SU733407A1 - Air distribution device - Google Patents

Description

The invention relates to air heating, ventilation and air conditioning and is intended for air distribution in residential, public and industrial buildings.

Known air diffuser, changing the direction of the air outlet, containing a grill located in a cylindrical hinge and guide vanes [11. A disadvantage of the known air distributor is that when the grill is rotated, the flow stalls from protruding sharp edges of the grill, and when flowing around the blades installed at an angle to the flow, stall flow from the sharp edges of the blades, the aerodynamic resistance of the lattice increases and its aerodynamic characteristics deteriorate.

Known and another air distributor containing a housing with a cylindrical hinge and a rotary nozzle [2].

This air distributor is the closest to the invention in terms of technical nature and the achieved effect.

. However, when the nozzle is turned, the flow stalls from the protruding sharp edges of the hinge, which leads to intense vortex formation, an increase in aerodynamic drag and noise level.

The aim of the invention is to improve the indoor climate by reducing the level of aerodynamic noise and expanding the service area.

This goal is achieved by the fact that the casing is made rotatable and curved linear vanes are installed in it at the inlet, and the nozzle has an inlet section located in the hinge and expanding against the air flow.

To ensure maximum range of the supply jets when supplying cold air in summer, the nozzle is installed at the desired angle upward, and for supplying heated air in winter - downward.

The rotation of the nozzle and the air distributor can be carried out manually or automatically 2 ° using actuators.

The drawing shows an air distributor, a longitudinal section.

The air distributor comprises a housing 1 with a cylindrical hinge 2 and a rotary nozzle 3. The housing 1 is made rotary and guide curved blades 4 are installed at the inlet thereof, and the nozzle 3 has an inlet section 5 located in the hinge 2 and expanding against the air flow. To rotate the nozzle 3 in a vertical plane, an actuator 6 is mounted connected to a cylindrical hinge 2. The housing 1 is connected to the duct 7 by means of a rotary flange 8. For horizontal rotation of the air distributor, guides 9 and an actuator 10 are installed on the housing 1.

The device operates as follows.

The supply air from the duct 7 enters the housing 1 of the air distributor, in which, using curved guide vanes 4, the flow smoothly changes direction and expands, filling the entire cross section of the housing 1, then gradually narrows in the inlet section 5 and is discharged through the nozzle 3 into the room.

With an increase in the temperature difference between the supply air and air in the serviced zone, the actuator 6 rotates the nozzle 3 in the cylindrical hinge 2 downward, and with a decrease in the temperature difference, upward. The actuator '10 rotates the air distributor in a horizontal plane along the guides 9.

In the air distributor, the air discharge rate can be increased in

1.5-3 times compared with known devices without increasing noise. In this case, an increase in the range of the supply jets and a more uniform distribution of microclimate parameters in the served area of the room are achieved.

Claims (1)

Claim 10 An air distributor comprising a housing with a cylindrical hinge and a rotary nozzle, characterized in that, in order to improve the microclimate in the room by reducing the aerodynamic noise level and expanding the service area, the housing is rotatable and curved blades are installed at the inlet and the nozzle is installed has a section located in the hinge and expanding against the air flow.