DE3904102C2 - - Google Patents

Description

To protect people from the consequences of disasters and military conflicts can a. Basement of living houses are built as shelters, the technical ge governed by regulations in a number of states is. In the BR Germany these are essentially the "construction technical principles for basic protection rooms ", published by the Federal Ministry of Spatial Planning, Building and urbanism.

Significant numbers of civilian shelters are only available in states built with an existing protective building obligation. In the BR German country where such a duty does not exist and with which also the future is not to be expected, the construction of house protection clear the state through grants and tax special supported depreciation, which together make up about half of Ge to cover the cost of accommodation. These aids only cause a ver dwindling small number of private builders, already in the pla phase of their residential buildings. Also the half of the building ministry is planning, the To simplify the execution of house protection rooms considerably. So should u. a. Emergency exit, lock and main sand filter are not required len (lecture given by O. Schaible from the Ministry of Construction at the event "Schutzraumbau-Zivilschutzgesetz For and Again "in Hamburg University of Applied Sciences on May 28, 1985).

The possibility of a subsequent addition of the houses by such rooms ent brought against. The industry offers ready-made protective rooms for this made of concrete elements in the form of vaults, cuboids or spheres or consist of steel cylinders. Combination forms are also known, where prefabricated steel containers on the spot be poured with concrete. All of these ready or half bikes Tig rooms are in a prepared building pit next to the building.

The vast majority of the relevant Pa  tent writings deals with such outside shelters, according to the patent of the German Reich 6 86 511 (Corrugated iron vault), German Patent PA 5 36 998 (Concrete-coated sheet metal container), German patent 8 14 519 (steel cylinder), German patent DE 30 24 437 C2 and DE 31 51 651 A1 (Shelter made of planked tubular steel profile skeletons), German Offenlegungsschrift DE 31 14 617 A1 (protective wall from formwork sheets filled with concrete).

The establishment of all of these outside shelters caused this Building owners are particularly high despite government support Costs. Because the excavation pit is usually also excavated considerable difficulties remains Insignificant demand for outside shelters.

The expansion of existing cellars as a further possibility is hay te also associated with high costs because it is very busy intensive construction floor, walls and ceiling with an additional layer of reinforced concrete must be provided, the ent neither using formwork or spraying is introduced. The installation is also prefabricated, through Screws and bolts of connected concrete form elements conceivable, such as he in German Offenlegungsschrift 29 12 149 he thinks. However, all procedures require a considerable amount Intervention in the existing building fabric and could therefore do not enforce.

Therefore, the current situation on the market is ex post Characterized to be built house protection rooms, that the existing demand from builders for inexpensive suitable spaces that are easy to create bot faces.

The task is therefore to provide a method which allows the expansion of existing basements in a way that on the one hand the scope of protection of the basic protection (security  against falling debris of the collapsing building, against Radiation from radioactive precipitation, against fire as well as against biological weapons and chemical weapons) Account is taken into account, but on the other hand the cost of ownership also for the largest possible number of potential builders can be raised without state aid and the expansion in Self-help without any noteworthy changes to the building structure and is possible with simple means. The type of con structure to facilitate other uses of the shelter.

This object is achieved by the features specified in claim 1.

Here are only existing door leaves, windows Remove sashes and cellar window shafts if necessary. The Items are shipped with written instructions delivered and can also be assembled by laymen. Since the The suspended matter filter function will not be changed of the main sand filter that is still common today relocated outside and its gas filter function from an active carbon filter taken over. Specially trained emergency exits and the gas lock is eliminated. The supply air is via the Kel suction window opening and exhaust air through the door pushed out.

In the following example, the solution described is described in detail purifies. It shows

Fig. 1 is a schematic, however, to scale Verti kalschnitt through the entire protection system,

Fig. 2 cross-section and view of the top 10 hollow and edge elements, from which the protective housing is put together,

Fig. 3 shows a wall-wall-edge in a horizontal section,

Fig. 4, the left bottom wall edge in the vertical section,

Fig. 5, the right floor-wall edge, in vertical section,

Fig. 6 is a head-side ceiling wall-edge in a vertical section,

Fig. 7 shows a vertical section through beams, ceiling support and the associated ground plate elements floored,

Fig. 8, the door frame in a vertical section without a bottom covering and door leaf,

Fig. 9, the air flow in the vertical section,

Fig. 10 shows the air duct in a horizontal section.

The complete protection system is shown in FIG. 1 which is composed mainly of the base plate (1), the wall panels (3) and the top plate (2) made of a protective casing. In basements whose floor plans exceed certain maximum dimensions, beams ( 6 ) are inserted into the ceiling slab ( 2 ) and, if necessary, stabilized with a support ( 7 ).

The execution of the inner shell as a closed housing - that is including a base plate - has the advantage of high all side resilience with lightweight construction and made possible light control of the air flow.

The protective housing continues in the door frame ( 5 ) and is closed by the door ( 4 ). The supply air is from a commercially available ventilation device ( 13 ), via the supply air connector ( 8 ), the external sand prefilter ( 9 ), a metal hose ( 10 ), the commercially available pressure surge valve ( 11 ) and the commercially available activated carbon gas filter ( 12 ) pressed the shelter. The basement window opening serves as an emergency exit. Therefore, the basement window cover ( 14 ) is removably arranged inside. The space occupied by the cellar window shaft is filled with sand ( 15 ), which is removed internally in the case of self-liberation. Thermal insulation ( 16 ) is arranged between the protective housing and the ceiling and the inner walls.

All plates of the housing consist predominantly of the standard element ( 17 ) which is open at the ends ( FIG. 2). The element is 171 mm wide, has a length between 330 and 2130 mm with an increment of 50 mm and consists of 1.5 mm thick galvanized and one-sided foil-coated sheet steel. Its thickness of 40 mm is small considering the bending forces to be absorbed, but it is appropriate for the generally low cellar heights. The element is dimensioned so that the maximum length of the composite can withstand the assumed pressure of 10 kN / m ² without any significant deformation. As a ceiling element, it also bears the usual traffic loads, the failing concrete ceiling and its own weight with a safety factor of 1.71. The element is provided with a bead for stiffening. It has through holes on its edges for M10 screws, which are arranged at a distance of 150 mm square. The rear holes on one side are provided with M10 threads after the edges of the holes have been flanged.

In addition to the standard element, there are others with other profiles:
With the help of the narrow wall element ( 18 ), whose hole centers have a horizontal distance of 50 mm, the length and width of the housing can be graduated in a 50 mm grid. The push element ( 22 ) allows the final assembly of a plate by inserting it into the third last before installing the last element and then screwing it back to the third last and last. Wall edges are formed by the wall edge element ( 23 ). The lengths of all these hollow elements correspond to those of the associated Standardele mentes, so that there is a Mo module of 50 mm in length and width.

The connection of some of these elements is shown, inter alia, in FIG. 3. An element is pushed over the predecessor and then the spacers ( 27, 35, 39 ) are screwed in with a simple special tool. These spacers have lengths of 25, 40 and 55 mm and are provided with an M10 thread on the outside and an M6 thread on the inside. They precisely set the distance between the housing and the basement wall. They also support walls and ceilings, the resistance of which is considerably increased. Through them, the forces acting from outside are finally introduced near the landing stage and thus into the points of maximum resistance of the housing. The entrance to its internal thread is funnel-shaped to make it easier to screw in the M8 connecting screws ( 20, 37 ). Before fitting a connecting screw, a compensating bushing ( 29, 36 ) is inserted and later all screws in a row are covered with a cover strip ( 32 ). This results in an almost flat inner wall.

The edges between wall and ceiling panels, or between wall and floor panels are shown in Figs. 4, 5 and 6. Vertical and horizontal plates practically do not touch. This means that the imaginary extension of the main axes of a hollow element of the wall plate does not intersect a hollow element of the floor or ceiling plate and vice versa. Rather, they are connected to each other via edge and corner elements. This arrangement has the particular advantage that disassembly in an emergency for the purpose of using the basement window as an emergency exit is considerably facilitated even if the housing has deformed. Furthermore, it is an essential prerequisite for being able to leave out protrusions running horizontally (pipes and lines) and vertically (chimneys, pipe jackets) or to divide the housing under.

The power is transmitted through the outer edge elements ( 19, 20, 24 ), the inner edge element ( 25 ), the spacers ( 27, 35, 39 ), outer edge elements consist of 1.5 mm, the inner of 2 mm thick sheet steel. The elements mentioned are provided with through holes or threaded holes at a distance of 50 mm in accordance with the modular design ( FIG. 2). After connecting the individual panels, the inner edge element and screw heads are covered by bumper strips ( 31 ).

The connection of the wall elements with each other and with the one The individual panels are almost airtight. Hereby closed cavities result, whereby undesired con vection is difficult.

Inner corners are formed with the help of the inner corner element ( 30 ) ( Fig. 3). Outer corners result from Aufeinan derstützen the outer edge elements including the wall edge elements ( 23 ).

Each hollow element forming the ceiling slab ends on one side in a beam, provided that a clear width of more than 2130 mm has to be bridged. This 330 mm wide bar ( Fig. 7) consists of welded together 1.5 and 3 mm thick steel sheets. It is divided into a left ( 45 ) and right ( 46 ) strips, which are slidably arranged. Without this possibility of displacement, the ceiling could not be finally installed. Each bar consists of a 1500 mm long center piece and 2 end pieces with lengths between 180 and 750 mm. The connection of the individual pieces is made by the beam connecting pieces ( 44 ), consisting of 70 × 40 mm - square tube with lengths of 280 mm. The pressure and tensile forces are transmitted using spacers ( 27 ) and compensating bushes. The standard and other hollow elements ( 17 ) are inserted into the bar and connected to it in the usual way.

In the middle of the center piece, the ceiling support made of square tube ( 42 ) engages, into which the vertical force is introduced by the support pin ( 41 ). The pin is welded with an M10 nut. It can be used to push it out of the support against the beam until a spacer above it touches the ceiling. Then the pin is locked with another nut. The supports only need to be installed in smaller and medium-sized rooms if the ceiling is to be rubbed. The lack of a positive connection in the floor area makes assembly easier.

The floor elements below the beam are connected to floor transition elements ( 43 ) whose profile corresponds to that of the standard elements, but can be pushed over them. Each spacer below a support is underlaid with a sheet metal disc to avoid excessive ground pressures.

The wall elements in the beam level are normal, however the full width of the side pieces of the beams lie on them. Furthermore, the vertical forces caused by the Wall elements flow over the corresponding outer edge elements elements by means of additional spacers initiated the basement floor.

Access to the housing is through a door frame flanged to this ( Fig. 8), which consists of the inner ( 47 ) and the outer frame ( 48 ). The frame parts are pushed over each other and connected with M6 screws ( 51, 52 ). Corresponding overlap widths for taking into account different wall thicknesses are possible by several parallel rows of threaded holes in the outer frame part. The frame has an inner width that falls below the clear width of the original spring frame ( 50 ) by more than 50 mm, so that because of the possibility of using narrow wall elements with a screw spacing of 50 mm, in any position of the door cavity within the relevant basement wall, the frame can be installed.

The inner frame part consists of welded top, bottom and side parts with a sheet thickness of 1.5 mm. The upper part is welded to a door beam ( 49 ) (60 × 40 mm square tube). In Fig. 8 it is directly connected to the ceiling plate. For other room heights, the door beam is extended upwards with standard element pieces. The lower part of the inner frame is provided with a bead to ensure the necessary tread resistance. This bottom piece of the inner frame is still covered with a bottom plate not shown in FIG. 8. The side parts are angled, engage in the adjacent standard elements and are connected to them in the usual way.

The frame outer part ( 48 ) is formed from welded U-shaped bent 2 mm sheets and is provided on its outer edges with a sealing strip ( 53 ). The strip touches the wall, lintel and basement floor outside the original frame ( 50 ). The door leaf, not shown in the picture, is struck on the outer frame part.

After assembling the frame parts, the sealing strip fen by tightening the appropriate spacers presses until the outer frame part fits tightly. The seal to the floor is combined with the own weight of the frame a suitable setting of the spacers of the base plate ensured.

Removing the body heat of its occupants is one of the biggest problems in shelter construction. Since the given air exchange rate is far from sufficient for this, an attempt is made to utilize the cooling potential of the basement outer walls. So far, this has been insufficient because in conventional shelters the supply air was blown directly into the core area of the interior and therefore there was hardly any convective heat transfer on the walls. In the present shelter system, on the other hand, the supply air is first blown into the jacket space between the basement walls and the housing, so that the cooling possibilities of the walls are largely used. FIGS. 9 and 10 illustrate the ventilation principle.

The outside air sucked in by the fan ( 13 ) is blown through the supply air wall element ( 21 ) ( FIGS. 2 and 10) into the jacket space and enters the interior via the ventilation wall element ( 26 ) ( FIGS. 2 and 10) a. The air previously brushes part of the fan-side outer wall because on the one hand the thermal insulation ( 34 ) of the inner walls and the ceiling, and on the other hand guide seals ( 54 ) inserted into the jacket space prevent the direct path to the ventilation wall element ( 26 ). Only after passing through the entire floor area of the basement and the other outer walls will the air reach the element in question. When cooled, it enters this element through several relatively narrow holes (12 × ⌀20 mm) and therefore evenly at any height, and leaves it again through a single hole (⌀100 mm). In special cases (too cold interior, stone dust in the jacket space, leaks in the surrounding walls) the supply air duct is detached from the supply air wall element ( 21 ) and enters the interior immediately.

After the interior has been flowed through in the longitudinal direction, the exhaust air enters the heat-insulated door ( 4 ) at the bottom, cools it in the event of a fire, and leaves the protective system through a pressure relief valve. An uncontrolled outflow of air, for example through the cellar window cavity or the door frame, is prevented due to the built-in seals.

The air duct system presented can be based on conventional Air distribution lines are completely dispensed with, that is why is very inexpensive to manufacture.

Claims (13)

1. Housing made of double-skin ceiling, wall and floor panels made of sheet metal for expanding existing basement to shelters, characterized in that the panels from cross-sectionally U-shaped, open on three sides, connected by screws with each other, supporting and ventilated hollow elements are formed and that the ceiling and Bodenplat th each with the wall panels by means of edge and corner elements that close the hollow elements on their end faces, are joined together. 2. Housing according to claim 1, characterized in that the Dimensions of the hollow elements is based on a module. 3. Housing according to claim 1, characterized in that at assembled housing the hollow elements of the wall panels the hollow elements of the floor and do not cut ceiling tiles and vice versa. 4. Housing according to claim 1, characterized in that the Plates to the inside of the basement by means of a thread see spacer held at a defined distance will. 5. Housing according to claim 4, characterized in that in the spacers the connecting screws of the hollow, Edge and corner elements are screwed in. 6. Housing according to claim 5, characterized in that the Connecting screws are partially recessed and then covered with a cover strip, partially protrude and then be covered with a bumper. 7. Housing according to claim 1, characterized in that Larger ceiling panels made of two ver Slidably arranged side panels contain that welded hollow profiles.   8. Housing according to claim 7, characterized in that longer bars are composed of parts that with Bolted together using square tube pieces will. 9. Housing according to claim 7, characterized in that Län gere beams are supported with square tube supports, which are not firmly attached to the floor and into which the Power through a threaded and nut support cone is initiated. 10. Housing according to claim 9, characterized in that the Support on a hollow element that ends above the neighboring ten hollow elements is pushed and the support load with spacer into the basement floor. 11. Housing according to claim 4, characterized in that the outside air conveyed via a fan into the space between Housing and basement walls is pressed, there - steered with guide seals - cools down on the floor and outer walls and only then crosses the interior. 12. Housing according to claim 1, characterized in that one of the wall panels is flanged to a door frame that consists of an inner and an outer part, wherein the outer part embraces the original frame and by Ab is pressed against the outside of the basement. 13. Housing according to claim 12, characterized in that the door frame is a door with thermal insulation leaf is chipped, through which the exhaust air flows and is cooled in the event of a fire and that the door closes the opening airtight.