RU191575U1 - Magnetic contact security detector - Google Patents

Abstract

Magnetic-contact security detector refers to the field of security alarm, is intended to supply an electrical alarm in fire-alarm systems and can be used to control the position of moving parts of structures and mechanisms during various technological processes. In the magnetic-security detector, containing a housing in which the reed switch is located and sensors for fixing sabotage actions, the output contacts of which are closed in standby mode of the detector and open alarm mode, mounted on one element of the controlled object in the area of the magnet, mounted on another element of the controlled object, the housing is equipped with a resistance converter into an electrical signal, to the input of which is connected an electric circuit consisting of output contacts of the reed switch, tamper sensors and the first a resistor, and in parallel with the output contacts of the reed switch and sensors for fixing sabotage actions, additional resistors are connected, Leniye first and each additional resistor and the sum of their possible combinations level corresponds to an unambiguous electrical signal. Also, the resistance of the first resistor corresponds to the initial level of the electric signal, and the sum of the resistances of the first and all additional resistors corresponds to the final level of the electric signal. In addition, a resistance converter into a unified current signal with a range of 4-20 mA, which is additionally capable of exchanging information via the HART protocol, is used as a resistance to electrical signal converter. A technical result of the improvement of the magnetic security detector is to reduce the number of wires for connecting it to the system alarm system of the object of protection, while maintaining the informativeness of the detector about the impact on it of sabotage actions. 3 s.p. f-ly, 2 Fig.

Description

The security magnetic detector declared as a utility model relates to the field of security alarm and is intended to supply an electrical alarm in fire and security alarm systems and can be used to control the position of moving parts of structures and mechanisms when performing various technological processes.

A detector is known that has a magnetocontact security detector containing a housing in which two normally open reed switches are located, the output contacts of which are closed in standby mode of the detector and open in alarm mode, mounted on one element of a controlled object in the area of a magnet attached to another element of the controlled object. The output contacts of each reed switch are connected to two wires of a four-wire cable brand KSPVG 4 × 0.2. (Announcer security point magnetocontact ИО102-26 - isp. 04, 2хНР "Ajax" http://m-kontakt.ru/produkt/datch_dlya_magn_konstr/ayaks_vse.html).

A disadvantage of the known security magnetic detector is the high cost of including it in the alarm system of the object of protection the distance between the detector and the control panel for analyzing the status of the detector and forming control commands can reach hundreds of meters, and for connecting each reed switch to it, at least two wires are required, which increases the cost of the entire security system. In addition, the detector is not protected from sabotage by the intruder in the form of blocking the reed signal by an external magnet, by detaching and moving the detector together with the magnet from the mounting surface, which requires GOST R 52435-2015.

A magnetic magnetic contact detector is known, comprising a housing in which a reed switch and tamper detectors are located, the output contacts of which are closed in standby mode of the detector and open in alarm mode, mounted on one element of the controlled object in the magnet's area, mounted on another element of the controlled object . The number of sensors for detecting sabotage actions on the detector can be up to three pieces: a sensor for detecting exposure to the detector of an external magnet field, a sensor for opening the detector cover, a sensor for detecting detachment of the detector from the mounting surface. Sensors for fixing sabotage actions are made on the reed switches, the output contacts of which are connected to the terminals. (Positive decision on application No. 2018136877/08 (059976) dated 10/15/2019).

A disadvantage of the known security magnetic detector is the high cost of including it in the alarm system of the object of protection, because the distance between the detector and the control panel of the detector status analysis and the formation of control commands can reach hundreds of meters, and for connecting each reed switch to it, at least two wires are required, which increases the cost of the entire security system.

A detector is known as a magnetically contact explosion-proof detector, comprising a housing in which a reed switch and tamper detectors are located, the output contacts of which are closed in the standby mode of the detector and open in alarm mode, mounted on one element of the controlled object in the area of the magnet, mounted on another element of the monitored object. The number of sensors for detecting sabotage actions on the detector can be up to three pieces: a sensor for detecting exposure to the detector of an external magnet field, a sensor for opening the detector cover, a sensor for detecting detachment of the detector from the mounting surface. Sensors for fixing sabotage actions are made on the reed switches and microswitch, the output contacts of which are connected to the terminals. (RF patent for utility model No. 187023 published on 02/14/2019).

A disadvantage of the known security magnetic detector is the high cost of including it in the alarm system of the object of protection the distance between the detector and the control panel for analyzing the status of the detector and forming control commands can reach hundreds of meters, and connecting a detector to it requires at least 8 wires, which increases the cost of the entire security system.

The task to be solved by the magnetic-contact security detector declared as a utility model is to reduce the cost of including it in the object's security system while maintaining its security functions.

The technical result of the improvement of the magnetic security detector is to reduce the number of wires for connecting it to the alarm system of the object of protection, while maintaining the informativeness of the detector about the impact of sabotage actions on it.

The specified technical result is achieved by the fact that in the magnetic security detector containing the housing in which the reed switch and tamper detectors are located, the output contacts of which are closed in standby mode of the detector and open in alarm mode, mounted on one element of the controlled object in the magnet's zone of operation, fixed on another element of the controlled object, the housing is equipped with a resistance to electrical signal converter, to the input of which an electric circuit is connected A circuit consisting of series-connected output contacts of the reed switch, sabotage fixation sensors and the first resistor, and parallel to the output contacts of the reed switch and sabotage fixation sensors, their additional resistors are connected, the resistance of the first and each additional resistor and the sum of their possible combinations corresponds to a unique level of the electric signal. Also, the resistance of the first resistor corresponds to the initial level of the electric signal, and the sum of the resistances of the first and all additional resistors corresponds to the final level of the electric signal. In addition, a resistance to a unified current signal with a range of 4-20 mA, which is additionally capable of exchanging information via the HART protocol, is used as a resistance to electrical signal converter.

Providing the detector with a resistance-to-electrical signal converter allows reducing the number of wires for connecting the detector to the control and receiving device and judging the state of the detector by the magnitude of the electric signal, thereby reducing the cost of completing the communication lines of the object of protection, and using a current signal with a range as an electric signal 4-20 mA allows you to reduce the number of wires of the communication line to two, with a high noise immunity of the communication line and maintaining information content spruce up. The use as a electrical signal of a unified signal according to GOST 26.011-80, along with the use of the resistance of the first resistor corresponding to the initial level of the electrical signal, and the sum of the resistances of the first and all additional resistors which corresponds to the final level of the electrical signal. allows the use of commercially available resistance to electrical signal converters with various ranges and transfer function. The use of a resistance converter into a unified current signal with a range of 4-20 mA, which is additionally capable of exchanging information via the HART protocol, allows expanding the amount of information received from the detector without increasing the number of communication lines, in particular, obtaining address information about the detector and remote quality control its functioning, thereby fulfilling the requirements of Clause 4.1.1.7 of GOST R 52435-2015 for class 4 detectors. The implementation of the resistance converter connected to the input in the form of an electric circuit consisting of series-connected output contacts of the reed switch, sabotage fixation sensors and the first resistor, and connection of additional resistors in parallel to the output contacts of the reed switch and sabotage fixation sensors, provided that the resistance of the first and each additional resistor and the sum of their possible combinations corresponds to a single level of electrical signal allows you to clearly judge about the range of detector sensors that went into alarm mode and make the right operational decisions.

An example implementation of the inventive security magnetic detector is illustrated by drawings.

In FIG. 1 shows a top view of the detector with the cover removed.

In FIG. 2 is a schematic diagram of an electrical circuit detector.

The magnetic contact security detector comprises a box-shaped case 1 made of non-magnetic material, for example, aluminum, which is closed by a screw cap (not shown in the drawing), and a cable entry 2 for inputting a communication line cable (not shown) is placed on the side wall of the case 1. Inside the housing 1 on the printed circuit board 3 there are terminals 4 for connecting two wires of a communication line cable (not shown in the drawing), a standard normally open reed switch 5 and a normally closed reed switch 6, separated from the regular reed switch by a magnetic screen 7 and acting as a sensor of exposure fixation to the field detector of the tamper magnet (tamper magnet is not shown in the drawing). On the detector board 3 or on the detector housing 1, a sensor for fixing the detector cover open 8 and a sensor 9 for detaching the housing 1 from the mounting surface are fixed, the output contacts of which are closed in standby mode of the detector and open when the cover is opened and the housing 1 is torn from the mounting surface, respectively. Sensors 8 and 9 can be made in the form of microswitches in contact with the corresponding surface, or reed switches with their own magnet, for example, the design of RF patent PM No 187023. A resistance converter 10 into a unified electrical signal according to GOST 26.011-80, for example, a current signal with a range of 4-20 mA, which can also exchange information via the HART protocol with secondary devices via a two-wire communication line (not shown ) The converter 10 can be made specialized on a printed circuit board 3 or a commercially available purchased converter can be used, for example, a measuring transducer of the digital model IP 0304 / M1-N for converting the signals of resistance thermal converters (TS) according to GOST 6651-2009 to a current of 4-20 mA, produced ELEMER enterprises with a HART protocol (https://www.elemer.ru/production/temperature/ip/). The first resistor R0 and additional resistors R1, R2, R3, R4 are also located on the printed circuit board 3, each of which is connected in parallel to the output contacts of the standard reed switch 5, the reed switch 6 of the external magnet field, the sensor for detecting the opening of the detector cover 8 and the sensor for detaching from mounting surface 9, respectively. All resistors R1, R2, R3, R4 and R0 are connected in series and connected to the input of the converter 10. The output current signal of the converter 10, for example, with a range of 4-20 mA, is connected outside the detector via a two-wire communication line to the PSU power supply, connected in series with load resistance R load and milliammeter mA, the value of the current reading of which clearly corresponds to the resistance at the input of the converter 10. The housing 1 is mounted on a fixed element of the controlled object 11, for example, the doorway, and an important element of the controlled object 12, for example, a door leaf, a housing 13 is mounted in which a magnet 14 is placed. The resistance value R0 is selected so that when only it is connected to the input of the converter 10, the initial value of the electrical unified signal is set at the output of the converter 10, for example, 4 mA, and when all the resistances R1, R2, R3, R4 and R0 are connected, the final value of the electrical unified signal, for example 20 mA, is set. In addition, the values of the resistances R1, R2, R3, R4 are selected in such a way that the resistance of each resistor and the sum of the resistances of their possible combinations unambiguously correspond to the known level of the unified signal, by which it is possible to unambiguously judge the nomenclature of sensors that went into alarm mode (whose contacts open). A possible known level of the output of the unified signal of the converter 10, depending on the range of sensors that have gone into an alarm state, is shown in table 1.

The detector operates as follows. The case 1 is fixed on the fixed element of the controlled object 11 (doorway), and on the movable element of the controlled object 12 (door leaf), the case 13 with the magnet 14 is fixed, so that when the door is closed, the standard reed switch 5 under the influence of the magnet field 14 becomes closed state, and when the door is open for a certain amount, it opens again, the sensor 9 for fixing the tear off of the housing 1 from the mounting surface 11 was closed when the housing 1 was installed on the mounting surface 11 and opened when it was lifted from it by a certain height face. Mount two cores of the communication line cable (not shown in the drawing) on the terminals 4, close the cover (not shown in the drawing) of the housing 1. while the contacts of the sensor 8 for fixing the opening of the cover of the housing 1 are closed. A normally-closed reed switch 6 is closed in the absence of an external tamper magnet field (not shown in the drawing) and opened when it is brought up to the housing 1, and the magnetic shield 7 prevents the reed switch 6 from working from the magnet field 14. During tampering of the intruder in the form of unauthorized opening of the door , holding the external magnet, opening the cover of the detector housing 1 and detaching the housing 1 from the mounting surface 11, the standard reed switch 5, reed switch 6 and sensors 8 and 9 are triggered individually or severally at the same time, connecting the input to the input p eobrazovatelya 10 with different resistance values R1, R2, R3, R4 and R0 and their possible combinations. According to the milliammeter mA, for example, in accordance with table 1, or by the voltage at the load resistance R of the load, the operation of a specific anti-tamper sensor or their combinations is judged. In the case of using a converter 10, which can additionally exchange information via the HART protocol with secondary devices (not shown) in addition to the 4-20 mA current signal, the consumer has the opportunity to judge the detector number (address) to reconfigure its response ranges, and also automatically analyze the malfunctions of the converter 10 and its communication line, thereby fulfilling the requirements of Clause 4.1.1.7 of GOST R 52435-2015 for class 4 detectors in the part “to have at least three information outputs for For the formation of at least four types of addressable notices and to provide the ability to remotely control functioning. "

Claims (4)

1. Magnetic contact security detector, comprising a housing in which a reed switch and sabotage detectors are located, the output contacts of which are closed in standby mode of the detector and open in alarm mode, mounted on one element of a controlled object in the area of a magnet attached to another element of a controlled object, characterized in that the housing is equipped with a converter of resistance into an electrical signal, to the input of which is connected an electrical circuit consisting of series about the connected output contacts of the reed switch, sabotage fixation sensors and the first resistor, and in parallel to the output contacts of the reed switch and sabotage fixation sensors, their additional resistors are connected, and the resistance of the first and each additional resistor and the sum of their possible combinations corresponds to a unique level of the electric signal. 2. The magnetic security detector according to claim 1, characterized in that the resistance of the first resistor corresponds to the initial level of the electrical signal, and the sum of the resistances of the first and all additional resistors corresponds to the final level of the electrical signal. 3. The magneto-contact security detector according to claim 2, characterized in that a resistance converter into a unified current signal with a range of 4-20 mA is used as a resistance converter to an electrical signal. 4. Magnetic contact security detector according to claim 3, characterized in that the resistance converter into a unified current signal with a range of 4-20 mA is capable of exchanging information via the HART protocol.

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