RU2625467C2 - Panel with corrugated and honeycomb filler - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: panel includes corrugated and honeycomb fillers, perforated and solid coatings, the filler made of perforated and corrugated material consisting of alternating with each other upper and lower corrugated strips, the upper corrugated stripes of the filler are connected to the mesh. The honeycomb filler is located between the mesh and perforated coating and is connected to each other.

EFFECT: noise reduction over a wide frequency range.

2 cl, 1 dwg, 1 ex

Description

The invention relates to corrugated structures, which are used in aircraft, shipbuilding and engineering industries.

Known corrugated structure, consisting of perforated and continuous sheathing connected with corrugated aggregate.

Overview of foreign experience. NIAT All-Welded Laminated Structures 1978, p. 98 (analog).

The disadvantage of the design is that it provides noise absorption in a narrow frequency spectrum.

Known layered corrugated panel Patent 2297329, 1332B3 / 12 08.24.2004, Maksimenkov V.I., Molod M.V. (prototype).

The design of the panel consists of skins, one of which is perforated. The filler is made of alternating between the upper and lower perforated and corrugated strips. Between the side surfaces of said upper and said lower strips, grids are installed in the transverse direction relative to the latter.

However, this design does not provide the required noise attenuation effect in a wide range of frequencies.

The invention is aimed at reducing noise and obtaining a broadband picture of noise absorption. The technical result is an increase in the efficiency of the panel in a wide range of frequencies, which is achieved by the fact that the upper corrugated bands of the filler are connected to the grid, while the honeycomb filler is located between the grid and the perforated casing and connected to them.

The effectiveness of this design is ensured by the fact that sound waves penetrating through the perforation of the casing, the honeycomb core, cause resonance phenomena.

Further attenuation of the sound wave is carried out when passing through the grid, which ensures its fragmentation into separate streams, which, penetrating the corrugated filler and its upper perforated and corrugated strips, dissipate and then lose energy when passing through the lower perforated and corrugated strips. In this zone, a resonance phenomenon is observed, while the presence of inclined edges of the filler and the alternation of perforated and corrugated strips along the width of the filler creates conditions under which each height of the filler in zones A, B, C ensures damping of its frequency. In addition, during the passage of sound waves through the mesh and the perforation of the upper and lower perforated and corrugated bands are suppressed due to the phenomenon of interference arising from the superposition of counterpropagating waves on both sides of the corrugation.

The use of perforated sheathing connected to the grid provides an increase in the input impedance of the sound absorber and alignment of the frequency spectrum.

In FIG. 1 shows a general view of a panel with corrugated and honeycomb core.

The panel with corrugated and honeycomb core contains perforated lining 1, honeycomb core 2, mesh 3, corrugated core 4 containing upper and lower perforated and corrugated stripes of core 5 and 6. Stripes of corrugated core 4 made of alternating upper perforated and corrugated stripes 5 are connected by a grid of 3 and lower perforated and corrugated strips 6 connected to a continuous skin 7.

Sound waves penetrating through the perforated casing 1, honeycomb 2, cause resonance phenomena.

Further attenuation of the sound wave occurs when passing through the grid 3, which ensures its crushing into separate trickles, which, penetrating through the corrugated filler 4 and its upper perforated and corrugated strips 5, dissipate and then lose energy when passing through the lower perforated and corrugated strips 6. In this zone, a resonance phenomenon is observed, while the presence of inclined faces of the filler 4 and the alternation of perforated and corrugated bands 5 and 6 along the width of the filler 4 creates the conditions i, at which each height of the filler in zones A, B, C provides damping of its frequency. In addition, when sound waves pass through the perforation of the upper 5 and lower perforated and corrugated bands, 6 are suppressed due to the phenomenon of interference arising from the superposition of counterpropagating waves on both sides of the corrugation.

Thus, the increase in the number of layers of the panel, consisting of honeycomb core 2 and corrugated core 4, leads to the expansion of the absorption band of sound frequencies and increases the efficiency of the design.

The experiments carried out have confirmed the absorption of a wide range of frequencies and noise reduction by more than 1.5-2 times.

Claims (2)

1. Panel with corrugated and honeycomb core, including perforated and continuous sheathing, a core of perforated and corrugated material, consisting of alternating upper and lower corrugated strips, characterized in that the upper corrugated strips of the filler are connected to the grid, while the honeycomb is located between the mesh and perforated sheathing and are interconnected. 2. The panel with corrugated and honeycomb core according to claim 1, characterized in that the perforated sheathing is connected to the grid and honeycomb core.

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