RU90858U1 - COMBINED DIAMETER FAN - Google Patents

Abstract

A combined diametral fan, comprising a housing with an inlet and an outlet and a flat wall separating them, provided with a louvre grill, and an impeller installed in the housing, at the inlet edge of the fan housing, a rectilinear wall fixed parallel to the separating flat wall forming the inlet channel above the inlet, however, the rectilinear wall is mated to the input edge of the housing, for example, along a logarithmic spiral, and the portion of the fan housing beyond the input edge made of louvre, characterized in that the louvered section of the fan casing is connected with an additional suction pipe, and on the edge of the rectilinear wall of the inlet channel and at the edge of the wall of the additional suction pipe closest to the input edge of the fan casing, pivotally mounted adjustment flaps are installed.

Description

The proposed utility model relates to the field of fan engineering and can be used in industrial and agricultural production.

A diametral fan is known, comprising a housing with an inlet and an outlet and a flat wall separating them, provided with a louvre grill, and an impeller installed in the housing, and a rectilinear wall parallel to the separating flat wall forming an inlet channel is fixed on the fan inlet edge above the inlet. and the pairing of the flat wall with the inlet edge of the fan, in this case, is performed, for example, along a logarithmic spiral [1].

This fan provides a technical result, which consists in the possibility of suction of the air flow relative to the pumped stream at an angle of 360 °, counter. However, such a fan does not have an additional suction pipe, which allows to increase the pressure and air flow in the region from nominal to maximum fan performance. Also, this fan does not have adjusting dampers that allow smooth adjustment of the air flow rate of the fan.

The closest in technical solution and the achieved result to the proposed utility model includes a diametrical fan, comprising a housing with an inlet and an outlet pipe and a flat wall separating them, provided with a louvre grille, and an impeller installed in the housing, and the fan housing portion behind the inlet edge is made louvered length 0.4 outer diameter D ₂ wheels and above the front edge of the housing at a distance of 0.17 D ₂ installed continuous curved plane and terminating pivotally s mounting on the fan housing for louvered portion forming the suction passage wedge shape with the initial section at the input edge of the fan case [2] - prototype.

In a known diametrical fan, as a result of the vacuum created by the rotating impeller, a small vortex, the center of rotation of which is located in the radial clearance between the impeller and the inlet edge of the housing, is displaced along the impeller towards the suction channel, forming an additional air flow passing through a curved louvre grille and merging into the body with the main air flow. As a result of this, the pressure in the range of nominal and maximum flows increases, the air flow rate of the fan increases, and noise also decreases. However, when working in the field of low costs, for example, due to fluctuations in the supply of grain material to the working area, the total pressure decreases due to the movement of part of the air flow from the fan casing through the curved louvre grille through the suction channel to the opposite side of the rotation of the impeller. The increase in pressure in this case to the parameters of the initial circuit is possible by turning a continuous curved plane in the direction of the curved louvre lattice up to their contact. It is difficult to ensure tightness between a solid curved plane and the fan casing, and, accordingly, smooth air speed control. In addition, this fan does not have an inlet channel, which could provide a technical result, which consists in the possibility of suction of the air flow in the discharge pipe at an angle of 360 °, counter.

The essence of the invention lies in the fact that the well-known countercurrent diametrical fan, comprising a housing with an inlet and an outlet and a flat wall separating them, equipped with a louvre grille, and an impeller installed in the housing, is mounted on the inlet edge of the fan housing above the inlet a rectilinear wall parallel to the dividing flat wall forming the inlet channel, while the rectilinear wall is mated to the inlet edge of the housing, for example, along ogarithmic spiral, and the part of the fan casing behind the inlet edge is made louvered, the louvre section of the fan casing is paired with an additional suction pipe, and pivotally mounted adjusting dampers are installed on the edge of the rectilinear wall of the inlet channel and the closest to the inlet edge of the fan casing, the wall edge of the additional suction pipe .

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

Pairing the louvre section of the fan casing with an additional suction pipe allows, when the fan is operating in the range from nominal to maximum performance, due to the discharge created by the rotating impeller, to suck in an additional air stream through the additional suction pipe, and which, passing through the curved louvre grille, merges with main air flow. As a result of this, the pressure in the range of nominal and maximum flows increases, the air flow rate of the fan increases.

In addition, an additional suction pipe contributes to the formation and direction of the air additional flow, which causes a smooth fusion of the air additional flow with the main air flow in the fan casing. In addition, the inlet channel and an additional suction pipe allow you to install the adjustment flaps in them.

The location on the edge of the rectilinear wall of the inlet channel of the externally fixed adjusting flap allows for smooth control of the air flow rate in the fan inlet channel, causing smooth control of the speed of the main air flow in the fan casing.

The installation of a pivotally mounted adjusting flap on the closest to the inlet edge of the fan casing wall edge of the additional suction pipe allows you to smoothly control the speed of the air flow coming from the additional suction pipe into the fan casing, causing the uniformity of the main air flow in the fan casing.

The additional suction pipe itself allows you to easily and tightly connect the fan through a flange connection, for example, to the working bodies of the air path of grain and seed cleaning machines to remove dusty air from technological zones during their operation. In addition, an additional suction pipe reduces the turbulence of air through the curved louvre grille, which reduces the noise level created by the fan.

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 countercurrent diametrical fan.

The combined diametrical fan comprises a housing 1 with an inlet 2, an inlet 3 and an outlet 4 and a flat wall 5 separating them with a louvre grill 6, and also an impeller 7 installed in the housing 1. On the inlet edge 8 of the fan housing 1 by means of a curved connecting plane 9, a rectilinear wall 10 is installed parallel to the flat dividing wall 5. The housing 1, below the input edge 8, is equipped with a curved louvre grille 11, the louvers of which are directed from the impeller 7. At the same time, the louvres Single grid 6 is conjugate with the additional suction nozzle 12. At the inlet edge of the straight wall 10 at the wall 3 and 13 additional suction nozzle 12 are pivotally mounted adjusting dampers 14 and 15.

Combined diametrically fan operates as follows

When the impeller 7 rotates, the air flow is sucked into the inlet channel 3 and is passed through the inlet 2 to the impeller 7, passes its internal space, leaves the wheel 7 and is pumped into the outlet pipe 4. The housing 1 generates and directs the air flow exiting the working wheels 7, and the wall 5 separates the incoming and outgoing air flows. This forms a vortex, the center of which is stabilized by a louvre grill 6. Stabilization of the center of the vortex helps to reduce the noise level and expand the range of stable operation of the diametrical fan. As the load on the fan increases, the center of the vortex, like that of a conventional diametrical fan, rotates a certain angle to meet the intake air flow. In addition, as a result of the vacuum created by the rotating impeller 7, additional air is drawn in from the additional suction pipe 12 and, passing through the curved louvre grille 11, merges in the fan housing 1 with the main air flow.

However, air suction through the additional suction pipe 12 can occur only to such a limit, while the air flow Q turns a certain flow limit Q _before. determined by the resistance of the network into which the fan is installed. If Q is less than Q _before. , then in the additional suction pipe 12 positive pressure will be observed, i.e. air injection from the housing 1 into the additional suction pipe 12 through a curved louvre grille 6. To eliminate this phenomenon when the fan is in operation, when Q <Q _pre. , pivotally mounted adjusting flap 15 is closed, blocking the inlet of the suction pipe. In this case, the fan enters the operation mode according to the usual scheme. When the fan operates in the mode when Q> Q _prev. , the shutter 15 controls the speed of the additional air flow entering the additional suction pipe.

The speed of the main air flow is regulated using a pivotally mounted adjustment flap 14.

Theoretically, the air flow rate with a combined diametrical fan, in the Q> Q mode _before, can be represented as an expression:

Q = Q ₁ + Q ₂ , m ³ / h (1)

where Q ₁ - air flow through the inlet channel of the fan, m ³ / h; Q ₂ - air flow through an additional suction pipe, m ³ / h

The advantage of the proposed utility model in comparison with the prototype is the stable values of the developed pressures in the entire area of performance, less noise, and the ability to smoothly adjust the air flow rates of the blower fan, as well as expanding the possibilities of using a diametrical fan.

Literature

1. Pat. 2166671 RF, IPC ⁷ F04D 17/04. Counterflow diametral fan / N.P. Sychugov, V.E. Saytov, R.G. Gataullin, N.V. Zholobov (RF). - No. 99127392/06; declared 12/21/99; publ. 05/10/01 // Inventions. Useful models. - 2001. - No. 13 (PC.). - S.356.

2. Pat. 2156380 of the Russian Federation, IPC ⁷ F04D 17/04. Diametrical fan / A.K. Bolotov, V.E. Saitov, R.G. Gataullin (RF). - No. 99106717/06; declared 03/29/99; publ. 09/20/2000 // Inventions. Useful models. - 2000. - No. 26 (IIh.). - S.333 - prototype.

Claims (1)

A combined diametral fan, comprising a housing with an inlet and an outlet and a flat wall separating them, provided with a louvre grill, and an impeller installed in the housing, at the inlet edge of the fan housing, a rectilinear wall fixed parallel to the separating flat wall forming the inlet channel above the inlet, wherein the rectilinear wall is mated to the input edge of the housing, for example, along a logarithmic spiral, and the portion of the fan housing beyond the input edge made of louvre, characterized in that the louvered section of the fan casing is connected with an additional suction pipe, and on the edge of the rectilinear wall of the inlet channel and at the edge of the wall of the additional suction pipe closest to the input edge of the fan casing, pivotally mounted adjustment flaps are installed.