DE4226579C2 - Compact transmitter for remote control of a locking device comprising a locking cylinder - Google Patents

Description

The invention relates to a compact transmitter for remote control a locking device comprising a locking cylinder, especially for a locking system of vehicles in the upper Concept of the main claim specified Art.

Such a compact transmitter is known from DE 39 02 537 A1 already known, the pivoted flat key through a spring load in a system position on the transmitter housing is held. Here lies a flat partial end face of the La flat on one of a straight end region of the Peripheral wall of the receiving shaft formed counter surface, which ensures a very stable support. This means that the bearing plate requires as little swivel space as possible can be designed mirror-symmetrically in the receiving shaft, without the flat key between the forehead area of the opposite lever arm of the bearing plate and the a joint remains in the straight end region, into which it can swing out foreign bodies could be pressed in, the ent speaking corner of the bearing plate of a triangular Closing element formed, which is slidable in the bearing plate  is stored and is under a spring load. When on If you fold the flat key into the slot, it runs Closing element on a curved concentric to the pivot axis th length range of the peripheral wall of the transmitter housing on and is thereby largely sunk into the sliding guide Position ousted.

After passing the curved length of the peripheral wall in the receiving shaft, the closing element is from the straight end richly released the peripheral wall so that it through Spring force snaps back into its corner-forming starting position. Then the wedge-shaped joint between the bearing plate and Um Partition wall completely filled by the precisely fitting closing element. To ensure reliable mechanical function of the compact transmitter To be able to ensure an exact match of the flat key storage on the transmitter housing can be guaranteed, so gesi an exact fit cover position of the closing element chert is. The manufacturing precision required by me Chanian compact transmitter parts thus has a significant effect Measure more expensive on its manufacture. This applies all the more more if the transmitter housing especially in the sense of a fla cheren construction of the housing can be made even more compact should.

The invention has for its object a compact transmitter the generic type to further develop that the Manufacturing costs of the compact transmitter while maintaining reliable mechanical function can, whereby the suitability of the compact transmitter for a further reduction of the transmitter housing significantly improved should be.

The achievement of this task is the subject of characteristic features of the main claim. Because of the he design according to the invention is the function of the key  mentes taken from the end portion of the peripheral wall, so that a Reduction of the number of components and the processing effort the bearing plate is given. By arranging the stop medium between a broad side of the bearing plate and the ge opposite boundary wall can also be expl Maintain such accuracy more easily because the flat key is stored in the same boundary wall.

Advantageous embodiments of the invention go from the ex claims.

With an extremely narrow gap between the end area of the um side wall and the opposite end of the bearing plate a sharp-edged corner of the bearing plate end for relocation of the front opening of the receiving shaft are sufficient to reliably prevent the penetration of foreign bodies prevented. To be able to work with larger manufacturing tolerances NEN, it is advantageous to have a depth coverage between Provide end region of the peripheral wall and bearing plate. A corresponding depth of the narrow gap can be determined by a flat or rounded corner surface of the bearing plate safely put.

In a particularly simple manufacturing technology, the Lifting gear from a cam protruding from the bearing plate and an associated housing groove exist. By touchless Sen cam engagement in the housing groove occurs between the end positions of the flat key do not result in a swiveling inhibition the same. It goes without saying that from both broad sides engage the bearing plate in an associated housing groove the cam can protrude or that alternatively with a wide the cams also protrude from the housing walls and could engage in an associated groove of the bearing plate.  

The non-use position of the flat key is also useful by running up the cam or the cam on the opposite set end of their housing groove.

The front cavity of the receiving shaft is particularly easy run small if the peripheral wall delimiting this Transmitter housing runs its entire length curved. Each but this leaves the previously known parenthesis on mutually lying molded shells of the transmitter housing not without further possible. Therefore, it is intended to lie on top of each other the molded shells by a waterproof adhesive connection otherwise. This allows both an elastomeric Seal between the molded shells as well as on the spring clip as well as clip connection means, with which a there is a further reduction in the space requirement. The Verkle Exercise preferably takes place along a clamped fit other shaped shells. Can in the all-round clamp seat a translucent window can be included without any problems, the Z. B. must be available with an infrared transmitter. About the Material savings can also be achieved by gluing the mold len the stability of the transmitter housing can be improved especially in the front cavity area of the receiving shaft must be so stable that the boundary walls in the mechani key actuation should not be bent too far apart the. Due to the improved stability, a wall may be used thickness reduction of the transmitter housing can be made.

A further reduction in the manufacturing costs of the compact transmitter can be achieved if instead of a sliding cover for the Battery compartment a slip-on compartment lid is used. The battery compartment can be opened through the cover under Ver avoidance of a separate sealing arrangement waterproof kap selt by an elastomeric lid edge the sealing function takes over.  

A further rationalization effect can be achieved by who that no line connections between one in one Broadside of the transmitter housing integrated actuation button and a circuit board with the electronic components of the transmitter are necessary. For this, the button can be directly on the board be arranged and be by a plunger of the actuation button be hit. So that the board in the course of the shock impact cannot deflect, it must be on its loading button on the opposite side of the transmitter housing lie or be supported.

The following is an embodiment of the invention based on a graphic representation explained in more detail.

The illustration shows

Fig. 1 is a plan view of an underside of a com pact transmitter housing with the transmitter partially broken, and

Fig. 2 is a longitudinal section through the compact transmitter according to the section line II-II in FIG. 1.

A in Fig. 1 drawn on an enlarged scale Kompaktsen 1 for remote control of a motor vehicle locking system and for mechanical key actuation of the locking system belong to the locking cylinder includes in a conventional manner a cross-section with approximately rectangular transmitter housing 2 with a flat rectangle. The transmitter housing 2 is made of an impact-resistant plastic and is rounded at its four corners and on all edges, as a result of which it lies comfortably in the hand of the operator and can be gripped in the width direction like a rod.

Sunk in the transmitter housing 2 there is an angled flat key 3 , which can be swung out of its illustrated non-use position into a use position projecting centrally from the narrow front of the transmitter housing 2 . The Flachschlüs sel 3 consists of a straight is provided with the control paths key shank 4 and 5 stretching a holding this at the rear end bearing plate with perpendicular to the key shank 4 Längser and one of the key shaft width matched thickness. For storage and accommodation of the flat key 3 , the thickness of the flat key 3 is adapted to a recess 6 from the transmitter housing 2 , which extends continuously over a long side, a front corner side and an adjoining part of the front of the transmitter housing 2 . In the front cavity of the thus a total of approximately L-shaped receiving shaft 6, the bearing plate 5 is mounted transversely to their plane of the panel pivotally connected between the voltage applied to their broad sides Be grenzungswänden of the receiving shaft. 6 The geome tric pivot axis 7 of this axis bearing runs exactly in the center of length and width of the bearing plate 5 , the pivot axis 7 is set back so far recessed in the corner region of the receiving shaft 6 that the outer narrow side of the bearing plate 5 , which to the circumferential contour of the Sen dergehäuses 2 is adapted in this area is flush with the circumferential contour of the transmitter housing 2 is sunk. In contrast, the key shaft 4 against the long side of the transmitter housing 2 is connected to the bearing plate 5 , so that it is in the non-use position of the flat key 3 a few millimeters in the side leg of the receiving shaft 6 sunk. In the transition area from the outer narrow side of the bearing plate 5 to the key shaft 4 , the circumferential surface formed by the narrow side is chamfered, being curved on a circular path about the pivot axis 7 . Due to this rounded corner surface 8 , which could alternatively also be a correspondingly flattened corner surface, the key shaft 4 carrying end of the bearing plate 5 requires less pivoting space in the receiving shaft 6 than with a right-angle stepped corner. So that the diagonally opposite corner of the bearing plate 5 does not lead to a higher swiveling space requirement, it is also bevelled to a rounded corner surface 8 , with respect to the diagonal of the bearing plate 5 being mirror-symmetrical and also the inner narrow side being mirror-symmetrical to the outer narrow side of the bearing plate 5 .

By adapting to the free pivoting of the bearing plate 5 in the receiving shaft 6 at least swivel free space, the front cavity is limited by a peripheral wall 9 of the sen dergehäuses 2 , which accordingly runs over its entire length an arc around the pivot axis 7 and continuously from the side Leg of the receiving shaft 6 extends to the front of the transmitter housing 2 . When folded flat key 3 , the corner surface 8 on the key shaft 4 opposite lever arm of the bearing plate 5 is thus separated from the front end region of the peripheral wall 9 only by a very narrow gap 20 substantially parallel. The water gap 10 extends obliquely to the front of the transmitter housing 2 , whereby the corner surface 8 to the front of the transmitter housing 2 is largely covered by the front housing wall of the transmitter housing 2 . Due to this overlap in connection with the small gap width of the gap 10, it is adequately ensured that, in the course of using the compact transmitter 1, no foreign bodies penetrating into the front cavity of the receiving shaft 6 will penetrate.

To swing out the flat key 3 in its from the front of the transmitter housing 2 protruding position in accordance with the known compact transmitter to the pivot axis 7 coaxial push button mechanism with spring actuator is provided, after unlocking the flat key 3 should snap automatically into its 180 ° pivoted position of use . So that the swiveled-out position of use of the flat key 3 is precisely defined, there is a stop cam 11 at a radial distance from the swivel axis 7 from the upper broad side of the mounting plate 5 , which cooperates with a housing groove 12 saved from the opposite boundary wall of the receiving shaft 6 . For this, the impact cam 11 engages with circumferential play in the housing groove 12 extending on a circular path about the pivot axis 7 , which extends over an angle of 180 °. The housing groove 12 is arranged with coordination on the stop cam 11 so that a peripheral side of the stop cam 11 in the position of use of the flat key 3 strikes an end face of the housing groove 12 , rests flat on the end face and by the still effective spring force of the storage spring is reliably held in this end position. With its opposite circumferential surface of the stop cam 11 fails after a flap of the flat key 3 on the end face at the other end of the housing groove 12, so that both end positions of the sheet are set key 3 through the engagement of the on schlagnockens 11 in the housing groove 12th

For reasons of assembly, the transmitter housing 2 is divided in its longitudinal median plane, that is to say composed of two superimposed form shells 2 a and 2 b. For joining the molded shells 2 a and 2 b, a precisely fitting plug connection 13 is provided, on which the molded shells 2 a and 2 b are glued together in a watertight manner. For this purpose, a bridge with a circumferential wedge-shaped cross section integrally formed on the shell mold 2, the gegenstückig b engages in a keyway running to the shell mold. 2 A reliable sealing is guaranteed by an adhesive layer between the mutually parallel flanks of the plug connection. Since there is a certain amount of headroom for the web in the keyway, the contact pressure can be generated in a simple manner until the adhesive sets by pressing together the molded shells 2 a and 2 b. In addition to the front cavity of the receiving shaft 6 , a window 14 is arranged flush in the front of the transmitter housing 2 , which is transparent to the infrared light of a transmitter light source 15 , since the compact transmitter 1 is an infrared transmitter. In order to achieve a reliable seal and a stabilization of the transmitter housing 2 despite the window 14 , the window 14 is formed as a hollow body which extends with a bottle-neck-like end region to the rear and a precisely fitting hole in the form shell 2 a. In the preceding length region of the hollow body is a circumferential retaining web 14 a radially from the circumference of the window, which engages with a precise fit in a recessed from the molded shells 2 a and 2 b. Corresponding to the plug connection 13 , the molded shells 2 a and 2 b are glued together via the clamp fit of the window 14 , which has a highly stiffening effect on the boundary walls of the housing 2 at the front cavity of the receiving shaft 6 .

To supply power to the compact transmitter 1 serve two co axially layered button cells 16 which are recessed in a recessed battery compartment 17 from the broad side of the molded shell 2 a. The battery compartment 17 is covered by a compartment lid 18 , which is flush with the broad side contour of the mold shell 2 a. For easily detachable connection fastening, the compartment cover 18 has a circumferential cover edge 18 which is slipped over a ring wall 19 which springs back and encloses the battery compartment 17 . That the battery compartment is sealed watertight by the cover 17 and 18 of the cover 18 is secured against unintentional removal, the skilled consists lid 18 together with its cover edge 18 a of a soft elastic plastic, wherein the lid rim 18 a ring wall 19 frictionally and positively surrounds. The positive connection is made possible by an annular bead, which consists of a thickening of the edge region of the annular wall 19 . Also, the annular ring of the annular wall is tergriffen 19 by an annular bead slipped over the compartment cover 18 side, which is on the inner periphery of the lid edge is 18 a formed. Easy removal of the tray cover 18 remains due to the soft elasticity of the lid rim 18 a possible because the cover 18 similarly can be peeled at a peeling process gradually over the annular bead of the annular wall 19 as shown.

Between the two mold shells 2 a and 2 a of the transmitter case 2 is a the electronic components of the compact transmitter 1 is held tra constricting board 20, which is located in the space enclosed by the connector 13 interior of the compact transmitter. 1 Di right on the board 20 , a button 21 is attached in miniature design, by the pressurization of the transmission signal is broadcast. The pressure sensor of the button 21 lying opposite is integrated into the broad side of the molded shell 2 b in a known manner ter encapsulated actuating button 22 which passes through a guide hole in the molded shell 2 b with its plunger 23 and can thus act specifically on the pressure sensor of the push button 21 . However, due to the design, there is an arrangement of the button 21 in a circuit board area which is opposite the outer shell of the molded shell 2 a at a considerable distance. To still be able to absorb the shocks caused by pressure of the plunger 23 loads the board 20, a housing web 24 is provided coaxially abuts the tappet 23 on the opposite side of the board and is fixedly connected to the mold shell 2 a. Alternatively, it would also be conceivable to spray the housing web 24 directly onto the molded shell 2 a.

Claims (10)

1.Compact transmitter for remote control of a locking cylinder of the comprehensive locking device, in particular for a locking system of vehicles, with a flat key for mechanical actuation of the locking cylinder, which can be swung out from a recessed non-use position in the transmitter housing into a use position protruding from the front of the transmitter housing, with one Breakdown of the flat key into a key shaft and a bearing plate angled to the key shaft, which is mounted in the middle of its length and guides the key shaft on a circular path, with a receiving shaft for storing and accommodating the flat key, which is cornered in part of a long side and one on it at the closing part of the front of the transmitter housing is einas sen, and with a vote of the bearing plate on the front of the cavity of the receiving shaft, through which the front opening of the receiving shaft with Fl flipped achschlüs sel is largely covered by the bearing plate, a peripheral wall defining the front cavity of the transmitter housing being curved over a partial length under a circular path around the pivot axis of the flat key, and being used to limit the pivoting movement of the flat key to the position of use between the bearing plate and a boundary wall of the front cavity, interacting stop means are provided, characterized in that
that the front cavity of the receiving shaft ( 6 ) be bordering peripheral wall ( 9 ) of the transmitter housing ( 2 ) in the transition area from the cavity to the front of the transmitter housing ( 2 ) under a circular path around the pivot axis ( 7 ) of the flat key ( 3 ) is curved , wherein the curved end region of the peripheral wall ( 9 ) and a peripheral surface (corner surface 8 ) of the bearing plate ( 5 ), when the flat key ( 3 ) is pivoted in, delimit a narrow gap ( 10 ),
and that the stop means (housing groove 12 , stop cam 11 ) are arranged transversely to the pivoting plane of the flat key ( 3 ) between a broad side of the bearing plate ( 5 ) and the opposite loading wall of the receiving shaft ( 6 ). 2. Compact transmitter according to claim 1, characterized in that the peripheral surface adjacent to the gap ( 10 ) is a rounded or flattened corner surface ( 8 ) of the bearing plate ( 5 ). 3. Compact transmitter according to claim 1, characterized in that at a distance from the pivot axis ( 7 ) a stop cam ( 11 ) protrudes from the broad side of the bearing plate ( 5 ), which engages with circumferential play in an associated housing groove ( 12 ), the stop cam ( 11 ) when reaching the position of use of the flat key ( 3 ) on an end face of the housing groove ( 12 ) is held in abutment. 4. Compact transmitter according to claim 3, characterized in that the non-use position of the flat key ( 3 ) is fixed by striking the stop cam ( 11 ) on the opposite end face of the housing groove ( 12 ). 5. Compact transmitter according to claim 1, characterized in that the front cavity of the receiving shaft ( 6 ) be bordering peripheral wall ( 9 ) of the transmitter housing ( 2 ) over its entire length under a circular path around the pivot axis ( 7 ) of the flat key ( 3 ) is curved. 6. Compact transmitter according to claim 5, characterized in that the transmitter housing ( 2 ) is divided approximately parallel to the pivoting plane of the flat key ( 3 ), the superimposed molded shells ( 2 a, 2 b) of the transmitter housing ( 2 ) being joined by a tight adhesive connection . 7. Compact transmitter according to claim 6, characterized in that in the transmitter housing ( 2 ) a translucent window ( 14 ) is integrated, which can be glued into a clamp seat formed between the molded shells ( 2 a, 2 b). 8. Compact transmitter according to claim 1, characterized in that in a broad side of the transmitter housing ( 2 ) a battery compartment ( 17 ) is embedded, which can be covered by means of a compartment lid ( 18 ), and that the compartment lid ( 18 ) with a peripheral lid edge ( 18 a) can be slipped onto an associated ring wall ( 19 ) of the battery ( 17 ). 9. Compact transmitter according to claim 8, characterized in that the compartment lid ( 18 ) at least in the region of the lid edge ( 18 a) consists of a soft elastic material and in its covering position sealingly cooperates with an annular bead formed on the ring wall ( 19 ). 10. Compact transmitter according to claim 1, characterized in that in a broad side of the transmitter housing ( 2 ) an actuating button ( 22 ) is integrated, the plunger ( 23 ) with a on egg ner board ( 20 ) of the compact transmitter ( 1 ) arranged button ( 21 ) cooperates, and that the circuit board ( 20 ) rests on its side opposite the key ( 21 ) on a housing web ( 24 ) supporting it.