DE1684178A1 - Device for erecting structures or parts of structures - Google Patents

Description

R e ctio n to the patent application "Device for erecting of buildings or building parts. "The invention relates to a device for quick erection of preferably arched structures or parts of structures the method already described in patent application B 88 384 U / 3? e.

Such a method includes such an arrangement of a shaping element that it erects in a controllable manner and at least partially assumes a shape that corresponds to that of the structure or building to be erected. In this molding element has a self-aligning reinforcement are tet ausgebrei- before its erection, together with a mixture of a cementitious material.

The above-mentioned shaping element consisted of a shell of flexible, gas-tight and inelastic material, which by itself or together with the foundation or with other frame arrangements formed a closed cavity and lifted under a certain internal pressure together with its relative load and according to the mentioned pressure value took a well-defined shape, which retained and for the required for binding of the construction material time.

The above-mentioned method also provided for a special distribution of the mixture of cementitious materials on the casing in such a way that during the erection process all tendencies towards undulation of the casing and a resultant change in the relative load were avoided.

In numerous studies it has been found that the aforementioned Procedure fully met the expectations. The investigations did however, possibilities for further improvements of this process have been shown The present invention relates to.

More precisely, it is an object of the invention to provide the device to carry out the mentioned method to improve while increasing the control about the timing of the erection of the loaded envelope, and thus below Increase the security and reliability to make this important operation correct perform.

On the other hand, it is a matter of creating a device which is to be suitable for a wide range of applications, such as for the construction of supporting arches for bridges and the like.

with it it should be possible to reduce the production costs of the erected structures, in that every design element can not only be recovered completely and quickly, but also allows the erection of buildings and structures of different shapes and sizes. The shaping elements should be lighter so that they can also be handled more easily than those previously used. Structures produced with this device should have greater homogeneity and resistance. It should also be possible to build structures with parts with an almost vertical profile . These goals can be achieved with a device for the rapid erection of preferably arched structures or parts of structures according to the method according to patent ... it at least partially forms a part having a closed surface, as well as with devices for blowing a gaseous medium into or under the shaping element, according to the invention achieve that ß 'self-aligning reinforcement or reinforcing elements are spread over the surface of the shaping element, as well as the shaping element is covered with a cementitious material, that the device comprises at least one elastically extensible device as part of the shaping element, that further the compressed air supply device is able to fill the closed surface part with air up to a point at which l the load of the cementitious material resting on the part and the elastic stresses inherent in the part have been exceeded, and that means are provided for securing the fixed frame on a suitable base which counteracts the components attached to it in such a way that they are in the Are able to carry a uniformly distributed apparent load during the erection process with the supply of compressed air, which has a value which is at least comparable to the cement-like material resting on the forming element, to which the aforementioned elastic tension is added.

Further features and advantages emerge more clearly from the description of some exemplary embodiments of the device according to the invention with reference to the drawing. In the drawing, Fig. 1 shows a section through the shaping element, the reinforcement and the cement material mixture arranged on the base for the erection of a building, Fig. 2 shows in section the erection of a dome-shaped structure with a double-walled design of the dome, Fig. 3 is a section through the arrangement for anchoring the edges of the shaping element to the foundation, FIG. 4 shows a perspective view of the erection of an arch, FIG. 5 shows a perspective view of a bridge which has the arch shown in FIG. 4 as one of its supporting elements, -Fig. 6 is a schematic representation of a series of 'shapes which can be achieved with a different expansion of the elastic membrane or the shaping element, which in the inflated state acts as a positive shaping element -Membrane can be produced as a shaping element, the membrane being elastic at the edges and inelastic and essentially rigid in the middle, Figs Fig. 10 a series of spiral wire sections as reinforcement or reinforcement inserts for the erected structure, Fig. 11 a spiral wire section with an inelastic core, as it is also used as a construction element for reinforcement inserts or reinforcement, Fig. 12,13,14, schematic representations some possible 15 and 16 reinforcements inserts or reinforcements and FIG. 17 shows a plan view of the main elements for the reinforcement or reinforcement of the structure shown in the following FIG. 18. In Fig. 1 of the drawing the area on which the structure is erected is denoted by 1, while 2, 3 show the foundation pit or the enclosure, which then form the foundation of the erected structure there is substantial elasticity, engages in the aforementioned enclosure 3.

Between the membrane 5 and the ground, i.e. in that of the ground, the Membrane and the enclosure enclosed space opens a pipe 6, which under the enclosure and to an external compressed air source, for example an electrically driven fan is connected.

Then a structure of metallic elements 7 is made over the membrane spread out, which then as a whole the reinforcement or reinforcement of the under construction Building forms and which is designed to be self-aligning., In the sense that it is composed of such elements that it consists of an arrangement of the shape the base area of the structure can merge into that of the erected structure.

A layer of cement or building material 8, ie a cement mortar, is spread over the membrane and the self-aligning reinforcement, the reinforcement being attached to the parts engaging the anchoring enclosure. The volume of the cement layer, which is homogenized with known vibration devices after it has spread, is equal to the calculated volume that is required for the construction of the structure under construction. After the above-mentioned operations have been carried out, compressed air is passed through the pipe 6 into the closed space g®, into which the pipe opens. The diaphragm expands increasingly and thereby lifts the on her upper string reasonable ordnet® material on, while the gain element .bzw. align the preservation itself. Since the force required to expand the membrane is significantly greater than the force required to lift the material resting on the membrane, the effect that determines the expansion of the membrane simultaneously leads to a uniform and progressive lifting of the entire membrane.

The above shows that in addition to the security of a uniform The possibility of raising the material is given by changing the maximum Final pressure inside the space enclosed by the membrane with the same To erect membrane structures and buildings of various sizes.

In addition, it should be mentioned that during the inflation of the Membrane does not experience exactly the same movement on the material resting on it, different from what happened earlier, so that it is impossible to make cracks and fissures larger To generate dimension in the mixture layer and thus in the structure produced.

The above-mentioned possibility for establishing of -unterschiedlichen-structures with the same membrane, which is shown in Fig. 2 clear from the. This illustration shows the erection of a double-shell structure. In this illustration, 11 denotes the floor, while 12 and. 13 are the pit and foundation enclosure to which the membrane 14 is anchored. The membrane consists of an essentially elastic material and a dome-like construction 15 is arranged above it, which forms the outer shell or wall of the double-shell building @ and which has been produced with the same membrane 14 as described above. After the outer shell or wall 15 has been formed and the material forming this shell has subsequently set, the membrane 14 has been returned to its original position by opening the tube 16 to the outside by means of valves (not shown). The tube 16, like the tube 6 in FIG. 1, passes under the enclosure and was previously used for the supply of compressed air upter the membrane to form the shell 15. After the shell 15 has been completed, an opening 17 is made in it for access made to the inside of the shell. After the opening 17 has been formed, a second set of elements 18 for a second reinforcement is arranged through this on the membrane 14, which again rests on the foundation.

On the reinforcement, on the previously made shell or wall or anchored to the elements fixed in the enclosure 16, becomes a layer Building material 19 spread out so that those shown with the description of FIG Conditions re-occur. With the following supply of compressed air into the under the closed cavity present in the membrane, the membrane bulges up again and lifts the material on it, creating the inner shell or wall 20 is formed, the maximum height of which by suitable setting of the final value the air pressure is determined.

Fig. 3 of the drawing shows means for anchoring an elastic Membrane 25 on the foundation base of a structure or building. In this representation 21 forms the base plate of the foundation of the structure under construction, while the structure itself is designated by 22. An element or shoulder 23 protrudes from the foundation 21 and the shaping element, through daa the relevant Building 22 is erected, forming membrane is by means of screws 24 on the inside attached to the shoulder.

Figures 4 and 5 show the erection of an arch and an arch, respectively Bridge acting as one of the supporting elements the one with @ the one described above Has device produced arched arches. This vaulted arch, designated 31 is obtained by using a shaping element 32, which consists of an elastic There is a membrane on which a section of sand is delimited by means of edge parts 33 and 34 is. On the section of tape in question, will, in exactly the same way as just now described, a reinforcement and a cement layer spread $ whereupon air pressed into the cavity enclosed by the membrane 32 and thereby the cement-like Material is lifted with subsequent training - after the material has set is -.of the above-mentioned arch for the support of a plate-35, which can form the road surface of the bridge shown (Fig. 5). With regard the vaulted arch shown in Fig. 4 and 5 should be noted that this Arch has a much greater resistance due to its double curvature compared to similar constructions with simple curvature.

Fig. 6 shows three different vault shapes "with the corresponding 41, 42 and 43 are designated and are made with an elastic membrane 40 can if these have been subjected to a final pressure of three different values is.

Similarly, FIG. 7 shows those to be obtained from a membrane 50 Shapes when this membrane with a peripheral or outer part 54 made of elastic Material and a central part 55 made of inelastic and essentially rigid Material is formed. The shapes in question are denoted by 51, 52 and 53, respectively.

8 and 9 show a building 61 with an annular plan, produced using an elastic and continuous membrane 62 which is anchored both at its outer edge 63 and along its inner circumference 64, which is further to the center, to the foundation below. The suitable for elastic loading of such a cover image Neten elements can also Border elements as long as these, as shown in Fig. 10, consist of a metal wire wound in a spiral in the form of a spring. By forming the reinforcement of the building from spirally wound wire, this also exerts a remarkable anchoring effect on the building material layer, so that it is possible to expand or inflate the shaping element to an even greater extent up to an even greater inclination than with the above-described Embodiments is achieved without the building material sliding off the shaping element before it hardens.

It should be noted, however, that by using an elastic Membrane as a shaping element is possible to build buildings that are based on their inwardly facing landing surface have a layer of insulating material.

After the building material has set, the membrane can be partially be brought to collapse that an air gap between it and the inner surface of the building .. remains, and this air gap can then through an opening in the The apex of the building should be filled with synthetic insulation material. In a Other embodiments of the invention will produce results completely analogous to those in FIG just described obtained through the use of fully expandable elements, which can be of an inelastic nature, such as reinforcement or reinforcement elements, if these consist of spirals of the type shown in Figs are enveloped with material of reduced elasticity to an apparent load to create.

Fig. 11 shows a portion of a spiral wire 71 gewunde- NEN with- inelastic grain 72 as it is also used as a structural member for reinforcing or loading Wehrungen. It is also possible to stretch a second membrane, which is also elastic, but with a much lower unit stretching load than that of the membrane forming the shaping element, over the building material mixture on the elastic membrane forming the form element. As a result, a smooth surface is obtained on the material while it is being lifted, together with a slight compression of the material.

Furthermore, in the event that the membrane is difficult to handle, their_Oberfläche be formed in several parts 81 (see Fig. 17), which then means Straps 83 made of elastic material. Miteinadder can be connected, these Tapes are coated with a layer of adhesive and possibly with the on mechanical holding parts attached to the edges of the parts to be joined cooperate. The membrane can also be made from a number of disk-like shapes Elements or sectors, partly elastic and partly inelastic, be formed. - It should also be noted that if the reinforcement is made of spirally wound wire it is possible to achieve that the tension on this is quite strong is when the shaping element has reached the required height, whereby then a great compression of the cement is caused.

Claims (7)

Patent claims 1. @ Device @ for the rapid erection of preferably custom built structures or parts of structures according to the method according to patent ... TPatent application 8 88 384 V / 379) using a shaping element that can be anchored on the edge of a fixed frame. which is shaped in such a way that it at least partially forms a part having a closed surface, and with devices for blowing a gaseous medium into or under the mold, generating element, characterized in that over the surface of the shaping element (5,14,32 , 40,50,62) self-aligning reinforcement or reinforcing elements (7,15, 18,71,72,82) are spread, as well as the shaping element with a cementitious material (8,19) covers that the device at least one comprises elastically expandable means as part of the Formgebungselemsntes that further the compressed air supply means _ (6.16) to the I st age i., the geschlossƒns überflönhentail with air to a point to be filled at which both the load of the cementitious base material resting on the part and the elastic tension inherent in the part are exceeded, and that means for securing the fixed frame (3, 13) to a suitable base are provided which are attached to it fastened components counteracts in such a way that they are able to carry a uniformly distributed apparent load during the erection process with the supply of compressed air, which has a value that is at least comparable to the cement-like material resting on the shaping element, including the aforementioned elastic Voltage added. 2. Device according to claim 1, characterized in that the elastically stretchable Device comprises a series of wire spirals which are anchored to the frame (3,13) are and at least partially as reinforcement or reinforcement elements of the finished structure. 3. Device according to claim 1, characterized in that that the stretchable device is made of the same Formgebun.gselement in Form of a membrane made of elastic material, which after anchoring on the fixed Frame (3, 13) forms a closed surface part that is pressurized swells and lifts the cement-like material (8,19) resting on it. 4. Device according to claim 1, characterized in that the expandable device is wire spirals (71), with which flexible, inelastic elements (72) are connected. 5. Device-after Claim 1, characterized in that the stretchable device is partially made of stretchable material (54) as part of a membrane (50), which is partly made of inelastic Material (55) is partly formed from elastic material. 6. Apparatus according to claim 1, characterized; that the elastic device is at least partially includes elastic membrane and a series of spirally wound wires, the at least some of the reinforcement or rebar for the material-the-to-be-erected Form building or structure. 7. The device according to claim 1, characterized in that the expandable device comprises a number of plastically expandable components in connection with a spiral wound from less elastic materials.