SU869087A1 - Device for shielding and sealing door aperture mainly of radio electronic cabinets - Google Patents

Description

The invention relates to electronics, in particular to a technique for producing a continuous closed screen for solving particular problems of electromagnetic compatibility of electronic devices in the electronic and radio industry ⁵ , in particular for creating shielded structures, cameras, containers, airtight openings in them, for shielding enclosures of electronic blocks .

A device for shielding joints of elements of radioprotective volumes, in particular cases, cabinets, comprising plastic conductive contact elements located between the articulated surfaces P] is known.

However, the known device has the disadvantage that it does not provide reliable sealing and shielding for a wide range of radiation.

The closest technical solution to the proposed one is a device for shielding and sealing doorways, mainly electronic cabinets, containing a magnetic circuit fixed to the mating surface of the cabinet door along its perimeter [23.

However, the disadvantage of the device is the difficulty of achieving a significant contact surface required to create a continuous closed screen with high electrical and magnetic conductivity, the presence of a significant transition resistance of the connection area, therefore, a decrease in the efficiency of shielding objects with such seals in the long-wave part of the frequency range (by hours ~ less 1 MHz).

The purpose of the invention is to increase the reliability of shielding and sealing3 and the expansion of functionality.

This goal is achieved due to the fact that in the known device for shielding and sealing doorways, mainly electronic cabinets, containing a magnetic circuit, 'mounted on the mating surface of the cabinet door along its perimeter, the elements of the magnetic circuit are placed with the possibility of the formation of a cavity between them, which is filled with ferromagnetic fluid .

In addition, some of the elements of the magnetic circuit are made with beveled walls from the side of the cavity.

In FIG. 1 shows a device for shielding and sealing doorways, mainly electronic cabinets, in the open position of the door; in FIG. 2 - the same, in the closed position of the door.

A device for shielding and sealing doorways, mainly electronic cabinets, contains a magnetic core located around the door 1 on a mating surface on a strip 2 of non-magnetic conductive material, made in the form of a set of permanent magnets 3, which are fastened by spring elements 4 close to the pole piece 5, which, in turn, is fixed with a screw 6 to door 1, and pole pieces 7, which are welded to door 1 at its end. Pole lugs 7 are made with beveled walls; pole pieces 7, part of the door leaf 1, pole pieces 5 and permanent 'magnets 3, forming a magnetic circuit, create a strong magnetic field in the cavity between the pole pieces 7 and permanent magnets 3. The ferromagnetic fluid 8, filling the specified cavity and thereby creating a continuous magnetic circuit, is held by the field of the permanent magnet 3, and the level of the ferromagnetic fluid 8 exceeds the level of the pole piece 7, due to the characteristic distribution of magnetic field lines determined by the configuration of the pole piece 7.

When the door 1 is closed, the presence of ferromagnetic fluid 8 on the surface of the pole piece 7 facing the articulated surface 9 of the cabinet compensates for the technological non-parallelism of the articulated surfaces 9 of the door 1 and creates their continuous electrical and magnetic contacts. Here, a closed magnetic circuit consisting of a pole piece 7, a part of the door leaf 1, a pole piece 5, a permanent magnet 3 and a ferromagnetic fluid 8 will include a part of the soft magnetic metal surface 9. The presence of a closed magnetic field in the magnetic circuit newly created when closing the door I determines the appearance of a holding force normal to the surface 9. The magnitude of this force is determined by the magnitude of the force exerted by a series of permanent magnets 3, the characteristics of the ferrofluid 8, the structural dimensions of the door 1. With the appropriate selection of these parameters, the developed pressing force is overcome by the muscular effort of the operator when the door is opened., In this case, the created magnetic circuit breaks and the device goes into initial state (Fig. 1).

When applying the invention, the goal is realized by one device, which extends the frequency range of various structures and cameras to 10 kHz with an attenuation of electromagnetic energy of 100 dB.

The wide-width effect of the device is achieved on the one hand by a significant value of the specific volume conductivity, and on the other (the low-frequency part of the range) by large values of the relative magnetic permeability and magnetic losses of the ferromagnetic fluid, as a seal material, and also (which is especially important), reliable by electrical and magnetic and mechanical contacts between the articulated elements and the seal material due to the large contact area, which determines the receipt of a sealed electronic magnetically and magnetically enclosed volume.

Claims (2)

(54) DEVICE FOR SCREENING AND SEALING DEPTH GRAINS, PREPARATELY RADIO ELECTRONIC CABINETS. , containers, sealed openings in them, for shielding the housings of electronic units. A device for shielding joints of elements of radioprotective volumes, in particular cases, cabinets, is known, which contains plastic conductive contact elements placed between the articulated surfaces D 3. However, the known device has the disadvantage that it does not provide reliable sealing and shielding for wide radiation range. The closest technical solution to the present invention is a device for shielding and sealing door openings, mainly electronic cabinets, containing a magnetic conductor fixed on the adjacent surface of the cabinet door along its perimeter t23. However, the drawback of the device is the difficulty to achieve a significant contact surface, the required dp of creating a continuous closed screen with high electrical and magnetic conductivities, the presence of a significant transition. the resistance of the connection area, therefore, the decrease in the effectiveness of shielding objects with such seals in the long wavelength part of the frequency range (at frequencies less than 1 MHz). The purpose of the invention is to increase the reliability of shielding and sealing of FPIs and expanding functional capabilities. This goal is achieved due to the fact that in the known device for shielding and sealing door openings, mainly electronic cabinets, containing a magnetic core fixed on the mating surface of the cabinet door along its perimeter, the magnetic core elements are arranged to form a cavity between them that is filled with a ferromagnetic fluid. In addition, one of the elements of the magnet duct is made with beveled walls from the side of the cavity. FIG. 1 shows a device for shielding and sealing door openings, mainly electronic cabinets, in the open position of the door; in fig. 2 - the same, in the closed position of the door. The device for shielding and metalizing doorways, mainly electronic cabinets, comprises a magnetic conduit arranged around the perimeter of door 1 on the mating surface on the strip 2 of non-conductive material, made in the form of a set of permanent magnets 3, which are fastened by spring elements 4 close to the pole tip 5, which, in turn, is fixed with screw 6 to door 1, and pole pieces 7, which are welded to door 1 along its face. Pole tips 7 are made with beveled walls; pole pieces 7, part of the door leaf 1, pole tips 5 and permanent magnets 3 forming the magnetic core create a strong magnetic field in the cavity between the pole tips 7 and the permanent magnets 3. The ferromagnetic fluid 8, filling the indicated cavity and thus creating a continuous magnetic core, is held by the constant magnet 3 field, and the ferromagnetic fluid level 8 exceeds the level of the pole tip 7, due to the characteristic distribution of magnetic field lines determined by the configuration of the pole tip 7. With the door closed 1 the presence of ferromagnetic fluid 8 on the surface of the pole tip 7 facing the articulated surface 9 of the cabinet compensates for technological non-parallelism the fenced surfaces 9 of the door 1 and creates their continuous electrical and magnetic contacts. Here, a closed magnetic circuit consisting of a pole piece 7, a part of the door leaf 1, a pole piece 5, a permanent magnet 3 and ferromagnetic fluid 8 will also include a part of a metallic magnetically soft surface 9. The presence of a closed magnetic field in the newly created door when it is closed I magnetic core determines the presence of a holding force normal to the surface 9. The magnitude of this force is determined by the magnitude of the force developed by a number of permanent magnets 3, ferrofluid characteristics 8, K n-structural dimensions of door 1. With an appropriate selection of these parameters, the developing clamping force is overcome by the operator's interrupting force when opening the door. At the same time, the created magnetic circuit is broken and the device returns to its original state (Fig. O. When applying the invention, the goal is achieved with a single device, which expands the frequency range of various structures and cameras up to 10 kHz with an attenuation value of electromagnetic energy of 100 dB. Effect device widebanding is achieved on the one hand by a significant amount of specific volume conductivity, and on the other (low frequency part of the range) by large values of relative magnetic permeability and magnetic losses of ferromagnetic fluid as a sealing material, as well as (most importantly) reliable electrical, magnetic and mechanical contacts between the articulated elements and the sealing material due to the large contact area, which determines the formation of a sealed electrically and magnetically closed volume. Claim 1. Device for shielding and sealing doorways, mainly electronic cabinets, containing a magnetic core attached to the mating surface of the cabinet door around its perimeter, which is so tied that, in order to ensure shielding and sealing reliability and functionality, the elements of the magnetic circuit are placed with the possibility of the formation of a cavity between them, which is filled with ferromagnetic liquid. 2. The device according to claim 1, of which is one of the elements of a magnetic conductor plate with oblique walls from the side of the cavity. Sources of information taken into account in the examination 1. US patent 3448232, 219-10.55, 1969. 2. US patent N 3260788, 219-10.55, 1969 (prototype). f 3