RU2411419C1 - Air distributor - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: air distributor for supply of plenum air to the room has the housing which is made in the form of dome, and side walls of the housing are made as to the height in the form of falling steps so that at the bottom and in vertical wall of each step there provided is air outlet slot with mutually perpendicular flows simultaneously from one volume, which provides effect of self-oscillation at interaction of opposite jets.

EFFECT: enlarging possibilities of uniform distribution of plenum air in the room or its supply immediately to the working area owing to formation of quickly damping plenum jet which is characterised by absence of stagnation zones around the design of air distributor, improving the quality of air medium in the room and reducing the costs for air exchange, and arrangement of ventilation systems.

2 dwg

Description

The air distributor belongs to the ventilation technique and can be used for air distribution in rooms for various purposes by general ventilation systems, in local ventilation systems and in various technological installations in which it is necessary to ensure the effects of heat and mass transfer due to intensive mixing of the supply jets.

Known air distributor (Aut. Certificate. USSR No. 1322030), comprising a housing with an exhaust pipe, a disk reflector located under the housing and an exhaust pipe concentrically located in the housing, characterized in that, in order to maintain a given air flow rate in the working area by increasing the degree of attenuation air flow, the exhaust pipe is located coaxially with the exhaust pipe with the formation of a gap between their ends, the housing is double-walled from the outer and inner truncated cones and paired with their large Considerations cylindrical shells and the outlet communicates with the interspace housing, the internal truncated cone attached to the end of the discharge pipe from the side of the gap and forms with its outer surface an annular pocket.

The disadvantage is that the outflow of the ring and fan jets is carried out through independent channels, which prevent the formation of the self-oscillation effect, since it arises only when flows from one volume equal in air flow expire (Avdeeva T.P. Air distribution by dynamically unstable flows. Ph.D., St. Petersburg, 2001). The design of the air distributor creates the conditions for the formation of a complex hollow resulting jet, which cannot ensure a uniform distribution of the supply air parameters in the cross section of the torch, which leads to a decrease in the efficiency of ventilation systems and an increase in energy costs.

Of the known closest in technical essence is an air diffuser (patent RU 2343363), containing a cylindrical body with an inlet pipe, characterized in that an annular gap is made in the central part of the body, which is overlapped by an internal cylindrical screen located inside the air distributor body coaxially with a slot rigidly attached to the side walls of the air distributor at a distance of not less than half the height of the slit and not more than a distance multiple of five height of the slit.

The disadvantage is that the design of the air diffuser forms a supply stream developing in a horizontal plane. At the same time, a stagnant zone forms under the air distributor case. With a weak aerodynamic circulation, harmful substances released in the room accumulate in the area, and the air parameters do not correspond to the parameters of the supply air. This reduces the uniformity of the distribution of the supply air parameters over the area of the room, which leads to additional engineering debate on issues of air distribution and the cost of organizing ventilation systems.

The present invention is aimed at increasing the quenching effect of the supply jets, increasing the temperature difference of the supply air and the useful area of the supply jet, which provides a more uniform flow of clean air into the working area of the room with less energy.

This is achieved by the fact that the air distributor, the casing of which is made in the form of a shade, has side walls of the casing, height-shaped in the form of falling steps, so that a gap is provided at the base and in the vertical wall of each step for the air to exit mutually perpendicular flows simultaneously from one volume.

Figure 1 shows a cross section of the design of the air distributor.

Figure 2 presents a top view of the air diffuser.

The air distributor (figure 1) contains:

1 - air distributor housing,

2 - vertical wall

3 - horizontal wall

4 - gap in the vertical wall,

5 - gap in the horizontal wall,

6 - inlet pipe

7 - air inlet to the air distributor,

8 - air outlet from a vertical wall,

9 - air outlet from a horizontal wall.

The air distributor operates as follows. The supply air 7 (Fig. 1) enters the casing (Fig. 1) of the air distributor 1 through the inlet 6. In the casing, air is distributed and enters the vertical and horizontal slots 4 and 5, respectively, located in the vertical and horizontal walls 2 and 3. Exit air is carried out by mutually perpendicular jets 8 and 9, flowing from the same volume, which provides the effect of self-oscillation in the interaction of oncoming jets and creates an intense attenuation of the supply stream.

The proposed device forms an intensely decaying supply air stream, which is characterized by the absence of stagnant zones around the air distributor structure. When organizing air distribution in rooms for various purposes, this creates the opportunity to ensure a uniform distribution of supply air parameters, improve the quality of the air environment in the room and reduce the cost of organizing air exchange and installing ventilation systems.

Claims (1)

An air distributor, the casing of which is made in the form of a shade, characterized in that the side walls of the casing are height-shaped in the form of falling steps, so that a gap is provided in the base and in the vertical wall of each step for the air to exit mutually perpendicular flows simultaneously from one volume.

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