DE4405692C1 - Outlet, in particular ceiling air outlet - Google Patents

Abstract

In the case of a ceiling air outlet, the floor area designed to let the air out is of divided design. The individual elements of the floor area are arranged as a whole to be displaceable and/or pivotable. The individual elements are assigned horizontal axes which run through the mid-point of the floor area or end at the mid-point. Arranged on the inner side of the wall of the housing, at the lower edge, is a bearing for the individual elements of the floor area, the bearing being formed by an annular disc. Each individual element of the floor area is connected via at least one rigid connecting element to a vertically displaceable carrier. This carrier is assigned an electrically or pneumatically driveable motor. By virtue of the design according to the invention, it is possible to introduce into the room easily controllable air of a different temperature. Between the purely horizontal or vertical jet, all intermediate jet directions can be set in a defined manner, it being possible to reduce impermissible thermal layering.

Description

The invention relates to an outlet, in particular one Ceiling air outlet, for cold and / or warm air supply in a room, where air through a connecting piece can be guided into a housing provided with openings, the one designed to let the air out of the housing and an appropriately trained floor area has, which is divided, wherein individual elements are arranged individually or in their entirety to be displaceable and / or pivotable.

In the known air outlets of the Gat shown As a rule, the cold air becomes horizontal and the warm air is blown vertically into the room. These Air outlets have a front panel with several Individual openings, behind which air steering elements are arranged net, which are a change of direction by rotation Effect single rays. They are also executions known, in the outlet level or shortly before variable guide vanes arranged in the angle of attack are. The well-known air outlets can be done manually can also be adjusted electrically or pneumatically, the free flow cross-section during the changeover construction from horizontal beam to vertical beam  is subject to major changes. An application in industry area with the requirement of large volume flows therefore problematic.

From DE-GM 88 14 007 is an air outlet with a Housing known, in its wall and base plate Openings of primarily the same overall size are planned are. The housing has an insert with a staggered arrangement neten and the openings in the housing almost identical Openings assigned so that by rotating the insert the free flow cross-section of the openings of the housing it is changeable. In the end positions they are Openings in the wall of the housing are completely free and the openings in the base plate completely ver closed or vice versa. When turning the insert the free areas of the side openings contrary to the free areas of the floor openings changed. With ceiling air outlets of this type are only ever a variety of horizontal or vertical individual beams, with Zwi positions of use to a mutual Influencing and thus for the local change of direction can come. A continuous and clear one adjustable transition from pure horizontal beam to pure vertical jet (displacement flow) is however not feasible.  

From DE 38 10 482 C2 an air outlet is known which via a concentric inside an outer case arranged inner housing, which with the Außenge housing bounded a free annulus and its jacket consists of a perforated plate or sieve. This air lass is material and costly. By the arrangement The flaps can only be removed from the inner housing be pivoted outside. The flaps are supposed to the volu Divide the flow into two or more air flows, see above that a swirl generation and thus a more intense Mixing the air is not given.

Another ceiling air outlet is from the US PS 41 91 098 known in which the adjustable Because of the design, the blades are not closed Form floor area and therefore a vertical air flow do not convert to a 100% horizontal air flow can do. With the angle of attack of the blades affects the free flow area.

The invention has for its object an outlet train the genus shown so that easily controllable both cold and warm air in a room can be supplied, in addition to the pure horizon valley or vertical jet also all in between Beam directions can be defined and are not adjustable casual thermal layers are degradable.

This object is achieved by the features of claim 1 solved. Appropriate design gene of the invention are in the dependent claims shown.

An embodiment of the invention is in the drawing shown and will be described in more detail below ben. Show it:  

Fig. 1 is a bottom view of an outlet with a closed bottom surface forming four individual elements

Fig. 2 is a longitudinal section along line II of FIG. 1

Fig. 3 as Fig. 1, but with pivoted individual elements by about 35 °

Fig. 4 shows a longitudinal section along line III-III of Fig. 3

Fig. 5 to Fig. 1, but with individual elements pivoted by almost 90 °, and

Fig. 6 shows a longitudinal section according to line VV of Fig. 5.

The outlet has a connecting piece 1 , which is provided with a lower collar 4 , which is designed in the form of an annular disk which is angled outwards and the outer edge of which extends downward at an angle. At this angled edge lies the upper outer limit of the housing 2 which adjoins at the bottom. As can be seen from the figures, the cross-sectional area of the housing 2 is larger than the cross-sectional area of the connecting piece 1 . In the exemplary embodiment, the housing 2 has the shape of a circular cylinder, the lateral surface of which is provided with rectangular openings 3 . The shape of these openings 3 and the shape of the housing 2 and the connecting piece 1 can be carried out as desired. In order to be able to transport the largest possible amounts of air through the outlet with tolerable sound power levels, the cross-sectional area of all openings 3 is larger than the cross-sectional area of the connecting piece 1.

The bottom surface of the outlet is formed by four quarter circular individual elements 6 , which are each rotatably mounted on a horizontal axis 7 . The horizontal axes 7 extend from the center of the bottom surface radially outwards. The individual elements 6 are connected with an edge to the associated horizontal axis 7 , so that pivoting of the individual elements 6 inwards is possible and the individual elements 6 do not protrude from the plane of the housing 2 after pivoting. The shape of the individual elements 6 is determined by the cross-sectional shape of the housing 2 , the size of the individual elements 6 being freely selectable. To Aufla tion of the individual elements 6 , a Aufla tion in the form of an annular disc 5 is arranged on the inner side of the wall of the housing 2 at the bottom. The width of this annular disc 5 is the same or smaller than half the difference in the diameter of the housing 2 and the connecting piece 1 .

The individual elements 6 of the floor area are connected via rigid connecting elements 8 to a vertically displaceable support 9 , to which a drive 10 is assigned. Here, the ends of the connecting elements 8 are articulated.

As shown in FIGS. 1 and 2, the individual elements 6 rest on the circular disc 5 and form a closed bottom surface. The air supplied to the housing 2 via the connecting piece 1 exits through the openings 3 perpendicular to the inflow, the exit speeds and the jet thickness being determined by the size, shape and arrangement of the openings 3 for a given volume flow. The horizontal jets mix intensively with the ambient air and bring about a rapid reduction in temperature and speed.

If the individual elements 6 are pivoted upward about the horizontal axis 7 via the connecting elements 8 connected to the drive 10 , see FIG. FIGS. 3 and 4, then enters a part of the supplied through the connection piece 1, air continues via the openings 3. The remaining residual air flows through the free floor surface created by the upwardly pivoted individual elements 6 into the space, the respective beam direction depending on the pivoting angle of the individual elements 6 . At the same time, in this position of the individual elements 6, the horizontal flow is sucked in, which is thus increasingly deflected from its starting direction. Due to the position of the individual elements 6 shown in FIGS. 3 and 4, the total beam additionally receives a swirl. With increasing angle of attack of the individual elements 6 , horizontal speed components and swirl become smaller and smaller until finally a pure vertical beam is formed. To generate a swirl and to prevent the formation of dominant main flow directions, four individual elements 6 , as shown in the figures, should preferably be used.

When the individual elements 6 are pivoted from almost 90 ° to the horizontal position, as shown in FIGS. 5 and 6, the bottom surface is essentially completely open, so that all the air supplied to the housing 2 emerges vertically. Due to the flow and pressure conditions generated in the housing 2 , room air is drawn in via the openings 3 , so that induction already takes place in the housing 2 . The annulus disc 5 causes in the exit plane depending on the width of the annular disc 5 a more or less strong beam constriction, which affects the exit speed and thus the vertical penetration depth of the beam.

Reference list

1 connecting piece
2 housings
3 openings
4 collars
5 circular washer
6 individual elements
7 horizontal axis
8 fasteners
9 vertically movable supports
10 drive.

Claims (15)

1. Outlet, in particular ceiling air outlet, for cold and / or warm air supply in a room, air being able to be guided via a connecting piece into a housing provided with openings, which has a wall of the housing designed to let the air out and a correspondingly designed floor surface which is divided, with individual elements arranged individually or in their entirety displaceable bar and / or pivotable, characterized in that the individual elements ( 6 ) are pivotable inwards, that the openings ( 3 ) in the wall of the housing ( 2 ) in several Levels are arranged and the total cross-sectional area of all openings ( 3 ) is larger than the cross-sectional area of the connecting piece ( 1 ) and that the inner side of the wall of the housing ( 2 ) has a flow-influencing support for the individual elements ( 6 ) at the lower edge. 2. Outlet according to claim 1, characterized in that the individual elements ( 6 ) are assigned to horizontal axes ( 7 ) which run through the center of the bottom surface. 3. Outlet according to claim 1 or 2, characterized in that the horizontal axes ( 7 ) from the center of the bottom surface extend radially outwards. 4. Outlet according to one of claims 1 to 3, characterized in that each individual element ( 6 ) of the bottom surface is connected with an edge to the associated Hori zontalachse ( 7 ). 5. Outlet according to one of claims 1 to 4, characterized in that the cross-sectional area of the housing ( 2 ) is larger than the cross-sectional area of the connecting piece ( 1 ). 6. Outlet according to one of claims 1-5, characterized in that the support for the individual elements ( 6 ) of the bottom surface is formed by an annular disc ( 5 ). 7. Outlet according to claim 6, characterized in that the width of the annular disc ( 5 ) is equal to or less than half the difference of the diameter of the housing ( 2 ) and the connecting piece ( 1 ). 8. Outlet according to one of claims 1 to 7, characterized in that each individual element ( 6 ) of the bottom surface via at least one rigid connecting element ( 8 ) is connected to a vertically displaceable carrier ( 9 ). 9. Outlet according to claim 8, characterized in that the ends of the connecting elements ( 8 ) are articulated. 10. Outlet according to claim 8 or 9, characterized in that the vertically displaceable carrier ( 9 ) is assigned a drive ( 10 ). 11. Outlet according to one of claims 8 to 10, characterized in that the drive ( 10 ) is formed by an electrically or pneumatically drivable motor. 12. Outlet according to one of claims 8 to 10, characterized in that the drive ( 10 ) is formed by a control mechanism with manual adjustment. 13. Outlet according to one of claims 1 to 7, characterized in that the individual elements ( 6 ) are slidably mounted one above the other. 14. Outlet according to one of claims 1 to 13, characterized in that the connecting piece ( 1 ) has a lower in the form of an outwardly angled ver current annular disc ( 5 ) formed collar ( 4 ), the outer edge of which is angled downwards. 15. Outlet according to claim 14, characterized in that the angled downward edge of the collar ( 4 ) abuts the upper outer limit of the hous ses ( 2 ).