RU190447U1 - Detector security magnetic contact explosion-proof - Google Patents

Abstract

Security alarm magnetic explosion-proof detector relates to the field of security alarm, designed to generate an electrical alarm in fire alarm systems, can be used to control the position of moving parts of structures and mechanisms when performing various technological processes in hazardous areas of classes 1 and 2 according to IEC IEC 60079 -10-1-2011. The detector is protected by a magnetocontact explosion-proof, containing an explosion-proof housing in the form of a cavity, muffled with one end face, on the other end of which is an explosion-proof cable entry, inside the cavity there is a reed switch fastened to the board, terminals electrically connected to the terminals of the reed switch and the inner surface of the housing cavity, the outer part of the housing is fastened to the mounting plate with an external grounding pin and holes for fastening the housing on one of the elements of the controlled object in the area of the magnet placed in another case, mounted on another element of the controlled object, in the internal cavity of the building With the reed switch, the terminals are electrically connected by flexible wires with a length sufficient to remove the terminals from the housing, one of the wires is connected to the internal cavity of the housing directly, the reed switch is placed asymmetrically on the board, the board orientation in the housing cavity provides the minimum distance between the reed switch and the magnet, the cavity the case with a reed switch is flooded with a compound fixing the orientation of the board. In addition, the end of the body cavity is muffled by rolling, the level of pouring the internal cavity of the body with a compound is such that it completely covers the reed switch and the ends of the flexible conductors connected to the terminals with the other ends. grounding, quality of installation and reduction of metal consumption, while maintaining the appearance and level of explosion-proof detector. 2 hp F-ly, 1 FIG.

Description

The detector magnetocontact explosion-proof detector, declared as a utility model, belongs to the security alarm area, is designed to generate an electrical alarm in fire alarm systems and can be used to control the position of moving parts of structures and mechanisms when performing various technological processes in hazardous areas of classes 1 and 2 according to GOST IEC IEC 60079-10-1-2011.

Known detector security magnetic contact explosion-proof two-block containing a reed switch, fixed on one of the elements of the test object in the area of the magnet placed in another block installed on another element of the test object, the block body with the reed switch is made explosion-proof with an explosion-proof "flameproof shell" and with an explosion-proof cable entry, made in the form of a threaded sleeve, inserted into the body of the unit with reed on the thread, while the inner end of the threaded The sleeves are provided with a sealing unit with a sealing sleeve and gland rings, in addition, the body of the blocks with reed switch and magnet are made of magnetic metal. (Patent for useful model of the Russian Federation No. 123219 “Magnetocontact two-unit detector” published on December 20, 2012).

A disadvantage of the known security magnetocontact detector is its narrow range of response of the reed switch when moving blocks, due to the implementation of the cases of magnetic material, which has a strong shielding effect on the magnetic field of the magnet and requires the use of powerful magnets with large dimensions and cost. In addition, the detector has low sensitivity and reliability due to the cantilever arrangement of the reed switch along the axis of rotation of the detector housing, as well as the difficulty of mounting the detector at the operating site due to the need to remove and reinstall the reed switch from the housing.

Known detectors are security point magnetocontact explosion-proof models ExIO102-MK, containing a cylindrical body with cable gland, in which the reed switch coaxially attached to the printed circuit board with terminals attached to one of the elements of the object being monitored in the area of the magnet placed in another body installed on another element of the controlled object. The housing with cable gland containing a reed switch is made explosion-proof with explosion-proof “flameproof casing“ d ”” made of non-magnetic material, in particular from 12X18H10T stainless steel rod or aluminum by means of turning-welding operations (Detectors are security point-type, magnetic, explosion-proof. IO102-MK “ Aton ". Operation manual WWW.M-KONTAKT.ru/PRODUKT/DATCH DLYA MAGN KONSTR / EX IP 102 MK.HTML

The disadvantage of the known detectors security magnetocontact explosion-proof. low sensitivity, vibration resistance and reliability, as well as high metal consumption. Coaxial placement of the reed switch in the center of the cylindrical housing reduces the detector's sensitivity with increasing diameter of the housing, which depends on the size of the terminal block and the diameter of the cable entry, the latter depend on the diameter of the alarm cable and the cross section of its cores, which limits the use of non-flammable, armored cables at the facility operating large diameter. Console fastening of the reed switch on the printed circuit board reduces the vibration resistance of the detector, and since mounting, the reed switch together with the board is removed from the housing and then inserted back with the heavy alarm cable already attached without visual inspection leads to breakdowns and displacement of the reed switch. The implementation of the housing with reed switch by processing it from a single piece (rod) increases the intensity and cost of the detector. The low reliability of the detector is also due to the fact that for organizing the internal grounding of an explosion-proof device required by GOST 31610.0, irregular contact of the conductive path of the printed circuit board with the internal ledge of the housing is used, and since the board is removed from the housing during installation, then it is replaced without visual control possible contamination and damage to this conductive path.

The closest in purpose, technical nature and the achieved result to the claimed detector is a security alarm point-contact explosion-proof detector containing an explosion-proof housing in the form of a cylindrical cavity plugged at one end with a welded bottom, at the other end of which is placed an explosion-proof cable entry, and inside the cavity there is a reed switch fastened perpendicular to the terminal board, the terminals form electrical connections to the terminals of the reed switch and the inner surface of the polo of the housing, the outer part of the housing is bonded with a mounting plate on which the external grounding stud is located and the holes for fastening the housing on one of the elements of the object to be monitored in the area of a magnet placed in another case mounted on another element of the object being monitored. The internal grounding of this explosion-proof detector, required by GOST 31610.0, is made in the form of a non-standardized contact of a conductive path of a printed circuit board with an internal ledge of a housing with a reed switch, which is made by turning works when machining the internal cavity of the housing with a reed switch. The reed switch is placed console on the printed circuit board with terminals along the axis of the housing with a reed switch. When the detector is installed at the facility, the entire assembly consisting of the non-detachable reed switch and board with terminals is removed from the casing, and after mounting the wires of the alarm cable is installed back into the casing without visual inspection. DETECTORS SECURITY-FIRE DOT POINT MAGNETIC CONTACT EXPLOSION PROTECTED EXTI 102-1B (models 01 and 02) Operating Instructions 908.2726.00.000 RE, HTTP://NPK-ETALON.RU/WP-CONTENT/UPLOADS/2010/08/90/909090 -DESTERS-SECURITY-FIRE-DOTS-EXIT-1102-1B-MEAS.5IZ.№4065-18-VERSION-21.11.2018.PDF

The disadvantage of this detector is low sensitivity due to the placement of the reed switch along the axis of rotation of the detector, which when using non-combustible alarm cables of large diameter increases the diameter of the detector and the gap between the reed switch and its wall, this requires the use of a magnet with a stronger magnetic field and, accordingly, increased size and cost . The internal grounding of the detector required by clause 15.1.1 of GOST 31510.0, in the form of a circuit: the internal ledge of the detector, the conductor path of the printed circuit board and the terminal, is not reliable because the circuit board with the reed switch is removed from the housing during operation , which leads to contamination of a thin conductive path and its premature wear when installing the board back into the case. In addition, the internal ledge increases the wall thickness of the housing over the required value to ensure its strength with the possible explosion of the mixture inside the detector. This increases the complexity of manufacturing and metal construction and, accordingly, the cost of the detector. The increase in the cost of the detector also contributes to the manufacture of the blind cavity of the detector in connection with the need to manufacture and weld the bottom. The presence in the internal cavity of the housing with a reed switch free space surrounding the reed switch leads to an increase in the volume of explosive mixture and, accordingly, increases the requirements to the strength of the housing, which affects its value. Removing the reed switch when installing from the detector housing and then installing it with an alarm cable already attached without visual inspection leads to breakdown and displacement of the reed switch and damage to the internal path of the board.

The problem to be solved by a detector magnetocontact explosion-proof, which is declared as a utility model, is to increase its technical characteristics and reduce its cost.

The technical result of the improvement of the detector magnetocontact explosion-proof detector is to increase its sensitivity, vibration resistance, reliability of internal grounding, quality of installation and reduction of metal intensity, while maintaining the type and level of explosion-proof detector.

This technical result is achieved by the fact that in the detector a security magnetic contact explosion-proof, containing an explosion-proof housing in the form of a cavity plugged from one end, on the other end of which is an explosion-proof cable entry, inside the cavity there is a reed switch fastened to the board, terminals electrically connected to the reed switch leads and the inner surface of the cavity of the housing, the outer part of the housing is bonded with a mounting plate with a pin of external grounding and holes for fastening the housing to one of the elements of a controlled object in the area of a magnet placed in another housing, mounted on another element of the controlled object, in the internal cavity of the housing with a reed switch, the terminals are electrically connected by flexible wires of a length sufficient to extract the terminals from the housing, one of the wires is connected to its inner end the cavity of the housing itself, the reed switch is placed on the board asymmetrically, the orientation of the board in the cavity of the housing provides the minimum distance between the reed switch and the magnet, polo be a reed switch housing is filled with compound, fixing the orientation of the board. In addition, the end of the body cavity is muffled by rolling, the level of filling the internal body cavity with a compound is such that it completely covers the reed switch and the ends of the flexible conductors connected to the terminals with other ends.

The connection of the internal grounding terminal through a flexible wire directly to the inner surface of the housing cavity with a reed switch allows you to organize a reliable permanent connection of the internal grounding of an explosion-proof device required by clause 15.1.1 of GOST 31610.0-2014 and avoid contact and contamination of the detector when installing the detector, eliminate the need to perform a ledge in the internal cavity of the housing with a reed switch compared to the prototype, thereby using a pipe with a smaller wall thickness and, accordingly, less mass and cost, while maintaining the appearance and level of explosion protection of the detector. Connecting the terminals to the terminals of the reed switch and one of the terminals to the inner surface of the housing by means of flexible wires with a length sufficient to remove these terminals from the housing, with the explosion-proof cable entry previously removed, allows you to remove and re-install the reed switch and card , removing only the terminals on these long wires to connect the signal cable wires to them and thereby avoid breakage of the reed switch and contamination of the board, which increases reliability and quality ETS installation. Fixing the reed switch on the board asymmetrically and non-console, along with the orientation of this board in such a way that the reed switch has taken the position in which it is as close as possible to the magnet mounted on the movable element of the object being monitored, it allows to increase the sensitivity of the detector compared to its production version. the axis of rotation of the housing and thereby reduce the requirements for the parameters of the magnet and, accordingly, its cost, as well as increase the vibration resistance of the detector by mounting the reed switch to the board by its short leads. Filling the inner surface of the housing with a reed compound to a level at which it fixes the position of the board and, correspondingly, the reed switch, allows to increase the vibration resistance and preserve the characteristics of the detector during operation, in particular the response and recovery distances, due to the absence of rotation of the board and, accordingly, the reed switch. and also reduces the amount of possible explosive gas inside the enclosure and, accordingly, reduce the requirement for strength and cost of the enclosure. Increasing the fill level of the board with the compound to the level at which the compound completely covers the reed switch and the ends of the flexible conductors (and, accordingly, the entire board) connected to the other ends of the terminals, allows you to avoid oxidation and, accordingly, loss of contact of the conductor connections, and further reduce the gas volume inside the housing and, accordingly, the pressure of a possible explosion inside the housing, which increases the reliability of the detector. Achievement of the hermetic end of the housing with a reed switch for the technological operation of rolling compared to the installation and welding technology of the bottom or turning from a single bar, reduces the range of materials used in the manufacture of the detector and reduces the time for its production, thereby maintaining the look and level of explosion protection

An example of a possible implementation of the proposed detector security magnetocontact explosion-proof illustrated drawings.

FIG. 1 shows a top view of the detector with local cuts.

The detector is an intrinsically safe intrinsically safe magnetic contact, contains an explosion-proof non-magnetic housing 1, for example, in the form of a cylindrical stainless steel pipe, one of the ends of which is rolled, and an explosion-proof cable 2 is screwed along the other end of the thread, for example, certified explosion-proof cable glands of the NordEx company , "Block", etc., consisting of at least a threaded fitting, an elastic ring and a pressure hollow screw. In the rolled end of pipe 1, a hole is made in which one end of the flexible wire 3 of the internal grounding of the detector is installed and welded, forming the hermetic performance of this folded end of housing 1. Case 1 together with the explosion-proof cable entry 2 and the welded end of the flexible wire 3 are made according to the requirements of GOST R IEC 60079.1 and form an explosion-proof detector case with an explosion-proof “explosion-proof” d shell withstanding the pressure of a possible (calculated) explosion inside the case, taking into account filling its volume with other elements. A printed circuit board 4 is inserted into the internal cavity of the housing 1, onto the conductive tracks of which the reed switch 5, located asymmetrically to the longitudinal axis of the board 4, is soldered to its leads. On the printed circuit board 4 a screw 6 of intermediate fastening of the wire 3 can be installed, which limits the length of the wire 3 from the rolled the end of the housing 1, so that the printed circuit board 4 can be removed from the housing 1. Fastening the wire 3 with its end at the pipe end is not the only option for its fastening, in the same way The end of the wire 3 can also be fixed on the inner generator of the cylindrical housing 1. The other end of the wire 3 is fastened to the small-sized pass-through terminal 7 of the detector's internal grounding. The reed switch 5 through the conductive paths of the printed circuit board 4 is connected to the flexible wires 8, at the ends of which small-sized pass-through terminals 9 are installed, for example, screw terminals ZVI-3. The lengths of the flexible wires 8 and the length of the part of the flexible wire 3 from the screw 6 to the terminal 7 allow to remove the terminals 7 and 9 from the housing 1 without breaking their electrical contact with the reed switch 5 and the housing 1 The housing 1 is bonded with its outer surface, for example mounting plate 10, which houses the stud external ground 11 and the holes 12 for mounting the housing 1 on the fixed element 13 of the test object, for example on the doorway. On the movable element 14 of the test object, for example, on the door leaf, a magnet 15 is fixed, placed in its housing 16. The board 4, using a tweezers (not shown), is pre-oriented with its rotation in the inner cavity of the housing 1, relative to the plane the mounting plate 10, so that the reed switch 5 is at a minimum distance from the wall of the housing 1, facing the magnet 15 and filled with compound 17, fixing this position of the board 4. The filling level with compound 17 of the internal cavity of the housing 1 can be What are the, that the board 4 is completely covered by them. including the ends of the wires 3 and 8. To the terminals 7 and 9 during the installation and operation of the detector connect the wires of the alarm cable 18, one of which (internal earth conductor) is grounded outside the limits of the detector.

The security alarm magnetic explosion-proof detector works as follows. On the movable element 14 of the test object, for example, screws, strengthen the housing 16 with the magnet 17, and on the stationary element 13 strengthen the case 1 by means of the holes 12 in the mounting plate 10, for example, screws. The distances between buildings 1 and 16 are chosen so that the magnet 15 activates the reed switch 5 when the door is closed and does not activate it when the door is opened by a certain amount. The installation of the alarm cable 18 wires to the detector is carried out in the following sequence: an explosion-proof cable input 2 is unscrewed from housing 1, consisting of at least three parts: a threaded nipple, an elastic ring and a pressure hollow screw, and put it on cable 18. Remove, for example, with tweezers, terminals 7 and 9 from the internal cavity of the housing 1, together with the flexible wires 3 and 8 connected to them, connect the terminals 7 and 9 to the cores of the cable 18 and together with it introduce this node back into the cavity of the housing 1. Consistently install 1 part into the housing and explosion-proof cable gland 2: first screw it into a threaded nipple, then install an elastic ring into it, which, when the cable gland screw rotates, opens the cable entry and fixes the alarm cable 18. Connect an external earthing pin 11 to a grounded cable 18 or separate ground wire (not shown).

Claims (3)

1. An intrinsically safe intrinsically safe magnetic contact detector containing an explosion-proof housing in the form of a cavity plugged from one end, on the other end of which an explosion-proof cable entry is located, a reed switch fastened to the board is located inside the cavity, terminals electrically connected to the terminals of the reed switch and the inner surface of the housing cavity the outer part of the housing is bonded with a mounting plate with an external grounding stud and with holes for fastening the housing on one of the elements of the object to be monitored in the area of effect of a magnet placed in another case mounted on another element of the object to be monitored, characterized in that the terminals in the internal cavity of the case with a reed switch are electrically connected by flexible wires of a length sufficient to remove the terminals from the case, one of the wires is connected with its end to the internal cavity of the case directly, the reed switch is placed on the board asymmetrically, the orientation of the board in the cavity of the case provides the minimum distance between the reed switch and the magnet, the case cavity with the reed switch is flooded to mpaundom, fixing the orientation of the board. 2. The detector is an intrinsically safe intrinsically safe magnetic contact according to claim 1, characterized in that the muffling of the end of the body cavity is performed by rolling. 3. The detector is an intrinsically safe intrinsically safe magnetic contact according to claim 1, characterized in that the fill level of the internal cavity with a compound is such that it completely covers the reed switch and the ends of the flexible wires connected with the other ends to the terminals.

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