SU1488693A2 - Ventilation air supply duct - Google Patents

Description

The invention relates to air heating, ventilation and air conditioning, in particular to air distribution devices $ (supply air ducts), and is an improvement of the device by autosw, No. 1161794,

The purpose of the invention is the expansion of functionality,

In Fig, 1 shows the proposed duct, General view; in FIG. 2 a section AA in FIG. 1; on figs, - section BB in Fig, 1; in Fig.4 - section • BB in fng. 1; in Fig.5 - section GG 15 ha figure 4,

The ventilation air supply duct contains alternating links 2 20 and 3Z connected in series with each other using a detachable sleeve 1 and an air exhaust device 4 having exhaust windows 5 located on the fixed element and a rotary element 6 with distribution windows 7 located concentrically to the links 2 and 3. The psi-flap element 6 is provided with a shell 9 surrounding it with the formation of an annular gap 8, connected to it by means of radial ribs 10, and the discharge ducts ₍ windows 5 are located uniformly around the entire circumference forming the surface of the box 1 and the rotary member 6. The windows 11 have folds 90 inside the sleeve 1. ^e air- water 35 further comprises, arranged on both sides of the discharge sleeve 1 with a cylindrical section 12 made on their circumference with at least two exhaust radami otver- 40, 13, a rotary coupling 14 with a perforated section 15, installed between the links 16 and 17, a perforated damper 18, installed in the area of the perforated section 15 45 of the coupling 14, the latter having guides 19 attached to its outer the surface in the area of the perforated portion 15, and the diaphragm 20 installed at its outlet, 50 and the shutter 18 is placed in the guides 19. The holes 21 of the perforated portion 15 and the holes 22 of the perforated shutter 18 are provided with deflecting visors 23 and 24., directed to the opposite friend . relative to the other side. The outlet openings 13 of the cylindrical sections 12 are also provided with bends 25. The cylindrical sections 12 are provided with rotary elements 26 with holes 27 arranged to form an annular gap 26. The supply ventilation duct works as follows.

The supply air passing through the link 2 enters through the exhaust ports 5 of the air exhaust device 4 of the coupling 1 and the distribution windows 7 into the annular gap 8. From the latter, air flows in the form of two annular jets that adhere to the outer surface of the cylindrical sections 12 and the outer surface of the links 3, When the airflow is laid on the outer surface, a wall boundary layer is formed, which has a stabilizing effect on the turbulent structure of the jet. Exiting due to the difference in static pressures inside the sections 12 and the environment, air through the outlet openings 13 with bends 25 turbulizes the wall boundary layer. At the same time, the turbulent exchange of the jet and the surrounding air increases, i.e., the ejection ability of the jet increases, which leads to a more intense attenuation of the speed and temperature in the jet. The amount of air blown into the stream flowing out of the openings 13 is regulated depending on the initial parameters of the jets leaving the annular gap 8 by rotating the rotary element 25 and displacing its openings 27 relative to the openings 13 of section 12. The passage section of the openings 13 changes which allows you to adjust the air flow for blowing. The amount of air leaving the annular gap 8 is controlled by changing the flow area of the windows 5 and 7 when the element 6 is rotated around the coupling 1.

Spreading along the surface of links 2 and 3, the air jet ejects the surrounding air, is laid on the outer surface of the additional transverse coupling 14, determining the place of separation of the jet from the air exhaust device 4, and with the help of the air entering through the perforated section 15, is torn off from its surface and transported to direction perpendicular to its axis (to the desired location). The diaphragm 20, located inside the additional coupling 14, creates an increased pressure (back-up) in the injection region and provides the necessary intensity of injection to detach the supply jet and transport it to the workplace (not shown). The amount of blown air is regulated depending on the amount of air leaving the annular gap 8, by moving the perforated valve 18 within the guides 19,

Claims (1)

Formula of the invention Ventilating supply air duct according to autosv. No. 1161794, characterized in that, in order to expand the functionality, the duct further comprises exhaust cylindrical sections located on both sides of the coupling with at least circumferential sections two rows of outlet openings, a rotary coupling with a perforated section installed between the links, a perforated damper installed in the area of the perforated section of the coupling, the latter having guides, 5 attached to its outer surface: nostzh in the area of the perforated section, and a diaphragm mounted at its outlet, and the shutter is placed in the guides. GT