SU875409A1 - Device for registering the number of persons in a room - Google Patents

Description

(54J DEVICE FOR AND ACCOUNTING NUMBER OF PEOPLE

IN THE ROOM

I

The invention relates to a measurement technique and is intended for the operative counting and monitoring of the presence of people in premises characterized by a high degree of fire and explosion hazard, and can also be used as information for 1 SON sensors in a fire protection system of any premises with a fixed number of inputs and outputs.

A device for counting people moving in opposite directions in each is known. from the passages, containing a generator of pulsed pulses, connected to the shift register and a number of parallel-connected channels, each of which consists of sensors, AND elements, triggers, and AND forming elements connected to the inputs of the corresponding OR elements fl.

A disadvantage of this device is the complexity of its adjustment with

(an increase in the number of channels, as this necessitates the restructuring of the clock pulse generator to another demand clock frequency ..

The closest technical solution to the Proposed is a device containing sensors and a scaling unit, having triggers and the first group of elements I, the output of the first of which is connected to the summing-up input of the reversible counter, the output of the second element I of the first group is connected to the subtracting input of the reversible counter 2 j.

15

The disadvantage of this device is. the accuracy of the counting is low, since they do not provide protection against false positives in the event of a change in the direction of movement

Claims (2)

20 of the object in the zone of the sensors, which does not allow the use of platform devices in systems that require high reliability of the output information, for example, to control the presence of people in the production areas characterized by an increased degree of fire and explosion hazard. The purpose of the invention is to increase the output of the output information about the number of people in a closed room with a fixed number of inputs and outputs by eliminating false positives of the device during an incomplete pass and providing counting on several channels. The goal is achieved by the fact that a device containing sensors, an on-demand block made on triggers and the first group of E-elements, the outputs of which are connected to the corresponding counter of the reversible counter, are connected to a pulse shaper and in a counting block a second group of elements I are connected to the outputs of the sensors pulse generator, the first output of which is connected in a scaling unit with zero inputs of the first and second triggers and with the first inputs of the first group of elements And, the second and third inputs of which are Connected to the unit outputs of the corresponding triggers, the second output of the pulse generator is connected to the zero input of the third and fourth triggers of the counting unit, the third output of the pulse former is connected to the single input of the third trigger and the first input of the first element And the second group, the second input of which is connected to the zero output of the first trigger of the scaling unit; the fourth output of the pulse former is connected in the riepec even block to the single input of the fourth trigger and to the first to the input of the second element AND of the second group, the input of which is connected to the zero output of the second trigger. In addition, to ensure counting over several channels, the device contains OR elements, the outputs of the first group of elements AND of a counting unit are connected through corresponding cops OR to a recursive counter. The drawing shows the functional diagram of the proposed device. The device consists of sensors 1 and 2, designed to generate signals when moving the moving axis of the object in their area of operation, the pulse shaper 3 forming the vibration signals of the state of the sensors, the conversion unit 4, consisting of the first 5 and the second 6 elements of the second group the first 7, second 8, third 9 and fourth 10 triggers and the first 11. and second 12 elements AND the first group, which give the ignals +1+ corresponding to the input -IV corresponding to the output, and also the elements OR 13 and 14 and the reversible counter 15 The device may work on any aloinertsioknyh sensor allowing usoychivy signal. The device uses photoelectric sensors. The device works in the following way. In the initial state, the triggers 710 and the counter 15 are in the zero state, in which they are set up with a reset unit (not shown) before operating the device. In the event that a moving object enters the zone of action of sensor 1 or 2, signal 1 is generated in it or signal O is generated. Thus, successive combinations of signals from two sensors 1 and 2 will be 00.10, 11.01.00 at the input, and with output of 00,01,11,10,00. These signals from sensors 1 and 2 are fed to the inputs of the pulse generator 3, which, depending on the sensors, generates the following signals 00.00 or И, 10.01 at their outputs. The signals generated in the pulse driver 3 are fed to the inputs of triggers 7-10. The fourth trigger 10 is set to 1 by the signal 01, to O by the signal i1 or 00, the first trigger 7 is set to 1 by the signal 01, provided that the second trigger 8 is in the zero state, to O it is set by the signal 00, the second trigger 8 is set to T by signal 10, provided that the first trigger 7 is in the zero state, in O it is set by signal 00, the third trigger 9 is set to 1 by signal 01 in signal 11 or 00. According to these conditions Signals 11 or 00 are brought to the zero outputs of the flip-flops 9 and 10, to the zero ones the trigger inputs 7 and 8 are the signals 00, the single trigger input | f 9 is given a signal 10, the single input is three geres 10 - the signal is 01. The zero output of the trigger 7 is connected to the second input of the first element 5, the second group, and the zero output the trigger 8 with the second input of the second element AND 6, the second group, the first inputs of these elements are fed respectively the outputs 10. and 01 from the driver 3 pulses, and the outputs from the elements 6 and 5 are matched to the single inputs of the trigger 7 and 8. In this way. Triggers 7 and 8 represent a & trigger, the state of which depends on the state of each other. With the passage of a moving object in the zone of action of sensors 1 and 2, triggers 7-10 record and memorize all changes in the state of the sensors. Position of sensors K and 2 in state 00, all of the trigger are in the initial state, i.e. in О ,, At the entrance, when the 1 L 2 sensors are set to the 10 position, the triggers 9 and 8 are set to one state, with further passage, i.e., when the sensors are 11, the trigger 9 is reset to the O, and the trigger 8 remains in former state, i.e. in 1, when the sensors are in position 01, the flip-flop is flung, the trigger 8 remains in 1 and in the position of sensors 00 when the moving object leaves the sensor, all triggers 7-10. return to the idle state, i.e. in O .. When exiting in position of sensors 1 and 2 in state 01, triggers 7 10 are set to 1, then at position of sensors 11, trigger 10 is reset to O, and trigger 7 remains in 1, then at position of sensors 10 thrigger 9 is set in 1, the trigger 7 remains in 1 and at the position of the sensors 00 all the triggers 7-10 are reset to O. The outputs of the triggers 7-10 are fed to the elements 11 and I2 of the first group, on which the signals "I and -1 corresponding to the input and the exit of the moving object. The conditions for the generation of these signals on the forming elements of the IP and 12 are followed. Signal +1 is generated in the case of the position 1 of the flip-flops 9 and 7 and the signal 00 of the generator of 3 signals, the signal of -1 in the case of 1 triggers of the 3 generator of pulses. In accordance with these conditions, the unit outputs of the flip-flops 9 and 7 are supplied to the inputs of the first AI element of the first group, and the single outputs of the flip-flops 8 and 10 to the inputs of the second element And 12 of the first group. A signal 00 from the generator of 3 pulses is also applied to the inputs of the elements P and 12. and the first group. Thus, at the output of the AND element of the first group, the signals corresponding to the input appear, and on the AND element of the first group there corresponds the output. The device operates in such a way that it is eliminated the need to set it back to its original state after each pass. It is ready to receive subsequent signals immediately after the signal has been fully processed, i.e. after +1 or -1 From the installation conditions of the trigger 7-10, it can be seen that all of them are set to the zero state by the signal 00, which corresponds to the position of the end of the passage, i.e. The output of a moving object from the zone of sensors 1 and 2. IJo this signal, in combination with a certain state of triggers 7-10, produces pulses of +1 and -1. But when the trigger is transferred, a pulse delay occurs, which is sufficient for the pulses “1 and -1 to stop working and enter further circuits earlier. how the corresponding triggers are set to the zero state. Therefore, there is no need to specifically form a reset pulse after each pass. When the number of channels is more than one, sensors 1 and 2 are installed on each of them, the pulse shaper 3 and counting unit 4. Signals from the outputs of the first And 11 elements of the second group are collected at the inputs of the OR 13 element, and signals from the outputs of the second And 12 elements of the second group are collected to the inputs of the other element OR 14. The outputs of the elements OR 13 and 14 are respectively fed to the summing and subtracting inputs of the reversing counter 15. In one channel, the elements of SHIII 13 and 14 are no longer needed and the outputs of the elements 11 and I2 of the first group are supplied from the cell to the summing and subtracting inputs of the reversible counter 15 directly. At the output of the elements And 11 and 12 of the second group of the conversion unit 4, the signals appear only when the object of the I датчиков 2 sensors moves away from the object, i.e. in the case of a full pass (input or output), and any changes in the direction or oscillation of the moving object in the sensor's area of operation do not cause any false signals at the outputs of the counting unit, which significantly increases the accuracy of the count. The clocking of the signals at the outputs of the OR 13 and 14 elements is not necessary, since at the outputs of the crescent blocks 4 nanosecond pulses are formed enough to be inserted into the counters built on the modern element base, the probability of simultaneous passage for any real number of channels lying in the toughest case in the millisecond range. From this it follows that the probability of imposing pulses from different channels is practically excluded. Moreover, as the OR elements 13 and 14 receive only output signals, and the entire sequence of moving a moving object is reflected only inside the scaling blocks 4 of each channel, this eliminates the possibility of interlocking channels. The use of the proposed device as information sensors of fire protection systems permits the reliability and reliability of information D to the presence of people in the room and ensures human safety in the event of an emergency fire risk situation or fire, for example, by excluding the possibility of starting a fire extinguishing system using fire extinguishing substances dangerous to human life, If the premises are not all people left. An apparatus for monitoring and recording the number of people in a room, containing sensors, a counting unit, made on the triggers and the first group of elements AND, whose outputs are connected to the corresponding inputs of a reversible counter, characterized in that, in order to increase the reliability of the device pulse shaper was introduced into the scaling unit - the second group of elements is And, the sensor outputs are connected to the pulse shaper inputs, the first output of which is connected in the scaling unit with zero inputs the first and second triggers and with the first inputs of the first group of elements AND, the second and third inputs of which are connected to the outputs of the respective triggers, the second output of the pulse pulse generator is connected to the zero input of the third and fourth triggers of the scaling unit, the third output of the pulse shaper is connected in the scaling unit to unit input of the third trigger and the first input of the first element And the second group, the output of which is connected to the second output of the first trigger of the conversion unit, the quarter output of the driver and The pulses are connected in the scaling unit to the single input of the fourth trigger and to the initial input of the second element AND of the second group, the second input of which is connected to the second output of the second trigger 2, The device according to claim 1, , in order to provide counting over several channels. the llamas, in which we introduced the elements OR, the output of the second group of elements AND the counting unit are connected via the corresponding elements OR to the reversible counter, Sources of information taken into account in the examination of US Patent No. 3727034, cl. G 06 M 3/08, published. 1974. 2. USSR author's certificate S 642744, class, G 06 M 3/08, 1978 (prototype).