RU2582451C1 - Electronic combination lock - Google Patents

Abstract

FIELD: safety systems.

SUBSTANCE: invention relates to protection of various objects from unauthorized access. Electronic combination lock, which contains code receiving unit, connected to input bus, comparator unit, first group of inputs of which is connected with group of outputs of code receiving unit, and second group of inputs is connected with group of outputs of storage device, first counter and actuating unit, characterised by that it further includes adder, majority element, coincidence element, trigger, switching unit, second counter with 2^n-1 count module and third counter with 2ⁿ count module, which group of outputs is connected to B-adder group of inputs, A-adder group of inputs of which is connected with group of outputs of switching unit, set of inputs of which is connected with group of outputs of second counter 2^n-1 count module, output of which is connected to third counter count input to 2ⁿ count module, inverting input of the second counter count module 2ⁿ, connected to output of first counter, first comparison unit output is connected to first input element and match with metering input of trigger, output of which is connected to second input of coincidence element and to control input of switching unit and to first input of the majority decision element, second input is connected to second output of comparator unit, and third output is connected to trigger reset input, with its output and with metering input of third counter, group of adder outputs is connected with storage device group of inputs, coincidence element output is connected to actuating unit input.

EFFECT: technical result is reduction of probability of unauthorised opening of electronic code lock in definite time interval at given number of reference values of code combinations of reference values of codes by using each of reference values as access code reference value and opening code standard value, simplified electronic code lock due to use of shared reception channel and access and opening codes comparison.

1 cl, 1 tbl, 4 dwg

Description

The invention relates to techniques for protecting various objects from unauthorized access.

Known electronic combination lock (see AS USSR No. 1262018 from 04.24.85, IPC: Е05В 47/00, 47/02, 49/00, "Electronic lock", published on 07.10.86, in bulletin No. 37) containing a block a code set, a code receiving unit, a comparison unit, a memory unit, an executive unit, a control unit, a counter of the number of attempts to select a code, including a counter and an additional counter, a decoder, a selector, N additional memory units and an indication unit. The group of outputs of the code dialing unit is connected to the group of inputs of the code receiving unit, the group of outputs of which is connected to the group of inputs of the comparison unit. The first output of the comparison unit is connected to the first input of the executive unit. An additional output of the code dialing unit is connected to the first input of the code receiving unit and the input of the control unit, the first output of which is connected to the second input of the code receiving unit. The second output of the control unit is connected to the second input of the executive unit, and the third output is connected to the first input of the counter, the second input of which is connected to the second output of the comparison unit. The counter output is connected to the input of an additional counter, the outputs of which are connected to the inputs of the display unit and through a decoder are connected to the first group of inputs of the selector, the memory block is connected to the second group of inputs, and N additional memory blocks are connected to N groups of additional inputs. A group of additional inputs of the comparison unit is connected to the selector outputs.

The disadvantages of the analogue are the relatively high probability of opening it on the first try and the small number of attempts to select a code necessary for unauthorized opening of the lock.

If the number of allowed erroneous code sets is L, and the number of code bits is m, then the number of possible code values in each of the memory blocks is M = 2 ^m . In this case, the probability of opening the lock on the first try is 1 / M, and the maximum number of necessary attempts to select a code to open the lock is n (ML) + L, where n is the total number of memory blocks (reference code values).

Known electronic combination lock (see RF patent No. 2187612 from 05/08/2001, IPC: EV 49/00, "Electronic combination lock", published on 08/20/2002, in bull. No. 23), containing the first and second blocks for receiving the code, the first and a second comparison unit, a counter of the number of attempts to select a code (first counter), a first code converter, a memory device containing a memory unit and a second code converter, an executive unit and an input bus connected to the first code receiving unit, the output group of which is connected to the first group the inputs of the first block of comparison, the first whose output is connected to the counter input of the number of attempts to select a code, the second output is connected to the input of the executive unit, the second code receiving unit is connected to the input bus, and the group of its outputs is connected to the first group of inputs of the second comparison unit, the output of which is connected to the input of the first code receiving unit and the second group of inputs - with the group of inputs of the first code converter and with the group of outputs of the second code converter, the first group of inputs of which is connected to the group of outputs of the counter of the number of attempts to select a code, and the second group of inputs rows - with the storage unit output group, wherein the group of the first code converter output is connected with the second group of inputs of the first comparator unit.

The above device is the closest in technical essence to the claimed device and therefore is selected as a prototype.

The disadvantages of the prototype are:

1) the relatively high probability of unauthorized opening of the lock by selecting a code, which is determined by the tight mutual binding of the reference values of the access and opening codes generated by two converters from the same code specified in the memory unit, and consequently, by a small number of combinations providing the lock, which is equal to the number of reference values of each of the codes (half of the total number of reference values of codes);

2) the complexity of the circuit implementation due to the need to use two multi-bit code receiving units, two comparison units and code converters.

The problem solved by the invention is the creation of an electronic combination lock, which provides less than the prototype the possibility of unauthorized opening and simplification of circuit implementation.

Achievable technical result is to reduce the likelihood of unauthorized opening of an electronic code lock for a certain period of time for a given number of reference codes values by increasing the number of combinations of reference codes values by using each of the reference values both as a reference value of an access code and as a reference value of an unlock code . At the same time, a simplification of the electronic code lock scheme is achieved through the use of a common channel for receiving and comparing access and opening codes.

To achieve a technical result, an electronic code lock containing a code receiving unit connected to the input bus, a comparison unit, the first group of inputs of which is connected to the group of outputs of the code receiving unit, and the second group of inputs is connected to the group of outputs of the storage device, the first counter and the executive unit characterized in that the adder is additionally introduced, the majority element matching element, trigger a switching unit, a second counter counting module 2 ^n-1 and the third counter with a counting module 2 ^n, outputs to the group torogo connected with a group of input B of the adder, input group A-adder which is connected with the band switching unit outputs, the group of inputs of which is connected with the group of the second counter output module accounts 2 ^n-1, the output of which is connected to the counting input of the third counter module account 2 ⁿ , the counting input of the second counter with the counting module 2 ^{n is} connected to the output of the first counter, the first output of the comparison unit is connected to the first input of the matching element and to the counting input of the trigger, the output of which is connected to the second input of the matching element and with the control input of the switching unit and with the first input of the majority element, the second input of which is connected to the second output of the comparison unit, and the third output is connected to the reset reset trigger, with its output and with the counting input of the third counter, the group of outputs of the adder is connected to the group of inputs storage device, the output of the matching element is connected to the input of the Executive unit.

A new set of essential features allows to reduce the likelihood of unauthorized opening of an electronic code lock for a certain period of time for a given number of reference codes values by increasing the number of combinations of reference codes values by using each of the reference values both as a reference value of an access code and as a reference code value opening. At the same time, a simplification of the electronic code lock scheme is achieved through the use of a common channel for receiving and comparing access and opening codes.

In FIG. 1 is a diagram of an electronic combination lock.

In FIG. 2 is a diagram of a code receiving unit.

In FIG. 3 shows a diagram of a comparison unit.

In FIG. 4 shows a diagram of a switching unit.

The electronic combination lock (Fig. 1) contains an input bus 1, a code receiving unit 2, a comparison unit 3, a trigger 4, a majority element 5, a first 6, a second 7 and a third 8 counters, a switching unit 9, an adder 10, a storage device 11, match element 12 and the Executive unit 13.

The electronic code lock contains a code 2 receiving unit connected to the input bus 1, a comparison unit 3, the first group of inputs of which is connected to the output group of the code 2 receiving unit, and the second group of inputs is connected to the output group of the storage device 11, the first counter 6 and the executive unit 13, adder 10, majority element 5, coincidence element 12, trigger 4, switching unit 9, second counter 7 with count module 2 ^n-1 and third counter 8 with count module 2 ⁿ , the output group of which is connected to the group of inputs of the B-adder 10, group of inputs A-sum ora 10 which is connected with the band switching unit outputs 9, a group of inputs of which is connected with the group of the second counter outputs 7 module accounts 2 ^n-1, the output of which is connected to the counting input of the third counter 8 with module 2 ⁿ counting, the count input of the second counter 7 account module 2 ⁿ connected to the output of the first counter 6, the first output of the comparator 3 is connected to the first input element 12 and match with the counting input of the flip-flop 4 whose output is connected to a second input of the coincidence element 12 and the control input of the switching unit 9 and the first the input of the majority element 5, the second input of which is connected to the second output of the comparison unit 3, and the third output is connected to the reset input of the trigger 4, with its output and with the counting input of the third counter 7, the output group of the adder 10 is connected to the group of inputs of the storage device 11, the output match element 12 is connected to the input of the Executive unit 13.

The code receiving unit 2 (Fig. 2) contains a shift register 14, a Schmitt trigger 15, a diode 16, a first 17 and a second 18 resistors, a capacitor 19. The information input line 20 is connected to the D-input of the register 14, the clock input line 21 is connected to C - the input of the register 14, with the first output of the resistor 17 and with the anode of the diode 16, the cathode of which is connected to the second output of the resistor 17 and the first output of the resistor 18, the second output of which is connected to the input of the Schmitt trigger 15 and through the capacitor 19 with a common bus. The output of the Schmitt trigger 15 is connected to the R-input of the register 14, the output of the highest bit of which is a clock output bus 22, and the outputs of the remaining bits are an information output bus 23, which form a group of outputs of the code receiving unit 2, and the information input line 20 and the clock input line 21 form the input bus 1 of the code lock.

The 564IR2 chip can be used as a shift register, and the 564TL 1 chip can be used as a Schmitt trigger.

Comparison unit 3 (Fig. 3) contains a digital comparator 24, an “OR - NOT" 25 element, and an inverter 26. The information bus 27 of the first group of inputs is connected to the inputs B of the digital comparator 24, and the clock bus 28 is connected to its input A = B and through the inverter 26 to the first input of the element "OR NOT" 25, the output of which 31 is the first output of the comparison unit 3, and the second input is connected to the output of the digital comparator 24 and with the output 30, which is the second output of the unit 3, the second group of 29 inputs which is connected to the inputs A of the digital comparator 24.

The switching unit 9 (Fig. 4) contains n elements "OR - NOT" 32, the first inputs of which are the inputs of the switching unit, the outputs are its outputs, and the second inputs are connected to the control input of the majority element 5.

The 564IP2 chip can be used as a digital comparator, the 564LE5 chip is used as the "OR - NOT" elements and the inverter.

The majority element 5 can be performed on the 564LP13 chip, the storage device 11 on the 1623RT1 chip, the coincidence element 12 on the 564LA9 chip, the adder 10 on the 564IM1 chip, trigger 4 on the 564TV1 chip, and the executive unit 13 is an electromagnetic mechanism controlled by the composition transistor.

Counters 6, 7, 8 can be performed on 564IE10 microcircuits. The second counter 7 can be performed according to the well-known scheme (see I. Potemkin, Functional units of digital automation. - M.: Energoatomizdat, 1988, p. 265, Fig. 9.8a). The counting module of the first counter 6 is selected equal to the number L of allowed errors in the code set.

To concretize the description of the operation of the code lock, suppose that four reference code values are entered in the memory 11. Moreover, n = 2.

Electronic combination lock operates as follows.

Suppose that in the initial state, trigger 4 and counters 6,7,8 are in the initial zero state. Moreover, at the inputs B of the adder 10 there are levels of logical "0", and at the inputs A and outputs of the adder 10 there are levels of logical "1". At the output of the storage device 11, a fourth reference code value is set. On the information 20 and clock 21 lines of the input bus 1 there is a logic level “0”, the capacitor 19 is discharged, at the output of the Schmitt trigger 15 and at the R-input of register 14 there is a level of logic “1”, which keeps register 14 in the initial state of logic “0” . On clock 22 and information 23 output buses of the code receiving unit 2 and on the corresponding input buses 28 and 27 of the first group of inputs of the comparison unit 3 there is a logic level “0”, on the first 31 and second 30 outputs of the comparison unit 3, as well as on the first and third inputs of the majority element 5 - logical level "0". Therefore, at the output of the majority element 5 is a logical level of "0".

When the first clock pulse arrives at the input line 21 of the code 2 receiving unit, the capacitor 19 is quickly charged through the diode 16 and the resistor 18. The Schmitt trigger 14 switches to the logical "0" state, allowing the information from the input line 20 to be recorded in register 14 on the trailing edge of the clock pulses . The first to the data line 20 is the sign of the beginning of the code in the form of a logical “1” signal, then the access code itself, after writing it to the register 14 on the clock output bus 22, the logical “1” signal is generated, which signals the end of reception of the input code and arrives at the clock the bus 28 of the comparison unit 3, on the information bus 27 which receives the received access code from the bus 23.

If the received access code matches the fourth reference value, a logical “1” signal is generated at the second output 30 of the comparison unit 3, and a logical “0” level is stored at the first output 31.

After receiving the code, the receipt of clock pulses on the input line 21 stops. The capacitor 19 is slowly discharged through the resistors 17 and 18. When the voltage on the capacitor 19 reaches the release threshold of the Schmitt trigger 15 at the R-input of the register 14, a logical signal “1” is generated, setting the register 14 to the initial state of the logical “0” and causing the end of the positive pulse to the first output 30 of the block 3 comparison and switching trigger 4 in the state of the logical "1". At the same time, a logical 1 level is formed at its output, allowing the passage of the next logical 1 signal from the second output 30 of the comparison unit 3 through coincidence element 12 and causing the logical 0 signals to be installed at inputs A and outputs of the adder 10 and output to the output a storage device 9 of a first reference code value.

Upon receipt of an opening code on the input bus 1 corresponding to the set reference code value, a logical “1” pulse from the second output 30 of the comparison unit 3 passes through the matching element 12 to the input of the executive unit 13 and causes it to trigger. On the trailing edge of the pulse, trigger 4 switches to the logical "0" state. At the output of trigger 4, the logic level is set to “0”. In this case, the fourth value of the reference code is output to the output of the storage device 10.

When an access code that does not correspond to the fourth value of the reference code is received on the input bus 1 of the electronic code lock, which is in the initial state, the logical level “0” is stored at the second output 30 of the comparison unit 3, which excludes the possibility of switching trigger 4. Moreover, during a positive pulse on the clock bus 28 at both inputs of the element OR - NOT 25 there is a logic level of "0", which causes the formation of a logical signal "1" at the first output 31 of the comparison unit 3 and at the first input molecular element 5. However, due to the presence of logic level "0" at the second and third inputs of the logic state "0" at the output of the majority element 5 is maintained. After the discharge of the capacitor 19 of the code receiving unit 2, the lock returns to its original state.

After receipt of the access code corresponding to the fourth value of the reference code, trigger 4 is in the logical state "1". At the same time, at the third input of the majority element 5 there is a logical level of "1". Therefore, when the opening code is received on the input bus 1 and does not correspond to the first value of the reference code, a positive pulse generated at the first output 31 of the comparison unit 3 causes the logical element “1” to appear at the output of the majority element 5 and set the trigger 4 to the logical state “0” "at the reset input. After the discharge of the capacitor 19 of the code receiving unit 2, the positive pulse at the first input of the majority element 5 ends, which causes a switching of the appearance of the logical “O” level at the output of the majority element and switching of the first counter 6.

After the specified combinations of access and opening codes are received on the input bus 1 L, the counter 6 overflows and causes the counter 7 to switch to the state "10". At the same time, the state “01” is set at the input of term A of the adder 10, causing the third value of the reference code to be set at the output of the storage device 11. In this case, to open the lock, you must submit an access code corresponding to the third value of the reference code, and an opening code corresponding to the first value of the reference code.

In the process of further switching of the counter 6, the sequence of changing the numbers of the reference values of the access code and the opening code is determined by the table. After the counter 8 overflows, the indicated sequence of changing the reference values of the access and opening codes is repeated.

The table shows that in the inventive device, the number of different combinations of reference values of access and opening codes is (n-1) times higher than the number n of reference codes and 2 (n-1) times higher than the number of these combinations implemented in the prototype, which allows accordingly, reduce the likelihood of unauthorized opening of an electronic combination lock by selecting a code for a certain period of time. At the same time, a simplification of the scheme is achieved through the use of a common channel for receiving and comparing access and opening codes.

On the basis of integrated circuits of general use, a laboratory model of an electronic combination lock was made, tests of which confirmed the operability and practical value of the claimed device.

Claims (1)

An electronic combination lock comprising a code receiving unit connected to an input bus, a comparison unit, the first group of inputs of which is connected to a group of outputs of a code receiving unit, and the second group of inputs is connected to a group of outputs of a memory device, a first counter and an executive unit, characterized in that in addition, an adder, a majority element, a coincidence element, a trigger, a switching unit, a second counter with a counting module 2 ^n-1 and a third counter with a counting module 2 ⁿ , the output group of which is connected to the B-sum input group a torus, the group of inputs of the A-adder of which is connected to the group of outputs of the switching unit, the group of inputs of which is connected to the group of outputs of the second counter with the counting module 2 ^n-1 , the output of which is connected to the counting input of the third counter with the counting module 2 ⁿ , the counting input of the second counter a counting module 2 ⁿ connected to the output of the first counter, the first output of the comparator is connected to a first input of the coincidence, and with a counting input of the flip-flop, whose output is connected to a second input of the coincidence element and the control input of commutation unit and with the first input of the majority element, the second input of which is connected to the second output of the comparison unit, and the third output is connected to the reset input of the trigger, with its output and with the counting input of the third counter, the group of outputs of the adder is connected to the group of inputs of the storage device, the output of the matching element connected to the input of the Executive unit.

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