RU2569166C1 - Method of mounting electromagnetic wave absorber - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: method provides mechanical mounting of pyramidal containers of absorbers to the working surfaces of anechoic chambers and shielded facilities. The cover of the pyramidal container consists of two parts connected to each other to form a two-dimensional mounting point. The primary part of the cover has an inner cavity in the form of a groove having the shape of interconnected two squares with sides equal to "a" and "b", and the secondary part of the cover is a T-shaped two-level insert with a cylindrical base of the first level, having an inner centre hole for a screw element for mounting the insert to the working surfaces. The second level of the insert is in the form of a square washer with sides "c", the dimensions of which satisfy the inequality a<c<b. Such dimensions enable to form an inner lock which enables to mount a pyramidal absorber.

EFFECT: simple procedure of replacing a pyramidal absorber.

2 cl, 2 dwg

Description

The invention proposed by the authors relates to the field of antenna technology and can be used when equipping anechoic chambers and shielded rooms (hereinafter only BEC) with pyramidal or combined (hybrid) absorbers of electromagnetic waves (SEW).

When creating multifunctional universal BECs of high quality, as a rule, wide-range sew-wave sewer designs are used, which have mainly a pyramidal shape or combined absorbers, consisting of ferrite radio-absorbing plates, on which pyramidal matching elements are also fixed on top.

Pyramidal sewers are known to be made using elastic polyurethane foam with carbon filler, which are fixed on the working surfaces of BEC using adhesive compositions (Mitsmakher M.Yu., Torganov VA, Anechoic chambers Microwave, M., Radio and communications, 1982 )

Combined SEWs with a ferrite base are assembled in a similar way, where ferrite plates are glued to dielectric panels, and then matching pyramidal absorbers are installed using glue on the ferrite plates. At the end of the adhesive work, dielectric panels with combined PEV are mounted to the BEC working surfaces (Frankonia. 2014 advertising booklet).

With this adhesive method of attaching absorbers, adhesive compositions are used, which during the application, curing and operation of PEV in BEC emit harmful and toxic substances that do not ensure sanitary and environmental standards.

To eliminate the negative effects of dust, moisture, preserving the radio technical characteristics and increasing the life of the equipment, they are used that have hollow dielectric pyramidal containers that are filled with radar absorbing materials.

In RF patent No. 2340054, a method is provided for securing a container SEW using so-called textile fasteners (“Velcro”), the main parts of which are glued to the surfaces of the BEC and to the pyramidal elements. The advantages of this installation method include the simplicity and low cost of technological work. However, this fastening is not reliable, especially when facing the ceiling surfaces of rooms and, as a result, the lack of guarantees for long-term operation in BEC.

The closest set of features to the claimed technical solution is the mechanical method of attaching container SEW to the working surfaces of anechoic chambers and shielded rooms, described in the patent for the invention of the Russian Federation No. 2359374, which was adopted as a prototype. On the outside of the cover of the prototype container there are L-shaped protrusions, thanks to which the pyramidal elements of the sewage are mounted on the guide steel profiles (rails), fixed by welding to the working surfaces of the BEC.

The disadvantages of the method of attachment, taken as a prototype, include the great complexity of installation and facing works, especially in places where the walls and ceiling, walls and floors are mated, in the corners of the room, as well as the inability to repair and replace failed individual pyramidal elements, since This requires disassembling and dismantling a large number of serviceable (functioning) absorbers, which negatively affects the strength characteristics of the L-shaped protrusions. In addition, the presence of protrusions on the lid of the container eliminates the possibility of using this absorber design in composite combined sew, when pyramidal elements are installed on the ferrite plates for matching.

The task was to develop such a mechanical method of fastening the pyramidal elements, which would greatly simplify installation work when facing the BEC, would allow only the element that needs to be replaced when replacing the pyramidal element, and could also be used in the future when mounting the combined PEV, fixing on a dielectric plate, both a ferrite plate and a matching pyramidal element are simultaneously.

The technical result is achieved by the fact that the lid of the pyramidal container consists of two parts that are connected to each other, forming a two-axis attachment unit in the aggregate, while the main part of the lid is made with an internal cavity in the form of a groove having the form of two squares connected to each other with sides equal to " a "and" b ", and the auxiliary part of the lid is a T-shaped two-level insert with a cylindrical base of the first level, having an inner Central hole for the screw element fixing the liner to the working surfaces, while the second level of the liner is made in the form of a square washer with sides "c", the dimensions of which correspond to the formula "a" <"c" <"b", which allows after connecting the liner to the main part of the lid and displacement the pyramidal absorber together with the lid in this groove relative to the insert at a distance "c" to form an internal lock, due to which the pyramidal absorber is fixed.

The technical result is also achieved by the fact that the cylindrical base of the first level of the liner has an additional protrusion, the diameter of which "d" is equal to the inner diameter of the hole of the ferrite plate, and the height is equal to the minimum thickness of this ferrite plate, which is part of the combined (hybrid) absorber of electromagnetic waves, which allows fasten the composite combined absorber to the working surfaces of anechoic chambers and shielded rooms with a single screw element.

In the drawing of FIG. 1 shows a General view of the mounting of the prototype, where 1 is the container body; 2 - radar absorbing aggregate SEW; 3 - a sealing cover with L-shaped protrusions for mounting the sew; 4 - mounting rails; 5 - BEC surface.

In the drawing of FIG. 2 shows the components of the cover of the PEV container and a general view of the fastening of the claimed technical solution, where 1 is the container body; 2 - a cover with an internal cavity in the form of a groove; 3 - T-shaped liner; 4 - T-shaped liner with a protrusion; 5 - screw element for fixing the liner; 6 - ferrite plate combined SEW; 7 - dielectric panel; 8 - radio-absorbing filler SEV; 9 - coordinate recess.

For the manufacture of a cover with a groove and a liner, various polymeric slow-burning materials are used, from which a PEV container is made, including polyethylene, polystyrene, polypropylene, etc.

A distinctive feature of the proposed technical solution is that the additional attachment points do not violate the tightness of the internal volume and completely preserve the radio technical characteristics of the SEW.

Facing the BEC using the proposed technical solution is a simple operation, it completely lacks technology with adhesive joints, and consists in fixing screw inserts for marking on mounting sheets, profiles or working surfaces of the BEC, and then installing pyramidal elements of sew on them. In the case when the combined SEW is assembled, the inserts are fixed with ferrite plates by marking on dielectric panels, which are then mounted to the BEC working surfaces. At the end of installation work with dielectric panels, protruding inserts install matching pyramidal elements of the combined SEW.

The proposed method of fastening provides for the replacement of failed or mechanically damaged pyramidal elements of sew or ferrite plates of combined absorbers both during assembly and commissioned and functioning BEC. In this case, there is no need to dismantle a significant amount of sew, reaching damaged containers or plates. It is enough to have access to the base of the damaged pyramidal container, in which there is a special coordinate recess for reaming and access to the screw fastener. To replace a damaged pyramidal container or a ferrite plate, it is necessary to unscrew the screw fasteners together with the insert, replace the damaged element and, fixing the components of the combined PEV in the reverse order, snap the pyramidal container onto the lid.

A significant advantage of the claimed invention is the use of a two-coordinate attachment point, which allows the installation of a pyramidal absorber container in four directions, which is important when facing work in the mating corners of BEC working surfaces.

The technical and economic advantages of the proposed technical solution are obvious and are based on the fact that this method of attaching a PEV drastically changes the installation technology, reduces the complexity, improves the quality and reliability of the connection, eliminates adhesive operations, ensuring the environmental safety of maintenance personnel, which together reduces several times cost of facing BEC.

Claims (2)

1. The mechanical method of attaching pyramidal container absorbers of electromagnetic waves to the working surfaces of anechoic chambers and shielded rooms, characterized in that the lid of the pyramidal container consists of two parts interconnected, forming together a two-coordinate attachment point, while the main part of the lid is made with an internal cavity in the form of a groove having the form of two squares connected to each other with sides equal to "a" and "b", and the auxiliary part of the lid is A T-shaped two-level insert with a cylindrical base of the first level, having an inner central hole for a screw element for attaching the insert to the working surfaces, while the second level of the insert is made in the form of a square washer with sides "c", the dimensions of which correspond to the formula "a" <"c "<" B ", which allows after connecting the insert to the main part of the lid and displacing the entire pyramidal absorber together with the lid in this groove relative to the insert to a distance of" c "to form an internal lock, thanks to To this, a pyramidal absorber is mounted. 2. The mechanical method of fastening the pyramidal container absorbers according to claim 1, characterized in that the cylindrical base of the first level of the liner has an additional cylindrical protrusion, the diameter of which "d" is equal to the inner diameter of the hole of the ferrite plate, and the height is equal to the minimum thickness of this ferrite plate included in the composition of the combined (hybrid) absorber of electromagnetic waves, which allows a single screw element to fix the composite combined absorber to a dielectric panel for subsequent installation on the working surfaces of anechoic chambers and shielded rooms.

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