RU2298136C1 - Deflector - Google Patents

Abstract

FIELD: natural extraction of air from the rooms, applicable in ventilation.

SUBSTANCE: the deflector has an outer cylindrical housing, branch pipe with a hood, restrictor, circular shield in the mouth of the branch pipe forming a clearance with the cylindrical housing, all these components are coaxially positioned in the housing. A collector is installed at the inlet to the branch pipe net section from the inner side of the roofing, and additionally installed in the vertical axis of the branch pipe with the hood above it is an air conduct coupled to the Venturi tube with a wind vane fixed to it.

EFFECT: enhanced developed head, maximized use of the wind load, and reduced local-friction coefficient.

3 cl, 1 dwg

Description

The invention relates to ventilation, in particular to deflectors that carry out the natural extraction of air from rooms.

Known deflector (SU 909463, IPC F 24 F 7/00. Deflector. Barinov B.V., Barinov V.M. - Publish. 02.28.82. Bull. No. 8), including a vertical housing and a coaxially located duct in it, communicated with atmosphere with nozzles and equipped with an umbrella. Its disadvantage is insufficient air draft.

The closest in technical essence of the proposed device is a deflector (SU 1198335, IPC F 24 F 7/02. Deflector. Kilin PI, Shapotaylo VI - Publ. 15.12.1983. - Bull. No. 46), including a cylindrical a casing and a nozzle coaxially located with an umbrella above it and an annular screen. The screen is thermally insulated and mounted on the pipe at the level of its end, which is located at the middle of the height of the casing. The space between the pipe and the casing forms a statistical pressure chamber.

The disadvantage of this device is the incomplete use of wind load, low head and uneven absorption spectrum.

The aim of the invention is to increase the developed pressure, maximize the use of wind load and reduce the coefficient of local resistance.

This goal is achieved by installing a venturi with a weather vane on the deflector.

The essence of the invention is that at the entrance to the working section of the pipe on the inside of the roof, a collector is installed, and on the vertical axis of the pipe with an umbrella, an air duct is additionally installed above it, connected via a coupling to a Venturi pipe with a weather vane rigidly fixed to it, and the Venturi pipe is fixed rigidly on moving objects and movably fixed objects, while the nozzle can be made either square or rectangular section, and a cylindrical casing only round section, while the annular the gap between the screen and the casing should remain the same around the entire perimeter.

The drawing shows a diagram of the deflector, including the outer cylindrical casing 1, inside of which a pipe 2 with a screen 3 and heat insulation 4 and a throttle 5 is installed coaxially to it, and an umbrella 6 with thermal insulation 7 is placed above the pipe, an air duct 8 is connected above the umbrella, connected to the venturi 9 by means of a coupling 10, and a weather vane 11 is rigidly fixed on the venturi 9. On the roof 12, on which the pipe 2 is installed, a collector input 13 is located at its entrance from the side of the room 13. The lower cut of the cylindrical casing 1 with the screen 3 of pipe 2 forms the static pressure chamber 14. The annular screen 3 at the mouth of the pipe 2 forms an annular gap 15 with a cylindrical casing 1.

The proposed device operates as follows. The air from the room enters the pipe 2 with a uniform distribution over the entire cross section and minimal resistance, since the entrance to the pipe 2 is equipped with a manifold 13. Bypassing the throttle 5, air exits through the space between the cylindrical casing 1 and the umbrella 6. The presence of the screen 3 and the gap 15 excludes the flow of exhaust air to the roof of the building. The static pressure chamber 14 helps to maintain the temperature equal to the outside temperature, and the air through the gap 15 is injected with exhaust air from the pipe 2, washing the cylindrical casing 1 with cold air, which eliminates the formation of condensate and icing of the cylindrical casing 1 from the inside, since the temperature difference on the inside and the outer wall of the cylindrical casing 1 is zero, which prevents the formation of condensate. The presence of thermal insulation 4 on the nozzle 2 and the screen 3 eliminates condensation on the inner surfaces of the nozzle 2 and the shield 3. The venturi 9 is installed coaxially with the nozzle 8, which contributes to efficient operation under wind load at 0 ° C.

In order to maintain the normal position of the venturi relative to the direction of the wind at 0 ° С, a weather vane 11 is installed, and for reliable operation and to reduce the effect of friction, the venturi 9 is connected to the air duct 8 by means of a sleeve, which provides additional traction.

With a natural exhaust, air is removed from the room due to the difference in densities due to the temperature difference in the upper and lower zones, as well as due to the supply ventilation (mechanical or natural). Due to the infiltration, the removed air enters the inlet section of the nozzle having a collector inlet uniformly throughout the section with a minimum coefficient of local resistance.

Further, the thrust is carried out due to the pressure of the wind load P when flowing around the cylindrical casing:

where S is the density of the duct, kg / m;

ν - wind speed, m / s;

0 - washing angle, degrees (N.Ya. Fabrikan. Aerodynamics. - M .: Nauka, 1964. S. - 71, Fig. 4.33).

Thus, the proposed device allows to increase the total air pressure due to the use of wind load due to the use of a venturi pipe with a weather vane, comparable to the pressure of axial fans, and the annular gap provides washing of the inner surface of the cylindrical casing in the form of laying jets from the static pressure chamber to the entire height a cylindrical casing above the nozzle with the screen, which increases the efficiency of the deflector.

Claims (3)

1. A deflector comprising an outer cylindrical casing, a nozzle with an umbrella coaxially located therein, a throttle, an annular screen at the mouth of the nozzle, forming a gap with a cylindrical casing, characterized in that a collector is installed at the entrance to the working section of the nozzle from the inside of the roof, and the vertical axis of the pipe with an umbrella above it is additionally installed duct, connected by means of a coupling to the venturi pipe with a weather vane rigidly fixed to it. 2. The deflector according to claim 1, characterized in that the venturi is fixed rigidly on moving objects and movably on stationary objects. 3. The deflector according to claim 1, characterized in that the pipe can be either square or rectangular, and the cylindrical casing is only round, with the annular gap between the screen and the casing remaining the same around the entire perimeter.