EP1455046A1 - Flood barrier for protecting an opening in a building - Google Patents

Abstract

The protective barrier at an opening (21) into a building, to block the entry of flood water, has a frame (1) in front of the opening for a linked carrier (6) with a protective disk (3) to plug the opening. The weight of water (35) against the frame presses the disk more firmly in place. A float (32) acts on the linkage to press the disk home, as water rises, or a piston/cylinder unit can be at the frame to be operated by a float-controlled valve linked to a compressed air bottle.

Description

The invention relates to a protective device for a building opening, the to prevent the ingress of floods before or in it Building opening is positionable and a frame with a protective screen and at least one sealing element between the frame and the Has protective screen. The known prior art for example to DE 197 28 121 A1 or DE 196 06 362 A1 directed.

Usual protection devices against the ingress of floods for example, in basement windows of houses are either permanently installed or if there is a risk of flooding, they have to be done in a complex manner be installed. Such protective devices, for example in the form of the cellar window or other windows or the like Elements such as inflatable cushions, protective disks or the like can, among other things, be necessary because the usual in Open the openings provided in the building openings and thereby can hardly withstand the water pressure coming from outside. Furthermore, the seals between the usual windows and their Frame and the seals between the window frame and the Building or wall opening only due to weather conditions adapted and can only withstand higher water pressure from the outside to a limited extent.

This is a serious disadvantage of the known prior art see that the installation of the flood protection device sometimes is not possible in time, especially if the installation is relative is complex. On the other hand, becomes or remains a known prophylactic Flood protection device installed for a long period of time, so can the window closed off (e.g. basement window) the room behind it, for example, should not be ventilated.

This is now a significantly improved flood protection device be shown for a wall opening of a building that always can remain installed, at times when there is no risk of flooding exists, the wall or building opening is not completely from the Protective device should be sealed while when Flood this protection device the wall or building opening reliably isolate and thus prevent flooding should prevent (= object of the present invention).

This solution to this problem is characterized in that the especially designed as a window pane opposite the frame articulated in such a way by a protective pane carrier is that the protective screen in the building opening Position completely lifted off the frame and essentially parallel lying to this lying outside while in the one Ingress of flooding into the position preventing the building from opening with the interposition of the sealing element on the frame.

This protective device can preferably be used for a building opening, For example, a basement window or the like in one containing the basement window Wall opening or the like. Be used. This protection device sure that on the one hand in the event of flooding a safe The building opening can be sealed off from this water, that, on the other hand, when there is no (yet) flooding, the Protective device sufficiently far from the basement window or the like (as Building opening) should be removed so that the cellar window the room behind can be optimally ventilated. By the of Frame spaced shield substantially parallel to Frame is advantageously only a small amount of space is required, so that this protection device well in an existing light well, for example a basement window can be accommodated: In particular, it should Foliage or the like, which from above into the space between the protective pane and the basement window or the like falls into it, on the underside too can fall out again, so it is very cheap if the Protective pane in the position releasing the basement window or the like completely lifted off the frame of the protective device and is shifted to the outside.

According to an advantageous development of the present invention, the Protective screen carrier be guided so that the outside shifted protective pane due to a flood of water hitting it automatically in the completely on the frame (with the interposition of the Seal) is brought into contact. So if a surge of So-called surface water, for example, in a light well or room in front of the Basement window or the like. Generally in front of the building opening and in doing so on the initially quasi open, approximately or essentially Protective pane lying or standing parallel to the frame strikes, through this or through its impulse the protective device advantageously automatically - and advantageously without assistance of external energy - closed.

To ensure this described function, the so-called protective pane carrier, over which the protective pane is articulated on the frame is suspended from two essentially in the lateral edge areas the protective screen is articulated approximately at its average protective screen height attached swivel arms exist. Such a suspension left and right outside, but also a certain distance inwards can be offset, ensures safe, good management of the Protective screen, which therefore fits optimally on the frame if necessary, of course, between the actual frame and the Protective pane as such, a suitable seal can also be provided should to ensure a secure seal. These so-called swivel arms are preferably articulated to bearing blocks attached to the frame. so that the frame with the protective pane form an advantageous unit can, which is defined kinematically, i.e. the spatial assignment of The protective screen and frame are as desired under all circumstances ensured. If - as suggested - the pedestals geodetically below the respective swivel arm articulation point at the Protective screen, it is guaranteed that the protective screen through rising floods from the outside in the best possible way and with the least Energy requirement is pressed onto the frame.

Basically, it is easily possible to use a protective screen of a protective device with the features of claim 1 by hand from their Building opening position in which an intrusion of Relocate flood prevention position. This shift can but with increasing water levels and thus floods also take place automatically, and preferably float-controlled. Herewith becomes another serious disadvantage of the known state of the art fixed, which is that the installation of known flood protection devices is often not possible in time, for example if the residents of the house at risk of flooding in the Vacation. To remedy this problem, one will continue to be used Device for the automatic shifting of the protective pane from it position shifted to the outside against the frame Position proposed in the event of flooding, namely for example in the form of a float. Such a so-called relocation device can however also be designed differently, as in the the present application will be executed later. In a preferred embodiment, this so-called. Shifting device at the free end of the starting point extended to the outside on the bearing block attached to the frame Attack the swivel arm, as this is a structurally simple way a particularly beneficial one. Kinematics results in and little energy to Closing the protection device is required.

A float provided on the protection device is suitable Design, in particular, of the protective device itself, if necessary, this prevents the ingress of (flood) water Position. So, for example, while the residents are of a house on vacation, the protective device is suitable a wall opening, for example, be attached to a basement window, However, it does not need the wall opening or this basement window to completely isolate it from the outside. Only when flood occurs this or the rising water level moves the invention Swimmer, who then automatically suitable the protective device positioned, i.e. in a wall opening or in the existing one Brings window partitioning position in which the intrusion or Prevention of water to the window or into the wall opening becomes.

It is advantageous if the float mechanically with the protective device is connected, since then no external energy for positioning the Protection device is needed. Rather, the swimmer can do it himself due to a rising water level and its resulting Stroke movement the protective device automatically into the desired one Position. In view of this, it is advantageous if the Protection device around a substantially horizontal Swivel axis is pivotally mounted, since then with increasing Flood level of swimmers moving up geodesically Tilt protective device relatively easily around said pivot axis or pivot and thus in the desired, penetration of Can bring water into the building opening preventing position

If the so-called relocation device as one over at least one adapter rod articulated to the frame guided float or Float body is formed, the rising. Water level the Protective screen automatically from its outwardly shifted position in the position that prevents the ingress of water, so can a particularly simple way on the adapter rod compared to this support sliding so-called locking rod, which with its other end is articulated at the free end of the swivel arm. With a Such a construction ensures that the protective screen is out of its position spaced from the frame both by the so-called displacement device as well as by one on the protective screen from the outside impinging gush of water or the like in their on the frame Position can be brought. The so-called locking bar forms in Interact with the adapter rod carrying the float a so-called overtaking freewheel. In this context it should be mentioned that such kinematics preferably on the right and on the left Side of the protective screen is provided to ensure even closing and in particular also an optimal sealing of the protective pane towards the frame.

As already indicated above, the protective screen can be used Floods, i.e. with rising water levels, not just directly through one Float body or by its buoyancy in the closed, on Frame can be brought into position, but also by a Actuator or the like., However, preferably without the help of one failure-prone energy source should be operated. The public electrical power grid is therefore less suitable, since this in particular can fail in the event of flooding. There is also a flood generally the risk of electrical short circuit. With this in mind thus at least proposed the so-called displacement device in the form form a cylinder-piston unit hinged to the frame, which on attacks the free end of the swivel arm. This cylinder-piston unit can then, for example, via a float-controlled valve with a Pressure medium, preferably compressed air, from a refillable memory be supplied. This memory can, for example, with a commercially available Air pump to be filled. Instead of a float-controlled valve In this context, for example, an increasing water level compressed auxiliary volume are used, for example. can be a compression hose or the like. The so it is appropriate that it is compressed by rising floods becomes. The air in the compression hose or the like loosens then a valve, which is the way for what is in the pressure accumulator Releases pressure medium to the cylinder-piston unit. This will be activates and moves the protective screen initially objected to by the frame via the kinematics of the protective glass support to the frame.

Otherwise, such a cylinder-piston unit can also be used as a already mentioned overrunning freewheel act so that the protective disc is not only triggered by rising flood and then under Action of this cylinder-piston unit (s) from its from the frame spaced position is applied to the frame, but also directly through one falling into a light well in front of the protective screen Gush of surface water.

In particular in connection with larger protective glass panes can A support for the interior or central area of the complete be attached to the frame. On this The protective pane can then be supported directly or via one on top of it applied so-called pressure stabilizer, so that one is preferred central support opposite the protective pane on the frame the flooding that presses on the protective screen is present. The support for the central area of the Screen can also be easily removed when through the Bulky goods are to be brought through the building opening. in the the frame with the protective screen and of course the protective pane carrier and, if necessary, the so-called displacement device quasi as a complete unit in the building opening outside of a window or the like already provided in this. Such a protective device can thus be used as a retrofit solution be installed.

The following are three preferred embodiments of the invention described in more detail, wherein the accompanying Figure 1 shows a first embodiment shows in section when installed in a building opening. Figure 2 shows this embodiment in an exploded view, while in Figure 3 shows a modified embodiment in a spatial representation is shown. Figure 4 shows one again with respect to the frame further developed embodiment in section. In all figures are same elements-. marked with the same reference numbers and All features explained in more detail can be essential to the invention.

Referring first to Figures 1, 2, a building wall supports in which there is a rectangular wall or building opening 21, the Reference number 20. In this wall opening 21 there is a usual window 22 intended. Outside (with respect to the building) of this window 22 is in the wall device 21 installed the protective device according to the invention.

This protective device consists of a preferably rectangular base frame 1 (e.g. made of steel or fiber-reinforced concrete or fiber-reinforced Plastic - CFK / GFK - consisting), which is firmly in the building wall 20 outside of the basement window here (but not necessarily) 22 installed, anchored and suitably sealed. In Figure 1 you can still recognize one in front of the window 22 or in front of the outside the building wall 20 light shaft 30.

As can be seen in particular from Figure 2, the frame 1 is essentially trough-shaped with a central opening 29. The circumferential edge structure of the frame 1 is accordingly in cross section in essentially Z-shaped (see Fig.1), the outer leg 1a of the Frame 1 rests on the outside of the building wall 20 and thus seals part of the facade 20a of the building. On these outer ones Leg 1a closes in each case protruding into the wall opening 21 Connecting leg to the inner leg 1b, which is essentially is parallel to the outer leg 1a. The inner edges of the four inner leg 1 b then limit said opening 29.

A protective pane 3 or window pane is adapted to the frame 1 3, in particular consisting of safety glass, provided Protective or window pane 3 is movable relative to the frame 1. For this purpose, the protective pane 3 is supported by a so-called protective pane carrier 6 worn, and here about two on the protective disk 3 in about medium height in the vertical direction just above the center of the pane in lateral edge area of the protective disk 3 attached so-called disk bearing blocks 5. A swivel arm 6a is attached to each of these as a so-called. Protective disc carrier 6 is pivotally articulated or each disc bearing block 5 can be pivoted into the associated swivel arm 6a hooked, which is provided with a suitable recess for this.

Each swivel arm 6a is angled and is in the range of Angle provided with a receptacle 24a designed as a bore, about which he fastened to the frame 1 by means of a bolt 8 Bearing block 7 is added. In this way, the swivel arm 6a and thus also the protective or window pane 3 carried by the latter about a pivot axis which through the two bolts 8 in runs essentially in the horizontal direction, pivotable. Since further - how already explained - the protective disk 3 itself against the swivel arm 6a is pivotable (in the bearing block 5), so the protective disc 3 both occupy the position shown in Figure 1, in which they is completely spaced from the frame 1 and essentially parallel to this, as well as a position not shown in the figure, in which the protective pane 3 rests completely on the frame 1, i.e. so starting from the figurative position according to arrow direction 31 is moved to frame 1. It is on the frame 1 on the Protective pane 3 facing side, in particular as a lip seal trained seal 2 provided so that when the protective washer 3, in view of an optimal flatness on the seal 2 is preferably frameless, quasi on this seal 2 Frame 1 is applied, no water from the outside of the protective device, i.e. from the light shaft 30 into the wall opening 21 or to the basement window 22 can penetrate.

In the position shown in Fig.1, however, is the window or Protective pane 3 of the protective device from the seal 2 to the outside moved away and lies or hangs on the protective disk carrier 6 in the essentially parallel to frame 1 Frame 1 adjacent protective pane 3 to the outside can by light Pressure from the inside of the basement window 22 Protective pane 3 take place, which is why the basement window 22 makes sense is opened. Such a shift involves pivoting the swivel arms 6a around the bolts 8. At the same time, the Protective disc 3 in the disc pedestals 5 under the influence of gravity automatically slightly compared to the swivel arms 6a of the protective glass support 6 pivots so that this protective pane 3 is also opened can be parallel to frame 1. The reason for this is that the Disc bearing blocks 5, on which the protective disc carriers 6 engage, in the vertical direction just above the center of the protective pane 3 are attached.

Each swivel arm 6a is starting from the articulation point on the on the frame 1 fixed bearing block 7 to the outside, i.e. in the respective Disc bearing block 5 extended direction away, namely angled in relation to that from this articulation point to the disc bracket 5 extending section of the swivel arm 6a. On the so-called free End 6a * of the swivel arm 6a, which is therefore the one Bearing block 5 is opposite end of the swivel arm 6a, can attack a so-called. Shift device 32, with the help of which Protective disc 3 from the one shown in Figures 1 and 3, completely from the frame 1 spaced position in the adjacent to the frame 1 Position can be shifted.

In the exemplary embodiment according to FIG. 1, this is a displacement device 32 formed by a float 10, the two adapter rods here 9, the bearing blocks 33 on the lower side of the frame 1 are pivotally mounted to a substantially horizontal extending pivot axis is pivotally mounted on the frame 1. Between the ends of the two facing away from the bearing blocks 33 Adapter rods 9 is the float 10 or it will Float 10 carried by the two adapter rods 9. About in the The middle of each adapter rod 9 is supported here approximately vertically arranged locking rod 34, which with its the adapter rod 9 opposite end at the free end 6a * of the swivel arm 6a is articulated. Lie on the protective pane 3 in a view from the front thus the right-hand or left-hand bearing blocks 5, 7 and 33 in each case essentially in a vertically running strip among themselves.

If flooding occurs, which is shown in FIG. 1 by a water level 27 is shown, this flood or water level 27 raises the Float 10 geodesically upwards in the direction of arrow 28. This causes the locking bars 34 to be raised in the same direction of arrow 28 be, which thus the swivel arms 6a according to the direction of arrow 35 to the Bearing blocks 7 and the bolts 8 located therein pivot. In this way, as already explained, the protective pane 3 starts out from the figurative position according to arrow direction 31 to Frame 1 moves out and the protective device thus closed. there provides the buoyancy of the float 10 with increasing water level 27 for further contact pressure and additional sealing security. If the Water level 27 even further, this high water presses even the Protective pane 3 even more intensely against the seal 2 or the frame 1, so that the sealing effect is advantageously further increased.

The locking rods 34 are supported on the adapter rods 9 in the Refers to "lifting" the float 10 and the adapter rods 9 causes the locking rods 34 to move in the direction of the arrow 28, however, each locking rod 34 can also be moved according to the direction of arrow 28 without the associated adapter rod 9 moving with it. This allows the guard to be closed, i.e. a relocation the protective disc 3 from the position shown in Figure 1 in the Frame 1 adjacent position even without the float 10 emotional. So should be a surge as shown by the double arrow 35 of surface water in the light shaft 30, this can Flood of water, when it hits the outside of the protective pane 3, through this pulse directly the protective pane 3 or the protective device close against ingress of floods.

In the exemplary embodiment according to FIG. 3, the so-called displacement device 32 in the form of two cylinder-piston units 36 here trained, each of which on the one hand on said free end 6a * a swivel arm 6a acts and on the other hand via a bearing block 33 is supported on the frame 1. The cylinder-piston units 36 can also act as an overrunning freewheel, so that independent from these cylinder-piston units 36 a surge 35 of surface water (see FIG. 1), which is spaced from the outside of the frame 1 Protective pane 3 occurs, this in the direction of arrow 31 to frame 1 can move there.

However, the cylinder-piston units 36 are also able to Light shaft 30 rising water level 27 (see Fig. 1) the first close open protection device, i.e. the protective disk 3 to Move frame 1. This is triggered by a float controlled Air valve 37, the lower part of the frame 1 in the Light shaft 30 is attached protruding. This float controlled Air valve 37 is on the one hand via compressed air lines, not shown in the figures with the two piston-cylinder units 36 and on the other hand with one Compressed air reservoir 38, which is also at the lower area of the frame 1 can be attached (but not necessarily), connected. Now increases Water level (27) so far that the initially closed air valve 37 is opened, compressed air from the compressed air reservoir 38 enters the Cylinder-piston units 36, which then move apart and the Swivel swivel arms 6a in such a way that the frame 1 spaced protective pane 3 in the direction of arrow 31 to frame 1 is moved there. The compressed air reservoir 38 can be used with a simple Air pump (e.g. for car tires) are filled and otherwise very just be trained (e.g. in the form of an old car tire), it is but also filling by means of a small battery-operated Compressor or the like possible.

Figure 4 shows an advantageous development of the frame 1 with regard to an improved installation of the same in the building opening 21 or Wall opening 21 surrounding building wall 20. It is intended for this a so-called built-in frame 40, with which the frame 1 over several Screw connections 41, for which in the frame 1 and in the built-in frame 40 corresponding through holes are provided, releasable can be connected. The external dimensions of the built-in frame 40 correspond essentially to those of frame 1.

When the building wall 20 is pulled up, the outer one is now the first Frame 1 with the interposition of a so-called sealing spacer via the screw connections 41 with the one behind, i.e. the Installation frame 40 facing the inside of the building. This Unit from built-in frame 40 and frame 1 is now when pulling the Wall 20 inserted into this, i.e. usually poured in concrete. to The frame 40 is made on the outside of a positive connection provided with a circumferential nose 43. When pulling up the Building wall 20 is suitable by prior application Interface ensures that the frame 1 is not with the concrete / material the building wall 20 connects. The latter is complete the frame 1 is hardened by loosening the screw connections 41 removed from the built-in frame 40. After that, suitable Sealing material on the "negative shape" thus formed in the building wall 20 be applied for the frame 1, and also on that area the frame 40, on which the frame 1 is then placed again and is securely connected by means of the screw connections 41. This advantageously results in an optimal sealing of the Frame 1 opposite the wall 20 surrounding the building opening 21, namely on two sides of the leg 1 a of the frame 1, the so-called. Connecting leg and on the side facing the frame 40 of the Leg 1 b of the frame 1. In addition, in this figure 4 is still in the built-in frame 40 installed on the inside with respect to the building Window 22 shown.

The protective pane 3 preferably consists of an unbreakable safety glass and absorbs high water pressure even on larger areas. Glass thickness and texture can optionally meet the requirements be adjusted. For an even pressure - and therefore larger Seal security - to achieve, the bracket 7 can be adjustable. As can be seen from the preceding explanations, the Protective pane 3 itself by its just above the center of the pane attached center suspension over the disc pedestals 5 quasi vibrate and, if necessary, cover the entire lip seal 2 invest. This also ensures that the protective or Window pane 3 allows for ventilation purposes (see Fig. 1). The Protective pane 3 and the associated mechanics, namely the Protective pane carrier 6 can be removed, for example, by removing the bolts 8 the lower bracket 7 can be removed, but it can also unhooking the protective disk 3 on or with its bearing blocks 5 take place so that the protective pane carrier 6 is installed on the frame 1 can stay. Furthermore, on the inside of the protective pane 3 Latches can be provided for closing. The system described ensures great security against flood damage in the Building interior thanks to stable construction and automatic closing function. The protective pane 3 can be used to ventilate the interior of the building be displayed vertically and thus offers better when opened Protection against external influences such as rain or dirt a window tilted outwards. An improved one Thermal insulation in the so-called retrofit version (i.e. with additional existing basement window 22 or the like.) results when the window is closed Protective pane 3 because of the additional insulation factor. Self assembly and also a subsequent assembly is possible, but still on it it should be pointed out that quite a number of details differ from Above statements can be designed without the content of the claims to leave.

Claims (10)

Protection device for a building opening, which can be positioned in front of or in this building opening (21) to prevent the ingress of flooding, and a frame (1) with a protective pane (3) and at least one sealing element (2) between the frame (1) and the protective pane (3) has
characterized in that the protective pane (3), in particular in the form of a window pane, is guided in an articulated manner relative to the frame (1) by a protective pane support (6) such that the protective pane (3) is completely removed from the frame in the position which releases the building opening (21) (1) is lifted off and essentially lying parallel to it, while in the position preventing the ingress of flooding into the building opening with the interposition of the sealing element (2) on the frame (1). Protection device according to claim 1,
characterized in that the protective pane carrier (6) is guided in an articulated manner in such a way that the protective pane (3) which is displaced outwards is automatically brought into the position in contact with the frame (1) by a water surge (35) striking it. Protection device according to claim 1 or 2,
characterized in that the protective pane carrier (6) consists of two pivot arms (6a) which are articulated substantially in the lateral edge regions of the protective pane (3) and are attached to bearing blocks (7) attached to the frame (1) at approximately their central height. are articulated, which are located geodetically below the respective swivel arm articulation point on the protective disk (3). Protection device according to one of the preceding claims,
characterized by a device (32) for automatically displacing the protective pane (3) from its outwardly displaced position into the position completely against the frame (1) in the event of flooding. Protection device according to claim 3 and 4,
characterized in that the so-called automatic shifting device (32) acts on the free end (6a *) of the pivot arm (6a) which is extended outwards from the articulation point on the bearing block (7) attached to the frame (1). Protection device according to one of the preceding claims,
characterized in that the automatic displacement device (32) is designed as a float or is controlled by a float. Protection device according to one of the preceding claims,
characterized in that the so-called displacement device (32) consists of at least one cylinder-piston unit (36) articulated on the frame, which engages at the free end (6a *) of the swivel arm (6a). Protection device according to claim 7,
characterized in that the cylinder-piston unit (36) can be supplied with a pressure medium, in particular compressed air, from a refillable reservoir (38) via a valve (37), the valve (37) being supplied by a float or by an increasing water level ( 27) compressed auxiliary volume (compression hose or the like) is controlled. Protection device according to one of the preceding claims,
characterized in that the frame (1) with the protective pane (3) can be inserted and sealed into the building opening (21) outside a window (22) or the like already provided therein. Protection device according to one of the preceding claims,
characterized in that the frame (1) is assigned a built-in frame (40) which, together with the frame (1) detachably attached to it, is inserted into the building wall (20) surrounding the building opening (21) when the building wall (20) is pulled up ,

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