RU2015418C1 - Axial-flow fan - Google Patents

Abstract

FIELD: fan making. SUBSTANCE: axial-flow fan has body with intake and pressure spaces and impeller with blades provided with centrifugal ducts installed in it. Inlet holes of centrifugal ducts are hydraulically connected to intake space and outlet holes - to pressure space. Body is provided with rotary and ring ducts inter communicating in sequence. The latter of ducts is located concentrically on body. Body includes ring slit made in zone of outlet holes of centrifugal ducts of blades and ejector. Active nozzle of ejector communicates with centrifugal ducts of blades with the aid of slit, passive nozzle communicates with atmosphere. Rotary duct is used as mixing chamber. Profiled windows are made in walls of rotary and ring ducts. EFFECT: expanded operational capabilities of fan. 2 cl, 3 dwg

Description

 The invention relates to fan building.

 A fan is known, comprising a housing with suction and discharge cavities and an impeller mounted in the housing with axial blades having centrifugal channels with inlet and outlet openings, the latter being hydraulically connected to the discharge cavity. The centrifugal channels of the blades are used to eliminate the flushing of the flow from surfaces located in the injection cavity.

 A disadvantage of the known device is its low efficiency.

 Of the known closest to the described invention is an axial fan containing a housing with a wall and cavities of suction and discharge, an impeller installed in the housing, the blades of which have centrifugal channels with inlet and outlet openings, the inlet openings are located in the suction cavity, and the outlet openings are hydraulically associated with the injection cavity.

 A disadvantage of the known fan is its low performance.

 The technical task of the invention is to increase fan performance.

 The technical problem is solved due to the fact that in an axial fan containing a housing with suction and discharge cavities, an impeller installed in it with blades equipped with centrifugal channels, the inlet openings of which are hydraulically connected to the suction cavity, and the outlet openings, with the discharge cavity, in accordance with According to the invention, the casing is equipped with rotary and annular channels in series with each other, the last of which is concentric with the casing, with an annular slot made in the area of the outlet openings Tille centrifugal vane channels and an eductor which reportedly active nozzle through slits to the channels of the blades, the passive nozzle connected to atmosphere and the mixing chamber serves as a turning channel, wherein in the walls of the rotary and annular channels formed profiled window.

 Figure 1 shows an axial fan, a longitudinal section; figure 2 - rotary and annular channels of the axial fan (fragment), a longitudinal section; figure 3 is a view along arrow A in figure 2.

 The arrows indicate the direction of air flow during operation of the axial fan.

 The axial fan comprises a housing with a main wall 1, an additional coaxial external wall 2, suction and discharge cavities 3, an impeller 5 mounted in the housing with blades 6 equipped with centrifugal channels 7, the inlet openings 8 of which are hydraulically connected to the suction cavity 3, and the output openings 9 - with a discharge cavity 4 through sequentially arranged annular slot 10 in the main wall 1 of the housing, an ejector (the active nozzle 11 of which is communicated through the slot 10 with the channels 7 of the blades 6, and the passive nozzle 12 is connected It is connected with the atmosphere through a window 13), a rotary channel 14 and an annular channel 15 made between the main wall 1 and the additional wall 2 of the housing. The annular channel 15 is located concentrically to the housing, the length of the main wall 1 of the housing being limited by the end of the annular channel 15. The mixing chamber in the device is the rotary channel 14. In the walls of the rotary 14 and annular 15 channels, transverse profiled windows 16 can be made.

 The axial fan operates as follows.

 When the impeller 5 rotates, one part of the air from the suction cavity 3 is moved by the blades 6 in the discharge surface 4 by the central axial flow directed by the inner surface of the main wall 1 of the housing, and the other part of the air from the suction cavity 3 moves into the discharge cavity 4 through centrifugal channels 7 through the annular slot 10, active nozzle 11 of the ejector, window 13 (where the centrifugal air stream captures an additional part of the air from the atmosphere), passive nozzle 12 of the ejector, rotary 14 and the annular 15 channels. At the exit of the annular channel 15, an external coaxial flow is formed, the volume of which (per unit time) is greater than the volume (per unit time) of the flow through the centrifugal channels 7 of the blades 6. Both flows have almost the same pressure and speed and move in parallel without mutual interference, which reduces to a minimum loss of energy on impact, mutual interference and turbulence. From the injection cavity 4, air is supplied to the consumer.

 The described design allows to increase the performance and efficiency of the axial fan.

Claims (2)

 1. AXIAL FAN, comprising a housing with suction and discharge cavities, an impeller installed therein with vanes equipped with centrifugal channels, the inlet openings of which are hydraulically connected to the suction cavity, and the outlet openings with a discharge cavity, characterized in that, in order to increase productivity , the housing is equipped with sequentially interconnected rotary and annular channels, the last of which is concentric with the housing, with an annular gap made in the area of the centrifugal outlet openings anal blades, and an ejector, the active nozzle of which is communicated by means of a gap with the channels of the blades, the passive nozzle is connected with the atmosphere, and the rotary channel serves as a mixing chamber.  2. The fan according to claim 1, characterized in that profiled windows are made in the walls of the rotary and annular channels.

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