RU188694U1 - SOUND-ABSORBING CARTRIDGE FOR GAS-AIR TRACT NOISE MILITERS - Google Patents

Abstract

Sound-absorbing cassette refers to technical solutions in terms of noise reduction for a number of sectors of the Russian economy: energy, construction, engineering, oil refining, light industry, metallurgical industry, etc. The design is proposed to be installed in engineering systems channels, for example, smoke and air ducts of power boilers, air ducts of ventilation and air conditioning systems. The location and number of the proposed cassettes in the channel is determined by the operating conditions of the thermal mechanical equipment and the magnitude of the required reduction of noise exposure. The technical problem solved by the proposed device is to increase the efficiency of reducing the energy of sound waves propagating with moving gaseous media in engineering systems. The technical effect is realized due to the dissipation (absorption) of sound energy in sound-absorbing material (ZPM) of the proposed cassette and is achieved by the fact that in the proposed device 1, made in the form of a narrow rectangular parallelepiped 2, fastened inside with a frame made of metal structures 3, with side perforated walls filling of the ZPM 4, wrapped sound-permeable shell 5, one of the side walls 6 is made shaped in the form of repeating trapezoidal prismatic concavities, the second wall 7 is performed on a straight and solid (Fig. 1, 2). 2 ill.

Description

Sound-absorbing cassette refers to technical solutions in terms of noise reduction for a number of sectors of the Russian economy: energy, construction, engineering, oil refining, light industry, metallurgical industry, etc. The design is proposed to be installed in engineering systems channels, for example, smoke and air ducts of power boilers, air ducts of ventilation and air conditioning systems. The location and number of the proposed cassettes in the channel is determined by the working conditions of the heating equipment and the required reduction of noise exposure.

The closest technical solution to the technical nature of the plate is a noise muffler from the book Grigoryan FE, Pertsovskiy EA Calculation and design of silencers power plants. - L .: Energy, 1980, p. 102-103, fig. 6-1. The known device is a plate silencer noise, which consists of a frame, sound-absorbing mat and perforated sheet. The frame is welded from side brackets, 2 mm thick, and divided by partitions, 1 mm thick, into 16 square sections, into which sound-absorbing mats are laid, measuring 100 × 420 × 420 mm. The total area of the plate is divided into 16 cells to prevent ZPM (sound-absorbing material) from settling during prolonged vibration, as the plates are installed in the silencer vertically. The sound-absorbing mats consist of UTV (ultrathin fiber) without a binder, ρ = 15 kg / m, wrapped with fiberglass, δ = 0.06 mm, and stitched with thread. A perforated sheet, δ = 0.63 mm with holes ∅ 5 mm and a pitch of 8 mm, arranged in a checkerboard pattern, is welded to the brackets by gas welding (prototype).

The disadvantages of the known device can be attributed to the relatively low acoustic efficiency.

The technical problem solved by the proposed device is to improve the efficiency of reducing the energy of sound waves propagating with moving gaseous media in engineering systems.

The technical effect is realized due to the dissipation (absorption) of the sound energy in the SPM of the proposed cassette and is achieved by the fact that in the known device, made in the form of a narrow rectangular parallelepiped, fastened inside with a frame made of metal, with perforated side walls, and filled with sound-absorbing material, wrapped in sound-permeable shell, according to the utility model, one of the side walls is made profiled in the form of repeating trapezoidal prismatic concavities, the second NKA is made straight and solid.

ZPM should have temperature resistant and non-hygroscopic properties.

As ZPM mineral wool (glass wool), basalt fiber can be used; ZPM density 10≤ρ≤300 kg / m ³ .

To exclude the possibility of blowing the ZPM from the space of the proposed ZPM cassette, it is wrapped in a sound-permeable shell. For example, fiberglass E3-100 can be used as a sound-permeable shell.

The material for manufacturing the parallelepiped of the proposed cassette can be various types of sheet metal, for example, St3, 08X17T, heat-resistant polymers, for example, fluoroplastic.

The perforated side walls of the cassette are made of material with a thickness of 0.35≤δ≤2 mm and a perforation factor of 0.25≤k≤0.80.

The limiting height of the proposed cassette is limited by the caking properties of the ZPM.

FIG. 1 is an isometric view and cross section of a cassette.

FIG. 2 shows a top view of the sound-absorbing lining of the channel on straight sections and turns.

The sound-absorbing cassette 1 for the silencers of the gas-air paths is made in the form of a narrow rectangular parallelepiped 2, fastened inside with a frame made of metalwork 3, with side perforated walls, and a filling of sound-absorbing material 4, wrapped with sound-permeable shell 5, one of the side walls 6 of the proposed device shaped in the form of repeating trapezoidal prismatic concavities, the second wall 7 is made straight and solid (figure 1). The principle of operation of the device is as follows.

The cassettes are mounted on the walls of the channels of engineering systems and are sound-absorbing lining, which provides additional dissipation (absorption) of the sound energy.

Increased acoustic efficiency is achieved due to the increased sound absorption surface and is realized by the original shape of the profile of the side walls of the cassette.

Thus, the proposed cassette in comparison with the prototype has an increased acoustic efficiency.

Claims (1)

1. The sound-absorbing cassette for silencers of gas-air paths is made in the form of a narrow rectangular parallelepiped, fastened inside with a metal frame, with side perforated walls, and a filling of sound-absorbing material wrapped with a sound-permeable shell, characterized in that one of the side walls is profiled. in the form of repeating trapezoidal prismatic concavities, the second wall is made straight and solid.

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