RU2395008C1 - Cross flow fan - Google Patents

Abstract

FIELD: engines and pumps. ^ SUBSTANCE: cross flow pump consists of housing with impeller arranged therein, intake opening and discharge branch pipe separated by adjacent wall furnished with shutter grid fitted nearby impeller. Discharge branch pipe accommodates wall dividing it into top and bottom outlet channels. Note here that said separation wall stays 0.9Ç1.2 D2 from impeller axis and has transverse opening accommodating two adjusting flaps fitted on one axle located 0.3Ç0.4 D2 from separation wall edge. Free ends of said flaps are directed opposite the impeller. ^ EFFECT: reduced noise, independent adjustment of airflows with uniform fields of speeds. ^ 1 dwg

Description

The present invention relates to the field of fan engineering, and, in particular, can be used in ventilation, heating and as an air flow generator, for example, in pneumatic systems of grain and seed cleaning machines.

Known diametrical fan, comprising a housing with an inlet and outlet pipe and separating them by a flat wall equipped with a grill on the side of the impeller, the blinds of which are directed to the impeller [1].

In this fan, the center of the large vortex, located in the radial clearance between the impeller and the flat wall, is stabilized by a louvre grille. Moreover, stabilization of the center of rotation of the vortex helps to reduce noise and expand the range of stable operation of the diametrical fan.

However, this fan does not have advanced capabilities for using the air flow; it can pump air through the outlet pipe into only one technological zone of the grain cleaning machine. This circumstance limits its use in pneumatic systems of grain and seed cleaning machines.

The closest in technical solution and the achieved result to the present invention relates to a diametrical fan, consisting of a casing with an impeller mounted therein, an inlet and an outlet pipe, separated by an adjacent wall ending at the impeller with a louvre grille, having a dividing located inside the outlet pipe wall at a distance of 1,25 ... 1,5D ₂ from the impeller axis and at a distance of 0,23 ... 0,33D ₂ from the adjacent wall dividing it into an upper and lower outlet e Channels, mounted on its edge and facing towards the impeller adjusting damper 0,3 ... 0,4D length of ₂ [2] - prototype.

Due to the fact that this fan can pump air through the lower and upper channels of the outlet pipe into different technological zones of the grain cleaning machine, it became possible to expand the range of fan use. However, the location of only one adjusting flap on the edge of the dividing wall does not provide independent regulation of air flow in the upper and lower output channels, which is necessary for high-quality cleaning of grain material from airborne impurities.

In addition, the direction of the movable end of the adjusting flap toward the impeller blade due to the turbulent effect of the air flow leaving its interscapular space causes alternating oscillation of its free end. This leads to resonance phenomena, causing an increase in the level of aerodynamic noise during fan operation, uneven air flow in the lower and upper output channels and a decrease in the strength and durability of the axial fastening of the damper.

The essence of the invention lies in the fact that the well-known diametrical fan, consisting of a housing with an impeller mounted therein, an inlet and an outlet pipe, separated by an adjacent wall, ending at the impeller with a louvered grille, having a dividing wall located inside the outlet pipe separating it on the upper and lower output channels, the dividing wall, installed at a distance of 0.9 ... 1.2D ₂ from the axis of the impeller, has a transverse window, in which one axis, located at a distance of 0.3 ... 0.4D ₂ from the edge of the dividing wall, there are two adjustment flaps, the free ends of which are directed in the opposite direction from the impeller.

As a result of the analysis of literary sources, no identical execution of the proposed device was found. Moreover, distinctive features from the prototype signs give the claimed combination of new properties, manifested in a positive effect.

The use of two adjusting dampers allows independent control of the air flow rate in the lower and upper output channels, which is necessary for high-quality cleaning of grain material from air-separated impurities.

The installation of two adjusting dampers on one axis provides the convenience and speed of adjustment of the dampers by the operator, determines the ergonomics of the proposed development, as well as lower metal consumption and, accordingly, the cost of manufacturing compared to the two-axis installation of dampers.

The installation of the dividing wall in the outlet pipe at a distance of 0.9 ... 1.2D ₂ from the axis of the impeller eliminates the contact of a large vortex with the edge of the dividing wall when the center of rotation is stabilized by a louvre grill located on an adjacent fan wall, which ultimately helps to reduce the level aerodynamic noise and expanding the range of stable operation of the diametrical fan.

The location of the axis of attachment of the adjustment flaps at a distance of 0.3 ... 0.4D ₂ from the edge of the dividing wall provides alignment of the structure of the supplied air flow, necessary for better cleaning of the grain material.

Orientation of the free ends of the adjustment flaps to the opposite side from the impeller provides smooth control of the air flow rate in the upper and lower output channels, eliminates the occurrence of resonance phenomena in the flaps, which increases the durability of the service axis of their attachment and reduces the level of aerodynamic noise of the fan.

The presence of a transverse window in the dividing wall, in which the control flaps are installed, determines the equalization of the static pressure in front of and behind the flaps, as a result of which the oscillatory effects of the flaps are reduced to a minimum and the uniformity of the air flow rates in the lower and upper output channels after the control flaps, which is necessary for high-quality cleaning of grain material when using a fan in pneumatic systems of grain and seed cleaning machines.

As a result, during the operation of the proposed device, a positive effect is achieved that exceeds the effect of the prototype. A new set of features of the claimed device, providing a positive effect, has significant differences.

The drawing shows an aerodynamic diagram of a diametrical fan, where the arrows show the direction of air movement.

The diametral fan consists of a housing 1 and an impeller blade 2 installed therein with an outer diameter D ₂ , an inlet 3 and an outlet pipe 4 of depth H, separated by an adjacent wall 5, ending at the impeller 2 with a louvre grill 6. A dividing wall is installed inside the outlet pipe 4. 7 at a distance of 0.9 ... 1.2D ₂ from the axis of the impeller 2. The dividing wall 7 divides the output pipe 4 into upper 8 and lower 9 output channels with a depth of h ₁ and h _2, respectively. Channels 8 and 9 can operate in independent suction systems of grain cleaning machines. A transverse window 10 is located on the dividing wall 7, in which two adjustment dampers 12 and 13 are installed on one axis 11, the free ends of which are directed in the opposite direction from the impeller 2. The mounting axis of the dampers 12 and 13 is located at a distance of 0.3 ... 0, 4D ₂ from the edge of the dividing wall.

Diametric fan operates as follows.

When the impeller 2 rotates, air through the inlet 3 is captured by the blades and passes through its internal space, from where it passes through the impeller 2 again and is pumped into the outlet pipe 4, where the dividing wall 7 is divided into two streams: one passes along the upper 8 and the other on the bottom 9 output channels. The housing 1 generates and directs the air flow leaving the impeller 2, and the wall 5 separates the incoming and outgoing air flows. In this case, a vortex is formed, the center of which is stabilized by the louvre grille 6, which causes a decrease in the noise level. Independent smooth regulation of the air flow rate in the upper 8 and lower 9 output channels is carried out by overlapping their bore with the adjustment flaps 12 and 13.

The total air flow of the fan is determined by the expression:

Q = Q ₁ + Q ₂ ,

where Q ₁ and Q ₂ - air flow in the lower and upper output channels, respectively, m ³ / h

The air flow in the output channels can be represented in the form of expressions:

where µ ₁ µ ₂ - flow rates of the valves; h ₁ and h ₂ - the depth of the upper and lower output channels, respectively, m; l ₁ and l ₂ - the length of the adjustment flaps, m; ΔB is the useful width of the fan, m; Δυ ₁ and Δυ ₂ - average air speeds in the output channels, m / s; α and β are the opening angles of the dampers, deg.

The advantage of the invention in comparison with the prototype is to reduce the level of aerodynamic noise of the fan, independent regulation in the output channels of the air flow with a more uniform velocity field.

Literature

1. A.S. No. 1514144 USSR, MKI ⁴ , F04D 17/04. Diametrical fan / N.P. Sychugov, A.I. Burkov, N.I. Grabelkovsky, N.V. Zholobov, A.A. Gehtman, V.V. Antyukhin. - No. 4002185 / 25-06; Claimed 11/27/85 // Discovery. Inventions - 1987. - No. 20.

2. Patent No. 2176034 of the Russian Federation, MKI ⁷ F04D 17/04. Diametrical fan / N.P. Sychugov, N.V. Zholobov, S.V. Korneev. - No.2000106273 / 06; Stated March 13, 2000 // Inventions. Useful models. - 2001. - No. 32 - prototype.

Claims (1)

A diametrical fan, consisting of a housing with an impeller mounted therein, an inlet and an outlet pipe separated by an adjacent wall ending at the impeller with a louvre grille, having a dividing wall located inside the outlet pipe, dividing it into upper and lower output channels, characterized in that the dividing wall, installed at a distance of 0.9 ... 1.2D ₂ from the axis of the impeller, has a transverse window in which divide on one axis at a distance of 0.3 ... 0.4D ₂ from the edge the flax wall, there are two adjustment flaps, the free ends of which are directed to the opposite side from the impeller, where D ₂ is the outer diameter of the impeller of the fan blade.

Images