RU95763U1 - RADIAL ROOF FAN - Google Patents

Abstract

 1. A radial roof fan, comprising an impeller made of curved blades in the form of a hollow spherical layer and mounted on the upper part of the samotyag pipe, the vertical axis of which rotates the impeller, characterized in that vertical blades are mounted on the upper base of the impeller on radial rods protruding beyond the ball belt. ! 2. The radial roof fan according to claim 1, characterized in that the blades are made in the form of a hollow cone.

Description

The utility model relates to exhaust air systems with radial flow, namely, centrifugal fans mounted on the roofs of buildings.

Known radial roof fan [1], comprising an impeller with backward curved blades, a support shell with flanges, on which a radial guide apparatus is mounted, an inlet manifold with a confuser suction nozzle having a diffuser portion introduced into the impeller at the end, and an electric drive with a protective casing.

The disadvantage of this fan is that it requires electricity to operate.

Closest to the proposed is a turbine fan "Whirlybird" company "Lomanco Inc" [2]. The known fan consists of an impeller in the form of a hollow spherical layer [3] formed by curved shaped blades. The impeller is mounted on the top of the self-drawn pipe. The wheel is fixed through two bearings on the vertical axis on which it rotates.

The disadvantage of this device is that when the wind is weak, the impeller rotates slowly and does not provide sufficient fan performance or cannot move at all due to the large inertia of the impeller, which cannot be overcome by the starting moment created by the weak wind. In addition, at medium and high wind speeds, the speed of rotation of the impeller, and, consequently, the performance of the fan is not high enough.

The problem the utility model aims to solve is to provide the necessary starting torque for dispersing the impeller in light winds and to increase the frequency of rotation of the impeller, and, consequently, the fan performance in moderate and strong winds.

The problem is solved due to the fact that in a radial roof fan containing an impeller made of curved blades in the form of a hollow spherical layer and mounted on the upper part of the self-drawn pipe having a vertical axis on which the impeller rotates, according to the utility model, on the upper the base of the impeller on the radial rods installed vertical blades protruding beyond the ball belt.

In addition, the blades are made in the form of a hollow cone.

Significant differences of the proposed fan compared to the prototype is the presence of additional blades on the upper base of the impeller, which increase the effective area of the impeller exposed to the wind, and thus ensure its rotation in light winds and increase the speed of rotation in medium and strong winds. The shape of the additional blades in the form of a hollow cone also contributes to a more efficient use of wind energy due to its concave profile.

The drawing of figure 1 shows a General view of a radial roof fan, figure 2 is a side view in section.

The radial roof fan contains an impeller 1, which is formed by curved profiled blades 2. The impeller 1 has the shape of a hollow spherical layer. This form is supported by internal stretch marks 3. The lower base of the impeller 1 is connected to the shell 4, with which the impeller 1 is mounted on the pipe traction (not shown conventionally).

The impeller 1, using the appropriate hubs 5, equipped with bearings, is mounted on the vertical axis 6, on which it rotates. On the upper base 7 of the impeller 1, blades 8 are vertically mounted, which are attached to the radial rods 9 and protrude beyond the ball belt of the impeller 1. The blades 8 are made in the form of a hollow cone. The number of additional blades 8 may be different, in this case, 4 additional blades 8 are installed on the impeller 1.

The radial roof fan operates as follows: after installing the pipe of the self-pulling fan with a fan on the roof of the building, the impeller 1 on the blades 2 and the additional blades 8 of which are affected by wind energy, starts to rotate. When the impeller 1 rotates under the influence of forced circulation, a pressure differential occurs between the outside atmosphere and the atmosphere of the ventilated room, due to which air from the reduced pressure area (ventilated room) flows into the increased pressure area of the outdoor atmosphere.

Information sources:

1. RF patent No. 2160393, IPC F04D 17/66, published on December 10, 2000

2. Turbine fan "Lomanco Inc", USA. The site of the company "Lomanco Inc" on the Internet, 1997-2006 (prototype).

3. M.Ya. Vygodsky “Handbook of elementary mathematics” M., “Science”, 1987 p.234, Fig. 195 (terminology)

Claims (2)

1. A radial roof fan, comprising an impeller made of curved blades in the form of a hollow spherical layer and mounted on the upper part of the samotyag pipe, the vertical axis of which rotates the impeller, characterized in that vertical blades are mounted on the upper base of the impeller on radial rods protruding beyond the ball belt. 2. The radial roof fan according to claim 1, characterized in that the blades are made in the form of a hollow cone.