RU175603U1 - Collapsible magnetic screen - Google Patents

Abstract

The invention relates to the shielding of magnetically sensitive devices and devices housed in metal cases. The essence of the invention: a magnetic screen made of soft magnetic material contains upper and lower parts covering the device’s body, while the upper and lower parts of the magnetic screen are made in the form of hollow cylinders without lower and upper bases, respectively, and the upper part of the magnetic screen is made with a bend installed with a tight fit between the inner surface of the upper section the lower part of the magnetic screen in a groove in the upper part of the housing provided on the height and thickness of the top bend portion of the magnetic screen, and as the magnetic material used permalloy.Dostigaemy technical result is to increase operational reliability. 1 ill.

Description

The utility model relates to shielding magnetically sensitive instruments and devices housed in metal cases.

Magnetosensitive devices with aluminum or duralumin cases require additional shielding with a magnetic screen made of soft magnetic material. In practice, permalloy is usually used with a thickness of 0.5-0.7 mm, and a screen of two parts is used, of which a smaller part is put on a large one with an overlap of about 20 mm to provide low resistance to the magnetic field at the junction of the parts to be connected by soldering , which provides mechanical strength during vibration and shock.

Since devices, in most cases, require adjustment before use, screens of magnetically soft material have to be soldered and subsequently restored, which is accompanied by heating of the magnetic screen, which worsens its magnetic properties.

Known housing for electronic devices [RU 2295207, C1, H05K 5/06, 03/10/2007], containing components in the form of a hollow spheroidal closed surface with a radius and center, inside of which there are units and blocks in the form of a parallelepiped, and having shielding properties for due to the use of multilayer screens, from a combination of magnetic and non-magnetic layers with low electrical resistivity, with a conductive coating, the presence of several surface interfaces in the screens, on each of which reflection a magnetic wave having isotropic radiation and scattering of incident electromagnetic waves due to surface curvature and having a circular radiation pattern in any plane, the surfaces of the components being made in the form of a spheroid of variable radius and variable center with smooth conjugation of the components, in a shape close to parallelepiped, and form an electrical connector: internal - socket part, and external - male part, the component parts are made with the possibility of automatic fixation the inner surface of the subsequent layer of the outer surface of the previous layer, forming an electrical contact, the profile dimensions of which correspond to each other, in each layer the components at the ends are connected along an inclined plane, forming a unipolar electrical connector, each layer relative to the previous layer is perpendicular to the interface line, and the last layer is fixed with screws, the connection axis of which on mutually opposite sides are perpendicular to the interface line of the last of its layer by means of threaded bushings on the first layer through the other layers.

The disadvantage of this device is its relatively high complexity.

The closest in technical essence to the proposed one is the magnetic field shield [RU 2425435, C2, H01L 39/24, 07/27/2011], made in the form of a shielding coating deposited on the surface of the lid and base of the housing, the coating being made of high-temperature superconducting (HTSC) the material contains windows at the exit points of the case leads, and the contact between the base and the case cover is superconducting with the characteristics of a solid HTSC coating.

The disadvantage of this device is its relatively low operational reliability. Indeed, since devices, in most cases, require adjustment before use, the integrity of the screen in the form of a coating made of high-temperature superconducting (HTSC) material has to be violated and its subsequent restoration is carried out, which is a complex procedure and is accompanied by a deterioration in its magnetic properties.

The problem that is solved in the proposed utility model is to create a magnetic screen with high operational reliability.

The required technical result is to increase operational reliability.

The problem is solved, and the required technical result is achieved by the fact that the magnetic screen made of soft magnetic material contains upper and lower parts covering the device, according to a utility model, the upper and lower parts of the magnetic screen are made in the form of hollow cylinders without lower and upper bases, respectively and the upper part of the magnetic screen is made with a bend installed with a tight fit between the inner surface of the upper section of the lower part of the magnetic screen in the groove to the top part of the device’s body, made to the height and thickness of the bend of the upper part of the magnetic screen, and permalloy is used as a soft magnetic material.

The drawing shows the design of a collapsible magnetic screen together with the instrument housing covered by it.

The collapsible magnetic screen contains the upper 1 and lower 2 parts covering the housing 3 of the device with a groove 4.

The magnetic screen is made of soft magnetic material, its upper part 1 is made with a bend installed with a tight fit between the inner surfaces of the upper portion of the lower part 2 of the magnetic screen in the groove 4 in the upper part of the device body 3, made to the height and thickness of the bend of the upper part 1 of the magnetic screen .

Permalloy was used as soft magnetic material, and in the upper part 1 of the magnetic screen, holes 5 were made for fasteners intended for its fastening to the device body 3.

In the particular, most common case, the upper 1 and lower 2 parts of the magnetic screen are made in the form of a hollow cylinder without lower and upper bases, respectively, which corresponds to the cylindrical shape of the housing.

A magnetic screen is used as follows.

The lower 2 most of the collapsible magnetic screen has the dimensions of the height of the housing 3 of the device and the shape of the housing without regard to the upper surface. The upper part 1 of the collapsible magnetic screen is made in the form of the upper part of the casing 3 of the device, made usually of aluminum, and has a height (bend) of at least 20 mm in the case of a cylindrical body, and an outer diameter equal to the inner diameter of the lower part 2 of the collapsible magnetic screen minus clearance for a snug fit. In the upper part of the housing 3 of the device, a groove 4 is provided, equal to the height of the upper part of the collapsible magnetic screen, and a depth equal to its thickness. During assembly, the upper part 1 of the collapsible magnetic screen is inserted into the groove 4 of the device body 3 and is attracted to the aluminum case by at least 4 screws along the generatrix of the flat part, for which holes 5 are used. Due to the tight connection of all parts of the collapsible magnetic screen, low magnetic resistance is provided at the junction of the upper 1 and lower 2 parts and the mechanical strength of the structure. At the same time, when assembling and disassembling the magnetic screen, there is no need to break any inseparable connections and solders.

Thus, the proposed design of the magnetic screen achieves the required technical result, which consists in increasing its operational reliability.

Claims (1)

A magnetic screen made of soft magnetic material containing the upper and lower parts covering the housing of the device, characterized in that the upper and lower parts of the magnetic screen are made in the form of hollow cylinders without lower and upper bases, respectively, and the upper part of the magnetic screen is made with a bend installed with a tight fit between the inner surface of the upper portion of the lower part of the magnetic screen in the groove in the upper part of the device body, made to the height and thickness of the bend of the upper part of the magnetic th screen, moreover, as permagnet material use permalloy.

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