DE202005000347U1 - Cylinder lock has a key with a chip and integrated printed circuit board and activation control unit and a power source - Google Patents

Abstract

A cylinder lock comprises a body (1) with a sprung inner core, rotor and cam (77), a double coupling device, switch plates with contact rings, a drive element and a control unit giving an activation signal and a power source. An independent claim is also included for an alternative form of the electronic cylinder lock.

Description

1st area the invention

The The present invention relates to a cylinder lock assembly and in particular to a lock assembly with a mechanical and electronic closing function, thus two closing options provide.

2. Description of the state of the technique

in the In general, a mechanical lock has several tumblers, which are movably received in a lock core, which is safe is received within a closing body. So, just a real key in the partial groove, which is formed in the lock core inserted will be able to activate movements of the tumblers. Accordingly is a turn of the key being able to power the lock core so that it conforms accordingly rotates. Independently of the differences of mechanical locks make all mechanical Castles only a single closing function ready.

One conventional Electric lock includes a collection card as well as a castle with a detection unit to capture the information that recorded on the acquisition card to unlock the lock. This electric lock also has only a single closing function and can not provide adequate security, like this is required. It follows that conventional locks are independent of whether it is mechanical locks or electric locks act to provide only a single closing function and no double closing function, to increase safety.

SUMMARY THE INVENTION

It Accordingly, it is an object of the present invention to provide overcome the disadvantages of the conventional castle and to provide a lock assembly which has a dual closing effect achieved and increased accordingly Safety requirements is sufficient.

Is solved this task according to the invention by the features specified in the characterizing part of the main claim, wherein in terms of preferred embodiments of the lock assembly according to the invention to the features of the subclaims is referenced. This will have two different protective effects achieved with a simplified structure and lower production costs simultaneous increase of industrial market value.

Further Details, advantages and features essential to the invention result arising from the study of the following detailed description with reference to the attached Drawings:

SHORT DESCRIPTION THE DRAWINGS

1 a perspective view of a cylinder lock assembly according to the present invention;

2 Fig. 13 is an exploded perspective view of the cylinder lock assembly according to the present invention;

3 is a cross-sectional view of the lock core of the cylinder lock assembly, wherein a first clutch is released from a second clutch;

4 FIG. 12 is a cross-sectional view showing the first clutch and the second clutch engaged with each other; FIG.

5 FIG. 12 is a schematic view showing a state in which an engagement detecting element has not been moved by the first clutch; FIG.

6 Fig. 12 is a schematic view showing a state in which the engagement detecting element has been moved by the first clutch;

7 Fig. 11 is an exploded perspective view of a second preferred embodiment of the present invention;

8th Fig. 12 is a cross-sectional view showing the internal structure of the present invention;

9 FIG. 12 is an enlarged cross-sectional view showing a state in which the clutch device according to the present invention is released and the key is rotatable, and FIG

10 Fig. 10 is an enlarged cross-sectional view showing the state in which the clutch device according to the present invention is engaged and the key is not movable.

DETAILED DESCRIPTION OF THE INVENTION

With reference to the 1 and 2 For example, a cylinder lock assembly constructed in accordance with the present invention comprises a Zy relieving closed body 1 , a lock core 7 , a rotor 81 , a detection device 39 , a drive element and a coupling device, which consists of a first clutch 25 and a second clutch 33 consists. The cylinder body 1 has a hollow sleeve 5 as well as a section 3 which is the sleeve 5 split into two halves to form a cam therein 77 which has a projection 79 carries, which on the bottom of the cam 77 is trained. A first radial slot 10 and a second radial slot 102 are respectively at the front part and the rear part of the sleeve 5 educated.

The castle core 7 is a hollow cylinder and carries two opposing paths 11 , each parallel to the longitudinal axis of the cylinder in the lateral periphery of the lock core 7 are formed while a passage 13 axially in the lateral periphery of the lock core 7 and a groove 19 at the proximal end of the lock core 7 are formed. The passage 13 can slice it here 15 , a stop element 23 which is on the disc 15 is applied and a lid 232 take. The disc 15 has a passage opening 17 that the disc 15 reaches through to an intervention ball 231 herein incorporated with the stop member 23 engaged. The lid 232 is provided to the stop element 23 and the engagement ball 231 inside the disk 15 to keep. The castle core 7 also has several tumblers (not shown) within the lock core 7 , Since the manner in which the tumblers are moved is well known, a detailed description will be omitted for brevity.

The rotor 81 is a hollow cylinder with two open ends. The rotor 81 has two first slots 83 placed on the periphery on opposite sides of the rotor 81 are formed parallel to the axis of the rotor 81 while at least a second slot 85 (two are shown in this embodiment) parallel to the axis of the rotor 81 is provided. A flange 810 is on the outer periphery of the rotor 81 educated.

The first clutch 25 has two protrusions 27 , each on opposite ends of the first coupling 25 are trained to be in the two ways 11 of the lock core, while an extension 29 on one side of the first clutch 25 is formed and a recess 31 which is parallel to the axis of the extension 29 runs. The second clutch 33 has a recess 37 according to the extension 29 the first clutch 25 as well as two protrusions 35 that in the first slots 83 of the rotor 81 be recorded.

The detection device 39 has a first rotation disk 41 , a first rotation ring 47 , a second rotation disk 59 and a second rotary ring 53 , The first rotation disk 41 owns a first pen 43 and a first leader 45 , The second rotation disk 59 has two pens 61 extending from the back of the second rotation disk 59 starting out, and two openings 63 on the front of the second rotation disk 59 are formed and each in the openings 63 extend into it. A first ladder ball 55 and a second ladder ball 57 are each in the two openings 63 recorded and partially extend from this. The first rotation ring 47 has a recess 49 Slidably incorporated herein an engagement element 51 receives.

The drive element is indicated by the reference numeral 69 identified and can be an engine. The motor shaft is on a threaded pin 71 connected, which in turn into a mother 73 is screwed. The mother 73 is to an actuator 75 connected, which consists of a first actuator 751 , a second actuator 752 and a third actuator 753 , Because the way, how the first actuator 751 , the second actuator 752 and the third actuator 753 is not part of the present invention, a detailed description is accordingly omitted. After the combination between the engine 69 and the actuator 75 about the mother 73 The combination is in a motor bracket 65 mounted, the rear end of the master circuit board 91 connected. After that becomes a cylindrical conductor seat 67 mounted outside the engine bracket 67 , The engine bracket 65 has four arms 650 at the distal end of the motor bracket 65 are formed according to the first slots 83 and the second slots 85 ,

In addition, the present invention has an alarm system which issues an alarm when an unauthorized person tries to inappropriately open the lock according to the present invention, thereby increasing the safety of the lock. To achieve this goal, the lock according to the present invention also has a rotational seat 89 , The rotary seat 89 has a battery 93 and a buzzer 95 both in the rotational seat 89 picked up and electrically connected to the main circuit board 91 are connected. A lid 97 is at the rotational seat 89 provided to the battery 93 and the buzzer 95 inside the rotary seat 89 include.

After the first ladder ball 55 and the second ladder ball 57 in the openings 63 are received and the engagement detection element 51 in the bulge 49 of the first rotation ring 47 is added, the first rotation ring 47 and the second rotation ring 53 enclosed between the first rotation disk 41 and the second rotation disk 59 such that the first rotary ring 47 engages with the first rotation disk 41 and the second rotation ring 53 engages the second rotation disk 59 , where the first ladder ball 55 in the first pen 43 extends into it. After the extension 29 the first clutch 25 through the rotary disks and the rotary rings, the first two projections become 27 the first clutch 29 in the ways 11 of the castle nucleus 7 added. Then the lock core becomes 7 in the front part of the hollow sleeve 5 of the cylinder body 1 plugged in. A first positioning ring 21 is through the first radial slot 10 passed through and the groove 19 of the castle nucleus 7 , thus the lock core 7 safely inside the cylinder body 1 to keep.

After the engine clamp 65 with the master circuit board 91 , the engine 69 , mother 73 , the actuator 75 and the head office 67 She can assemble herself with her four arms 650 each in the first slots 83 and the second slots 85 straighten in, leaving the engine clamp 65 inside the rotor 81 can be mounted. Then the two projections extend 35 the second clutch 33 in the first slots 83 of the rotor 81 into it. Hereupon the rotor extends 81 in the sleeve 5 of the lock body 1 and engages over the cam 77 in the neckline 3 of the lock body 1 is held. A screw or similar is used to adjust the position of the cam 77 relative to the rotor 81 to fix. A positioning ring is through the second radial slot 102 of the body 1 passed through and on the outer periphery of the rotor 81 held over an engagement with the flange 810 such that the rotor 81 not from the sleeve 5 of the lock body 1 solves. Finally, the rotational seat 89 at the end of the lock body 1 assembled.

The first pin of the first rotation disk 41 is engaged with the stop element 23 and the engagement detection element 51 extends into the recess 31 the first clutch 25 into it. At this time stands the engagement detection element 51 not in engagement with the second conductor ball 57 , The second pens 61 the second rotation disk 59 engage one end of the ladder seat 67 , which is electrically connected to the master circuit board 91 , The master circuit board 91 is electric to the engine 69 connected. The master circuit board 91 is able to send a signal to the engine 69 to give up to the engine 69 and the buzzer 95 to activate / deactivate, so that the buzzer 95 is able to give an alarm.

A key 99 with a built-in circuit board is in 2 shown, with the key 99 from a key body 101 , a chip 105 as well as a leader 107 composed. The chip 105 is safe on one side of the key body 101 attached and then the ladder 107 on the free side of the chip 105 connected. This will become an envelope 103 provided the combination of chip 105 and ladder 107 to avoid pollution.

When referring to the 3 and 4 the lock according to the present invention is in a locked state, a dual protection mechanism is achieved. That is, the first lock function is achieved by the conventional lock function of the lock core 7 and the second locking function is achieved by the coupling according to the present invention. When the user attempts to unlock the lock according to the present invention, the user must release the conventional latch mechanism and then the clutch to complete the complete unlocking process according to the present invention. If only the first mechanical mechanism is unlocked and an unauthorized person attempts to break the lock, the buzzer will sound 95 an alarm. If the chip 105 is connected to a security authority, the warning signal delivers the alert to the security authority for better protection.

More detailed, before the key in the lock core 7 is inserted, locks the lock according to the present invention by the conventional tumblers, and accordingly, the lock core 7 not rotatable. Here, the master circuit board 91 no signal from the chip 105 is the engine 69 within the lock according to the present invention immovable to unlock the lock. However, after the key is inserted, the lock core becomes 7 unlocked, leaving the lock core 7 is rotatable, thus deactivating the conventional latch mechanism. In the meantime the leader is standing 107 in engagement with the engagement ball 231 , About the stop element 23 , the first pen 43 , the first ladder ball 55 , the second pen 61 and the head office 67 the information gets into the chip 105 transferred to the master circuit board 91 to verify that the inserted key is the correct one. The key 99 occurs after entering the lock core 7 is plugged into engagement with the first conductor 55 , The first clutch 25 that by the key 99 is pushed, moves axially to the detection element 51 to slide and engage with the second conductor ball 57 as shown in the 5 and 6 , the Accordingly, an electrical connection is established via the first conductor 45 , the detection element 51 , the second ladder ball 57 , the second pen 61 , the head office 67 and the master circuit board 91 , After the verification is confirmed, the engine becomes 69 activated via the master circuit board 91 and the engine 69 drives the grub screw 71 for rotation, which in turn the actuator 75 and the second clutch 33 drives, so this towards the key 99 over the screw 73 emotional. Meanwhile, the recess 37 the second clutch 33 aligned with the extension 29 the first clutch 25 as shown in 4 , Thus, the rotation of the key 99 capable of the lock core 7 to turn, with the rotor 81 is also rotated, such that the projection of the cam 77 is also moved, so that the lock is unlocked.

If the rotor 81 is rotated, is the master circuit board 91 capable of determining whether the lock according to the present invention is in a normal operating status. That is, if the lock core 7 is turned, but not the engine 81 , is the master circuit board 91 able to give a signal to the buzzer to generate the alarm. An electromagnetic valve may be used in accordance with the present invention to drive the engine 69 to replace. The electromagnetic valve is connected to the second clutch 33 connected to the second clutch 33 to move linearly.

With reference to the 7 to 10 Another embodiment of the present invention is shown and includes a lock body 1 , a lock core 7 , a rotor 81 and a coupling device. The cylinder body 1 has a hollow sleeve 5 and a recess 3 which the sleeve 5 divided into two halves to be a cam herein 71 which has a projection 73 which is on the underside of the cam 71 is trained.

The castle core 7 is a hollow cylinder and has two opposite paths 11 , each parallel to the longitudinal axis of the cylinder on the lateral periphery of the lock core 7 are formed while a passage 13 axially in the lateral periphery of the lock core 7 provided and a groove 19 in the proximal end of the lock core 7 is trained. The passage 13 is intended to be a disk herein 15 as well as a spring 23 to record that with the disc 15 in plant stands. The castle core 7 also has several tumblers (not shown) within the lock core 7 , A first rotation circuit board 123 is at the distal end of the lock core 7 mounted and has several second cutouts 125 located in the periphery of the first rotary circuit board 123 are formed such that a plurality of screws (not shown) are able to pass through the second cutouts 125 through and into the distal end of the lock core 7 extend into the first rotary circuit board 123 to keep. The first rotation circuit board 123 has a contact 131 That's safe with the first rotary circuit board 123 is mounted.

The rotor 81 has a longitudinally formed first slot 83 and a side slot 85 which extends along the first slot 83 extends. The first slot 83 and the side slot 85 are in communication with an open end, which is at the distal end of the rotor 81 is trained. A second rotary circuit board 127 is safe at the distal end of the rotor 81 mounted and has a second contact 131 which is mounted on this. An opening 811 is on a side surface of the rotor 81 educated.

The coupling device comprises a first coupling 109 , a second clutch 115 and a third clutch 133 , The second clutch 115 has two opposing projections 117 , each at one end of the second clutch 115 are trained to be taken in the way 11 of the castle core 7 while a projection 121 on a side surface of the second clutch 31 is trained. Before the first rotary circuit board 123 at the distal end of the lock core 7 is fastened, first, the second clutch 115 in the central opening of the castle nucleus 7 placed, with the two projections 117 be taken in the way and then the first rotation circuit board 123 at the distal end of the lock core 7 assembled. Several first springs 119 be between the first rotation circuit board 123 and the second clutch 115 added. After the disc 15 and the spring 23 in the passage 13 of the castle core 7 be recorded, the lock core 7 mounted in a front part of one of the sleeves 5 of the body 1 , A positioning ring 233 is used that he is in the radial slot 10 extends and into the groove 19 of the castle core 7 to prevent the lock core 7 axially in the body 1 emotional. The castle core 7 however, it is able to move within the body 1 to turn.

The first clutch 109 has a recess 113 according to the tab 121 the second clutch 115 where two opposing blocks 111 each on one side of the first clutch 109 are formed in the first slot 83 of the rotor 81 be recorded.

The third clutch 133 has two secondary blocks 137 , each on a side surface of the third clutch 133 are trained and up be taken in the first slot 83 of the rotor 81 as well as a long hole 141 which is on one side of the third clutch 133 is trained. A passage opening 135 located on a front surface of the third clutch 133 and communicates with a threaded hole 145 of the seat 143 after the seat 143 in the third clutch 133 recorded is from the slot 141 , After that, a projection extends 147 who is at the seat 143 is formed from the slot 141 out. Both the third clutch 133 as well as the seat 143 are in the rotor 81 taken, with the two secondary blocks 135 in the first slot 83 are included. A second spring 139 is held between the first clutch 109 and the third clutch 133 , The rotor 81 also has a drive element, a positioning block 135 as well as a ladder 149 with two opposite arms 151 , each on one side of the conductor 149 is trained. The positioning block 153 has two mutually opposite cutouts (not provided with a reference numeral) in order to secure the conductor herein 149 and take it to the two arms 151 to allow them out of the positioning block 153 protrude. In this embodiment, the drive element is a motor 69 , wherein a motor shaft through a motor bracket 155 extends through and is threadedly connected to a threaded bolt 71 and the threaded hole 145 of the seat 141 , The motor 69 , the engine bracket 155 , the third clutch 133 and the seat 143 are mounted inside the rotor 81 so the lead 147 between the two arms 151 is positioned. Then, the second rotation circuit board becomes 127 in the rotor 81 positioned over screws, extending through the third cutouts 129 the second rotation circuit board 127 extend through and into the rotor 81 into it. A bolt 163 extends through a clamping ring 161 into the hole 811 of the rotor 81 into it, thus the rotor 81 with the clamping ring 161 to position.

A ring 157 with on the inside of the ring 157 trained teeth is attached to the body 1 mounted over a second slot 101 which is formed radially in the sleeve 5 of the body 1 to make it the rotor 81 to allow yourself through the ring 157 and the cam 77 in the neckline 3 of the body 1 is taken to extend through. Screws are inserted to the cam 77 on the outer periphery of the engine 81 to keep. A sensor 149 is on the outer periphery of the rotor 81 mounted and the sensor 149 is the teeth of the ring 157 facing after the rotor 81 in the sleeve 5 of the body 1 is included.

After the aforementioned elements within the body 1 have been assembled, results because the projections 117 the second clutch 115 within the way 11 of the castle core 7 are received, no relative rotation between the second clutch 115 and the castle core 7 , The feather 23 is electrically connected to the first rotary circuit board 123 connected so that the first rotary circuit board 123 is able to get signals from the spring 23 to recieve.

The motor 69 is capable of the threaded bolt 71 to drive, thus the seat 143 to move, which in turn is the third clutch 133 to the movement drives. The movement of the third clutch 133 moves the first clutch 109 over the second spring 139 , Because the lead 147 of the seat 143 in the side slot 85 of the rotor 81 is included, allows the movement of the seat 143 the lead 147 from the side slot 85 to move away or into it. Meanwhile, the first blocks 137 and the second blocks 111 also in the first slot 83 of the rotor 81 moved in or away from it. If the lead 147 out of the side slot 83 extends out and the first blocks 137 and the second blocks 111 in the first slot 83 can be moved into it, the rotor 81 not be turned. If, however, the first blocks 137 and the second blocks 111 from the first slot 83 can be moved out, the rotor 81 to be turned around. When the rotor is turned, the projection becomes 79 in the neckline 3 leads to drive another locking device (not shown).

The present invention further has an alarm system which sounds an alarm when an unauthorized person attempts to unlock the lock mechanism according to the present invention, thereby enhancing the safety of the lock mechanism. In this embodiment, moreover, a rotational seat 89 intended. The rotary seat 89 has a master circuit board 91 , a battery 93 , a buzzer 95 as well as a lid 97 standing on the front of the rotary seat 89 is trained. The battery 93 , the buzzer 95 and the master circuit board 93 are electrically connected together and the master circuit board 91 is electrically connected to the second rotary circuit board 127 and the sensor 159 connected.

A key 99 is as shown in 7 provided with an embedded circuit and has a body 101 , a chip 105 who is in the body 101 is formed and a circuit board 103 carries that integral in the chip 105 is formed and a (not shown) enclosure that the chip 105 within the body 101 includes damage to the chip 105 to avoid. The contacts 131 on the first rotary circuit board 123 and the second rotation circuit board 127 are able to send signals to the engine and to the coupling device, thus to drive the lock mechanism according to the present invention.

When the lock mechanism according to the present invention is in a locked state, there are two different locking mechanisms which provide the desired locking effect, namely the conventional locking mechanism in the lock core 7 and the coupling device. When a user attempts to unlock the lock mechanism according to the present invention, the user must lock the lock core 7 unlock as well as the coupling means of the lock mechanism in a sequential manner, otherwise the buzzer 95 sound an alarm to warn the security guard that an illegal act is in progress. To go into more detail of the operation of the lock mechanism according to the present invention, it should be pointed out that before the key 99 in the castle core 7 is inserted, the several tumblers the lock core 7 lock to prevent the lock core 7 rotates so that the lock mechanism is locked. Because the way in which the tumblers the lock core 7 is conventional, a detailed description thereof will be omitted for brevity. In the meantime, the first rotary circuit board 123 and the second rotation circuit board 127 fixed so that no signal is transmitted to the master circuit board 89 to the engine 69 to propel a movement. The third clutch 133 and the first clutch 109 be in the rotor 81 recorded and thus become the first blocks 111 the first clutch 109 and the second blocks 137 the third clutch 133 in the first slot 83 of the rotor 81 recorded to a rotation of the rotor 81 to prevent. A second locking effect is thus achieved.

In contrast, the key 99 in the castle core 7 is plugged in, the tumblers are rearranged to the lock core 7 to turn it. In the meantime, the circuit board occurs 103 of the chip 105 with the spring 23 in attachment such that the code information in the chip 105 is transferred to the first rotary circuit board 123 over the spring 23 , Then the information on the master circuit board 91 transmitted via the ladder 131 the first rotary circuit board 123 and the second rotation circuit board 127 , After the trunk circuit board 91 receiving the information becomes the engine 69 activated to the threaded bolt 71 to turn. The rotation of the threaded bolt 71 drives the third clutch 133 and the first clutch 109 to a move on towards the key 99 to make it the first blocks 137 and the second blocks 111 to allow yourself from the first slot 83 move away and engage between the first clutch 109 and the second clutch 115 until the extension 147 of the seat 143 engages one of the arms 151 of the leader 149 so the engine 69 is complied with. Accordingly, the rotation of the key is driving 99 not only the lock core 7 but also the rotor 81 and thus the lead 73 of the cam 71 to unlock the lock mechanism. While the rotor 81 is turned, the sensor is 159 capable of the teeth of the ring 157 to capture and the master circuit board 91 determines whether the lock mechanism is in a normal unlocked state and thus gives the buzzer 95 no alarm sound. If only the lock core 7 is rotated without the rotor 81 , so gives the buzzer 95 an alarm sound. The motor 69 can be replaced by an electromagnetic valve, which is connected to the third clutch 133 connected to the third clutch 133 to move linearly, so as to achieve the above-mentioned operations.

In summary For example, a cylinder lock assembly includes an electronic key, a Cylinder lock body, a lock body, the within the body is recorded while a spring with the circuit board in engagement is feasible and a passage longitudinal is formed in the lock core. A rotor is slidable in the body received and has a first slot which is longitudinal in the Rotor is formed and a side slot in the rotor is formed radially. A cam is slidable in the cutout of the body recorded and held firmly in the rotor. A coupling device, a first rotation circuit board, a second rotation circuit board, a drive element are connected to the seat to the third Coupling device and the first coupling device to move. A control unit is electrically connected to the second rotary circuit board connected and the driving element and a power source are electrically connected to the drive element and the control unit.

It should be explicitly stated again at this point that it is in the foregoing description only such exemplary nature and that various amendments and modifications, in particular as regards the shape, size and arrangement As regards the parts, fall within the scope of the invention, by the attached claims is plugged.

Claims (15)

Cylinder lock arrangement, characterized by: an electronic key ( 99 ) with a chip ( 105 ) and a printed circuit board ( 107 ) integral with the chip ( 105 ) is trained; a cylinder lock body ( 1 ) with a recess ( 3 ) in a central part of the body ( 1 ) is formed and the body ( 1 ) in two sleeves ( 5 ) divided; a cylinder lock core ( 7 ) inside the body ( 1 ) and has a plurality of tumblers which are displaceable in the lock core ( 7 ) and by the key ( 99 ) are drivable, wherein the lock core has a spring which is connected to the circuit board ( 107 ) is feasible for intervention while a passage ( 13 ) in the longitudinal direction on the outer periphery of the lock core ( 7 ) is trained; a rotor ( 81 ), which is displaceable in the body ( 1 ) and a first slot ( 83 ) carried in the rotor ( 81 ) is formed in the longitudinal direction, while a side slot radially in the rotor ( 81 ) is shaped; a cam which is displaceable in the recess ( 3 ) of the body ( 1 ) and in the rotor ( 81 ) is held; a coupling device with a first coupling ( 25 ) and a second clutch ( 33 ), wherein the first clutch ( 25 ) in the passage ( 13 ) of the lock core ( 7 ), while the second clutch ( 33 ) in the first slot ( 80 ) of the rotor ( 81 ) is included; a first rotary circuit board ( 123 ) in the lock core ( 7 ) and a first contact ring on the first rotary circuit board ( 123 ) wearing; a second rotary circuit board ( 127 ), which in the rotor ( 81 ) and a second contact ring on the second rotary circuit board ( 127 ) wearing; a drive element ( 69 ), which is connected to the seat for driving the second clutch ( 33 ) such that the second clutch ( 33 ) from the first slot of the rotor ( 81 ) can be led away or into it; a control unit that is connected between the first clutch ( 25 ) and the second clutch ( 33 ) and is electrically connected to the second rotary circuit board ( 127 ) and the driving element ( 69 ) such that when the first contact of the first rotary circuit board ( 123 ) with the second contact of the second rotary circuit board ( 127 ), a signal is transferable to the control unit for activation of the drive element ( 69 ) for driving the first clutch and the third clutch; a master circuit board ( 91 ) electrically connected to the control unit and the drive element ( 69 ) and a power supply source electrically connected to the drive element ( 69 ) and the master circuit board ( 91 ) connected. Cylinder lock arrangement according to claim 1, characterized in that the drive element ( 69 ) is a motor whose shaft with a threaded bolt ( 71 ) which is threadedly engaged with a nut ( 73 ), whereby the mother ( 73 ) to the second clutch ( 33 ) connected. Cylinder lock arrangement according to claim 2, characterized in that an actuator ( 75 ) between the coupling device and the nut ( 73 ) is arranged. Cylinder lock arrangement according to claim 1, characterized in that the drive element ( 69 ) is an electromagnetic valve, which in conjunction with a threaded bolt ( 71 ), which is connected to a threaded bore formed in the seat. A cylinder lock assembly according to claim 3, characterized in that a ladder seat is provided for sequentially receiving therein the master circuit board ( 91 ), the drive element ( 69 ) as well as the actuator ( 75 ), wherein the conductor seat electrically to the control unit and the master circuit board ( 91 ) connected. Cylinder lock arrangement according to claim 1, characterized in that in that the control unit has a first rotation disk, a first rotation disk Rotary ring, a second rotary disc and a second rotary ring comprising, wherein the first rotary ring and the second rotary ring are held between the first rotation disk and the second Rotation disk and the first rotation disk on a stop element rests in the lock core. Cylinder lock assembly according to claim 6, wherein the first Ring has an engagement element and the first clutch has a recess, wherein the engagement element in the recess is received such that when the first clutch moves is, the engagement element for engagement with the engagement ball movable is. Cylinder lock arrangement according to claim 1, characterized in that in addition a buzzer ( 95 ) to the master circuit board ( 91 ) connected. Cylinder lock arrangement according to claim 1, characterized in that that the power supply is a battery. A cylinder lock assembly characterized by: an electronic key having a chip and a circuit board integrally formed inside the chip; a cylinder lock body having a cutout formed in a central part of the body for dividing the body into two sleeves; a cylinder lock core housed within the body and having therein a plurality of tumblers slidably disposed in the lock core and movable by the key, the lock core having a spring engageable with the circuit board and a passageway lengthwise is formed in the outer periphery of the lock core; a rotor slidably received in the body with a first slot formed longitudinally in the rotor and a second slot formed radially in the rotor; a cam which is slidably received in the recess of the body and securely held in the rotor; a clutch device having a first clutch, a second clutch and a third clutch, wherein the first clutch is received in the passage of the lock core and the first clutch and the third clutch are held in the first slot of the rotor while a spring is trapped between first clutch and the third clutch; a seat; a first rotation circuit board fixedly received in the lock core and supporting a first contact ring on the first rotation circuit board; a second rotary circuit board fixedly received in the rotor with a second contact ring on the second rotary circuit board; a drive element, which is connected to the seat for driving the first clutch and the third clutch such that the first hitch be and the third clutch of the first slot of the rotor away or into these are feasible; a master circuit board electrically connected to the second rotary circuit board as well as to the drive element such that when the first contact of the first rotary circuit board engages the second contact of the second rotary circuit board, a signal is transferable to the control unit to activate the drive element for driving the first clutch and the third clutch, and a power supply that is electrically connected to the drive element and the master circuit board. Cylinder lock arrangement according to claim 10, characterized in that that the drive element is a motor whose motor shaft with a Threaded bolt is connected, which to a threaded hole of the seat is connected. Cylinder lock arrangement according to claim 10, characterized in that the drive element is an electromagnetic valve which in conjunction with the third clutch. Cylinder lock arrangement according to claim 10, characterized in that that the rotor has a sensor which has two arms, each electrically connected to the drive element, the arms being alternately connected to two opposite ones Secondary blocks can be connected, each formed on one side of the third clutch for stopping the drive element. Cylinder lock assembly according to claim 13, in addition comprising a buzzer electrically connected to the master circuit board connected. Cylinder lock arrangement according to claim 10, characterized in that the power supply source is a battery.