DE19539235A1 - Lock cylinder with electromagnetically actuated locking pin - Google Patents

Description

The invention relates to a lock cylinder according to Gat term of claim 1.

Such a locking cylinder is from the disclosure Scripture 41 26 160 known. The well-known lock cylinder has to cooperate with the profiling of the key de, pin pin consisting of core pin and housing pin on. The tumbler cushioned towards the housing pins are arranged by the notches in the key, so that with the right key the joints between core pin and housing pin with the core joint of the Align cylinder core. In addition to this purely mecha African key coding is electronic Coding provided. To do this, act electronically decidable elements of the key together with a Transmitting / receiving device, which with correct electro an additional lock pin, which protrudes in the cylinder core, releases. At the known solution is the locking pin in parallel the pin tumblers. The arrangement is space-consuming. Either a longer locking cylinder must be provided be or to a mechanically codable pen tion are waived.

The Erfin is based on this state of the art the task based on a generic closure Advantageously to further develop cylinders.

The problem is solved by the specified in claim 1 ne invention.  

Advantageous further developments of the Invention.

According to the embodiment of the invention Space requirement of the additional locking pin considerably mini been lubricated. As a result of the integration of the locking pin in the pin tumbler the entire length of the one pushing area of the key for mechanical coding be used. The locking pin is preferably in one Hollow the housing pin of the tumbler arranged net. It is advantageous if the locking pin is in most distant from the key insertion opening lying tumbler is arranged. The manipulation poss This minimizes the possibility. It is an advantage if the locking pin is guided coaxially in the housing pin at one end in the blocking position in an axial blind hole of the core pin protrudes. The additional locking pin can be cushioned. The spring of the locking pin can be the same the cushioning of the housing pin of the assigned pin lock. The locking pin preferably has a widened foot on which it says supported spring. The foot of the locking pin acts before moves with a parallel to the axial direction of the cylinder Core-storable armature of an electromagnet. The armature can be applied to the elec tromagnets or an equivalent actuator be shifted in the axial direction. The anchor is coming pulls cylindrically symmetrically and has a large diameter and a small diameter area. The anchor can also deviate from the cylindrical cross section have the correct shape. This increases the stroke locking pin possible. The two diameters Different areas can be framed by a truncated cone shaped area be separated from each other. Through axial The locking pin can then be moved in the transverse direction  direction to the cylinder axis to be Front end is moved into the cylinder core for Achieving the locking effect, or from the cylinder core is shifted out to achieve the release position lung. The electromagnet is preferably in a sleeve arranged, which in the flange area of the profile cylinder is arranged. The sleeve also forms the Bottom of the housing bores, in which the pin closes attitudes. This novel closure of the Pin drilling has its own meaning. Instead of axially insertable sleeve is also a bolt or the same conceivable from solid material. The housing section, with which the holes are closed, then forms at the same time a support surface for the pin springs. An antenna is preferably on the flange end Transmitter provided, which with a in the Reide of Key arranged transponders cooperates. in the Area of the transmitter can also be a device for example, a contact or the like is provided be the one by, for example, coded actuation Emergency opening of the lock allowed. The emergency opening can also done mechanically. The transmitter, which with the in the key of the transponder arranged together should work, is preferred by relocating the from First move the key when inserting Tumbler pin switched on. The face of the Locking cylinder closest housing pin takes over activation by switching. He can be here to have a magnet with a magnet interacts switch, which is arranged in the sleeve is. When the key is inserted, this pin becomes posture shifted down first. The approximation of the Magnets on the magnetic switch then cause the Transmitter starts up and signals to the train sponder transmits. The signals can be on a  Carrier frequency be modulated. The carrier frequency can also provide energy for represent the transponder. Receive from the transponder ne signal, which is also only from an electromagnetic table carrier for energy transmission can exist, causes an answeri to be transmitted in the transponder gnales to the locking cylinder. This signal then carries the coding. The in the flange area of the locking cylinder arranged antenna receives that from the transponder emitted signal and sends it to an electronic Circuit continues, which preferably outside the profile cylinder is arranged. There it will be from the transponder received signal checked for correct coding. With correct coding, the electromagnet is activated fourth, so that the locking pin is released. The latter can shift to the open position. When out pulling the key will put the locking pin back in Locked position shifted. The power supply for the additional electronic fuse can be powered by batteries or accumulators can be formed. The batteries and the Accumulators can as well as the electronic control circuit in a faceplate pocket in the door be stuck. Control electronics and battery holder then lie behind the cuff. To have access to Control electronics or battery compartment, the cuff can be provided with a flap. These Solution is particularly advantageous because on the Control electronics only accessed when the door is open can be. When the door is closed, they are also cuffed arranged adjusting elements, such as switches, for setting the lock combination is not accessible. The outside of the lock cylinder arranged control electronics is connected to the profile locking cylinder via a cable the. It can be guided in a steel protection tube his. The cable preferably comes from an area, wel  cher between the two cores of a double lock cylinder which is located out of the cylinder. So that Cable when inserting the profile locking cylinder into one Mortise lock is not sheared off, shows the Untersei te of the lock cylinder on a groove in which the Cable can be inserted when the lock cylinder is in the mortise lock is inserted. The cable runs then over the outer castle ceiling to the cuff side Subject. Access to the electronic circuit can preferably only one in the lock cylinder inserted programming key. Without one no such authorization is given, to change the coding or the like in the circuit other.

An independent idea of the invention lies in that the electromagnet, the electromagnet assigned immersion anchor and the supply line in one building group are integrated. This assembly should be fiction according to a recess in the flange area Profile lock cylinder can be inserted. Should be preferred the assembly can be inserted in the radial direction, so that tearing out this assembly in the axial direction tion by correspondingly gripped projections is. The assembly can be screwed and / or Fastening pins to be attached to the cylinder housing. The outer wall of the module should be the recess for Complete the profile shape of the locking cylinder. Especially should be the longitudinal narrow edge of the flange section for example, be formed by the assembly. The Module should also carry a sensor, which interacts with a magnetic housing pin. Of the Sensor can be used as a magnetically activated switch be trained and when inserting the module in who inserted the profile locking cylinder into an opening  the. The opening can be designed as a bore, which runs parallel to the housing pin bore. Before the assembly is formed by a carrier which an antenna and the electromagnet and diving ker are arranged. The submersible anchor can be a guide have slot in which a protrusion one in the Longitudinal opening of the carrier insertable pin protrudes. As a result, the plunger anchor is non-rotatably mounted. Through appropriate gradations, the stroke of the Locking pin can be maximized. In a special way terbildung the invention, the independent character ter, is the longitudinal narrow side of the Profilzylin the carrier in particular protrude radially provide the lead. This lead serves as a so-called called pull protection and works together with a door sign men, which has a profile-adapted opening, and with the opening is pushed over the lock cylinder. The Opening, which is closed by the plug, is preferably aligned with the housing bore for the magne table relocatable pen.

Embodiments of the invention are as follows explained with the accompanying drawings. It shows:

Fig. 1 shows an inventive lock, partially broken away in cross-section,

Fig. 2 is a section according to line II-II in FIG. 1,

Figure 3 is a sel matching the lock according to Fig. 1 Keyring.,

Fig. 4 is an illustration of FIG. 1 with a partially inserted key,

Fig. 5 shows a section according to line VV in Fig. 4,

Fig. 6 is a profile cylinder with fully scho benem key and correct electronically readable code,

Fig. 7 shows a section according to line VII-VII,

Fig. 8 shows a section according to line VIII-VIII,

Figure 9 is a view according to Fig. 6 in the fully inserted key but wrong electro nic readable coding.,

Fig. 10 is a mortise lock with inserted Profilzy relieving in view,

Fig. 11 is a stulpseitiges pocket for receiving the electronic circuit and the Chargers s,

Fig. 12 is a side view of the profile cylinder and pocket,

Fig. 13 shows a second embodiment of the invention, partly in section,

Fig. 14 shows a section according to line XIV-XIV in Fig. 13,

Fig. 15 is a section along the line XV-XV in Fig. 14,

Fig. 16 is a view of FIG. 13 matching with inserted plug system key,

Fig. 17 is a section along the line XVII-XVII in Fig. 16, and

Fig. 18 is a representation of FIG. 16 with the kit not inserted.

The profile cylinder according to the invention has a housing 1 , in which a closing member 2 is arranged. In the embodiment, it is a double locking cylinder with two opposing cylinder core NEN 20th One of the cores 20 is equipped with an electromagnetically actuatable locking pin 14 . In Zylin derkern 20 core pins 9 are located in transverse bores, which are classified by profiles 6 of a key 4 . The profiles 6 consist of notches in the locking bit 5 .

The arranged in the housing, to the core pins 9 curse housing pins 10 are in holes 25 . The holes are closed by the outer wall of a sleeve 24 , which is inserted parallel to the axis of the core 20 in a corresponding opening of the profile section of the Profilzy cylinder. The springs 26 are therefore supported on the sleeve wall.

In the embodiment, a total of six Stiftzuhal lines are provided, which are in a row. The first pin tumbler 9 , 10 seen in the direction of insertion actuates a switch for a transmitter. For this purpose, the housing pin 10 on its bottom facing the drilling tion 25 facing a magnet 27 , which interacts with a magnet switch arranged in the sleeve ter (not shown). For this purpose, the sleeve has an opening 23 through which the magnetic excitation of the magnetic switch can be achieved.

The last in the direction of insertion of the key 1 Stiftzu 11 , 12 is provided with an additional locking pin 14 . For this purpose, the core pin has a blind hole which is aligned with a through hole in the housing pin 12 .

The additional pin 14 is inserted in the bore coaxial to the housing pin 12 . The additional pin 14 has a diameter-enlarged foot 15 . The diam water of the foot 15 corresponds to the diameter of the housing pin 10th The diameter of the additional pin 14 is less than the diameter of the pin hole. The Gehäu sefuß 15 is by means of a spring surrounding the pin 14 cushion 13 relative to the housing pin 10 so that the pin tumbler 10, is pressed in the direction of the core. 11 The downward rounded foot 15 of the pin 14 rests on an armature 17 of an electromagnet 18 . The armature 17 has a large-diameter area 17 'and a small-diameter area 17 ''. The areas 17 ', 17 ''are separated from each other by a frustoconical bevel. The armature 17 can be displaced in the axial direction by actuating the electromagnet 18 .

The electromagnet 18 is net in said sleeve 24 . At the end of the sleeve, projecting to the end face of the profile of the profile locking cylinder, an antenna 19 is arranged, which interacts with a transponder arranged in the bowl 7 of the key 8 . In addition, an emergency opening 22 is provided, which is manually or separately electrically operable to actuate the electromagnet or the armature if there is a fault in the electrical control or the batteries are empty.

A connecting cable 29 projecting approximately centrally from the profile area of the cylinder connects the antenna 19 and the electromagnet 18 to a control electronics 39 and a transmitting part 38 . For this purpose, the cable 29 has a plug 28 at the end. The transmitting part 38 , the control electronics 39 and a battery compartment 40 are assigned to a separate housing 33 , which is arranged under half or above the mortise lock 37 behind the cuff in a slot in the door. The cuff 31 can be covered with a flap 32 . The battery compartment 40 can be removed by opening the flap 32 .

So that the cable does not shear when inserting the profile lock cylinder into a mortise lock 37 , a groove 30 is provided in the outer jacket area of the lock cylinder housing 1 , in which the cable 29 can be inserted in certain areas.

This results in the following functionality:

In the state shown in Fig. 1, the Zuhal tion pins 9 , 10 , 11 , 12 are not classified. The locking cylinder core cannot be rotated. When inserting the key 4 with its lock bit 5 in the Einstecköff voltage 3 of the lock cylinder, the first pin tumbler 9 , 10 is first shifted down. Along with this downward displacement, the magnet 27 of the sleeve 24 or the bottom of the bore is approximated. A magnetic switch arranged there signals the control electronics 39 that a key is to be inserted. The control electronics 39 cause the transmitter 38 to emit an electromagnetic signal via the antenna 19 . This electromagnetic signal is picked up by the transponder 8 of the key 4 . The transponder 8 absorbs energy by receiving the electromagnetic wave. The energy is required for the transponder 8 to send an electromagnetically coded signal back to the antenna. This signal, which is picked up by the antenna 19 , is evaluated in the control electronics 39 . If this signal is a correct code, the electromagnet 18 is actuated. The anchor 17 is withdrawn.

In the position shown in Fig. 4, the armature 17 is still in the advanced position. The foot 15 of the locking pin 14 rests on the large-diameter section 17 'of the armature 17 , so that the end face 16 ' of the locking end 16 of the locking pin 14 lies above the parting line 21 of the cylinder core 20 .

In the complete insertion position of the key shown in FIG. 6, the parting lines between the housing pins 10 , 12 and core pins 9 , 11 are aligned with the parting line 21 . In this position, as mentioned, the armature 17 is retracted so that the foot 15 of the locking pin 14 rests on the small diameter area 17 '' of the armature 17 . The locking pin 14 has thus shifted downward, so that the end edge 16 'of the locking end 16 is below the parting line 21 . In this position the key can be turned and the profile cylinder can be operated.

The locking position shown in FIG. 9 is a key with the correct mechanical coding, but with the wrong electronic coding. The signal emitted by the transponder 8 is not the right one. In this case, the armature 17 is not relocated, so that the foot 15 of the locking pin 14 rests on the larger diameter region 17 'of the armature 17 . The locking end 16 protrudes with the end edge 16 'over the parting line 21 into the area of the core 20 . The locking pin prevents rotation of the lock cylinder in this position. Despite the correct mechanical coding, the lock cylinder cannot be turned.

The in the area of the cuff in a lock opening parallel to the insertion into a separate opening of the narrow side of the door compartment 33 is provided with a cover 32 . The cover 32 runs parallel to the cuff 31 and is hinged to the cuff. In Fig. 11 insertion openings 36 are provided for batteries. A display device 34 is also provided, with which the coding or other lock parameters can be represented. By means of adjusting buttons 35 , the electronic closing parameters can be set. With the buttons 35 , the coding of the lock can be changed in particular. The display 34 assigned to the cuff shows the current or changed locking code.

The embodiment shown in FIGS. 13 to 18 of a profile lock cylinder functions in Chen wesentli just like the aforementioned embodiment. Therefore, the parts that are similar or function here are provided with the same reference numbers.

In this embodiment, a carrier 50 is hen hen, on which the solenoid 18 , the antenna 19 , the plunger 17 and the feed line 47 are arranged. The whole forms an assembly 41 .

The antenna 19 is in a plastic cap 56 angeord net and is located on the front side of the profile closing cylinder, or the carrier 50th The assembly 41 can be inserted into a radial recess 55 of the profile lock cylinder housing 1 . The carrier, or the electromagnet 18 forms the bottom of the housing bores in which the housing pins 10 are movable and on which the springs are supported. The supply line 47 is guided in the joint between the recess 55 and the adjacent wall of the assembly 41 . The feed line is designed as a flexible strip line and extends to the antenna 19 . The carrier 50 , which is made of metal, forms pin extensions 49 which can be inserted in corresponding bores in the housing in the radial direction. The housing 1 forms a bore running parallel to the housing pin bore, in which an internal thread is cut, in which a fastening screw for the assembly 41 can be screwed. In a parallel extension, laterally offset from the first housing pin, the locking cylinder housing 1 has a bore 57 into which a sensor 51 projects. The sensor 51 is connected to a flag of the feed line via contacts 53 . The sensor is located below the housing pin, so that when the key is not inserted, the housing pin lies outside of the sensor area. In the sensor 51 han it delt is a magnetically activated sensor, which cooperates with the first housing magnetic pin 52, as soon as a key is inserted and the pin is moved down 52 in the sensor area.

The axially emerging from the electromagnet 18 Tauchan ker 17 has a longitudinal groove 44 on its lower side. A projection of a stopper 45 engages in this longitudinal groove. As a result, the plunger anchor 17 is rotatably gela. The flattened area 42 of the plunger anchor 17 can therefore have a sufficiently large spacing from the flattened area 43 which merges into the flat area 42 via an inclined step. By axially moving the plunger 17 , the locking pin 14 is shifted into the locked position, in this position the locking pin 14 is acted upon by the flattening 43 .

The plug 45 is inserted into an opening of the carrier 50 and leaves a gap 48 between itself and an adjacent projection 46 , through which the feed line emerges. In the assembled state, the projection 46 lies on the longitudinal narrow side of the profile locking cylinder and thus forms a pull guard. The projection 46 is supported to develop its protective effect against an impact plate screwed on from the outside. The assembly 41 supplements the recess 55 to form a profile cylinder, in particular the longitudinal narrow side of the flange section is formed by the carrier 50 . Because the carrier 50 can be inserted in the radial direction into the flange area of the locking cylinder, removal from the locking cylinder housing 1 is only possible when the locking cylinder has been removed. The summary of all components related to the electromagnetic auxiliary locking device in an assembly simplifies the assembly. It is particularly advantageous if the stopper 45 closes an opening which is arranged to curse the electromagnetically actuated locking pin 14 .

The in the above description, the drawing and Features of the invention disclosed in the claims can both individually and in any combination for the realization of the invention may be of importance. All the features disclosed are essential to the invention. In the disclosure of the application is hereby also the Disclosure content of the associated / attached priori full documents (copy of the pre-registration) included.

Claims (24)

1. Lock cylinder with one of at least one key profile-controlled pin tumbler ( 10 , 11 ), which has a core pin ( 11 ) and a spring-loaded housing pin ( 12 ) and an electromagnetically actuated locking pin ( 14 ), rotationally locked cylinder core, characterized in that the locking pin is integrated in the pin tumbler ( 10 , 11 ). 2. Lock cylinder according to claim 1 or in particular according thereto, characterized in that the locking pin ( 14 ) is arranged in a bore in the housing pin ( 12 ). 3. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that the coaxial in the housing pin ( 12 ) ge led locking pin ( 14 ) at one end in the locking position with a locking end ( 16 ) in an axial blind bore ( 11 ' ) of the cylinder core pin ( 11 ) protrudes. 4. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that the spring ( 13 ) of the locking pin ( 14 ) associated housing pin ( 12 ) is supported on a foot ( 15 ) of the locking pin ( 14 ). 5. Lock cylinder according to one or more of the preceding claims or in particular according thereto, marked by a flange face in a stub holes ( 25 ) crossing the bore of the lock cylinder housing ( 1 ), inserted sleeve ( 24 ) or the like, on the outer wall of which closes the pin holes the springs ( 26 ) of the pin tumblers are supported. 6. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that the locking pin ( 14 ) is controlled by a parallel to the axial direction of the cylinder core ( 20 ) displaceable armature ( 17 ) of an electromagnet ( 18 ). 7. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that the electromagnet ( 18 ) is arranged in the rich area of the profile cylinder. 8. Lock cylinder according to one or more of the preceding claims or in particular, characterized in that the electromagnet ( 18 ) is seated in a sleeve ( 24 ), on the outer surface of which the springs of the pin positions ( 9 , 10 ) are supported. 9. Lock cylinder according to one or more of the previous claims or in particular according thereto, marked net by a flange antenna, which is from the Sleeve is added. 10. Lock cylinder according to one or more of the preceding claims or in particular according thereto, marked net by a transponder ( 8 ) arranged in the key chalk ( 7 ) and cooperating with the antenna ( 19 ). 11. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized by an activation of the transmitter by a pin tumbler displaced from the key ( 9 , 10 ). 12. Lock cylinder according to one or more of the preceding claims or in particular according thereto, marked by a housing pin ( 10 ) associated with magnet, which interacts with a magnetic switch. 13. Lock cylinder according to one or more of the preceding claims or in particular according thereto, marked by a groove provided on the cylinder jacket Kabelfüh groove ( 30 ). 14. Lock cylinder after one or more of the previous outgoing claims, characterized by one of the Cuff covered, in an opening on the side of the door insertable battery compartment. 15. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized by a housing inserted into a cuff-side pocket, for receiving an electronic control unit ( 39 ), which can also include a high-frequency transmitting and receiving part. 16. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized by the cuff ( 31 ) associated, in particular with a cover ( 32 ) which can be encoded by the recoding switch ( 35 ) and / or a display device ( 34 ). 17. Locking cylinder with one of at least one key profile-controlled pin tumbler ( 10 , 11 ), which has a core pin ( 11 ) and a housing pin ( 12 ) which is detached in the housing, and an electromagnetically actuatable locking pin ( 14 ), rotationally locked cylinder core, characterized in that that the electromagnet ( 18 ), the electromagnet associated plunger armature ( 17 ) and a feed line ( 47 ) a transverse to the key insertion direction in a recess ( 55 ) of the flange area of the profile lock cylinder insertable assembly ( 41 ) are assigned. 18. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that the assembly comprises a section with the flange by radial pins ( 49 ) connectable support ( 50 ), the wall of which complements the recess ( 55 ) to the profile shape. 19. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that the carrier has a transceiver ne ( 19 ). 20. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized by a sensor arranged in a parallel bore ( 57 ) to the housing pin bores ( 51 ), which cooperates with a magnetic housing pin ( 52 ). 21. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that the step-forming immersion armature ( 17 ) has a guide slot ( 44 ) in which a projection of a plug which can be inserted into a longitudinal narrow side opening of the carrier ( 50 ) ( 45 ) protrudes. 22. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that the supply line ( 47 ) designed as a flexible strip conductor exits through a gap ( 48 ) in the area of the carrier ( 50 ) facing away from the end face of the profile locking cylinder . 23. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that the gap is adjacent to an attached to the longitudinal narrow side of the carrier before jump ( 46 ) and is covered by this on the door plate side. 24. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that the stopper is in alignment with the electromagnetically displaceable pin ( 14 ) accommodating the housing bore arranged opening, which is assigned in particular to the carrier ( 50 ) .