RU2231719C1 - Air distribution device - Google Patents

Abstract

FIELD: venting and air-conditioning equipment.

SUBSTANCE: air distribution device has cylindrical cellular nozzle connected to air duct through inlet pipe. Nozzle cells are defined by radial ribs arranged into cylinder between bottom and lid thereof. Air jet swirlers are located into sells. Cylinder with opened upper end is arranged coaxially into nozzle and is spaced minimal distance from inlet cell orifices. Cylinder with opened upper end may rotate around fixed axis and have a number of orifices formed on side surface thereof. Number of orifices is less than number of cells. Two propeller-type blades are secured into the cylinder for cylinder rotation around fixed axis when air is fed into cylinder.

EFFECT: enhanced productability and increased intensity of inlet jets attenuation.

2 dwg

Description

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

A device for the distribution of supply air (AS USSR No. 388176, F 24 F 13/06, 1973), including a pipe connected to the duct and the impeller, the blades of which are curved in the form of a Segner wheel and form holes inside the impeller the drum is mounted rotatably open on the nozzle side, the side surface of the drum has openings.

The disadvantages of such a device are:

- insufficiently attenuated supply air jets due to the lack of turbulization;

- the presence of two rotating elements (impeller and drum) reduces the reliability of the device.

Known air distributor (AS USSR No. 1314198, F 24 F 13/06, 1987) is the closest analogue containing a spherical shaped cellular nozzle connected to the duct, in which the honeycomb is made in the form of diffusers with radial walls, and the nozzle is connected to duct using a pipe connected to the inner ends of the cells.

The disadvantages of such a device are:

- low intensity of the reduction in the velocity of the supply air jets due to the lack of elements ensuring their pulse outflow from the air distributor;

- the complexity of manufacturing a cellular spherical nozzle.

The aim of the invention is the creation of an air distributor that is not difficult to manufacture and provides a high attenuation rate of the supply air jets.

This goal is achieved due to the fact that the proposed design of the air distributor uses a honeycomb nozzle connected to the duct through the inlet pipe, while the honeycomb nozzle is made in the form of a cylinder, the honeycomb is formed by radial ribs fixed inside the cylinder between its bottom and the cover, their outlet openings are located on the side surface of the cylinder, the cells are equipped with swirls of air flow, and inside the honeycomb nozzle, coaxially with it, is installed with a minimum clearance from the inlets of the cells, rotatable about a fixed axis by the open inlet cylinder having on the lateral surface of the window, which number less than the number of combs, and inside of this cylinder are fixed two blades propellerovidnye providing rotation of the cylinder when applying air inside the latter.

This design of the air distributor allows a pulse-fan outflow due to the alternate intake of air into the cells from the windows of the cylinder open at the top, which rotates due to the presence of propeller-shaped blades when air flows from the inlet pipe into the cylinder. The air jets flowing from the honeycombs, in addition to providing a pulse-fan flow, are twisted as they pass through the swirlers located in the honeycombs, which provides additional rapid attenuation of the supply jets in the room.

Thus, when implementing this technical solution, a technical result is achieved, which consists in providing intensive attenuation of the supply jets due to the organization of a pulse-fan outflow of swirling jets from the air distributor.

Analysis of analogues showed that the claimed technical solution is new. The novelty of the solution lies in the use of a cylindrical honeycomb nozzle in which the honeycombs are made using radial ribs placed in the cylinder, air swirls are placed in the honeycomb, and the pulsed intake of air into the honeycomb is provided by a rotating cylinder with windows.

Thus, the claimed technical solution is characterized by a new combination of the above features that give a positive effect, and has signs of compliance with the criterion of "inventive step".

Figure 1 shows the proposed air distributor, figure 2 is a section along aa.

The air distributor contains a honeycomb nozzle 1 having the shape of a cylinder connected to the inlet pipe 2. Cells 3 are formed by radial ribs 4 attached to the bottom 5 and the cover 6 of the cylinder nozzle 1. Coaxially with the nozzle 1 on the fixed axis 3 is fixed with a minimum clearance from the inlet 8 honeycomb 3 cylinder 9, open from the inlet pipe 2, having windows 10. The ends of two propeller-shaped blades 11 are attached to the inner walls of the cylinder 9, fastened to the bearing 12, rigidly fixed to the axis 7, providing rotation of the cylinders ndra 9 when it enters the air flow from the inlet pipe 2. In the cells 3 are disposed zakruchivateli 13 air jets. The inlet pipe 2 is connected to the duct 14. Parts 15 and 16 are designed to mount a fixed axis 7.

The air distributor operates as follows. Air from the inlet pipe 2 enters the cylinder 9 open at the top and rotates the blades 11 together with the cylinder 9 and through the windows 10, the air enters the inlets 8 of those cells, which are currently aligned with the windows 10. This ensures a pulsed air in each of the cells 3. The twists 13 located in the honeycombs 3 provide for the swirling of the air jets passing through the cells 3. Thus, pulse-fan swirling jets are formed at the exit of the honeycomb nozzle, which rapidly lose speed in p displacements.

The proposed filter is industrially applicable, as it does not contain elements of difficulty in their manufacture and installation difficulties.

The proposed air distributor according to the principle of operation provided by a new set of essential features, allows for quick attenuation of the supply air jets in the room due to the pulse-fan intake of swirling air jets.

Claims (1)

An air distributor comprising a honeycomb nozzle connected to the duct, characterized in that the honeycomb nozzle is connected to the duct through an inlet pipe and is made in the form of a cylinder, the honeycomb is formed by radial ribs fixed inside the cylinder between its bottom and the cover, airflow swirls are placed inside the honeycomb, while inside the honeycomb nozzle, coaxially with it, with a minimum clearance from the inlet openings of the honeycomb, a cylinder is open that rotates around a fixed axis and is open from the inlet pipe side, having minutes on a side surface of the window, which number less than the number of cells, and inside of this cylinder are fixed two blades propellerovidnye providing cylinder rotation about a fixed axis when applying air inside the latter.

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