DE404314C - Process for straightening buildings that have moved out of position under the effect of subsidence - Google Patents

Description

Method of straightening under the action of subsidence buildings guessed at their location. The main patent has a building security against mountain damage to the object in which the rising is kept separate from the foundation masonry and through reinforcement 9 to a unit that is resistant to the forces of destruction combined body is formed, with movement between the two Building parts is made possible by the intermediate storage of rolling elements. Such Furnished buildings can also be designed in such a way that the Ground movements not only remain unharmed, but also straightening of the building is possible. This is done according to the invention in that the basement masonry Dissolved into individual pillars and placed on the foundation masonry without a bond is. The individual pillars can then be grasped and lifted by hoists, to insert intermediate layers, -when there is a lift or intermediate layers are to be removed, if a lowering is necessary. These intermediate layers can consist of loose plates. The pillars are appropriately provided with holes leading through their center; through this will pushed a yoke, at both ends of which the hoists engage.

The pillars can also be made through a special design of the stilts the rolling bearing consisting of special rolling elements (rollers or balls) is dispensable do. The rising is then separated from the foundation masonry by the pillars themselves. Will but can keep the roller bearing in its old form the lower parts of the pillars are designed as bells over the rolling bearings and prevent the entry of water due to the exclusion of air.

It is not new to break up the basement masonry into pillars. It is also known to grasp building pillars with lifting equipment and (read building in this way to raise or lower, but only in the sense that the whole Building is to be raised or lowered in its closed form. In contrast the invention concerns a different one for each of the pillars To make the amount of movement possible so that the rising building is aligned, that it is wholly or partly returned to its original position in the event of subsidence will.

For this purpose it is advantageous to design the pillars in advance to be set up so that they can be grasped by hoists, like that, however for iron pillars to compensate for subsidence has already been practiced. Also appears it is advisable to use the stilts known per se for bridge construction instead of the after to use the ball or roller bearings provided for in the main patent.

In the drawing: Fig. I shows one resting on a roller bearing Basement pillars, Fig. 2, 3, d., And 5 the design of the pillar as a spherical stilt, Fig. 6 the same when using watertight masonry for the basement.

According to Fig. I, a roller bearing b is arranged on the foundation foot a; on this rests the base c, which carries the pillar d. Between pillar d and base c, two dry-laid panels e and f are inserted, which after raising or lowering of the pillar d can be removed or increased to erect the building. The lifting takes place in that a yoke h (Fig. 3) is inserted into the opening g is, under both ends of which the hydraulic presses are placed «-erden.

In Figs. 2 and 6 the pillars are in their middle part as stilts formed with spherical end faces. The diameter of the curvature of the end faces is equal to the length of the stilt. The stilts can tilt to a certain extent. The ball stilt replaces the roller bearing according to the main patent and is suitable according to it their simple installation and their low cost, especially for small and medium-sized Houses. It consists expediently of reinforced concrete with cast iron spherical caps, which with Reinforced concrete are poured under. Each spherical cap runs on a wrought iron plate, which is also embedded in reinforced concrete. The surrounding wall of the cellar suffers -No destruction due to the stilt arrangement, as it is not clamped and can participate in all movements of foundation.

In Fig. 6 a combination of the two rolling bearings is shown. the Ball stilt d and roller bearing b jointly take the lateral shifts of the building: You can create crack-proof basements with this facility, what is particularly important for buildings standing in the groundwater. The basement floor k is made of reinforced concrete and is sealed with asphalt. This also applies to the rolling bearing b is protected from the water, the base c is bell-shaped. The bell is open at the bottom and accommodates the roller bearing; it also remains when it rises Water level filled with air. The rolling bearings are embedded in grease.

Claims (1)

PATE NT RESPONSIBILITIES: i. Method for straightening buildings which have moved out of their position under the effect of subsidence according to Patent 3758 "- characterized in that the pillars which form the basement masonry and are manufactured without a fixed bond with the foundation are individually grasped by lifting devices arranged in pairs and raised or lowered Method according to claim i, characterized in that the pier (d) yokes (la) are inserted into openings (g) of the pillars (la) on which the hoists engage Pillars are designed as stilts over their entire length or part of their length, which roll with their curved end faces on the supporting surfaces of the masonry and whose diameter of curvature is equal to the length of the stilt. D .. building for carrying out the method according to claim i, characterized in that the upper bearing body of the roller bearing (b) forming part of the basic masonry as G lock is formed, which covers the rolling bearing.