RU2719615C1 - Air distributing grid - Google Patents

Abstract

FIELD: ventilation and air conditioning.SUBSTANCE: invention relates to ventilation and air conditioning equipment and can be used to supply inlet air to rooms and objects for various purposes. Air distributing grid is proposed. In air distribution grid, comprising housing with installed in it guide plate, comprising sections located on the side of air outlet at acute angles, and possibility of parallel arrangement, plate is made in form of corrugated screen (2) installed in housing (1), transverse to air flow and framed by housing (1) along perimeter with a row of parallel corrugations of V-shaped angle profile, which are formed on the side of air inlet and outlet by sections (3), adjacent of which form acute angles with each other, at that, screen (2) is made from forming through holes for air of hole (4), thin-sheet perforated material, for example, metal.EFFECT: technical result of invention is creation of version of design of air distribution grate, having simpler design, higher manufacturability (convenience) of installation with high intensity of attenuation rate of supply jets.5 cl, 3 dwg

Description

The invention relates to ventilation and air conditioning and can be used to supply fresh air to various rooms and facilities.

Known air distribution grille containing a housing with installed in it at least one group of guide vanes made in the form of parallel stationary plates, while parallel to each other the blades of one group in the case of the execution of the above-mentioned grille containing several groups of blades can be installed relatively parallel to each other blades of other groups in parallel or at an angle to them (US Patent No. 4887522, class F24F 13/14, published 1991).

This air distribution grill does not provide a high attenuation rate of the supply jets.

An air distribution grille is selected as a prototype, comprising a housing with at least one group of guide vanes installed in it, made in the form of parallel plates, which are split from the air outlet side to form sections, alternately bent at an angle of 15-30 ° to opposite sides (Patent for the invention of the Russian Federation No. 21585867, IPC F24F 13/06, published July 20, 1998).

Such an air distribution grill provides a high rate of attenuation of the velocity of the supply jets, but it has a complex structure and does not meet the requirements for ease of installation.

An object of the invention is the creation of such an air distribution grill (VRP), which has a simpler design, higher adaptability (ease of installation) while providing a high attenuation rate of the velocity of the supply jets. Additional technical tasks also include reducing air leaks, increasing the operational reliability and attenuation rate of the supply jets at pulsating dynamic pressures, and improving assembly convenience.

This is achieved by the fact that, in contrast to the known technical solution for improving manufacturability by simplifying the design and increasing the manufacturability of the installation while ensuring high attenuation rates of the supply jets, in the air distribution grill containing the housing with a guide plate installed in it, including sections located on the outlet side air at sharp angles, and the possibility of parallel placement, while the plate is made in the form installed in the housing, transversely flow near the air, and framed by a housing around the perimeter, a corrugated screen with a series of parallel-mounted corrugations of a V-shaped corner profile in a profile section formed from the air inlet and outlet sides, in sections adjacent to which form sharp angles with each other, while the screen is made of forming openings for air holes, thin-sheet perforated material, for example, metal.

The increase in the intensity of the attenuation of the velocity of the supply jets is also facilitated by the fact that the axes of each pair of opposed passage openings located in adjacent sections intersect each other, said holes having the same shape and size.

An increase in the attenuation rate of the supply jets during pulsations of dynamic pressure and a reduction in air leaks is achieved by the fact that from the side of the edges of the screen the housing walls are covered with a layer of elastic material around the perimeter, and the screen is made in the form of an insert installed with the possibility of elastically deformable contact with the elastic material according to the type of seal to reduce air leaks.

In addition, the increase in operational reliability is facilitated by the fact that cutouts are made on the edges of the insert, from the side of contact with the layer of elastic material, with the formation of pointed teeth between the last to protrude to fix the insert position.

Improving the convenience of assembly is achieved by the fact that the housing is detachable.

The essence of the claimed technical solution is illustrated by the drawings: in FIG. 1 is a schematic illustration of an air distribution grill; in FIG. 2 - section of an air distribution grill; in FIG. 3 is a schematic representation of cutouts and pointed protrusions.

The device comprises a housing 1, a corrugated perforated screen 2, sections 3 forming corrugations, air holes 4 for passage, a layer of elastic material 5, cutouts 6, pointed protrusions 7.

The device operates as follows.

The supply air stream enters the housing 1 (in Fig. 1, 2), is dissected by the V-shaped corrugations of the screen 2 into separate flows, which are distributed along the corrugations formed by sections 3, creating a series of jets when passing through the through-holes 4 of the screen 2, which, when Collisions with each other at an angle lead to a decrease in the kinetic energy of the flows. At the same time, a large number of small-scale vortices are formed in the resulting air stream, the energy of which is dissipated in the room, providing a fast attenuation of the supply jets speed and a high intensity of the process of mixing the supply air with the room air. An increase in the intensity of the attenuation of the velocity of the supply jets is achieved by the fact that the axes of each pair of opposed passage openings 4 located in adjacent sections 3 intersect each other, while said openings 4 have the same shape and dimensions. To reduce air leakage through the gaps from the side of the edges of the screen 2, the walls of the housing 1 along the perimeter are covered with a layer of elastic material 5, and the screen 2 is made in the form of an insert installed with the possibility of elastically deformable contact with the elastic material 5 as a seal to reduce air leakage. The air flow acts on the layer of elastic material 5 through the insert, while the kinetic energy of the stream passes into the energy of elastic deformation of the material 5, which increases the rate of attenuation of the velocity of the supply jets, mainly, with dynamic pressure pulsations. To increase operational reliability at high air flow rates at the edges of the insert, cuts 6 are made on the contact side with the layer of elastic material 5 (in Fig. 3) with the formation of pointed peaks 7 between the last ones to fix the position of the insert. The ease of assembly of the device can be improved if the housing 1 is made detachable.

Claims (5)

1. An air distribution grill comprising a housing with a guide plate installed therein, including sections located on the air outlet side at sharp angles, and the possibility of parallel placement, characterized in that the plate is made in the form of transverse air flow installed in the housing and framed by the housing around the perimeter corrugated screen with a series of parallel-mounted corrugations of a V-shaped corner profile in a profile section formed by sections adjacent to the air inlet and outlet, adjacent from which acute angles form with each other, the screen being made of forming perforated thin-sheet material openings for air, for example, metal. 2. The lattice according to claim 1, characterized in that the axes of each pair of opposed passage openings located in adjacent sections intersect each other, said holes having the same shape and dimensions. 3. The lattice according to claim 2, characterized in that from the side of the edges of the screen the walls of the housing are covered with a layer of elastic material around the perimeter, and the screen is made in the form of an insert installed with the possibility of elastically deformable contact with the elastic material by the type of seal to reduce air leakage. 4. The lattice according to claim 3, characterized in that cuts are made on the edges of the insert on the side of contact with the layer of elastic material with the formation of pointed peaks between the last protrusions in order to fix the position of the insert. 5. Lattice, according to paragraphs. 3, 4, characterized in that the housing is detachable.

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