DE1753363U - TRANSPORTABLE HALL, IN PARTICULAR FOR STORING PLANES AND THE LIKE - Google Patents

Description

Transportable hall, especially for storing aircraft and the like

It is common for aircraft to be individually covered with soil in a dome-like manner Put down halls in order to protect them from sight, weather influences, shelling and fire protection.

The halls themselves are dismantled or transportable without being dismantled.

The innovation has set itself the task of building such to enable transportable halls made of prefabricated, dismountable components and at the same time statically very favorable with little material expenditure To use components.

The innovation concerns a transportable hall in a self-supporting one Dome construction and consists in the dome of flat or arched, z. B through Reinforce profile formation, sheet metal plates connecting the plates at the plate edges to form a shell. The sheet metal plates can be rectangular, trapezoidal or triangular be designed, depending on the desired floor plan of the transportable hall. Man it can be made in the usual way from smooth, cambered, chamfered, pressed or Form metal sheets stiffened with profiles.

Appropriately, the edges of the sheet metal plates are bent like a flange, the bends are used to attach adjacent panels. It recommends to arrange the bends to the outside, which means not only smooth inner walls arise, but the outwardly bent edges also to anchor the transportable hall in the ground or raised at the turns Soil or concrete is held. It is recommended to use metal sheets, which are reinforced double-walled by inserting or placing additional panels can and which the filling of the spaces thus formed by a support material, such as concrete or an insulating material.

In the preferred embodiment, the halls are portable according to the invention designed to be rotationally symmetrical, the division of the dome is made by sheet metal plates that the sheet metal plates are set segmentally against one another are. Reinforcement beams, preferably in the direction of the segmental division run, can also be attached. These are expedient from the outside placed on the dome in order to contribute to better anchoring at the same time. she can also be used as an abutment for gates. With the described Embodiment, it is recommended that the stiffening beam in the center on a ring piece to fasten and set up like a leg, it is also possible for reinforcement on the roof of the hall produced in this way, further reinforcement beams adapted to the shape of the roof lay up and connect to the roof.

The opening of the transportable hall according to the invention can thereby be formed that individual panels are removed from the structure or not to be built in.

In order to stiffen the same after completion of the hall and thus To increase the load-bearing capacity, it is advisable to use the sheet metal connection points and especially to install reinforcement cross pieces at the cross joints. Likewise can be reinforced by subsequent double-walled training and filling a support material can be achieved in the space. But you can also use corner clamps to connect four panels at a time where they meet. Depending on the circumstances, metal sheets will be used, which are for example by pressed-in warts and the like. Holding thrown concrete or soil allow, with the composite effect between filler and Sheet metal is improved if a double-walled design of the same is chosen and the space between the wall is filled with filler, e.g. B. is poured out.

The advantages achieved by the innovation are particularly in the Multiple uses of the new transportable hall can be seen, which are made of prefabricated Elements can be assembled into multiple forms and purposes. The inventive, transportable hall surprises duroh, the quick assembly option that it in particular when used for military purposes make it seem appropriate, there also a frequent assembly and disassembly is possible without difficulty. Special Advantages: are made possible by the invention proposal reached the reinforcement beams and arranging connecting bends of the panels to the outside. The thereby Achieved smooth inner surface is considered comfortable for most purposes felt, at the same time it is possible to anchor the reinforcement beams and bends, of the structure sunk under the surface of the earth to use in the ground or to hold on laid soil or concrete.

In the following, the innovation is based on only one embodiment Illustrative drawing, which also contains further features of the invention in more detail explained; They show: FIG. 1 a view of a transportable hall according to FIG Innovation, Figs. 2 and 3 view and cross section of a trapezoidal single-walled Plate for the production of halls according to FIGS. 1, 4 and 5, the connection of four adjacent Plates through a clamping device, Figs. 6 and 7 view and cross section of a trapezoidal single-walled plate as a prepared component, Fig. 8 a rigid Corner connection of four panels, Fig. 9 and 10 panels for halls in double-walled Embodiment, FIGS. 11, 12 and 13 show an embodiment which is a nocturnal Reinforcement allows, Fig. 14, 15 and 16 a further embodiment of plates according to Fig. 1} around 13, Figures 17 and 18 show a trapezoidal plate with intrinsic curvature.

The transportable hall shown in FIG. 1 is composed of metal sheets 1 which are bent up at their edges 2 and connected to one another at these bent-up portions by means of screw bolts 3. The individual sheet metal plates are stiffened by stiffening beams 4 set up like legs, which in turn on a common toroidal core piece 5 are attached. Further stiffening beams 4a are placed on the sheet metal plates. In this way, it is possible to add or remove stiffening beams and thereby influence the load-bearing capacity of the hall.

The following are individual elements of the hall shown in FIG. 1 described.

In Fig. 2 and 3, as an embodiment, the view and the cross section a trapezoidal single-walled plate 6 shown as a prefabricated component. Bolts 3 and nuts 7 are provided as connecting parts. Since the mitc (the indicated angles are smaller than 900, the assembly creates a dome-like Hall. On two sides 8 and 9, the raised edges 10 are bent a second time and cover the edges of the adjacent panels for protection against rainwater.

In the exemplary embodiment according to FIGS. 4 and 5, four adjacent plates 1a, 1b, 1c, 1d are connected to one another by a clamping device 11. The corners 12 of the plates are set back accordingly. The inner clamping piece 13 is pulled against the outer clamping piece 15 (with the help of the bolt 14) with the aid of the bolt 14, while the edges 12 of the plates 1a, 1b, 1c, 1d lie and there- through a tight, force-transmitting connection between the four panels involved is created.

In Fig. 6 and 7 is the view and as a further embodiment the cross-section of a trapezoidal single-walled plate 18 as a prefabricated component shown, with bolts 3 and nuts 7 are used as a connecting element.

In Fig. 8 is the corner joint fastened by four panels 18 according to ilg. 6 and 7 shown.

Seen from the outside, the four plates are in the order 18a, 18b, 18c, 18d among each other. The cross piece 19 is bent with its legs The edges 20 of the plates are screwed on, so that bending moments can be perpendicular to the plane of the plate be transmitted.

As a further embodiment, the cross section of a prepared one is shown in FIG Plate 21 shown in the known Sanwich construction, the assembly of the Dome is done by means of bolts and nuts. Between the carrier plates 22 and 23, which enclose a cavity with the profiles 24 and 25 inserted around the plate, the support material 26 is introduced under pressure or without pressure. The carrier plates 22 and 23 are so bent and faded out at two corners so that the total thickness can be the same for all plates, both at the connection points with the Near bar plates 21 a and 21 b have a symmetrical double overlap. The profiles 24 and 25 serve also with support materials with low compressive strength to maintain the spacing between the carrier plates.

In Fig. 10 a cross section is shown, like a sandwich panel construction can be reinforced by additional supports 30 according to FIG. On the carrier plates 22 and 23, which enclose the support material 26 with the edge profiles 24, are with the bolts 27 screwed together the webs 28 of the support halves and Straps 29 are welded to the webs 28.

One embodiment of a successively reinforced construction is shown in FIG. 11 and 12 and 13 shown in cross section. The dome can first be single-walled Shell can be set up by only the plates 31 with the help of the stepped bolts 32 are screwed together. The bending stiffness of this shell is due to Installation of a cross piece according to Fig. 8, part 19 increased. If you put it, however the plates 33 after removing the cross piece 19, so one reaches another greater resilience of the hall. Finally, the cavity between the Plates 31 and 33 can still be filled with a support material 26 in order to increase the strength to increase further. This results in the embodiment according to iig. 11 and 12 a fixed but transportable hall 13.

If a support material is used, its adhesive strength to the Metal plates are too small to achieve a perfect sandwich construction, can be applied to the plates by applying an adhesive layer or by warts or by Cross bolts are prepared. In another embodiment, as shown in cross-section Shown in Figure 14, J-e dome is single-walled peel 34 set up, the connection points, if necessary, according to FIG. 8 on bend reinforced and this then serves as a cladding for a permanent dome, e.g. B. made of reinforced concrete. The reinforced concrete ceiling 35 is placed in the desired thickness and after hardening, the steel dome 34 is dismantled again or remains to increase the Strength. The embodiment according to FIG. 14 can be successively reinforced if the plates 34 are designed according to FIG. In this Fig. 16 it is shown that in the screw holes of the plate 34 screws 35 so attached captive are that their shafts 36 are applied after the flanged edges 37 of the plates Step forward.

To reinforce the initially single-walled shelter (e.g. with the plates 34 in FIG. 14) the widened plates 38 become correspondingly Fig. 15, which is substantially similar to panels 34 with captive screws 35 are added. The cavity between the plates 34 and 38 can still with a Support material 26 are filled in to increase the strength even further. The dismantling the hall is preserved.

In Fig. 18 and 17 is a trapezoidal plate as an embodiment 39 shown with its own curvature, which gives it its own flexural strength and compressive strength is awarded.

Protection claims:

Claims (1)

Protection claims 1. Transportable hall in self-supporting dome construction, characterized by a dome formation from sheet metal plates by means of connection of the latter. 2. Hall according to claim 1, characterized by a flat or arched, e.g. B. stiffened by profile training sheet metal plates (1) and their connection (1) on the plate edges (27 formed dome shell. 3. Hall according to claims 1 and 2, characterized by rectangular, trapezoidal or triangular, the desired plan or cross-sectional shape Hall, adapted panels with flange formation. 4. Hall according to claims 1 to 3, characterized by panels with outwardly bent edges (2) for fastening the panels to one another and for anchoring the structure in the covered soil or for holding Soil on the plates. 5. Hall according to claims 1 to 4, characterized by double-walled joinable metal sheets and filling of the space with support material (26), like concrete or insulating materials. 6. Hall according to claims 1 to 5, characterized through a segmental division of the dome shell through appropriately shaped sheet metal. 7. Hall according to claims 1 to 6, characterized through the arrangement of stiffening beams (4a) preferably from the outside onto the sheet metal and in the direction of the segmental division. 8. Hall according to claims 1 to 7, characterized at the same time used as an abutment for gates Stiffening beams. 9. Hall according to claims 1 to 8, characterized by sheet metal and reinforcement girders to be additionally fastened on the outside. 10. Hall according to claims 1 to 9, characterized by bolts, nuts or the like. Connecting means longitudinally the bent sheet metal rims. * 11. Hall according to claims 1 to 10, characterized through sheet metal welded along the edges. 12. Hall according to claims 1 to 11, characterized by the Reinforcement cross pieces (19) attached to the panel connection crosses. 13. Hall according to claims 1 to 12, characterized by at one Ring piece (5) attached stiffening girders (4) set up like a leg. 14. Hall according to claims 1 to 13, characterized by subsequently Metal panels to be attached to the dome shell to create a double wall with the option the filling of the gap with support materials (26) such as concrete.