EP1005621B1 - Ventilator for window elements - Google Patents

Abstract

The invention concerns a ventilator (B) which is installed on a window frame (1) consisting of window elements for the purpose of creating a required self-regulating ventilation dependent on prevailing wind pressure. From a cross-sectional point of view, the profile section (3) is substantially U-shaped and consists of an outer limb (300) and an inner limb (311) which are connected to a cover (302) for spaced installation onto the frame, whereby an air duct (L) constructed between the outer and inner sides of the window elements runs from the ventilation profile section (3) to the window frame (1). A regulating element located inside the air duct (L) can be used to adjust the diameter of the air duct (L) depending on the prevailing wind pressure. Said regulator consists of a movable rolling cylinder (7) which, dependant on wind pressure, can roll from a first end position (E1) revealing a maximum cross-sectional area of the air duct (L) to a second end position (E2) revealing a minimum cross-sectional area of the air duct (L) resulting in said diameter reduction.

Description

The invention relates to a ventilation device for placing on a Frame of window elements for the purpose of generating an automatically regulating forced ventilation depending on the prevailing wind pressure, with a Ventilation profile for spaced placement on the frame, with between Ventilation profile and frame an air passage between the outside and Room side of the window element is formed and within the so formed Air passage path a control element is arranged, by means of which the cross section the air passage can be changed depending on the prevailing wind pressure is.

In the case of the windows and doors that are designed to close tightly today are also partially soundproof, the problem arises Forced ventilation with closed windows or doors. According to the Thermal protection ordinance is intended to provide forced ventilation in such tightly closing rooms Windows are provided, which enables about half of the room air per hour exchange.

In the case of windows or doors with frames made of hollow profiles, it is known Forced ventilation by creating appropriate ventilation channels using Ventilation slots in the frame and hollow profiles and appropriate guidance of To create ventilation paths, for which reference is made only to the DE-GM 93 16 297 by way of example becomes.

EP-A 0 656 513 describes a generic ventilation device for Put on a frame of window elements for the purpose of creating a automatically regulating forced ventilation depending on the prevailing Wind pressure, with a ventilation profile for the objectionable placement on the Frame, with a between the ventilation profile and frame Air passage between the outside and room side of the window element is formed and within the air passage path thus formed Control element is arranged, by means of which the cross section of the air passage path is variable depending on the prevailing wind pressure, the control element is arranged loosely and movably within the air passage path and in Can be moved back and forth between two end positions depending on the wind pressure, wherein the control element in one end position has a maximum cross section of the Air passage and in the other end position a minimal cross section of the Air passage clears.

From DE-GM 94 06 653 a ventilation device is to be put on a frame of window elements to generate a self regulating forced ventilation depending on the prevailing wind pressure known. This ventilation device can also be retrofitted to window elements be attached and allows ventilation, ventilation slots for Air flow through the frame and Hollow profiles of the window element are not necessary. To with high wind pressure and the associated high pressure differences between the outside and Too much air flow through the inside of the window element To prevent ventilation profile, the known ventilation device has Control element in the form of a pendulum-like suspension and around the fixed Pendulum axis swiveling flap that depending on the wind pressure Flow cross-section through the ventilation profile more or less strong can change. A disadvantage of this known ventilation device is that the regulation by means of the suspended fixed flap is not always done satisfactorily and especially a renewed enlargement of the Flow cross-section not always after the release of very high wind pressures is guaranteed satisfactorily. In addition, the known device susceptible to contamination, since the entrained in the ventilation air Dust clings to the flap and hinders movement and cleaning the ventilation system is difficult due to the disassembly.

Starting from this prior art, the invention has the task asked to propose a ventilation device of the type mentioned, the a particularly simple and permanently reliable control of the Forced ventilation depending on the prevailing wind pressure enables the simply constructed and therefore inexpensive to manufacture, and beyond is insensitive to dirt and is easy to clean.

This object is achieved with a ventilation device according to the invention solved according to the characterizing features of claim 1.

Advantageous embodiments of the invention are in the subclaims specified.

To achieve the object, the invention proposes that Control element loose and changeable within the air passage is arranged and depending on the wind pressure between two end positions is movable back and forth, the control element in one end position maximum cross section of the air passage path and in the other end position releases a minimal cross section of the air passage. The The control element according to the invention is inserted loosely into the air passage and is now pressurized according to the prevailing wind pressure and moves freely in one direction or another, the cross section of the Air passage path according to the respective position of the control element is reduced or enlarged.

The loose control element arranged in the air passage path becomes increasing wind pressure through the ventilation device and thus accompanying increasing air speed through this from the through the Aeration device moving air masses moved from a maximum Cross section of the air passage path releasing the first end position in Flow direction from the outside to the room side of the window element a second end position, the cross section of the air passage path is reduced here. In the presence of a predetermined high wind pressure the control element moved by the air masses reaches its minimum Cross-section of the air passage path releasing end position, the Cross section of the air passage path to a predetermined minimum up to Zero can be reduced. However, a minimal residual cross section is preferred maintain the air passage so that there is always a minimum Forced ventilation is guaranteed even with high wind pressure, on the other hand excessive ventilation and associated drafts as well strong cooling of the interior of the room is avoided in high wind pressure.

For the formation of the air passage path between on the Frame ventilation profile and frame is proposed that a bottom part to be placed on the frame is provided, and a continuous cavity between the ventilation profile and the bottom part Air passage is formed. The ventilation profile can be an L-shaped profile with a ceiling part running essentially parallel to the base part and a spaced from the outer frame led outside legs be trained. On the room side of the window element, an inner part can be detached to be connected to the bottom part and / or ventilation profile, in such a way that the air passage is U-shaped over the frame. It is also possible to use the ventilation profile even with the ceiling part, outer leg and Form inner leg in one piece, i.e. U-shaped.

To limit the two end positions for the movement of the loose in Air passage, d. H. the cavity between the bottom part and the ventilation profile arranged control element due to the wind pressure acting proposed stops on the ventilation profile and / or the bottom part train. According to the invention it is provided that the control element in the minimal cross section of the air passage path exposing end position from the Is movable outside to the room side of the window element. As a rule element a roller or a board-shaped loose flap is preferably provided are each arranged with their longitudinal axis transverse to the air passage. The The loose control element is guided within the air passage path Side walls of the bottom part and / or the ventilation profile specified. To the Prevent jamming and easier guiding and moving the Control element is proposed, this spherical and / or light on the end faces to be conical.

According to the invention it is proposed that before the minimal cross-section of the air passage path-releasing end position further preliminary stage for an intermediate position of the Control element with a predeterminable residual cross section of the Air passage path is formed.

In a particularly advantageous embodiment of the invention proposed that the roller roll on an inclined plane from its lower, the Maximum cross section of the first end position, which releases the air passage up the inclined plane while reducing the cross section into an upper one minimal cross section of the air passage path exposing second end position is movable. This movement of the roller roller up the inclined plane is caused by the by the ventilation device according to the invention with increasing wind pressure flowing air masses caused easily, so that a reliable control bishin to release the minimum cross section of the air passage in Dependence on the prevailing wind pressure is given. However, as soon as the If the wind pressure subsides, the roller rolls on gravity following the gravity Level back towards the first end position, in which the maximum Cross section of the air passage path releases. The size of the rolling motion in Direction to the first or second end position always depends on the at the respective time on the ventilation device according to the invention applied wind pressure.

The inclined plane is advantageously provided on the bottom part, which on the frame is attachable. To roll on the inclined plane too lighten and reduce friction, it is proposed the inclined plane with spaced apart, in the direction of movement of the roller extending runways or channels.

The ventilation device according to the invention can be made in a simple manner the ventilation profile, the bottom part and the inserted control element and if necessary, another one on the inside of the window element Ventilation profile attachable inner part are made.

The ventilation profile with an essentially L-shaped cross section has two Legs, of which one leg one the outer frame spaced overhanging outer leg to form a Air passage and the other leg on the top of the frame spaced covering ceiling part to form the air passage forms.

The air passage path through the ventilation device according to the invention can be created, for example, that the bottom part with the Cover part of the ventilation profile by means of the above webs or plug pins spaced apart is connectable and the outer and inner legs from Frame can be held spaced, so that the air passage path through the Ventilation profile and the bottom part can be formed, the regulation of the Cross section of the air passage path serving roller on the inclined plane the bottom part is arranged between this and the ceiling part.

The control activity of the roller roller proposed according to the invention can moreover be increased in that the inclined plane with their Surface protruding webs is formed, which is in the direction of movement Roll roller extend and on which the roller rolls. The rolling motion of the The roller thus only takes place on the protruding webs and not on the entire plane area of the inclined plane, so that the rolling friction between inclined plane and roller is significantly reduced, which increases the mobility of the Roll roller improved depending on the prevailing wind pressure. Furthermore the roller becomes less sensitive to dust deposits and Soiling, for example, from that caused by the invention Ventilation device flowing air flow are carried. The dust particles can in the areas between two adjacent runways between the Roller and the flat surface of the inclined plane through the air flow be taken away, so that the deposition of dust and the like Contamination in the ventilation device according to the invention is prevented becomes.

Each of the two end positions of the roller is advantageously a stop assigned. This stop at every end position of the roller does not allow only an exact release of the maximum or minimum cross section of the Air passage through the roller roller against this stop, but also causes when the roller roller strikes a stop in one the two end positions an exact angular alignment of the roller, so that Deviations that may have occurred during the movement of the roller from the straight running of the same automatically when reaching a stop be corrected what the operational safety of the invention Ventilation device increases.

The stop assigned to the lower end position of the roller can For example, be formed on the ceiling part of the ventilation profile, for example by a correspondingly projecting web is formed on this ceiling part.

The upper stop for the roller is preferably an extension of the inclined plane and can according to an advantageous development of the Invention graduated with preferably two stages, the Roller roller at the first stage stops the air passage except for one predetermined residual cross-section is reduced and the wind pressure increases further strikes the second stage of the graduated upper stop. In this second stage gives the roller then the minimum cross section of the Air passage free and limits the forced ventilation through the Ventilation device according to the invention at very high wind pressures.

This limitation of ventilation by the invention Ventilation device can be further increased in that Cover part of the ventilation profile in the area of the upper end position of the roller a sealing web projecting in the direction of the base part is formed, which together with the upper stop the cross section of the ventilation duct determined, with the roller in its upper end position on both the upper Stop on the inclined plane as well as on the sealing web of the ceiling part. at very high wind pressures become a seal on the sealing web and on the top Stop causes so that with appropriate dimensioning of the roller optionally a complete sealing of the ventilation device and closure the ventilation path or also the release of a minimal Passage cross-section of the ventilation path takes place. The latter can ensure that the roller is slightly narrower with respect to its lateral guidance, i.e. with a little distance in front of the side walls of the bottom part is executed so that between these side walls and the end faces the roller a limited residual air flow through the invention Ventilation device can flow.

The size of this residual air flow depends on the prevailing structural conditions and can, for example, allow an air passage of eight to twelve m ³ / hour at a pressure difference of 100 pa between the outside and inside of the window element.

In order to be able to clean the ventilation device and the Air passage including the control element will allow proposed a to the ventilation profile to the room side of the window element subsequent inner part with a spaced from the frame arranged inner leg to provide such that the air passage over the frame from the ventilation profile to the inside on the room side runs below. It is provided here that the inner part is detachable with the ventilation profile and / or to connect the bottom part, so that after removing the inner part Control element is removable.

A particularly advantageous embodiment of the invention proposes that the inner part has a web projecting in the direction of the base part, and at the free end of the web, the upper stop for those on the inclined plane of the Bottom part movable roller is formed. In this way, a particularly simple construction of the ventilation device according to the invention allows.

To create a particularly simple air duct, the web of the Inner part preferably provided with openings for the passage of air.

In order to make the inventive movement as easy as possible To allow proposed roller, this is preferably from a very lightweight material, such as aluminum or a suitable thermoplastic Plastic, for example PVC, is produced and is preferably hollow.

In an advantageous embodiment of the loose control element as a board-like Flap is proposed, the flap on its lower longitudinal edge on the Put on the bottom part and the flap around this longitudinal edge as a pivot axis between the two end positions due to the prevailing wind pressure to move, the longitudinal edge on one arranged on the bottom part Support element is applied. Here, the flap is in its maximum cross section Air passage releasing position obliquely upwards in the direction of Outside of the window element arranged protruding and on at least one Support element can be supported. In its the minimum cross section of the Air passage end position is the flap in one of the Vertical slightly inclined position towards the outside of the window element arranged.

To ensure a residual cross-section and a minimum of forced ventilation very high wind pressures when the control element is in the minimum, i.e. H. practically Locked position of the cross section of the air passage path is moved to ensure, it is proposed to open the flap with at least one opening form that always have a minimal remaining cross section of the Ensures air passage.

It is also possible to use at least one for noise insulation Sound-insulating, air-permeable sound insulation element in the air passage of the to provide ventilation device according to the invention. For example, that Sound insulation element between the inner leg and the rear wall of the Inner part to be inserted into the air passage. As a sound insulation element For example, fleece mats can be used.

Figur 1a und 1b

die Ansicht eines mit der erfindungsgemäßen Belüftungseinrichtung ausgerüsteten Fensters von der Rauminnenseite mit und ohne Innenteil,

Figur 2a

den Schnitt gemäß A - A durch die Belüftungseinrichtung gemäß Figur 1,

Figur 2b

den Schnitt gemäß H - H durch die Belüftungseinrichtung gemäß Figur 1,

Figur 3a, b, c

die Aufsicht auf das Bodenteil der Belüftungseinrichtung sowie die Schnitte C - C und D - D nach Figur 3a,

Figur 4

die Aufsicht auf das Bodenteil gemäß Figur 3a mit Rollwalze,

Figur 5a, b

Unteransicht und Seitenansicht des Belüftungsprofils nach Fig. 2a, b,

Figur 6a, b

die Aufsicht auf das Innenteil der Belüftungseinrichtung gemäß Fig. 2a, b und den Schnitt E - E nach Figur 6a,

Figur 7a - 7c

in schematisierter Darstellung die Wirkungsweise der erfindungsgemäßen Belüftungseinrichtung,

Figur 8

in schematischer Darstellung eine Belüftungseinrichtung mit loser Klappe im Querschnitt betrachtet wie in Figur 2a,

The invention is explained in more detail below using an exemplary embodiment in the drawing. Show it:

Figure 1a and 1b

the view of a window equipped with the ventilation device according to the invention from the inside of the room with and without an inner part,

Figure 2a

the section according to A - A through the ventilation device according to Figure 1,

Figure 2b

the section according to H - H through the ventilation device according to Figure 1,

Figure 3a, b, c

the top view of the bottom part of the ventilation device and the sections C - C and D - D according to FIG. 3a,

Figure 4

the supervision of the bottom part according to Figure 3a with roller,

Figure 5a, b

Bottom view and side view of the ventilation profile according to Fig. 2a, b,

Figure 6a, b

the top view of the inner part of the ventilation device according to FIG. 2a, b and the section E - E according to FIG. 6a,

Figures 7a - 7c

the operation of the ventilation device according to the invention in a schematic representation,

Figure 8

a schematic representation of a ventilation device with a loose flap viewed in cross section as in Figure 2a,

In Figure 1a is a schematic of the structure of a window element, which in a Masonry is embedded, such as a window or door, can be opened or with Fixed glazing with a frame 1, and sash 2 shown. in the Sash 2, the glazing 4 is used. In the area of the upper cross member 1a of the frame 1 is a ventilation device B with a ventilation profile 3 placed on the frame 1. The ventilation profile 3 is preferred Ventilation device B centrally on the upper cross member 1a of the frame 1 put on, its length corresponding to the length of the cross member 1a or, as shown here, can be made less than the length of the cross member 1a.

To the room side is the ventilation profile 3 with a hood-like Inner part 31 covered, which is detachable with the ventilation profile, for. B. by means of a Snap connection is connected.

FIG. 1b shows a ventilation device B which is L-shaped Ventilation profile 3 includes the the inside of the window element Air passage through the slot opening 9 releases. Here can be an inner part be added.

FIG. 2a shows the structure of the ventilation device B according to FIG. 1a shown on an embodiment. The ventilation device B comprises a Bottom part 6, which is placed on the upper cross member 1a of the frame 1, and an L-shaped ventilation profile 3, which is spaced from the bottom part 6 via the Frame is guided to the ventilation profile 3 and the bottom part 6 on the Room inside RS of the frame 1 adjoining inner part 31 and the in the cavity 30 formed between the base part 6 and the ventilation profile 3 arranged roller 7 as a control element. The ventilation profile 3 and the inner part 31 are spaced from the frame 1, so that a U-shaped the frame 1 led air passage, see the pipe L by the the frame spaced arrangement of the ventilation profile 3 and Inner part 31 is formed. The roller 7 is within this air passage arranged loosely movable in the cavity 30, movable. She lies with hers Longitudinal axis transverse to the air passage path L. The air flow can be in both Directions, depending on the wind pressure conditions through the ventilation device from the outside input 320 to the inside output 310 and vice versa respectively. Depending on the pressure conditions, the roller 7 from a first here Dashed position shown in Figure 2a in a second position taken away or vice versa.

The ventilation profile 3, see also Figures 5a and 5b has an L-shaped Cross section with an outer leg 300 which the upper cross member 1a of the frame 1 overlaps at least partially on the outside and the upper one Ceiling member 302 covering cross frame 1a of the frame. The Outer leg 300 has side walls 301 that rest on the frame 1 are directed and thus form an air duct. In addition, on the inside Outer legs 300 support ribs 301 a molded to support on the frame. The ceiling part 302 has on its inside facing the frame 1 a plurality of projections 303, 305, 306 extending in the longitudinal direction, some of them Force the zigzag path of the ventilation path L, causing a higher Soundproofing is achieved. Furthermore, the inside of the ceiling part 302 Blind holes 303a, 304 formed in the form of bushings 303b, 304b, which the Fixation of the bottom part 6 serve that with corresponding plug pins 63a, 63b is equipped for insertion in the blind holes of the ceiling part.

The sockets 304b facing the space side of the frame, which in Longitudinal extension of the ventilation profile, d. H. across the air passage are arranged, at the same time form a stop element 10 for the loose as Control element inserted roller 7 as the end position for the release of the maximum Cross section of the air passage.

As a taxiway for the roller 7 from a first position E1 for release the maximum cross section of the air passage path in a second end position E2 for the minimum cross section of the air passage path, see Figure 2a, 2b an inclined plane 61 from the end position E1 towards the end position E2 educated. The inclined plane 61 is provided on the bottom part 6. The first end position E1 is arranged closer to the outside of the frame and defined by the stop 10. The second end position E2, the minimum Cross section of the air passage path is determined by the stop Roller 7 at the upper end of the inclined plane 61 in connection with the Counter bearing through the sealing web 306 of the ceiling part 302 of the ventilation profile 3 defined, as can be seen from Figures 2a, 2b. The minimum cross section of the Air passage is adjacent to the room side of the window element.

The base part 6 is shown in more detail in FIGS. 3a, 3b, 3c. It points to one of the plug pins 63a, 63b in each case in an axis in the longitudinal extension of the Bottom plate, d. H. arranged transversely to the air passage path, as well as lateral Walls 65 for limiting the air passage and for guiding the Roll roller 7. The inclined plane 61 is here from the bottom plate 60 of the Bottom part 6 protruding webs 62 formed on which the roller 7, see Figure 4, rests and slightly in the direction of arrow P with the air flow back and forth can be moved. The roller roller 7 is spherical on its end faces 70, to avoid tilting, the side walls 65 also the guide serve. The lower end position, which corresponds to the end position E1, is also here defined by the plug pin, the plug pin 63b a base 63c corresponding to the diameter of the bushings 304b. The roller 7 lies also in its longitudinal axis X transversely to the air passage on the inclined Level of the base plate 6. For example, the inclined plane is inclined by 5 °.

The base plate 6 furthermore has lateral screw holes 66 Attachment of the inner part 31. The fastening points with the screw holes 66 have on the other side stop surfaces 64, which are also the upper ones End position for the roller 7 can serve.

The inner part 31 according to FIGS. 2a and 2b is shown in detail in FIGS. 6a, 6b shown. The inner part 31 has an angled outer inner leg 311 on, which is essentially horizontal on the ceiling part 302 on the upper side connects and then runs angled downwards. This is where the inner thigh ends 311 at a distance in front of the frame and forms the outlet opening 310 of the Air passageway. Furthermore, is on the inner part 31 in the direction of Frame profile 1 and projecting web running parallel to the base part 6 314 formed on the inner leg 311 so that between the web 314 and the connection of the inner part 31 to the ventilation profile 3, a passage opening 321 is designed for the passage of air in the direction of arrow L. The bridge points within the air passage path formed by the inner leg 311 Recesses 318. Furthermore, the web 314 is on its front edge with a locking lug 315 for positioning on the bottom part 6 and a protruding one oblique gradation with two edges 316a, 316b as stops for limitation the rolling path of the roller 7 in the upper end position E2 on the inclined plane formed at the upper end.

The attachment of the inner part 31 to the ventilation device B is carried out as can be seen from Figure 1a, by means of screws 8 which in the holes 66 of the Bottom part 6 are screwed. The inner leg 311 is also from the upper Cross member 1a of the frame 1 spaced so that an air passage, see Figure 2a, 2b according to the arrows L through the ventilation device B in both Directions from the outside to the room side is possible.

To prevent excessive air flow, especially at high wind pressures of outside and correspondingly strong pressure difference between the outside and To prevent the room side of the window element is in the air passage Ventilation device B provided a control device with which an automatic Regulation of forced ventilation depending on the prevailing Wind pressure is made. The control element according to FIGS. 2a and b is the Ventilation device a loosely inserted roller 7 is provided. Dependent on from the prevailing wind pressure and that from the ventilation device B. the air mass flow flowing air mass is the roller 7 from a dashed first end position shown E1 at the lower end of the oblique Level 61, in which the maximum cross section of the ventilation path releases into the second shown in solid lines in Figure 2a, 2b End position E2 at the upper end of the inclined plane 61 by rolling movable about its longitudinal axis X, in this second upper end position E2 releases the minimum passage cross section of the air passage.

The mode of operation of the control device operating by means of roller 7 is shown in Figures 7a to 7c shown schematically in several positions.

In Figure 7a, the roller 7 in its lower end position E1, d. H. according to the dashed representation in Figure 2a, in which the maximum passage cross section of the air passage for the passage of the Air released according to arrows L. The roller 7 is in the lower shown End position at a lower stop 10, which is from a boundary wall the bushing 304b of the ceiling part 302 which receives the fastening pin 63 is formed. As can be seen in particular from the supervision according to FIG. 4, the air moving through the air passage path flows according to the arrows L. between the sockets 304b and the plug pins 63b inserted therein through and meets the roller 7, on which it continues in the course of Air passage flows past, so that ventilation of the inside of the room RS is made possible with the maximum cross section of the air passage path.

However, if the wind pressure increases and the wind pressure increases Ventilation device B strongly inflows air masses according to arrows 11, the roller 7 is inclined in the direction of arrow P as shown in Figure 7b Level 61 moved up from the air masses, the Passage cross-section for the air passage is continuously reduced. It there is an automatic regulation of the ventilation depending on the prevailing wind pressure by means of the along the inclined plane 61 of the Air mass movable roller 7. The stronger the wind pressure on the Ventilation device B, the higher the roller 7 becomes the inclined plane 61 moves up and reaches a graded one shown in FIG. 7b Stop in the area of its first stop step 316a, in which a predeterminable Residual cross section of the air passage path from the roller 7 is released.

As in particular Figures 2a, b; 6a, 6b is removable, this is stepped stop at the free end of one of the inner part 31 in the direction of Bottom part 6 projecting web 314 is formed. When attaching the inner part 31 on the bottom part 6 in the manner shown in FIGS. 2a, b is the stepped one Stop 316a, b positioned at the free end of the web 314 so that it in Extension of the inclined plane 61 of the bottom part 6 comes to rest and itself the two graded stop stages 316a, b successively to the oblique Connect level 61 in the upper end position of the roller 7. For simple and The web 314 indicates correct positioning of the stepped stop 316 on its front edge a protruding nose 315 that fits into a corresponding one Groove of a projection 69 of the bottom part 6 engages. To maintain the Air passage is the above web 314 with several Provide openings 318 for the passage of air, see in particular the Figures 6a, b.

The stepped stop positioned in this way determines according to FIGS. 7b and 7c together with a protruding sealing web 306 of the ceiling part 302 the effective passage cross section of the air passage path through the Ventilation device B.

If the wind pressure compared to that shown in Figure 7b and situation described above continues to rise, the pressure against the Roller 7 impacting air masses according to arrows L so strong that the Roll roller 7 its position at the first stop step 316a of the stepped Overcomes stop and in their second end position shown in Figure 7c E2 arrives in which it is at the second subsequent stop stage 316b located and both at the second upper stop step 316b and on Sealing web 306 is applied and only the minimum passage cross section of the Air passage clears. Depending on the embodiment of the ventilation device B this minimum passage cross section can be zero or one to Maintaining the forced ventilation required residual cross section represent what can be achieved, for example, that the roller 7th is slightly narrower than the interior of the ventilation device B, so that a free space remains through which a residual volume of air to Ventilation of the interior of the room can flow past.

As soon as the wind pressure, as a result the roller roller to limit the Passage cross-section of the air passage path up the inclined plane, for example up to one of the upper stops 316a, 316b has been moved, subsides, the roller 7 rolls in gravity following the inclined plane Towards their lower stop 10, d. H. opposite arrow direction P in Figure 7a back, so that not only an automatic reduction of the passage cross-section the air passage, but also an enlargement of the Passage cross-section depending on the prevailing wind pressure on the ventilation device B permanently and automatically by the roller 7 is effected.

To make the roll roller easy to move with a good To ensure regulatory performance, the inclined level 61 furthermore formed with rolling webs 62 projecting beyond the plane surface, what is shown in Figures 4, 7a. Only on these catwalks 62, which are Extend in the direction of movement P of the roller 7, this rolls depending on prevailing wind pressure, so that for the frictional Area responsible for rolling resistance between roller 7 and inclined plane 61 is significantly reduced and the roller 7 is particularly smoothly movable. In addition, the roller webs 62 increase the insensitivity of the roller 7 compared with the incoming air according to arrows L. Pollution and dust particles, since these under the roller 7 Air flow according to arrows L following through the ventilation device B according to arrow S can flow in Fig. 7a, without the mobility of the roller. 7 disturbing deposits can come.

Each time the roller roller reaches one of its end positions and the attacks occurring on the lower stop 10 or on one of the upper stops Stops 316a, 316b are always aligned so that the roller 7 tilts the inclined plane 61 is avoided. In any case, it is ensured that regardless of the current position, the longitudinal axis X of the roller roller parallel to the longitudinal axis M of the upper cross member 1a of the frame 1 according to FIG. 1a runs.

If the ventilation device B is very dirty, it can may be necessary to prevent mobility from occurring the roller 7 by cleaning the same. This can be done easily by the fact that the inner part 31 of the ventilation device B by this the inside of the room RS is removed. For this purpose the Fastening screws 8, with which the inner part 31 on the bottom part 6 in the is fastened as described above, unscrewed. When losing weight of the inner part 31, the projecting web 314 also becomes an extension thereof the inclined plane 61 of the bottom part 6 stored position from the Ventilation device B removed, so that the passage cross section of the Air passage through the now removed graduated stop on Web 314 of the inner part 31 is enlarged so far that the roller 7th easily removed from the ventilation device B to the room side RS and can be cleaned. At the same time, there is also the inclined level at which the Roller 7 moves, easily accessible for cleaning. The previous one The ventilation device explained achieves a very high level in this way Functional reliability even with a high degree of air pollution.

To also meet the requirements of adequate Sufficient sound insulation can be a sound-absorbing, air-permeable Soundproofing element, for example from a suitable nonwoven in the area of Air passage can be used for sound insulation. in the An exemplary embodiment according to FIGS. 2a, 2b is such a sound insulation element 5 from the room side RS into the inner part 31 between its inner leg 311 and the upper cross member 1a of the frame 1, so that the air flowing through the ventilation device B before it enters the Inside the room RS must pass the soundproofing element 5, causing a high Sound insulation against the outside of the window element is achieved.

Claims (19)

1. Ventilation device for placing onto a window frame (1) comprising window elements for the purpose of producing self-regulating, forced ventilation as a function of the prevailing wind pressure, having a ventilation profile (3) for the spaced placing onto the window frame (1), an air passageway (L) between the outside and interior of the window element being formed between the ventilation profile and window frame, and a regulating element (7, 7a) being arranged within the air passageway (L) formed in this manner, the said regulating element being used to change the cross section of the air passageway (L) as a function of the prevailing wind pressure, the regulating element (7, 7a) being arranged in a loose and position-changeable manner within the air passageway (L) and being able to be moved to and fro between two end positions (E1, E2) as a function of the wind pressure, and in the one end position (E1) the regulating element (7, 7a) opening up a maximum cross section of the air passageway and in the other end position (E2) opening up a minimum cross section of the air passageway (L), characterized in that, upstream of the end position opening up the minimum cross section of the air passageway, a preliminary stage (316a), which is formed by means of a stop, is formed for an intermediate position of the regulating element with a predeterminable residual cross section of the air passageway.
2. Ventilation device according to Claim 1, characterized in that a bottom part (6) which can be placed onto the window frame (1) is provided and a continuous cavity (30) is formed between the ventilation profile (3) and the bottom part (6) as an air passageway.
3. Ventilation device according to one of Claims 1 or 2, characterized in that the two end positions for the movement of the regulating element are formed by stops provided on the ventilation profile and/or bottom part.
4. Ventilation device according to one of Claims 1 to 3, characterized in that the bottom part (6) and/or the ventilation profile (3) is/are provided with side walls and the side walls are used for lateral guidance of the regulating element.
5. Ventilation device according to one of Claims 1 to 4, characterized in that the regulating element can be moved from the outside to the interior of the window element into the end position opening up the minimum cross section of the air passageway.
6. Ventilation device according to one of Claims 1 to 5, characterized in that a rolling cylinder (7) is provided as the regulating element, the said rolling cylinder being arranged with its longitudinal axis (X) transverse to the air passageway formed between the window frame or bottom part and ventilation profile.
7. Ventilation device according to one of Claims 1 to 6, characterized in that between the two end positions a sloping plane (61) is provided on which the regulating element, which is formed as a rolling cylinder (7), loosely rests and can be moved from a lower, first end position, opening up the maximum cross section of the air passageway, up the sloping plane (61), reducing the cross section of the air passageway, into an upper, second end position opening up the minimum cross section of the air passageway, or vice versa .
8. Ventilation device according to Claim 7, characterized in that the sloping plane (61) is formed on the bottom part (6).
9. Ventilation device according to Claim 7 or 8, characterized in that the sloping plane (61) has rolling webs (62) or grooves which are spaced apart from one another and extend in the direction of movement of the rolling cylinder (7).
10. Ventilation device according to one of Claims 6 to 9, characterized in that the end sides (70) of the rolling cylinder (7) are spherical or have a tapered point.
11. Ventilation device according to one of Claims 1 to 10, characterized in that the ventilation profile (3) is formed with an essentially L-shaped cross section with two limbs (300, 302), one limb forming an outer limb (300) which juts out at a distance over the outside of the window frame and the other limb forming a top part (302) which covers the upper side of the window frame at a distance, and the bottom part (6) can be connected to the top part (302) at a distance from each other by means of protruding webs or plug-in pegs.
12. Ventilation device according to one of Claims 1 to 11, characterized in that an inner part (31) which adjoins the ventilation profile (3) to the interior of the window element is provided with an inner limb (311) which is arranged at a distance from the window frame in such a manner that the air passageway runs downwards over the window frame on the interior.
13. Ventilation device according to Claim 12, characterized in that the inner part (31) is connected releasably to the ventilation profile (3) and/or the bottom part (6) , with the result that after removal of the inner part (31) the regulating element can be taken out .
14. Ventilation device according to one of Claims 1 to 13, characterized in that at least one soundproofing, air-permeable soundproofing element (5) is arranged in the air passageway.
15. Ventilation device according to Claim 14, characterized in that the soundproofing element (5) is arranged in the air passageway in the region of the outlet to the interior of the window element.
16. Ventilation device according to one of Claims 1 to 5, characterized in that a plank-shaped flap (7a) is provided as the regulating element, the said flap being arranged with its longitudinal axis transverse to the air passageway formed between the window frame or bottom part and ventilation profile.
17. Ventilation device according to Claim 16, characterized in that the flap (7a) sits on its lower longitudinal edge (71a) on the bottom part (6) and can be moved between the two end positions about the longitudinal edge (71a) as the pivot axis (SW), the longitudinal edge (71a) bearing on a supporting element (67) which is arranged on the bottom part.
18. Ventilation device according to Claim 16 or 17, characterized in that flap (7a), in its position which opens up the maximum cross section of the air passageway, is arranged sloping upwards protruding in the direction of the outside of the window element and can be supported on at least one supporting element (68), and the flap (7a), in its end position which opens up the minimum cross section of the air passageway, adopts a position which is slightly inclined from the vertical in the direction of the outside of the window element.
19. Ventilation device according to one of Claims 16 to 18, characterized in that the flap (7a) has at least one aperture (72a) which forms a minimum remaining cross section of the air passageway.

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