RU172428U1 - Explosion-proof magnetic contact detector - Google Patents

Abstract

Explosion-proof magnetic contact detector belongs to the field of burglar alarm and is intended to supply an electric 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.In a magnetic contact security detector containing a housing with an explosion-proof cable entry, in which the reed switch is located, are connected to the terminal block, mounted 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, the housing with a reed switch is made box-shaped with a cover that provides dust and water protection of at least IP 54 according to GOST 14254-96, the internal cavity of which the reed switch and the terminal block are fixed, the terminal block and the cable gland fastened to the housing are made with the explosion protection type “increased protection type“ e ”” according to GOST R IEC 80079-7-2012, and the reed switch is sealed to mpound. providing explosion protection of the type “sealing with compound“ m ”” in accordance with GOST R IEC 60079-18-2012. In addition, the reed switch is installed asymmetrically with respect to one pair of housing walls. The technical result of improving the detector of a magnetically contact explosion-proof explosion-proof detector is to simplify the procedure for connecting it to the alarm system elements and to reduce the likelihood of breakdown of the detector internal elements during installation and operation, as well as to reduce the detector manufacturing cost by reducing requirements to the strength of the housing with the reed switch and the thickness of its walls, exceptions in the manufacture of the detector yaschih procurement and turning and milling operations without disturbing the level of explosion protection devices, as well as increasing vibration resistance and sensitivity. 1 s.p. f-ly, 4 ill.

Description

The detector, magnetically contact explosion-proof, declared as a utility model, belongs to the field of security alarm and is intended to give 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 zones 1 and 2 classes according to GOST IEC IEC 60079-10-1-2011.

A detector is known that has a magnetically contact safety explosion-proof two-unit, containing a unit with a reed switch, mounted on one of the elements of the controlled object in the zone of operation of the magnet, placed in another block mounted on another element of the controlled object, the housing of the unit with the reed switch is made explosion-proof with the type of protection "flameproof enclosure" and with an explosion-proof cable entry made in the form of a threaded sleeve inserted into the block housing with a reed switch along the thread, while the inner end of the threaded the sleeves are equipped with a sealing assembly with a sealing sleeve and clamping rings, in addition, the cases of the blocks with a reed switch and a magnet are made of magnetically soft metal (Utility Model Patent of the Russian Federation No. 123219 “Two-unit Magnetic Contact Detector”, published on December 20, 2012).

A disadvantage of the known magnetic-contact security detector is its narrow range of reed switch actuation distances when moving blocks, due to the construction of cases made of magnetically soft 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.

The known detector is a magnetically contact explosion-proof point detector, ЕХИО102-1В (models 01 and 02), comprising a cylindrical housing with a cable entry, in which a reed switch is placed coaxially to the housing axis, which is cantileverly connected via a printed circuit board to the terminal block, mounted on one of the elements of the controlled object in the zone the action of a magnet placed in another housing mounted on another element of the controlled object. A housing with a cable entry containing a reed switch is made explosion-proof with a type of protection “flameproof enclosure“ d ”, and the housing is made of non-magnetic material, in particular, stainless steel 12X18H10T (magnetic point contact detectors, explosion-proof. ЕХИО102-1В. Operation manual. 908.2726 .00.000 RE http://npk-etalon.ru/wp-content/uploads/2012/06/RE_ЕхIO102-1V.pdf).

A disadvantage of the known magnetic explosion-proof magnetic detector is the complicated installation procedure of the detector at the facility, especially at heights and in uncomfortable places, as well as the high manufacturing cost of the detector, which requires turning and milling and welding to produce a durable (withstanding explosion pressure) casing. The installation procedure for this detector at the facility includes the removal of a reed switch from a cylindrical housing connected by a printed circuit board to the terminal block, and then assembling this assembly with the heavy cable already connected back. When installing such a long assembly in an opaque case, breakdown of the glass housing of the reed switch and deformation of its contacts, as well as a break in the signal cable cores already fixed in the terminal block, are possible. In addition, the console mounting of the reed switch to the terminal block in the detector reduces its vibration resistance. Coaxial placement of the reed switch in the center of the cylindrical housing reduces the sensitivity of the detector with an increase in the diameter of the housing, which depends on the size of the terminal block and the diameter of the cable entry, which limits the use of large diameter non-combustible armored signal cables at the facility.

The closest in purpose, technical nature and the achieved result to the claimed detector is a magnetic point-contact detector explosion-proof, ЕХИО102-МК "Aton", containing a cylindrical housing with a cable entry, in which a reed switch is placed coaxially to the housing axis, and is connected via a printed circuit board to the terminal block fixed on one of the elements of the controlled object in the zone of action of the magnet placed in another case, mounted on another element of the controlled object . A housing with a cable entry containing a reed switch is made explosion-proof with a type of protection “flameproof enclosure“ d ”, and the housing is made of non-magnetic material, in particular stainless steel 12X18H10T or aluminum, by means of turning and milling operations (Magnetic point contact detectors explosion-proof. ИО102 -MK “Aton.” Operation manual, http://www.smd-tlt.ru/db/files/Pasp/Pasp_Aton-MK.pdf).

A disadvantage of the known detector of magnetically contact explosion-proof is the complicated installation of the detector at the facility, especially at heights and in inconvenient places, as well as the high cost of manufacturing the detector, which requires turning and milling to produce a durable (withstanding explosion pressure) casing. The installation procedure for this detector at the operation site includes dismantling operations from the reed switch housing connected by the printed circuit board to the terminal block, and then assembling this assembly with the heavy cable already connected back. When installing such a long assembly in an opaque case, breakdown of the glass housing of the reed switch and deformation of its contacts, as well as a breakage of the signal cable wires already fixed in the terminal block due to uncontrolled rotation of the signal cable during its sealing with the cable gland elastic seal when screwing the fitting of the latter, is possible. In addition, when mounting an alarm cable to a detector already fixed at the facility, it is difficult to select surplus alarm cables to ensure the design (evenness) of its laying at the facility. The cantilever mounting of the reed switch in the detector cavity reduces its vibration resistance, which leads to a limitation of the conditions for its use. Coaxial placement of the reed switch in the center of the cylindrical housing reduces the sensitivity of the detector when the diameter of the housing increases, 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 conductors, which limits the use of non-combustible armored cables with large diameter.

The task to be solved by the magnetically contact explosion-proof detector declared as a utility model is to simplify the installation of the detector at the facility, reduce the cost of manufacturing the detector, and increase its reliability.

The technical result of the improvement of the detector of a magnetically contact explosion-proof detector is to simplify the procedure for its connection with the elements of the alarm system and reduce the likelihood of breakdown of the internal elements of the detector during installation and operation, as well as reduce the cost of manufacturing the detector by reducing the requirements for the strength of the housing with the reed switch and its wall thickness, except manufacture of the detector of expensive procurement and turning and milling operations, without violating the level of explosion protection device features, as well as increased vibration resistance and sensitivity.

The specified technical result is achieved by the fact that in the magnetic security detector, comprising a housing with an explosion-proof cable entry, in which there is a reed switch connected to a terminal block, mounted on one of the elements of a controlled object in the area of a magnet placed in another case, mounted on another element of the controlled object, the housing with the reed switch is box-shaped with a cover that provides dust and water protection of at least IP 54 according to GOST 14254-96, in which the conductor and terminal block, terminal block and cable entry fastened to the housing are made with the type of protection “increased protection“ type e ”according to GOST R IEC 80079-7-2012, and the reed switch is sealed with a compound providing explosion protection of the type“ sealing with compound “m” ” according to GOST R IEC 60079-18-2012. In addition, the reed switch is installed asymmetrically with respect to one pair of housing walls.

Providing the detector housing with a reed switch with a lid and fixing the reed switch in its internal cavity (on the bottom) allows visual control of the installation of the alarm cable to the detector when installing the detector at the facility. This allows you to eliminate or immediately notice damage to the compound shell of the reed switch and the deformation of its contacts. The fastening in the internal cavity (on the bottom) of the terminal block body and preliminary fastening with the cable entry case allows, when mounting the detector, to first fix the heavy cable in the cable entry of the detector, and then install its cores in the terminal block, which allows you to control the twisting of the cable cores, select the excess alarm cable to ensure the design (flatness) of the cable laying at the facility, to avoid tearing the cable cores from the terminal block when sealing the explosion-proof cable entry due to Possible rotation of the cable sheath at its compression gland seal a cable entry and thus reduce the likelihood of breakage and remounting of the detector. The implementation of the box-shaped case allows the use of cast or stamped cases as a workpiece, thereby eliminating the costly machining and welding of the body elements, as well as more easily filling the reed switch with a compound without the use of special technological equipment. The combination of types of protection is “increased protection of the type“ e ”according to GOST R IEC 80079-7-2012 for the terminal block and cable entry and“ sealing with compound “m” according to GOST R IEC 60079-18-2012 for the reed switch together with their protection from dust and water by a housing and a cover of a detector of a level of at least IP 54 in accordance with GOST 14254-96, it is possible to ensure the use of the detector, as well as the prototype, in hazardous areas of classes 1 and 2 in accordance with GOST IEC IEC 60079-10-1-2011, to avoid manufacturing with subsequent mandatory tests of a durable (pressure-resistant explosion) case with an explosion view protection “flameproof enclosure" d "according to GOST R IEC 60079-1-2008 and thereby reduce the cost and time for the manufacture of the detector. Performing a cable entry with an “increased protection type“ e ”type of protection according to GOST R IEC 80079-7-2012 also makes the detector cheaper to manufacture by reducing the requirements for cable glands and the thickness of the detector housing wall while maintaining the level of protection. Fixing the reed switch on the bottom of the case and filling it with a compound increases the vibration resistance of the detector and reduces the likelihood of its breakdown during installation and operation. The location of the reed switch is asymmetric with respect to at least one pair of side walls of the housing, which allows it to be placed close to one of the walls that will face the housing with a magnet, and thereby increase the sensitivity of the detector when using non-combustible large diameter alarm armored cables.

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

In FIG. 1 shows a sectional view of the housing with the reed switch of the detector.

In FIG. 2 shows a top view of the housing with the reed switch of the detector.

In FIG. Figure 3 shows a sectional view of the housing with the detector magnet.

In FIG. 4 is a view of a housing cover with a detector reed switch.

The detector magnetic contact explosion-proof contains a housing 1 with a reed switch 2 and a housing 3 with a magnet 4. Housings 1 and 3 are closed with removable covers 5 and 6 with rubber gaskets 7 and 8, respectively, which provide dust and moisture protection of the internal cavities of buildings 1 and 3 not less than IP 54 according to GOST 14254-96. The covers 5 and 6 are attached to the housings 1 and 3 by screws 9. The housings 1 and 3 have their fastening elements at the facility (not shown), and the housing 1 has additional external and internal ground screws (not shown). As cases 1 and 3, for example, Gainta cast aluminum cases (http://img.planar.spb.ru/doc/2014-SERIES-B0XXMF&BSXXMF.pdf) with covers and rubber gaskets can be used. The magnet 4 can be composite and filled with a compound 10 for fixing it in the cavity of the housing 3. The housing 1 has an explosion-proof cable entry 11 attached to it with an explosion protection type “increased protection type“ e ”according to GOST R IEC 80079-7-2012, for example, a company Peppers Cable Glands, for input into the housing 1 of the cable of the alarm system 12 with cores 13. On the bottom of the housing 1 is fixed a terminal block 14, for example, via a DIN rail 15 and a printed circuit board 16, on which it is asymmetrical (closer to the wall of the housing 1, which the mounting will be facing the housing 3) the reed switch 2 is attached. Terminal block Dka 14 is made explosion-proof with the type of protection “increased protection of type“ e ”” according to GOST R IEC 80079-7-2012, for example, a certified block by Wago was used. The printed circuit board 16 with the reed switch 2 is made and filled with compound 17 in compliance with the requirements of GOST R IEC 60079-18-2012 “sealing with compound“ m ””. Depending on the switched power and operating conditions of the detector, current-limiting elements and thermal fuses, as well as addressable electronic tags (not shown in the drawing) can be installed on the printed circuit board 16. The level of explosion protection of each of the detector elements (nodes) must correspond to the class of the hazardous area and provide marking of the detector according to Explosion-proof up to 1Exem11ST6 Gb according to GOST R IEC 60079-0-2011. Arrows 18 can be applied to the covers 5 and 6 and / or the side surfaces of the housings 1 and 3 to orient the housings at the facility, indicating the optimal effect of the magnet 4 field on the reed switch 2.

The detector security magnetic explosion-proof works as follows. Housing 3 with magnet 4 is mounted on a movable element of an object of operation, for example, on a door, and housing 1 with a reed switch 2 is mounted on a fixed element of an object of operation, for example, on a wall, using housing elements to mount them on an object (not shown in the drawing). Cases 1 and 3 are positioned so that the arrows 18 are located opposite each other, and the distance between the walls of the housings ensures that the reed switch 2 is activated by the action of the magnet 4 field. Opening the cover 5 of the housing 1, the signal cable 12 with pre-cut wires 13 is inserted into the cable cavity input 11. Observing visually, move the cable 12 through the cable entry 11 so that the part of the signal cable 12 located in the cavity of the housing 1 is sufficient to secure its cores 13 in the terminal block 14. Tighten under izhnogo element (choke) of the cable entry 11 (not shown), while providing a securing and sealing a cable entry 11 of its elastic member (gland) signaling cable 12 (not shown). If, when tightening the cable entry 11, the alarm cable 12 rotates around its axis due to friction between the surface of the alarm cable 12 and the elastic element of the cable entry 11, then the conductors 13 are aligned for their convenient and disjoint mounting in the terminal block 14 according to the marking on it (on the drawing is not shown) or repeat the operation taking into account the previously fixed angle of rotation of the alarm cable 12. It is possible to cut the cores 13 of the alarm cable 12 after it is fixed in the cable entry 11, while ensuring m the choice of excess cable alarm 12, to ensure the design (evenness) of its laying on the object of operation. Connect the cores 13 of the alarm cable 12 to the terminal block 14 and the internal ground screw (not shown), the shielding braid (not shown) the alarm cable 12 is connected to the external ground screw (not shown) and close the cover 5 with a rubber gasket 7 with screws 9, and the alarm cable 12 is connected to the control panel (not shown in the drawing). When moving the movable element of the object of operation (door), on which the housing 3 with magnet 4 is located, the magnetic field of the latter ceases to affect the reed switch 2 located on the fixed element of the object of operation (wall), and the electrical contacts switch (not shown) reed switch 2 and an electric signal enters through the alarm cable 12 to the control panel (not shown in the drawing).

This design of the detector of magnetic explosion-proof magnetic contact can reduce the cost of its manufacture, reduce the likelihood of breakdowns during installation and operation, increase its vibration resistance and sensitivity.

Claims (2)

1. The detector is magnetically contact explosion-proof, comprising a housing with an explosion-proof cable entry, in which a reed switch is located, connected to a terminal block, mounted on one of the elements of the controlled object in the zone of operation of a magnet placed in another case, mounted on another element of the controlled object, characterized in that the housing with the reed switch is made box-shaped with a cover providing dust and moisture protection, in the inner cavity of which a reed switch and terminal block are fixed, cable e is attached to the housing, and the terminal block is explosion-proof. 2. The detector is magnetically contact explosion-proof according to claim 1, characterized in that the reed switch is sealed with a compound and placed against the wall of the housing.

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