EP0486768A1 - Depot for dangerous substances made from reinforced concrete precast members - Google Patents

Abstract

In a depot for dangerous substances made from reinforced concrete precast members for forming a floor assembly (2), surrounding walls (29, 3, 4, 5) and a ceiling (77), provision is made according to the invention for the floor assembly to form a square comprising at least two transportable floor elements (16, 17) which each consist of a metal trough (29) and a concrete body (30), which surrounds it and covers the trough walls (32-34) and the trough bottom (36), and a floor comprising gratings (41) which cover the trough opening and form a continuous floor surface. Covering profiles (55) are provided for sealing the joints (54) between adjacent floor elements on the upper sides (56, 57) of the adjacent floor trough edges (65, 66) which are reduced in terms of their height, which covering profiles seal the joint between the floor elements, and the surrounding edges, which are higher relative thereto, of the square support the surrounding walls (29, 3, 4, 5) with their upper sides (73-76). <IMAGE>

Description

The invention relates to a hazardous materials warehouse made of precast concrete parts.

Hazardous substance stores of this type are buildings for the accommodation and, if necessary, filling of flammable liquids or other dangerous substances, as well as compressed gas packs or the like. These buildings are made of precast reinforced concrete, which can be easily transported and assembled, so that they can be quickly and easily brought to the required location and assembled there with a crane. The realization of the prefabricated parts made of reinforced concrete guarantees a fire-resistant design of the walls and the ceiling, which among other things. the establishment of the hazardous materials warehouse without a distance next to other buildings and thus an optimal use of the available area, as well as an optimal arrangement of the hazardous materials warehouse to other buildings from a rationalization point of view.

The floor assembly of the hazardous materials warehouse must be designed in such a way that it forms a substructure with sufficient load-bearing capacity on the one hand, but on the other hand forms a seal in the building that is capable of releasing liquids and other hazardous substances restrain that could endanger the atmosphere or water. The floor of such a building and its size must be such that, in addition to sufficient storage space, it also offers the necessary traffic areas. The invention is based on this problem.

A hazardous substance store is known (DE-GM 88 12 586.6), which consists of a floor assembly made up of an upper part of the room cell, which combines the ceiling and the surrounding walls and can thus be transported and set up in two parts. Here, the floor assembly consists of a steel tub, which serves as lost formwork of an enclosing concrete body, which accordingly covers the tub walls and the tub floor to the outside and supports the surrounding walls of the upper part with its edges. The floor is sloping because escaping liquids are to be drained off to the rear wall and collected in an external separator.

However, it has been shown that, for practical reasons, the base area of the hazardous materials store is often not sufficient to meet the requirements for the storage area and the traffic areas, for reasons of the transport weight of the two monolithic parts - upper part and base group, with increasing reasons of rationalization Traffic inside and outside the building is trying to cope with forklifts. In the case of the practically executed hazardous goods storage buildings, the floor space is practically limited to around 18 square meters and the enclosed space is therefore limited to approx. 60 cbm. These dimensions do not allow rational traffic routes and exclude the use of forklifts.

The invention has for its object to set up a hazardous materials warehouse of the general training described above so that practically any floor space and thus converted spaces are made possible in a size that allow coherent traffic and storage areas, as well as a corresponding enlargement of the converted space.

According to the invention, this object is achieved with the features of claim 1. Further features of the invention are the subject of the dependent claims.

According to the invention, the floor assembly is composed of several, namely at least two of the floor elements described in principle above, and the surrounding edges of the resulting quadrant are used to support the surrounding walls of the building, a continuous floor area being achieved in that the element edges forming the floor assembly have the same formed joints are covered and these are placed lower than the surrounding edges of the square, which support the walls. In this way it is achieved that the top of the gratings is flush with the underside of the walls, so that one can easily, i.e. without having to cross a threshold, can drive into and out of the building, but released liquids and other hazardous substances cannot escape to the outside, because they are held back by the floor pan edge under the grating on the door side.

The invention has the advantage that it can be used in buildings enables a space that is not restricted by load-bearing walls, which can therefore be used optimally as a storage room with a traffic-free area. The basic requirements for the tightness of the floor assembly with respect to the subsoil are guaranteed because, on the one hand, the well-known and proven technology of the floor assembly continues to be used, but on the other hand sufficient soil protection against released liquids and other hazardous substances is achieved at the inevitable joints of the floor assembly. The building can therefore be rationally manufactured, transported and erected despite its significantly enlarged footprint.

In the preferred embodiment of the new building according to claim 2, the floor assembly can also be put together from more than two elements, but in practice it is preferably constructed from two elements which have the tried-and-tested dimensions of approximately 6 m which have been used for transport to date Length and about 3.5 m wide, so that you have a continuous floor area of c. Can reach 36 m². This embodiment of the invention allows, if one arranges the elements with their long side next to one another, continuous large panels for the erection of the surrounding walls, which could not be realized because of the enlarged footprint if one wants to work with a portable and light ceiling construction. This enables the invention, however, by means of a beam on the adjacent sides of two large panels that form the ceiling, so that in this way all wall panels and the ceiling panel can be built from large panels that are easy to transport and assemble.

In general, steel is used in the tubs of the floor assembly if it is not a matter of hazardous substances that are aggressive towards this material. If this is the case, stainless steel can also be used. For the loads for which they are intended, the gratings require a secure support in addition to sufficient inherent strength. It is therefore expedient to use the cover of the joint described to support the gratings, which is the subject of claim 3.

In view of the preferred tub material, the invention expediently uses metal profiles to cover the joints. The details of such a cover are the subject of claims 4 and 5.

Another embodiment of the invention relates to a further development of the ceiling joist in such a way that it facilitates the assembly of the ceiling. This is the subject of claims 6 and 7. With these features it can be achieved that the ceiling panels at the installation site of the hazardous materials store only have to be installed in a predetermined sequence without it being necessary to manufacture, transport and assemble the beam as a separate component .

Fig. 1

ein Gefahrenstofflager gemäß der Erfindung in einer Ansicht von vorn unter Wiedergabe des Tores, das den Zugang zum Inneren des Gebäudes bildet,

Fig. 2

eine Seitenansicht des Gegenstandes der Fig. 1,

Fig. 3

die Rückwand des Gebäudes nach den Fig. 1 und 2,

Fig. 4

das Gebäude nach den Fig. 1 bis 3 im Längsschnitt,

Fig. 5

den Gegenstand der Fig. 1 bis 3 im Querschnitt,

Fig. 6

eine Draufsicht auf die Bodengruppe des Gebäudes,

Fig. 7

ein Bodenelement der Bodengruppe nach Fig. 6 in dieser entsprechender Darstellung,

Fig. 8

eine Seitenansicht des Gegenstandes der Fig. 7,

Fig. 9

eine Einzelheit, die in Fig. 7 mit IX bezeichnet ist,

Fig. 10

eine Einzelheit der Darstellung der Fig. 9,

Fig. 11

eine bei XI in Fig. 9 wiedergegebene Einzelheit in abgebrochener Dartellung und

Fig. 12

die in Fig. 5 bei XII wiedergegebene Einzelheit.

The details, further features and other advantages of the invention result from the following description of an embodiment with reference to the figures in the drawing; show it

Fig. 1

a hazardous substance store according to the invention in a front view showing the gate that gives access to the interior of the building,

Fig. 2

2 shows a side view of the object of FIG. 1,

Fig. 3

the rear wall of the building according to FIGS. 1 and 2,

Fig. 4

the building of FIGS. 1 to 3 in longitudinal section,

Fig. 5

1 to 3 in cross section,

Fig. 6

a top view of the floor of the building,

Fig. 7

6 in this corresponding representation,

Fig. 8

7 shows a side view of the object of FIG. 7,

Fig. 9

a detail designated IX in Fig. 7,

Fig. 10

a detail of the representation of Fig. 9,

Fig. 11

a detail reproduced at XI in Fig. 9 in broken off Dartellung and

Fig. 12

the detail shown at XII in FIG. 5.

1 is a building made of transportable reinforced concrete parts. This includes a floor assembly generally designated (2) in Fig. 6, as well as large panels which, as can be seen in Fig. 1, the front wall (2a) of the building, the adjoining side walls (3 and 4), the rear wall (5) and the Form the ceiling disc (6). A recess (7) for a goal frame (8) is provided in the large board (2a). The gate consists of two wings (9 and 10). The lower edges (11 and 12) of the two door leaves (9 and 10) form the lower edges of a recess (14) in the front (15) of the base group (2) (Fig. 6).

The base group (2) forms a quadrilateral of two elements (16, 17). These are the same among themselves and have a rectangular layout. They are arranged side by side with their long sides (18, 19). In the floor plan, therefore, sums of the short sides (20, 21, 22, 23) form the longer sides (15, 24) of the base group, while the sums of the outer long sides (25, 26) form the shorter sides (27, 28) of the square form.

The elements of the floor assembly (2), of which the quadrant described consists, are each composed of a steel tub (29) and a surrounding concrete or reinforced concrete body (30) in a composite construction. Here, the steel tub (29) serves as lost formwork for the tub recess (31) when pouring the concrete body (30), which encloses the tub walls (32-35) (Fig. 7) and the tub floor (36).

The partial creation of Figure 9, which is a section 7 shows pan-fixed grate bars (35a) which run parallel to the longitudinal walls (32 and 34) and consist of composite profiles, ie a flat profile (36a) and a T-profile (37), as well as further trough-fixed grate bars (38) which consist of flat profiles and are oriented in the transverse direction, ie parallel to the trough walls (33 and 35). Angle profiles (39) run along the walls (32-35) and interact with the flanges (40) of the T-profiles. In this way, supports for gratings (41) are formed, which in turn consist of square frames (42) and grate bars (43) which run parallel to the longer dimension of the square frames (42). Each square frame (42) covers a field (44 or 45) which is formed by the grate bars (35a, 38) or by a grate bar (35a) and the support profile (39). This results in a continuous floor surface (46) which is formed by the aligned upper sides (47) of the gratings (41, 41a, 41b ... 41x).

The metal trough (29) of each of the two elements (16, 17) is sealed with respect to the concrete body (30) surrounding it. It consists of several base plates (48, 49) which are welded together with butt seams (50, 51). The walls are welded to the floor (36) by fillet welds (52, 53).

In the floor assembly (2) there is a joint (54) between the long sides (18, 19) of the elements (16, 17) as soon as the floor assembly is assembled at the installation site. This joint is covered at the top with a metal profile (55). This steel profile is supported on the tops of the bottom tray edges (56, 57) are formed by the upper edges of the surrounding concrete body (30) and the associated tub edges (33, 35). The cover profile (55) also serves as a support for adjacent gratings (41 ... 41x) of the floor assembly (2), which are adjacent to one another in the two elements (16, 17) on the sides (18, 19).

According to the embodiment shown in Fig. 12, the cover profile (55) consists of a U-steel profile section, which is arranged with its profile opening (56a) downwards, so that the outside (57a) of the profile web (58) forms the grating support described and the assigned two mutually parallel profile webs (59, 60) to the adjacent trough walls (33, 35), ie are essentially parallel. The free ends of the profile legs (59, 60) are welded to flat profile sections (61, 62) via fillet welds. The flat profile sections (61, 62) are in turn welded to the inner sides (63, 64) of the steel troughs in the elements (18, 19) and offer allowances there which increase the distance between the leg ends (59, 60) and the walls (33, 35 ) bridges.

5, the continuous floor surface (46) arises from the fact that the elements (16, 17), which are identical among themselves, have reduced walls (65, 66) on their sides (18, 19) in height However, the surrounding walls (23-25) of the floor assembly are higher. Therefore, the top (46) of the bottom lies at the level of the lower edge of the recess (14), which in turn lies in the level of the adjoining bottom (67). This makes it easy to run over when entering and exiting the hazardous materials warehouse (1) possible with forklifts.

In the longitudinal direction, the top (68) of the steel trough of each element (68) falls in the direction of the rear wall (5) of the hazardous substance store (1), while the bottom surface (46) formed by the gratings runs horizontally. As a result, escaping liquid hazardous substances flow towards the rear wall (5) and are collected there under the floor (46).

The building stands on strip foundations (69, 70) and has an angular bench (71) on the outside for the installation of a compartment (72) that contains a CO₂ supply, with which the inside of the hazardous substance store (1) is placed under CO₂ in the event of a fire to extinguish the fire. In addition, the electrical distribution system (EL) is attached to the rear wall (5) of the hazardous materials store (1).

As can be seen from the representation of the figures, the upper edges (73-75) of the base group serve as support edges for the large panels (2a, 4 and 5), while the upper edge (76) of the base group is used to support the large panel (3). The ceiling pane (77) consists of two large panels (78, 79). Here, a light design of the ceiling panels is ensured by a beam (80) which is formed in one piece with the board (78). It has an L-shaped cross section, the profile recess (81) serving as a support for the side edge (82) of the large panel (79), which together with the large panel (78) forms the ceiling pane (77).

To set up the building (1) are first the strip foundations (69, 70) are excavated and completed, which run in the transverse direction of the hazardous substance store (1). The elements (16 and 17) are transported as finished elements and built up on the strip foundations (69 and 70). Then the large boards (2a-5) are placed on the described upper edges (73-75 and 76) and connected to each other at the corners in the usual way. Then the ceiling pane (77) can be installed, first placing the large board (78) with the beam (80) and then mounting the board (79). You can then first assemble the floor assembly by placing the gratings (41 ... 41x) on top. Then the door frame (8) with the fully assembled door is inserted and welded into the recesses (7 and 14). Once the goal frame joint has been filled, the hazardous materials store can be completed.

Claims (6)

Hazardous substances store made of precast reinforced concrete to form a floor assembly, surrounding walls and a ceiling, characterized in that the floor assembly (2) forms a square of at least two transportable floor elements (16, 17), each of which consists of a metal trough (29), a concrete body enclosing it (30), which covers the trough walls (32-34) and the trough bottom (36) and consist of a bottom made of gratings (41), which cover the trough openings and form a continuous bottom surface (46), whereby to seal the joints (54) between adjacent floor elements (16, 17) on the upper sides (56, 57) of the adjacent floor pan edges (65, 66) with reduced cover profiles (55) and the, in contrast, higher peripheral edges of the square of the floor group (2) with their upper sides ( 73-75, 76) support the surrounding walls (2a-5). Hazardous goods store according to claim 1, characterized in that the floor group consisting of two floor elements (16, 17) which are identical to one another, the ceiling (77) made of a pair of large boards (78, 79) and the walls (2a-5) each of a large board exist, the adjacent edges (81, 82) of the ceiling panels (78, 79) with a Beam (80) are provided. Hazardous goods store according to one of claims 1 or 2, characterized in that the cover profile (55) serves as a supporting edge for gratings (41) of the floor assembly (2), the common support for gratings (16, 17) adjacent to the floor elements (16, 17). 41) forms. Hazardous goods store according to one of claims 1 to 3, characterized in that the cover profile (55) is a steel profile with a U cross-section and with its opening (46) lies down on the upper edges (56, 57) of the adjacent elements (16, 17) , and with the insides of the free ends of its legs (59, 60) is fixed. Hazardous goods store according to one of claims 1 to 4, characterized in that additional profiles (61, 62) are arranged between the inner sides of the free leg ends of the cover profile and the inner sides (63, 64) of the metal trough (29) and with the metal troughs (29) and the Cover profile (55) are welded. Hazardous goods store according to one of claims 1 to 5, characterized in that the beam (80) consists of an L-shaped bar which is formed in one piece with one of the ceiling panels (78) and with its profile recess (81) as a contact edge of the long side (82 ) serves the adjacent ceiling tile (79).

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