SU1375911A1 - Ventilating plant - Google Patents

Abstract

The invention makes it possible to reduce energy costs and increase the degree of utilization of the heat of exhaust air. Vertical external and internal air ducts (BB) 1,2, having a square shape in the cross section, are arranged to form a flow cavity (PP) 3, P over which is coaxial. BB 2 is equipped with a blower 5, which is connected to the vent umbrella 4 by its outlet 22. Heat exchanger elements of the heat exchanger, which is filled as a section of heat pipes 6, are located in PP 3 and BB 2. PP 3 are connected by the inlet 7 and exit 8, respectively, to the atmosphere and the room (P) 9. BB 2 is communicated by the input 10 and the output 11 with P 9 and through the supercharger with the atmosphere. In two opposite walls of explosive 2, transverse bypass openings 14, 15 with turnable locking elements installed in them are made. The latter are made in the form of 2 drive flaps placed in VB 16,17 and (O (L ko t a

Description

and connected with them semi-cylinders 18,19, turned in the open position with the convex side to the supercharger. The inlet section 20 of the BB 1 is provided with thermal insulation 21, which prevents the heat exchange of the air processed in PP 3 with the surrounding BB 1 environment, if P9 is used with a suspended ceiling 23 and lighting fixtures located in the cooled cavities of the last 24

75911

25 PP 3 is communicated by the inlet with P 9 through cavities 24 ,, Thus, additional heating of the air entering P 9 is possible in p, using the heat generated by the lighting devices. With sufficient wind pressure, it is possible to stop the blower and remove the exhaust air from the P 9 using only the 4о 1 umbrella. З Ф ф-лы, 1 ил.

This invention relates to air ventilation and conditioning techniques. .

The purpose of the invention is to reduce energy costs and increase the degree of heat recovery of exhaust air.

The drawing shows a schematic diagram of the air handling unit.

The ventilation unit contains vertical external 1 and internal 2 air ducts, located with the formation of a flow cavity 3, installed over it coaxially with internal duct 1 and connected to a blower hood 4, a supercharger 5 and a heat exchanger made in the form of a section of heat pipes 6, which are located in the flow cavity 3 and in the internal duct 2.

Flow cavity 3 is connected to the inlet 7 and outlet 8, respectively, with the atmosphere and the room 9, and the internal air duct 2 - with the entrance 10 and the outlet 11c with the room 9 and through the blower 5 with the atmosphere.

The outer 1 and inner 2 air ducts have a square shape in cross section, and the inner air duct 2 is provided with transverse bypass holes 14 and 15 that are complete in its two opposite walls 12 and 13 and have rotary locking elements installed in them that are arranged in the inner duct 2 drive flaps 16 and 17 and connected to

In them, the semi-cylinders 18 and 19, facing in the open position with the convex side to the supercharger 5.

The inlet section 20 of the outer air duct 1 is provided with thermal insulation 21, and the supercharger 5 is connected to the exhaust hood 4 with its output 22.

In the case of a room with a suspended ceiling 23 and lighting devices 25 located in the cooled cavities 24 of the latter, the flow chamber 3 is connected by an outlet 8 to room 9 through the cooled cavities 24 of the suspended ceiling 23.

The blower 5 can be installed under the hood 26 of the exhaust hood 4 on the elastic elements 27.

In addition, at the outlet 8 of the flow cavity 5, heaters 28 can be located.

The air handling unit works as follows.

When the blower 5 is turned on, the exhaust air from room 9 through the inlet 10 of the internal air duct 2, heat pipes 6 and exhaust point 4 is ejected cooled into the atmosphere .- 30. Under the action of being formed

In the dilution room 9, the outer, colder air through the inlet 7 of the outer duct 1 flows from the atmosphere into the flow cavity 3, ac is heated by heat pipes 6 and then through the outlet 8 enters the room 9.

During the period of greatest decrease in the outside air temperature, the drive flaps 16 and 17 rotate one towards the other with overlapping part of the flow area of the internal air duct 2 and simultaneous opening by semi-cylinders 18 and 19 of the bypass holes 14. and 15, which ensures the exhaust part 3 outside air.

When room 9 with a suspended ceiling 23 is made, additional heating of the air entering room 9 when it passes through the heaters 28 and the cooled cavities 24 of the ceiling 23 is possible as a result of the heat used by the lighting devices 25.

With sufficient wind pressure, it is possible to stop the blower 5 and remove the exhaust air from the room 9 using only the exhaust hood 4.

The execution of the inlet section 20 of the nazgasny air duct 1 with thermal insulation 21 prevents the heat exchange of the air processed in the flow cavity 3 with the environment surrounding the duct 1.

Claims (2)

Invention Formula 1, Ventilation installation, containing vertical external and internal air ducts, arranged to form a flow cavity, installed above it coaxially to an internal air duct and communicated with a blower with an air vent. 0 five 0 five 0 five and a heat exchanger, the heat exchange elements of which are located in the flow cavity and in the internal air duct, the flow cavity being inlet and outlet respectively with the atmosphere and the room, and the internal air duct with the room and through the blower with the atmosphere differing. Scha; In order to reduce energy costs, the outer and inner air ducts have a square shape in cross section, the heat exchanger is made as a section of heat pipes, the inner duct is provided with transverse bypass openings made in its two opposite walls with rotary locking elements installed in them , made in the form of drive sashes placed in the internal air duct and semi-cylinders connected to them, which in the open position, with their convex side, are turned towards the supercharger w, and the input portion of the outer duct is provided with heat insulation, and the supercharger communicates with the retrieval umbrella its output. 2. Installation according to claim 1, characterized in that, in order to increase the degree of utilization of the heat of exhaust air when ventilating a room with a suspended ceiling and lighting devices located in the cooled cavities of the latter, the flow cavity is connected to the room through the cooled cavities of the suspended ceiling.