RU2443840C2 - Code-lock system - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: code-lock system comprises a key, a lock cylinder, a bolt, a plank, a code lock unit, an alarm unit, and is additionally equipped with code dials, a security unit, a unit of signal transfer by text of an ordinary telephone, a supply voltage unit, a unit of video negotiations. Code dials have inner numbered parts and sensor keys.

EFFECT: compactness and multifunctionality of the code-lock system.

2 cl, 17 dwg

Description

The invention relates to the field of locking devices. There is a method of covert input of a sequence of characters according to the patent of the Russian Federation No. 2379744 C2, IPC G06F 3/00, which consists in the fact that the keys are randomly assigned the functions they perform, and the corresponding characters are visually displayed on the keyboard. The disadvantage of this method is the fact that it applies only to an electronic device and cannot be applied to mechanical locking devices and systems. Known secret block for level locks according to the patent of the Russian Federation No. 2382158 C1, IPC EV 25/00. Here the levers swing relative to one of the support columns when the key is turned and have a sector-shaped window with locking tabs in their field. The disadvantages of the known device is the fact that the device does not have means of protection against hacking, insufficient secrecy applied only to mechanical devices codes. There is a method of creating an electronic encoding device of increased cryptographic strength according to the patent of the Russian Federation No. 2358082 C2, IPC EV05/00, where ratios for a mixed calculus system are used.

The disadvantage of this method is that it is applicable only to electronic devices. Known code panel according to the patent of the Russian Federation No. 2318967 C1, IPC EV 47/00. The code panel includes a reading unit associated with the controller of the actuator, containing a set of sensors sensitive to the physical field, having a code key containing point sources of the physical field.

A disadvantage of the known device is the lack of resistance against breaking into the device, it does not have a means of reporting a break-in or attempted break-in. A control device for an electronic lock according to RF patent No. 2345204 C2, IPC EV05/00, comprising counters, an RC circuit, a Schmidt trigger, an information bus, an RS trigger, a ROM, a multiplexer, are appropriately connected. A disadvantage of the known control device is low functionality, the device does not have remote control, there is no way to report unauthorized hacking, low security codes, the device has nothing to do with conventional lock devices (mechanical devices), there is no intercom and video surveillance, which generally makes the device not effective. A device for entering an access code into the controller of the actuator of the lock according to the patent of the Russian Federation No. 2321714 C1, IPC EV 47/00, containing a readout node connected to the controller of the actuator, containing magnetosensitive sensors and a code key configured to magnetically field the magnetic field sensors. The code key is made in the form of a disk in which through holes are made, the centers of which lie on radial lines relative to the disk. The disadvantages of the known device are the small functionality of the device, this device is not applicable to mechanical systems, does not have a mechanism to counter hacking, there are no warning devices.

A known lock with the code according to the patent of the Russian Federation No. 2314398 C2, IPC EV05/14, which contains a housing, a locking bolt, a locking break, a locking assembly with a disk element, with a peripheral recess, a drum cam and a return cam, controlling and tracking mechanisms corresponding to each drum cam. A disadvantage of the known device is its narrow functionality. The lock can only be padlocked in the embodiment in which it is given in the patent. It does not allow it to be used as an internal one, with a key, without a key, and has no means of hacking.

The known code mechanism of the lock according to the patent of the Russian Federation No. 2301313 C1, IPC EV 05/08. The lock code mechanism comprises a housing, a shaft mounted in the housing, a code element rigidly connected to the shaft, a key and a sensing element mounted to interact with the code element. The shaft is made with the possibility of axial movement and is spring loaded in the axial direction, and the key is in the form of a cup with a central rod mounted in it with the possibility of rotation and axial movement, on which the first annular element is rigidly mounted with a profile end surface interacting with the cantilever end of the copier, the other end which is fixed to the side wall of the glass, equipped with a means for fixing its position relative to the housing. The disadvantage of this device is the narrow functionality. The device is applicable only to mechanical systems; it does not have a means of reporting hacking or attempted hacking. A known lock with a code device according to the patent of the Russian Federation No. 2377376 C1, IPC E05 B 35/04. The lock contains a housing in the form of a slot and a code block with a locking unit. The locking unit is made in the form of a code plate with blind holes for securing the code pushers and through holes for accommodating additional false non-code pushers, a non-code plate with holes for attaching false non-code pushers, a supporting non-code plate, a guide plate and a pressure plate with an L-shaped cross section. Holes are made on one shelf of the plate to accommodate guide screws loaded with springs. Another shelf is placed with the possibility of contact with the lever-dog, interacting with the control washer of the axis of the handle. Guide screws are installed to interact with the code plate. The plate is equipped with a lever pivotally mounted on it, interacting with an earring pivotally mounted on a supporting non-code plate. The receiving space for the key is made in the form of a slot located opposite the slot in the housing and formed by a plate with inlets for code pushers and a plate with outlet openings for code pushers. The bolt control mechanism consists of a lever, a rotary ring with a groove, and a thrust. The rod is installed with the possibility of interaction with the lever of the code plate of the locking unit and with the two-arm lever. The crossbar is equipped with a spring-loaded stopper. The device does not contain anti-hacking tools, warning and alarm equipment, no video and sound surveillance.

The device is bulky and has little secret capabilities.

Known code-locking system according to patent GB 1373281 A, 11/06/1974 g (prototype), containing a key, a deadbolt, a bar, a code lock block, an alarm block. The disadvantage of this device is the narrow functionality.

These disadvantages are eliminated by the proposed device.  The goal of expanding the functionality is achieved by the fact that the code-lock system (KZS), containing a key, a deadbolt, a bar, a code lock block, an alarm block, is additionally equipped with code dialers (KN) 2 having internal numbered parts (ПЧКН) 2. 1, and on the front panel there are also touch keys, with the “open” touch button 4, a set of other touch keys 5, a set of indicators 6, and a set of other touch keys 5 and indicators 6 can be located on a separate panel 7, above the larva 8, s with an inserted key 9, there are ultrasonic emitters and receivers 10, 11, a rotating ring 12 is attached to the panel 1, with holes 13, around the circumference of ПЧКН 2. 1, there may be directional symbols 15, the key 9 has an opening 16, and the touch keys 3 may be lower than KH 2, the larva 8 has a rotational protrusion 17 that engages with the disk 18, which protrusions 19 engage with the tube 20 KN 2, the tubes 20 may have several sections 21, KN 2. 1 can be square in shape, the larva 8 is inserted into the housings 22 and 23, which are connected by protrusions 24 to the power plates 25, 26, the front panel 1 is attached to the power plate 25 by the strut 27, in the guides 28 a valve 29 having bolts 30 is inserted, on of the other part of the door-housing system, a bar 31 with holes 32 is placed, where the bolts 30 are inserted when closing the lock, in the guides 28, the valve 29 has a slot with protrusions 33 that engage with the protrusion 17, which engages with the valve 29, which has also beveled protrusion 34, cat ing engages the beveled lip 35 actuator 36, which is attached to mounting 37, the tubes 20 are inserted rollers 28. 1, which have KN 2 at their ends. 1, on the reverse side of the lock there is also a continuation of the larva 8, into which the key 9 can be inserted, and there is a rotation ring 12 with holes 13 into which the pins 38 of the detachable ring 39 are inserted, having the lock 40, while the pins 38 are engaged with the key 9 , behind the rings there is a plate 41, and the code lock block (BKZ) 42 consists of sensors (C) 43 connected to the connector 44 connected to the threshold elements (PE) 45, the pulse generator (G) 46 is connected to the 1st input of the key (K) 47, the 2nd input of which is connected to the “1” output of the trigger (T) 48, the “1” input to which is connected to the output OR 49, and the “0” output is connected to the first indicator (IN1) 50, the second indicator (IN2) 51 is connected to the “1” output T 48, output K 47 is connected to the divider (D) 52, connected to the clocking (t) input of the pulse distributor (RI) 53, the corresponding outputs of which are connected to the corresponding keys (K) 54, the second outputs of which are connected to the outputs corresponding to PE 45, and the outputs to the corresponding inputs of T 55 connected to the corresponding inputs of the shear block registers (BSR) 56, the service (sl) output of the delay element (E) 57 is connected to the "0" input T 55, The sensor (C) 58 is connected to the connector (REM) 59, connected to the PE 60 connected to the pulse shaper (FI) 61, connected to the enable (p) inputs of the comparators (KMP) 62, and the 1-inputs of which are connected to the corresponding outputs of the BDS 56, and the 2-inputs are connected to the outputs of the corresponding switches 63, the “Yes” outputs of the KMP 62 are connected to the And 64 element, the p-input of which is connected to the output of E 64. 1, the input of which is connected to the output of FI 61, and the output AND 64 is connected to the 1st input OR 65, the output of which is connected to the input of FI 66, the output of which is connected to the input To 67 and the input of the amplifier element (UE) 68, the output of which is connected to drive 36, output K 67 is connected to input D 69, the output of which is connected to the input of the third (INZ) indicator 70, C 71 is connected to REM 72, which is connected to PE 73, connected to OR 74, connected to 2nd input OR 65, REM 75 is connected to the input of the filter (F) 76, connected to the detector (DT) 77, connected to the 2nd input OR 74, and the security unit (BHR) 78 consists of G 79, connected to D 80, connected to FI 81, connected to a serial voltage circuit 82, 83, the output of which is connected to the “0” input E 84, the output of which is connected to the input OR 85, the output of which is connected to “1” - input T 86, the output of which is connected to the input of REM 87, the output of FI 81 is also connected to the 1st input E 84 and the input of circuit 90, the output of which is connected to the input of FI 91, the output of which is connected to the corresponding input OR 85, to each input of which the output of REM 92 and the output of OR 93 are connected, the corresponding inputs of which are connected to the outputs of PE 94, the output of which connected to the outputs of the respective sensors 95 penetration, the fire signal sensor 96, water sensor 97, motion sensor 98; G 79 is also connected to D 99, D 100, D 89 is connected to the input of FI 101 connected to the 1st input of K 102, the 2nd input of which is connected to the output of D 100, and the output to the ultrasonic emitter 103, the output of FI 101 also connected to the input of FI 104, the output of which is connected to the 1st input of K 105, the 2nd input of which is connected to the output of the ultrasonic radiation receiver 106, the output of K 105 is connected to the input of the filter 107, the output of which is connected to the input of the detector 108, the output of which connected to the input of FI 109, which is connected to OR 85, the keys 110 are connected to the pulse shaper 111, connected to P ZM 112 connected to the “0” input of T 86, and the alarm unit 113 consists of a connector 87 connected to a pulse shaper 114 connected to 2 inputs of the keys 115, the 1st inputs of which are connected to the corresponding key to enable the alarm message moreover, the key first 116 is connected to the first input of the corresponding K 115; the input of the sound siren device 117 is connected to the output D 118, connected to the output K 119, the first input of which is connected to the output of the corresponding K 115, and the second input to the output of FI 114, the first input of which is connected to the output of generator 120 , the second key 121 is connected to the corresponding K 115, the flasher 122 is connected to the output D 123, connected to the output K 124, the first input of which is connected to the outputs of the corresponding K 115, and the second input to the output G 120, the third key 125 connected to the corresponding K 115 connected to the speakerphone 126, the fourth key 127 is connected to corresponding to K 115, to the “1” input of T 128 connected to the 1st input of K 129, connected to D 130, connected to the t-input of RI 131, connected to the block of shift registers (BSR2) 132, (BSR1) 133, connected to keyboard block 134, display block 135, output D 130 is connected to input E 136, connected to p-inputs BSR1 - 133, BSR2 - 132, output D 130 is connected to input E 137, connected to 1st input T 138, connected to the 1st inputs K 139, K 140 and the p-input of the CP 141, the shift register block 142 is connected to the FI 143 connected to the 2nd input K 144, the 2nd input of which is connected to the output G 120, and the output D 145 connections n to the SR input 141, the outputs of the ROM 146 are connected to the SR21 and 2 inputs, the SR 141 I-output is connected to the 1st input K 142, the service (sl) SR 141 output is connected to the FI 148 input connected to 1- m input K 149, the 2nd input of which is connected to the output of G 120, and the output to D 150, the output of which is connected to the t-input of the block of shift registers 142, and the 1-outputs of which are connected to the inputs of the digital-to-analog converter (DAC) 151, connected to the 1st input K 147, the elements 128-151 form the signaling unit of a regular telephone 152, the elements 128-138 form the information recording unit (BZI) 153, the BSGOT includes digital th processor 154, connected to the output 128 T, 129 K and input to the telephone line, the elements 139-154 form an information transmission unit (BPI) - 154. 1, a text signal transmission unit (SMS text message) of a conventional telephone (BSMSOT) 155 comprises an BSI 156 and a BPI 157, similar to the BPI 154. 1, the p-input of BSMSOT 155 is connected to the output of the corresponding K 115, the first input of which is connected to the output of KL4 158, KL6 159 is connected to the input of the corresponding K 115 connected to the p-input of the sms alarm transmission unit by mobile phone (BSMSMT) 160, which consists of BZI 161 connected to G 120 and to BSR1 162 and BSR2 163, connected to ROM 164, the r-output of BZI 161 is connected to the r-inputs of BSR1 162, BSR2 163 and to the 1st input T 165 connected to the 1st input K 166, the 2nd input of which is connected to the output D 167, and the output is connected to the t-input of the pulse distributor (RI) 168, and 1, and 2-outputs of which are connected They are connected to the corresponding inputs of the decoder (DS) 169, and the sl-output is connected to the 0-input of Т 165, the outputs of БСР1 162, БСР2 163 are connected to the inputs of ДС 169, connected to the inputs of the drive unit 171, connected to the keys of the mobile phone 172.  KL7 173 is connected to the input of the corresponding K 115, connected to the p-input of the alarm message block by mobile phone (BGSMT) 174 connected to G 120, which has the same structure as the BSMSMT 160, equipped with a DAC 175, connected to the inputs of BSR1 162, and output - to the speaker 176 connected to the microphone 176. 1, KL8 177 is connected to the corresponding K 115, connected to the p-input of the alarm message block by means of a radio station (BSRS) 178, connected to the 1st input of T 179, connected to the 1st input of K 180, connected to the input of D 181 connected to the t-input of RI 182, connected to the i-input of the memory unit 183, the p-input of which is connected to the output E 184, the input of which is connected to the output D 181, and the output of the PSU 183 is connected to the sl-inputs of the digital-to-analog converter (DAC) 185, the output of which is connected to the input of the speaker 186, the microphone 187 of the radio station 188 is connected to the ДН 186, КЛ 189 are connected to the output of T 179, and the power supply unit 190 consists of a voltage converter 191 connected to the unit 192 and to the charger 193 connected to the battery 194 connected to the switch 195 connected to the PSU 195, and the video communication unit 196 consists of C 196 . 1, connected to a connector 197, connected to a threshold elements 198, connected to the corresponding keys 199, the generator 200 is connected to K 201 and to T 202, to ID 203, the output of K 201 is connected to D 204, connected to the midrange 205, the output of the midrange 205 connected to the input DSH 206, the output of which is connected to the inputs of the corresponding To 199, the outputs of which are connected to the inputs OR 207, the outputs of which are connected to the "0" input T 202, the 2nd output of which is connected to ID 208, E 210 is connected to " 0 "input of the MF 205, and the output to T 202, the output of OR 207 connected to the p-input of the BSR 209 and input E 211, the output of which is connected to the 1st input of T 202, the output of the BSR 209 is connected to the DS 212, connected to the indicator 213, the sensor 214 is connected to the connector 215, connected to the PE 216, connected to the FI 217, connected to the "0" input of the BSR 209, the sensor 218 is connected to the REM 219, connected to the PE 220, connected to the FI 221, connected to the p-input of the CP 222, connected to the output of the ROM 223, the output of the FI 221 connected to the input E 224, connected to the 1st input T 225, connected to the input K 226, the output E 224 connected to input E 227, connected to the 0 input T 225, the 1st input K 226 is connected to the output G 200, and the output to D 228, connected to the t-input CP 222, connected to the modulator 229, connected to the transmitter (Rx) 230 connected to line 231, output T 225 is also connected to K 232, connected to output G 200, and to D 233, connected to M 229 and M 234, connected to output D 228, and to input PRD 230, line 231 is connected to input Ф 235 , 236, respectively connected to DT 237, 238, DT 237 is connected to the starting parcel allocation circuit (CSP) 239, connected to T 240, connected to K 241, connected to t-input of CP 242, whose output is connected to 2- m input T 240, and the input is connected to the output K 243 connected to the output of T 240 and DT 238, the CP output of the 242 is connected to the p-inputs of the ILC 244, 245, the outputs of the ROM 246 are connected to the corresponding inputs of the ILC 244, and Yes Yes d KMP 244 is connected to the 1-input T 247 and to the inputs K 249, KM 250, the camcorder 251 is connected to line 251. 1, through KM 250 to a video monitor 252, a modulator 253, through a switching device 253. 1, line 231 is connected to the speaker 254, the speaker 255 through KU 253. 1 and line 231 is connected to microphones 256, keys 257 are connected to PE 258, FI 259, 0 input T 247, sensor 26 is connected to PE 261, FI 262, key 263 is connected to output T 247, to output K 263 is connected to input To 264, connected to the input G 265 and the inputs of the modulator 267, connected to a transmitter 268 connected to channel 231; moreover, the inner tube thread 20. 1 is inserted into the tube 20, a code dial (KH2) is inserted into it, the tube 20 is engaged with the ball 20. 2, which is preloaded by spring 20. 3, ball 20. 2 enters the frame with recesses 20. 4, located in the tube 20, of which there are as many as the fixed positions of the tube 20, on the threaded surface 20. 5 inner tube 20. 1 is the mounting plate 20. 6 located in neckline 20. 7 tubes 20, on the inner tube 20. 1 there is a marking 20. 8 fixed positions of the plate 20. 6, on the plate 20. 6 is a cutout 20. 9, which includes disk 18.  The invention is illustrated by drawings.  In FIG. 1 shows the front panel of KZS 1, where 2 is the code dial (table of numbers or signs) (KN) having internal numbered parts of KN (ПЧКН) 2. 1 (FIG. 2b, c, d, e).  On the front panel there are also touch keys (surfaces) 3, providing a set of the necessary code, a touch button "open" 4, a set of other touch keys 5, a set of indicators 6.  A set of other touch keys 5 and indicators 6 may be located on a separate panel 7.  Above larva 8 (Fig. 2a), with an inserted key 9, there are ultrasonic emitters and receivers 10, 11.  A rotating ring 12 with holes 13 is attached to the panel 1.  PCCN 2. 1 can be numbered not on their surfaces, but side by side, as shown at position 14.  Around the circumference of the PCCN 2. 1, there may be directional symbols 15 (for example, the numbers 1, 2, 3, 4 (FIG. 2e) or signs: triangle, square, circle, two sticks, etc. d. )  The key 9 has a hole 16.  Touch keys (surfaces) 3 may be below KH 2.  The larva 8 (with mechanisms for secrets for the key) has a rotating protrusion 17, which engages with the disk 18, which protrusions 19 is engaged with the tube 20 KN 2.  In FIG. 2 (e, g) shows another embodiment of the tube 20.  Here's the inner tube with thread 20. 1 is inserted into the tube 20.  The code dial (KN) 2 is inserted into it.  The third option (in this case, a pipe with thread 20. 1 is not required).  The tube 20 is engaged with the ball 20. 2, which is preloaded by spring 20. 3.  Ball 20. 2 enters the groove with recesses 20. 4, located in the tube 20, which are the same as the fixed positions of the tube 20.  On the threaded surface 20. 5 inner tube 20. 1 is the mounting plate 20. 6 in neckline 20. 7 tubes 20.  On the inner tube 20. 1 there is a marking 20. 8 fixed positions of the plate 20. 6 (tubes 20).  On the plate 20. 6 is a cutout 20. 9, which includes disk 18.  Tubes 20 may have several sections 21: 1, 2, 4, etc. d.  (FIG. 2c, d).  KH 2. 1 can be shaped and not round, for example square (FIG. 2d).  The larva 8 is inserted into the housing 22 and 23, which protrusions 24 are attached to the power plates 25, 26.  The front panel 1 is attached to the power plate 25 by the strut 27.  In the GLC guide rails 28, a valve 29 having bolts 30 is inserted.  On the other part of the door-case system, a bar 31 with holes 32 is placed, where the bolts 30 are inserted when closing the lock, when moving in guides 28.  The valve 29 has a slot with protrusions 33 engaged with the protrusion 17, which during rotation moves the valve 29, which also has a beveled protrusion 34, which engages with a beveled protrusion 35 of the actuator 36, which is attached to the mount 37.  Rollers 28 are inserted into tubes 20. 1, which at their ends have ПЧКН 2. one.  On the reverse side of the lock there is also a continuation of the larva 8, into which the key 9 can be inserted, and there is a rotation ring 12 with holes 13.  In the hole 13 of the rings 12, pins 38 of the split ring 39 having a lock 40 are inserted (FIG. 6).  At the same time, the rod 38 engages with the key 9.  Behind the rings is a plate 41 for creating sound (when struck by a ring 39).  The code lock block (BKZ) 42 consists of sensors (C) 43 connected to sockets 44 connected to threshold elements (PE) 45.  The pulse generator (G) 46 is connected to the 1st input of the key (K) 47, the 2nd input of which is connected to the "1" output of the trigger (T) 48, the "1" input of which is connected to the output OR 49, and " 0 ”-exit - to the first indicator (IN1) (green first (З1)) 50.  The second indicator (IN2) (red (K)) 51 is connected to the "1" output T 48.  Output K 47 is connected to a divider (D) 52, connected to a clocking (t) input of a pulse distributor (RI) 53, the corresponding outputs of which are connected to the corresponding keys (K) 54, the second inputs of which are connected to the outputs of the corresponding PE 45, and the outputs are to the corresponding inputs of the triggers (T) 55 connected to the corresponding inputs of the block of shift registers (BSR) 56.  The service (SL) output of RI 53 is connected to the input of the delay element (E) 57, connected to the "0" inputs of T 55.  The sensor (C) 58 (open (from)) is connected to the connector (REM) 59, connected to a threshold element (PE) 60 connected to a pulse shaper (FI) 61, connected to the enable (p) inputs of the comparators (KMP) 62, and 1-inputs of which are connected to the corresponding outputs of the BSR 56, and 2-inputs are connected to the outputs of the corresponding switches (PRKL) 63.  “Yes” - outputs of the ILC 62 are connected to the element And (&) 64, the p-input of which is connected to the output of the delay element (E) 64. 1, the input of which is connected to the output of FI 61, and the output AND 64 is connected to the 1st input OR 65, the output of which is connected to the input of FI 66, the output of which is connected to the input To 67 and the input of the amplifier element (UE) 68, the output of which is connected to the drive (PR) 36.  The output To 67 is connected to the input of the divider (D) 69, the output of which is connected to the input of the indicator of the third (INZ) 70 of the green second (Z2).  The sensor (C) 71 open (from) is connected to the connector (REM) 72, which is connected to the threshold element (PE) 73, is connected to OR 74, connected to the 2nd input OR 65.  The connector (REM) 75 is connected to the input of the filter (F) 76, connected to the detector (DT) 77, connected to the 2nd input OR 74.  The security unit (BHR) 78 consists of a generator (G) 79 connected to a divider (D) 80, connected to a pulse shaper (FI) 81, connected to a serial voltage circuit 82, 83, the output of which is connected to the “0” input of the element delay (E) 84, the output of which is connected to the input of OR 85, the output of which is connected to the “1” input of the trigger (T) 86, the output of which is connected to the input of the connector (REM) 87.  The output of FI 81 is also connected to the 1st input of E 84 and the input of parallel lines 88, 89 of a solid circuit 90, the output of which is connected to the input of a pulse shaper (FI) 91, whose output is connected to the corresponding input OR 85, to the corresponding input of which the output is connected the connector (REM) 92 and the OR output 93, the corresponding inputs of which are connected to the outputs of the threshold elements (PE) 94, the input of each is connected to the outputs of the respective penetration sensors (DPR) 95, fire signal sensors (DPS) 96, water emergence sensors (DVD) 97, motion sensors (DDV) 9 8 and others.  G 79 is also connected to the dividers D 99, D 100.  D 99 is connected to the input of the pulse shaper (FI) 101, connected to the 1st input of the key (K) 102, the 2nd input of which is connected to the output of D 100, and the output to the ultrasonic emitter (FR) 103.  The output of FI 101 is also connected to the input of the pulse shaper (FI) 104, the output of which is connected to the 1st input of the key (K) 105, the 2nd input of which is connected to the output of the ultrasonic radiation receiver (PR) 106.  The output To 105 is connected to the input of the filter (Ф) 107, the output of which is connected to the input of the detector (DT) 108, the output of which is connected to the input of a pulse shaper (FI) 109 connected to OR 85.  The key (CL) 110 is connected to a pulse shaper (FI) 111, connected to the connector (REM) 112, connected to the "0" input T 86.  Signaling block (BSG) 113 (Fig. 9) consists of a connector 87 connected to a pulse shaper (FI) 114 connected to the 2 inputs of the keys (K) 115, the 1st inputs of which are connected to the corresponding enable keys of the alarm message option.  KL 1 (first key) 116 (siren) is connected to the first input of the corresponding K 115.  The input of the sound siren (CIR) device 117 is connected to the output D 118, connected to the output K 119, the 1st input of which is connected to the output of the corresponding K 115, and the 2nd input to the output of the generator (G) 120, 2nd input To 115 is connected to the output of FI 114.  Key two (KL 2) 121 is connected to the corresponding K 115.  The flashing light (MGK) 122 is connected to the output D 123, connected to the output K 124, the 1st input of which is connected to the outputs of the corresponding K 115, and the 2nd input is connected to the output of the generator G 120.  Key three (KL 3) 125 is connected to the corresponding K 115 connected to the speakerphone (MGU) 126.  Key four (KL 4) 127 is connected to the corresponding K 115, the output of which is connected to the “1” input of T 128, connected to the 1st input of K 129, connected to D 130, connected to the t-input of RI 131 connected to the unit shift registers (BSR2) 132, BSR1 133 connected to the keyboard block (BKL) 134, display unit (BIN) 135.  The output D 130 is connected to the input E 136, connected to the p-inputs BSR1 - 133, BSR2 - 132.  The output D 130 is connected to the input E 137, connected to the 1st input T 138 connected to the 1st inputs K 139, 140 and the p-input CP 141, BSR 142 (block shift registers).  BSR 2-132 is connected to FI 143, connected to the 2nd input K 144, the 2nd input of which is connected to the output of G 120, and the output to D 145, the output of which is connected to the t-input of CP 141.  The outputs of the ROM 146 are connected to the 2 inputs of the CP 141.  The I-output of CP 141 is connected to the 1st input of K 147.  The service (sl) output of the CP 141 is connected to the input of FI 148, connected to the 1st input of K 149, the 2nd input of which is connected to the output of G 120, and the output to the input of D 150, the output of which is connected to the t-input of the shear unit registers (BSR) 142, the i-outputs of which are connected to the inputs of the DAC 151, connected to the 1st input To 147.  Elements 128-151 form a conventional telephone signaling unit (BSOT) 152.  Elements 128-138 form an information recording unit (BIS) 153.  The BZI 153 may include a digital processor 154 connected to an output of T 128, an input of K 129, and a telephone line (L1, L2).  Elements 139-154 form a block of information transfer (BPI) - 154. one.  The text signal transmission unit (sms message) of a regular telephone (BSMSOT) 155 contains BSI 156 and BPI 157, similar to BSI 153 and BPI 154. one.  The P-input BSMSOT 155 is connected to the output of the corresponding K 115, the first input of which is connected to the output of KL4 158.  KL6 159 is connected to the input of the corresponding K 115 connected to the p-input of the alarm signal transmission unit by text (sms message) via mobile phone (BSMSMT) 160.  Consists of BZI 161 (similar to BZI 153) connected to G 120 and to BSR1 162 and BSR2 163 connected to ROM 164.  The R-output of the BZI 161 is connected to the r-inputs of BSR1 162, BSR2 163 and to the 1st input T 165 connected to the 1st input K 166, the 2nd input of which is connected to the output D 167 (connected to the generator (G) 120) through the BZI 161, and the output is connected to the t-input RI 168, i1, the 2-outputs of which are connected to the corresponding inputs of the DS 169, and the sl-output to the 0-input T 165.  The outputs of the BSR1 162, BSR2 163 are connected to the corresponding inputs of the DS 169, connected to the inputs of the drive unit (BPR) 171, connected to the keys of the mobile phone (MT) 172.  KL7 173 is connected to the input of the corresponding K 115, connected to the p-input of the ready-made alarm message block by mobile phone (BGSMT) 174 connected to G 120, which has the same structure as BSMSMT 160, only it uses DAC 175 connected to BSR1 (2) 162 (163), and the output is connected to the speaker input (DN) 176 connected to the MT 176 microphone. 1 (172 or via the appropriate connector).  KL8 177 is connected to the corresponding K 115, connected to the p-input of the alarm message block by means of a radio station (BSRS) 178, connected to the 1st input of T 179, connected to the 1st input of K 180, connected to the input of D 181, connected to the t-input RI 182 connected to the i-input of the memory unit (PSU) 183, the p-input of which is connected to the output E 184, the input of which is connected to the output D 181, and the output of the PSU 183 is connected to the i-inputs of the digital-to-analog converter (DAC) ) 185, the output of which is connected to the speaker input (ДН) 186, is connected to the microphone 187 of the radio station (Р / С) 188 (located in Lizzie).  The connector (REM) of the key 189 receive - transmission is connected to the output of T 179.  The power supply unit (BNP) 190 (Fig. 10) consists of a voltage converter (PRB) 191 connected to a power supply unit (PSU) 192 and to a charger (charger) 193 connected to a storage battery (AB) 194 connected to a switch (KM) 195 connected to a PSU 192 and to the relevant elements of the GLC.  Video Call Block (BWP) 196 (FIG. 11) consists of sensors (C) 196. 1, connected to the connectors (REM) 197, connected to the threshold elements (PE) 198, connected to the corresponding keys (K) 199.  Generator (G) 200 is connected to K 201 connected to T 202, and to ID 203 (green indicator).  The output of K 201 is connected to D 204, connected to the +1 input of the midrange 205.  The outputs of the MF 205 are connected to the input of the DS 206, the outputs of which are connected to the inputs of the corresponding K 199, the outputs of which are connected to the inputs of OR 207, the output of which is connected to the “0” input of T 202, the 2nd output of which is connected to the red ID 208.  The output of OR 207 is connected to the p-input of the BSR 209.  E 210 is connected to the "0" input of the midrange 205, and the input of E 210 is connected to the output of T 202.  OR 207 is connected to input E 211, the output of which is connected to the 1st input T 202.  The output of the BSR 209 is connected to the DS 212, connected to the indicator (IN) 213.  The sensor (C) 214 is connected to the connector (REM) 215, connected to the PE 216, connected to the FI 217, connected to the "0" input of the BSR 209.  The sensor (C) 218 "call" is connected to the REM 219, connected to the PE 220, connected to the FI 221, connected to the p-input of the CP 222, connected to the outputs of the ROM 223.  The output of FI 221 is connected to input E 224, connected to the 1st input T 225, connected to input K 226.  The output of E 224 is connected to the input of E 227, connected to the 0-input of T 225.  The 1st input To 226 is connected to the output of G 200, and the output to D 228, connected to the t-input of the CP 222, connected to the modulator (M) 229, connected to the transmitter (PRD) 230, connected to the sound channel (3) 231 (lines).  The output of T - 225 is also connected to K 232, connected by the input to the output of G 200, and the output to D 233, connected to M 229 and M 234, connected to the output of D 228, and the output to the input of the PRD 230.  Line 231 is connected to the input of the filters F 235, 236, respectively connected to the detectors DT 237, 238.  DT 237 is connected to the starter parcel allocation (CSP) circuit 239, connected to T 240, connected to K 241, connected to the t-input of CP 242, the sl-output of which is connected to the 2nd input of T 240, and the i-input is connected to output K 243 connected to the output of T 240 and DT 238.  The CP 242 SL output is connected to the KMP 244, 245 p-inputs.  The outputs of the ROM 246 are connected to the corresponding inputs of the ILC 244, and the “Yes” output of the ILC 244 is connected to the 1-input T 247, and the output is connected to the inputs K 249 and KM (switch) 250.  The camcorder (VCR) 251 is connected to the channel "Video" (B) 251. one.  Through KM 250 - to the video monitor (VM) 252.  Microphone 253 through a switching device (KU) 253. 1, channel 231 is connected to a speaker (DN) 254 via K 249.  The speaker 255 through KU 253. 1 and channel 231 is connected to microphones 256 through K 249.  Keys (CL) 257 "reset" (Sat) are connected to PE 258, FI 259, 0-input T 247.  The sensor (C) 26 "open" (OTC) is connected to PE 261, FI 262.  The key 263 is connected to the output of T 247.  The output of K 263 is connected to the input of K 264, connected to the input of G 265 and the inputs of the modulator (M) 267, connected to the transmitter (PRD) 268 connected to channel 231.  Elements 235-268 form a scheme of the reception and transmission of information (SPPI) 269.

The device operates as follows. Touching the touch contact (C) 43 (0-9), the signal passes through the corresponding connector (REM) 44 and enters the threshold element (PE) 45. The generator (G) 46 generates pulses that pass the public key 47, trigger 48, which translates into state “1” is a signal from OR 49, when any PE 45 is triggered. If T 48 is in “0”, the indicator (green 1 (З1)) 50 is on. If T 48 is in “1”, red (K) indicator 51 is on. The pulses pass K 47, the divider (D) 52 to the clock (t) input of the pulse distributor (RI) 53, which polls the keys (K) 54. If the corresponding PE 45 has worked, then the corresponding K 54 is open and the corresponding trigger (T) 55 goes to "1". After all K 54 are interrogated, a signal appears on the RI 53 service (sl) output, which translates T 48 to “0” (Z1 indicator 50 lights up), T 55 states are allowed to be written to the shift register block (BSR) 56 and from the output the delay element E 57 is reset to “0” T 55. The BSR 56 is shifted, so codes are generated with each touch of C 43 located in position 3 (figure 1). When you touch the sensor (C) 58 (4, Fig. 1), “open” the signal passes through the connector (REM) 59, the threshold element (PE) 60 is activated, the pulse shaper (FI) 61, the signal from which passes to the resolving (p) inputs comparators (KMP) 62, to the i2-inputs of which codes from switches (sliders) (PRKL) 63 are received, which specify the initial code at which the short-circuit switch should be open. If the codes on the I1, and 2 inputs of the ILC 62 are equal, then the signals that pass the And 64 element appear on the corresponding “Yes” outputs of the ILC 62. If all the ILC 62 are triggered, a signal passes through the AND 64 output, which passes OR 65, the pulse shaper (FI) 66, opens the key (K) 67, the amplifier element (UE) 68 passes and the drive 36 is actuated, pushing the protrusion 35 into itself. The pulses from G 46 pass through the open K 67, the divider (D) 69 and go to the indicator (green 2 (З2)) 70, which starts to flash, for example, at position 6 (Fig. 1). The protrusion 34 can freely pass over the protrusion 35 the time specified by FI 66 (time of blinking of the INZ indicator) 70. Also, opening the actuator (PR) 36 is possible by touching the sensor (C) 71, the signal passes through the connector (REM) 72, the threshold element (PE ) 73, OR 74 and further OR 65. Also PR 36 can be triggered by a signal passing through the connector (REM) 75, filter 76, detector 77 and further OR 74. The security unit (BHR) 78 (Fig. 8) works as follows . The generator (G) 79 generates pulses that pass through the divider (D) 80, the output of which pulses are supplied to FI 81, the output signal of which through a series circuit of plates 82 (I, III) installed inside and outside the SCC, is fed to "0 "Is the input of the delay element (E) 84, to the" 1 "input of which a signal is received from the output of FI 81. If the voltage circuit 82, 83 is broken, for example, as a result of attempts to penetrate through the door (GLC), then E 84 will not reset to “0” and a signal will appear on its output that passes OR 85 and translates trigger (T) 86 to “1”, the signal from you the course of which will go to the input of the connector (REM) 87. Parallel to the plates 82, 83, plates (II, IV) 88, 89 are installed with broken circuits located close to each other, open current conductors 90. When penetrating through the plates 88, 89, collapse their surfaces and the closure of the wires 90. In this case, the signal from the output of the FI 31 passes through the formed contact to the input of the pulse shaper FI 91, the signal from the output of which passes to the input of OR 85. The alarm signal can also come through the connector REM 92 and through the element OR 93, signals to which come from sponding threshold elements (PE) 94 connected to respective sensors penetration (DPR) 95, to the fire alarm sensors (DPS) 96, sensors spill water (DVD) 97, motion sensors (DDC) 98, and other sensors and systems. The signal from the output of G 79 passes to the outputs of the divider D 99 and D 100. The signal from the output of D 99 passes to the input of the pulse shaper (FI) 101, which opens the key (K) 102, to the second input of which the pulse (signal) D 100 arrives, the received signal is transmitted to an ultrasonic emitter (IZ) 103. The pulses from the output of the FI 101 start the FI 104, which opens K 105 for the time Δt. If during this time a response signal arrives from an object located near the GLC (through an ultrasonic radiation receiver) 106, then it passes through an open K 105, a filter 107, a detector (DT) 108, a pulse shaper (FI) 109 (which forms a pause for opening the GLC and pressing CL 110) and goes to the input OR 85. An alarm signal is generated. By pressing the key (CL) 110, the pulse shaper (FI) 111 generates a signal passing through the connector (REM) 112, and resets T 86 to “0”, removing the “alarm” signal. Instead of KL 110, FI 111, another reset device, for example, a remote one, can be supplied. The signaling unit (BSG) 113 operates as follows. The signal from the output of the REM 87 comes to the input of the pulse shaper (FI) 114, the signal from the output of which passes to the 2 inputs of the keys (K) 115. The signal from the first key (KL1) 116, including siren (CIR) 117. When (CL2) 121 is pressed, the flasher 122 will work, the input of which passes the signal from the output of the divider (D) 133. The signal to the input of which comes from the output K 124, which is opened by the signal from the output of the corresponding K 115 and FI 114 output. When CL 3 125 is pressed, the signal from FI 114 output passes to the loud-speaking device (GGU) 126, which e according to the instructions written in it, gives a warning about the consequences of hacking. When you press the key (KL4) 127, the signal passes the corresponding K 115 to the “1” input of the trigger (T) 128, opens K 129, which passes pulses from G 120, through the divider (D) 130 to the timing (t) input of RI 131, which polls the registers of the shift register block (BSR2) 132 (storing addresses, for example, telephones where to report an alarm) and BSR1 133, into which an audio message (in digital form) or a text (sms) message is recorded. In BSR2 132, BSR1 133 information is recorded by means of a keyboard block (BKL) 134 and a block of indicators (BIN) 135. The signal from the output D 130 passes to the input of the delay element (E) 136 and then goes to the BSR1 - 133 input allowing reading (p). , BSR2 132. The signal from the output of D 130 also passes E 137 and translates the trigger (T) 138 to “1”, opening the keys (K) 139, 140 and allowing the recording of information from BSR2 to shift registers (SR) 141 and to CP 142 The signal from the output of T 138 starts the pulse shaper (FI) 143, which opens K 144. The signal from the output of G 120 passes K 144, D 145 to the t-input of CP 141. Pulses from CP 141 (and information from ROM 146 is also recorded in CP 141 by a p-signal) from the I-output and are sequentially input K 147 and then to the telephone line (L1, L2), dialing the number of the called telephone. After transmitting the number code at the service (sl) output of the CP 141, a signal appears that is fed to the input of the FI 148, which opens K 149, which passes pulses from the output of G 120 to the input of the divider (D) 150, the pulses from the output of which go to the timing ( r) the input of the shift register (SR) 142, in which the message codes are recorded either sound (BSGOT 152) or text (BSMSOT 156). Codes from the i-output of the BSR 142 are fed to the DAC (digital analog converter) 151, then the analog speech signal is fed to the input K 147, giving an alarm message to the line (L1, L2), through the keys K 139, 140. If this is a text message , then instead of the DAC 151 is used, for example, a modulator. In this way, the voice signaling unit via a regular telephone (BSGOT) 152 works, consisting of an information recording unit (BSI) 153 and an information transfer unit (BPI) 154. A processor (VK-C) 154 included in these blocks (if necessary), receiving a signal from the output of T 128, closes K 129 and the information received from BKL 134 transfers to the line (l1, l2). The sms alarm transmission unit (text) message via a regular telephone (BSMSOT) 155 works in a similar way, consisting of a similar BSI 156 and BKT 157. When you press the (KL5) 158 key, the signal from output K 151 passes the p-input of BSMSOT 155, which allows work. When you press the key (KL6) 159, the signal from the output of the corresponding K 115 passes to the p-input of the alarm transmission unit by SMS message (text) of the mobile (cellular) telephone (BSMSMT) 160. At the same time, the BSI 161 works similarly to the BSI 153, recording in BSR1 162 message (or in digital form a finished message for BGMST) and in BSR2 163 the number of the called object for the alarm message. In the BSR2 163 also recorded service data from the ROM 164. The signal from the output of the BZI 161 passes to the input of the trigger 165, which opens the key (K) 166, to the input of which the pulses from G 120 pass (through the BZI 161, divider (D) 167), the output of which is supplied to the t-input of the pulse distributor (RI) 168, which first interrogates BSR2 163, applying codes from its i-outputs to the inputs of the DSh 169, by the signal from the output of the delay element (E) 170, and then BSR1 162, which submits sms message key codes from its i-inputs to DSh 169 inputs. DS 169 through the drive unit BPR 171 presses the keys of a mobile phone (MT) 172, transmitting an alarm message. VK-C 154, also located in BZI 161, can control MT 172 through the device’s access ports. When you press the (KL7) 173 key, the signal from the corresponding K 115 output goes to the p-input of the voice message about a mobile phone accident (BGMST) 174, which works similarly to BSMSMT 160, only the signal does not go along the “a” line, but along the “b” line through the DAC 175, which converts the digital signal from the BSR2 162 i-outputs to an analog signal and feeds it to the MT speaker (or corresponding connector) 176 172, transmitting a voice alarm message. When you press the key (KL8) 177, the signal passes the corresponding K 115 to the p-input of the message block by means of a radio station (BSRS) 178. The trigger (T) 179 goes to "1", K 180 opens. The pulses from the output of G 120 pass the divider (D) 181 to the t-input RI 182, which interrogates BP 183, in which the transmitted phrase is recorded in digital form by the signal from the delay element (E) 184. These codes are received at the digital inputs of the digital analog converter (DAC) 185. The signal from the analogue output of which goes to the speaker 186 and then to the microphone (or special connector) 187 of the radio station (Р / С) 188, the switch (or connector of the РЗМ switch) 189, which is switched on to transmit the signal from the output T 179. After transmitting all the information, the signal from the service (sl) output of RI 1 82 transfers T 179 to "0" and the block is ready to work again. There may be several such messages. The power supply unit (BNP) 190 operates as follows. When a 220 V network is supplied to the converter (PRB) 191, the voltage is supplied to the power supply unit (PSU) 192, to the charger (charger) 193, which charges the battery (AB) 194, which supplies the supply voltage to the switch (KM) 195, which supplies Un voltage to the elements of the GLC. In the absence of a mains voltage of 220 V, KM 195 receives energy from the battery 194; upon receipt of 220 V, energy from the power supply unit 192. The video communication unit (BWP) 196 (Fig. 11) works as follows. When touching the corresponding sensors (C) 196 (0-9), the signal passes through the corresponding connectors (REM) 197 and enters the corresponding threshold element (PE) 198, from which the corresponding signal passes to the corresponding key (K) 199. Generator (G) 200 gives pulses that pass through the open K 201 trigger (T) 202. At the same time, the green indicator (ID) 203 is on. The pulses pass K 201, D 204 to the +1 counter input (MF) 205, the codes from which are fed to the DS input 206, which polls the keys (K) 199. If the corresponding PE 198 is triggered, then the signal from its output passes OR 207, translates T 202 to “0”, the red indicator 208 in the shift register block (BSR) 209 is on, the SCh code 205 is recorded, shifting the previous information down, after a while the signal from the output of E 211 translates T 202 to “1”. Information about the dialed code from the BSR 210 through the DS 212 is displayed on the indicator (IN) 213. When the sensor (C) 214 is pressed, the signal passes REM 215, PE 216, FI 217 and resets the BSR 210 to “0”. When C 218 is pressed, the signal passes REM 219, PE 220, FI 221, allowing the recording in SR 222 of information from the BSR 210 and ROM 223, the signal from the output of E 224 translates into “1” T 225, opening K 226 (after a specified time, E 227 translates T 225 to “0 ”), Through which the signal from G 200 passes to K 226, D 228 to the t-input of CP 222, shifting the information to the 1st input of the modulator (M) 229. The signal is then transmitted through the transmitter (TX) 230 to the line (audio channel ( H)) 231. The signal from G 200 passes to K 232, D 233 and modulates the information signal (M 229) and the clock signal M 234. The output signal also goes to the input of the transmitter (TX) 230. The signal from line 231 passes to the inputs of the filters (F) 235, 236 and further to the inputs of the respective detectors (DT) 237, 238. The signals from the output of the DT 237 are fed to the input of the selection scheme for the starting package (BSC) 239 and, having selected this package, translate T 240 to "1". K 241 opens, which conducts a clock signal from the output of DT 237 to the t-input of the CP 242. The signal from the output of the DT 238 passes open K 243 to the i-input of the CP 242. When all the information passes through the CP-output of the CP 242, a signal appears that translates to “0” T 240 and allows the operation of the ILC 244, 245. The first ILC 244 checks for matches with the code from the ROM 246 and if the code matches (subscriber's address), a signal appears on its “Yes” output, which translates the T 247 to “1 ". KMP 245 compares the code with ROM 248 (for all subscribers), which also give a signal on the “Yes” output and translate the T 247 to “1”. The signal from the output of T 247 opens the corresponding key (K) 249 and the switch (KM) 250, supplying incoming signals from the input video camera (VKM) 251 to the corresponding video monitor (VM) 252 and voice information to the corresponding microphone 253, 254 to the corresponding speakers 255, 256 Thus, you can see who stands at the KZS and negotiate with him. When the reset button is pressed (sat) 257, PE 258 is triggered, FI 259 and T 247 goes to "o", closing K 249, KM 250. When the sensor (C) 260 is pressed, PE 261 is triggered, FI 262 is open, K 263 is open, K 264. The signal from the output of the generator (G) 265 passes D 266, the modulator 267 and is fed to the input of the transmitter (Rx) 268. The signal is transmitted to the line and then to REM 75 to open the doors (RL) 36. Thus, all reception circuits work -transmission of information (SPPI) 269 for different objects. The inner tube 20.8 is set to the mark. Next, the figure on KH 2 is combined with the protrusion 29 and the tube 20. Then it is repeated for KH2 of other numbers. Disc 18 will pass through cutout 20.9 with plate 20.6. The tube 20 is installed in the required position. In other positions, the disk 18 is locked and the lock cannot be opened. The mechanical part of the GLC works as follows. From the side of the protected object or from the front side, cutout 20.9 is combined with the direction towards the center of the disk 18 (a mark can be made for this from the side of the protected object). Next, by means of KH 2, a figure is selected for alignment with the mark on the front panel 1, for example, associated with the surface 3. Then, the tube 20 and KH 2 are fixed together. Next, according to an alternative, the tube with thread 20.1, by rotating it, we move the notch 20.9 from the alignment line with disk 18. According to the third option, the mismatch is done by displacing the tube 20 and fixing it in one of the positions 20.4 with a ball 20.2. The same procedure is performed for all 20 SCLC tubes. To open the lock (GLC), it is necessary that the disk 18 (Fig. 3) rotates, allowing the protrusion 17 to rotate, which moves the valve 29. To do this, the protrusions 19 of the disk 18 must go into the cutouts 20.9. To do this, they must be combined across all the tubes 20 by rotating these tubes, setting the previously dialed code (numbers or figures). By rotating the threaded tubes 20.1 or fixing the tubes 20 in one of the positions 20.4. A large number of combinations does not allow, by searching, to select the necessary position of the tubes 20, after which the protrusion 17 can move the gate valve 29. When installing the SCC on the keyless door, the ring 39 is inserted into the key 9 and closed by the lock 40. The same can be done from the back of the SCC . The same ring 39 can be beaten on the plate 41 to create noise when calling the hosts. The device as a whole works as follows. First, a mechanical combination lock is triggered, then an electronic lock, then a bolt turns the key, and the door opens. When staying in front of the SCLC for a long time, an alarm is triggered via siren, speakerphone, cell phone, etc. An anti-penetration device may also work here. Compared with the prototype, the proposed device has the following advantages:

1. The lock is compact, has a circular code dial panel, provides more secrets (codes);

2. The lock combines and expands the capabilities of an electronic combination lock, a mechanical combination lock and a conventional key lock, which can work both together and separately;

3. The lock is equipped with a system of counteraction (warnings and alarms) to unauthorized opening and breaking;

4. The system allows you to autonomously call a subscriber and make video calls with him;

5. Has a remote control.

Claims (2)

1. Code-lock system (GLC), containing a key, a deadbolt, a bar, a code lock block, an alarm block, characterized in that it is additionally equipped with code dialers (KN) 2 having internal numbered parts (PCCN) 2.1, and on the front panel there are “open” touch button 4, a set of other touch keys 5, a set of indicators 6, and a set of other touch keys 5 and indicators 6 can be on a separate panel 7, above the larva 8, with an inserted key 9, there are ultrasonic emitters and receivers 10, 11 attached to panel 1 a rotating ring 12, with holes 13, around the circumference of the PCCN 2.1 there can be directional symbols 15, the key 9 has an opening 16, and the touch keys 3 can be below the KH 2, the larva 8 has a rotating protrusion 17, which engages with the disk 18, which has protrusions 19 is engaged with the tube 20 KH 2, the tubes 20 may have several sections 21, KH 2.1 may be square in shape, the larva 8 is inserted into the housings 22 and 23, which are connected by protrusions 24 to the force plates 25, 26, to the force plate 25 rack 27 fastens the front panel 1, in the direction The bolts 29 are inserted with a bolt 29, which has bolts 30, on the other part of the door-housing system there is a bracket 31 with holes 32, where the bolts 30 are inserted when closing the lock, in the guides 28 the bolt 29 has a slot with protrusions 33 that engage with the protrusion 17, which engages with a valve 29, which also has a beveled protrusion 34, which engages with a beveled protrusion 35 of the actuator 36, which is attached to the mount 37, rollers 28.1 are inserted into the tubes 20, which have KN 2.1 at their ends, from the back the castle also finds I am a continuation of the larva 8, into which the key 9 can be inserted and there is a rotation ring 12 with holes 13 into which the pins 38 of the detachable ring 39 are inserted, having a lock 40, while the pins 38 are engaged with the key 9, there is a plate 41 behind the rings, moreover the code lock unit (BKZ) 42 consists of sensors (C) 43 connected to sockets 44 connected to threshold elements (PE) 45, a pulse generator (G) 46 is connected to the 1st input of the key (K) 47, 2nd the input of which is connected to the “1” output of the trigger (T) 48, the “1” input of which is connected to the OR output 49, and the “0” output One to the first indicator (IN1) 50, the second indicator (IN2) 51 is connected to the “1” output T 48, output K 47 is connected to the divider (D) 52, connected to the clocking (t) input of the pulse distributor (RI) 53, the corresponding outputs of which are connected to the corresponding keys (K) 54, the second outputs of which are connected to the outputs of the corresponding PE 45, and the outputs to the corresponding inputs of T 55 connected to the corresponding inputs of the block of shift registers (BSR) 56, service (sl) output of the delay element ( E) 57 is connected to the "0" input T 55, the sensor (C) 58 is connected to the connector (REM) 59, under it is connected to PE 60, connected to a pulse shaper (FI) 61, connected to the enable (p) inputs of comparators (KMP) 62, and the 1-inputs of which are connected to the corresponding outputs of the BSR 56, and the 2-inputs are connected to the outputs of the corresponding switches 63, “Yes” - outputs of the ILC 62 are connected to the And 64 element, the p-input of which is connected to the output E 64.1, the input of which is connected to the output of FI 61, and the output of And 64 is connected to the 1st input OR 65, the output of which is connected to the FI input 66, the output of which is connected to the input To 67 and the input of the amplifying element (UE) 68, the output of which is connected to Ivodu 36, output K 67 is connected to the input D 69, the output of which is connected to the input of the indicator of the third (INZ) 70, C 71 is connected to the connector REM 72, which is connected to PE 73, connected to OR 74, connected to the 2nd input OR 65, REM 75 is connected to the input of the filter (F) 76, connected to the detector (DT) 77, connected to the 2nd input OR 74, and the security unit (BHR) 78 consists of G 79 connected to D 80 connected to FI 81 connected to the serial voltage circuit 82, 83, the output of which is connected to the “0” input E 84, the output of which is connected to the input OR 85, the output of which is connected to “1” -v ode T 86, the output of which is connected to the input of REM 87, the output of FI 81 is also connected to the 1st input of E 84 and the input of circuit 90, the output of which is connected to the input of FI 91, the output of which is connected to the corresponding input OR 85, to each input of which the output of REM 92 and the output of OR 93 are connected, the corresponding inputs of which are connected to the outputs of PE 94, the output of which is connected to the outputs of the corresponding penetration sensors 95, fire signal sensors 96, water sensors 97, motion sensors 98; G 79 is also connected to D 99, D 100, D 89 is connected to the input of FI 101 connected to the 1st input of K 102, the 2nd input of which is connected to the output of D 100, and the output to the ultrasonic emitter 103, the output of FI 101 is also connected to the input of FI 104, the output of which is connected to the 1st input of K 105, the 2nd input of which is connected to the output of the ultrasonic radiation receiver 106, the output of K 105 is connected to the input of the filter 107, the output of which is connected to the input of the detector 108, the output of which is connected to the input of FI 109, which is connected to OR 85, the keys 110 are connected to a pulse shaper 111, connected to P ZM 112, connected to the “0” input of T 86, and the alarm unit 113 consists of a connector 87 connected to a pulse shaper 114, connected to 2 inputs of the keys 115, the 1st inputs of which are connected to the corresponding enable key of the alarm message moreover, the key first 116 is connected to the first input of the corresponding K 115; the input of the sound siren device 117 is connected to the output D 118, connected to the output K 119, the first input of which is connected to the output of the corresponding K 115, and the second input to the output of FI 114, the first input of which is connected to the output of the generator 120, the second key 121 is connected to the corresponding K 115, the flasher 122 is connected to the output D 123, connected to the output K 124, the first input of which is connected to the outputs of the corresponding K 115, and the second input to the output G 120, the third key 125 is connected to corresponding to K 115 connected to the speakerphone 126, the fourth key 127 is connected to corresponding to K 115, to the “1” input of T 128 connected to the 1st input of K 129, connected to D 130, connected to the t-input of RI 131, connected to the block of shift registers (BSR2) 132, (BSR1) 133, connected to keyboard block 134, display block 135, output D 130 is connected to input E 136, connected to p-inputs BSR1 - 133, BSR2 - 132, output D 130 is connected to input E 137, connected to 1st input T 138, connected to the 1st inputs K 139, K 140 and the p-input of CP 141, the shift register block 142 is connected to FI 143 connected to the 2nd input K 144, the 2nd input of which is connected to the output G 120, and the output D 145 connected t-input of the SR 141, the outputs of the ROM 146 are connected to the 2-inputs of the SR 141, the I-output of the SR 141 is connected to the 1st input K 142, the service (sl) output of the SR 141 is connected to the input of the FI 148 connected to the 1st input To 149, the 2nd input of which is connected to the output of G 120, and the output to D 150, the output of which is connected to the t-input of the block of shift registers 142, and the 1-outputs of which are connected to the inputs of the digital-to-analog converter (DAC) 151, connected to 1- m input K 147, the elements 128-151 form the signaling unit of a regular telephone 152, the elements 128-138 form the information recording unit (BZI) 153, the digital the processor 154 connected to the output of T 128, the input of K 129 and to the telephone line, the elements 139-154 form an information transmission unit (BPI) - 154.1, a text signal transmission unit (text message sms) of a regular telephone (BSMSOT) 155 contains an BSI 156 and a BPI 157, similar to BPI 154.1, the p-input of BSMSOT 155 is connected to the output of the corresponding K 115, the first input of which is connected to the output of KL4 158, KL6 159 is connected to the input of the corresponding K 115 connected to the p-input of the sms emergency signal transmission unit via mobile telephone (BSMSMT) 160, which consists of a BZI 161 connected to G 120 and to BSR1 162 and BSR2 163 connected go to the ROM 164, the p-output of the BZI 161 is connected to the p-inputs of BSR1 162, BSR2 163 and to the 1st input T 165 connected to the 1st input K 166, the 2nd input of which is connected to the output D 167, and the output is connected to the t-input of the pulse distributor (RI) 168, i1, and 2-outputs of which are connected to the corresponding inputs of the decoder (DS) 169, and the sl-output to the 0 input T 165, the outputs of BSR1 162, BSR2 163 are connected to the inputs of DSh 169, connected to the inputs of the drive unit 171, connected to the keys of the mobile phone 172, KL7 173 connected to the input of the corresponding K 115, connected to the p-input of the mobile alarm block telephone (BGSMT) 174 connected to G 120, which has a similar structure as BSMSMT 160, equipped with DAC 175, connected to inputs to BSR1 162, and output to speaker 176, connected to microphone 176.1, and KL8 177 connected to the corresponding K 115 connected to the p-input of the alarm message block by means of a radio station (BSRS) 178, connected to the 1st input T 179, connected to the 1st input K 180, connected to the input D 181, connected to the t-input RI 182, connected to the i-input of the memory unit (PSU) 183, the p-input of which is connected to the output E 184, the input of which is connected it is output D 181, and the output of BP 183 is connected to the sl-inputs of the digital-to-analog converter (DAC) 185, the output of which is connected to the input of the speaker 186, the microphone 187 of the radio station 188 is connected to the ДН 186, КЛ 189 are connected to the output of T 179, and the voltage block power 190 consists of a voltage converter 191 connected to block 192 and to a charger 193 connected to a battery 194 connected to a switch 195 connected to a PSU 192, and the video communication unit 196 consists of C 196.1 connected to a connector 197 connected to threshold email To the stations 198, connected to the corresponding keys 199, the generator 200 is connected to K 201 and to T 202, to ID 203, the output of K 201 is connected to D 204, connected to MF 205, the output of MF 205 is connected to the input of LH 206, the output of which is connected to the inputs of the corresponding To 199, the outputs of which are connected to the inputs of OR 207, the outputs of which are connected to the “0” input of T 202, the 2nd output of which is connected to IN 208, E 210 is connected to the “0” input of MF 205, and the output to T 202, the output of OR 207 is connected to the p-input of the BSR 209 and the input of E 211, the output of which is connected to the 1st input of T 202, the output of the BSR 209 is connected to the DS 212, connected to the indicator 213, litter 214 is connected to connector 215, connected to PE 216, connected to FI 217, connected to “0” input of BSR 209, sensor 218 is connected to REM 219, connected to PE 220, connected to FI 221, connected to r-input of SR 222, connected to the output of the ROM 223, the output of FI 221 is connected to the input of E 224, connected to the 1st input of T 225, connected to the input of K 226, the output of E 224 is connected to the input of E 227, connected to the 0-input of T 225, 1 The input K 226 is connected to the output G 200, and the output to D 228, connected to the t-input of the CP 222, connected to the modulator 229, connected to the transmitter (Rx) 230, connected to the line 231, the output of T 225 is also connected to K 232 connected to output at G 200 and to D 233, connected to M 229 and M 234, connected to the output of D 228 and to the input of the PRD 230, line 231 is connected to the input of F 235, 236, respectively connected to DT 237, 238, DT 237 is connected to the circuit selection of the starting package (BSC) 239 is connected to T 240, connected to K 241, connected to the t-input of CP 242, the sl-output of which is connected to the 2nd input of T 240, and the input is connected to the output of K 243, connected to T 240 and DT 238 output, CP 242 sl-output is connected to KMP 244, 245 p-inputs, ROM 246 outputs are connected to corresponding KMP 244 inputs, and “Yes” KMP 244 output is connected to T 247 1-input and to inputs K 249, KM 250, camcorders 251 is connected to line 251.1, through КМ 250 to video monitor 252, modulator 253, through switching device 253.1, line 231 is connected to speaker 254 through КУ 253.1 and line 231 is connected to microphones 256, keys 257 are connected to PE 258, FI 259, 0- input T 247, sensor 26 is connected to PE 261, FI 262, key 263 is connected to output T 247, output K 263 is connected to input K 264, connected to input G 265 and inputs of modulator 267, connected to transmitter 268, connected to channel 231. 2. The system according to claim 1, characterized in that the inner tube with a thread 20.1 is inserted into the tube 20, a code dial (KH2) is inserted into it, the tube 20 is engaged with the ball 20.2, which is preloaded by the spring 20.3, the ball 20.2 enters the frame with recesses 20.4, located in the tube 20, of which there are as many as the fixed positions of the tube 20, on the threaded surface 20.5 of the inner tube 20.1 there is a plate mount 20.6 located in the cutout 20.7 of the tube 20, on the inner tube 20.1 there is a marking 20.8 of the fixed positions of the plate 20.6, on the plate 20.6 is you Res 20.9, which includes disk 18.

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