RU109276U1 - AIR FLOW DISTRIBUTOR - Google Patents

Abstract

 A device for distributing supply air, comprising an air duct with a diffuser nozzle, covering a diffuser nozzle with an annular clearance box, connected to a source of control medium and provided with flow nozzles introduced at one end into openings made in the diffuser nozzle and installed at the other end in the diffuser nozzle, characterized in that above the flowing nozzles in the direction of movement of the air there are reflective visors mounted on the inner surface of the diffuser nozzle, moreover, the reflection The visors are directed towards the duct, and the flow nozzles are made integral, each consisting of two nozzles connected by a spherical hinge, while the air distribution nozzles have individual drive mechanisms for regulating the position of the air distribution nozzles in the diffuser nozzle.

Description

The utility model relates to the field of ventilation and can be used to distribute supply air into premises for various purposes.

Known air distributor (ed. St. USSR No. 1413376, M. class. F24F 13/06, 1988) containing an air duct with a diffuser nozzle, covering a diffuser nozzle with an annular gap box connected to a source of control medium and covering an annular gap made in the diffuser pipe.

However, this air distributor does not provide a sufficient range for regulating the supply air parameters, only by regulating the flow rate of the control medium supplied to the air distributor perpendicular to the flowing stream.

A device is also known for distributing supply air (ed. St. USSR No. 1774136, M. class F24F 13/06, 1992), containing a duct with a diffuser pipe, covering a diffuser pipe with an annular gap box connected to a source of control medium and equipped with flow nozzles brought by one shelf into the holes made in the diffuser nozzle and installed by another air distribution shelf in the diffuser nozzle,

This embodiment of the air distributor allows you to adjust the supply air by controlling the parameters in the boundary layer of the jet coaxial flowing control flow. However, in this device, the control range of the supply air parameters is insufficient.

The purpose of the utility model is to expand the control range of the supply air parameters.

This goal is achieved by the fact that in the device for the distribution of the supply air containing the duct with a diffuser nozzle, covering the diffuser nozzle with an annular gap box, connected to a source of control medium and equipped with flowing nozzles, wound at one end into the holes made in the diffuser nozzle and installed at the other end in the diffuser nozzle, above the flow nozzles in the direction of the air flow, reflective visors are mounted on the inner surface of the diffuser nozzle ka, and the reflective visors are directed towards the duct, and the flow nozzles are made integral, each consisting of two nozzles connected by a spherical hinge, while the air distribution nozzles have individual drive mechanisms for regulating the position of the air distribution nozzles in the diffuser nozzle.

Figure 1 shows a device for the distribution of supply air, General view.

The supply air distribution device comprises an air duct 1 with a diffuser pipe 2, covering a diffuser pipe 2 with an annular gap 3 box 4, connected to a source of control medium 5 and equipped with flowing nozzles 6, wound at one end 7 into openings 8 made in the diffuser pipe 2 and installed the other end 9 in the diffuser nozzle 2. Above the flowing nozzles 6 in the direction of movement of the air there are reflective visors 10 mounted on the inner surface 11 of the diffuser nozzle 2. Reflective to zyrki 10 directed towards the duct 1. The flow nozzles 6 are composite, each consisting of two nozzles 12 and 13 associated spherical joint 14. Air distribution nozzles 13 have individual drive mechanisms 15 for adjusting the air distribution nozzles 13 in the diffuser pipe 2.

The device operates as follows.

Supply air through the duct 1 and diffuser pipe 2 is fed into the room. The internal air of the room is forced by fans 16 (control medium source) through the shells 17 through the holes 18 in the duct 4 and into the duct 4 and flow nozzles 6, from where it is distributed into the diffuser nozzle 2. The supply of the indoor air directly into the supply stream turbulizes it and facilitates mass transfer inside the jet, redistributing the parameters in the jet and enhancing the jet ejection of the indoor air. Due to the rotation of the air distribution nozzles 13 by the drive mechanisms 15, the angle of inclination of the air distribution nozzles 13 and, accordingly, the angle of inclination of the outflowing jet of the control medium is ensured, thereby expanding the range of regulation of the supply air parameters. The installation above the flowing nozzles 6 in the direction of movement of the reflective visors 10, mounted on the inner surface 11 of the diffuser nozzle 2 and directed towards the duct 1, improves the conditions for the output of the control medium into the main stream when adjusting the angle of inclination of the air distribution nozzles 13.

The effectiveness of the proposed utility model lies in expanding the range of control of the supply air parameters by adjusting the angle of inclination of the air distribution nozzles 13, and, accordingly, the angle of inclination of the flowing jet of the control medium into the main supply stream.

Claims (1)

A device for distributing supply air, comprising an air duct with a diffuser nozzle, covering a diffuser nozzle with an annular clearance box, connected to a source of control medium and provided with flow nozzles introduced at one end into openings made in the diffuser nozzle and installed at the other end in the diffuser nozzle, characterized in that above the flowing nozzles in the direction of movement of the air there are reflective visors mounted on the inner surface of the diffuser nozzle, moreover, the reflection The visors are directed towards the duct, and the flow nozzles are made integral, each consisting of two nozzles connected by a spherical hinge, while the air distribution nozzles have individual drive mechanisms for regulating the position of the air distribution nozzles in the diffuser nozzle.