RU170696U1 - SOUND-SUPPLY VENTILATION CHANNEL - Google Patents

Abstract

The utility model relates to ventilation ducts with a means of protection against exposure to noise. Sound-absorbing ventilation duct contains sound-absorbing panels installed tightly without gaps in the air flow path. Sound-absorbing panels are made in the form of combined helicoids, and their longitudinal axes coincide and are aligned with the axis of the ventilation duct, the inner surface of which is covered with sound-absorbing panels. The technical result is an increase in the area of sound-absorbing panels and, as a result, an increase in the efficiency of sound absorption. 2 ill.

Description

SOUND-SUPPLY VENTILATION CHANNEL

The utility model relates to engineering systems and structures for protection from exposure to noise and other acoustic vibrations, as well as for their suppression in ventilation systems and creating comfortable acoustic conditions.

The utility model closest in technical essence is a sound-absorbing system for air ventilation (Patent EP 2426427 A2, 03/07/2012, F24F 13/02 (2006.01)), adopted as a prototype and containing a tubular body with a coating on the inner surface, in which a spiral an element representing a prefabricated structure consisting of an axial sleeve, spirals, means for reciprocating connection and fixation of modules.

However, in the known sound-absorbing system, the elements providing a helical movement of air and noise reduction are quite complex, they are a prefabricated structure, which generally reduces the reliability of its operation. In addition, only one helical surface is used in the sound cancellation process.

A useful model solves the problem of simplifying the design of a sound-absorbing ventilation duct and increasing the area of sound-absorbing panels, providing more effective, compared with the prototype, the suppression of sound waves propagating along the ventilation duct.

To solve the problem in a sound-absorbing ventilation channel containing sound-absorbing panels installed tightly without gaps in the ventilation system channel in the path of the air flow, according to this utility model, sound-absorbing panels are made in the form of helicoids installed in the ventilation channel, and the longitudinal axes of the helicoids are aligned and aligned with the axis of the ventilation duct, the inner surface of which is covered with sound-absorbing panels.

Thus, the proposed sound-absorbing ventilation duct by distinguishing features exceeds the inventive step and can be recognized as a useful model.

In FIG. 1 shows a sound-suppressing ventilation duct with additional images of characteristic sections and cross-sections, FIG. 2 - sound-absorbing panel in the form of combined helicoids.

Sound-absorbing ventilation channel 1 contains sound-absorbing panels in the form of combined helicoids 2, and the walls of channel 1 are covered with sound-absorbing panels 3. The longitudinal axis of helicoids 2 is aligned with the axis of channel 1.

The air flow in the direction shown in FIG. 1, it encounters sound-absorbing panels 2 in the path of its movement. The acoustic component of this stream, falling onto the sound-absorbing panels 2, is partially absorbed by them and partially reflected on the sound-absorbing panels 3. Sound-absorbing panels 3, the sound stream is also partially absorbed and partially reflected on the panel 2. Sound the stream is subjected to repeated reflection due to the fact that the sound-absorbing panels 2 are made in the form of helicoids. The sound stream, reflected many times, and repeatedly absorbed by the sound-absorbing panels 2 and 3 at the exit from the sound-absorbing ventilation channel, loses acoustic energy.

The proposed sound-absorbing ventilation duct has a low hydraulic resistance, almost equal to the hydraulic resistance of the ventilation duct, but without internal sound-absorbing panels.

Claims (1)

Sound-absorbing ventilation channel containing sound-absorbing panels installed tightly without gaps in the channel of the ventilation system in the path of the air flow, characterized in that the sound-absorbing panels are made in the form of combined helicoids installed in the ventilation channel, and the longitudinal axis of the helicoids coincide and are aligned with the axis of the ventilation channel whose inner surface is covered with sound-absorbing panels.

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