CH650326A5 - Air outlet for air-conditioning installations - Google Patents

Description

The invention relates to an air outlet for air conditioning systems, so that the supply air only flows out of the ring around the nozzle.

conditions, especially for the jet ventilation of large halls. The air flow emerging from the nozzle when heating, such as production halls, exhibition halls, sports halls and the like, sits at a high speed and should drop down more. Lead lounge area while the all around

A constant air flow is required in these halls, air flow through the swirl vanes a degree of turbulence

by changing the air outlet direction and also the adjustable strength and thus a rapid speed

Degree of turbulence to reduce the different load conditions to 55.

can be adapted to all seasons. These air outlets The air outlet according to FIG. 1 can be at any distance due to the use of the hall ceiling, for example for distributed mounting on the upper wall part of a hall and each

Overhead cranes, or because the hall ceilings direct the load from the nozzle according to the spatial conditions,

a ventilation system is not allowed, finally because it is shown in FIG. 2 that on a common box

71 in the part, as is open in sports halls, in the area between the 60-shaped distribution duct, several air outlets according to FIG.

roof and wall. Either this can be arranged side by side.

would be mounted in this angular range or also portal-like. In Fig. 3 to 6 are arranged in the tubular outlet element on the walls. 11 carried by the tube segment 12, segment-shaped layer

In a known system (H. Brockmeyer "The jet cells 13 in the free section of the pipe segment 12, and ventilation of the Olympic sports hall" in health engineer 65 between the slats and connected to them in a circular arc-1972, pages 161 to 170 ) the ventilation part is arranged behind and above the nozzles 14 and 15. Behind the slats half of the last row of spectators on the top gallery row is a grid 16 as a turbulence generator. The slats ordered. The supply air is 13, which is not shown here, individually or in groups through swiveling free jet nozzles.

3rd

650 326

be pivoted by hand or mechanically. The openings of the adjacent nozzles - which are shown here as rectangular, but can also be round - should increase in size in the direction of the blown air (arrow) so that the pressure remains the same over the entire length.

4, so that the cool air is blown out obliquely upward through the nozzles 15. The penetration depth of the air flow is influenced by the degree of turbulence of the air emerging between the lamellae 13, which is disturbed by the grille 16.

In the isothermal case (FIG. 5), the two rows of nozzles 14 and 15 are switched off by a corresponding rotation of the pipe segment 12 and the entire supply air exits between the fins 13.

When heating (Fig. 6), the nozzle row 14 is switched on. Here, too, the depth of penetration of the warm air is regulated by the turbulence of the air emerging between the fins.

In the example of FIGS. 7 to 10, the rectangular slats 23 are inserted into the longitudinal opening 22 of the tubular outlet element 21 so as to be pivotable about a vertical axis. The pivoting can be designed individually or in groups. The pipe is concentric with the outlet element 21

24 rotatably supported with its slot-shaped outlet opening 25. The direction of the incoming air is indicated by an arrow. This slot also widens with the direction of injection.

5 In the case of cooling (FIG. 8), the tube 24 is turned downwards with its outlet nozzle 25. The cool air emerging from the slot hits the inner wall of the outlet element 21 and is deflected here upwards between the fins 23 and experiences a certain turbulence.

In the isothermal case (FIG. 9), the outlet nozzle 25 is behind the fins 23, so that the air escapes immediately.

In the case of heating (Fig. 10), the warm one comes out of the outlet nozzle

25 emerging air flow is reflected on the upper inner wall of the outlet element 21 and occurs between the fins

15 23 directed downwards.

As shown schematically in FIG. 11, the air outlets can be arranged as a cross connection 31 of a portal 33 formed together with the vertical supply air pipes 32 (indicated by propellers).

2o According to FIGS. 12 and 13, the air outlets according to the invention are accommodated in a fan head 42 carried by the supply air pipe 41. The supply air flows here from three separate e.g. by flexible shafts 43 for the simultaneous pivoting coupled outlet nozzles 44 in three directions

25 exercises.

C.

2 sheets of drawings

Claims (8)

650 326 2 PATENT CLAIMS blown in, the warm supply air in the heating situation downwards, 1. Air outlet for air conditioning systems, in particular for isothermal air approximately horizontally and cold supply air in the cooling case, jet ventilation from halls, whereby it is inclined upwards on the side walls. The control of the pivotable nozzle in the upper area is determined, which pot is technically complex and the turbulence of the escaping air flow from two separate outlet elements (1, 2; 11, s jet) cannot be regulated. 12; 21, 24) of different effects, of which the object of the invention is to provide an air outlet to improve an outlet element (2; 12; 24) pivotably within the occasion of the type described above and to extend its outlet element (1; 11; 21) in such a way that it is characterized by a simple structure, that the one outlet element (2; 12; 24) has at least the same effect and at the same time the degree of turbulence and at least one nozzle (2; 14,15; 25), and the other Aus 10 allows to change the penetration depth of the air flow, let element (1; 11; 21) is cylindrical. The air outlet according to the invention is de- 2. Air outlet according to claim 1, characterized, finished. That the other outlet element (1) has an outlet opening arranged in the direction of the cylinder. In the drawing, three exemplary embodiments of the relief axis are arranged, and the invention is shown schematically. Nozzle (2) centrally within the other outlet element (1) 15 1 is an air outlet with a cylindrical outlet, and that turbulence generating elements with built-in pivotable nozzle and urging means (5) are arranged in a ring around the nozzle. shoveling, 3. Air outlet according to claim 2, characterized in, FIG. 2 shows an arrangement of a plurality of air outlets according to FIG. 1 that as turbulence-generating means, swirl blades (5) 20 are arranged next to one another on a box-shaped distribution channel. orders, 4. Air outlet according to claim 2, characterized in, Fig. 3 is an air outlet with a tubular Aus-that as a turbulence-generating rods arranged radially let element and a pipe segment in its longitudinal opening. segment-shaped fins and arranged between these nozzles 5. Air outlet according to claim 1, characterized in that 25 are arranged, 3, with a longitudinal opening, a section through the air outlet according to the inlet element (11), a pipe segment (12) rotatably coaxially shown in FIG. 3 with three different positions of the nozzles, 7, an air outlet with a tubular outlet (11) corresponding to a longitudinal opening in a plurality of cross-sectional outlet elements, in the longitudinal opening of which slats in the jacket have segment-like slats (13), and which is arranged between 30 are, and in the concentrically rotatable cylinder these fins and then at the ends of nozzles is also installed with a longitudinal opening, (14) are arranged. Fig. 8,9,10 each a section through the air outlet 6. Air outlet according to claim 5, characterized in, Fig. 7 with three different positions of the cylinder that between the fins (13) grids (16) are arranged. 11 shows the arrangement of the air outlets in a portal, 7. Air outlet according to claim 1, characterized, 35 schematically, 12 and 13 the arrangement of the air outlets in another outlet element (21) provided on the right-hand side of a column, schematically in angular slats (23) pivotable about vertical axes - sees and cross section. gert, and that in the other outlet element (21) with a cylinder (24) 40 2 in the cylindrical outlet element 1, the nozzle ner is provided with a slot-shaped outlet nozzle (25) in the spherical half-shell 3. Between is rotatably mounted coaxially. see shell 3 and inner wall 4 of the outlet element 8. Arrangement of air outlets arranged radially according to one of the swiveling vanes 5 that can be swiveled to. Instead of the che 2,3 or 4, characterized in that several air swirl blades can also e.g. Perforated sheets can be used as turbulence outlets next to each other on a common elongate generator. Are arranged in front of the air inlet opening in the distribution duct. 45 the nozzle is an adjustable shut-off device, indicated with disk 6, mounted. In the heating case, the nozzle 2 is directed towards the floor, in the isothermal case and in the cooling case, the nozzle is disc 6