RU33804U1 - Air distributor - Google Patents

Abstract

1. An air distributor comprising a housing with at least one exhaust window inlet and formed in the base, and a U-shaped screen with opposite end openings located in the housing overlapping the exhaust window, characterized in that the screen is provided with dividing elements mounted to form air guide channels oriented in the direction from one of said end openings to another. 2. The air distributor according to claim 1, characterized in that the end openings are made along the smaller sides of the screen wall facing the outlet window. The air distributor according to claim 1 or 2, characterized in that the height h and width b of the air guide channels are interconnected by the ratio h = (0.6-1.4) b.4. An air distributor according to any one of claims 1 to 3, characterized in that the dividing elements are integral with the screen. An air distributor according to any one of claims 1 to 3, characterized in that the dividing elements are made in the form of plates attached to the screen.

Description

2003120191

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2003120191 Air distributor

The utility model relates to techniques for ventilation and air conditioning and can be used to distribute supply air in rooms for various purposes.

Known air distributor containing a duct with an inlet window and an outlet longitudinal slot in the bottom wall and a screen placed in the duct above the slot with the formation of opposed gaps between its longitudinal edges and the bottom wall, and the screen is made semi-cylindrical to increase the rate of damping of the supply jets and is attached to its edges along the gaps with visors and dividing longitudinal shelves with central longitudinal slots, while the visors are parallel to the lower wall nk, and the shelves are attached to the upper wall of the duct at an angle to it (ed. St. USSR No. 1605105, IPC F 24 F 13/06, publ. 07.11.90, BI No. 41).

The disadvantage of this air distributor is the impossibility of uniform distribution along the length of the said opposed gaps and slots of the air flows coming into them from the inlet window, which does not allow to achieve a high degree of damping of the speed of the supply jets.

Known air distributor containing an air duct with a longitudinal slit and a screen located in it, made in the form of a plate overlapping the slit, which is located relative to the walls of the duct adjacent to the slit with the formation of opposed gaps in which leveling resistances of fibrous material are installed (ed. St. USSR No. 974052 IPC F 24 F 13/072, publ. 15.11.82, BI No. 42).

IPC 7 F 24 F 13/06

microchannel resistances, which, due to the disordered structure of the fibrous material from which the resistances are made, have a different shape and geometric dimensions, resulting in different aerodynamic drag and the inability to ensure equal speeds of oncoming flows. Ultimately, this leads to a decrease in the damping rate of the supply jets.

A device for local distribution of air containing a duct with a longitudinal slit for the passage of air and a restrictive strip installed along the duct in the area of the longitudinal slot, as well as metal plate dividers placed between the strip and the outer walls of the duct with the formation of oppositely directed air guide channels, while along the way air movement, the duct is made with a decreasing cross-section (RF patent No. 2166152, IPC F 24 F 13/072, publ. 04/27/2001).

This device improves uniformity.

air distribution only at the entrance to the slot, but does not provide such uniformity with further movement of oncoming flows until the moment of impact of the jets, which reduces the degree of damping of the velocity of the supply jets

A known air distributor comprising a housing with an inlet and outlet windows formed in the base, a screen located in the housing blocking the outlet window, the screen and / or the base being made in the form of a plate with corrugations and mounted relative to each other with the formation of said air guiding channels by means of the corrugations (RF patent No. 2196277, IPC F 24 F 13/06, publ. 10.01.2003).

This device helps to increase the uniformity of air distribution not only at the entrance to the exhaust window, but also provides such uniformity with the further movement of oncoming flows until the moment of impact

jets, which increases the damping rate of the supply jets. However, the disadvantage of this air distributor is the loss of part of the useful passage section of the air guide channels when they are formed by means of corrugations, which requires to increase the number of channels and, therefore, increase the screen size to ensure the given throughput. In addition, the corrugated screen has a high aerodynamic drag. Use to reduce aerodynamic drag of the fairing, increases the complexity of manufacturing an air distributor.

Known air diffuser containing a housing with an inlet and made in the base of the exhaust windows, housed in the housing overlapping the exhaust window U-shaped screen with opposite end openings, equipped with end flow controllers, each of which is made in the form of plates formed by cuts in the end parts of the upper wall of the screen and made with the possibility of bending inward or outward of the latter (ed. St. USSR No. 1543200, IPC F 24 F 13/06, publ. 15.02.90, BI No. 6) - prototype.

The U-shape of the screen of this air diffuser helps to reduce aerodynamic drag when it flows around it with air flow, compared with the corrugated screen according to the previous solution. However, due to the absence of air guide channels in the design of the air distributor, it is not possible to evenly distribute air flows both over the cross section of the opposed openings and during their further movement until the jets collide with each other in the region of the outlet window, which reduces the rate of quenching of the supply jets.

The problem to which the utility model is directed is to increase the degree of damping of the speed of the supply jets, by ensuring

uniform distribution of air flows both over the cross section of the opposed openings, and during their further movement until the jets collide with each other.

To achieve this technical result, in an air distributor comprising a case with an inlet and at least one outlet window made in the base and placed in the body blocking the outlet window. According to the utility model, the screen with opposed end openings is provided with dividing elements installed to form air guide channels oriented in the direction from one of said end openings to another.

This technical result is enhanced by the fact that the end openings are made along the smaller sides of the screen wall facing the outlet window.

Strengthening the technical result also contributes to the fact that the height h and width b of the air guide channels are interconnected by the ratio: h (0,, 4) b.

The specified technical result is also achieved by the fact that the dividing elements are integral with the screen.

The achievement of the specified technical result also contributes to the fact that the dividing elements are made in the form of plates attached to the screen.

The supply of the screen with dividing elements installed with the formation of air-guiding channels oriented in the direction from one of the mentioned end openings to another provides the possibility of uniform distribution of air flows both over the cross-section of the opposed openings and during their further movement until the jets collide with each other in the area of the outlet window, which reduces the damping rate of the supply jets.

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The execution of end openings along the smaller sides of the screen wall facing the outlet window enhances the damping rate of the supply jets, by increasing the length of the air guide channels connecting these openings. This is due to the fact that air flows during passage through these elongated channels towards each other significantly reduce their speed even before they collide with each other.

As experimental studies have shown, the highest degree of damping of the supply air jets is observed under the condition that the height h and width b of the air guide channels are interconnected by the ratio: h (0.6-s-l, 4) b.

The implementation of the separation elements together with the screen is one of the particular forms of implementation of the utility model, as well as their possible implementation in the form of plates attached to the screen.

The utility model is illustrated by the drawings shown in FIG. 1-3:

FIG. 1 - section of the air distributor with a plane oriented across the screens;

FIG. 2 is a section AA in FIG. 1;

FIG. 3 is a view of a screen with dividing elements placed therein from one of the opposed openings.

The air distributor comprises, for example, a housing 1 with a base 2 made of galvanized sheet steel. The housing is provided with inlet 3 and, for example, two outlet 4 windows, the last of which are made in the base 2, and the first in the opposite wall. The inlet window 3 has, for example, a round, and the outlet 4 windows have a rectangular shape. In the housing 1, the U-shaped screens 5, which are also made, for example, like the housing, are made of galvanized steel sheet, which overlap the outlet windows 4. Each screen 5 has

opposed end 6 holes, which are located along smaller sides facing the outlet 4 window of the screen wall. To fix the screens 5 on the base 2, for example, using self-tapping screws (not shown in the drawing), the screen walls are made with flanges 7. The screen 5 is equipped with 8 dividing elements, which are made, for example, in the form of galvanized sheet steel plates attached to the screen walls. Separating 8 elements can also be made integral with the screen, for example, by molding from plastic. Separating 8 elements are installed inside the screen 5 at the same distance from each other and from its side walls, forming air guide channels 9, elongated from one opposite end 6 of the hole to another. The air guide channels 9 have a rectangular cross section. To achieve the highest degree of damping of the supply jets, the height h of the channel 9 is, for example, 1.2 of its width b.

The air distributor operates as follows. The air flow through the ventilation system duct (not shown in the drawing) under the action of a fan through the inlet window 3 enters the housing 1 of the air distributor. Further, laying on the U-shaped screens 5, reaching the opposite end 6 holes, thanks to the dividing 8 elements, it is divided into identical flows, which are directed along the channels 9 formed by the said elements towards each other. At the same time, passing through the elongated channels 9, as it was noted above, the air flows already in the process of passing through them towards each other significantly reduce their speed, thereby contributing to an increase in the rate of damping of the supply jets even before they collide with each other. Further, these uniform flows having equal speeds continue to move along the air-guiding channels 9 towards each other until they collide with each other, in the space above the outlet windows 4. When these flows collide with each other, they are extinguished

kinetic energy, as a result of which a fading resultant jet is formed, which exits from each outlet window 4.

Thus, due to the U-shaped shape of the screen and the supply of its dividing elements forming the air guide channels in the area of the outlet window, an increase in the degree of damping of the supply jets speed is achieved by ensuring a uniform distribution of air flows both over the cross section of the opposed openings and during their further movement until the collision among themselves, with the maximum capacity of the space limited by the walls of the screen without significantly increasing its overall dimensions.

Claims (5)

1. An air distributor comprising a housing with at least one exhaust window inlet and formed in the base, and a U-shaped screen with opposite end openings located in the housing overlapping the exhaust window, characterized in that the screen is provided with dividing elements mounted to form air guide channels oriented in the direction from one of said end openings to another. 2. The air distributor according to claim 1, characterized in that the end openings are made along the smaller sides of the screen wall facing the outlet window. 3. The air distributor according to claim 1 or 2, characterized in that the height h and width b of the air guide channels are interconnected by the ratio h = (0.6-1.4) b. 4. The air distributor according to any one of claims 1 to 3, characterized in that the dividing elements are integral with the screen. 5. The air distributor according to any one of claims 1 to 3, characterized in that the dividing elements are made in the form of plates attached to the screen.