DE820499C - Method and device for the production of structures - Google Patents

Description

Method and device for the production of structures The invention relates to a method and devices for the production of structures and aims not only reduce the cost of building residential and industrial buildings, but also in the countries devastated by the war not in sufficient quantities Dimensions of available building materials, such as wood and metal, to be largely saved.

In order to meet the great demand for living space, industrial ones are already in place Proposed construction methods such. B. Houses made of steel or light metal plates or made of lightweight panels bound to wood. The application of these construction methods on a large scale Scope is not possible, however, as the material required for this is at least in is not available to the countries impoverished by the war. Despite the commitment of construction machinery, the construction industry is still too strong on the handicraft side aligned so that the existing housing shortage with the previous building methods cannot be eliminated in the near future. It is therefore required, not just after to look for new building materials, but also to make the previous construction method more economical to design.

The invention now shows a way in which this goal can be achieved. Based on the knowledge that certain branches of industry, such as the automotive industry, the device and mechanical engineering achieves its successes in mass production have that the individual components are manufactured in accordance with the instructions and are interchangeable, so that any time-consuming fitting work is eliminated during assembly, uses the present one Invention also precisely dimensionally stable components.

The most important component in construction is known to be the brick. As a result its current inaccuracy it must be laid in mortar, because the mortar primarily has the task of compensating for the inaccuracies. Attempts to achieve a dry construction method have so far been unsatisfactory stayed because the inaccuracy of the bricks was too great. If you have the construction industry want to make it more economical, one must exactly follow the procedure of the industry, make the components interchangeable, so that inaccuracies do not arise on the building have to be compensated by labor and material expenditure.

The inaccuracy of common bricks is due to the different Shrinkage of the individual loams and clays. The shrinkage of the various loams and Tone can easily be determined through experiments and can therefore be used during manufacture must be taken into account. The greatest inaccuracies, however, are a result of what has been done so far usual type of manufacture. The bricks are made by the extrusion press. The strand of clay is pressed through the shaped piece by the screw and then with it Using wire cut into pieces. The screw has different peripheral speeds, which are much larger on the outside diameter than in the middle of the screw, see above that the clay with different cross-sectional speeds through the molding is pressed. These different cross-sectional speeds result different pressures: the clay is superimposed in different layers in the strand, which give the brick a shell structure. This shell structure is the reason the stones warp while burning. 'You need to warp, because the heat creates a balance of tension between the different Shifts takes place. Another reason for the inaccuracy of the stones is that Cut the stones from the strand by the cutting wire, which is never a smooth one Cut surface can arise because the wire drives particles in front of it and so the Roughening surfaces.

As the invention shows, however, dimensionally stable stones can be used manufacture without substantial increase in price, so that the construction method described below is feasible with economic benefit having the following advantages. at Using the building method saves wages and scarce building materials. That Building to be erected can be done in the way of self-help with unskilled workers and relate immediately after its completion, since the drying time no longer applies. The building can also be erected during the frost period.

According to the invention, the advantages mentioned are achieved by that the building to be erected from mortar-free, precisely dimensionally accurate grooved and ribbed stones in connection with concrete moldings, the same are grooved and ribbed according to the building blocks and as door and window frames as well as being used as ceiling beams. According to a further feature of the invention the roof is also made from grooved and ribbed blocks and as a self-supporting one Barrel roof formed, with the production of the roof with the help of a mobile, Disassemblable teaching is done. Half and Whole stones are used, which are laid in a cross bond and correspond to the shape of the roof Represent ring segments. The dimensions of the roof tiles can expediently be selected in this way that they are kept much thinner than that of normal bricks and reduce the weight of the roof. For better thermal insulation of the building it is possible to form the barrel roof with two shells, so that between the two There is an air gap between roofs laid one on top of the other and Stones can be divided. Through the use of pressed glass blocks in the walls and windows can easily be formed in the roof, although this must of course be taken into account is that the pressed glass blocks are grooved and ribbed in the same way as the construction and Roof tiles are. Exactly dimensionally stable building blocks can be created with the appropriate Manufacture manufacturing instructions in a wide variety of ways. It can therefore both Fired as well as unfired stones are used.

The invention is described in more detail below with reference to the drawings: Fig. I shows the building block for the side walls; Fig. 2 shows the laying of the stones in the cross bandage; Fig. 3 is a perspective view of the completed house; Fig. d and 5 illustrate the manufacture of the barrel roof with the aid of a gauge; 6 shows a perspective view of the roof tile for the barrel roof; Fig.7 is the view of another embodiment of the roof tile for roofs with little Weight and two-shell formation of the barrel roof; Fig. 8 shows schematically the arrangement of industrial halls, where the skylights are in the barrel roof are formed from inserted pressed glass blocks; 9 schematically represents the previous one Hall construction with a shed roof; Fig. 10 shows a form of gauge for self-manufacture of clay blocks; Fig. I i illustrates the tamping of the clay in the closed Form of Fig. Io; Fig. 12 shows a rent for the production of clay blocks; 13 shows the installation of the ceiling beams made of molded concrete parts; Fig. 1: f illustrates the grooving of the ceiling beam for the use of the roof tiles and the ribbing for use in the grooves of the building blocks for the walls; Fig. 15 shows another Concrete molding that is used as a door and window frame. The building block according to Fig. i is produced in the dimensions of normal bricks and is provided on one broad side with longitudinal grooves i and the transverse grooves 2, which on the other hand, the corresponding longitudinal ribs 3 and transverse ribs .4 correspond. The position of the grooves and ribs is chosen so that the longitudinal groove and longitudinal rib runs exactly in the symmetry axis of the stones, while the transverse grooves and transverse ribs are arranged at a distance from each other that is exactly half the length of the stone corresponds, so that their distance from the transverse edges of the stone a quarter of the stone length amounts to. With this arrangement of the grooves and ribs, the stones, as shown in Fig. 2 shows, laid in the bandage and surrendered because their surfaces are completely smooth and the Stones are precisely dimensioned, a solid wall structure that is anchored in itself. the Only fine hairline cracks form the joints between the individual stones Do not allow air to pass through. Through a thin layer of external plaster that can be made from aesthetic Reasons will be attached or by painting the fine hairline cracks locked in the wall structure, so that there is no risk of the in this way manufactured walls do not provide the necessary protection against the rigors of the weather form. To meet the requirement for accuracy in the dimensions of grooves and ribs not having to drive too far, certain tolerances are required, if necessary when laying the stones by painting the grooves with a thin clay or Lime broth could be balanced. The making of the stones requires a precise observation of the shrinkage that results during manufacture and of the Depend on choice of raw materials. If the stones are made of baked clay, so, as already mentioned at the beginning, the stones must be placed in the usual way on the Brick extrusion press and the blank obtained in this way in one corresponding shape can be re-pressed under an eccentric press. The stone will then placed with its groove side on a smooth surface to dry and then Fired in the usual way after pre-drying in a brick kiln.

Stones can also be precisely measured using the usual cold process manufacture, which on a molding machine from fine brick split in connection with a suitable binders are produced. Those working according to the vibration process Forming machines produce stones with a perfectly smooth surface if the grain size of the brick split accordingly fine and a suitable cement selected as a binding agent is. For the construction with dimensionally stable stones it is also conceivable to use unfired earth stones to use, which are produced with the help of the teaching shown in Fig. io, i i. Here, of course, the teaching is precise for the raw material used in each case adapt, since in such a case mostly clay should be used, the is located near the construction site. Before the building is erected, the Check the required amount of clay carefully beforehand and store it in a long-term rental because the mud bricks are made by self-production only in the dry season of the year can be. A barrel roof can also be used for the clay rent Shaped blocks with the teaching to be explained in more detail with reference to FIGS. 4 and 5 are used The barrel roof for the clay rent is expediently designed with two shells can be to have a safe protection against freezing out of the clay 7, u.

The manufacture of the barrel roof for the one shown in Fig. 3 or 8 House takes place with a mobile, dismantlable gauge made of light metal and can be easily recognized from the illustration in FIGS. 4 and 5. The semicircular Formwork sheet consists of the two halves 5 and 6, which at the point 7 with a certain Abut distance and held by the articulated levers 8 in the position shown will. After placing the roof tiles on the gauge sheet 5, 6, the levers 8 pivoted by hand, so that the cladding plates 5, 6 from the out of the stones Loosen the vault formed and the mobile set up teaching frame that with the Operator 9 is combined, easily from the already completed vault part can drive out. The roof tiles to be laid have the ones shown in Fig. 6 Shape and are also provided with corresponding grooves and transverse ribs, whereby In contrast to the building blocks, the long sides are also grooved and ribbed. There the stones represent segment pieces of the vault, run the grooves io and the Ribs i i of the side surfaces of the stones centrically, the distance between the grooves and Ribs to the arched edges of the stone turn a quarter of the arch length is, as the distance between the grooves 2 and transverse ribs 4 in the blocks according to Fig. i. The roof tiles can therefore also be laid in a cross bond if they are in the Be offset lengthways of the vault. In order to be able to move between two ring parts of the It is only necessary to start with the vault to enable the stones to be moved of the one ring part with a half stone, which in turn with a corresponding Halestone ends. In order to achieve a lighter design of the roof, can a shell shape of the roof tile can also be selected as shown in FIG. ,Even by using half stones, the necessary displacement of the Reaching stones to each other. With a roof made of stones according to the embodiment 7, the roof can be formed from two barrel vaults arranged one above the other and the air space created between the two vaults by inlaid stones subdivide at certain intervals. Such an embodiment is based on the Fig. 12 explains for the clay rent. The roof is used to seal the roof with covered with a thin bitumen or concrete layer.

The barrel roof, which is self-supporting made of molded bricks, is for industrial use Hall structures, as indicated in Fig. 8, are quite suitable when in the roof the corresponding pressed glass blocks are also used will, which form the skylights labeled 12. Such a hall construction without wood or The iron structure for the roof has a shed structure compared to the one shown in FIG not only the advantage of saving valuable building materials such as iron or wood, but also better visibility within the roof space, as there are no shadows can be thrown through the beams of the roof structure.

To absorb the shear stresses of the barrel roof, like the FIG. 13 shows concrete beams 16 used with those illustrated in FIG. 14 Grooves 13 and ribs 14 are provided. The iron reinforcement of this concrete beam is denoted by 15 in FIG. 14. The concrete beam 16 is at its ends at the same time equipped with a support 17 for inserting the eaves, so that no additional clamps are required for attaching the gutters. The door and Window frames are formed at the same time from concrete moldings 18 with corresponding Grooves and ribs are provided, the arrangement of which is of course the grooves and ribs of the Modules must be adapted.

Claims (9)

PATENT CLAIM: i. Process and apparatus for the production of Structures, characterized in that the structure to be erected is made without mortar to be laid, precisely dimensioned grooved and ribbed building blocks in connection is made with concrete moldings, which also correspond to the building blocks are grooved and ribbed and used as door and window frames as well as ceiling supports Application. 2. The method and devices according to claim i, characterized in that that the roof is also made of grooved and ribbed blocks and as a barrel roof is formed, the production using a mobile, disassemblable Teaching takes place. 3. The method and devices according to claims i and 2, characterized characterized in that the grooves and ribs of the stones are arranged so that the Stones can be put together in association. 4. Procedures and devices according to claims c to 3, characterized in that the grooves of the building blocks are kept slightly larger than the corresponding ribs and before assembly c: @r building blocks are coated with a thin clay or lime broth. 5. Procedure and devices according to claims i to 4, characterized in that for formation of the barrel roof, whole and half stones are used, which are laid in a bond and represent ring segments according to the shape of the roof. 6. Procedures and devices according to claims i to 5, characterized in that the building blocks on the brick extrusion press pre-pressed and in a further operation with the help of a suitable form in an eccentric press, can be pressed to the exact size. 7. Procedures and Devices according to claims i to 6, characterized in that for the formation of windows in the roof and the walls some of the building blocks by means of corresponding pressed glass blocks with the same training. B. Method and devices according to the claims i to 7, characterized in that the used for the production of the roof space Molded concrete parts that serve as ceiling beams, at their ends the building blocks to be used are grooved accordingly, protrude slightly beyond the outer wall and with a shell-like Approach are provided in which the gutter can be inserted. 9. Procedure and Devices according to Claims i to 8, characterized in that the structure is partly made of unfired clay blocks that are made at the construction site can be made using a collapsible mold.