RU2667204C1 - Device for computer-aided intensity calculation, quantitative and qualitative composition of observed events - Google Patents

Abstract

FIELD: measuring equipment.SUBSTANCE: invention relates to passage registration devices for recording the type and number of observed events and dynamics of changes in their intensity. Device comprises a pressure sensor, a power supply unit, a counting control unit provided with a microprocessor, a display, a timer and a memory unit, wherein the memory unit configured with an external memory is additionally introduced, one of inputs of the memory unit is connected to the output of the microprocessor of the counting control unit, additional pressure sensors are introduced, outputs of the pressure sensors are connected to the inputs of the microprocessor of the counting control unit, indicators are additionally introduced, inputs of the indicators are connected to the outputs of the pressure sensors, outputs of the power supply are connected to inputs of the indicators, input of the counting control unit and one of the inputs of the memory unit configured with an external memory.EFFECT: expanded technical capabilities of the device is achieved.1 cl, 1 dwg

Description

The technical solution relates to the field of measurement technology and is intended to fix the type and number of observed events, and the dynamics of changes in their intensity.

As an analogue, the scheme of an anti-fraud system that controls access to public transport was taken (RF patent 2713805, IPC ⁸ G07B 15/00, G07C 9/00, 06/16/1995). The system is installed at the exit of the station to the vehicle and includes three zones: payment, control and control passage. The payment zone is equipped with prepaid recognition tools. The control zone is equipped with various detectors: a pressure sensitive rug; active infrared barrier that determines the movement; passive infrared barrier separating passengers from their suitcases; ultrasonic for counting moving objects. Data from the detectors are compared in real time by a microprocessor, which determines the number of passengers and determines the need to close the passage.

The disadvantage of this system is the inability to classify the observed events by type, as well as the fixation of the dynamics of changes in their intensity.

As a prototype, a device scheme was selected for accounting for the number of passengers carried by public transport (RF patent 57489, IPC ⁸ G07C 9/00, published October 10, 2006). The specified device consists of a sensor triggered by pressing the passenger’s foot (when it enters and leaves the bus), a signal conditioner, and a control unit with a memory that are electrically connected to each other. The sensor has two sensing elements, which are placed one at a time in two separate detachable fixed screws and with a protective L-shaped plate on the steps and the bus parts and a detachable rubber mat. Each element is made of two electrodes - wires with a loop single-layer laying with a gap and plates connected respectively to the terminals. The plates are based on elastic elements located along the wire on both sides of it: in the form of parallelepipeds or plate arched with bent ends of the springs. It is possible to supply the unit with a microprocessor, display and timer with an autonomous power supply.

The disadvantages of the prototype include the fact that in the claimed technical solution there is no possibility of classifying the types of observed events and fixing the dynamics of changes in their intensity.

The objective of the technical solution is to expand the technical capabilities by classifying the observed events, when counting them, as well as indicating the time of fixing the events to determine the dynamics of changes in their intensity.

The problem is solved due to the fact that the automation device for calculating the intensity, quantitative and qualitative composition of the observed events, contains a pressure sensor, a power supply, a counting and control unit equipped with a microprocessor, a display, a timer and a memory unit, and an additional memory unit, made with external memory, one of the inputs of which is connected to the output of the microprocessor of the control unit, additional pressure sensors are introduced, the outputs of which are connected to the inputs of the microprocessor of the control unit, indicators are additionally introduced, the inputs of which are connected to the outputs of the pressure sensors, the power supply outputs are connected to the inputs of the indicators, the input of the counting and control unit and one of the inputs of the memory unit made with external memory.

In FIG. 1 shows a diagram of an automation device for calculating the intensity, quantitative and qualitative composition of the observed events.

The automation device for calculating the intensity, quantitative and qualitative composition of the observed events, contains two or more pressure sensors 1, indicators 2, one indicator 2 for each sensor 1, memory unit 7, power supply unit 8 counting and control unit 9, including a memory unit 4, microprocessor 3, display 5 and timer 6.

The sensors 1 are connected to the indicators 2 and the microprocessor 3. The microprocessor 3 is connected to the memory unit 4, the memory unit 7 and the display 5. The timer 6 is connected to the microprocessor 3. The power supply unit 8 is connected to the indicators 2, the memory unit 7 and the control unit 9.

The automation device for calculating the intensity, quantitative and qualitative composition of the observed events works as follows. When the sensor 1 is activated, the electric network is closed, as a result, indicator 2 lights up, signaling a successful operation. The signal from sensor 1 is fed to microprocessor 3. Microprocessor 3 processes the received signal, writes the result to memory block 4 and displays on display 5. Microprocessor 3, based on the signals from timer 6, records information from memory block 4 to memory block 7. Block power 8 delivers electrical energy to the indicators 2, the memory unit 7 and the control unit 9.

The proposed technical solution, called the automation device for calculating the intensity, quantitative and qualitative composition of the observed events allows you to expand the technical capabilities by counting events with their division into classes. Recording to the external memory of the type of event and the time of its fixation allows you to track the dynamics of changes in the intensity of the observed events.

Claims (1)

An automation device for calculating the intensity, quantitative and qualitative composition of the observed events, comprising a pressure sensor, a power supply unit, a counting and control unit equipped with a microprocessor, a display, a timer and a memory unit, characterized in that an additional memory unit made with external memory is additionally introduced, one of the inputs of which are connected to the output of the microprocessor of the control unit, additional pressure sensors are introduced, the outputs of which are connected to the inputs of the microprocessor of the control unit, add Indicators whose inputs are connected to the outputs of the pressure sensors have been introduced, the power supply outputs are connected to the inputs of the indicators, the input of the control unit and one of the inputs of the memory unit.

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