DE222787C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 222787 CLASS 37 «. GROUP

A. KNAPEN in BRUSSELS.

Addendum to patent 210571 of September 22, 1905.

Patented in the German Empire on January 1, 1909. Longest duration: September 21, 1920.

The subject of the present invention is a method and a stone to at Walls made of large building blocks, the device protected by patent 210571 for Manufacture drying the wall. So that the usual pressure-resistant large stones in regular Dressings can be used without the channels provided there, the in Moisture present in the wall first after the meeting point of as many as possible, z. B. each three large stones sucked and only from there through the already protected air lift device be discharged to the outside. To increase the desired suction effect one uses the phenomenon, that pointed or angular porous bodies absorb the moisture present in their surroundings draw in by capillarity.

Special small porous stones, especially those, are used to carry out the process in the shape of a three-sided prism with an inner channel. From the well-known triangular prismatic hollow stones, such as those used for the production of light ceilings, These stones differ mainly in their porosity and their small size and wall thickness. They have, for example, only 75 to 85 mm side length and 26 to 36 mm duct diameter. Opposite the walls in which during manufacture Porous blocks of block size are inserted with an air lift device, lies the Advantage before that the strength and the association of the wall is less impaired, and that you can get by with fewer air lift stones with the same effect.

In the accompanying drawing, Fig. 1 shows a diagrammatic view of a stone 1 of triangular cross-section serving to dehumidify the walls, the longitudinal edges of which are somewhat blunted to avoid damage during transport and installation. The desired suction effect is not impaired. Inside this stone runs from 2 to 2 ¹ a longitudinal channel inclined in such a way that it comes close to one side surface with one end 2 and the opposite outer edge ^{with its other end 2 1.} This stone is expediently placed between three stones 3 (FIG. 2) lying in a regular association so that each large building stone is in contact with at least one stone. This can be done e.g. B. achieve that the stones 1 ^{are accommodated at the points i 1} , i ² , i ³ , 1 *, ie offset in each bed joint behind every second large stone and in two superimposed bed joints. When installing, make sure that the longitudinal channel 2, 2 ¹ rises from the outside to the inside and is closed at the inner end.

The stone x ^a shown diagrammatically in Fig. A differs from the one already described only in that the longitudinal channel 2 ² , 2 ^{3 runs} parallel to the longitudinal edges. So that inclined air ducts are still created in the finished wall, this must be. Stone can be walled in at an incline. This stone can be rotated as required around the longitudinal axis of its canal during the walling,

ίο why it can be used with advantage when large building blocks 4 according to FIG. 3 are bricked up in irregular associations (see i ⁵ , i ⁶ , i ⁷ , i ⁸ ). .

Fig. 4 shows, for example, how the stones described can be produced. From the plastic material used, a trapezoidal strand (cf. outline 6-7-8-9) is first produced and this strand is then divided into prismatic strands 5, 5 ¹ , 5 ² with tensioned wires. The inclined longitudinal channels 10, io ¹ , io ² are produced in a known manner.

FIGS. 5 and 6, for example, show a roast-like structure in the diagram and longitudinal section Recognize completion 11 for the stones. The closing body 11 acts with its longitudinal edges also as a liquid aspirator, with its rust-like openings it should be the Regulate the draft in the inclined duct. While according to FIGS. 5 and 6, the closure body is placed on the stone 1 in the manner of a capsule, the closure body 12 is after 7 is inserted into the stone 1 with a flange-like ring attachment.

Fig. 8 shows schematically how the sucked moisture in the cross section of each Intermediate stone distributed. Most of the moisture accumulates along the edges. Rings The amount of moisture sucked in is distributed around the air lifter 2 in order to move from here into the Free to be promoted.

A mixture of sand, clay and coke or sawdust can be used to produce the stones 1 to serve. By changing the mixing ratio, you can determine the porosity of these stones and thus their ability to absorb change according to the respective requirements. '

The closing bodies 11 and 12 are expedient arranged so that their outer surface intersects with the face of the wall.

Claims (2)

Patent Claims: 1. Process for the production of walls using porous, the wall bond adapted stones with the device for "drying according to the patent 210571, characterized in that at the junction of several bricks into the somewhat widened mortar joint with the sides converging at an acute angle surfaces and a longitudinal channel provided stones of small cross-section with inclined The longitudinal channel should be inserted horizontally, with the central longitudinal channel inclined. 2. Stone with a longitudinal channel for performing the method according to claim 1, characterized by outer surfaces converging at an acute angle and by the fact that the side length is about 75 to 85 mm and the duct diameter is 26 to 36 mm. 1 sheet of drawings.