DE595817C - Building made of plastic raw earth with stiffening mortar layers - Google Patents

Description

Building made of plastic raw earth with stiffening mortar layers The invention relates to the construction of buildings from plastic earth under Introduction of mortar deposits. It is already known to construct such structures from raw earth, z. B. made of clay, to be provided with inserted concrete or stone parts as a plaster base should serve. However, the purpose of the invention is to honeycomb the raw earth in to enclose many individual cells and at the same time to form a solid stone framework form. In contrast to the earth mass, the mortar layers harden in z to 3 days to solid stone cells. The raw earth is now subdivided in many ways and dries inside, the stone cells take several weeks to complete, being about the hardness of a soft sandstone. With the rapid hardening of the mortar walls Masonry has already acquired great strength. It now creates a framework a: us many stone cells, inside of which is the plastic earth mass, of all Sides tightly enclosed, is located. During the drying out of the soft raw earth within these cells there is only a very low degree of shrinkage for each cell, which is not able to work on the solid stone structure of the masonry to exert an unfavorable influence. This small amount of shrinkage has an effect on porosity even in a favorable way on the building. With the known construction methods that are in generally referred to as adobe buildings, it is. so far failed that Difficulties which arise especially from the sensitivity to water, the great Shrinkage, settling, striving to change shape, slow drying out and the application of the plaster, etc. to overcome. It is the use known from concrete rods for stiffening the masonry, but these can also do not prevent the occurrence of larger shrinkage cracks. Through the complete enclosure and this will be subdivided into many individual stone cells Main structural dimensions in the static sense subordinate to the stone structure of the cell framework, thereby overcoming all difficulties. Regardless of dehydration the raw earth can be built in the same way as the brick buildings can be made turnkey in the shortest possible time.

Some examples are shown in section in the drawing.

Figs. R and a show the cell structure of a simple unicellular Wall. a represents the cell framework of the stone mortar, inside of which b, the raw earth is located. When both building materials harden, the plastic Raw earth mass from the much faster and significantly stronger hardening stone mortar a conquered in its arbitrary striving to change shape and the stone framework that is forming subordinate. It follows from the fact that this mortar framework is kept in a strength must be that it counteracts the harmful effects of the soft Raw earth mass overcomes in time during its own rapid hardening. Corresponds to the cell content about the size of a normal brick, so the mortar deposits also correspond the mortar layers of a normal brick bay. As can be seen from Fig. R, In the case of a single-cell wall, the mortar layer on the outer surface is useful a of the cell structure held a little stronger. This outer wall a represents besides her static task at the same time represents the exterior plaster, which makes it special No work sequence.

Fig.3 shows a double cell wall, which with larger. Buildings must withstand stronger pressures. The cell arrangements can be made in any desired Expand at will.

The roof (Fig. Q.) Corresponds to an ordinary thin wall that has been tilted. The wire mesh c is stretched over the rafters d. The stone framework a and the raw earth mass b rest on the rafters and the wire mesh. Settlement and deformation efforts as with a vertical wall are practically non-existent and do not need to be taken into account. After completion, the roof is covered with cement in the desired color. This roof has great strength. It vibrates and sounds and can be stepped on like concrete roofs. If other types of roof, such as tiled roofs, slate roofs, etc., are to be imitated, the surface of the roof must be provided with appropriate impressions and hardened or secured with a layer of mortar in the desired color without hardening.

Fig. 5 shows a tubular or domed roof. After the mortar framework has hardened a, the roof supports d can be removed.

The construction of the building can be done in a wide variety of ways be done both by craftsmanship and with the help of machines. Below a method of execution is given: With the help of a brick press or with hand molds blanks are made from the raw earth. The walling up of these brutes takes place in the same way as the laying up of fired stones in a brick building. It should be noted, however, that the mortar does not have a firm bond with the blank, as is the case with fired stone. It is not necessary, that the blank has dried out. Additions of any kind are also possible not necessary, since the raw earth is a finished building material in its kind. The masonry is best done while the blanks are still in a clay mold and are sufficiently moist. The latter is particularly important because of the liability of the Mortar takes place well on moist blanks and then adheres until it hardens of the mortar is sufficient. Applying the mortar to the external surfaces of the walls expediently takes place on the day after the masonry has been put in place, so that the mortar has reached the meanwhile horizontal ribs of the mortar framework that have become hard find the necessary support. The kneading shape of the blanks enables decorations, Body shapes, etc. can be pressed in, which then also with mortar inlays be provided. After the mortar has hardened, the blanks are in the resulting Stone cells and the cell framework are enclosed and slowly dry out in them. Due to the stone cell structure, the masonry has sufficient strength, which means the building without waiting for the raw earth to dry out, like any other brick building is completed in a short time.

Claims (3)

PATENT CLAIMS: e.g. Building made of plastic earth mass with stiffening Mortar inserts, characterized in that in the walls formed from Erdrolimasse and also in the roof a honeycomb-like stiffening framework made of rapidly hardening Mortar is inserted. 2. Building according to claim x, characterized in that the outer edges of the stiffening framework serve as a plaster base. 3rd building after according to claim r, characterized in that the structure of the walls was made in stone shapes pressed earth mass, so-called blanks, takes place.