RU2011124C1 - Air delivering device - Google Patents

Abstract

FIELD: ventilation and air-conditioning technology. SUBSTANCE: outlet nozzles are fastened in a cover of a case with an inflow branch pipe. Converging, annular flow and diverging sections are located in each nozzle down the air flow. A panel is mounted on the cover in a spaced relation and for movement towards the nozzle axes. A heat exchanger is located in the case. The panel has extensions located concentrically to the nozzles. An air wave generator has an air medium control source which communicates with annular boxes by pipelines. The boxes are positioned around the annular flow section of each nozzle and are connected to them by a circumferential row of flow holes. A control valve is mounted on each pipeline. EFFECT: improved structure. 3 dwg

Description

 The invention relates to techniques for ventilation and air conditioning and can be used to supply air to rooms where you can use the air in the room.

 Known air closer containing a housing with a supply pipe and a cover with outlet nozzles and a heat exchanger installed in the housing. The closer is equipped with a panel mounted on the cover with the possibility of axial movement, having nozzles concentrically located to the nozzles and forming a gap with the cover. Each nozzle is elliptical in cross section and is provided with a casing covering it, mounted concentrically to the nozzle with the formation of a closed cavity communicated with the internal cavity of the nozzle through through holes additionally made in the nozzle walls located in the plane of the major axis of the nozzle cross section ellipse.

 The design of this closer is rather complicated because each nozzle is made elliptical in cross section because of the formation of a closed cavity, because through holes are made on the inner walls of the nozzle in the plane of the major axis of the ellipse of the nozzle cross section.

 Also known is an air closer containing a housing with a supply pipe and a cover, mounted in the last outlet nozzles, each of which has airflow, confluent, annular flow and diffuser sections, a panel mounted on the cover with a gap and can be moved in the direction of the nozzle axes as well as a heat exchanger located in the housing, the panel including nozzles located concentrically to the nozzles.

 In this device, the range of regulation of the degree of attenuation of the air flow rate is insufficient due to a change in the geometric dimensions of the cavity.

 The aim of the invention is to expand the range of variation of the oscillation frequency of the jets.

 In FIG. 1 shows a diagram of an air closer, section; in FIG. 2 - nozzle of an air closer, section; in FIG. 3 - section AA.

 The air closer includes a housing 1 with a supply pipe 2 and a cover 3, mounted in the last outlet nozzle 4, each of which is located along the air, confuser, annular flow and diffuser sections 5,7,6, panel 8. mounted on the cover 3 with a gap and with the possibility of movement in the direction of the axes of the nozzles 4, as well as a heat exchanger 11 located in the housing 1. In this case, the panel 8 includes nozzles 9 located concentrically to the nozzles 4. The closer further comprises an air wave generating device including a control source 15 -governing environment conduits 16 communicated with the circular duct 10, the latter being placed around the annular portion 7 of the flow of each nozzle 4 and connected to them at least one annular flow close openings 12, and each conduit 16 control valve 17 is installed.

 The air closer operates as follows.

 In the housing 1 through the inlet pipe 2 air is supplied, which, passing through the heat exchanger 11, is heated (or cooled).

 The air processed in the heat exchanger 11 enters the nozzles 4. In the nozzles 4, the air first passes through their confuser sections 5, where its speed increases. Then it enters the annular flow section 7, in which air waves are generated, while due to air waves, the air flow in the nozzle 4 pulsates in the axial direction. Then, air enters the diffuser section 6 of the nozzle 4. At the exit of each nozzle 4, a pulsating jet has a strong effect on the mixing process. In this case, the volume of mixed air from the environment sharply increases. To change the oscillation frequency of the jet, the control medium is injected into the annular flow section 7 from the source 15 through the pipe 16 through the control valve 17, box 10, flow openings 12. In the annular flow section 7, the control medium interacts with the supply flow, the pressure in the annular flow is regulated section 7, which affects the mode of oscillation of the jet. All this allows you to expand the range of regulation of the frequency of fluctuations in the supply stream and, accordingly, the degree of damping of the expiring stream.

 (56) Copyright certificate of the USSR N 1596179, cl. F 24 F 1/01, 1990.

Claims (1)

 An AIR CLOSER comprising a housing with a supply pipe and a cover, mounted in the last outlet nozzles, in each of which there are confuser, annular flow and diffuser sections along the air, a panel mounted on the cover with a gap and with the possibility of movement in the direction of the axes of the nozzles, and a heat exchanger also housed in the housing, the panel includes nozzles arranged concentrically to the nozzles, characterized in that it further comprises an air wave generating device including a control source air flow, communicated by pipelines with annular boxes, the latter being placed around the annular flow section of each nozzle and connected to them by at least one annular row of flow openings, and a control valve is installed on each pipeline.

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