RU2700574C1 - Installation for assessment of efficiency of shielding of electromagnetic field by roofing materials from power lines in natural conditions - Google Patents

Abstract

FIELD: electrical equipment.

SUBSTANCE: field of application: electrical equipment. Installation for placement of analyzed samples of roofing materials when assessing the efficiency of screening of roofing materials by electromagnetic field under power lines in natural conditions consists of four wooden bars, connected by means of self-tapping screws so that a square is obtained in the center, which is a hole, into which a post is inserted, which is variable in height to 3,000 mm, consisting of a lower and upper supports, in which holes are drilled with pitch of 100 mm, post varies in height by moving upper support upwards on lower side with possibility of fixation by two bolts, which are inserted into holes of posts, on top of upper support two frames are fixed, connected at angle of 90 degrees, for application of analyzed samples of roofing materials, excluding their slipping using metal angles of retainers, evaluation of screening efficiency at different height from power transmission lines is performed by changing the height of the post.

EFFECT: possibility of assessing the effectiveness of shielding roofing materials at different heights from power transmission lines, reducing time and reducing labor intensity of assessing the effectiveness of shielding roofing materials from the electromagnetic field of power transmission lines.

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Description

The invention relates to the field of research of shielding by roofing materials of the electromagnetic field of power lines and can be used for scientific research in this area. Designed to improve the convenience of evaluating the effectiveness of shielding roofing materials used in construction from exposure to electromagnetic fields of power lines in natural conditions.

A known installation for assessing the protection of roofing materials from the electromagnetic field of power lines [Sviridova, E.Yu. Environmental monitoring and increasing the electromagnetic safety of urban areas near power lines (for example, the city of Noginsk) / E.Yu. Sviridova: Diss. for a job. Cand. tech. Sciences: 05.23.19. - Moscow: [b.i.], 2012. - 126 p.]. Installation of the type "canopy" consists of two supports located at a height of 2 meters from the surface of the earth, with slopes with an area of 2.8 m ² and an angle between them of 50 ° from slate, ondulin, metal tile and sheet steel. When measuring electric and magnetic fields, the device is placed directly under the installation of the canopy screen. A canopy of the studied roofing materials can be placed longitudinally and transversely with respect to the wires of power lines.

The main disadvantage of such an installation is that when measuring electric and magnetic field strengths, there is a restriction on the measurement height and the inability to install it on any surface except soil. In addition, the design is non-separable.

A known installation for assessing the level of electric and magnetic fields at a level of 1.8 meters in natural conditions before and after the use of shielding materials (slate, metal, sheet steel, ondulin) [Muzayeva, L.V., Muslaev, I.A. Ecological monitoring of electromagnetic pollution in the city of Kaspiysk in the area of power lines / L.V. Muzayeva, I.A. Muzayev // News of the Dagestan State Pedagogical University. Natural and exact sciences. T. 10. - No. 3. - 2016. - S. 73-78].

The disadvantage of the installation for evaluating the effectiveness of shielding the electromagnetic field from power lines is the structural complexity: due to the presence of two supports located close to each other for installing the shielding material, it is inconvenient to measure the vector of electric and magnetic fields in three orthogonal coordinate systems, which increases the time for such measurements.

The purpose of the invention is to reduce time and expand the limits of measurement, reducing the complexity of the work on evaluating the effectiveness of shielding roofing materials from the electromagnetic field of power lines.

The technical problem solved by the proposed invention consists in developing the design of the installation, which allows you to expand the limits of measurement in height, reduce the measurement time, reduce the complexity of the work, providing transportability and maintenance by one person.

The technical result is the ability to assess the effectiveness of shielding roofing materials at different heights from power lines, reducing time and reducing the complexity of evaluating the effectiveness of shielding roofing materials from the electromagnetic field of power lines.

To achieve the specified technical result, it is proposed to use a installation consisting of wooden bars, including a crosspiece, a rack and two frames interconnected by screws at an angle of 90 degrees. A distinctive feature of the claimed invention is that the installation has one rack, which varies in height by moving the upper support upward on the lower side with the possibility of fixation and quick change of the studied samples of roofing materials by superimposing on the frames, eliminating their sliding with the metal corners of the clamps .

The invention is illustrated by drawings. In FIG. 1 is a drawing of a cross, FIG. 2 is a front view (main view), in FIG. 3 is a left view.

The crosspiece - 1 (Fig. 1) consists of wooden blocks of dimensions (40 × 40) mm with a length of 600 mm. They are connected by means of self-tapping screws so that in the center you get a square - 2 with sides (40 × 40) mm, which is a hole for attaching the stand.

The stand (Fig. 2, 3) consists of a bottom - 3 size (40 × 40) mm and an upper support - 4 size (40 × 20) mm with a height of 2000 mm each.

Holes were drilled in the supports - 5 (Fig. 2, 3) with a diameter of 8 mm in increments of 100 mm.

By moving the upper support - 4 up along the side of the lower - 3, the rack height changes (Fig. 3).

Fixing the required height is carried out using two bolts that are inserted into the holes - 5 (Fig. 3).

At the top of the rack - 4 are two frames - 6, interconnected at an angle of 90 degrees from wooden blocks (40 × 20) mm, forming a square with sides (500 × 500) mm (Fig. 3).

To fix the studied samples of materials, metal corners - 7 (Fig. 2, 3) with a size of (10 × 10 × 10) mm in the amount of 4 pieces are used, located at the edges of the bar.

The frames are connected to the upper support by means of a bolt - 8 (Fig. 3).

The installation is used as follows.

The installation is assembled and installed directly under the wires of power lines between two supports at the point of greatest sagging of wires above the ground.

The design moves in a collapsible form of three parts and is assembled by inserting a rack 3 (Fig. 2) into the hole 2 of the crosspiece 1 (Fig. 1), onto which frames 6 are fixed for applying the test materials (Fig. 2).

Next, the investigated samples of roofing materials with a size of (500 × 500) mm (Fig. 2, 3) are applied to frames 6 and the electromagnetic field is measured.

Measurements of the electromagnetic field can be carried out at different heights from power lines, changing the height of the rack, by moving the upper support - 4 up, fixing the height with two bolts using holes 5 (Fig. 3).

Thus, the convenience of assessing the shielding of roofing materials from the electromagnetic field of power lines is greatly increased, and it is possible to evaluate the effect of shielding at different heights from power lines.

Claims (1)

Installation for placing the studied samples of roofing materials when assessing the effectiveness of shielding the roofing materials of the electromagnetic field under power lines in natural conditions, characterized by the fact that it consists of four wooden bars connected by self-tapping screws so that in the center there is a square, which is a hole into which a stand is inserted, variable in height up to 3000 mm, consisting of lower and upper supports, in which holes are drilled in increments of 100 mm, the stand is changed I’m in height by moving the upper support upwards on the lower side with the possibility of fixing with two bolts that are inserted into the holes of the uprights, two frames are connected to the top of the upper support, connected at an angle of 90 degrees, for laying on them the studied samples of roofing materials, excluding their sliding using the metal corners of the clamps, the effectiveness of shielding at different heights from power lines is assessed by changing the height of the rack.

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