SU1645786A1 - Apparatus for distributing air flows - Google Patents

Description

one

(21) 4689389/29

(22) 05/10/89

(46) 04.30.91, Bull. Number 16

(72) I.M., Fokin and L.E. Hertzman

(53) 697.92 (088.8)

(56) USSR Author's Certificate N 1314198, cl. F 24 F 13/06. 1987

(54) DEVICE FOR DISTRIBUTION OF AIR IN THE PREMISES

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(57) The invention relates to ventilation and allows improving the indoor microclimate by intensifying the damping rate and the temperature difference between the room air and the incoming air. The inlet duct 2 is connected to the air duct 1, with which the spherical honeycomb nozzle 3 is connected. Each cell 4 is diffusive and has radial faces of 5 and less

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FIG. I

the inner and larger outer bases 6 and 7 with the inlet and outlet windows 8 and 9, respectively made therein. The nozzles 3 are equipped with spiral-shaped flow swirlers 10 installed in the windows 8. The bases 6 are arranged to form a spherical expansion air chamber 11. The nozzle 2 is made in the form of a truncated cone connected

The invention relates to ventilation and can be used in an intake ventilation system for various premises.

The purpose of the invention is to improve the indoor microclimate 13 by intensifying the speed quenching and the temperature difference between the late room and fresh air.

FIG. 1 shows the device, a general view; in fig. 2 shows section A-A in FIG. one.

A device for air distribution in a room (not shown) contains a supply pipe 2 connected to duct 1, a spherical cellular nozzle 3 in communication with it, each cell 4 of which is diffuser and has radial faces 5 and a smaller inner and larger outer base 6 and 7 s respectively, the input and output windows B and 9 made therein. The nozzles 3 are provided with spiral-shaped flow swirlers 10 installed in the input windows 8 cells 4, the inner bases 6 cells A are arranged to form a spherical flax air chamber 11, while the inlet pipe 2 is made in the form of a truncated cone connected to the chamber 11 with a smaller base and having a riffen surface with alternating longitudinal grooves 12 and protrusions 13, and is equipped with a conical shell 14 attached to the protrusions 13 and covering the chute 12 with the formation of air channels 15 communicated on one side with the room, and on the other with the expansion chamber 11.

The device works as follows.

The intake air from the duct 1 is injected into the inlet nozzle 2, and then flows into the expansion chamber without the chamber 11, reducing its speed in it. At the same time, a vacuum is created in the air ducts 15, since the air flows into the chamber 11 through the supplying base to the chamber 11 and having a corrugated surface with alternating longitudinal grooves 12 and protrusions 13. The nozzle 2 is provided with a conical shell 14 attached to the projections 13 and covering the gutter 12 with the formation of air channels 15 between nimm. Channels 15 are communicated on one side with the room, on the other - with the camera 11.2 Il.

the side, made in the form of a truncated cone, at high speed, and the indoor air rushes into the channels 15 and enters the expansion chamber 11. In

The latter supply air is mixed with the room air, changing its temperature. In the cold season, when the outside air passes through the inlet pipe 2 on its grooved

the surface condenses the moisture falling out of the internal warm air, which flows along the channels 12 into the air channels 15, and together with the internal air that is drawn in from the room, is mixed with the external air, increasing its moisture content. Further, from the expansion air chamber 1 I, the air flow splits into honeycombs 4 nozzle 3, pre-twisting with

spiral swirlers 10 thread. In this case, the air jets are turbulized, reduce their speed and exit the spherical nozzle 3 with a silent dissipating diverging flare.

Claims (1)

Invention Formula A device for distributing indoor air containing connected to an inlet duct, a spherical honeycomb nozzle communicated with it, each cell of which is made diffuser and has radial faces and a smaller inner and larger outer bases with corresponding inlet and outlet windows, characterized in that, in order to improve the indoor climate by increasing the intensification of the damping rate and the temperature difference between the room air and the supply air, the nozzles is equipped with spiral-shaped flow swirlers installed in the entrance windows of the cells, the inner bases of the cells are located with the formation of a spherical expansion air chamber, while the inlet nozzle is made in the form of a truncated cone, connected by a smaller base to the chamber and having a corrugated surface with alternating longitudinal grooves and protrusions, and is provided with a conical shell attached to the latter and covering the groove to form air channels between them, communicated on one side with the room, and on the other - with an expansion chamber. FIG. g