RU130729U1 - ALARM SYSTEM - Google Patents

Abstract

1. A security alarm system containing n (n> 1) sensors located on a guarded object with the possibility of overlapping them with sensitivity zones of the space specified for overlapping the guarded object, and each of which is an optocoupler of an infrared emitter and an infrared receiver operating according to the principle of registering the intersection of the sensor sensitivity zone in the space between the IR emitter and the IR receiver of the corresponding optocoupler by an intruder, as well as a mode setting unit whose inputs are connected to the output odes of IR sensor receivers, characterized in that an alarm device is introduced, made in the form of a light and / or sound indicator, and whose input is connected to the output of a mode setting unit, configured to generate a control signal for the alarm device when registering the intersection of an intruder sensitivity of a given combination of sensors, the simultaneous operation of which corresponds to the registration of the intersection by an extraneous object - the intruder specified for overlapping space at the protected object, while the dead zones of the sensors do not exceed the minimum possible sizes of extraneous objects - violators. 2. The system according to claim 1, characterized in that the mode setting unit is made in the form of an OR element, the inputs of which are inputs of the mode setting unit, and the output is the output of the mode setting unit. 3. The system according to claim 1, characterized in that the mode setting unit is made in the form of an AND element, the inputs of which are inputs of the mode setting unit, and the output is the output of the mode setting unit.

Description

The utility model relates to signaling and control devices for protecting protected objects and can be used to detect intruders and control the movement of technological means using sensors using infrared radiation.

A device is known comprising a housing, a photosensitive element with a light filter that transmits infrared radiation, connected to a subtractor, output through an amplifier connected to an ADC, a microcontroller with a memory unit, designed to control the receipt of the serial port of the measured signal from the ADC and receiving from the line communication signal about the value of the natural background, as well as control the formation in the memory block of the signal compensation of the magnitude of the natural background and transmitting it through the DAC and the second input of the subtractor to produce parametric feedback [RU 2289850, C2, G08B 17/12, 20.12.2006].

The disadvantage of this device is the relatively narrow functionality, since it only responds to objects that create a high temperature background.

A device is also known that contains sensors for detecting intrusion into the protected zone, cameras and lighting devices, basic security kits sequentially located along the railway line and creating a continuous monitoring zone, and each basic security kit consists of sensors for detecting intrusion into the protected zone, television cameras and IR projectors, intrusion detection sensors are installed on one and the other sides of the protected area of the railway track, forming a continuous line of protection for the railway 200-500 m long paths, one camera per 200-500 m long section, is installed on the EJD contact network support, IR projectors are installed on the EJD contact network supports every 50 m, the camera provides in automatic or, if necessary, manual mode operational monitoring of the protected area in the visible and infrared ranges of light radiation, IR projectors provide IR illumination of the protected area at night, while each intrusion detection sensor includes detection means Spruces made with the possibility of creating a continuous extended detection zone and indicating the target detection location at the security line, intrusion detection sensors, a television camera and IR projectors are connected via main power lines and communication with the control panel of the security complex, which controls the camera’s aiming according to the specified algorithm made using the zoom device to the area of the protected area in which the intrusion detection sensor is triggered, and on ix infrared spotlights [RU 96274, U1, G08B 1/00, 20.07.2010].

The disadvantage of this device is the relatively high complexity, which limits its use for small guarded objects.

In addition, there is a known system comprising a fixed base, a platform mounted on it with a rotating optic-mechanical unit with a photodetector and a signal preprocessing unit provided with a rotation drive and a horizontal angle sensor installed on it, mounted thereon, rotating mainly around a vertical axis. optical-mechanical unit; an infrared optical system that is optically coupled to a photodetector and connected to a signal preprocessing unit, which, in turn, An fixed base consisting of a video monitoring device and an optical image processing unit, wherein a rotating optical-mechanical unit with a photodetector and a fixed processing pre-processing unit are coupled through an optical fiber data transmission unit [RU 94722, U1, G01S 3/78 May 27, 2010].

The disadvantage of this device is the relatively high complexity, which limits its use for small guarded objects.

Known also relates to a device for guarding a display stand for selling goods, the embodiment of which is used contains at least one sensor indicating that a person is approaching the stand, at least one movable element and means for setting it in motion and / or a speech synthesizer, as well as an electronic unit, moreover, the electronic unit is connected to these sensors, means for driving a movable element and / or a speech synthesizer that functions as an alarm means, and at least e, a sensor used an optical sensor operating on the principle of registration of an object intersection spaces between the elements of the optocoupler [RU 22011, U1, A47F 5/00, 10.03.2002].

The disadvantage of this technical solution is the relatively low noise immunity, because the sensors used, working on the principle of registering the intersection of the space between the elements of the optocoupler, react to any object crossing the space between the elements of the optocoupler, including those that are known to be safe for the protected object, in particular small geometric dimensions. In addition, the known technical solution does not provide means for setting up the device for objects with certain characteristics that constitute a real danger to the protected object. This indicates a relatively narrow functionality.

, где i=1, 2,…,N+1, причем, штанги с ИП с номерами i=1, N+1 связаны с пультом управления охранной системы. Каждая i=ая штанга с ИП содержит комплект ИП, состоящий из 2M_i ИП, в которые входят элементы, позволяющие i-й штанге с ИП осуществлять с помощью ИК лучей причем различной информации, в том числе звуковой, по

независимыми оптическими каналам из любых 2M_i независимых пространственных направлений и передачу этой информации по тому же числу K_i независимых каналов в любых других 2M_i пространственных направлениях. Кроме того, на каждый i-й штанге с ИП в точках, определяемых векторами

в системе координат, связанной с i-й штангой с ИП, располагаются однонаправленные микрофоны d, ориентированные рабочей стороной по направлению входящих из i-й штанги ИК лучей е под номерами αY_i=1, 2,…MY_i, где Y=1, r, причем микрофон, местоположение которого характеризуется вектором

электрически связан с оптическим каналом под номером

.The closest in technical essence to the proposed one is a device that implements a known method for determining the parameters of the object’s movement and its identification [RU 2128859, C1, G08B 13/18, 04/10/1999], containing rods with IP, set in order under the numbers i = 1, 2, ..., N + 1 along the line b of the border of the protected area at the points defined by vectors

, where i = 1, 2, ..., N + 1, moreover, rods with IP with numbers i = 1, N + 1 are connected to the control panel of the security system. Each i = th rod with a switchgear contains a set of switchgears consisting of 2M _i switchgear, which includes elements that allow the i-th rod with switchgear to be carried out using IR rays with various information, including sound,

independent optical channels from any 2M _i independent spatial directions and the transmission of this information on the same number K _i independent channels in any other 2M _i spatial directions. In addition, for each i-th rod with IP at points determined by vectors

unidirectional microphones d are located in the coordinate system associated with the i-th rod with the PI, oriented by the working side in the direction of the infrared rays e coming from the i-th rod under the numbers αY _i = 1, 2, ... MY _i , where Y = 1, r, moreover, a microphone whose location is characterized by a vector

electrically connected to the optical channel number

.

The method that is implemented in the known device is that along the border of the protected area, IP devices are exposed in the form of an emitter and a photodetector located on the rod, which are optically coupled by a system of infrared rays, through which information is transmitted that at a certain time, the infrared beam is interrupted by the object, and sound information is also transmitted from the intersection area of the infrared beam by the object. Analysis of the totality of the information obtained allows you to determine the parameters of the movement of the object and identify the object itself.

The known device is characterized by the following disadvantages.

The device has a relatively high complexity caused by the use of microphones, as well as means for processing audio information simultaneously with the current information received from infrared sensors.

The need to generate a large amount of information from infrared emitters regarding the parameters of the object’s movement, such as the instantaneous velocity vector, the average velocity vector in the direction and time, the trajectory as a function of time and determining the dimensions of the object on this basis, as well as the simultaneous formation of sound information and complex the algorithm for their simultaneous use also makes devices that implement the method extremely complex.

судят о габаритах объекта, сопоставляя все полученные данные по параметрам движения объекта V_x(t), V_y(t) и

,

ус данными о его габаритах и звуковом образе, причем с обоих пультов управления охранной системы, идентифицируют объект», и «определяются параметры движения объекта V_x(t), V_y(t),

,

,

, его габариты, а также строится звуковой образ объекта путем сравнения со звуковыми образами объектов, хранящихся в памяти ЭВМ, и с помощью всей совокупности данных проводится идентификация объекта.In addition, as indicated in the description of the closest analogue, the decision on the presence on the site of the object is made according to the signals “that characterize the optical rays interrupted by the object, take into account the spatial arrangement of the rays with numbers

judge the dimensions of the object by comparing all the data obtained by the parameters of the object's motion V _x (t), V _y (t) and

,

with data on its dimensions and sound image, and from both control panels of the security system, the object is identified ", and" the object’s motion parameters V _x (t), V _y (t) are determined,

,

,

, its dimensions, and also the sound image of the object is built by comparison with the sound images of objects stored in the computer's memory, and with the help of the entire data set, the object is identified.

Thus, to implement the method and its corresponding devices, it is necessary to have at least a sound image of the object, which makes the device complex and limited in application.

Another disadvantage of the device is the relatively low reliability due to low noise immunity, since the noise of the sound wave range, including artificial origin, makes the device ineffective. In particular, in the description of his work it is stated: “... ensured that the object to be identified intersected with at least four spatially different optical rays, the projections of which onto the Z = O plane would be different straight lines, then in advance, if the object does not cross the border of the protected area, the average time values of the totality of electrical amplitudes from sound signals ... ".

в частности, самый первый по времени ИК луч под номером

Информация о прерывании ИК луча под номером

передается по штангам с ИИ а на пульты управления охранной системы. Здесь фиксируют те номера штанг с ИП j из совокупности штанг с ИП с номерами

, которые непосредственно оптически связаны со штангой с ИП под номером i', а также фиксируют момент времени

, соответствующий началу прерывания объектом ИК луча под номером

, и длительность прерывания этого луча

. И далее «При поступлении на пульты управления охранной системы информации о прерывании объектом ИК луча под номером

включают все микрофоны а, расположенные на штангах с ИП под номерами j из совокупности

. Эта совокупность микрофонов работает до тех пор, пока объект не минует все те ИК лучи, выходящие из штанги с ИП под номером i', которые встречаются на пути объекта. При пересечении объектом ИК лучей других штанг с ИП указанная совокупность микрофонов выключается и включается другая совокупность микрофонов и т.д. Таким образом, номер штанги с ИП i' является функцией параметров движения объекта, то есть в конечном итоге функцией времени t»In addition, the device closest in technical essence operates exclusively in the mode of sequential crossing of PC rays: “When moving through line b of a protected area, an object that is presented in two g ₁ and g ₂ positions consecutively interrupts IR rays e under numbers

in particular, the very first IR beam at time

IR beam interrupt information numbered

transmitted via rods with AI and to control panels of the security system. Here, those numbers of rods with IP j from the set of rods with IP with numbers are fixed

that are directly optically coupled to the boom with the FE at number i ', and also record the time

corresponding to the beginning of the interruption by the object of the IR beam at number

, and the duration of interruption of this beam

. And further, “Upon receipt by the control panels of the security system of information about the interruption of an infrared beam by an object under the number

include all the microphones a located on the rods with IP numbers j from the aggregate

. This set of microphones works until the object passes all those infrared rays coming out of the rod with the IP number i ', which are encountered in the path of the object. When an object crosses the infrared rays of other rods with an SP, the specified set of microphones is turned off and another set of microphones is turned on, etc. Thus, the rod number with IP i 'is a function of the parameters of the object’s movement, that is, ultimately the function of time t "

Therefore, the known device has a relatively low reliability, because it does not allow to detect an object that simultaneously crosses several infrared rays.

The relatively low reliability of the device is also due to the fact that, in the closest technical solution, there are no means of promptly adjusting it to variations in the operation of infrared emitters, and there are no means of sound and / or light signaling.

Another factor that reduces the reliability of the known device is the lack of requirements for the size of the dead zone between the sensitivity zones of the sensors. They can exceed the minimum possible sizes of extraneous intruders.

The aim of improving the closest technical solution is to simplify the device and increase its reliability.

The required technical result, the achievement of which is aimed at improving the closest technical solution, is to simplify the device and increase its reliability.

The goal is achieved, and the required technical result is achieved by the fact that, in a system containing n (n> 1) sensors located on the guarded object with the possibility of overlapping them with sensitivity zones of the space specified for overlapping on the guarded object and each of which is an optocouple of IR emitter and IR receiver, operating on the principle of detecting the intersection of a sensor’s sensitivity zone in the space between the IR emitter and the IR receiver of the corresponding opto-detector by an intruder ry, as well as a mode setting unit, the inputs of which are connected to the outputs of the IR sensors receivers, an alarm device is introduced, made in the form of a light and / or sound indicator and whose input is connected to the output of the mode setting unit, configured to generate a control signal for the alarm device when registering the intersection by an intruder-intruder of the sensitivity zones of a given combination of sensors, the simultaneous operation of which corresponds to the registration of the intersection by an extraneous object -a violator of the space specified for overlapping at the guarded object, while the dead zones between the sensitivity zones of the sensors do not exceed the minimum possible sizes of extraneous intruders.

In addition, the required technical result is achieved in that the mode setting unit is made in the form of an OR element, the inputs of which are the inputs of the mode setting unit, and the output is the output of the mode setting unit.

In addition, the required technical result is achieved in that the mode setting unit is made in the form of an AND element, the inputs of which are the inputs of the mode setting unit, and the output is the output of the mode setting unit.

The drawing shows a functional diagram of a security alarm system.

The security alarm system contains n (n> 1) sensors 1-1 ... 1-n, each of which is an optocoupler from an IR emitter 2 and an IR receiver 3 located on a guarded object 4 and working on the principle of registering the intersection by an extraneous object - the intruder of the sensitivity zone 5-1 ... 5-n of the sensor in the space between the IR emitter 2 and the IR receiver 3 of the corresponding optocoupler.

In addition, the alarm system includes an alarm device 6, made, for example, in the form of a light and / or sound indicator.

The burglar alarm system also contains a mode setting unit 7, configured to generate a control signal for the alarm device 6 when registering the intersection by an intruder with an intruder of sensitivity zones 5-1 ... 5-n of a given combination of sensors 1-1 ... 1-n, while the inputs unit 7 mode settings are connected to the outputs of the IR receivers of sensors 1-1 ... 1-n, the output of unit 7 mode settings is connected to the control input of the device 6 alarm, sensors 1-1 ... 1-n are located on the protected object 4 with the possibility of overlapping their area and sensitivity 5-1 ... 5-n for a predetermined overlapping area in the protected object 4 and the dead zones between the zones of sensitivity zones sensitivity 5-1 ... 5-n sensors do not exceed the minimum possible dimensions of foreign objects violators.

IR receivers of sensors 1-1 ... 1-n can be performed, for example, with a digital output in the form of a one-bit code, when the level of a logical unit corresponds to registration of the intersection of the sensitivity zones of the corresponding sensor by an intruder.

The mode setting unit 7 can be performed in hardware or in the form of a programmable specialized computing device. Examples of its implementation and possible operation algorithms are presented below.

The alarm system is used as follows.

The purpose of the system is the detection and signaling of unauthorized entry into a protected area or into a secure room.

The system is built on the principle of active infrared barriers and is an infrared radiation system consisting of a transmitter and a receiver, the space between which is pierced by infrared rays invisible to the human eye. In this case, the receiver and transmitter are installed so as to be in the line of sight for each other. These optoelectronic devices form barriers consisting of a different number of infrared rays and, depending on the settings, trigger when one or more of them is interrupted.

Sensors may vary in purpose and distance between them. When installed on a fence, the control zone is, in particular, in the vertical plane from 1 to 4.5 m, in the horizontal plane - 5 cm. The distance between the sensors is from 30 to 60 m, the distance between the beams is 17 cm.

When installed on windows, the control zone is in the vertical plane from 1 to 2.8 m, in the horizontal plane - 3 cm, the distance between the sensors is from 10 to 6 m, the distance between the beams is 17 cm.

In the particular case, the mode setting unit 7 can be made in the form of an OR element, the inputs of which are the inputs of the mode setting unit 7, and the output is the output of the mode setting unit 7. In this case, the mode setting unit 7 generates a control signal for the alarm device 6 when at least one sensor 1-1 ... 1-n is triggered. In another particular case, the mode setting unit 7 can be made in the form of an element I. Then the mode setting unit 7 generates a control signal for the alarm device 6 when all sensors 1-1 ... 1-n are triggered. In addition, the mode setting unit 7 can be made in the form of AND elements, the inputs of which are the inputs of the mode setting unit 7, and an OR element whose inputs are connected to the outputs of the AND elements, and the output is the output of the mode setting unit 7, while the inputs of each of the AND elements are connected to the outputs of the IR receivers of those sensors 1-1 ... 1-n, the simultaneous operation of which corresponds to the registration of the intersection by an intruder object of the space specified for overlapping at the protected object 4. For example, the inputs of the I elements can t be connected to the outputs of adjacent pairs of infrared receivers of sensors 1-1 ... 1-n. Then the registration of the intersection by the intruder by the intruder specified for overlapping the space at the guarded object 4 will occur if the dimensions of the intruder exceed at least the sensitivity zones of two adjacent sensors 1-1 ... 1-n.

The execution of the mode setting unit 7 in the form of a programmable specialized computing device allows you to configure the system both for the above and for any other algorithms for registering the intersection by an intruder object of the space specified for overlapping at the protected object 4.

Thus, by improving the known device, its simplification is achieved, a significant increase in the reliability of its operation.

This is ensured by the exclusion of microphones and means of processing audio information, which leads to a simplification of the device, and the exclusion on this basis of the possibility of using artificial noise to penetrate an object increases the reliability of the device. In addition, the need to have a sound image of an object is eliminated, which also simplifies the device and increases its reliability, since it becomes sensitive to objects with an unknown sound image. It also provides the ability to detect objects that several IR rays cross at the same time, as well as the ability to quickly configure it to vary the response of the IR emitters. It also increases the reliability of the device, as well as the availability of sound and / or light signaling. The proposed also improves its reliability. A significant increase in reliability is also achieved by the fact that the dead zones between the sensitivity zones of the sensors do not exceed the minimum possible sizes of extraneous intruders.

Claims (3)

1. A security alarm system containing n (n> 1) sensors located on a guarded object with the possibility of overlapping them with sensitivity zones of the space specified for overlapping the guarded object, and each of which is an optocoupler of an infrared emitter and an infrared receiver operating according to the principle of registering the intersection of the sensor sensitivity zone in the space between the IR emitter and the IR receiver of the corresponding optocoupler by an intruder, as well as a mode setting unit whose inputs are connected to the output odes of IR sensor receivers, characterized in that an alarm device is introduced, made in the form of a light and / or sound indicator, and whose input is connected to the output of a mode setting unit, configured to generate a control signal for the alarm device when registering the intersection of an intruder sensitivity of a given combination of sensors, the simultaneous operation of which corresponds to the registration of the intersection by an extraneous object - the intruder specified for overlapping space at the protected object, while the dead zones of the sensors do not exceed the minimum possible sizes of extraneous objects - violators. 2. The system according to claim 1, characterized in that the mode setting unit is made in the form of an OR element, the inputs of which are inputs of the mode setting unit, and the output is the output of the mode setting unit. 3. The system according to claim 1, characterized in that the mode setting unit is made in the form of an AND element, whose inputs are inputs of the mode setting unit, and the output is the output of the mode setting unit.

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