RU2214562C1 - Air distributor - Google Patents

Abstract

FIELD: ventilation and air conditioning. SUBSTANCE: the air distributor has a body with two inlet and outlet windows. The inlet windows are round-shaped, and the outlet window is rectangular shaped. Slots are made in two opposite walls of the body oriented perpendicularly to the larger axis of symmetry of the outlet window. A shield shutting off the outlet window is positioned in the body. The shield is made in the form of a profiled cylinder, whose generating line is oriented along the longitudinal edges of the outlet window. It is installed with formation of opposite clearances drawn out relative to the base of the mentioned edges of the outlet window. The cross- section represents a figure having an axis of symmetry perpendicular to the plane of the outlet window, and the inlet window is made in the body wall positioned opposite the base. EFFECT: simplified construction, reduced level of noise, possibility of adjustment of the parameters of the tributary jet, with the high intensity of damping of its speed remaining unchanged. 7 cl, 5 dwg

Description

 The invention relates to techniques for ventilation and air conditioning and can be used for the distribution of supply air in rooms for various purposes.

 Known air diffuser containing a housing with inlet and outlet openings made in the base, housed in a housing that covers an outlet window, a screen with opposed end openings, provided with end flow controllers, each of which is made in the form of plates formed by slots 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 1543200, IPC F 24 F 13/06, publ. 15.02.90. BI 6).

 The specified air distributor allows you to adjust the parameters of the supply jet in a wide range due to the possibility of changing the area of the opposite end openings and the angle of meeting of the flows coming from these openings by bending said plates.

 However, the constructive implementation of the screen of the specified air distributor does not provide a uniform distribution of air flow along the length of the opposed openings, which leads to a decrease in the degree of damping of the speed of the supply jets. In addition, when operating this air distributor, a fairly high noise level is observed.

 Known air distributor containing a housing in the form of an air duct with inlet and outlet windows, the last of which is made in the form of a longitudinal slit in the base of the housing, made in the form of a plate and overlapping the gap of the screen installed with the formation of opposed gaps between its longitudinal edges and the base, in which for equal distribution of the incoming air flow equalizing resistance made of fibrous material (ed. St. USSR 974052, IPC F 24 F 13/072, publ. 15.11.82. BI 42).

 The presence of equalizing resistances established in the opposed gaps of the given air distributor, although it slightly increases the uniformity of the flows flowing through them towards each other, but this is not enough to ensure sufficient rate of damping of the supply jets. In addition, the disadvantage of this air distributor is the inability to control the parameters of the supply jet, as well as a fairly high noise level during its operation.

 Known air distributor containing a housing in the form of an air duct with inlet and outlet windows, the last of which is made in the form of a longitudinal slit in the base of the housing, and a screen covering the outlet window, installed with the formation between the longitudinal edges and the base of the opposing gaps, and the screen to increase the rate of damping the speed of the supply jets is made semi-cylindrical and is equipped with visors attached to its edges along the gaps and longitudinal dividing shelves with a central longitudinal and slots, while the visors are parallel to the base, and the shelves are attached to the upper wall of the duct at an angle to it (ed. St. USSR 1605105, IPC F 24 F 13/06, publ. 07.11.90. BI 41).

 This air diffuser, in comparison with the previous one, provides an increase in the rate of damping of the supply air jets, thanks to its design that creates the conditions for repeated impact of the jets.

 However, this air diffuser has a design complexity due to the complex design of the screen, which provides for the presence of visors and dividing longitudinal shelves with central slots. The disadvantages of this air distributor are also the high noise level during its operation and the lack of the ability to control the supply air parameters.

 The problem solved by the invention is to simplify the design of the air distributor, reduce noise during operation and provide the ability to control the parameters of the supply jet while maintaining a high rate of damping.

 In order to achieve this technical result, in an air distributor comprising a housing with inlet and outlet windows formed in the base, a screen arranged in the housing overlapping the outlet window and formed to form opposed gaps elongated along the edges of the outlet window, according to the invention, the screen is made in the form of a profiled cylinder mounted in the case in such a way that its generatrix is elongated along said opposed gaps, and the cross section is a figure, Commercially axis of symmetry perpendicular to the plane of the outlet port and the inlet port formed in the opposite base wall of the housing.

 The achievement of the specified technical result is also facilitated by the fact that the shaped cylinder in cross section has the shape of a figure consisting of two arcuate curves smoothly interconnected by their ends, the first of which faces its inlet to the inlet, and the second to the outlet window, while the said curves have the common axis of symmetry perpendicular to the plane of the outlet window and the chord connecting the ends of the mentioned arched curves, and the distance from the chord along the axis of symmetry to the top of the first of them is greater than tops of the second.

 The indicated technical result is also achieved by the fact that the profiled cylinder has a cross section in the form of a figure consisting of an arcuate curve facing its inlet towards the inlet window, conjugated at its ends with a straight line parallel to the plane of the outlet window.

 This technical result is enhanced by the fact that the air distributor is equipped with at least one inlet window made in the housing wall opposite the base, while the centers of all inlet windows lie on one straight line parallel to the generatrix of the shaped cylinder.

 The achievement of the specified technical result is also facilitated by the fact that the profiled cylinder is installed with the possibility of changing position in the direction from the outlet window to the inlet and vice versa.

 The specified technical result is also achieved by the fact that the walls of the profiled cylinder are made of perforated sheet material, and the inner space is filled with sound-absorbing material.

 The achievement of the same technical result is ensured by the fact that the shaped cylinder is made of a shape-retaining sound-absorbing material.

 The implementation of the screen in the form of a profiled cylinder, in contrast to the prototype, the design of which provides for visors and dividing shelves with longitudinal slots, has a simple structure, which simplifies the design of the air distributor as a whole. In addition, due to the design of the screen in the form of a profiled cylinder, which, unlike the prototype, has a streamlined shape of the side surface, when passing the supply air stream coming from the inlet window, vortex formation decreases, which leads to a decrease in noise level. The presence of sound-absorbing material in the design of the screen further enhances the effect of reducing noise. The installation of the screen in the form of a profiled cylinder with the ability to change its position in the direction from the outlet window to the inlet and vice versa allows, unlike the prototype, to change the parameters (flow rate and opening angle) of the supply jet, due to the possibility of increasing or decreasing the size of opposed ones clearances. At the same time, improvement of the indicated characteristics of the air distributor is ensured while maintaining a high degree of damping of the supply air velocity. This is due to the fact that, due to the above-mentioned form of the screen and the location of the inlet window in the housing wall opposite the base, the supply air flowing into the housing from the inlet window, when it comes into contact with the shaped cylinder, decreases its speed a little and then it is divided into two identical streams, evenly distributed along the length of the cylinder, which from both sides continuously flow around the lateral surface of the said cylinder, due to its smooth shape, while maintaining uniformity distributed before collision with each other, which ultimately provides a high rate of damping the supply air. The supply of the air distributor with additional inlet windows made in the housing wall opposite the base and the arrangement of all inlet windows so that their centers lie on one straight line parallel to the generatrix of the shaped cylinder enhances the effect of damping the supply air velocity. This is explained by the fact that when the supply air flow supplied to the air distributor is distributed over several inlet windows at the entrance to the housing, its speed decreases while the flow rate remains constant and the uniformity of the flow distribution over the surface of the profiled cylinder increases, which ultimately enhances the effect of damping the supply air velocity.

The invention is illustrated by the drawings shown in figures 1-5:
figure 1 - air diffuser in a perspective view;
FIG. 2 and 3 - section of the air distributor (with a different shape of the profiled cylinder) with a plane perpendicular to the plane of the outlet window and oriented across the opposed gaps;
figure 4 is a longitudinal section of an air distributor;
FIG. 5 is a view of an air distributor without wing nuts from one of the walls of the housing perpendicular to the base.

The air distributor comprises, for example, a housing 1 with a base 2 made of galvanized steel sheet having a rectangular cross-section and the housing 2 is provided with a housing wall 1 made in the opposite base 2, for example, two inlet 3 and 4 outlet windows, the last of which is made in the base 2 of the housing 1 The inlet 3 windows have, for example, a round, and the outlet 4 windows have a rectangular shape. In this case, the inlet 3 windows are arranged so that their centers lie on one straight line parallel to the generatrix of the cylinder and the greater axis of symmetry of the outlet window 4 and belonging together with the last one plane perpendicular to the plane of the outlet window. In the two opposite walls of the housing 1, oriented perpendicular to the larger axis of symmetry of the outlet 4 windows, grooves are made 5. In the housing 1 there is a screen 6 covering the outlet 4 window. The screen 6 is made in the form of a profiled cylinder, the generatrix of which is oriented along the longitudinal edges of the outlet 4 windows, and installed with the formation relative to the base 2 elongated along the mentioned edges of the outlet 4 of the window 4 of the opposite gaps 7. In one embodiment, the profiled cylinder has a cross-section in the form of a figure consisting of two arched curves 8 and 9 smoothly interconnected by their ends (Figs. 1 and 2), the first 8 of which face its inlet to the inlet 2 window, and the second 9 to the outlet 4. Arched curves 8 and 9 have a common axis of symmetry intersecting the symmetry axis of the outlet window and the chord oriented at right angles to the opposite gaps connecting the ends of the mentioned arcuate curves 8 and 9, while the distance l ₁ from the said chord along the axis of symmetry to the top of the first 8 arcuate curve is more than, for example, three times the same distance I'm 12 to the top of the second 9 arcuate curve. In accordance with the second embodiment, the profiled cylinder has a cross-sectional view of the figure (Fig. 3), consisting of an arcuate curve 10 facing the apex of the inlet window, conjugated at its ends with a line segment 11 parallel to the base of the body. To reduce the noise level, the walls of the profiled cylinder are made, for example, of galvanized steel sheet (Fig. 1) with perforation on the side surface, and the inner space is filled with sound-absorbing material, for example fiberglass. To reduce the noise level, the screen 6 in the form of a profiled cylinder can be made of a shape-retaining sound-absorbing material (not shown), for example glass wool having a high density, for example 100 kg / m ³ . To change its position, the profiled cylinder 6 is equipped with a stud 12, the ends of which with threaded sections are placed in the grooves made in two opposite walls of the housing 1. For fixing in the required position of the stud in the grooves, wing nuts 13 are provided.

 The air distributor operates as follows.

 The supply air flow through the ventilation system duct (not shown) under the action of a fan through the inlet windows 3 enters the housing 1 of the air distributor. Further, encountering a screen 6 made in the form of a profiled cylinder on its way, the flow somewhat reduces its speed and is further divided into two identical streams, evenly distributed along the length of the cylinder, which continuously flow around its side surface from both sides and, thanks to its smooth shape, keeping uniformity, are directed towards each other through opposing gaps until they collide with each other. When these flows collide with each other, their kinetic energy is quenched, as a result of which a decaying resultant jet is formed, which leaves the outlet window 4. When air flows around a screen 6 made in the form of a shaped cylinder with the specified cross-sectional shape, vortex formation is reduced, which, along with said cylinder with sound-absorbing material, provides noise reduction. To control the parameters (flow rate and opening angle) of the supply jet, the size of the opposed gaps between the screen and the base of the housing is increased or decreased. To do this, the screen is moved to the desired position relative to the base 2 of the housing 1 in the direction from the outlet window to the inlet or vice versa and using the threaded ends of the stud 12 and the wing nuts 13 located in the grooves 5, the screen is fixed in this position.

Claims (7)

 1. An air distributor comprising a housing with inlet and outlet windows formed in the base of the housing, a screen installed in the housing that covers the outlet window and formed with opposed gaps elongated along the edges of the outlet window, characterized in that the screen is made in the form of a shaped cylinder mounted in case so that its generatrix is elongated along the aforementioned opposed gaps, and the cross section is a figure having an axis of symmetry perpendicular th plane outlet port and the inlet port formed in the opposite base wall of the housing.  2. The air distributor according to claim 1, characterized in that the profiled cylinder has a cross-sectional view of a figure consisting of two arcuate curves smoothly interconnected by their ends, the first of which faces its inlet with its apex, and the second with outlet windows, wherein the said curves have a common axis of symmetry perpendicular to the plane of the outlet window and the chord connecting the ends of the mentioned arched curves, and the distance from this chord along the axis of symmetry to the top of the first one is greater than to the top of the second.  3. The air distributor according to claim 1, characterized in that the profiled cylinder has a cross-sectional view of a figure consisting of an arcuate curve facing the inlet window in conjunction with its ends with a straight line parallel to the plane of the outlet window.  4. The air distributor according to any one of claims 1 to 3, characterized in that it is provided with at least one inlet window made in the housing wall opposite the base, with the centers of all inlet windows lying on one straight line parallel to the profiled generatrix cylinder.  5. An air distributor according to any one of claims 1 to 4, characterized in that the profiled cylinder is mounted with the possibility of changing position in the direction from the outlet window to the inlet and vice versa.  6. An air distributor according to any one of claims 1 to 5, characterized in that the walls of the profiled cylinder are made of perforated sheet material, and the inner space is filled with sound-absorbing material.  7. An air distributor according to any one of claims 1 to 6, characterized in that the shaped cylinder is made of a shape-retaining sound-absorbing material.

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