DE10115074A1 - Lock cylinder with electromagnetic locking device has electronic control detecting code of inserted key for release of locking pin blocking movement of lock cylinder core - Google Patents

Abstract

The lock cylinder has a locking pin (16) moved into the path of a core (2) displaced within the lock cylinder housing (1), the locking pin held in the released position via an electromagnet (15) and biased into the blocking position by a spring. The movement of the core is blocked during the insertion of the key (5), the electromagnet operated for releasing the locking pin after full insertion of the key via an electronic control (13), activated by the key insertion, dependent on the detected key code

Description

The invention relates to a lock cylinder with a a movable core arranged in a housing, with a a trajectory of the core feasible locking bolt, with an electromagnet to hold the locking bolt in an open position releasing movement of the core, with a locking spring for pretensioning the locking bolt in a blocking position blocking the movement of the core, with control electronics for detecting a code of the Key and to control the electromagnet in Ab dependency on the captured code.

Such locking cylinders are used especially in modern Access control systems for buildings are often used and are known for example from EP 0600 194 B1. The key to moving the core has a data memory cher, of one arranged in the lock cylinder Code receiver read out and by the control electronics is captured and evaluated. To avoid high Electricity consumption in the standby position of the lock it has already become known to cylinders, one of them Key-operated switch in the lock cylinder too integrate. However, such a switch requires one high wiring effort and thus leads to a knockout most intensive construction of the locking cylinder.

One has already thought of a slider in the core to move longitudinally and one by moving the  Locking bolt generated by the electromagnet to Activation of the control electronics. in this connection the locking bolt is inserted when the key is inserted into the Closing channel first from the range of movement of the core pushed out and to unlock the lock cylinder the authorized code held by the electromagnet. If the key is not authorized, the electromagnet will not controlled, so that the locking bolt at a Dre hung the core at a designated angle from the Locking spring is pressed into a locking recess of the core.

The disadvantage here is that even with one authorized key the kernel around the intended win movement range. This angular range could be there to be used, the locking bolt or the locking trough by a high rotational speed of the core ren. Furthermore, there is a risk that a with the Lock cylinder provided lock without destruction the locking bolt after turning the core around the win can be unlocked.

The invention is based on the problem of a closure to design cylinders of the type mentioned in such a way that an activation of the control electronics a particularly ge wrestling requires construction effort and that a move the core with an unauthorized key is casually prevented.

According to the invention, this problem is solved by a Insert the key into the movement of the core blocking to the case, and at complete inserted key free the movement of the core blocking part and by means of moving the Locking bolt for activating the control electronics in the position of the core blocked by the locking part.  

This design ensures that the core not charged to the housing when inserting a key from either the locking bolt or the Blocking part is held. Therefore, the core can be admitted at no time when introducing the unauthorized Move the key opposite the housing. The activation the control electronics is in the ver of the locking part locked position by the movement of the Locking bolt generated pulse of the electromagnet enables light. The means to activate the control electronics therefore require a particularly low construction wall.

An arrangement of the locking part in the locking channel and its movement through the in the closing channel The key has the disadvantage that the locking part of is accessible from outside and can therefore be manipulated. Manipulation of the locking part from the outside can be done according to an advantageous development of the invention Avoid the problem if one enters a locking channel gender, movable by the key during insertion Slider at least one projection for moving the Has locking part.

The locking part can be advantageous according to another ten development of the invention particularly inexpensive manufacture if the locking part is designed as a ball.

The lock cylinder according to the invention is designed particularly compact if the locking part is in the basic position is located entirely within the core and in the position blocking the movement of the core with a Partial area is movable in a recess of the housing. This can be done to block the movement of the core  Locking part when inserting the key simply to the outside move into the recess in the housing.

The lock cylinder according to the invention is con structurally particularly simple if the locking part and the Locking bolts are arranged in the same plane. By this design requires the slide to move the Locking part and the locking bolt only one umlau a head start.

Simultaneous movement of the locking part and the Locking bolt when inserting the key could Consequence that the locking cylinder in an intermediate only slightly opposed an attempt to break out opposed. The locking part is according to another Ren advantageous development of the invention reliably before the movement of the locking bolt into which the movement of the Kerns placed blocking position when the locking part a larger one from the axis of rotation of the core Cross-section has as the locking bolt or a Locking bar moving displacement element.

The displacement element and the locking part are according to another advantageous development of the invention when the core is moved by an authorized one Keys reliably in their intended positions held when the slider engages the projection zende recess for receiving the displacement element and the locking part.

The movement of the locking part and the displacement element requires according to another advantageous training the invention a particularly low effort, if the projection on its side facing the recess is ramped.  

The staggered sequence of movements of the lock partly and the locking bolt can be according to another advantageous development of the invention with a rota easily reach tionally symmetrical slider if that Displacement element is elongated and vertical From the axis of rotation of the core corresponding to the locking part has measurements. This leads to a particularly inexpensive final structure of the lock cylinder according to the invention.

Double profile locking cylinder, which from both forehead must be unlocked here, according to another one advantageous development of the invention only one total locking part if two slides that move towards each other Divide the slider one on the same level have arranged projection.

The arrangement of the projections of the slide parts in one Level is designed according to another advantageous Further development of the invention is particularly constructive fold if one of the slide parts has a web and that whose slide part has a groove for receiving the web.

Each of the slide parts has a different advantage adhere to a particularly high development of the invention Stability when the slide parts are in their together bordering areas in cross-sectional shape are. When locking part and locking bolt against each other are arranged projecting, have the slide parts in Area of their protrusions for this a semicircular Cross section on.

The invention permits numerous embodiments. to further clarification of its basic principle is one of them  shown in the drawing and will be below wrote. This shows in

Fig. 1 is a sectional view through a lung OF INVENTION to the invention lock cylinder in base Stel,

Fig. 2 is a sectional view through the Schließzy relieving of FIG. 1 along the line II-II,

Fig. 3 is a sectional view through the Schließzy relieving of FIG. 1 along the line III-III,

Fig. 4 shows the locking cylinder of FIG. 1 with completeness, dig inserted key,

Fig. 5 is a sectional view through the Schließzy relieving of Fig. 4 taken along line VV,

Fig. 6 shows the locking cylinder of Fig. 1 with a partially inserted key,

Fig. 7 is a sectional view through the lock cylinder of FIG. 6 taken along line VII-VII,

Fig. 8 shows the locking cylinder of Fig. 1 with a partially inserted in a second closed channel key,

Fig. 9 is a sectional view through the lock cylinder from Fig. 8 along the line IX-IX.

Fig. 1 shows a double-profile locking cylinder with egg NEM in a housing 1 rotatably mounted core 2nd The core 2 is connected in a rotationally fixed manner to a lock bit 4 via a drive pin 3 and has at its ends a lock channel 6 , 7 provided for inserting a key 5 shown in FIG. 4. In order to carry out a rotary movement of the key 5 , drivers 8 , 9 are respectively arranged on the end faces of the core 2 . The housing 1 has at its ends a code receiver 10 , 11 for detecting a signal of a transponder 12 arranged in the key 5 , also shown in FIG. 4 Darge. The signal is supplied to control electronics 13 , which evaluates the signals of the transponder 12 and, when the key 5 authorized to unlock the locking cylinder, controls an electronic locking device 14 with an electromagnet 15 . The elec tronic locking device 14 has an associated with a guided in the housing 1, locking bar 16 and movable against the solenoid armature plate 15 17th The locking bolt 16 is tensioned by a locking spring 18 from the electromagnet 15 away into a recess 19 of the core 2 before.

An arranged above the locking bolt 16 displacement element 20 is in the recess 19 of the core 2 leads ge. On the locking bar 16 opposite Te a locking part 21 is arranged radially movable in the core 2 . Above the locking part 21 , the housing 1 has a recess 23 closed by a stopper 22 . Within the core 2 , a slide 24 with two mutually displaceable and by means of a Federele element 25 biased away slide parts 26 , 27 is arranged. The slide parts 26 , 27 each have the displacement element 20 and the locking part 21 against protruding projections 28 , 29 and adjacent circumferentially shaped recesses 30 , 31 , 32 . In the basic position shown, the locking part 21 and the displacement element 20 are each located between the projections 28 , 29 in one of the recesses 31 . Farther on FIG. 1, that the locking part forms out of a ball 21 and viewed from the axis of rotation of the core 2 from having a larger cross section than the displacement member 20. The displacement element 20 is designed in the form of a pin with rounded ends. Before the electromagnet 15 , a hardened pin 33 is pressed into the housing 1 as drilling protection. Of course, the hous se 1 , the core 2 and the slide parts 26 , 27 further hardened pins, not shown, as drill protection.

FIG. 2 shows the locking cylinder from FIG. 1 in a sectional illustration along the line II-II. It can be seen here that one of the slide parts 26 has a web 34 and the other of the slide parts 27 has a groove 35 for receiving the web 34 . FIG. 3 illustrates in a sectional view through the locking cylinder from FIG. 1 along the line III-III the arrangement of the locking part 21 and the front end of the locking bolt 16 within the core 2 . The movement of the core 2 relative to the Ge housing 1 is thus blocked in the basic position shown by the locking bolt 16 located in the recess 19 of the core 2 .

In a complete introduction of the key 5 shown in FIG. 4, for example into the left locking channel 6 , the slide part 26 projecting into this locking channel 6 is pushed into the core 2 . During the insertion of the key, the displacement element 20 and the locking part 21 are pressed radially outward by the projections 28 of the slide part 26 and the code of the transponder 12 is detected by the control electronics 13 . When the key 5 is fully inserted, at least one retaining pin 36 penetrates into a groove 37 in the key 5 . The holding pin 36 prevents the key 5 from being pulled out of the locking channel 6 when the core 2 is rotating. The locking bolt 16 is in the position shown again in the recess 19 of the core 2 . This characterizes the position of the locking cylinder in which the key 5 has no authorization to unlock the locking cylinder. FIG. 5 illustrates that the locking part 21 and the displacement element 20 lie on one of the collar-like recesses 30 of the slide part 26 .

Fig. 6 shows the locking cylinder from Fig. 1 with partially inserted into the left locking channel 6 key 5 in a position in which the left slide part 26 is in a central position. Here, the projection 28 of the left slider part 26 pushes the locking part 21 outwards partially into the recess 23 of the housing 1 . This blocks the movement of the core 2 relative to the housing 1 . At the same time, the jump 28 before the displacement element 20 moves the locking bolt 16 with the anchor plate 17 against the electromagnet 15 , so that an electrical pulse is generated which activates the control electronics 13 for reading the code from the transponder 12 . When unlocking the lock cylinder be authorized code, the electromagnet 15 is energized and the anchor plate 17 and the locking bolt 16 are held in position. Fig. 7 illustrates in a sectional representation through the lock cylinder of Fig. 6 along the line VII-VII that the locking bolt 16 is located outside the path of movement of the core 2 .

FIGS. 8 and 9 show the lock cylinder of FIG. 1 after partial insertion of the key 5 in the right locking channel 7. Here, the right slide part 27 with its projections 29 is in the plane of the displacement element 20 and the locking part 21 . In this position, as described in FIGS. 6 and 7, the control electronics 13 can be activated and the transponder 12 of the key 5 can be read out.

As an alternative to the design of the slide parts 26 , 27 with the web 34 penetrating into the groove 35 , the projections of the slide parts can also be arranged on semicircular, abutting cross sections.

Claims (12)

1. Locking cylinder with a movable core arranged in a housing, with a locking bolt that can be guided in a movement path of the core, with an electroma for holding the locking bolt in an open position releasing movement of the core, with a locking spring for biasing the locking bolt into a Movement of the core blocking blocking position, with control electronics for detecting a code of the key and for controlling the electromagnet as a function of the detected code, characterized by a when inserting the key ( 5 ) into a movement of the core ( 2 ) opposite the housing ( 1 ) blocking, and when the key is fully inserted ( 5 ) the movement of the core ( 2 ) releasing the locking part ( 21 ) and by means of movement of the locking bolt ( 16 ) for activating the control electronics ( 13 ) in the Locking part ( 21 ) blocked position of the core ( 2 ). 2. Lock cylinder according to claim 1, characterized in that in a locking channel ( 6 , 7 ) inra gender, from the key ( 5 ) when inserting movable slide ( 24 ) at least one projection ( 28 , 29 ) for moving the locking part ( 21 ) has. 3. Lock cylinder according to claim 1 or 2, characterized in that the locking part ( 21 ) is formed as a ball. 4. Lock cylinder according to at least one of the preceding claims, characterized in that in the basic position, the locking part ( 21 ) is arranged entirely within the core ( 2 ) and in which the movement of the core ( 2 ) blocking position with a partial area in a Recess ( 23 ) of the housing ( 1 ) is movable bar. 5. Lock cylinder according to at least one of the preceding claims, characterized in that the locking part ( 21 ) and the locking bolt ( 16 ) are arranged in the same plane. 6. Lock cylinder according to at least one of the preceding claims, characterized in that the locking part ( 21 ) seen from the axis of rotation of the core ( 2 ) has a larger cross section than the locking bolt ( 16 ) or a locking bolt ( 16 ) moving displacement element ( 20 ). 7. Lock cylinder according to at least one of the preceding claims, characterized in that the slide ( 24 ) has a recess ( 30-32 ) adjoining the projection ( 28 , 29 ) for receiving the displacement element ( 20 ) and the locking part ( 21 ) Has. 8. Lock cylinder according to at least one of the preceding claims, characterized in that the pre jump ( 28 , 29 ) on its side facing the recess ( 30-31 ) is designed in a ramp shape. 9. Lock cylinder according to at least one of the preceding claims, characterized in that the Ver displacement element ( 20 ) is elongated and perpendicular to the axis of rotation of the core ( 2 ) has the locking part ( 21 ) corresponding dimensions. 10. Lock cylinder according to at least one of the preceding claims, characterized in that two mutually movable slide parts ( 26 , 27 ) of the slide ( 24 ) each have a projection arranged in the same plane ( 28 , 29 ). 11. Lock cylinder according to at least one of preceding the claims, characterized in that one of the slide parts (26) has a web (34) and the other slide part (27) has a groove (35) ges for receiving the Ste (34). 12. Lock cylinder according to at least one of the preceding claims, characterized in that the slide parts ( 26 , 27 ) are designed segment-shaped in cross-section in their adjoining areas.