DE4445625A1 - Roof or ceiling vent in building - Google Patents

Abstract

Two opposing sidewalls (21) converge on one another towards the base surface of the air vent form a saddle roof. The base should be square or rectangular, from whose four sides single walls extend to complete a saddle or hip roof or truncated pyramid shape. One wall at an angle to the vent base has a connection for an air feed duct (17). The cover of the truncated pyramid shape has a connection (19), complete with choke. The roof vent (1) lies between room ceiling (3) and intermediate ceiling (5), using hanger rod or rope (7), also an adjuster (9) used to vary the distance between vent and ceiling or roof. The vent is composed of connection box (2) with inlet and outlet on the underside which is closed off by a plate (11) itself broached as link between box (2) and serviced room (15). Holes (16) in the outlet plate are used to direct the air as needed.

Description

The present invention relates to a blanket air outlet with an air connection box (air ver sub-box) which has an ent assignable remote outlet plate, which with min least an air outlet element is provided, and with Sidewalls, at least one of which is air has inlet opening.

Such ceiling air outlets are targeted Ventilation of, for example, living areas in the Comfort and industrial area, due to the thermal load high air exchange rates other, used. Such ceiling air outlets are best hen each from an air connection box, given if necessary, an arranged / arrangeable one Air inlet opening with connecting piece for the connection with a supply air line and a removable, with air outlet elements Outlet plate. The air connection boxes are, in Usually not visible from the room, between a suspended false ceiling and the actual Chen arranged ceiling and over in this inter Corresponding air supply ducts correspond appropriate care. The room to be ventilated the side of each air connection box is with the Outlet plate provided, which in turn in a ent  speaking recess in the false ceiling can. The one placed in the air connection box Air is arranged through the in the outlet plate th air outlet elements in the desired manner in the to be ventilated.

Such ceiling air outlets are for example in DE-A 43 35 190. There is the Disadvantage that the transport to the installation site and the construction site (for example in lifts) a big one Space is taken up, that is, a truck or the like is despite filled in trans port space poorly used. Given high Transport costs there is a verb bring about solution. Here less means trans port volume also less energy consumption and thus less environmental impact. Moreover, they are known ceiling air outlets with regard to their operation noise development in need of improvement.

The object of the present invention is half in providing a ceiling air outlet that can be transported to save space, the loading drive noise level is reduced and with the Iso material is saved.

According to the invention, this object is achieved by that at least two be opposite side walls of the air connection box - to the base are arranged diverging towards each other. The means that at least one side wall is pointed  Angle, i.e. an angle <90 °, with the base che includes.

By means of such an inclined side wall on the one hand, the individual air connection boxes because of the at least one inclined side wall be stacked well. So it falls from the air closing box enclosed volume not as un usable white space. When stacking, Be reach an air junction box into the inside nes neighboring air connection box at least partially one.

On the other hand, the air connection box can noise level, preferably by approximately 3 decibels can be reduced, resulting in a remarkable Chen improves the noise level in the room.

Because the air connection boxes are largely insulated the smaller side wall surfaces lead to Consumption of smaller amounts of insulation material. In some cases, the insulation can even be completely removed fall.

In an advantageous embodiment of the invention are the two side walls of the air connection box gabled roof-shaped. The two sides walls run from the base, towards each other and hit one of the base areas opposite ridge together. The other two Ren side walls of the air connection box are there with perpendicular to the base.  

In a further advantageous training of the Er invention has a square base or rectangular shape, with that of each Base side outgoing side walls a Py ramidenform, gable roof shape, a hip roof shape or form a truncated pyramid. At the pyramids form, all four side walls are both at the bottom surface inclined as well as triangular det, being together in a common point to meet. All are also in the hip roof shape four sidewalls inclined, but only two opposite side walls triangular are. The other two side walls have one Trapezoidal shape. The gable roof shape is like already described, only two facing each other side walls arranged inclined, the two other side walls are perpendicular to the base che.

Another advantageous embodiment of the Erfin can be seen in the fact that suspension means on the Cone or pyramid tip, at the saddle roof ridge or arranged on the hip roof ridge or can be arranged are. It can be used for a box-shaped Air connection box usually available four point suspension can be dispensed with. Due to the reduced number of suspension points is one Alignment of the air connection box respectively of the entire ceiling air outlet is easily possible.

In yet another advantageous embodiment of the Invention is in particular to the footprint inclined side wall a connecting piece for the  Air supply channels provided. Through this to Base inclined arrangement can the An final connection during assembly from below through the Air outlet well reached and viewed the. This makes setting easier of throttle device arranged in the connecting piece exercises.

The present invention is now based on the Drawing explained in more detail.

It shows

Fig. 1 is a schematic side view of a ceiling air outlet according to the invention;

Fig. 2a-e schematically illustrated top view of the Luftan circuit box according to the invention;

Fig. 3 shows a further development of the ceiling air outlet shown in Fig. 1 according to the invention;

Fig. 4 shows another Wei further development of the ceiling air outlet shown in Fig. 1;

Fig. 5 shows yet another further development of the ceiling air outlet shown in Fig. 1;

Fig. 6a and 6b are schematic representations of a connection piece to;

Fig. 7 is a schematic representation of several, stacked air connection boxes and

Fig. 8 is a schematic representation of several, each provided with a connection piece, stacked air connection boxes.

In Fig. 1, a ceiling air outlet 1 is shown, which is arranged between a ceiling 3 and a false ceiling 5 . The suspension of the ceiling air outlet 1 on the ceiling 3 takes place via a suspension means 7 , which preferably consists of a rod or egg rope. The distance between the Dec kenluftauslaß 1 and the ceiling 3 is adjustable via an adjusting device 9 , which is only indicated mathematically in Fig. 1.

The ceiling air outlet consists essentially of an air connection box 2 which has an air inlet opening 4 and an air outlet opening arranged on its underside. The air outlet opening is covered by an outlet plate 11 which is arranged in a cutout in the false ceiling.

In the outlet plate 11 recesses 13 are seen easily, which create a connection between the interior of the air connection box 2 with the beyond the inter mediate ceiling 5 lying, to be ventilated space 15 . In these recesses 13 Luftaus let elements 16 are introduced, which provide for the control of the air flow. These have conventional air guiding devices that deflect the air flow in the desired direction.

The loading of the interior of the Luftanschlußka most 2 with air takes place via an air supply channel 17th The connection of the air supply duct 17 to the air connection box 2 is achieved by a connecting piece 19 . This can be inserted into a corresponding recess in one of the side walls 21 of the air connection box 2 or screwed in on the basis of suitable means. In the example shown in FIG. 1, the connection piece 19 is arranged in a side wall 21 of the air connection box 2 which is inclined towards the base surface. The fastening supply of the connecting piece 19 in the side wall 21 can be fixed or - as mentioned - releasably.

Preferably, the cross section of the air supply duct 17 and the connecting piece 21 is circular; other shapes, for example an oval or rectangular shape, are also conceivable.

In FIGS. 2a-e are from some of the possible forms of design of the air connection box 2 in egg ner schematically illustrated top view shown.

The base of the air connection box 2 or the ceiling air outlet 1 , as shown in FIGS . 2a and b, can be rectangular or square. However, it is also possible to provide, for example, a circular or oval base, so that the Luftan circuit box 2 has a cone or truncated cone shape.

The four side walls are inclined towards the base surface in accordance with FIGS. 2a and b and meet at a common point 23 . The Luftan circuit box 2 thus has a pyramid shape with a tip 23 , the base being either square or rectangular.

Fig. 2c shows the air connection box 2 with a hipped roof shape. All four side walls 21 are arranged inclined towards the base, but only the two opposite side walls 21 'and 21 ''collide. These side walls 21 'and 21 ''thus have a trapezoidal shape, whereas the two adjacent side walls 21 are triangular.

Fig. 2d shows a further embodiment of the air connection box 2, with only two opposing side walls 21 are inclined to the base surface back in this case, and sammenstoßen linear. The two other opposite side walls are perpendicular to the base. The air connection box 2 thus has a gable roof shape.

FIG. 2e shows a further configuration of the air exclusion box 2 that is similar to the pyramid shape shown in FIGS. 2a and b. Here, however, the side walls do not converge in a tip, but ends at a ceiling surface 22 that is preferably parallel to the base surface. The air connection box thus has a truncated pyramid shape.

In addition to the shapes shown in FIGS. 2a-e, other configurations are also possible. It only has to be guaranteed that at least two opposite side walls - arranged towards the base surface - are arranged diverging.

FIG. 3 shows a further embodiment of the ceiling air outlet 1 shown in FIG. 1 . In this case 1 are the same parts with respect to the Fig. Designated by like reference numerals. Therefore, they will not be described again.

The embodiment shown in this figure is also characterized by a throttle valve 25 which is pivotally mounted in the connecting piece 19 about an axis of rotation 27 which is perpendicular to the plane of the drawing in the figure. The shape of the Dros selklappe 25 preferably corresponds to the cross-section of the connecting piece 19 , so that the air supply via the air supply duct 17 can be adjusted according to the desired amount of air when setting up the ventilation system.

Because of the inclined side wall according to the invention, which has the connecting piece 19 , the Dros selklappe from the room side 15 is very good enough because the fitter can recognize the position of the throttle flap 25 in contrast to the arrangement in a vertical right side wall and handle better can. For example, an actuator 28 , preferably a rod with a hook-shaped end, the throttle valve is adjustable without having to remove the outlet plate. In addition, there are fluidic advantages that reduce operating noise.

Fig. 4 shows one of Fig. 3 corresponding Dec kenluftauslaß 1 , which differs only by one of the other design of the throttle valve 25 det.

In the throttle valve 25 shown in FIG. 4, it is a matter of an area cut or punched out of the side wall 21, which is only connected to the side wall via a web. This web is designed to be bendable, so that the throttle valve 25 can be tilted about a bending line 27 lying in the web plane. Side wall, web and throttle valve are made in one piece.

Fig. 5 shows a further training according to the invention of the ceiling air outlet 1 , with a repeated description of the parts already described in connexion with parts described in Fig. 1 is waived here.

In this exemplary embodiment, a throttle element 29 is used instead of the throttle valve 25 . This throttle element is also attached to the inside of the connecting piece 19 and protrudes into the interior of the air connection box 2 .

The throttle element 29 preferably consists of egg nem stamped sheet metal part with a BEFE stigungsring 31 , the outer diameter of which preferably corresponds to the inner diameter of the connecting piece 19 . On this mounting ring 31 are air guide elements 33 by means of bendable webs 35 - seen in the circumferential direction - the same intervals. The air guiding elements 33 preferably have a triangular shape, with the web 35 being provided centrally on one side of each air guiding element 33 . By means of the flexible web tele Luftlei compounds of elements 33 to the mounting ring 31, the air guide elements 33 inwardly or outwardly bent to achieve the desired gendurchsatz to Luftmen. In this case too, the setting of the air guiding elements 33 is very easy for the fitter from room 15 .

In Figs. 6a and 6b is shown schematically 19 A possible embodiment of the connecting piece as Liche Eindrehstutzen. This screw-in connector 19 has a collar or flange 43 at its end. At a distance corresponding to the thickness of the side wall 21 , a bead 45 , preferably running around it, is formed. As can be seen from the top view, the flange 43 has a section 47 , which is preferably wedge-shaped.

To fasten the screw-in connector 19 in the side wall 21 , the screw-in connector 19 with its flange 43 is initially placed on the side wall 21 such that an end 47 at the incision 47 projects into the air connection box 2 and on the inside of the side wall 21 lies on. Subsequently, the screw-in connector 19 is rotated until the flange 43 bears completely against the inner side of the side wall 21 . Thus, the screw-in connector 19 is secured against being pulled out of the air connection box. A counter-directional fuse causes the bead 45 , which rests on the outside of the side wall 21 , and a pushing of the screw-in connector 19 in the Luftan prevents connection box.

Instead of a cutout 47 in the flange 43 of a rotary connector, this cutout 47 is provided directly in the side wall 21 in FIG. 6b, the screwing connector 19 being fastened in an analogous manner. As already explained in connection with FIG. 4, the throttle valve 25 is cut out of the side wall 21 in FIG. 6b and is connected to it only via a web 49 . Since this web 49 is designed to be bendable, the throttle valve 25 can be tilted about a bending line 51 shown in dashed lines.

The throttle valve 25 has a preferably clover leaf-shaped opening 53 , which influences the inflow characteristic of the supply air in the air connection box 2 in the desired manner. Of course, the throttle valve can also be used without such a breakthrough.

In connection with Fig. 2e has already been written that the air connection box 2 can also have a truncated pyramid shape. In this case, it is also possible not to assign the connecting piece to the side wall 21 but then to the ceiling area.

In Figs. 7 and 8 is shown schematically how a plurality of air connection boxes 2 on each other can be sta PelN. In the example shown in FIG. 7, the air connection boxes 2 are not yet provided with the connection piece 19 , which results in a very compact, space-saving stack 37 . The nested individual air connection boxes 2 are based on inwardly or outwardly projecting fastening parts 39 on the side walls of the underlying air connection box. The fastening supply areas 39 serve to fasten the outlet plate 11 . The empty space 41 formed between the individual stacked air connection boxes 2 is determined by the inward expansion of the fastening areas 39 .

Overall, can be achieved by the inclined to the bottom of the air connection boxes 2 inclined side walls optimal stackability. Since the distance between the stacked air connection boxes 2 zuein other is determined only by the inward fastening area 39 , the stackability can be improved in a preferred further development by reducing its expansion or reducing the fastening area 39 entirely. In the best case, the side walls of an air connection box lie completely on the side walls of the air connection box below it. An empty space 41 is therefore not created.

The example shown in FIG. 8 corresponds essentially to that already described in FIG. 7, but the air connection boxes 2 are already provided with the connecting pieces 19 . If such pre-assembled air connection boxes 2 are to be transported, a very space-saving stacking is also possible here. In the Aufeinanderset zen such pre-assembled air connection boxes, care must be taken that the connecting pieces 19 be adjacent air connection boxes 2 are offset from one another. In a pyramid-shaped configuration of the air connection box 2 with a square base, an offset of 90 ° is sufficient, that is, a rotation of 90 ° about the vertical axis of the air connection box 2 . With a non-pyramid-shaped Luftan circuit box 2 , an offset of 180 ° is necessary. The support of an air connection box 2 on the underlying air connection box is carried out on the one hand by supporting a side wall on the underlying connecting piece 19 and on the other hand by supporting the fastening areas 39 on the lower side walls, as has already been explained in conjunction with FIG. 7. In this case, the empty space 41 has increased, but here too a space-saving effect is visible compared to box-shaped air connection boxes.

Claims (7)

1. ceiling air outlet with an air connection box ( 2 ), on the base of which a removable outlet plate ( 11 ) can be assigned, which is provided with at least one air outlet element ( 16 ), and with side walls ( 21 ), at least one of which has an air inlet opening, characterized in that at least two mutually opposite side walls ( 21 ) - towards the base - are arranged diverging from each other. 2. Ceiling air outlet according to claim 1, characterized in that the two side walls ( 21 ) are formed sat-shaped roof. 3. Ceiling air outlet according to claim 1 or 2, characterized in that the base is square or rectangular and from each base side a side wall ( 21 ) starts, where the four side walls form a pyramid shape, a gable roof shape, a hip roof shape or a pyramid shape. 4. Ceiling air outlet according to one of the preceding claims, characterized in that hanging means ( 7 , 9 ) are arranged or can be arranged on the pyra midspitze, on the gable roof ridge, on the hip roof ridge or on the pyramid frust ceiling. 5. Ceiling air outlet according to one of the preceding claims, characterized in that a side wall ( 21 ), in particular a side wall inclined to the base surface, has a connecting piece ( 19 ) for an air supply duct ( 17 ). 6. Ceiling air outlet according to claim 3, characterized in that a connecting piece ( 19 ) is provided in the truncated pyramid ceiling. 7. ceiling air outlet according to one of the preceding claims, characterized in that the connection piece ( 19 ) is associated with a throttle device ( 25 ; 33 ).