RU2819043C1 - Laminated corrugated panel with filler - Google Patents

Abstract

FIELD: various technological processes.

SUBSTANCE: invention relates to design and manufacture of panels with corrugated filler and can be used in aircraft engineering and industrial enterprises.

EFFECT: increase of noise suppression effect is achieved by the fact that the external cavity of the corrugated filler is filled with fibrous material in contact with the installed mesh at half the height of the corrugated filler.

1 cl, 1 dwg

Description

The invention relates to the design and manufacture of panel structures with corrugated filler, which allows for effective noise absorption, and can be used in aircraft construction and industrial enterprises.

A three-layer structure with a honeycomb filler is known, consisting of load-bearing layers of filler located between the load-bearing layers, connected by gluing or welding.

"All-metal layered structures." Review of foreign experience.

NIAT 1978 p. 98. (analog) This design consists of two load-bearing layers, one of which is perforated, connected to a corrugated filler and is used in the ducts of aircraft air intakes and engine noise reduction casings as sound-absorbing structures.

Disadvantages: low noise reduction effect.

The closest known technical solution is the technical solution described by the patent (RF No. 2052604, IPC E04S 2/36 dated 03/01/94, Bulletin No. 2 dated 01/20/96, prototype). In this solution, the sound-absorbing panel contains a sheet with holes going inside resonance chambers formed between the sheet and the filler, where the latter is made in the form of a zigzag corrugation, the vertices of which are connected to this sheet.

Disadvantages: low noise reduction effect.

The technical result of noise reduction is achieved due to the fact that the outer cavity of the corrugated filler is filled with fibrous material in contact with the installed mesh by half the size of the corrugated filler.

In the proposed design, a sound wave passes through the perforation of the skin, is split into streams and weakens its energy in the air cavities of the outer and inner corrugated mesh filler. Sound waves pass through the inclined walls and the meshes of the internal and external cavities of the corrugated filler reduce their energy due to the interference of streams of sound waves, as well as due to friction in the filler fibers, which provides effective noise damping.

The design of the corrugated panel with filler (Fig. 1) consists of perforated and solid skins 1, 2, perforated corrugated filler 3, mesh 4, fibrous material 5.

An example of the implementation of a layered corrugated panel with filler Panel 1000 mm long and wide.

The material of the load-bearing layers (1,2) is D16AM, 0.3 mm thick, with a perforation degree of the upper load-bearing layer of 50%.

Corrugated filler with inclined perforated sides made of D16AM 0.2 mm thick. The hole diameter is 1.5 mm, with a perforation rate of 20%. The corrugated filler is made in a die. Connections between perforated skin 1 and solid skin 2 with corrugated filler 25 mm high and mesh are made using VK36 glue. In the proposed design, a sound wave passes through the perforation of the skin 1, is split into streams and weakens its energy in the air internal resonance cavity of the corrugated filler and when passing through the fibers 5 of Superspike M1 due to friction in the pores. Some of the streams of sound waves interact with sound waves passing through the mesh 4 and the perforation of the inclined walls of the contacting internal cavities of the corrugated filler 3, which causes interference, which overall reduces the energy of the penetrating streams of sound waves.

Studies of the panels using an interferometer have shown their efficiency to be more than 1.5 times compared to existing designs.

Claims (1)

A laminated corrugated panel with a core, consisting of perforated and solid skins connected to a perforated corrugated core, characterized in that the outer cavity of the corrugated core is filled with fibrous material in contact with an installed mesh to half the height of the corrugated core.