DE3800414A1 - LOCKING CYLINDERS, PARTICULAR PROFILE CYLINDERS, IN PARTICULAR FOR POCKET LOCKS - Google Patents

Abstract

Profiled lock cylinders are equipped with a cylinder housing (1) and with a cylinder core (2) which is mounted rotationally adjustably in this and which can be secured against unauthorised rotation by key-actuable tumbler elements (7, 8) and by a blocking element (12) actuable by means of an electromagnet (13), there being furthermore control electronics actuating the electromagnet (13), together with an associated power supply switch (19). The power supply switch is designed as a magnetosensitive switch (19) which is accommodated in the cylinder housing (1) and its actuating magnet (20) is coupled motionally to one of the tumbler elements (8) located on the housing. The switch (19) advantageously consists of a reed contact. <IMAGE>

Description

The invention relates to a locking cylinder, especially a Profilzy designed for mortise locks linder that rotates with a cylinder housing and one in it adjustable cylinder with a lock bit core is provided, which can be acted upon by a key tion elements and an actuated by means of an electromagnet secure locking element must be secured against unauthorized twisting, and wherein control electronics actuating the electromagnet in addition to the associated power switch.

Lock cylinders of the above type are e.g. B. by the AU-PS 3 20 466 known. The control electronics are in the the lock case containing the profile cylinder. In their power supply line has a microswitch built in, which when turning the cylinder core by using both a suitable mechanical as well as electronic coding  provided key either by swiveling it Tumbler tokens or by one next to the lock bit to actuate the cam core in a rotationally fixed manner is. In a profile known from DE-OS 35 01 345 lock cylinder, which also with an electromagnetic Tumbler, some of his tumbler pins are used as switching contacts, via which an intrusion alarm system armed can be switched. The closure known from these cylinders existing mechanical switch contacts are prone to contamination and corrosion, so that it is too increasing operating time leads to switching difficulties, especially since such contacts for any lock or key use also appropriate mechanical loads and are exposed to damage. Your electrical transition Resistance increases with time what is offered energy-saving operation of such locks, especially if they - like most of them - are supplied with batteries in the long run disadvantageously noticeable.

The invention is therefore based on the object To create lock cylinder of the type mentioned, the does not have the aforementioned shortcomings, rather simple Design a permanently undisturbed and energy-saving power supply ensures the assigned control electronics. These The object is achieved in that the Control electronics belonging to power supply switches as in Cylinder housing housed magnetosensitive switch is formed, the actuating magnet with one of the Housing tumbler elements coupled in terms of movement is. This ensures that when the matching key the actuating magnet like a Zuhal tion element in the magnetosensitive switch closing Moved positions and thus the control electronics is powered. Since the magnetosensitive switch touch works smoothly and has no corrosion or dirt exposed to the risk of ignition, it remains permanently functional efficient with a consistently low electrical transition resistance.  

In a locking cylinder, the tumbler elements in known manner from existing in the cylinder core and housing Boring core and housing pins as well as the latter act on springs is the Actuating magnet advantageous as a cylindrical pin Permanent magnet trained and in the extreme tumbler bore between the housing pin located therein and its Actuation spring arranged, the magneto sensitive switch in one of the aforementioned tumbler holes neighboring, in particular parallel to the latter and laterally compared to the other tumbler holes offset housing recess is housed. The magneto sensitive switch is advantageous as a reed contact forms. But it can also be used as a Hall sensor or as Wiegand sensor can be formed.

The lock cylinder can continue in through the DE-OS 35 00 353 known manner with one on the cylinder housing front-mounted detector for electronic data and Energy exchange between control electronics and key be provided, according to a further feature of the invention the cylinder housing at the front through a detector containing plastic cap is covered, which is also the reaches under the outermost housing tumbler pin hole. this leads to not only for a convenient placement of the front detector to be installed and also in the neighboring one Actuator magnet to be housed in the tumbler pin bore for the magnetosensitive sensor, but also brings one greater security against break-in of the profile cylinder. The to break up such profile cylinders usual application of a Pliers on the mostly little protruding from the door fitting Cylinder housing front end then only leads to a break or removing the plastic cap and thus to one Damage to the electrical parts located here, but not to the otherwise associated breaking of the profile cylinder in its through the lock bit recess and the retaining screws Bore particularly vulnerable middle area.  

The plastic cap is appropriate on the cylinder housing clipped on, with one existing on its bottom Protrusion into the housing that she covered on the underside protruding pin hole protrudes and with its upper concave shaped edge behind one on the end of the cylinder core existing, with an appropriate undercut provided collar projection. This allows art fabric cap lightly on the corresponding in this area flattened cylinder housings. She takes care of appropriate surface quality also for an speaking appearance of the protruding from the door fitting Lock cylinder section.

In the drawing is an advantageous embodiment shown according to the invention. Show

Fig. 1 is a vertical section through one half of a corresponding beschaffenen profile lock cylinder in its rest position,

Fig. 2 shows the same sectional view through the profile cylinder, but with a partially inserted key

Fig. 3 is a partial section along the line III-III of Fig. 2,

Fig. 4 is an enlarged sectional view of the Profilzylin DERS the region of its power switch,

Fig. 5 is an end view and

Fig. 6 is a side view of the cylinder housing,

Fig. 7 and 8 show a front view and a vertical section through the plastic cap and

Fig. 9 is a partially sectioned side view of the profile cylinder when clipping on the plastic cap.

The profile lock cylinder shown in Figs. 1 and 2 has a correspondingly profiled cylinder housing 1 , in the hollow cylindrical region 1 'of the rotatably mounted cylinder core 2 is housed. On its opposite side there is a further, correspondingly rotatably mounted cylinder core 2 '. Between the two cylinder cores in the housing recess 1 '' of the lock bit 3 is rotatably supported, which can be coupled to the respective cylinder core 2 to take rotation via the rotationally movable coupling pieces 4 and their axial displacement when the key 5 is inserted. The key channel 6 with corresponding profile ribs in the cylinder core 2 serves to receive the key 5 to be inserted.

The cylinder core 2 is relative to the cylinder housing 1 conventionally by pin tumblers embodiments gel drehverrie. This pin tumblers are made in the aligned core and housing bores 2 '' or 1 '''seated core pins 7 and housing pins 8 and the latter beauf beating pressure springs 9. Due to the key incisions or notches 5 'in the key shaft, the tumbler pin pairs 7 , 8 are displaced when the key 5 is inserted against the action of their springs 9 in such a way that the joint 10 between each pin pair with the separator located between the cylinder housing 1 and the cylinder core 2 surface 11 comes into agreement, so that the core 2 could then be rotated with respect to the housing 1 by means of the inserted key 5 in principle.

In the present case, however, the core 2 is additionally blocked by the armature 12, acting as a locking pin 12 of an electric magnet 13, against rotation, which is accommodated in the bore 14 of the cylinder housing 1 . The head 12 'of the armature 12 engages under the action of the compression spring 15 in an existing on the cylinder core 2 on its circumference recess 16th To actuate the electromagnet 13 and its armature 12 is a control electronics, not shown, housed in the lock or better still on the inside of the door fitting, which via the detector 17 mounted on the end of the cylinder with the key 5 also containing a non-mechanical coding in mutual electronic Bring data and energy exchange. If the inserted key 5 also has the appropriate non-mechanical coding, the control electronics responds to it and ensures that the electromagnet 13 is briefly energized. As a result, its armature 12 moves out of the recess 16 in the cylinder core 2 , as a result of which the latter is rotated and the lock can accordingly be closed accordingly.

The power supply to the control electronics is conveniently via a battery, not shown, if possible also housed on the inside of the fitting in an energy-saving manner. For this purpose, in the power supply line leading to the control electronics, the magnetosensitive switch accommodated in the recess 18 in the cylinder housing 1 in the form of the reed contact 19 is installed. The magnet required for its actuation is designed as a cylindrical-pin-shaped permanent magnet 20 which is housed between the housing pin 8 ^IV seated in the outermost housing bore 1 'and its actuating spring 9 '. The magnet 20 is so as the pin 8 'slidably mounted in the housing bore 1 ^IV . When the key 5 is inserted into the key channel 6 of the cylinder core 2 , there is a corresponding multiple displacement of the permanent magnet 20 , as is particularly shown in FIGS. 2 and 4, which in this case the reed contact 19 after reaching the minimum displacement X _min ( FIG . 4) turns on. It does not matter that the reed contact 19 is switched on and off several times when the key is inserted, since the control electronics, once switched on, take into account a time interval to neglect these additional switches on and off.

The cylinder housing 1 is frontally covered by a detector 17 forming the coil of the control electronics plastic cap 21 containing the even the outermost containing the permanent magnet 20 Gehäusezuhaltungsstiftbohrung 1 ^IV engages below. The plastic cap 21 is clipped onto the cylinder housing 2 in such a way that it protrudes with a projection 21 'on its bottom into the housing retaining pin bore 1 ^IV covered by it on the underside, while with its upper concave edge 21 ''behind one on the cylinder core 2 frontal, with a corresponding undercut 2 '''provided collar projection 2 ^IV engages. The plastic cap 21 is flush on the outside with the cylinder housing 1 provided on both sides and in the overlap area with corresponding flats 22 and 22 '. On the front side, the plastic cap 21 jumps slightly over the end face of the cylinder core 2 , whereby the detector coil 17 housed in the plastic cap can come particularly close to the counter detector housed in the end face 5 '' of the key 5 . As further shown in FIGS. 5 and 6, on the one long side of the cylinder housing 1 there is also a horizontally extending longitudinal cable channel 23 , which merges into a vertically extending transverse cable channel 24 on the end face. Through these channels, the power lines shown by the coil detector 17 as well as by the reed contact 19 can be guided gently so that they do not interfere with the assembly of the profile cylinder in the castle, especially since they are still in the channels 23 , 24 by resin or the like can be specifically determined. Like the control electronics, these lines are not particularly shown in the drawings.

When the key 5 is inserted into the key channel 6 of the profile lock cylinder, the reed contact 19 is first closed via the correspondingly shifted permanent magnet 20 and the power supply to the control electronics is thus switched on. As soon as the key is completely inserted and its coding has been recognized as correct by the switched-on control electronics, the latter ensures that the electromagnet 13 is briefly flowed through by current, whereby its anchor bolt 12 is pulled out of the recess 16 in the core and thereby the core for its rotation by the inserted key is released after the mechanical tumbler pin pairs have already been adjusted accordingly and thereby brought into the separation position between core 2 and cylinder 1 . The release position of the anchor bolt 12 can be maintained by means not shown here until the key 5 is removed again. The electromagnet 13 therefore only needs to be flowed through by the current for a short time. Another requirement for a correspondingly energy-saving battery operation of the electronic cylinder 13 is the switching on of the control electronics by the permanent magnet 20 which acts on the reed contact. This switching on takes place for a short period of time both when the key 5 is inserted and when it is removed.

Various modifications are possible within the scope of the present invention. In particular, the reed contact 19 can in principle also be replaced by a Hall sensor or a Wiegand sensor of known design and mode of operation, as a result of which the control electronics can also be switched on in conjunction with a key-operated pin tumbler. The cap 21 is advantageously made of insulating plastic. They make the locking cylinder protruding a maximum of 3 mm from a security shield optically advantageous and at the same time difficult to attack. Finally, it goes without saying that the invention is fundamentally also with other holding elements, such as. B. tumbler plate, provided locking cylinders is useful.

Claims (9)

1. Locking cylinder, in particular for mortise locks, certain profile cylinders, with a cylinder housing and a cylinder core that is rotatably mounted in it and supports a lock bit, which can be secured against unauthorized twisting by means of tumbler elements that can be acted upon by a key, and a locking element that can be actuated by means of an electromagnet, and that actuates the electromagnet Control electronics together with the associated power supply switch, characterized in that the latter is designed as a magnetosensitive switch ( 19 ) accommodated in the cylinder housing ( 1 ), the actuating magnet ( 20 ) of which is coupled in terms of movement to one of the housing-side tumbler elements ( 8 '). 2. Lock cylinder according to claim 1, the tumbler elements in existing in the cylinder core and housing bores slidably supporting core and housing pins and the latter act on springs, characterized in that the actuating magnet Be designed as a cylindrical pin-shaped permanent magnet ( 20 ) and in the outermost Tumbler bore ( 1 ^IV ) between the housing pin ( 8 ') and its actuating spring ( 9 ') is arranged, and that the magnetosensitive switch ( 19 ) in one of the aforementioned tumbler bore ( 1 ^IV ) adjacent, in particular parallel to the latter and compared to the other tumbler holes ( 1 ''') laterally offset housing recess ( 18 ) is housed. 3. Lock cylinder according to claim 1 or 2, characterized in that the magneto-sensitive switch consists of a reed contact ( 19 ). 4. Lock cylinder according to claim 1 or 2, characterized in that the magnetosensitive switch ( 19 ) is designed as a Hall sensor. 5. Lock cylinder according to claim 1 or 2, characterized in that the magnetosensitive switch ( 19 ) is designed as a Wiegand sensor. 6. Locking cylinder according to one of claims 1 to 5, with a detector attached to the cylinder housing on the end face for electronic data and energy exchange between control electronics and key, characterized in that the cylinder housing ( 1 ) on the end face by a plastic cap ( 17 ) containing the detector ( 17 ) 21 ) is covered, which also engages under the outermost housing tumbler pin hole ( 1 ^IV ). 7. Lock cylinder according to claim 6, characterized in that the plastic cap ( 21 ) on the cylinder housing ( 1 ) is clipped, with an existing on its bottom projection ( 21 ') in the housing cover pin covered by it on the underside ( 1 ^IV ) protrudes with its upper concave edge (21 ''), (2 behind a front side existing on the cylinder core (2) with a corresponding undercut ''') provided collar projection (2 ^IV) engages. 8. Lock cylinder according to claim 6 or 7, characterized in that the plastic cap ( 21 ) is flush with the outside in its overlap area on both sides and down correspondingly flattened cylinder housing ( 1 ), and protrudes from the end face of the cylinder core ( 2 ). 9. Lock cylinder according to one of claims 6 to 8, characterized in that on one longitudinal side of the cylinder housing ( 1 ) a near its cylindrical region ( 1 ') horizontally extending cable longitudinal channel ( 23 ) is recessed, the end face in a vertical extending cable cross channel ( 24 ) passes.