UA55251A - Axial fan - Google Patents

Abstract

Axial fan has working wheel with paddles, housing, inlet unit.

Description

Description of the invention

The invention relates to an axial fan, and more narrowly, to a free fan, that is, not connected to any hydraulic network.

These fans are designed to provide dynamic gas flow pressure. They can be used to ventilate workshops, to ventilate livestock and poultry premises, to circulate air in drying rooms, cooling towers, and so on.

A large number of axial fans are known (see, for example, Galimzyanov F.T. Ventilyator!. - M. 70 "Mashinostroenie", 1968, -167p.), in which the impellers are installed in cylindrical housings covering the impellers with a small ( less than 0.01 from the height of the blade, otherwise 195) clearance. The entrance part of the case gradually narrows.

The disadvantage of such devices is low productivity when working without a network.

The design of the axial fan, which has an impeller with blades and a housing with a 72 inlet device, which smoothly tapers to a cylindrical part, in which the gap between the impeller and the housing is 4.995 (otherwise 0.049) of the height of the blade, is taken as a prototype (see: Brusilovsky I. V. Aerodynamic schemes and characteristics of axial fans of TsAGI. - Moscow: "Nedra", 1976. -200 p.). In the same copy on p. 16 shows a comparison of the aerodynamic characteristics of fans operating without a network with different clearances and it is claimed that the increase of the clearance from 0.895 (otherwise 0.008) to 4.995 (otherwise 0.049) from the height of the blade does not affect the performance, that is, the fan taken as a prototype has those the same disadvantages that also belong to analogues.

The disadvantage of such devices is low productivity when working without a network. In addition, such a small gap leads to an increase in the noise level, a decrease in manufacturability and a complication of the design.

The invention is based on the task of increasing productivity at the outlet of the fan while simultaneously reducing the noise level and improving manufacturability. "

The problem is solved by the fact that in an axial fan, which has an impeller with blades and a housing, the inlet device of which smoothly tapers to a cylindrical part, according to the invention, near the periphery of the impeller, the axial distance between the front edges of the blades and the beginning of the cylindrical part of the housing is 0, 5... 1.0 of the width of the blade, and the radial clearance between the impeller and the cylindrical part of the body is 0.08... 0.14 of the height of the blade. yu

The stated location of the impeller in the housing and the value of the axial gap between them affects the most optimal ejection of the additional part of the flow outside the periphery of the impeller, reducing the noise level. This is confirmed by the conducted experiments (see test report). yu

In fig. a longitudinal section of the fan is provided. 3o Impeller 1 with vanes 2 (I is the height of the vanes, c is the width of the vanes on the periphery) is installed inside the body, which has a cylindrical part З and an input device 4, which gradually tapers (for example, along the radius

K). The gap between the impeller and the housing is 0.08...0.14 |, and the distance from the front edge of the blade 5 to the beginning of the cylindrical part of the housing Z is 0.5...1.0 in. "

The device works like this. During rotation, the impeller 1 creates a pressure difference between the surfaces C of the blade 2, which leads to the occurrence of an air flow from the inlet device 4 to the exit from the cylindrical part 3. z» It is clear that with such large distances between the blades of the impeller and the inner surface of the housing, the requirements for wheel manufacturing accuracy.

Moreover, thanks to experiments, it was established that significant skewing and eccentricity of the location of the impeller in the housing do not lead to a decrease in productivity. The use of this invention makes it possible to achieve a significant effect both in the field of production and in the field of 4! operation of axial fans of this type. name)

Claims (1)

The formula of the invention "Z Axial fan, which includes an impeller with blades and a casing, the inlet device of which smoothly tapers to a cylindrical part, characterized in that near the periphery of the impeller, the axial distance between the front edges of the blades and the beginning of the cylindrical part of the casing is 0.5-1 0 width 29 of the blade, and the radial gap between the impeller and the cylindrical part of the housing is 0.08-0.14 of the height of the inner blade. 60 b5