RU198308U1 - Single-unit magnetic contact detector - Google Patents

Abstract

The single-block magnetic contact detector belongs to the field of burglar alarm, is designed to generate an electrical alarm in security and fire alarm systems and can be used to control the position of moving magnetically active parts of structures and mechanisms during various technological processes, including in explosive zones of 1 and 2 classes in accordance with GOST IEC IEC 60079-10-1-2011 In a single-block magnetic contact detector containing a permanent magnet, a cylindrical housing with a cable gland, fixed on a mounting support, inside which a reed switch is located, it is equipped with a second cylindrical housing fixed on a mounting support parallel to the cylindrical housing with a reed switch containing a permanent magnet, there is a gap between the cylindrical bodies, and the reed switch axis is parallel to the generatrix of its cylindrical body. In addition, the cylindrical bodies are made of pipes, the ends of which are seamed. ends to the terminals. The technical result of the improvement of the single-block magnetic contact detector is to reduce its metal consumption. 1 h. p. f-ly, 1 fig.

Description

The magnetic contact detector, declared as a utility model, belongs to the field of burglar alarm, is designed to generate an electrical alarm in fire alarm systems, and can be used to control the position of moving magnetically active parts of structures and mechanisms when performing various technological processes, including explosive ones zones of classes 1 and 2 according to GOST IEC IEC 60079-10-1-2011.

A one-block magnetocontact detector is known, containing a permanent magnet in the magnetic field of which one or several reed switches are installed, moreover, parallel to the axis of the magnet, and from one of the poles of the magnet there is access to an object from magnetically active material. (Patent for utility model of the Russian Federation No. 145266 "Device for monitoring the movement of an object from magnetic material" publ. 08/10/2014). A disadvantage of the known single-unit magnetocontact detector is the lack of a housing protecting the detector from aggressive environmental influences and, as a result, its narrow scope. In addition, the location of the axes of the reed switches parallel to the axis of the magnet requires very precise positioning of the reed switches, due to the small range of changes in the width of the magnetic field along the supply of an object from magnetic material to its pole.

A single-unit magnetocontact detector is known, comprising a permanent magnet and a reed switch, placed in a plastic case and filled with a compound, the magnet and reed axes being parallel. The detector responds to the approach of the magnetically active surface of the object perpendicular to the axis of the reed switch. (Patent for the invention of the Russian Federation No. 2253901 "Security alarm device" publ. 06/10/2005). A disadvantage of the known single-unit magnetocontact detector is the low strength of the plastic case and the absence of a removable cable entry, which does not allow it to be used in explosive atmospheres with various types of cable routing (in pipes, metal hoses, etc.) from the detector to the alarm panels.

A single-unit magnetocontact detector is known, comprising a cylindrical housing with a cable entry, mounted on a mounting support, within which a reed switch and a permanent magnet are placed at a certain distance. The cylindrical body is made of non-magnetic steel and consists of a blind cylindrical cavity with a thick bottom, in which, by means of milling operations, recesses are made to place a permanent magnet and a reed switch in them at a certain distance, and a threaded cover screwed into the cylindrical cavity, fastened with a replaceable cable entry. The axes of the reed switch and the magnet are mutually perpendicular. The housing with a threaded cover form an explosion-proof enclosure, which, coupled with an explosion-proof cable entry, allows the detector to be used in explosive atmospheres. The detector responds to the approach of the magnetically active surface of the object perpendicular to the axis of the reed switch located at the end of the cylindrical body. There is an embodiment of the detector in which the permanent magnet and the reed switch are separated by a groove in the bottom of the housing perpendicular to its generatrix and in which the detector reacts to finding a magnetically active surface located in this groove. (Patent for utility model of the Russian Federation No. 124044 “Magnetic contact detector (options)” published on January 10, 2013).

A disadvantage of the known single-unit magnetocontact detector is the high metal consumption of its manufacture, due to the large diameter of the cylindrical body, which is caused by the simultaneous placement of a permanent magnet and a reed switch on the bottom of the case, the axis of which is parallel to the bottom, as well as a certain distance between the reed switch and the magnet at which the reed switch is absent the magnetically active surface must be located in the magnet field and be activated, and when the magnetically active surface approaches the detector end, it must open due to insufficient field of the permanent magnet distorted by the magnetically active surface of the control object. An increase in the detector's metal consumption is also facilitated by the large thickness of the end face of the cylindrical body, which is necessary to place recesses under it for a reed switch and magnet.

The closest in purpose, technical nature and the achieved result to the inventive detector is a magnetic contact detector single-block, model ЕХИО102-1 В-03, containing a cylindrical housing with cable entry, mounted on a mounting support, inside of which a reed switch and a permanent reed switch are located magnet. The cylindrical body is made by turning from a rod of non-magnetic steel and consists of a blind cylindrical cavity with a thick bottom, in which, by means of milling operations, recesses are made to place a permanent magnet and a reed switch in them at a certain distance from each other, and a threaded cover screwed into the cylindrical cavity fastened with replaceable cable entry. The axes of the reed switch and the magnet are mutually perpendicular. The housing with a threaded cover and cable entry form an explosion-proof enclosure, which allows the detector to be used in explosive atmospheres. The detector responds to the approach of the magnetically active surface of the object perpendicular to the axis of the reed switch located at the end of the cylindrical body. (DETECTIVE SECURITY-FIRE POINT MAGNETIC CONTACT EXPLOSION-PROTECTED EXIO102-1 V. Operating Instructions 908.2726.00.000 РЭ https://npk-etalon.ru/wp-content/uploads/2019/05/RE_10102_05.19.pdf.

A disadvantage of the known single-unit magnetocontact detector is the high metal consumption of its manufacture, due to the large diameter (56 mm) of the cylindrical body, which is caused by the simultaneous placement of a permanent magnet and a reed switch on the bottom of the case, the axis of which is parallel to the bottom, as well as a certain distance between the reed switch and magnet where the reed switch in the absence of a magnetically active surface must be located in the magnet field and activated, and when the magnetically active surface approaches the detector end, it should open due to the insufficient magnitude of the permanent magnet field distorted by the magnetically active surface of the control object. An increase in the detector's metal consumption is also facilitated by the large thickness of the end face of the cylindrical body, which is necessary to place recesses under it for a reed switch and a magnet, as well as an internal ground stud of an explosion-proof device.

The problem solved by the claimed as a useful model of a magnetic contact detector single-block, is to reduce the cost of its manufacture.

The technical result of improving the detector magnetic contact single-unit is to reduce its metal consumption.

The specified technical result is achieved by the fact that in the magnetic contact detector a single-block containing a permanent magnet, a cylindrical housing with a cable entry, mounted on a mounting support, inside which a reed switch is located, it is equipped with a second cylindrical housing, mounted on a mounting support parallel to a cylindrical housing with a reed switch, in which is located permanent magnet, there is a gap between the cylindrical bodies, and the axis of the reed switch is parallel to its cylindrical body. In addition, the cylindrical body is made of pipes, the ends of which are rolled.

The execution of the casing of the reed switch and the magnet cylindrical allows you to get the smallest cross-sectional area and, accordingly, the weight of the cases with the same dimensions of the part in comparison with its other forms. Placing a permanent magnet in another cylindrical body and arranging a reed-shaped cylindrical in shape in its cylindrical body parallel to its generatrix allows to reduce the diameter and, accordingly, the cross-sectional area of the cylindrical body with the reed, and to refuse to make a large end to the body, which reduces the intensity and laboriousness of the detector. Providing the detector with a second cylindrical case with a diameter only sufficient to accommodate a permanent magnet in it and fixing it on the same mounting support allows you to create a detector in the form of a single monoblock design as a prototype with a given distance between the reed switch and the magnet, as well as to reduce the metal consumption of the entire detector compared with the option of placing the reed switch and magnet in one cylindrical case of a larger diameter and with a thick bottom, to avoid milling work on the installation of the reed switch and magnet spaced apart from one another as in the prototype. In addition, the placement of a permanent magnet in its cylindrical housing allows for individual adjustment of the detector recovery / response distances in accordance with GOST R 54832-2011 for variations in the sensitivity of the reed switches and the strength of the magnets by quickly changing the location of the case with the magnet relative to the case with the reed switch during the control assembly, as well as quickly replacing reed switches and magnets to others with different dimensions and magnetoelectric characteristics The presence of a gap between the cylindrical cases of the reed switch and the magnet, in addition to providing a predetermined distance between the magnet and the reed switch without increasing the diameters of the cases, allows you to expand the detector's functionality due to the gap formed between these cases and control the presence of an object both when approaching it to the end face of the detector, and when the object passes through the gap between the buildings. The implementation of the cylindrical shells of the reed switch and the permanent magnet from the pipes reduces the complexity of the detector manufacturing, and the execution of their ends sealed also reduces the complexity of manufacturing the detector due to the absence of the need to manufacture the bottom and fasten it to the cylindrical body.

An example of a possible implementation of the inventive magnetic single-block detector is illustrated in the drawing.

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

The magnetic contact detector single-block contains the mounting support 1 in the form of a corner with holes 2 for mounting the detector on the control object. With the mounting support 1 is fastened, for example, by welding, a cylindrical body 3 made of tubular non-magnetic steel. The working end 4 of the housing 3 is rolled, a cable entry 5 is placed on its other end. The housing 3 and the cable entry 5 can be explosion-proof in accordance with the requirements of the standard GOST R IEC 60079.1. A reed switch 6 is located inside the housing 3, the axis of which is parallel to the axis of the housing 1. The reed switch 6 can be mounted on a printed circuit board with terminal blocks for connecting the wires of the alarm cable (not shown in the drawing), for example, in the design of the RF patent for utility model No. 190447. The internal diameter of the housing 3 is selected in such a way that reed switches of 6 different diameters and lengths can be installed in it, providing the entire range of magnetoelectric characteristics of the detectors in this series, of a particular manufacturer. Parallel to the housing 3 is fastened, for example, by welding, with the mounting support 1, the second cylindrical housing 7, also made of a non-magnetic steel pipe billet, one end of which is rolled, and the second end is sealed, for example, by a threaded plug, a press fit of the bottom, a chemically resistant compound, conductive paint (not shown in the drawing). Inside the housing 7 there is a disk permanent magnet 8, the axis of which is perpendicular to the axis of the reed switch 6 and the axes of the housings 3 and 7. The inner space of the housing 7 is filled with a compound 9, which fixes the position of the magnet 8. The diameter and wall thickness of the tubular housing 7 is chosen so that it magnets 8 of the entire series of detectors were placed and it was possible to move them slightly inside the housing 7 to adjust the sensitivity of the detector. The walls of the housings 3 and 7 do not touch each other forming a gap of size L, which can include a magnetically active (steel) controlled object 10 in the form of a plate with a thickness less than the gap L.Ha the drawing also shows the control object 11 in the form of a magnetically active part that can approach (move ) to the sealed ends of buildings 3 and 7.

The magnetic contact detector is single-unit assembled and put into operation as follows. In the case 3 welded to the mounting support 1, a reed switch 6 of a particular brand is installed and fixed there, for example, by a compound (not shown in the drawing). Next, a permanent magnet 8 is installed in the housing 7 not welded to the mounting support 1 and its position in it is fixed with technological devices, for example, silicone gaskets (not shown in the drawing). Apply the housing 7 to the mounting support 1 and check the operability of the entire detector by determining the required recovery / response distances according to GOST R 54832-2011 when moving control samples 10 and 11 of the control object. In the case of negative results, usually caused by a scatter in the characteristics of the reed switch 6 and magnet 7, the adjustment is made by changing the position of the magnet 8 in the housing 7 and / or by changing the clearance L between the buildings 3 and 7. Having achieved positive control results, fix the position of the housing 7 on the mounting support 1 and weld it to the support 1. Next, fill the interior of the housing 7 with a permanent magnet 8 and technological devices, for example, silicone gaskets (not shown in the drawing) with compound 9, thereby fixing the position of the magnet 8 relative to the reed switch 6, which ensures the detector’s operability. At the place of operation of the detector, it is fixed on the fixed part of the monitoring object with hardware (not shown in the drawing) through the holes 2 of the mounting support 1, so that the movable controlled objects 10 or 11 move within the normalized characteristics of a particular detector. Connect the wires of the alarm cable (not shown in the drawing) to the terminals of the reed switch 6 and control the movement of objects 10 or 11 according to the electrical switching of the reed switch 6.

Claims (2)

1. The magnetic contact detector is one-block, containing a permanent magnet, a cylindrical housing with a cable entry, mounted on a mounting support, inside of which there is a reed switch, characterized in that it is equipped with a second cylindrical housing mounted on a mounting support parallel to a cylindrical housing with a reed switch, in which a permanent a magnet, there is a gap between the cylindrical bodies, and the axis of the reed switch is parallel to its cylindrical body. 2. The magnetic contact detector is one-block according to claim 1, characterized in that the cylindrical bodies are made of pipes, the ends of which are rolled.

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