RU146390U1 - CENTRIFUGAL FAN - Google Patents

Abstract

A centrifugal fan comprising a composite housing of an inner thin-walled spiral sheet, an outer frame of thick-walled plates with side walls, and a vibration-absorbing material placed in the volume between the plates and the sheet, characterized in that the supports for the sheet are made in the form of rods connecting the side walls of the housing, the axes of the rods are located at the radii R′n = Rn + S + 0.5d ″, where Rn is the corresponding radius of the spiral sheet, n is the ordinal number of the radius, S is the thickness of the sheet, d is the diameter of the rod.

Description

The invention relates to centrifugal electric fans with a prefabricated spiral housing and an impeller fixed to the motor shaft.

Centrifugal fans are known in which a spiral casing is made integral of an internal thin-walled sheet curved in a spiral and external thick-walled plates oriented in a spiral of a sheet. The sheet is pressed to the plates due to its own elastic forces, while the contact points give a curved sheet a spiral shape [RF Patent for invention No. 2253757, F04D 17/08, Podlevsky NI, Khitruk B.S., Garganeev B.P., Abdrakhmanova TB, BIPM publ. 2005].

Centrifugal fans are also known in which the spacers mounted on the plates are spaced ribs. The places where the sheet touches with the ribs form a working spiral, and the distance from the sheet to the plate is determined by the radial dimensions of the ribs. The free space between the sheet and the plates is filled with sound-absorbing material, which can significantly reduce the vibration activity of the fan. [RF patent for the invention No. 2309299, F04D 17/08, Podlevsky N.I., Khitruk B.S., Garganeev B.P., Abdrakhmanova TB, BIPM publ. 2006].

This design is closest in technical essence (prototype) to the proposed utility model. The disadvantages of the prototype include the presence in the array of a sound-absorbing elastic layer of local rigid bonds between the sheet and the plates in the form of spacing ribs. Creating a volume to accommodate a sound-absorbing layer, the spacing ribs are simultaneously a factor that reduces the effectiveness of this layer, because transmit radial disturbances from the air flows of the aerodynamic channel directly to the plates, bypassing sound insulation. The objective of the utility model is to reduce fan vibrations due to the exclusion from the elastic array of the sound-absorbing layer of the rigid bonds of the sheet with the plates.

It is proposed to use transverse rods mounted on the side walls of the casing to reduce fan vibrations as supports for a thin-walled spiral sheet. The side walls fastened by rods form the frame of the body on which the plates are laid out before welding. Using transverse rods instead of spacing ribs, there is no need for a technological device for assembling and welding the frame of the body.

Figure 1 (case with supporting rods) and figure 2 (frame of the body before welding) shows an example of a possible design of the proposed centrifugal fan.

Plate 1 ... 7 (figure 1) are bonded to each other and with the side walls 8 by welding and form a supporting body, in which there is a thin-walled sheet 9, curved along the contour of the spiral.

The sheet 9 is adjacent to the rods 10 along the lines of contact determined by the position of the sheet, its thickness and diameter of the rods.

The volume between the sheet and the plates is filled with vibration-absorbing material 11.

The rods 10 are fixed with their ends on the opposite walls 8 using screws 12 (figure 2); while the rods and walls form a frame on which a polygon of plates is laid for welding.

The fit of the sheet 9 to the rods 10 is provided by the location of their axes at radii R′n, the values of which are determined from the expression:

R′n = Rn + S + 0.5d, where Rn is the corresponding radius of the spiral arc; S is the thickness of the sheet, d is the diameter of the rod, n = 1, 2, 3 ... the ordinal number of the radius.

The device operates as follows: sheet 9 (Fig. 1) and its supporting elements in the form of rods 10 (Figs. 1, 2) perform mechanical vibrations under acoustic and vibration effects from the side of the flow part of the fan. The propagation of these oscillations on the plates 1 ... 7 (Fig. 1) and into the outer space is effectively prevented by the vibration-absorbing layer 11 (Fig. 1), in the structure of which there are no rigid bonds between the sheet and the plates. As a result, the vibration activity of the fan decreases, noise is reduced.

The proposed design has a significant advantage in the manufacturing technology of the fan casing, because does not require special devices for fixing the side walls in a certain spatial position before welding with plates. The frame from the lateral walls 8 (FIGS. 1, 2) pulled together by the rods 10 (FIGS. 1, 2) is used as a base for laying plates 1 ... 7 (FIG. 1) on it before welding.

In the case of a layer 11 (Fig. 1) made of casting compositions (compounds), the sound-absorbing properties of the body can be further improved. To do this, as the material of the rods 10 (Fig. 1), plastic (or textolite) should be used, applied to the rods of the notch (or flats) in order to enhance the adhesion of the rods to the filling material. After assembly and pouring the housing screws 12 (figure 2) to turn out. As a result of the elimination of the mechanical connection of the rods with the side walls, there is a decrease in the vibrational activity of the housing.

Claims (1)

A centrifugal fan comprising a composite housing of an inner thin-walled spiral sheet, an outer frame of thick-walled plates with side walls, and a vibration-absorbing material placed in the volume between the plates and the sheet, characterized in that the supports for the sheet are made in the form of rods connecting the side walls of the housing, the axes of the rods are located at the radii R′n = Rn + S + 0.5d ″, where Rn is the corresponding radius of the spiral sheet, n is the ordinal number of the radius, S is the thickness of the sheet, d is the diameter of the rod.

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