SU1281834A1 - Arrangement for feeding incoming air - Google Patents

Abstract

The invention relates to the field of ventilation and allows for an increase in the attenuation rate of the inlet jets. The implementation of the lateral closed wall 3 of the air distribution nozzle 2 toroidal allows to obtain an axisymmetric, fan-shaped or conical jet. The outlet channel 4 has the form of a confuser in a radial settlement and its walls 3 forming on the surfaces are a closed sinusoid. This ensures the outflow of air flow in the form of an axisymmetric ribbed jet with forced pacnjnpeenie in planes of the radial cross section of the torus, which, in turn, provides a large surface contact of the jet with stationary air and its rapid attenuation. The constancy of the length of channel 4 ensures uniformity of speeds but the length of the sinusoid at its output, which leads to a uniform damping of the jet. Radial partitions 9, installed in channel 4, prevent the flow of air along a sinusoid and stabilize the flow of air. 1 hp f-ly, 5 ill. 2 (L

Description

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FIG.

The invention relates to the field of ventilation and can be used to distribute the supply air in rooms of various purposes.

The aim of the invention is to increase the attenuation rate of the inlet jets.

FIG. 1 shows the device, a general view; in fig. 2 - the same plan view; in fig. 3 is a section A-A in FIG. 2; in fig. 4 is a section BB in FIG. 2; in fig. 5 is a sectional view BB in FIG. 2

The supply air supply device includes an air supply pipe 1 and an air distribution nozzle 2, having a side closed wall 3 with an outlet channel 4 and two end caps 5 and 6, the wall is fixed on the air supply pipe 1, the side wall 3 is curved, the outlet channel 4 has a confusor shape in radial section and is made such that its generators 7 and 8 on the surfaces of wall 3 are a closed sinusoid, and radial partitions 9 are installed in the outlet channel 4. ki exhaust passage 4 formed streamlined.

Device for supplying fresh air works as follows.

The intake air through the air inlet pipe 1 enters the air distribution nozzle 2, from the outlet channel 4 the stream is discharged into the room (not shown).

The implementation of the lateral closed wall 3 of the air-distributing nozzle 2 of the toroidal one allows to obtain an axisymmetric, fan-shaped or conical jet.

Due to the fact that the outlet channel 4 has the shape of a confuser in the radial section and its entrance edges are streamlined, a uniform velocity profile at the outlet and a decrease in the channel resistance is provided.

By making the discharge channel 4 such that its forming 7 and 8 on the surfaces of the side wall 3 are a closed sinusoid, the outflow of the air flow in the form of an axially symmetric ribbed jet with forced spreading in the radial section planes is ensured. The ribbing of the jet flowing out of the channel 4 and its forced spreading provide a large surface of the contact of the jet with the stationary air of the room and the rapid attenuation of the jet. The constancy of the length of the outlet channel 4 ensures uniform speeds along the length of the sinusoid at the exit of channel 4, which leads to a uniform damping of the jet.

Radial partitions 9 in the exhaust channel 4 prevent the flow of air along the sinusoid (with a large amplitude of the sinusoid) and stabilize the air flow.

Claims (2)

1. A supply air supply device containing an air inlet nozzle and an air distribution nozzle having a side closed wall with an exhaust channel and two end caps, one of which is fixed to the air inlet nozzle, characterized in that in order to increase the attenuation rate of the inlet air jets, the side wall is made toroidal, the outlet channel has a confuser shape in radial section and is made such that its walls forming on the surfaces are a closed sinusoid. 2. A device according to claim 1, characterized in that radial partitions are installed in the outlet channel. -BUT