RU2747066C1 - Air diffuser (ad) - Google Patents

Abstract

FIELD: air conditioning.SUBSTANCE: invention relates to ventilation and air conditioning technology and can be used to supply inlet air to facilities for various purposes. In an air diffuser containing a box with an inlet end pipe and outlet holes, an inlet pipe can be placed at the end opposite to the inlet end pipe, wherein the box is made in form of an air duct (1) with opposite ends and an inlet end pipe (2) is installed at one of the ends, and the inlet pipe (3) is located at the end of the air duct (1) opposite to the inlet end pipe (2), wherein the outlet holes (4) are made circular with internal screw threads for swirling the air flows, and the air duct (1) and pipes (2) and (3) are made cylindrical with circular cross-sections and equal internal diameters, wherein internal screw threads are made along the length of the air duct (1) and pipes (2) and (3) with equally directed screw generator lines for swirling air counter-flows in opposite directions, or the air duct (1) is made corrugated with screw-shaped corrugations.EFFECT: creation of a variant of structural design of an air diffuser with lower material consumption and higher attenuation rate of the inlet flow speed.1 cl, 3 dwg

Description

The invention relates to ventilation and air conditioning technology and can be used to supply supply air to rooms and objects for various purposes.

Known is a device for supplying supply air to a room, including a perforated air duct, one of the walls of which is made with holes located along its length, facing the inside of the air duct cavity, having holes located perpendicular to the direction of the air flow (USSR author's certificate for invention No. 352333, publ. . 09.21.1972, Bul. No. 28).

This air distributor has a fairly low rate of damping of the speed of the supply jets.

As a prototype, an air distributor was selected, containing a housing divided by longitudinal partitions into a middle and two extreme boxes with inlet end pipes and outlet longitudinal slots, in which the inlet pipes of the outer boxes are located at the end opposite to the inlet pipe of the middle box (USSR author's certificate for invention No. 987319 , publ. 07.01.1983, Bulletin No. 1).

Such an air distributor has a complex design, high material consumption, significant overall dimensions and does not provide a high rate of attenuation of the speed of the supply jets.

The objective of the invention is to provide such an air distributor, which has a lower material consumption and provides a higher attenuation rate of the speed of the supply jets.

This is achieved by the fact that, in contrast to the known technical solution for increasing the intensity of damping of the speed of the supply jets and reducing the material consumption in an air distributor containing a box with an inlet end pipe and outlet openings, an inlet pipe with the possibility of placing at the end opposite to the inlet end pipe, while the box is made in the form of an air duct with opposite ends and an inlet end pipe installed at one of the ends, and the inlet pipe is located at the end of the air duct opposite to the inlet end pipe, while the outlet openings are circular in shape with internal screw threads for swirling air flows, and the air pipe and pipes are cylindrical with circular cross-sections, and the same internal diameters, and along the length of the air duct and branch pipes, internal screw threads are made with equally directed helical generatrix lines for swirling counter air flows ear in opposite directions or the air duct is made corrugated with screw-shaped corrugations.

The essence of the claimed technical solution is illustrated by drawings: Fig. 1 shows a schematic representation of an air distributor (general view); in fig. 2 shows a schematic representation of an air distributor with screw threads (section); in fig. 3 shows a schematic representation of an air distributor with screw-shaped corrugations.

The device contains an air duct 1, an inlet end pipe 2, an inlet pipe 3 and outlets 4.

The device works as follows.

Counter air flows through the inlet nozzles 2 and 3 enter the air duct 1 (in Fig. 1), in which the flows collide with each other. The collision of air flows leads to a decrease in the kinetic energy of the resulting flow, which provides an intensive attenuation of the speed of the supply jets, and contributes to a high intensity of the process of mixing the supply air with the air of the serviced object. Air flows out in separate jets in different directions through the outlet openings 4. Increasing the attenuation rate of the supply jets and reducing the material consumption is achieved by the fact that internal screw threads (not shown in the drawing) are made from the inside of the round outlet openings 4 (not shown in the drawing) for swirling air flows. An increase in the intensity of the damping of the speed of the supply jets is also achieved by the fact that the air duct 1 and nozzles 2 and 3 are cylindrical with circular cross sections and the same internal diameters, and along the length of the air duct 1 and nozzles 2 and 3, internal screw threads are made (in Fig. 2) with equally directed helical generatrix lines for swirling counter air flows in opposite directions, or the air duct 1 is made corrugated with screw-shaped corrugations (in Fig. 3). Screw threads twist the counter flows in opposite directions and due to this, the flows extinguish their kinetic energy, and the flows, colliding, consume energy for impact and friction.

Claims (1)

An air distributor containing a box with an inlet end pipe and outlet openings, an inlet pipe that can be placed at the end opposite to the inlet end pipe, characterized in that the box is made in the form of an air duct with opposite ends and an inlet end pipe installed at one of the ends, and the inlet pipe is located from the end of the air duct opposite to the inlet end pipe, while the outlet openings are made of a circular shape with internal screw threads for swirling air flows, and the air pipe and nozzles are cylindrical with circular cross sections and the same inner diameters, and along the length of the air duct and nozzles, internal screw threads are made with equally directed helical generatrix lines for swirling counter air flows in opposite directions, or the air duct is made corrugated with helical corrugations.

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