CS213325B2 - Cabinet of centrifugal ventilator with the insertion for the sound absorption - Google Patents

Abstract

The noise of the radial-flow fan (5) is attenuated by a sound-absorbing insert (3). In order to achieve attenuation even at low frequencies, the thickness of the sound-absorbing insert (3) deviates from the average thickness. The internal interface (2) over more than one tenth of the rotor perimeter of said insert has the approximate shape of a helix. <IMAGE>

Description

The present invention relates to a centrifugal fan housing with a sound absorbing insert embedded in a housing having a parallelepipedal shape with flat inner wall surfaces.

Solutions are known in which the noise caused by a centrifugal fan is reduced by the silencers inserted behind the discharge port or the suction port. The drawback of these solutions lies in the need for a considerable amount of space, despite the fact that the use of dampers results in an increase in flow resistance to overcome the pressure that causes the sound to be generated at a different frequency.

Also known centrifugal fans having a spiral casing which is inserted into the housing of the centrifugal 'of the fan and whose inner walls are lined with a layer of material on ^one of the same thickness, sound-absorbing. The damping efficiency of such lining is in the high range of the low frequency range, i.e., above 800 Hz, 8 to 15 dB. In the lower regions of the low frequency range, the damping efficiency is 2 to 4 dB. Amplification cladding layer for absorbing the noise would к narrowing of the inner space of the spiral casing ¹ а к deterioration of the conditions of flow a narrowing flow cross-section or substantially increased к housing a centrifugal fan.

In some solutions, the centrifugal fan casing has a parallelepipedal shape to which a spiral insert is attached to the inner walls, with unused space between the spiral insert and the inner walls of the centrifugal fan casing.

SUMMARY OF THE INVENTION It is an object of the present invention to achieve damping of tones lying in the lower regions of the low frequency range. The problem is exacerbated by the fact that the housing functions as a centrifugal fan actuated internally Helmholtz resonator which is autofrekvence: fo = r ~ ^{-G-SZ +} y ^{ny LsyA} "1 1/2 Hz where:

a = speed of sound propagation (m / s)

Lsz, - length of discharge or suction branch (m),

Asz> A _ny = cross section of discharge or suction branch (m ² ),

V = centrifugal fan housing volume (m ³ ).

For centrifugal fan of average dimensions, where impeller diameter = = 570 mm, enclosure volume V = 0,35 m ⁵ ; Lsz = 0.12 m; Asz = 0.25 m ² ; Lny = 0.12 m; A _ny = 0.13 m ² ; a = 330 m / s, ie f ₀ «150 Hz

At the upper harmonic frequencies, a standing wave is generated provided that the wavelength λ <2 1 max, where 1 max determines the largest linear dimension of the centrifugal fan housing. If 1 max = 1.4 m, resulting in λ <2.8 m (f> 120 Hz).

The lower resonant frequency as well as the upper harmonic frequencies can be found in the centrifugal fan spectrum. Their independence from the excitation frequency - operating conditions, speed - confirms the presence of spatial resonance.

It is desirable to extend the use of dampers of uniform layer thickness, preferably applied to absorb in the higher regions of the low frequency range, to the lower regions.

This object is solved by the invention, wherein the space between the inner surface of the centrifugal fan housing and the outer surface of the insert is filled wholly or partly with sound absorbing material, for example basalt, mineral or glass wool. The insert consists of several, for example, six straight walls arranged in a spiral shape, one of the straight walls of the insert abutting directly on the inner surface of one of the walls of the centrifugal fan housing. Each of the flat walls of the liner is formed by a rigid, sound-permeable, for example a perforated plate or sheet steel sheet, covered on the side facing away from the media stream with any plastic fabric or glass fiber. The centrifugal fan casing is provided with vibroinsulators located near the centrifugal fan attachment means, near the impeller, on the casing of the centrifugal fan casing and on the propulsion motor support. The insert is connected to the centrifugal fan housing by partitions or partitions.

The invention makes it possible to extend the damping effect of sound-absorbing inserts which have so far only been effective above about 700 Hz below this limit.

One particularly preferred embodiment of the invention is further described by way of example illustrated in the accompanying drawing, in which Fig. 1 is a vertical sectional diagram of a centrifugal fan housing with a sound absorbing insert; Fig. 2 is a front perspective view of a centrifugal fan according to the invention without part of the end wall; Fig. 3 is a vertical mid-sectional view of the centrifugal fan as viewed from the right side; and Fig. 4 is a perspective view of the centrifugal fan. centrifugal fan according to the invention with two suction nozzles.

The front walls 1.1, the side walls 1.2 and the bottom and top walls 1.4 are inserted into the frame 1.3 of the centrifugal fan housing 1. It is attached to the inner surface of the centrifugal fan housing 1 by partitions or partitions 8 and an insert 2.1 for absorbing the sound caused by the centrifugal fan. The insert 2.1 forms an inner housing inserted into the centrifugal fan housing 1 and defines the flow of the suction medium through the cavity 1a. The sound-absorbing insert 2.1 has in the present example approximately the shape of a spiral, comprising the honor of straight rectangular walls. However, the number of rectangular walls may be greater or lesser. The deviation of the insert 2.1 from the spiral promotes flow and allows the sound absorbing material 3 to have geometrically simple cuboid, triangular, quadrilateral or polygonal prism shapes.

The centrifugal fan insert 2.1 consists of solid sound-permeable steel plates or steel plates. The steel plates or sheets are punched for permeability and their outer surface facing away from the fluid stream is covered with a rubber foil or a rubber plastic or fiberglass fabric 2.2 to achieve a smooth medium flow. An electric motor 6 driving the impeller 5 is mounted on the centrifugal motor housing 1. On its bottom wall 1.4, the centrifugal fan housing 1 is provided with elements 7 for securing the centrifugal fan.

The insert 2.1 is eccentrically disposed relative to the center of the centrifugal fan housing 1 and abuts the rear end wall 1.1. The space between the inner surface of the centrifugal fan housing 1 and the outer surface of the sound absorbing insert 2.1 is filled with a sound absorbing material 3, for example basalt, mineral or glass wool or the like.

Vibration caused by the impeller 5 is prevented by the use of vibroinsulators 4.1, 4.2, 4.3, 4.4 placed on the frame 1.3 near the centrifugal fan mounting element 7 near the impeller, on the frame 1.3 of the centrifugal fan housing and on the propeller support 6 .

The suction direction control can be changed by turning the entire centrifugal fan.

The centrifugal fan housings of the invention with a sound absorbing insert can also be used in the fan with two opposing intake ports shown in Fig. 4.

Claims (5)

1. Centrifugal fan housing with a sound-absorbing insert embedded in a housing having a parallelepipedal shape with flat inner wall surfaces, characterized in that the space between the inner surface of the centrifugal fan housing [1] and the outer surface of the insert (2.1) is filled in whole or in part, sound-absorbing material (3), for example basalt, mineral or glass wool. Centrifugal fan housing according to claim 1, characterized in that the insert (2.1) consists of several, for example six, straight walls arranged in a spiral shape, one of the straight walls of the insert abutting directly on the inner surface of one of the walls of the housing (1). ) of a centrifugal fan. 3. A centrifugal fan housing according to claim 1, wherein each of the flat walls of the insert (2.1) is formed by a rigid acoustic transmission, for example a perforated steel plate or sheet steel sheet, covered on the side facing away from the flow. media with a rubber plastic or glass fiber cloth (2.2). Centrifugal fan housing according to one of Claims 1 to 3, characterized in that, together with the insert (2.1), it is provided with vibroinsulators (41, 4.2, 4.3, 4.4) located close to the centrifugal fan attachment means (7) near the impeller. (5), on the frame (1.3) of the centrifugal fan and on the propeller motor support (6). Centrifugal fan housing according to Claims 1 to 4, characterized in that the insert (2.1) is connected to the centrifugal fan housing (1) by partitions or partitions (8).