RU2602059C1 - Air distributor panel type - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: invention relates to ventilation equipment and can be used in systems of ventilation, air heating and room air conditioning. In panel air distributor comprizing outer perforated plate, forming outer air-distributing surface of air distributor and inner perforated sheet with coefficients effective cross-section from 0.2 to 0.5, installed mutually parallel relative to each other at a distance not exceeding of one diameter of perforated hole, as well as with mutually shifted axes of perforated holes, additionally from the side of inner perforated sheet static pressure chamber is installed with a flat bottom, parallel to inner perforated sheet and located at a distance from inner perforated sheet, equal to, at least, three diameters of one hole of perforation of inner perforated sheet, at that in the center of the static pressure chamber bottom there is connection, cross-section area of which is equal to from 0.15 to 0.3 area of the external perforated air-distribution surface.

EFFECT: technical result is formation of turbulent rapidly damping fan-shaped plenum air flow, propagating with high damping rate of speeds and temperatures along aerodynamic axis of air distributor, with opening angle of flow from 70 to 180°.

1 cl, 3 dwg

Description

The invention relates to ventilation equipment and can be used in ventilation systems, air heating and air conditioning of premises for various purposes.

A device for air distribution is known (RF patent No. 2052732, IPC F24F 13/06, 06/01/1992), containing a box with a perforated panel and a movable screen with flanges installed in the box opposite the panel, while it is equipped with a perforated panel P installed between the movable screen and the perforated panel -shaped insert, the working screen of which has a window and side flanges, while the flanging of the screen and the insert are located with the formation of a confuser between them, and the window area of the working screen exceeds the passage area of the perforated panel. In addition, in the device, the movable screen is perforated, while its passage area does not exceed the passage area of the perforated panel.

The disadvantage of this device is the high aerodynamic drag and, as a consequence, the high level of generated noise, which worsens the comfortable living conditions of people in the exhaust air supply area of the air conditioning system. In addition, the frontal development of the supply stream (along the geometric axis of the device) can cause undesirable blowing in the area where people are.

The closest analogue of the invention is a perforated air outlet panel (RF patent No. 2552219 according to the application No. 13116798 04/03/2013, IPC F24F 13/06), which includes a thin-walled perforated sheet, while the air outlet panel is provided with a perforated additional sheet placed at a distance not exceeding a value 2 hydraulic diameters of the holes of the first perforated sheet along the air, and the relative relative positioning of the centers of the holes on both perforated sheets or their sections is subject to certain second patterns, whereby in the formula of the invention do not form a said pattern. Moreover, the perforated sheets or their sections are installed with the possibility of relative movement, it is also not said in which direction the perforated sheets or their sections can move.

A disadvantage of the known device according to the patent of the Russian Federation No. 2552219 is the formation at the outflow from the panel of direct-flow air flow along the geometric axis of the device and the low intensity of the reduction of speeds and temperatures in this direction, which does not exclude the sensation of blasting cold air and the corresponding discomfort in the area of a person.

The objective of the invention is to increase the comfort and energy efficiency of using an air distributor for ventilation of a person’s workplace.

The problem is solved due to the fact that in the panel air diffuser comprising an external perforated plate forming an external air-distributing surface of the air distributor and an internal perforated sheet with living section coefficients from 0.2 to 0.5, installed mutually parallel to each other at a distance not exceeding of the same diameter of the perforation hole, as well as with the mutually offset axes of the perforation holes, according to the invention from the side of the inner perforated sheet on the static pressure chamber with a flat bottom parallel to the inner perforated sheet and located at a distance from at least three diameters of one perforation hole of the inner perforated sheet, while a connecting pipe is installed in the center of the bottom of the static pressure chamber, cross-sectional area the cross section of which is in the range from 0.15 to 0.3 of the area of the outer perforated air-distributing surface. In addition, the connecting pipe may be round.

The technical result of the invention is the formation of a turbulent rapidly damping fan-shaped inlet air flow propagating with a high rate of attenuation of velocities and temperatures along the aerodynamic axis of the air distributor, with an opening angle of the flow from 70 to 180 °, which increases the comfort and energy efficiency of using the air distributor for ventilation of a person’s workplace.

In FIG. 1 shows a view of a panel air distributor from the side of the air-distributing surface;

in FIG. 2 shows a section through the air distributor AA in FIG. one;

figure 3 shows the leader B in fig. 2.

The panel air distributor includes an external perforated plate 1 (Fig. 1-3) provided with round holes 2 and forming an external air-distributing surface 3 of the air distributor, as well as an internal perforated sheet 4 provided with round holes 5 with live section coefficients from 0.2 to 0.5 . The outer perforated plate 1 and the inner perforated sheet 4 (FIG. 3) are mounted mutually parallel to each other at a distance not exceeding one diameter of the perforation hole 2, as well as with the mutually offset axes of the holes of the perforations 2 and 5. On the side of the inner perforated sheet 4 is installed static pressure chamber 6 with a flat bottom 7 parallel to the inner perforated sheet 4 and located at a distance from at least three diameters of one perforated sheet 4 tverstiya internal perforation 5 of perforated sheet 4. In this case, the perforations 2 and 5 may have an equal diameter. In the center of the bottom 7 of the static pressure chamber 6, a round connecting pipe 8 is installed. The cross-sectional area of the connecting round pipe 8 can be from 0.15 to 0.3 of the area of the outer perforated air-distributing surface 3.

The panel air distributor operates as follows. The supply air enters the connecting round pipe 8 and, falling into the static pressure chamber 6, expands sharply, shifting to the walls of the chamber 6, penetrates through the peripheral regions of the inner perforated sheet 4 and the outer perforated plate 1. Moreover, in the central part of the inner perforated sheet 4 and of the outer air-distributing surface 3 of the outer perforated plate 1, an ejection zone is formed, due to which air is ejected from the room along the geometric axis of the product and mixed with the inlet new air. In this way, a turbulent, fast-extinguishing, fan-shaped flow with an expansion angle of 70 ° to 130 °, or a turbulent, fast-extinguishing fan-shaped flowing stream with an opening angle of 180 ° is formed.

According to the test results, it was found that due to the presence of a static pressure chamber 6, as well as for various sizes F _8, the cross-sectional area of the connecting round pipe 8 and the area F _{3 of the} external perforated air-boring surface, as well as the ratio of their areas in the range from 0.15 to 0 , 3 an inlet stream is formed with a different angle of its opening α.

For example: when F ₃ = 0.111 m ² and F ₈ = 0.02 m ² F ₈ = 0.18 F ₃ a fan-shaped flow is formed at which α = 70 °;

at F ₃ = 0.05 m ² and F ₈ = 0.0078 m ² F ₈ = 0.16 F ₃ a fan-shaped flow is formed at which α = 100 °;

at F ₃ = 0.025 m ² and F ₈ = 0.0078 m ² F ₈ = 0.31 F ₃ a fan-shaped flow is formed at which α = 130 °;

at F ₃ = 0.052 m ² and F ₈ = 0.0129 m ² F ₈ = 0.25 F ₃ , a flowing stream is formed at which α = 180 °.

According to the results of aerodynamic tests, it was found that in the panel air diffuser with a static pressure chamber, the type and structure of the supply stream and, accordingly, its jet characteristics α (angle of the jet opening) and m (velocity coefficient characterizing the attenuation rate of maximum velocities along the axis of flow development) changed with traditional air diffuser shaded by one perforated sheet.

A panel air distributor of the described construction forms a turbulent, quick-extinguishing fan-shaped flow having a speed coefficient m = 1.9, which is significantly (2.4 times) less than in direct-flow traditional air distributors with one perforated sheet, for which m = 4.5. Thus, due to additional turbulization and the formation of a fan-shaped supply stream in different directions, and not along the front of the air distributor, the maximum speeds at the same distance from the claimed "panel air distributor" and competing devices decreased by about 2.4 times, which is the novelty of the invention .

The technical result of the invention is the formation of a turbulent rapidly damping fan-shaped inlet air flow, propagating with a high rate of attenuation of velocities and temperatures along the aerodynamic axis of the air distributor, with an opening angle of the flow from 70 to 180 °, which increases the comfort and energy efficiency of the air distributor for ventilation of a person's workplace.

Claims (2)

1. Panel air diffuser, including an external perforated plate forming an air-distributing surface of the air distributor, and an internal perforated sheet with live section coefficients from 0.2 to 0.5, installed mutually parallel to each other at a distance not exceeding one diameter of the perforation hole, and with mutually offset axes of the perforation holes, characterized in that a static pressure chamber with a flat bottom is installed on the side of the inner perforated sheet, steam integral to the inner perforated sheet and located at a distance from the inner perforated sheet equal to at least three diameters of one perforation hole of the inner perforated sheet, while a connecting pipe is installed in the center of the bottom of the static pressure chamber, the cross-sectional area of which is in the range from 0, 15 to 0.3 of the area of the external perforated air-distributing surface. 2. The air distributor according to claim 1, characterized in that the connecting pipe is made round.

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