SU1084848A1 - Checking-passing device - Google Patents

Abstract

1. CONTROL AND PASSAGE DEVICE, containing the first and second information input units, the outputs of which are connected respectively to the first and second inputs of the control unit, the first output of which is connected to the input of the delay element, AND elements, first and second OR elements, first and second triggers, The first outputs of which are connected to the first inputs of the first and second elements AND, respectively, the outputs of which are connected to the first and second inputs of the second element OR, and sensors installed in the control zone, characterized in that The purpose of increasing the bandwidth and simplifying the device, the third and fourth elements OR, the AND-NOT elements, the third and fourth triggers are entered into it, the output of the first sensor is connected to the first inputs of the third element AND and the third element OR, to the second inputs of which the output of the second sensor is connected , the output of the third sensor is connected to the first inputs of the fourth element AND and the fourth element OR, to the second inputs of which the output of the fourth sensor is connected, the outputs of the third and fourth elements AND are connected to the second inputs with Responsibly the second and first elements X with the first inputs of the third and fourth triggers, respectively, the outputs of which are connected to the first inputs of the first and second elements AND-NOT, the outputs of which are connected to the first inputs of the first and second triggers respectively, the outputs of which are connected to the first inputs of the fifth and sixth AND elements, i whose outputs are connected to the inputs of the first element OR, whose output (L is the device output, the output of the delay element is connected to the third input of the second OR element, output cat connected to the third input of the control unit, the second and third outputs of which are connected to the second inputs of respectively the fifth AND element and the third trigger, the sixth tf element And and the fourth trigger, the output of the third element OR is connected to 00 4 the third input of the fifth element And to the second inputs of the second element AND-NOT and the second trigger, the output of the fourth element OR is connected to the third input of the sixth element AND to the second inputs of the first element AND-NOT and the first trigger, the fourth and fifth outputs of the control unit here, respectively, to the inputs of the perbo and the second information input blocks. 2. The device according to claim 1, wherein the control unit contains I-11E elements, triggers, AND element, OR OR

Description

and parity check code elements, the outputs of which are connected to the first inputs of the first n of the second elements, whose outputs are connected to the inputs of the first trigger, whose inputs are connected to the input of the AND element and the first inputs of the first and second OR elements, the output of the AND input is connected to the first input of the second trigger, the output of which is connected to the second inputs of elements 0848A8

The H-HEj of the OR elements is the first output of the control unit, the second and third outputs of which are the outputs of the 1) STS elements, the inputs of the code parity controls are the first and second inputs of the control unit, the fourth and fifth outputs of which are - the first trigger signals, the second input of the second trigger is the third input of the control unit.

The invention relates to automatic checkpoints and can be used in automated accounting systems. The automatic control of a no-checkpoint is known, containing a guard post with an actuator, motion control sensors, a passage resolution unit, a time delay element, bhyuk ing, cations connected to the control unit 1. The disadvantage of this device is low reliability, since the group method of controlling the movement of persons through the turnstile allows unauthorized passage through the turnstile by a single presentation of a few people’s passes and the possibility of false alarms The doors of the executing mechanism from the intersection of the rays that control the sensors of the Control Motion, hand or transferable objects, which in turn violates the rhythm of movement through the turnstile and reduces its throughput. The closest in technical essence to the invention is a checkpoint device containing the first and second information input blocks, exit; which are connected respectively to the first and second inputs of the passage control unit, the first output of which is connected to the input of the delay element, sensors, elements AND, the first AND-PI element, the first and second triggers, the first outputs of which are connected to the first inputs of the first and second elements, respectively And, the outputs of which are connected to the first and second inputs of the second element OR, and installed in the control zone sensors, as well as the block of invariance, the block of uniqueness and the display unit 2. The disadvantages of the known device are the clear bandwidth, since the next person can get permission to pass by the next person only after the previous person leaves the line of the last beam (in the direction of travel) of the illuminator, and the possibility of hitting the actuator on the person in case of a malfunction of the illuminator or sensor motion control, as well as when the subsequent person accidentally prematurely crosses the beam of the illuminator released by the passing person. The aim of the invention is to increase the capacity of the device, increase the safety of the passage and simplify the device. The goal is achieved by the fact that the checkpoint device containing the first and second input units of information 1 and 5 are connected to the first and second inputs of the control unit, the first output of which is connected to the input of the fade element, and the first and second elements of the OR , first and second trigger. The first outputs of which are connected to the first inputs of the first and second elements AND, the outputs of which are connected to the first and second inputs of the second element OR, and sensors installed in the control zone, the third and fourth elements OR, the elements NAND, the third and fourth triggers, the output of the first sensor is connected to the first inputs of the third element And the third element OR, to the second inputs of which the output of the second sensor is connected, the output of the third sensor is connected to the first inputs of the fourth element And the fourth element OR, to the second inputs of which the output of the fourth sensor is connected, the outputs of the third and fourth elements AND are connected to the second inputs of the second and first elements AND, respectively, and to the first inputs of the third and fourth triggers respectively, the KOTOpbix outputs are connected to the first inputs of the first and second elements AND NAND The outputs of which are connected to the first inputs of the first and second triggers, respectively, the second outputs of which are connected to the first inputs of the fifth and sixth And elements, the outputs of which are connected to the inputs of the first element OR, the output of which is the output of the device, the output of the control element is connected to the third input of the second element OR, the output of which is connected to the third input of the control unit, the second and third outputs of which are connected to the second inputs of the fifth element AND and the third trigger, sixth element AND and the fourth three Hera, the output of the third element OR is connected to the third input of the fifth element Inc. to the second inputs of the second element AND-II and the second trigger, the output of the fourth element OR is connected to the third input of the sixth element AND and with the second inputs of the first NAND element and the first trigger, the fourth and fifth outputs of the control unit are connected respectively to the inputs of the first and second information input unit. In addition, the control unit contains AND NAND elements, triggers, AND element, elements OR and code parity elements whose outputs are connected to the first inputs of the first 8 and second NAND elements, whose outputs are connected to the inputs of the first trigger, and the codes of which are connected to the inputs of the AND element and to the first inputs of the first and second elements OR, the output element And is connected to the first input of the second trigger, the output of which is connected to the second inputs of the AND-NOT elements of the OR elements and is the first output of the control unit, the second and third codes of which are the outputs of the Sh1I elements, the inputs of the code parity controls are the first and the second inputs of the control unit, the fourth and fifth outputs of which are the outputs of the first trigger, the second input of the second trigger, and the fifth input of the control unit. FIG. 1 given the device, a general view; in fig. 2 is a view of L in FIG. one; in fig. 3 is a block diagram of the device} in FIG. 4 is a functional block diagram of the control unit. The device comprises posts 1 of the guard, shutters 2 of the actuator, first and second blocks 3 and 4 of information input, first, second, third and fourth sensors 5-8, block 9 of control, delay element 10, fifth, sixth, third, fourth The first and second elements And 11-16, the third, fourth, first and second elements RSH 17-20, the third, first, fourth and second triggers 21-24, the first and second elements AND-NOT 25 and 26, output 27, which is connected to the input of the actuator. The control block 9 contains the first and second elements 28 and 29 of the control of the parity of the code, the first and second elements AND-NOT 30 and 31, the first trigger 32, the element 33, the second three-ger 34, the first and second elements 35 and 36. When the power voltage is turned on, the device is automatically set to standby mode. In this case, from the outputs of the sensors 5-8, the potentials of the logical zero are supplied to the inputs of the elements OR 17, 18 and I 13, 14. From the outputs of the elements OR 17 and 18, the potentials of the logical zero are fed to the inputs of the elements AND 11 and 12, respectively, to the inputs of the AND-NE elements 26 and 25, respectively, and to the input; triggers 24 and 22 respectively. The inputs of these triggers from the outputs of the elements AND-HE 26 and 25 are applied to the potentials of a logical unit. At the indicated combination of input signals, the potential outputs of the trigger 22 and 24 are set to potential zero logic points, which 5 inputs to the inputs of the elements 15 and 16 and prohibit their switching. From the inverse outputs of the trushers 22 and 24, the potentials of the logical unit are supplied to the inputs of the elements 12 and 11, respectively. Such potentials are also supplied to the inputs of the elements AND t1 and 12 from the outputs, respectively, of the control unit 9. Triggers 21 and 23 are also set to the initial state by combining input signals, which are fed to the trigger inputs from the outputs: the control unit, to the other trigger inputs — from the outputs of the And 13 and 14 elements, respectively. In the initial state on the right trigger lines 21 and 23, the potentials of a logical zero are set. The delay element 10 is kept in the initial state by the potential of the logging unit formed by the control unit 9 at the corresponding output. In the initial state of the delay element 10, a potential zero is applied from its output to the input of the OR element. The remaining inputs of the element OR 20 are also fed to the potentials of the logical zero from the outputs of the elements 15 and 16, therefore from the output of the element OR 20 to the input of the control unit 9 is supplied the logic of the zero, in which presence the block can generate the signals of passage clearance (potentials of the logical zero) on the first or third outs. From the outputs of the control block 9 to the blocks 3-4, information is fed to the potentials of the logic unit, allowing them to read information from the perfozeton pass. The transfer of the device to the passage control mode is carried out after the introduction of the pass into one or two blocks 3 and 4, the input of information, where information is read from it. The read out information is passed to control unit 9 for checking. At the same time, block 9 detects a potential logical: a zero on the fourth, fifth output, which is fed to another information input unit and prohibits it from reading information from another pass. If, as a result of the check, it is determined that the information read from the pass meets the defined criteria of m5, then the potentials of logical zero appear on the second and third outputs, as well as on the first output of block 9. In this case, the delay element 10 begins to work and the switching element AND 1 i (or AND 12) is prohibited, and consequently, the actuator is turned on when the potential element of the output unit OR 17 is turned off from darkening of the sensor 5 by a passing person, However, the start signal -Gel mechanism can be developed when a person 5 attempts to counter-pass by violating the mode and crossing the beams of sensors 7 and 8 on the opposite side of the turnstile. In this case, at the output of the element OR 18 there is a potential-dialing, logical unit that will cause switching elements AND 12, IL 19 and the potential of a logical unit at the input of the actuator. Its flaps 2 converge vehicle and block the passage. The potential of a logical unit at the exit, 27 of the device, is replaced by the potential of a logical zero as soon as a person violating the passage mode leaves the controlled zone of the turnstile. At the same time, the actuator doors 2 are moved apart and the person following in the permitted direction can continue moving. At the moment of simultaneous darkening of sensors 5 and 6, a potential of logical unit appears at the output of the element I 13, which enters the trigger 21 input. . In the new state, at the output of trigger 21, the potential of a logical unit is established. In the process of further movement of a person, the dagger 7 is darkened. From its output, the potential of a logical unit through the element OR IS is fed to the input of the trigger 22 and the input of the HYPE 25 element. At the same time, a combination of signals is formed at the inputs of the trigger 22, at which it switches. The potential of the logical zero, taken from the inverse output of the trigger 22, blocks element 12, therefore, darkening the sensors 7 and 8 does not trigger the actuator. Upon further human movement, sensors 7 and 8 simultaneously darken. At the same time, the potential of a logical unit arising at the output of element I 14 supplies the input element I 15 with the same potential arriving at the other input element 15 Trigger code 22, causes it to switch and switch the element OR 20 to the state of a logical unit at the output. The appearance of the potential of a logical unit on the third input of block 9 brings block 9 to its initial state, with which the potentials of the logical unit reappear at its first and second outputs. At the same time, the initial state of the flip-flop 21 is switched, since at its inputs the indicated combination of signals and the delay element 10 are formed again. After the beam illuminating the sensor 8 is released, at the output of the element OR 18 a potential zero appears at the input of the trigger 22, at the other input of which the potential of the logical unit is present from the moment the trigger 21 transitions to the initial state. When this occurs, the trigger 22 switches to the initial state. Thus, with the end of the passage through the turnstile, the entire cycle of the circuit ends and all its elements return to their original state. When a person moves in the opposite direction, the circuit operates in the same way. The difference is that the signal of the passage resolution is formed at the third output of block 9 and element I 12 is blocked by this signal, blocking element 11 is ensured by the operation of flip-flops 23 and 24, element IS-NOT 26 and the form of the cast signal, block 9 to the original the state is produced by element And 16. In the case when the person who presented the pass for any reason refuses to pass, the device circuit automatically returns to its original state after the: research institute of time determined by the delay element 10. In this case, the potential of the logical unit is output from the output of the delay element 10 through the element OR 20 to the third input of block 9, and the potential of it is returned to its initial state. The first and second inputs of block 9 are supplied with the code of the personnel number from blocks 3 and 4 of information input to the elements 28 and 29 of the code parity checker, for example, on the basis of parity. If the received code of a personnel number satisfies certain criteria (for example, parity), then a logic zero potential appears at the outputs of elements 28 or 29. So, if there is a gap in the input information block 4 at the inputs of the trigger 32, a combination of signals is formed, at which the trigger 32 switches to the logical unit at the direct output, and after that the trigger 34 switches to the state with a logic zero on the inverse output, since the corresponding combination of signals is formed at its inputs. Switching trigger 32 to Logic zero at the output causes the appearance of a logic zero at the fourth output of the block, which blocks the amplifiers in block 3 of information input. Conversely, if skip 1-1 is inserted into information input unit 3, trigger 32 switches to the state with a logic zero at the inverse output and the amplifiers of information input unit 4 are locked with a logic zero potential at the fifth output. The switching of the flip-flops 32 and 34 causes the potential of a logical zero at the output of 1SH 35, and therefore, the appearance of a signal. The passage is allowed on the second code of block 9. Switching the flip-flops 32 and 34 causes the potential of the logical zero to appear at the output of the OR 36 element, and therefore , occurrence of a signal The passage is allowed to exit at the third output of block 9. The trigger 34 returns to its initial state at the moment when the potential of the logical unit appears at the third input of block 9.

Unit 3 consists of illuminators, photodetectors, and matching amplifiers with gating. A perfojeton is inserted between the illuminator and the photodetector. Depending on the perforation of the perforator, the corresponding photodetectors are illuminated and darkened. This information enters block 9.

The invention will increase the capacity, as it allows the next person to get permission and start moving through the turnstile without waiting for the next person to exit the line of action of the last beam.

The security of the passage through the turnstile is ensured by the fact that the logic of the operation of the device circuit eliminates the formation of a signal for activating the actuator when the person is allowed to pass in the area of the actuator leaves. For example, the occurrence of a malfunction of sensors 5 or (and) 6 after obtaining an input permit does not cause the actuator to turn on, since the signal of the potential of a logical unit coming from their outputs through the element OR 17 to the second input of the element 11 is blocked by the potential of a logical zero, In this case, block 9, which supplies to the first input of the same element, 11, the occurrence of the same fault in the sensor circuit 7 or 8 causes the actuator to turn on if the person has not started moving in the permitted direction or crossed Only the first (in the direction of movement) beam, t, e, it is far from the wings 2 of the actuator, the signal for VK / the reading of the actuator in this case passes through the elements OR 18, AND 12, OR 19.

If a sensor 7 or 8 malfunction occurs after a person darkens sensors 5 and 6, then the signal to turn on the actuator, which is fed to input 2 of element 12, is blocked by the potential of a logic zero applied to the input of this element from the inverse output of trigger 22,

Thus, the introduction of a new set of elements improves the safety of use.

device and bandwidth.

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Claims (2)

1. MONITORING-PASS DEVICE, comprising first and second information input units, the outputs of which are connected respectively to the first and second inputs of the control unit, the first output of which is connected to the input of the delay element, AND elements, first and second OR elements, first and second triggers, the first outputs of which are connected to the first inputs of the first and second AND elements, respectively, the outputs of which are connected to the first and second inputs of the second OR element, and sensors installed in the control zone, characterized in that, in order to To increase the throughput and simplify the device, the third and fourth OR elements, NAND elements, the third and fourth triggers are introduced into it, the output of the first sensor is connected to the first inputs of the third AND element and the third OR element, the second sensor output is connected to its second inputs, the output of the third sensor is connected to the first inputs of the fourth element And and the fourth element OR, to the second inputs of which the output of the fourth sensor is connected, the outputs of the third and fourth elements And are connected to the second inputs, respectively of the first and the first AND elements with the first inputs of the third and fourth triggers, respectively, the outputs of which are connected to the first inputs of the first and second AND elements, the outputs of which are connected with the first inputs of the first and second triggers, respectively, whose second outputs are connected to the first inputs fifth and sixth AND elements, the outputs of which are connected to the inputs of the first OR element, the output of which is the output of the device, the output of the delay element is connected to the third input of the second OR element, the output of which is connected to a network input of the control unit, the second and third outputs of which are connected to the second inputs_ of the fifth AND element and the third trigger, respectively, the sixth AND element and the fourth trigger. The output of the third OR element is connected to the third input of the fifth AND element and to the second inputs of the second AND element AND of the second trigger, the output of the fourth OR element is connected to the third input of the sixth AND element and to the second inputs of the first NAND element and the first trigger, the fourth and fifth outputs of the control unit are connected respectively to the inputs of the first and second information input units. 2. The device of claim 1, wherein the control unit comprises AND-NOT elements, triggers, AND element, OR elements and code parity control elements, the outputs of which are connected to the first inputs of the first and second AND-NOT elements, the outputs of which are connected to the inputs of the first trigger, the outputs of which are connected to the inputs of the And element and to the first inputs of the first and second elements OR, the output of the And element is connected to the first input of the second trigger, the output of which is connected to the second inputs of the AND elements, OR and is the first exit bl Single control, second and third outputs which are the outputs of OR elements, input parity code elements are first and second inputs of the control unit, the fourth and fifth outputs which are the outputs of the first flip-flop, a second input of the second flip-flop is the third input of the control unit.