RU197572U1 - Magnetic contact security detector - Google Patents

Abstract

Magnetic contact security detector refers to the field of security alarm, is designed to generate an electrical alarm in fire alarm systems and can be used as a sensor to control the position of moving parts of structures and mechanisms when performing various technological processes, mainly in explosive zones of classes 1 and 2 according to GOST IEC IEC 60079-10-1-2011. The technical result of the improvement of the security magnetic detector is to reduce its metal consumption and increase the sensitivity with various options for using the detector. In the magnetic security detector containing the housing in the form of a cylindrical cavity, muffled from one end, the cable entry is located on the other end, and a reed switch is located inside the cavity, the outer part of the housing is fastened with a support that has coaxial segment cutouts in contact with the housing and the mounting plane with holes for mounting the housing on one of the elements of the controlled object in the zone of action of the magnet, placed on another element of the controlled object, characterized in that the support is made in a U-shaped section, and segment cuts are placed in the outer corner of its shelves. In addition, the inscribed diameter of the segment cut-outs of the support is equal to the smallest diameter of the housing in the variants of its execution, the U-shaped cross-section of the support has a different height profile due to beveling or asymmetrical chamfers of the support shelves, and the projection of the housing axis onto the mounting support plane does not pass through it or is in contact with her. 5 cp crystals, 4 FIG.

Description

The security magnetic detector declared as a utility model relates to the field of security alarm, is intended to generate an electrical alarm in fire and security alarm systems, and can be used as a sensor for monitoring the position of moving parts of structures and mechanisms when performing various technological processes, mainly in hazardous areas 1 and 2 classes according to GOST IEC IEC 60079-10-1-2011.

The known detector is a magnetically contact point explosion-proof explosion-proof model ИО102-МК "Aton" containing a housing in the form of a cylindrical cavity plugged from one end, a cable entry is located on the other end, and a reed switch is located inside the cavity, the outer part of the housing is fastened with a flat mounting support, which has holes for mounting the housing on one of the elements of the controlled object in the area of the magnet, placed in another housing, installed on another element of the controlled object. The mounting support is made in the form of a flat plate. which is welded to the cylindrical body from the bottom along the line of its end. (Explosion-proof point-contact magnetic detectors. IO102-MK "Aton". Operation manual. Http://www.smd-tlt.ru/db/files/Pasp/Pasp_Aton-MK.pdf)

The disadvantage of this detector is its low sensitivity when placed on magnetic (steel) surfaces, which distort the magnetic flux from the magnet and make it insufficient to activate a reed switch located close to the magnetic surface of the element of the controlled object, as well as the high metal consumption of the flat support due to its thickness necessary to exclude its deformations and destruction during tightening with the normalized moment of the cable entry of the detector.

The known detector is a magnetically contact point explosion-proof explosion-proof model ИО102-1В, containing a housing in the form of a cylindrical cavity plugged from one end, the cable entry is located on the other end, and a reed switch is located inside the cavity, the outer part of the housing is fastened with a flat mounting support that has holes for mounting housing on one of the elements of the controlled object in the area of the magnet, placed in another building, installed on another element of the controlled object. The mounting support is made in the form of a flat plate. which is welded to the cylindrical body from the bottom along the line of its end. (DETECTORS SECURITY-FIRE POINT MAGNETIC CONTACT EXPLOSION-PROTECTED ЕХИО102-1В (models 01 and 02) Operating Instructions 908.2726.00.000 РЭ, HTTP://NPK-ETALON.RU/WP-CONTENT/UPLOADS/2010/08/08/08/08/08/08/08/08/08/08/08/08/08/08/08/08/08/08/08/08 -DETECTORS-SECURITY-FIRE-POINT-EXCHANGE-ЕХИО102-1В-Izm.5IZV.№4065-18-VERSION-11.21.2018.PDF).

The disadvantage of such a detector is its low sensitivity when placed on magnetic (steel) surfaces, which distort the magnetic flux from the magnet and make it insufficient to activate a reed switch located close to the magnetic surface of the element of the controlled object, which is eliminated by the use of additional non-magnetic gaskets for a flat support, and also the high metal consumption of the flat support, due to its thickness, necessary to exclude its deformation and destruction when tightened with a normalized moment of cable entry of the detector.

The closest in purpose, technical nature and the achieved result to the inventive detector is a detector point magnetically contact explosion-proof explosion-proof model ЕХИО102 MK, containing a housing in the form of a cylindrical cavity plugged from one end, the cable entry is located on the other end, and a reed switch is located inside the cavity, the outer part the housing is fastened with a support, which has a mounting plane with holes for mounting the housing on one of the elements of the controlled object in the area of the magnet, located on another element of the controlled object. The body support is made in the form of a plate divided into two sections by symmetrical parallel cutouts from its sides. On the flat part of the support part, there are holes for attaching the housing to the element of the controlled object, the second, smaller part, is made U-shaped on the shelves of which there are coaxial segment cutouts with a radius equal to the radius of the reed housing, into which it is laid and fastened with them by welding the entire mating arc is the cylindrical housing of the reed switch, with a vertical projection of the axis of the housing on the mounting plane of the support located inside the notches. The outer generatrix of the housing protrudes beyond the edge of the support by an amount smaller than the radius of the housing, which allows you to compensate for the loss of sensitivity of the detector when it is installed on doors with gaps and, accordingly, reduce the strength, size and cost of the magnet by the values corresponding to the length of this protrusion. In addition, this embodiment of the support of a magnetic contact detector increases its sensitivity when installed on magnetically conductive (steel) elements of a controlled object and due to the raised reed switch and magnet above it by the height of the U-shaped shelves and eliminates the partial need to use additional non-magnetic gaskets to increase sensitivity: distances recovery / operation of the detector in accordance with GOST R 54832-2011, and also allows the use of cable entries in the detector with an outer diameter larger than the diameter of the reed switch housing. (Announcing guarded point magnetocontact explosion-proof ExIIO102 MK. Passport. PASHK.425119.114 PS. Http://m-kontakt.ru/produkt/datc_dlya_magn_konstr/docs/ex_io_102_mk_passport.pdf). The disadvantage of this detector is the lack of sensitivity when placing it on controlled objects having large gaps between the movable and stationary parts in the normal position (for example, large-sized hangar doors and workshops with gaps between the canvas and the aperture) due to the limited compensation of the gap to only part the radius of the case, when the extension of the part of the entire detector together with the support into the slot is not always possible due to the lack of places for its fastening through the holes of the support on this part of the element of the controlled object. The presence of a gap between the reed switch housing and the magnet in the normal state of the control object, in addition to the need to increase the strength and size of the magnet, also leads to a decrease in the tamper protection of the detector, due to the possibility of installing a thin tamper magnet in this gap. In addition, the detector has a high metal consumption due to the need to increase the wall thickness of the housing support with a reed switch, because when tightening the cable entry at the detector, already fastened with a fixed element of the controlled object (doorway) with hardware through the holes of the support, there is a bending moment acting on the flat part of the support (and even reduced in width by side cutouts), which also increases due to the raising of the housing by the height of the U-shaped shelves. This with insufficient wall thickness of the flat part of the support and the length leads to its deformation and destruction. The high value of the torque acting on the cable entry of the detector, especially explosion-proof, is due to the requirements of Appendix A of GOST 31610.0 for reliable sealing of the cable in the flameproof cable entry of the detector, for which it is necessary to apply a significant torque, which is for cable diameters of 6-22 mm from 28 up to 78 newton per meter. Also, making segment cuttings with a radius equal only to the diameter of the cylindrical body narrows the range of possible detector options, for example, with a different number of reed switches, with different diameters of the reed switch housings and magnets for different detector sensitivity, etc., when the diameter of the housing version may be less than the entered diameter of the notches and at the same time, the contact of the body and the arc of the recesses will be only at one point, which will weaken the fastening of the body, and the manufacture of a new support will be required.

The task to be solved by the magnetic-contact security detector declared as a utility model is to improve its technical characteristics and reduce the cost, including the cost of preparing the production. The technical result of the improvement of the security magnetic detector is to reduce its metal consumption and increase sensitivity with various options for using the detector.

The specified technical result is achieved by the fact that in the magnetic security detector, containing the housing in the form of a cylindrical cavity, plugged from one end, the cable entry is located on the other end, and a reed switch is located inside the cavity, the outer part of the housing is fastened with a support that has coaxial segment cutouts in contact with the housing, and the mounting plane with holes for mounting the housing on one of the elements of the controlled object in the zone of action of the magnet placed on another element of the controlled object, the support is made in a U-shaped section, and segment cuts are placed in the outer corner of its shelves. In addition, the inscribed diameter of the segment cut-outs of the support is equal to the smallest diameter of the housing in the variants of its execution, the U-shaped cross-section of the support has a different height profile due to beveling or asymmetric bevels of the support shelves, and the projection of the housing axis onto the mounting support plane does not pass through it, or is in contact with her.

The implementation of the entire U-shaped support, without separation into flat and U-shaped parts, increases the stiffness of the support and its ability to resist bending moment acting on it by the cylindrical housing of the detector reed switch with a normalized tightening of the cable entry, with a wall thickness less than that of the flat support , which reduces the metal consumption of the entire detector. The placement of coaxial notches in the corners of the U-shaped shelves of the support, in contrast to their placement on the upper part of the shelves of the prototype, allows you to take out most of the cylindrical housing of the detector outside the support (closer to the magnet) by values that can reach the radius of the housing and more, to bring the reed switch and the magnet closer to the object in which there are gaps in the normal state and which do not allow the initial contact of the magnet and reed cases and thereby reduce the requirements for the strength and mass of the magnet, by increasing the detector sensitivity by a given gap value, while maintaining the value removing the reed switch from the magnetic surface of the controlled object. In addition, contact between the reed switch and magnet cases in the normal state of the object is very important to increase the detector tamper properties, which exclude the intruder from installing a thin tamper magnet in the gap between the reed and magnet cases and forcing it to be held unauthorized when opening the door, which became possible due to the development of production of thin (from 0.5 mm) of magnets from rare-earth metals (neodymium-iron-boron and samarium-cobalt) of large coercive force, sufficient to activate a regular reed switch detector. Performing coaxial segment cutouts with a diameter inscribed in them equal to the smallest described diameter of the detector’s cylindrical housing allows one to use the same support for fastening it by welding with different casings, for example, 20-32 mm, at least at two points of contact, which reduces the cost of preparing the production of detector versions with different housing diameters, for example, with a different number and brand of reed switches or with different output signals, for example, equipped with additional electronic circuits for issuing address signals or unified current signals. The implementation of the U-shaped profile of the support at different heights, for example, due to beveling or making asymmetric chamfers of the shelves of the support, allows to reduce the metal consumption and weight of the support while maintaining its rigidity (while maintaining the effect of a rigid triangle), to improve the design of the entire detector, and to increase the convenience of mounting the support on the surface of the controlled object due to more free access to the holes of the support with a tool for fixing hardware. The execution of the support with the dimensions of the segment cutouts, in which the vertical projection of the axis of the housing does not pass through the flat mounting base of the support, where the holes are located, or in contact with it, provides the greatest removal of the detector’s cylindrical housing from the edge of the support by its radius and more, thereby reducing weight the entire detector by reducing the strength and mass of the magnet when mounting the detector on the surfaces of the monitored object with large gaps and increase the likelihood of contact between the reed housing and the magnet in the normal state of the object, as well as more remotely and securely mount the reed housing from the edge of the element of the controlled object, without loosening it or destruction.

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

In FIG. 1 is a top view of the detector reed switch block, FIG. 2 view A of FIG. 1, in FIG. 3, view B of FIG. 1, in FIG. Figure 4 shows the possible placement of the reed switch block and the detector magnet block on a controlled object.

The magnetic contact security detector consists of a reed switch block, for example, in the design of RF patent PM No. 190447, and a magnet block. The reed switch unit contains a cylindrical housing 1, one end of which is dumbly rolled, and on the other end there is a cable entry 2 screwed into the internal cavity of the housing 1 by a thread with a normalized tightening torque. Inside the housing 1 there is a printed circuit board 3 on which the reed switch 4 is placed and pads or terminals 5 for electrical connection of the signal cable wires (not shown in the drawing), inserted into the housing 1 through the cable entry 2 and sealed by it. The housing 1 is fastened with a support 6, which has holes 7 for mounting the detector on a fixed element 8 of the controlled object (doorway), for example, bolts (not shown in the drawing). On another movable element 9 of the monitored object (door leaf), a detector magnet block is mounted, which contains a magnet 10 mounted in a cylindrical housing 11, fastened with the same support 6 as the housing 1 of the detector reed switch block. The support 6, made, for example, by means of laser cutting and bending of sheet metal, all has a U-shaped cross-section with different heights h of its shelves, made, for example, by beveling or making asymmetric bevels of the shelves of the support, which decreases to the inner edge of the mounting plane of the support m and holes 7, while maintaining the effect of a rigid triangle, sufficient to withstand forces without deformation from the torque applied to the cable entry 2 when it is installed in the housing 1. In the outer, in relation to the edge of the support m, the upper corners of the shelves of the support 6 are made two coaxial segment cuttings 12 of radius r, advising the smallest possible radius R of buildings 1 and 11, and the centers of rotation of the smallest radius R (axis 13 of buildings 1 and 11) and, accordingly, of radius r are located so that the projection of their axes 13 extend outside the mounting base of the support 6 where the holes 7 are located, or in contact with it. The external generatrices of the cylindrical bodies 1 and 11 are in contact with the by the number of segment cuts 12 at least at two points k and fastened to the surfaces of cuts 12 in sections of length n, for example, by welding.

The magnetic security detector works as follows. If necessary, change the detector design for a specific operation object that requires changing the diameters of the housings 1 and 11, for example, for installing several reed switches 4 with different electrical and magnetic characteristics and sizes, supplying the reed switch 4 with electronic circuits with other output signals, for example, address , or changes in the brand and diameters of the magnet 10, weld the housing 1 and 11 with different diameters to the same support 6. Since the radius r of the segment cutouts 12 is always smaller than the radii R of the shells 1 and 11, then the shells 1 and 11 are in contact with the surface of the cuttings 12 at two points k, forming a further slowly increasing gap between them, part of which is sufficient for high-quality welding of the shells 1 and 11 with segment cuts 12, for example, using a filler wire or a floating electrode, in areas of size n sufficient to securely fasten the housings 1 and 11 with the support 6 and withstand without deformation efforts when tightening the cable entry 2. When installing the reed switch unit and the detector magnet unit on the fixed 8 and moving 9 magnetically conductive (steel) elements of the controlled object, which in the normal (closed) state have a gap s, are strengthened, for example, with bolts, the supports 6 of the reed housing 1 and the magnet body 11, so that the outer generators of these cases are in contact with each other or had a very small gap (less than 0.5 mm), sufficient to compensate for the temperature ature extensions of elements 8 and 9. Due to the fact that the vertical projections of the axes 13 of the buildings 1 and 11 do not pass through the base of the support 6, where the holes 7 are, or come in contact with it, the buildings 1 and 11 are more securely attached to the elements 8 and 9 of the controlled an object without destroying or weakening their edges. They are electrically connected to the reed switch 4 through the terminals 5 of the core of the alarm cable (not shown in the drawing) passing through the cable entry 2 and connected to the guard (not shown in the drawing). The alarm cable (not shown) is sealed according to its waist insulation with an elastic gland (not shown) of the cable entry 2, by applying a normalized tightening torque to the components (not shown) of the cable entry 2 and the housing 1, in order to ensure tightness and explosion-proof internal cavity of the housing 1. The U-shaped cross-section of the support 6 receives torque from the housing 1 and, due to its rigidity, does not deform and does not change the initial clearance between the buildings 1 and 11 with a smaller wall thickness than that of the prototype. When the position of the movable 9 element of the controlled object (opening the door) changes, the magnet 10 is removed from the reed switch 4, which changes its state and is perceived by the security control panel (not shown, for example, by changing the magnitude of the current flowing through the reed switch 4.

Claims (6)

1. A magnetic security detector, comprising a housing in the form of a cylindrical cavity plugged from one end, a cable entry is placed on the other end, and a reed switch is located inside the cavity, the outer part of the housing is fastened to a support that has coaxial segment cutouts in contact with the housing, and an assembly plane with holes for attaching the housing to one of the elements of the controlled object in the area of the magnet located on another element of the controlled object, characterized in that the support is made in a U-shaped section, and segment cuts are placed in the outer corner of its shelves. 2. The magnetic security detector according to claim 1, characterized in that the inscribed diameter of the segment cut-outs of the support is equal to the smallest diameter of the housing in its variants. 3. The magnetic security contact detector according to claim 1, characterized in that the U-shaped cross-section of the support has a different-height profile. 4. The magnetic security contact detector according to claim 3, characterized in that the uneven profile of the support is formed due to the linear bevel of the support shelves. 5. Magnetic contact security detector according to claim 3, characterized in that the multi-height profile of the support is formed by performing asymmetric chamfers on the support shelves. 6. The magnetic security detector according to claim 1, characterized in that the projection of the housing axis onto the mounting plane of the support does not pass through or in contact with it.

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