RU194414U1 - NOISE SCREEN PANEL - Google Patents

Abstract

The utility model relates to the field of road construction, in particular to the creation of noise protection structures for the protection of residential areas located near highways, rail tracks and industrial facilities. The panel contains outer and inner walls made of sheet material with working surfaces and locking parts. Each locking part is made in the form of a shelf equipped with a trapezoidal protrusion, located perpendicular to the plane of the working surface of the wall. The castle parts are overlapped. In this case, the trapezoidal protrusion of the flange of the inner wall oriented towards the inner cavity of the panel covers the counter-trapezoidal protrusion of the flange of the outer wall, and the outward oriented trapezoidal protrusion of the flange of the outer wall covers the reciprocal trapezoidal protrusion of the flange of the inner wall. The technical result consists in increasing the rigidity of the castle parts of the panel walls while maintaining the mounting width of the castle part. 1 s.p. f-ly, 2 ill.

Description

The utility model relates to the field of road construction, in particular to the creation of noise protection structures for the protection of residential areas located near highways, rail tracks and industrial facilities. Using the utility model allows you to create an acoustic mode in the protected areas that meets regulatory standards.

Known soundproofing panels of a closed hollow profile are made with the possibility of docking with each other using a protrusion on one panel and a depression on another panel corresponding to this protrusion (RF patent No. 81501).

Also known is a noise-proof sound-absorbing panel containing a galvanized steel housing, consisting of two profiles - front and back covers with locks, two end caps and a filler (RF patent No. 2542788).

The disadvantages of the known technical solutions is the increased material consumption of the developed structures and the complexity of the assembly and subsequent installation of the panels.

The closest technical solution is the soundproofing panel, in which the front side of the panel body facing the noise source is made in the form of an external wall with perforation, and the rear side is made in the form of an internal wall, between which sound-absorbing material is installed inside the panel body (RF patent No. 135325). At the ends of the panel housing with sound-absorbing material, U-shaped covers are fixed. Inside the panel case, elements are installed that increase the rigidity of their case. The front and rear walls are made with bends. The oblique bends of the metal profile of the front wall are made conjugated with the inclined end wall of the metal profile of the rear wall, and the bends of the profile of the rear wall are paired with the inclined end wall of the profile of the front wall, with the formation of a locking connection, such as a “latch”, which provide fastening between the profiles in a rigid sound absorbing panel design.

Sound-absorbing panels are arranged relative to each other with the possibility of combining the internal node of the castle connection, each of them with the corresponding external node of the castle connection of the other, and the connection of the panels "in the lock" with each other is made with the coverage of the external convex docking nodes of the castle connection of both noise-absorbing panels with adjacent with them the sound-absorbing panels by the internal concave docking knots of the castle joint, with the formation of the joints of the sound-absorbing panels.

The design of the front and rear walls allows you to assemble a noise shield without the use of mechanical means.

A disadvantage of the known technical solution is the lack of reliability of the design of the "castle", made in the form of a triangular protrusion. The insufficient reliability of the lock is due to the fact that to reduce the material consumption of the panel, thinner sheet material is used. When using thin sheet material, the lock in the form of a triangular protrusion ceases to fulfill its function and, under the influence of the weight of the assembled panel, is deformed and opens. To avoid deformation of the castle, it is necessary to increase the installation width of the castle part of the panel, which leads to an increase in the consumption of sheet material.

The technical problem, the solution of which is provided by the implementation of the utility model, consists in increasing the manufacturability of manufacturing a panel from sheet material while maintaining the width of the castle part of the panel and at the same time reducing the material consumption of the panel.

The technical result consists in increasing the rigidity of the locking parts of the panel walls while maintaining the mounting width of the locking part.

The technical result is achieved by the fact that the soundproofing panel containing the outer and inner walls made of sheet material with the formation of working and locking surfaces and side covers connected to the outer and inner walls with the formation of an internal cavity designed to accommodate sound-absorbing material, where each locking the surface is formed by overlapping castle parts of the outer and inner walls, in which, according to a utility model, each castle part is made in the form of a shelf equipped with a trapezoidal protrusion located perpendicular to the plane of the working surface of the wall, trapezoidal protrusions on the shelves of each wall are oriented in one direction, and the small bases of their trapezoid are perpendicular to the planes of the working surfaces of the walls, while the length of the small base and the height of the trapezoidal protrusion of the shelf oriented in the side of the internal cavity of the panel is greater than the length of the small base and the height of the trapezoid of the trapezoidal protrusion oriented outward with respect to the inner the cavity of the panel, and the locking parts are overlapped so that the trapezoidal protrusion of the flange of the inner wall oriented toward the inner cavity of the panel covers the counter-trapezoidal protrusion of the flange of the outer wall, for which the length of the small base and the height of the trapezoid of the said trapezoidal protrusion of the flange of the inner wall are formed larger than the length the small base and the height of the trapezoid of the said trapezoidal protrusion of the shelf of the outer wall, and the outward oriented trapezoidal protrusion of the shelf of the outer wall the reciprocal trapezoidal protrusion of the flange of the inner wall grabs, for which the length of the small base and the height of the trapezoid of the said trapezoidal protrusion of the flange of the outer wall are formed larger than the length of the small base and the height of the trapezoid of the said trapezoidal protrusion of the flange of the inner wall, and the scan length of the inner wall of the panel does not exceed the scan length of the outer walls more than 0.5%.

The implementation of the locking parts in the form of trapezoidal protrusions with the mutual coverage of the reciprocal protrusions increases the rigidity of the locking parts. Moreover, the manufacture of walls from almost identical sheet blanks, the scan length of which differs by no more than 0.5%, also contributes to an increase in the rigidity of the locking parts with respect to the closest analogue, since it provides an even distribution of the panel weight and a uniform load on the elements of the locking part.

The set of essential features of a utility model can be developed.

Preferably, the working surfaces of the walls are provided with trapezoidal protrusions oriented towards the inner cavity of the panel.

The proposed implementation of the protrusions also works to provide greater rigidity of the locking parts in relation to the closest analogue, since it provides damping of the operating loads on the panel and, accordingly, a uniform load on the elements of the locking part.

The claimed acoustic panel of a noise shield is disclosed in detail with reference to the drawings, where in FIG. 1 shows a screen panel assembly, and in FIG. 2 - panel wall configuration.

The soundproofing panel comprises an outer wall 1 and an inner wall 2 made of sheet material (Fig. 1). The panel is characterized by the presence of the working surface 3 and the locking surface 4 and the side covers 5 (shown schematically). Side covers 5 are connected to the outer and inner walls 1 and 2 with the formation of the inner cavity 6, designed to accommodate sound-absorbing material (not shown).

The panel wall configurations for both the inner wall and the outer wall are the same. The wall has a working surface 3 of length Lp and the locking parts of the outer wall 1 or inner wall 2 of length La and Lb (hereinafter for simplicity, referred to as “castle part La walls” and “castle part Lb walls”), forming the corresponding castle surfaces 4 ( Fig. 1 and Fig. 2). Each locking surface 4 of the panel is formed by overlapping locking parts La and Lb of the outer and inner walls.

Each castle part La and Lb is made in the form provided with a trapezoidal protrusion 7 of the shelf 8, located perpendicular to the plane of the working surface 3 of the wall. The trapezoidal projections 7 on the shelves 8 of each wall are oriented in one direction, and the small bases of their trapezoid are perpendicular to the planes of the working surfaces of the 3 walls. The trapezoidal protrusion 7 of the shelf 8, oriented towards the inner cavity 6 of the panel (protrusion of the locking part La) is formed so that the length of the small base and the height of the trapezoid of this trapezoidal protrusion is greater than the length of the small base and the height of the trapezoid of the trapezoidal protrusion 7, oriented outward with respect to the inner cavity 6 of the panel (protrusion of the castle part Lb).

The castle parts of La and Lb are overlapped. Moreover, the trapezoidal protrusion 7 of the flange of the inner wall 2 oriented towards the inner cavity 6 of the panel (the locking part La of the inner wall) covers the counter-trapezoidal protrusion 7 of the flange of the outer wall 1 (the locking part La of the outer wall), and the outwardly oriented trapezoidal protrusion 7 of the flange 8 of the outer wall 1 covers the reciprocal trapezoidal protrusion 7 of the shelf of the inner wall 2.

To ensure a uniform load on the castle parts La and Lb, it is advisable to form the inner and outer walls from sheet blanks of the same length. In practice, this is ensured by the fact that the scan length of the inner wall of the panel does not exceed the scan length of the outer wall by more than 0.5%. Additionally, the working surfaces of the walls are provided with trapezoidal protrusions 9 oriented towards the inner cavity of the panel.

In the case of three trapezoidal projections 9, the outermost ones are placed on the working surface of the wall at a distance Lc and Lf from the shelves 8. These distances are selected from the condition of providing the necessary rigidity in this area of the wall, bearing in mind the necessary rigidity of the locking parts. Calculations show that the distance Lc and the distance Lf should not exceed the distance La and Lb, respectively. The distances Ld and Le are generally equal. At the same time, if it is necessary to increase the rigidity of the “La-Lc” surface zone, the central trapezoidal protrusion on the working surface of the wall can be shifted from the central position towards the La surface so that the distance Ld is less than the distance Le.

The panel is made and used as follows.

For the manufacture of panels profiled outer and inner walls of the panel. At the same time, galvanized steel sheets are used as blanks for the walls, the size of which according to the estimated height of the panel (hereinafter, the term "panel height" is used) is almost the same. The sheet size for the inner wall of the panel should not exceed the same sheet size for the outer wall by more than 0.5%.

The sheet is profiled on special equipment. The configuration of the sheet for the outer wall is similar to the configuration for the inner wall.

When profiling a sheet blank in the lower part of the sheet, a castle part with a length of La is formed in the form of a shelf 8, bent at 90 ° (hereinafter, the term "lower castle part" is used). In the end of the shelf 8 form a trapezoidal protrusion 7, oriented by the smaller base of its trapezoid towards the inner cavity of the panel. In the upper part of the sheet, a lock part with a length of Lb is formed in the form of a shelf 8 bent at 90 ° (hereinafter, the term “upper lock part” is used). A trapezoidal protrusion 7 is formed in the end part of the shelf 8, oriented outward with respect to the smaller cavity of its panel with the smaller base of its trapezoid. On the working surface 3 form a trapezoidal protrusions 9, oriented by the small base of its trapezoid towards the inner cavity of the panel. The location of the protrusions 9 along the height of the profiled sheet is determined by the necessary value of the stiffness of the area of the castle surface 4 of the panel. The surface corresponding to the working surface of the sheet intended for the outer wall of the panel is perforated.

When profiling a sheet intended for the outer wall of the panel, the length of the small base and the height of the trapezoid of the trapezoidal protrusion 7 of the upper castle part are formed large in relation to the dimensions of these elements of the upper castle part of the sheet intended for the inner wall of the panel, and the dimensions of these elements of the lower castle part are formed accordingly smaller in relation to similar sheet elements for the inner wall. The dimensions of the trapezoidal trapezoidal protrusions are selected on the basis of the following ratios established by the applicant through calculations and experiments:

bb = (0.93-0.97) bn; hw = (0.95-0.98) hn,

where bв - the length of the small base of the trapezoid covered trapezoidal protrusion of the castle part;

bn - the length of the small base of the trapezoid covering the trapezoidal protrusion of the castle part;

hв - the trapezoid height of the covered trapezoidal protrusion of the castle part;

hн - the height of the trapezoid covering the trapezoidal protrusion of the castle part.

When assembling the panel, the properly configured outer and inner walls are positioned so that the trapezoidal protrusion 7 of the flange of the inner wall 2 (lower locking part of the inner wall) oriented towards the inner cavity 6 of the panel (the lower locking part of the inner wall) covers the counter trapezoidal protrusion 7 of the flange of the outer wall 1 (lower locking part outer wall). Similarly, the upper locking parts of the outer and inner walls are assembled, which are arranged so that the outward oriented trapezoidal protrusion 7 of the shelf 8 of the outer wall 1 covers the counter-trapezoidal protrusion 7 of the shelf of the inner wall 2.

The perforated outer and inner walls 1 and 2, assembled together by means of the upper and lower locking parts, form the panel body. The panel body is closed by side (end) covers 5. In the inner cavity 6 formed by the walls 1 and 2 and the covers 5 there is a soundproofing element in the form of stone, basalt or mineral wool, cached or wrapped with fiberglass. The required panel strength is provided by spacers (amplifiers) made of galvanized steel sheet.

The implementation of the locking parts in the form of shelves perpendicular to the plane of the working surface of the wall with trapezoidal protrusions formed on the shelves, with mutually oppositely oriented protrusion of the protrusions, ensures the achievement of the claimed technical result, which consists in increasing the rigidity of the locking parts of the panel walls while maintaining the mounting width of the locking part and the solution formulated by the technical problems - improving the manufacturability of the manufacture of panels from sheet material while maintaining the width castle part of the panel and at the same time reducing the material consumption of the panel.

Claims (2)

1. The panel of the noise shield, containing the outer and inner walls made of sheet material, with the formation of working and locking surfaces, and side covers connected to the outer and inner walls with the formation of the inner cavity, designed to accommodate sound-absorbing material, where each locking surface is formed by overlapping by the locking parts of the outer and inner walls, characterized in that each locking part is made in the form of a shelf provided with a trapezoidal protrusion lying perpendicular to the plane of the working surface of the wall, the trapezoidal protrusions on the shelves of each wall are oriented in one direction, and the small bases of their trapezoid are perpendicular to the planes of the working surfaces of the walls, while the length of the small base and the height of the trapezoidal protrusion of the shelf, oriented towards the inner cavity of the panel, is longer than the length the small base and the height of the trapezoid of the trapezoidal protrusion, oriented outward with respect to the internal cavity of the panel, and the locking parts are located overlapping so that the trapezoidal protrusion of the flange of the inner wall oriented toward the inner cavity of the panel covers the counter-trapezoidal protrusion of the flange of the outer wall, for which the length of the small base and the height of the trapezoid of the said trapezoidal flange of the flange of the inner wall are formed larger than the length of the small base and the height of the trapezoid of the said trapezoidal protrusion the shelves of the outer wall, and the outward oriented trapezoidal protrusion of the shelves of the outer wall covers the reciprocal trapezoidal protrusion of the shelf wall, for which the length of the small base and the height of the trapezoid of the said trapezoidal protrusion of the outer wall flange are formed larger than the length of the small base and the height of the trapezoid of the said trapezoidal protrusion of the inner wall flange, and the scan length of the inner wall of the panel does not exceed the scan length of the outer wall by more than 0 ,5%. 2. The noise shield panel according to claim 1, characterized in that the working surfaces of the walls are provided with trapezoidal protrusions oriented towards the inner cavity of the panel.

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