SU1252553A1 - Axial-flow fan - Google Patents

Description

2. A fan according to Claim 1, characterized in that the concave side of the exit portion of each alignment blade faces the concave side of the impeller blade.

3. Fan according to claim 1, characterized in that the ratio of the internal diameter of the housing

This invention relates to a fan toroid building.

The aim of the invention is to expand the zone of stable operation and increase the efficiency of the fan.

This goal is achieved by the fact that, in an axial fan, comprising a housing with an annular chamber, bounded on the flow part side with a static ring, an impeller mounted in the housing and an annular array of rectifying vanes located in the chamber, forming an interscapular channels communicated at the inlet and the outlet with the flow part, the exit edges of the rectifying vanes are located parallel to the axis of the fan and have an arcuate shape in the radial section.

In addition, the concave side of the exit section of each spreader blade faces the concave side of the impeller blade.

On the other hand, the internal diameter of the housing to the outer diameter of the impeller blades is 1-1.01 and the ratio of the diameter of the stator ring to the outer diameter of the impeller blades is 1.01-1.05.

FIG. 1 shows an axial fan, a longitudinal section; in fig. 2 — node G in FIG. 1, in FIG. 3 is a section LL in FIG. 2; in fig. A - section B-B in FIG. 2

The axial fan comprises a housing 1 with an annular chamber 2, bounded on the side of the flow part 3 by a stationary ring 4, an impeller wheel 5 mounted in the housing 1 and an annular array of spraying vanes 6 located in the chamber 2 forming inter-blade channels 7, inlet and outlet with flow part 3.

to the outer diameter of the impeller blades is 1-1.01.

4. A fan according to claim 1, characterized in that the ratio of the diameter of the stator ring to the outer diameter of the impeller blades is 1.01-1.05.

Moreover, the output edges 8 of the alignment vanes 6 are parallel to the d axis of the fan and have an arcuate shape in the radial section. L is also the concave side 9 of the exit section 10 of each aligning blade 6 facing the concave side 11 of the blade 12 of the impeller 5.

In addition, the ratio of the inner diameter D, the housing 1 to the outer diameter D. of the blades 12 of the impeller 5 is 1-1,01 and the ratio

diameter P

3

stator ring 4

to the outer diameter D of the blades 12 of the impeller 5 is 1.01-1.05. On the inlet of the fan to the housing 1 is connected the outlet 13.

The axial fan operates as follows.

When the blades 12 rotate, the suction flow through the inlet of the housing 1 passes into the flow part 3, then between the blades 12 passes into the outlet 13 and exits the fan axially, creating a certain pressure and maximum flow in the outlet 13. As the increase in resistance in the pipe 13, the fan supply decreases, and the pressure increases. At a certain feed value in the peripheral part of the working blades 12, a flow breaks down; at the exit portion deviates radially, twists

31

against the direction of rotation of the working blades 12 and goes to the flow-through part 3. Due to the twisting of the flowed-off part, it is pressed to the periphery of the flow-through part 3 and does not prevent the intake of exhausted air. This ensures stable operation of the fan.

Thus, the fan continues to work stably in the case when the flow

534

decreases to zero, while the pressure in the outlet nozzle 13 does not decrease, and the rate of circulation of the flow that has flowed off increases.

The proposed axial-flow fan allows pr operation on disruptive modes to significantly increase the pressure, flow, efficiency and significantly expand the range of operating modes of the fan.

12

FIG. 2

7 bb

Editor A. Shandor

Compiled by N. Stuchenkova Tehred E. Chizhmar

Order 4608/38

Circulation 586 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, st. Project, 4

Phew

Proofreader E. Sirohman

Claims (5)

1. AXIAL FAN, comprising a housing with an annular chamber bounded by a stator ring on the flow side, an impeller mounted in the housing and an annular array of straightening vanes located in the chamber, forming interscapular channels communicated at the inlet and outlet with the flowing part, characterized in that, in order to expand the zone of stable operation and increase efficiency, the output edges of the straightening blades are parallel to the axis of the fan and have an arcuate shape in the radial section. FIG. 1 52553 2. The fan according to π. 1, characterized in that the concave side of the outlet portion of each straightening blade faces the concave side of the impeller blade. 3. The fan according to claim 1, characterized in that the ratio of the inner diameter of the housing to the outer diameter of the impeller blades is 1-1.01. 4. The fan according to claim 1, about l and 5, in which the ratio of the diameter of the stator ring to the outer diameter of the impeller vanes is 1.01-1.05.