RU2248505C1 - Deflector - Google Patents

Abstract

FIELD: ventilating engineering.

SUBSTANCE: deflector comprises hollow ring housing, conical hood, diffuser with air duct, fastening spacers, and lugs. The conical hood is closed with the flat base and secured to the top part of the housing from inside through lugs. The top part of the trancated cone is secured to the diffuser with air duct at a level of the bottom of the housing. The outer diameter of the trancated cone is equal to the diameter of the hollow ring housing and forms an optimal angle between the bottom plane of the hollow ring housing and side of the trancated cone.

EFFECT: enhanced efficiency.

1 dwg

Description

The invention relates to ventilation equipment, in particular to natural and local exhaust ventilation, and can be used in any ventilation systems.

Known deflector containing a hollow annular body, a cone-shaped umbrella, a diffuser with an air duct, mounting braces and paws [S.A. Kharlanov, V.A. Stepanov. Installation of ventilation and air conditioning systems, - 4th ed., Revised. and add. - M .: "Higher School", 1991, 259 p., P. 235].

The reason that impedes the achievement of the required technical result in the known deflector is associated with significant aerodynamic losses in the structure, which leads to a decrease in the efficiency of the device.

The task to be solved by the claimed invention is directed is the elimination of aerodynamic drag and the redistribution of air flows when a wind flows around a deflector.

When carrying out the invention, the task is solved by achieving a technical result, which consists in increasing efficiency, reducing material and energy costs.

The specified technical result is achieved in that the deflector according to the invention comprises a hollow annular body attached with spacers to the diffuser with an air duct, a cone-shaped umbrella with a closed flat base is located above its opening, and the upper part of the truncated air duct is attached to the diffuser with the air duct at the level of the lower plane of the hollow annular body cone, the diameter of the base of which is equal to the diameter of the hollow annular body. In this case, the truncated cone is installed in such a way that it forms an angle between the lower plane of the hollow annular body and the lateral surface of the truncated cone.

Analysis of the prototype shows that the inventive deflector differs in the design of the umbrella and the presence of a truncated cone and its installation.

The drawing shows a General view of the deflector.

The deflector comprises a hollow annular body 1, attached by spacers 2 to the upper part of the diffuser 3 with an air duct 4, above the opening of which a cone-shaped umbrella 5 is mounted. The cone-shaped umbrella 5 is closed by a flat base 6 and attached by tabs 7 to the upper part from the inside of the hollow annular body 1. On the level of the lower plane of the hollow annular body 1 to the diffuser 3 is attached the upper part of the truncated cone 8, the base diameter of which is equal to the diameter of the base of the hollow annular body 1. The truncated cone 8 is set so once that optimal angle formed between the lower plane of the annular hollow body 1 and the side surface of a truncated cone 8.

The wind air flow during the flow around the deflector creates a rarefaction of air around the hollow annular body 1, and an additional wind flow enters the annular gap between the lower plane of the hollow annular body 1 and the lateral surface of the truncated cone 8. Ejection flows are created in the upper part of the diffuser 3 and the flat base 6 , increasing the performance of the deflector.

Thus, a design change and additional installation of a flat base 6, a cone-shaped umbrella 5 and a truncated cone 8 on the diffuser 3 form an annular gap with an optimal opening angle between the lower plane of the hollow annular body 1 and the side surface of the truncated cone 8, thereby ensuring the use of wind pressure for the redistribution of air flows and the creation of an ejection effect in the deflector, which makes it possible to obtain an increase in productivity compared to conventional deflectors five to 40%.

Claims (1)

A deflector comprising a hollow annular body fixed with spacers to a diffuser with an air duct, above the opening of which there is a cone-shaped umbrella, characterized in that the cone-shaped umbrella is closed by a flat base, and the upper part of the truncated cone is attached to the diffuser on the lower plane of the said hollow annular case the base of which is equal to the diameter of the base of the hollow annular body, while the truncated body is installed so that an angle is formed between the lower plane of the polo of the annular body and the side surface of a truncated cone.