FI102109B - A supply air and exhaust air nozzle for the ventilation system in a building - Google Patents

Description

102109

Supply and exhaust air nozzle for a building air conditioning system - Ett tillufts-och fränluftsmunstycke for ventilationssystemet i en byggnad

The invention relates to a new type of nozzle solution for a building air conditioning system which acts both as an inlet air inlet nozzle and as an exhaust air outlet nozzle. In addition to apartment buildings, the solution according to the invention can be utilized, for example, in detached houses and terraced houses.

Air-conditioning systems in residential and commercial buildings are based on the recirculation of air taken from outside the building into the building and the extraction of indoor air outside the building, respectively.

The air brought into the building from the outside must first be cleaned of contaminants with various air filters. If the incoming air is too cold, it must also be heated, and correspondingly if the incoming air is too hot, it must also be cooled, for example in a heat recovery cell.

15 As the incoming air has to pass through various air filters and cells, it should be as dry and free of debris as possible. In addition to other outdoor contaminants, leaves, rain, or snowflakes that have often come off the trees are transported with the supply air to the air conditioning system. Indeed, in building air conditioning systems, the problem is often the clogging of the external grilles and air filters of the inlet air caused by debris or moisture.

A wide variety of outdoor grille solutions have been designed for air conditioning systems in residential and commercial buildings. These known external grille structures have generally sought to find a solution which is sufficiently simple and easy to install and which makes it possible to avoid, as far as possible, the problems caused by moisture and contaminants.

The prior art will now be described with reference to the accompanying drawings, in which: Figure 1 shows a typical prior art residential air conditioning system with external grilles, Figure 2 shows a prior art external air grille for a building air conditioning system 30, Figure 3 shows a prior art building air conditioning system with 102109 Fig. 4 shows a prior art building air conditioning system grille with an additional fan to prevent debris from entering the air conditioning system, Fig. 5 shows a prior art building air conditioning system 5 supply and exhaust air angry side profile, and Fig. 6 shows a prior art building air conditioning system in Fig. 5. the structure of the air ducts of the supply and exhaust air nozzle of the mast system.

Figure 1 shows a typical prior art air conditioning system of a residential building 10 with external grilles. The air conditioning system of the residential building 1 comprises an external intake air supply grille 2 and an exhaust air nozzle 3 to be removed from the living space. The external intake air supply grille 2 is traditionally mounted on the outer wall of the residential building 1 and the largest exhaust air extractor 15 is

Figure 2 shows an external grille for the supply air to a building air conditioning system according to the prior art. The supply air external grille 2 is a traditional external grille with grilles 4-8. The grilles 4-8 of the supply air outer grille 2 are mounted obliquely front edge down. Thus, the water entering directly into the outer grille 2 tends to drain from the gratings 20 4-8 downwards and does not pass on to the air conditioning system. However, the problem with such a solution is, for example, a windy rainy day, when snowflakes can easily enter between the gratings.

Figure 3 shows an external grille for the supply air of a building air conditioning system according to the prior art, on which heat conductors are installed. The supply air outer grille-section 9 is a conventional outer grille 9 with gratings 10 mounted downwards at an oblique front edge. The gratings have heat conductors 11-12 mounted especially for snowflakes. Thanks to the heat conductors 11-12, the incoming snowflakes melt on the gratings 10 and can thus flow downwards as water.

However, both solutions presented have the disadvantage of a cumbersome installation of the air conditioning system 30, since both the external supply air grille 2, 9 and the exhaust air largest 3 have to be installed separately. In addition, a flue must be installed on the roof for the nozzle 3.

Figure 4 shows a grille-type external supply air grille for a building air conditioning system according to the prior art. In this known outer grille structure, the nozzle structure has a separate fan which provides an outwardly directed 102109 3 air flow 15 which blows snowflakes and leaves out of the grille inlet air 16.

The disadvantage of the external supply grille structure 13 is the power required by the separate fan of the air conditioning system. In addition, it does not allow variations in the amounts of supply air and supply air 5, i.e. it only works in plants where the amount of air is constant.

Figure 5 shows the angry side profile of the supply and exhaust air of an air conditioning system of a prior art building. This known nozzle structure to be mounted on the wall 17 of a building comprises a dome-shaped structure 18 for the air 23 entering the air conditioning system of the building. The incoming air enters the air duct 22 of the supply air 23 from the open bottom 19 of the tubular structure. The domed structure 18 passes through a tubular nozzle 20 of the exhaust air 21 exiting the building. The exhaust air 21 of the building air conditioning system is directed to blow directly through the air duct 20.

Fig. 6 shows the structure of the angry air ducts of the supply and exhaust air of the known building air conditioning system in Fig. 5. The figure shows a dome-shaped structure 18 with two air ducts 20, 22. There is an air duct 22 for the supply air 23 of the air conditioning system and an air duct 20 for the exhaust air 21 of the air conditioning system, which forms a tubular nozzle 20 passing through the dome-like structure 18.

A disadvantage of the nozzle protruding from the tubular dome-shaped structure is not only its clumsy appearance but its poor ability to blow falling leaves, rain and snowflakes away from the vicinity of the intake air. Attempts have been made in a known manner to improve the blowing properties of the tubular exhaust air nozzle by installing separate mechanical flow restrictors in the pipe, but even this result has not been considered satisfactory.

It is an object of the present invention to provide such an air a supply system for the supply and exhaust air of the supply system, with the help of which the above-mentioned problems can be solved and the shortcomings rectified. To achieve this, the solution according to the invention 30 is characterized in that the nozzle has a dome structure, the exhaust air duct of the building air conditioning system extends to the lower part of the dome structure forming an exhaust air nozzle and the air entering the building air conditioning system enters the system inlet air.

4 102109

The invention will now be described in detail with reference to the accompanying figures, in which: Fig. 7 shows a side profile of a building air conditioning system supply and exhaust air nozzle, Fig. 8 shows a building air conditioning system supply and exhaust air nozzle structure according to the invention, Fig. 9 shows a building air conditioning system supply and exhaust air nozzle alternative structure, and Figure 10 shows a second alternative structure of the supply and exhaust air nozzle of a building air conditioning system according to the invention.

The solution according to the invention is described below with reference to Figures 7-10, which show the implementation of the solution according to the invention.

Figure 7 shows an angry side profile of the exhaust air of a building air conditioning system according to the invention. The nozzle solution according to the invention is mounted on a building wall 24 and has a dome-like structure 25. The dome-shaped structure 25 protrudes at its lower edge as an exhaust air nozzle 28. The air duct 26 of the building air conditioning system 29 extends into the lower part 28 the exhaust air 29 blowing into the dome-shaped structure 25 and the nozzle 28 effectively blows leaves, rain and snowflakes si-20 from the air intake path. The air 32 entering the air conditioning system of the building enters the air duct 30 of the supply air 32 of the system from the open lower part 31 of the dome-like structure 25. without air 32.

Figure 8 shows the structure of a building air conditioning system inlet exhaust air nozzle according to the invention. The dome-shaped nozzle solution 25 according to the invention protrudes from its lower edge and the pipe 33 of the air duct 26 of the building air conditioning system 29 extends to the second projecting lower part 34 of the tubular nozzle structure 25 to form a nozzle 34 the supply air 32 to the air duct 30. The rectangular exhaust air largest 34 effectively blows leaves, rain and snowflakes out of the intake air path over a wide area.

102109 5

Figure 9 shows an alternative structure of an outlet air outlet according to the invention. The dome-shaped nozzle solution 35 according to the invention is preferably formed as a curved protrusion 37 at its lower edge. the system supply air 32 to the air duct 30. The curved shaped exhaust air major 37 effectively blows leaves, rain and snowflakes out of the intake air path in all directions.

Figure 10 shows another alternative structure of the supply and exhaust air nozzle of a building air conditioning system according to the invention. The dome-shaped nozzle solution 35 according to the invention is preferably formed as a curved protrusion 40 at its lower edge. The pipe 39 of the air duct 26 of the building air conditioning system 29 extends into openings 15 41 in the curved bottom 40 of the dome structure 35. from the open bottom 36 into the air duct 30 of the supply air 32 of the system. The air flow from the nozzle openings 41 of the curved exhaust air nozzle 40 blows very strongly and efficiently in several directions out of the leaves, rain and snowflakes from the intake air 20.

The nozzle solution according to the invention is a very advantageously shaped unit and keeps the air filters and cells of the building's air conditioning system clean. The presented nozzle solution also saves energy, as it does not require a separate fan or heat conductors. The nozzle solution according to the invention can also be used as apartment-specific supply and exhaust air nozzles for a building air-conditioning system.

Claims (6)

1. A vent and vent nozzle in a ventilation system in a building, characterized in that the nozzle has a dome (25, 35), 5. the pipe (27, 33, 39) in the air duct (26) extends for air (29). to the lower portion (28, 34, 37, 40) of the dome-shaped structure (25, 35) and forms a nozzle (28, 34, 37, 40) for outgoing air, and that the incoming air (32) enters the building's ventilation system. through the open lower portion (31, 36) of the dome-shaped structure (25, 35) into the air duct (30) for incoming air (32) in the system. Nozzle according to claim 1, characterized in that the air duct (30) for incoming air (32) is placed above the air duct (26) for the outgoing air (29). Nozzle according to claim 1 or 2, characterized in that the protruding lower part (34) forming nozzle (34) for outgoing air (29) in the dome-shaped nozzle structure (25) is rectangular. Nozzle according to claim 1 or 2, characterized in that the protruding lower part (37) forming nozzle (37) for outgoing air (29) in the dome-shaped nozzle structure (35) is formed with a leaky curved lower edge (37). Nozzle according to any one of the preceding claims 1-4, characterized in that the pipe (39) in the air duct (26) for outgoing air (29) in the dome-shaped nozzle structure (35) extends to openings (41) in the lower part (40). ) of the dome-shaped structure (35) forming nozzle orifices (41) for outgoing air (29). Nozzle according to any of the preceding claims 1-4, characterized in that the nozzle solution is used as inlet and vent nozzles in each apartment in the building's ventilation system. «