EP3901374A1 - Method and assembly for monitoring the foundation of a structure - Google Patents

Abstract

The invention relates to a method and an arrangement for monitoring a building foundation in a soil for a building, wherein soil parameters are determined for the soil, based on the determined soil parameters by means of a computer unit, a previous soil model is calculated on which a formation of the building foundation taking into account Specification data of the structure to be constructed is designed, during and / or after the creation of the building foundation by means of measuring devices, measured values for settlement, deformation and / or forces on the building foundation or the building are recorded, the measured values are fed to the computer unit, which checks whether the measured values are in accordance with the previous soil model, and if the measured values are not in accordance with the previous soil model, a subsequent soil model is calculated by the computer unit, in which the measured values are in accordance with the new soil model.

Description

The invention relates to a method for monitoring a building foundation in a soil for a building, according to claim 1.

The invention further relates to an arrangement for monitoring a building foundation in a soil for a building according to claim 11.

In order to monitor building foundations, it is basically known to provide various sensors in the foundation of a building or on it, by means of which the condition of the building's foundations can be monitored. With such sensors, deformations, cracks, settlements or forces in the building foundation can be measured. It is also known to feed the measurement data to a control center which compares the measured values with stored limit values in order to determine at an early stage if excessive or impermissible changes occur in the foundation of the building. This allows, for example, the possibility of carrying out renovation measures on the foundation of the structure or the structure at an early stage in order to avoid major damage.

Such a system of building monitoring in connection with a bridge is for example in the US 8,990,027 B2 or the corresponding one EP 2 391 776 B1 described.

For the determination of the load-bearing capacity of a building foundation, the soil conditions of the soil in which the building foundation is to be created are of decisive importance. The foundation of the building must be designed depending on the load-bearing capacity of the soil. One is possible, especially for larger structures Realistic determination of the soil conditions of decisive importance. A building foundation on soft or sandy soils must be interpreted considerably differently than on rocky soils. However, the soil conditions are unclear at many construction sites, as the soil is made up of different layers with varying layer thicknesses or there are different soil areas with rock, gravel, sand, loam and cavities.

When constructing larger structures, it is therefore common to carry out test bores in several places on a construction site in order to gain more detailed knowledge of the exact structure of the floor. Based on the individual test drillings, a soil model is then calculated, which is used as the basis for the design of the building foundation with precautionary safety margins. In particular on construction sites with a non-homogeneous soil, the soil model determined in this way can sometimes differ greatly from the actual soil conditions. In such a case, increased safety margins are generally to be provided for the foundation design, which, however, can lead to significantly increased costs, e.g. by increasing the number and / or size of foundation piles, anchors, reinforcing iron and increased masses of concrete.

In addition, there is a problem that, despite corresponding safety margins, in the event of unexpectedly large deviations between the soil model and the actual soil conditions, damage to the structure can occur in the long term and the service life of a structure can also be shortened.

The invention is based on the object of specifying a method and an arrangement with which a particularly reliable monitoring of the condition of a building foundation is made possible.

The object is achieved on the one hand by a method with the features of claim 1 and on the other hand by an arrangement with the features of claim 11. Preferred embodiments of the invention are given in the dependent claims.

According to the invention, a method for monitoring a building foundation in the ground for a building is provided, wherein soil parameters for the soil are determined based on the determined soil parameters by means of a computer unit a preceding soil model is calculated, on which the formation of the building foundation is laid out, taking into account the default data of the building to be erected, during and / or after the creation of the building foundation by means of measuring devices, measured values for settlement, deformation and / or forces on the building foundation or the building are recorded the measured values are fed to the computer unit, which checks whether the measured values are in accordance with the previous soil model, and, if the measured values are not in accordance with the previous soil model, a subsequent soil model is calculated by the computer unit, in which the measured values are be in line with the new floor model.

The invention is not limited - as is the case with the classic monitoring methods - to the acquisition of measurement data on a building foundation with a building and a comparison of the measurement data with limit values as to whether a building foundation or a building is still behaving in the expected and permissible manner or changes occur, which make the initiation of security measures necessary.

The method according to the invention goes significantly beyond previously known methods in terms of monitoring. The method according to the invention checks whether the measured values of the sensors on the building foundation or the building are in accordance with the soil model on which the design of the building foundation was based. If these measured values are in the expected value range, which has been determined on the basis of the preceding soil model, a correct condition of the structure is determined. If individual or several measured values at the building foundation or the building show unexpected or excessive deviations, even if the individual values should not be critical or problematic for the building, a new subsequent soil model can be calculated according to the method according to the invention, in which the current The measured values are in accordance with the calculated values or are within the expected value range. Based on this new subsequent soil model, a back calculation or repeated calculation of the building foundation can then be carried out and it can be checked whether this still corresponds to the specification data for the building.

In the method according to the invention, measured values at the foundation of the building or a building are used in order to determine a refined soil model. This refined and thus more realistic soil model can then be used to check the extent to which the building foundation meets the requirements.

It can thus be seen as a basic idea of the invention to use measurement data on a building foundation and possibly a building in order to draw conclusions about the soil condition and to refine an original or previous soil model and align it closer to reality.

According to a further development of the invention, it is particularly advantageous that the preceding soil model is compared with the following soil model to determine the extent to which specified data for the foundation have been achieved. In particular, structural measures can then be determined or proposed by the computer unit in order to achieve or ensure that the specified data or requirements are achieved in the new soil model.

It is particularly expedient that the default data include a load-bearing capacity and / or service life of the building foundation or the building. In particular, the load-bearing capacity of a building foundation is a decisive requirement that must be complied with when erecting a building on the building foundation. Particularly in the case of dams, which are also often provided with enclosing walls in the ground, the service life of both the dam and the enclosing walls in the ground, which in the context of the invention are also to be regarded as a building foundation, is a decisive default factor. Particularly in the case of such structures or construction projects, more precise knowledge of the soil can lead to considerable extensions or shortening of the service life. In the case of dams in particular, reliable information on the expected service life can have an impact on the type and number of maintenance and / or renovation measures as well as the premium level for building insurance.

In principle, the soil parameters for determining the first soil model can be determined in any suitable manner, for example using empirical values the area in which the building site is located or based on findings from other comparable building projects in the area. According to a variant embodiment of the invention, it is particularly advantageous that the soil parameters are determined by soil examinations, in particular test bores. In particular, core drillings can be carried out, with the structure of the soil being able to be determined on the basis of the drill cores obtained. In addition, boreholes with probes or soundings can be carried out from the soil surface in order to determine soil parameters.

It is also particularly expedient that the soil parameters include the type, structure and size of soil layers as well as a soil load-bearing capacity. This can also include recording a rock horizon in the ground. In this way, a particularly good and realistic determination can be achieved for the first soil model to be calculated.

Any type of suitable measuring device can be used to record changes to the foundation of the structure or the structure. According to a further development of the invention, it is particularly expedient that sensors, in particular strain gauges and / or load cells, are attached to or in the building foundation and / or the building as measuring devices. These sensors can record measurement data from the time of installation and over a long period of several years or decades, which allow reliable conclusions to be drawn about the condition of the building foundation or the structure.

Depending on the installation situation, the measuring devices can be connected to the computer unit or a transmission unit by wire. A particularly flexible arrangement according to an embodiment of the invention consists in the fact that the measuring devices are connected to the computer unit in a wireless manner. The measuring devices can thus be queried continuously or at predetermined time intervals by a central computer unit or a mobile computer unit. It can be particularly expedient here for the measuring devices to be completely or largely self-sufficient in terms of energy, for example with a lifetime battery. Furthermore, it can be advantageous that the measuring devices are provided with a transponder which responds to an incoming signal which at the same time transmits the necessary energy, carries out a measurement and / or sends measurement data to the computer unit via a transmission unit.

A particularly reliable monitoring of a building or a building foundation is achieved in that the method is carried out repeatedly, in particular at regular time intervals. If measured values are obtained that show no changes or changes to be expected based on the preceding soil model, no further calculations are required, since the structure or the structure foundation are in a proper condition. However, if the transmitted measured values result in changes outside a permissible framework, the computer unit checks whether and to what extent the preceding soil model needs to be refined or corrected. This then results in a subsequent soil model, on the basis of which the design of the structure is checked again and it is calculated to what extent all relevant default data are adhered to, also taking into account the new soil model.

In principle, the method according to the invention can be used in such a way that the following soil models are only carried out after the foundation of the structure or the structure as a whole has been completed. According to a further development of the invention, however, it can be particularly economical that, when the measured values are recorded, the following soil model is taken into account for the design of the building foundation in subsequent construction sections while the building foundation is being created. In particular in the case of larger structures that are created in individual construction sections, findings and measurement results can already be processed for a first completed construction section with the method according to the invention, as to whether and to what extent the previous underlying soil model has been determined in accordance with reality. In this way, if necessary, refined soil models can be taken into account when considering subsequent construction phases, for example for the design of foundation piles, retaining walls, anchoring, etc.

An improvement in building safety is achieved, in particular, in that the computer unit issues a warning if the default data for the building foundation are no longer achieved in the subsequent soil model. In such a case, remedial or security measures can be taken to ensure the safety of the structure and, if necessary, of users. For example, if necessary, additional foundation piles or stiffeners can be introduced. The structure could also be relieved through relief measures, so that the risk of overstressing is counteracted.

The invention further relates to an arrangement for monitoring a building foundation in a soil for a building with a computer unit, by means of which a previous soil model can be determined based on certain soil parameters, based on which a design of the building foundation is carried out taking into account specified data, and measuring devices on the building foundation or the building, the measuring devices registering settlements, deformations and / or forces on the foundation of the building or the building, the computer unit being in data connection with the measuring devices for the transmission of measurement data and the computer unit being able to check whether the measured values are consistent with the first Soil model, and a subsequent soil model can be calculated by the computer unit, in which the measured values are in agreement with the subsequent soil model if the measured values are not in agreement with the preceding soil model.

With this arrangement, in particular, the method according to the invention described above can be carried out. The advantages set out above can be achieved in this case.

Fig. 1

ein erstes schematisches Ablaufdiagramm zu dem erfindungsgemäßen Verfahren; und

Fig. 2

ein weiteres schematische Ablaufdiagramm zu einer Weiterbildung zu dem erfindungsgemäßen Verfahren.

The invention is explained further below with the aid of flow charts for preferred exemplary embodiments. In the drawings show:

Fig. 1

a first schematic flow diagram for the method according to the invention; and

Fig. 2

a further schematic flow chart for a further development of the method according to the invention.

In Fig. 1 the determination of the soil model, which is referred to here as the calculation model, is further clarified. Based on given soil parameters, which is a stiffness modulus or a specific weight of the soil and soil shear parameters as well as loads from the environment and geometric conditions, such as the thickness of soil layers, a first soil model is calculated.

Furthermore, measured data or measured values, for example on deformations, settlements, anchor and lateral forces, can be recorded by appropriate sensor devices on the building foundation and the structure, which can also include the construction site and the subsoil. According to the method according to the invention, these measured data or measured values, which are specified as d0, are compared with the expected measured values d, which theoretically result from the calculation model. If there is a difference between the theoretically determined nominal values d and the actually measured measured values d0 within a tolerance eps, the input soil parameters are confirmed. In this case, the soil or calculation model is not recalculated.

However, if the difference value between the nominal values and the actual values exceeds the specified tolerance range eps, optimization algorithms are carried out by a computer unit, in which the previously assumed soil parameters are changed until a subsequent soil model or calculation model based on changed soil parameters m _{i is} created, which reflects the actual conditions reproduce the floor more realistically.

The new soil model or calculation model determined in this way can then according to Fig. 2 can be used for a back calculation or recalculation of the design of the building foundation or the building. First of all, the original design variables relating to the layout, which can be the installation depth, number, length and position of the anchors, the diameter and spacing of a pile wall and the thickness of a diaphragm wall, for example for securing the excavation, are checked again and recalculated on the basis of the new calculation model.

In this case, the computer unit can be used to minimize settlement and cutting forces in the wall, floor slab and foundation elements and the total costs, as well as maximize structural safety, for example. Based on these specifications, the computer unit can use multi-criteria optimization algorithms Calculate for further construction phases, for example, whether design variables can or must be changed under the given criteria. In this way, for example, a material-optimized, cost-effective and / or particularly safe structural design can be achieved.

Claims (11)

Method for monitoring a building foundation in a soil for a building, wherein - soil parameters are determined for the soil, - based on the determined soil parameters by means of a computer unit, a preceding soil model is calculated on which the formation of the building foundation is designed taking into account the default data of the building to be built, - During and / or after the creation of the building foundation, measured values on settlement, deformation and / or forces on the building foundation or the building are recorded, - The measured values are fed to the computer unit, which checks whether the measured values are in accordance with the preceding soil model, and - If the measured values are not in accordance with the previous soil model, a subsequent soil model is calculated by the computer unit, in which the measured values are in accordance with the new soil model. Method according to claim 1,
characterized,
that the previous soil model is compared with the following soil model to determine the extent to which the specified foundation data have been achieved. Method according to claim 1 or 2,
characterized,
that the specification data include a load-bearing capacity and / or service life of the building foundation or the structure. Method according to one of Claims 1 to 3,
characterized,
that the soil parameters are determined by soil examinations, in particular test boreholes. Method according to one of Claims 1 to 4,
characterized,
that the soil parameters include the type, structure and size of soil layers as well as a soil load-bearing capacity. Method according to one of Claims 1 to 5,
characterized,
that sensors, in particular strain gauges and / or load cells, are attached to or in the building foundation and / or the building as measuring devices. Method according to one of Claims 1 to 6,
characterized,
that the measuring devices are wirelessly connected to the computer unit. Method according to one of Claims 1 to 7,
characterized,
that the method is carried out repeatedly, in particular at regular time intervals. Method according to one of Claims 1 to 8,
characterized,
that when the measured values are recorded, the following soil model is taken into account when creating the foundation for the design of the foundation in subsequent construction phases. Method according to one of Claims 2 to 9,
characterized,
that a warning is issued by the computer unit if the default data for the foundation of the building are no longer achieved in the subsequent soil model. Arrangement for monitoring a building foundation in a soil for a building, in particular for carrying out the method according to one of Claims 1 to 10, with a computer unit, by means of which, based on certain soil parameters, a preceding soil model can be determined, on the basis of which the foundation of the building is designed taking into account specified data, and - Measuring devices on the foundation of the building or a structure, whereby settlement, deformations and / or forces on the foundation of the building or the structure can be recorded by the measuring devices,
whereby the computer unit is in data connection with the measuring devices for the transmission of measured data and it can be checked by the computer unit whether the measured values are in accordance with the first soil model, and a subsequent soil model can be calculated by the computer unit, in which the measured values are in agreement with the subsequent soil model if the measured values are not in agreement with the preceding soil model.

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