to the axial plane 23. The transverse load springs 39 provide in conjunction with an end stop 49 between the two parts 32, 34 that these components 32, 34 are in the rest position 11.1 of Fig. 4a at a maximum distance 59 to each other. Again, a return spring 19 provides for a restoring force 18 of the actuator 15. Will executed here a pressure actuation 12 of the probe 11, so the thrust member belonging joint 55 does not hit the corresponding counter-impact point 56 of the associated transmission lever 57, but moves ineffective in a free space 64 of this lever 57 a. The acting between the thrust member 32 and the spool 34 resilient transverse loads 39 are minimized and do not affect the outstanding tumblers 21. The lifting movement 12 is transmitted via guide rails 13 from the lifting part 11 to the slide 32.

Bei eingestecktem Schlüssel kann während einer Anfangsphase 61 seiner Bewegung der Schieber 32, gemäß Fig. 4b, über die eingefahrenen Zuhaltungen 21 frei hinweg fahren und kommt mit seiner Stoßstelle 55 in axialer Ausrichtung mit der Gegenstoßstelle 56 vom Übertragungskabel 57. In der Zwischenstellung 11.2 von Fig. 4b ist der Abstand 24.2 zwischen der Sperrkante 30 und der Axialebene 23 praktisch auf Null zurückgegangen. Während der in Fig. 4b vermerkten Restphase 62 der Bewegung findet dann eine ausschließliche parallel zur Axialebene verlaufende Verschiebung 36 statt. In der vollen Eindrückposition 11.3 der Betätigungseinheit 15 von Fig. 4b ist schließlich der dortige Übertragungshebel 57 in die strichpunktiert verdeutlichte Schwenkendstellung gelangt, wo über die Seele 42 des Bowdenzugs 40 der Verschluss in der Tür geöffnet worden ist.When the key is inserted, during an initial phase 61 of its movement, the slide 32, as shown in FIG. 4b, can move freely past the retracted tumblers 21 and comes with its joint 55 in axial alignment with the counter-abutment 56 of the transmission cable 57. In the intermediate position 11. 2 of FIG 4b, the distance 24.2 between the locking edge 30 and the axial plane 23 has decreased substantially to zero. During the residual phase 62 of the movement, which is noted in FIG. 4b, an exclusive displacement 36 takes place parallel to the axial plane. In the full Eindrückposition 11.3 of the actuator 15 of Fig. 4b finally the local transmission lever 57 is reached in the dash-dotted lines clarified Schwenkendstellung where on the soul 42 of the Bowden cable 40, the closure has been opened in the door.

Das dritte Ausführungsbeispiel 10.3 von Fig. 5 unterscheidet sich von demjenigen in Fig. 4a dadurch, dass der Schließzylinder 20 nicht mit dem Taster 11 zu einer Baueinheit 15, wie in Fig. 4a, verbunden ist, sondern ortsfest im Träger 17 sitzt. Das Schubglied 32, der Steuerschieber 34 und die dazwischenliegende Querbelastungsfeder 39 sitzen in einem Schlitten 90, der in der Axialführung 17 längsbeweglich im Sinne des dortigen Hubbewegungspfeils 12 angeordnet ist. Mit dem Schlitten 90 ist ein Taster 11 fest verbunden, der damit gemeinsam hubbeweglich ist. Der Schlitten 90 steht unter der Rückstellkraft 18 einer Rückstellfeder 19. Die Ausschublage 11.1 des Tasters 11 an der Vorderseite der Axialführung 17 wird durch Anschlagwirkung eines Flanschs 91 od. dgl. bestimmt, der z.B. mit der Innenfläche der Vorderwand 92 vom Gehäuse zusammenwirkt. Im Übrigen entspricht die Wirkungsweise der Vorrichtung 10.3 der vorbeschriebenen Vorrichtung 10.2 von Fig. 4a, 4b.The third embodiment 10.3 of FIG. 5 differs from that in Fig. 4a in that the lock cylinder 20 is not connected to the button 11 to a unit 15, as in Fig. 4a, but is stationary in the carrier 17 sits. The thrust member 32, the spool 34 and the intermediate transverse load spring 39 are seated in a carriage 90, which is arranged longitudinally movable in the axial guide 17 in the sense of local lifting arrow 12. With the carriage 90, a button 11 is firmly connected, which is jointly liftable. The slide 90 is under the restoring force 18 of a return spring 19. The extension position 11.1 of the probe 11 at the front of the axial guide 17 od by stop action of a flange 91.. The like. Determined, for example, cooperates with the inner surface of the front wall 92 of the housing. Incidentally, the mode of operation of the device 10.3 corresponds to the above-described device 10.2 of FIGS. 4a, 4b.

Bei der vierten Vorrichtung 10.4 von Fig. 6a und 6b befindet sich die Sperrkante 30 wieder an einem Schwenkglied 31, welches bei 33 am einen Ende eines Übertragungshebels 57 angelenkt ist. Der Übertragungshebel 57 ist bei 63 ortsfest im Gehäuse gelagert und sein anderer Arm greift an dem auch hier als Bowdenzug 40 ausgebildeten Eingangsglied 40 des Verschlusses an. Das Schwenkglied 31 besitzt besondere Führungsmittel 60. Diese bestehen im vorliegenden Fall einerseits aus einem mit der Betätigungseinheit 15 mitbeweglichen Steuerzapfen 65 und andererseits aus einer profilierten Zapfenführung 66 am Schwenkglied 31. Das Schwenkglied 31 steht unter der Wirkung einer Federbelastung 75. Dazu wird im vorliegenden Fall eine Schenkelfeder verwendet, deren ein Schenkel bestrebt ist das Schwenkglied 31 mit seiner Sperrkante 30 gegen die in der Sperrlage befindlichen heraustretenden Zuhaltungen 21 herangeschwenkt zu halten. Ohne Schlüssel 22 ergibt sich die in Fig. 6a ausgezogen gezeichnete Ausgangs-Position des Schwenkglieds 31. Erfolgt in diesem Fall eine Betätigung des Tasters 11 im Sinne des Pfeils 12 von Fig. 6a, so wird das Schwenkglied 31 nicht mitgenommen. Die Betätigungseinheit 15 bewegt sich zwar mit dem in ihr befindlichen Steuerzapfen 65 im Sinne des Pfeils 74 von Fig. 6a, doch gelangt der Steuerzapfen in ein Freilaufstück 69 der Steuerkurve 67. Bei der axialen Bewegung des dabei mit bewegten Schließzylinders 20 gleiten die herausragenden Zuhaltungen 21 an der Sperrkante 30 des ruhenden Wirkungsglieds 31 entlang. Das Schwenkglied 31 bleibt wirkungslos. Das am Überlasthebel 57 angelenkte Schwenkglied 31 bleibt in Ruhe und der Verschluss wird nicht betätigt.In the fourth device 10.4 of Fig. 6a and 6b, the locking edge 30 is again on a pivot member 31 which is articulated at 33 at one end of a transmission lever 57. The transmission lever 57 is fixedly mounted in the housing at 63 and his other arm engages the trained here as a Bowden cable 40 input member 40 of the closure. The pivot member 31 has special guide means 60. These consist in the present case, on the one hand from a mitbewegbarer with the actuator 15 control pin 65 and on the other hand from a profiled pin guide 66 on the pivot member 31. The pivot member 31 is under the action of a spring load 75. This is in the present case used a leg spring whose one leg endeavors to keep the pivot member 31 with its locking edge 30 against the located in the locked position protruding tumblers 21 swung. Without key 22 results in the drawn in Fig. 6a drawn initial position of the pivot member 31. If, in this case, an actuation of the button 11 in the direction of the arrow 12 of Fig. 6a, the pivot member 31 is not taken. Although the actuator unit 15 moves with the control pin 65 located in it in the direction of the arrow 74 of Fig. 6a, but the control pin enters a freewheel 69 of the cam 67. During the axial movement of the case with moving lock cylinder 20 slide the outstanding tumblers 21st along the blocking edge 30 of the resting action member 31 along. The pivot member 31 is ineffective. The hinged on the overload lever 57 pivot member 31 remains at rest and the shutter is not actuated.

Wenn, ausgehend von Fig. 6a, die Zuhaltungen 21 durch den eingesteckten richtigen Schlüssel 22 in ihre Freigabelage gekommen sind, dann ist die Sperrkante 30 des Schwenkglieds 31 von den Zuhaltungen 21 frei. Dann kann das Schwenkglied 31, unter der Wirkung der erwähnten Federbelastung 75 im Sinne des Pfeils 73 in die strichpunktiert angedeutete Schwenkposition verschwenkt werden. Dann gelangt die Steuerkurve 67 in die ebenfalls in Fig. 6a strichpunktiert verdeutlichte Schwenkposition und befindet sich über den eingefahrenen Zuhaltungen 21. Dann ist aber eine aus Fig. 6b ersichtliche Mitnahmeschulter 68 bereits in Fig. 6a in eine axiale Ausrichtung mit dem dort ausgezogen gezeichneten Steuerzapfen 65 gekommen. Bei der Betätigung der Einheit 15 im Sinne des Pfeils 12 gelangt, nach einer mit dem Pfeil 71 gekennzeichneten Anfangsphase der Hubbewegung - wenn eine Zwischenstellung 11.2 erreicht ist - Gelangt der Steuerzapfen 65 in die strichpunktiert angedeutete Position, wo er in Berührung mit der Mitnahmeschulter 68 kommt. Während der dann folgenden Restphase 72 des aus Fig. 6b ersichtlichen Gesamthubs 70 erfolgt eine im wesentlichen axiale Weiterbewegung 74 des Schwenkglieds 31. Der Übertragungshebel 57 wird dabei gegen die Wirkung der Schenkelfeder in die aus Fig. 6b ersichtliche Arbeitsstellung verschwenkt und nimmt dabei die Anschlussstelle des Bowdenzugs 40 mit. Es findet eine Betätigung des Verschlusses statt.If, starting from Fig. 6a, the tumblers 21 have come through the inserted correct key 22 in its release position, then the locking edge 30 of the pivot member 31 of the tumblers 21 free. Then, the pivot member 31, be pivoted under the action of the mentioned spring load 75 in the direction of the arrow 73 in the dash-dotted lines indicated pivot position. Then, the control cam 67 enters into the likewise in Fig. 6a dash-dotted lines clarified pivot position and is located on the retracted tumblers 21. Then, however, from Fig. 6b apparent entrainment shoulder 68 already in Fig. 6a in an axial alignment with the drawn there drawn control pin 65 come. Upon actuation of the unit 15 in the direction of the arrow 12, after a marked with the arrow 71 initial phase of the lifting movement - if an intermediate position 11.2 is reached - If the control pin 65 in the dash-dotted lines indicated position where it comes into contact with the driving shoulder 68. During the subsequent rest phase 72 of the total stroke 70 shown in FIG. 6b, a substantially axial further movement 74 of the pivoting member 31 takes place. The transmission lever 57 is pivoted against the action of the leg spring into the working position shown in FIG. 6b, taking up the connection point of the Bowden cable 40 with. There is an actuation of the closure instead.

Während die Zapfenführung 66 bei der Vorrichtung 10.4 in Fig. 6b als Durchbruch 77 im Schwenkglied 31 ausgebildet ist, ist bei der fünften Vorrichtung 10.5 von Fig. 7 die Zapfenführung durch eine im Schwenkglied 31 eingelassene Nut 78 ausgebildet. Diese Nut 78 hat ein analoges Nutprofil zum Durchbruch 77, weshalb sich hier die gleichen Wirkungen wie bei der Vorrichtung 10.4 ergeben. Bei der Vorrichtung 10.5 von Fig. 7 ist der Übertragungshebel 57 als Winkelhebel ausgebildet, weshalb das Eingangsglied 40 des Verschlusses eine andere Winkellage als bei der Vorrichtung 10.4 einnehmen kann. Durch Befestigungsmittel 79, wie z.B. Niete, ist der Schließzylinder 20 mit dem Taster 11 zur gemeinsamen Betätigungseinheit 15 verbunden. Ausweislich des versprungenen Schnitts von Fig. 8 sind in diesem Fall die Steuerzapfen 65 aus zwei einander gegenüberliegenden Teilstücken zusammengesetzt, zwischen denen das hier als Hohlkörper ausgebildete Schwenkglied 31 angeordnet ist. Entsprechend den Steuerzapfen-Teilstücken 65 besitzt das Steuerglied 31 in Fig. 8 zwei einander gegenüberliegende Nuten-Paare.While the pin guide 66 is formed in the device 10.4 in Fig. 6b as a breakthrough 77 in the pivot member 31, the pin guide is formed by a sunken in the pivot member 31 groove 78 in the fifth device 10.5 of FIG. This groove 78 has an analogous groove profile to the opening 77, which is why the same effects as in the device 10.4 arise here. In the device 10.5 of Fig. 7, the transmission lever 57 is formed as an angle lever, which is why the input member 40 of the shutter can assume a different angular position than in the device 10.4. By attachment means 79, such as e.g. Rivets, the lock cylinder 20 is connected to the button 11 to the common actuator unit 15. Evidence of the interleaved section of Fig. 8, the control pins 65 are composed of two opposing sections, between which the here formed as a hollow body pivot member 31 is arranged in this case. Corresponding to the control pin sections 65, the control member 31 in Fig. 8 has two mutually opposite groove pairs.

In Fig. 9 und 10 ist eine sechste Ausführungsform der erfindungsgemäßen Vorrichtung 10.6 gezeigt, die in vielerlei Hinsicht der Vorrichtung 10.5 von Fig. 7 entspricht. Soweit Übereinstimmungen bestehen, gilt die bisherige Beschreibung. Es genügt auf die Unterschiede einzugehen.FIGS. 9 and 10 show a sixth embodiment of the device 10.6 according to the invention, which in many respects corresponds to the device 10.5 of FIG. As far as matches exist, the previous description applies. It is enough to enter into the differences.

Bei der Vorrichtung 10.6 von Fig. 9 und 10 ist der Taster 11 der Betätigungseinheit 15 zweiteilig ausgebildet; er besitzt einen Deckel 80, der als Druckfläche 58 zur Druckbetätigung 12 dient, und aus einem Hülsenteil 93 mit verdickten Bodenteil 94 besteht. Der Schließzylinder 20 stützt sich mit seinem Stirnende an der Innenfläche 81 des Bodenteils 94 ab. In diesem Bereich kann auch noch eine Elastomerdichtung 95 für den Schlüsselkanal 26 vorgesehen sein. Der Deckel 80 ist als Klappedeckel ausgebildet und ist vor dem Bodenteil 94 der Hülse 11 bei 82 gelagert. Der Klappdeckel 80 kann zwischen der in Fig. 9 gezeigten Abdecklage 80.1 und einer aus Fig. 10 ersichtlichen Offenlage 80.2 im Sinne des Pfeils 83 verschwenkt werden.In the device 10.6 of Fig. 9 and 10, the button 11 of the actuating unit 15 is formed in two parts; it has a lid 80, which serves as a pressure surface 58 for pressure actuation 12, and consists of a sleeve member 93 with thickened bottom portion 94. The lock cylinder 20 is supported with its front end on the inner surface 81 of the bottom part 94. In this area can also have an elastomer seal 95 may be provided for the keyway 26. The lid 80 is designed as a flap lid and is mounted in front of the bottom part 94 of the sleeve 11 at 82. The hinged lid 80 can be pivoted between the cover layer 80.1 shown in FIG. 9 and an open position 80.2 shown in FIG. 10 in the direction of the arrow 83.

Mit der Betätigungseinheit 15 mitbeweglich, ist ein Blockierhebel 85. Der Klappdeckel 80 besitzt einen Nocken 84, welcher bei der Klappbewegung 83 den Blockierhebel 85 zwischen zwei Positionen 85.2 einerseits und 85.1 andererseits verschwenkt. Befindet sich der Deckel 80 in seiner Offenlage 80.2 von Fig. 10, so hat der Nocken 84 den Blockierhebel 85 freigegeben. Dann kann der Blockierhebel 85 aufgrund einer auf ihn wirkenden Rückstellfeder 88 in seine Blockierposition 85.1 herausgeschwenkt werden, wo er eine Blockierschulter 87 in der Axialführung 17 der Betätigungseinheit 15 hintergreift. Dann ist eine Hubbewegung 12 der Baueinheit 15 blockiert.With the actuating unit 15 mitbeweglich, is a blocking lever 85. The hinged lid 80 has a cam 84 which pivots in the folding movement 83 the blocking lever 85 between two positions 85.2 on the one hand and 85.1 on the other. If the cover 80 is in its open position 80.2 of FIG. 10, then the cam 84 has released the blocking lever 85. Then, the blocking lever 85 can be pivoted out due to a force acting on it return spring 88 in its blocking position 85.1, where he engages behind a blocking shoulder 87 in the axial guide 17 of the actuating unit 15. Then a lifting movement 12 of the unit 15 is blocked.

Wenn der Klappdeckel 80 sich in seiner Abdecklage 80.1 von Fig. 9 befindet, so drückt sein Nocken 84 den Blockierhebel 85 in seine aus Fig. 9 ersichtliche Deblockier-Position 85.2. Dann besteht kein sperrwirksamer Eingriff zwischen der Betätigungseinheit 15 und ihrer Axialführung 17. Dann ist eine Hubbewegung 12 der Betätigungseinheit 15 ohne weiteres möglich und führt zu der bereits mehrfach beschriebenen Umsteuerung des Verschlusses über das Eingangsglied 40.When the hinged lid 80 is in its cover 80.1 of Fig. 9, so its cam 84 presses the blocking lever 85 in its apparent from Fig. 9 deblocking position 85.2. Then there is no locking effective engagement between the actuator 15 and its axial guide 17. Then, a lifting movement 12 of the actuator 15 is readily possible and leads to the reversal of the closure already described several times via the input member 40th

Der Bodenteil 94 der Betätigungseinheit 15 nimmt das Ende des eingesteckten Schlüssels 22 auf. Dann übergreift der in seiner Abdecklage 80.1 befindliche Klappdeckel 80 das freie Ende des Schlüssels. Jetzt kommt die erwähnte Druckfläche 58 der Betätigungseinheit 15 zur Wirkung. Diese Abdecklage 80.1 kann durch Rastmittel 89 gesichert sein, die zwischen dem freien Ende des Klappdeckels 80 einerseits und dem Bodenteil 94 der Betätigungseinheit 15 angeordnet sind.The bottom part 94 of the actuating unit 15 receives the end of the inserted key 22. Then located in its cover 80.1 hinged lid 80 overlaps the free end of the key. Now comes the mentioned pressure surface 58 of the actuator 15 to the effect. This cover layer 80.1 may be secured by latching means 89 which are arranged between the free end of the hinged lid 80 on the one hand and the bottom part 94 of the actuating unit 15.

Bezugszeichenliste :List of reference numbers:

10.110.1
erstes Ausführungsbeispiel der Vorrichtung (Fig. 1 bis 3b)First embodiment of the device (FIGS. 1 to 3b)
10.210.2
zweites Ausführungsbeispiel der Vorrichtung (Fig. 4a, 4b)Second Embodiment of the Device (FIGS. 4a, 4b)
10.310.3
drittes Ausführungsbeispiel der Vorrichtung (Fig. 5)Third embodiment of the device (FIG. 5)
10.410.4
viertes Ausführungsbeispiel der Vorrichtung (Fig. 6a, 6b)Fourth Embodiment of the Device (FIGS. 6a, 6b)
10.510.5
fünftes Ausführungsbeispiel der Vorrichtung (Fig. 7, 8)Fifth Embodiment of the Device (FIGS. 7, 8)
10.610.6
sechstes Ausführungsbeispiel der Vorrichtung (Fig. 9, 10)Sixth Embodiment of the Device (FIGS. 9, 10)
1111
Tasterbutton
11.111.1
Ruhestellung von 11Rest position of 11
11.211.2
Zwischenstellung von 11Intermediate position of 11
11.311.3
Endstellung von 11; EindrückpositionEnd position of 11; push-in
1212
Pfeil der Hubbewegung von 11 bzw. 15, DruckbetätigungArrow of the lifting movement of 11 or 15, pressure actuation
1313
Führungsleiste für 32 (Fig. a, b)Guide bar for 32 (Figs. A, b)
1414
Einsteckbewegung von 22 (Fig. 1)Plug-in movement of 22 (Fig. 1)
1515
Betätigungseinheit aus 11, 20 (Fig. 1)Actuator of FIGS. 11, 20 (FIG. 1)
1616
Träger für 20 (Fig. 5)Carrier for 20 (Figure 5)
1717
Axialführung in 16 für 11 (Fig. 5)Axial guide in 16 for 11 (Fig. 5)
1818
Rückstellkraft für 11 bzw. 15 (Fig. 1)Restoring force for 11 or 15 (FIG. 1)
1919
Rückstellfeder für 18 bzw. 90 (Fig. 1, 5)Return spring for 18 or 90 (FIGS. 1, 5)
2020
Schließzylinderlock cylinder
2121
Zuhaltung, erste ReiheTumbler, first row
21'21 '
Zuhaltung, zweite ReiheTumbler, second row
21.121.1
Sperrlage von 21Blocked position of 21
21.221.2
Freigabelage von 21Release date of 21
2222
Schlüsselkey
2323
Axialebene durch 20, Anordnung von 21 bzw. 21' in 20 (Fig. 1)Axial plane through 20, arrangement of 21 or 21 'in Fig. 20 (Fig. 1)
24.124.1
Abstand zwischen 30, 23 bei 11.1 (Fig. 4a)Distance between 30, 23 at 11.1 (Fig. 4a)
24.224.2
Abstand zwischen 30, 23 bei 11.2 bzw. 11.3 (Fig. 4b)Distance between 30, 23 at 11.2 or 11.3 (Fig. 4b)
2525
Schlüsselkanal in 20 (Fig. 1, 9)Key channel in Fig. 20 (Figs. 1, 9)
2626
Kanalöffnung (Fig. 9)Channel opening (Fig. 9)
2727
ortsfester Vorsprung an 16 (Fig. 1)fixed projection on 16 (Fig. 1)
2828
herausragendes Ende von 21 (Fig. 3a)outstanding end of 21 (Figure 3a)
28'28 '
herausragendes Ende von 21' (Fig. 3a)outstanding end of 21 '(Figure 3a)
2929
unrundes Profil von 20, Rechteckprofil (Fig. 3 a)non-circular profile of 20, rectangular profile (FIG. 3 a)
3030
erste Sperrkante für 21 (Fig. 1, 3a)first blocking edge for 21 (FIGS. 1, 3a)
30'30 '
zweite Sperrkante für 21' (Fig. 3a)second blocking edge for 21 '(FIG. 3a)
30.130.1
Ruhestellung von 30 (Fig. 1, 4a)Rest position of 30 (FIG. 1, 4a)
30.230.2
Arbeitsstellung von 30 (Fig. 1, 4b)Working position of 30 (FIGS. 1, 4b)
3131
Schwenkglied (Fig. 1, 6a)Swivel member (FIGS. 1, 6a)
3232
Schubglied (Fig. 4a)Thrust member (Fig. 4a)
3333
Lagerzapfen, Schwenklager für 31 (Fig. 1, 6a)Bearing, swivel bearing for 31 (FIGS. 1, 6a)
33.133.1
Position von 33 bei 11.1 (Fig. 1, 6a)Position of 33 at 11.1 (FIGS. 1, 6a)
33.333.3
Lage von 33 bei 11.3 (Fig. 1, 6a)Location of 33 at 11.3 (Fig. 1, 6a)
3434
Steuerschieber (Fig. 4a)Spool (fig. 4a)
3535
Querbewegung von 30 bzw. 32 (Fig. 1, 4b)Transverse movement of 30 or 32 (FIGS. 1, 4b)
3636
Parallelverschiebung von 32 bzw. 30 (Fig. 4a)Parallel shift of 32 or 30 (FIG. 4a)
3737
C-förmiges Profil von 31 bzw. 32 (Fig. 3a, 3b)C-shaped profile of 31 or 32 (FIGS. 3a, 3b)
38, 38'38, 38 '
Schenkel von 37Thighs of 37
3939
Querbelastungsfeder zwischen 32, 34 (Fig. 4a)Cross load spring between 32, 34 (FIG. 4a)
4040
Eingangsglied, BowdenzugEntrance link, Bowden cable
4141
Mantel von 40Coat of 40
4242
Seele von 40Soul of 40
4343
Endanschlag an 11 bzw. 15 (Fig. 1)End stop at 11 or 15 (FIG. 1)
4444
Endanschlag an 16 (Fig. 1)End stop at 16 (Fig. 1)
4545
Arbeitsarm an 31 (Fig. 1)Working arm at 31 (Fig. 1)
4646
Schwenkbewegung von 45 zwischen 33.1 und 33.3 (Fig. 1)Pivoting movement of 45 between 33.1 and 33.3 (Figure 1)
4747
Abstützstelle von 45 an 27 (Fig. 1)Support point from 45 to 27 (Figure 1)
4848
Sollbruchstelle von 47 (Fig. 2)Predetermined breaking point of 47 (FIG. 2)
4949
Endanschlag zwischen 32, 34 (Fig. 4a)End stop between 32, 34 (FIG. 4a)
5050
Kulissenführung (Fig. 4a, 5)Slotted guide (Fig. 4a, 5)
5151
ortsfester Kulissenteil von 50, Gleitteilfixed frame part of 50, sliding part
5252
mitbeweglicher Kulissenteil von 50, Führungsteilmitbeweglicher link part of 50, guide part
5353
anschlagwirksames Kulissenende von 52 (Fig. 4a)stop effective gate end of 52 (FIG. 4a)
5454
Längsschlitz in 11 für 51 (Fig. 4b)Longitudinal slot in 11 for 51 (FIG. 4b)
5555
Stoßstelle an 32 (Fig. 4a)Joint at 32 (Figure 4a)
5656
Gegenstoßstelle für 55 an 57 (Fig. 4a)Counter thrust point for 55 at 57 (FIG. 4a)
5757
Umlenkhebel, Übertragungshebel für 36 gegenüber 41 (Fig. 4a bis 7)Lever, transmission lever for 36 to 41 (FIGS. 4a to 7)
5858
Druckfläche von 80 (Fig. 9)Printing area of 80 (Fig. 9)
5959
Maximalabstand zwischen 32, 34 (Fig. 4a)Maximum distance between 32, 34 (FIG. 4a)
6060
Führungsmittel in 31 (Fig. 6a)Guide means in Fig. 31 (Fig. 6a)
6161
Anfangsphase von 12 (Fig. 4b)Initial phase of 12 (Figure 4b)
6262
Restphase von 12 (Fig. 4b)Remaining phase of 12 (Fig. 4b)
6363
ortsfestes Lager für 57 an 16 (Fig. 4a)fixed bearing for 57 to 16 (Figure 4a)
6464
Freiraum an 57 für 55 (Fig. 4a)Clearance at 57 for 55 (Figure 4a)
6565
Steuerzapfen von 60 (Fig. 6b), Zapfen-Teilstück (Fig. 8)Control pin of 60 (Figure 6b), pin section (Figure 8)
6666
Zapfenführung von 60 an 65 (Fig. 6b)Pin guide from 60 to 65 (Fig. 6b)
6767
Steuerkurve für. 65 in 66 (Fig. 6b)Cam for. 65 in FIG. 66 (FIG. 6b)
6868
Mitnahmeschulter in 66 (Fig. 6b)Carrying shoulder in 66 (FIG. 6b)
6969
Freilaufstück in 66 für 65 (Fig. 6a, 6b)Freewheel piece in 66 for 65 (FIGS. 6a, 6b)
7070
Gesamthub für 11, 15 aus 71, 72 (Fig. 6b)Total stroke for 11, 15 from 71, 72 (Fig. 6b)
7171
Anfangsphase von 12 (Fig. 6a)Initial phase of 12 (Figure 6a)
7272
Restphase von 12 (Fig. 6b)Remaining phase of 12 (FIG. 6b)
7373
Schwenkbewegung von 31 (Fig. 6a)Pivotal movement of 31 (Figure 6a)
7474
Axialbewegung von 31 (Fig. 6a, 6b)Axial movement of 31 (Figures 6a, 6b)
7575
Federbelastung von 31 gegenüber 57 (Fig. 6a)Spring load from 31 to 57 (Figure 6a)
7676
Schenkelfeder für 75Leg spring for 75
7777
Durchbruch in 66 (Fig. 6a)Breakthrough in 66 (Figure 6a)
7878
Nut von 66 (Fig. 7, 8)Groove of 66 (Figs. 7, 8)
7979
Befestigungsmittel von 20 an 11 (Fig. 7)Fastener from 20 to 11 (Figure 7)
8080
Klappdeckel (Fig. 9, 10)Hinged lid (Fig. 9, 10)
80.180.1
Abdecklage von 80Cover layer of 80
80.280.2
Offenlage von 80Open situation of 80
8181
Innenfläche von 94 (Fig. 9)Inner surface of 94 (Figure 9)
8282
Schwenklager von 80Swivel bearing of 80
8383
Klappbewegungspfeil von 80 (Fig. 9)Folding motion arrow of 80 (FIG. 9)
8484
Nocken an 80 für 65 (Fig. 9, 10)Cam on 80 for 65 (FIGS. 9, 10)
8585
Blockierhebel (Fig. 9, 10)Blocking lever (Fig. 9, 10)
85.185.1
Blockierposition von 85 (Fig. 10)Blocking position of 85 (FIG. 10)
85.285.2
Deblockier-Position von 85 (Fig. 9)Deblocking position of 85 (FIG. 9)
8686
Schwenkbewegungspfeil von 85 (Fig. 9)Swinging motion arrow of 85 (Fig. 9)
8787
Blockierschulter an 16 (Fig. 9)Blocking shoulder at 16 (Figure 9)
8888
Rückstellfeder für 85 (Fig. 10)Return spring for 85 (Fig. 10)
8989
Rastmittel zwischen 80 und 11Locking means between 80 and 11
9090
Schlitten für 34, 32 (Fig. 5)Carriage for 34, 32 (FIG. 5)
9191
Anschlagflansch an 11 (Fig. 5)Stop flange at 11 (Fig. 5)
9292
Gehäusevorderwand von 16 (Fig. 5)Housing front wall of 16 (Figure 5)
9393
Hülsenteil von 11 (Fig. 9)Sleeve part of 11 (Figure 9)
9494
Bodenteil von 11 (Fig. 9)Bottom part of FIG. 11 (FIG. 9)
9595
Elastomerdichtung bei 26 (Fig. 9)Elastomeric seal at 26 (FIG. 9)

Claims (31)

  1. A device (10.1 to 10.6) with an axially-moving (12) plunger (11) for actuation of a lock on a door or hinged lid, in particular of a vehicle,
    with a locking cylinder (20) that has radially-moving tumblers (21) in an axial (23) arrangement, in an axial plane located by the locking cylinder, and with which a key (22) is associated,
    with the tumblers (21) normally being in a locked position (21.1), where the tumblers (22) project from the locking cylinder (20),
    but with the tumblers (21) moving into the locking cylinder (20) and being then in their released position (21.2), when the key (22) is inserted into the locking cylinder (20),
    with a locking edge (30) located at the side next to the projecting tumblers (21), that only in the locked position (21.1) interacts with the tumblers (21) but not in the release position (21.2),
    and the lifting movement (12) of the plunger (11) being transmitted to an input element (40) of the lock only when the tumblers (20) are in the released position (21.2),
    characterized in that
    the locking cylinder (20) is arranged so that it cannot rotate,
    the locking edge (30) can move transversely (35) relative to the axial plane (23) of the tumblers (21),
    the transverse movement (35) is initiated by the lifting movement (12) of the plunger (11),
    the tumblers (21) prevent the transverse movement (35) of the locking edge (30) when in the locked position (21.1), but permit it when in the released position (21.2),
    and the lifting movement (12) of the plunger (11) is only transmitted to the input element (40) of the lock if there is simultaneous transverse movement (25) of the locking edge (30).
  2. Device (10.1, 10.4), in accordance with claim 1, characterized in that the locking edge (30) is located on a swivel element (31) that is swivel mounted (33) and can swivel relative to the axial plane (23).
  3. Device (10.2, 10.3) in accordance with claim 1, characterized in that the locking edge (30) is located on a thrust element (32) that is guided (13) relative to the axial plane (23) with a changing clearance(24.1, 24.2).
  4. Device (10.2, 10.3) in accordance with claim 3, characterized in that the thrust element (32) moves at least in an area on one side parallel (36), and on the other side transverse (35), to the axial plane (23) if the plunger (11) is actuated (12).
  5. Device (10.1, 10.2, 10.4, 10.5) in accordance with one of claims 1 to 4, characterized in that the locking cylinder (20) is arranged in the plunger (11) and together with it forms a common actuating unit (15) that can provide a lifting movement (12).
  6. Device (10.3) in accordance with one of claims 1 to 4, characterized in that the locking cylinder (20) independent from the plunger (11) is seated on a fixed carrier (16) and does not move with the lifting movement (12).
  7. Device (10.3) in accordance with claim 6, characterized in that the axial guidance (17) of the plunger (11) and the application of the locking cylinder (20) take place in the same carrier (16).
  8. Device (10.1 to 10.6) in accordance with one of claims 1 to 7, characterized in that the locking cylinder (20) is of an out-of-round (29) shape and is mounted on the carrier (16) or the plunger (11) in such a way that it cannot rotate.
  9. Device (10.1) in accordance with one of claims 1 to 8, characterized in that the tumblers emerge (28, 28') from the locking cylinder (20) in two rows (21, 21') on diametrically opposite sides, in that the swivel element (31) or thrust element (32) has a C-shaped profile (37) and has a pair of locking edges (30, 30') on the ends (38, 38') of both its legs,
    and that when the plunger (11) or actuating unit (15) is actuated (12) these two locking edges (30, 30') probe along the two rows of tumblers (21, 21') for their completely released position (21.1).
  10. Device (10.1 to 10.6) in accordance with one of claims 1 to 9, characterized in that the plunger (11) or the actuating unit (15) is spring loaded (19) by a resetting force (18) and held by the limit stops (43, 44) in a defined at-rest position (11.1).
  11. Device (10.1) in accordance with one of claims 1, 2, 5 or 8 to 10, characterized in that the swivel element (31) is swivel mounted (33) on the plunger (11) or actuating unit (15).
  12. Device (10.1) in accordance with claim 11, characterized in that the swivel element (31) is attached in such a way to that it cannot rotate to a working arm (45), that transmits its swiveling movement (46) to the input element (40) of the lock.
  13. Device (10.1) in accordance with claim 11 or 12, characterized in that a spring (19) hold the swivel element (21) in an at-rest position (30.1),
    where the locking edge (30) or locking edges (30, 30') takes up a position that is essentially parallel relative to an axial plane (23) passing through the locking cylinder.
  14. Device (10.1) in accordance with claim 13, characterized in that both the at-rest position (30.1) of the swivel element (31) and the resetting force (18) acting on the plunger (11) or actuating unit (15) is generated by the same spring (19).
  15. Device (10.1) in accordance with one of claims 11 to 14, characterized in that in the at-rest position (30.1) the thrust element (32) or its working arm (45) is supported (47) on a fixed projection (27),
    if at least one of the tumblers (21, 21') of the locking cylinder (20) is still in its locked position (21.1), powerful actuations (12) of the plunger (11) or of the actuating unit (15) are taken by this support (47, 27)
    and that, when the tumblers (21, 21') are in the released position (21.2), the swivel movement (35, 46) of the swivel element (31) or its working arm (45) is directed away from this projection (27).
  16. Device (10.1) in accordance with claim 15, characterized in that the support point (47) on the swivel element (31) or on the working arm (45) has a set fracture point (48) that breaks in the event of powerful actuations (12).
  17. Device (10.2, 10.3) in accordance with one of claims 1 or 3 to 10, characterized in that the transverse movement (35) of the thrust element (32) is generated by a guide gate (50) running at an inclination to the direction of actuation (12),
    with the guide gate (50) consisting of two complimentary gate parts (51, 52) that engage with each other, i.e., of a guide part (52) and a sliding part (51),
    and that one gate part (51) is fixed and the other gate part (52) moves with a lifting movement (27) with the thrust element (32).
  18. Device (10.2, 10.3) in accordance with claim 17, characterized in that not only the thrust element (32) but also a control slide (34) that moves with it (12) is guided (13) on the plunger (11),
    and that limited by the limit stops (49) a transverse loading (39) determined by a maximum distance (59) acts between the thrust element (32) on one side and the control slide (34) on the other,
    and that the co-moving gate part (52) is seated on the control slide (34) and is limited by an end (53) of the gate acting as a stop
    when the plunger (11) is actuated (12) in an initial phase only (61) the thrust element (32) is moved transversely (35) due to the transverse loading (39) and the guide gate (40) of the control slide (34) until the end of the gate (53) becomes effective as a stop
    and that during the at-rest phase (62), the lifting movement (12) moves the thrust element (32) exclusively parallel (36) to the axial plane (23) of the locking cylinder (20) and this axial movement (36) is transmitted to the input element (40) of the lock.
  19. Device (10.2, 10.3) in accordance with claim 17 or 18, characterized in that the thrust element (32) has an axial impact point (55) with which an opposing impact point (56), located on a transmission lever (57), is associated,
    with the transmission lever (57) being permanently swivel mounted (63) and positioned before the input element (40) of the lock.
  20. Device in accordance with claims 18 and 19, characterized in that the transmission lever (57) has an idle space (64) next to its opposing impact point (55),
    and this free space (64) is aligned with the impact point (55) of the thrust element (32) when the plunger (11) is in the at-rest position (11.1).
  21. Device (10.2, 10.3), in accordance with claim 20, characterized in that in the locked position (21.1) of the tumblers (21) the axial alignment of the impact point (55) of the thrust element (32) with the idle space (64) of the transmission lever (57) creates an idle motion where the actuation (12) of the plunger (11) or actuating element (15) is ineffective.
  22. Device (10.4, 10.5,) in accordance with one of claims 1, 2, 5, 8 or 10, characterized in that the swivel element (31) is hinge-mounted (33) on a transmission lever (57), that is permanently mounted (63) and positioned in front of the input (40) of the lock,
    and that the swivel element has guiding means (60) that keeps the swivel element (31) swung (73) against the tumblers (21) during the initial phase (71) of the lifting movement (12) of the plunger (11) or of the actuation unit (15) only until all the tumblers (21) have been probed by its locking edge (30)
    and that during the at-rest phase (72) of the complete lift (70) the guiding means (60) effects an essentially axial further movement (74) of the swivel element (31) parallel to itself.
  23. Device (10.4, 10.5) in accordance with claim 22, characterized in that the guiding means (60) consists on one hand of a control spigot (65) moving with the plunger (11) or actuating unit (15) and a profiled spigot guide (66) on the swivel element (31) on the other hand,
    and in that the spigot guide (66) consists of a control cam (67), a driving shoulder (68) and an idle motion piece (69) for the control spigot (65), the control cam (67) interacts with the control spigot (65) during the initial phase (71) of the complete lift (70) and the swivel element (32) swings until the driving shoulder (68) is axially aligned with the control spigot (65) and during the at-rest phase (72) the actuation (12) of the plunger (11) or actuating unit (15) is transmitted to the swivel element (31)
    and that in the at-rest position (11.1) of the plunger (11) or of the actuating unit (15) the control spigot (65) is axially aligned with the free motion piece (69), where an actuation (12) of the plunger (11) or of the actuating unit (15) in the locked position (21.1) of the tumblers (21) remains ineffective with respect to the swivel element (31).
  24. Device (10.4, 10.5) in accordance with claim 22 or 23, characterized in that a spring force (75) acts on the swivel element (31) pressing the locking edge (30) of the swivel element (31) against the tumblers (21) in the locking position (21.1).
  25. Device (10.4) in accordance with one of claims 22 to 24, characterized in that the profiled spigot guide (66) consists of an opening (77) in the swivel element (31).
  26. Device (10.5) in accordance with one of claims 22 to 23, characterized in that the profiled spigot guide (66) consists of a groove (78) in the swivel element (31).
  27. Device (10.6) in accordance with one of claims 1, 2, 5, 8, 10 or 22 to 26, characterized in that a hinged cover (80) is located in front of the front end of the locking cylinder (20)
    and that the hinged cover (80) facing a channel opening (26) for inserting (14) the key (22) in a key channel (25) of the locking cylinder (20) can be swiveled (83) between a covered position (80.1) and an open position (80.2).
  28. Device (10.6) in accordance with claim 27, characterized in that a blocking lever (85) is hinge-mounted (82) on the plunger (11) or on the actuating unit (15),
    and that the hinged cover (80) has a cam (84) that swivels (86) the blocking lever (85) between two positions (85.1, 85.2),
    that is an effective blocking position (85.1) in the open position (80.2) of the cover (80), where the blocking lever (85) engages a fixed blocking shoulder (87) and prevents a levering movement (15) of the plunger (11) or of the actuating unit (15)
    and a deblocking position (85.2) where the blocking lever (85) releases its blocking shoulder (87) and permits a lifting movement (12) of the plunger (11) or of the actuating unit (15).
  29. Device (10.6) in accordance with claim 28, characterized in that the hinged cover (80) in its covering position (80.1) overreaches the inserted key (22) at the free end and forms a pressure point (58) for actuating (12) the plunger (11) or actuating unit (15).
  30. Device (10.6) in accordance with claim 28 or claim 29, characterized in that the blocking lever (85) is loaded by a return spring (88) in the direction of its effective blocking position (85.1), i.e. in the engagement sense with the associated blocking shoulder (87).
  31. Device (10.6) in accordance with one of claims 27 to 30 characterized in that the hinged cover (80) is held in its covered position (80.1) by a latching means(89).
EP01969602A 2000-09-21 2001-08-17 Device comprising a momentary contact switch for actuating a lock on a door or hinged lid, in particular, for a vehicle Expired - Lifetime EP1319112B1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
DE10047090 2000-09-21
DE10047090A DE10047090A1 (en) 2000-09-21 2000-09-21 Device with a button for actuating a lock on a door or flap, in particular for a vehicle
PCT/EP2001/009485 WO2002027124A1 (en) 2000-09-21 2001-08-17 Device comprising a momentary contact switch for actuating a lock on a door or hinged lid, in particular, for a vehicle

Publications (2)

Publication Number Publication Date
EP1319112A1 EP1319112A1 (en) 2003-06-18
EP1319112B1 true EP1319112B1 (en) 2006-06-28

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Family Applications (1)

Application Number Title Priority Date Filing Date
EP01969602A Expired - Lifetime EP1319112B1 (en) 2000-09-21 2001-08-17 Device comprising a momentary contact switch for actuating a lock on a door or hinged lid, in particular, for a vehicle

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Country Link
US (1) US6761052B2 (en)
EP (1) EP1319112B1 (en)
AU (1) AU2001289810A1 (en)
DE (2) DE10047090A1 (en)
WO (1) WO2002027124A1 (en)

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US6761052B2 (en) 2004-07-13
AU2001289810A1 (en) 2002-04-08
DE10047090A1 (en) 2002-04-25
EP1319112A1 (en) 2003-06-18
DE50110351D1 (en) 2006-08-10
US20030172695A1 (en) 2003-09-18
WO2002027124A1 (en) 2002-04-04

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