DE10025914A1 - Process for permanently monitoring electrochemical, physical and chemical parameters of constructions made from reinforced concrete comprises using sensors coupled to an evaluation system via a local data bus - Google Patents

Abstract

Process for permanently monitoring electrochemical, physical and chemical parameters of constructions made from reinforced concrete comprises placing sensors on and in the constructions; coupling the sensors to an evaluation system via a local data bus; transferring the crude sensor data to the evaluation system and pre-processing the data through the system; connecting the evaluation system to a central control having a data bank via a network; transferring the data from the evaluation system to the central control; storing the data in the central data bank; and automatically transferring data when the threshold values (alarm function) are exceeded or are not reached. Preferred Features: The sensors measure the ambient temperature, the construction temperature and moisture, the corrosion potential, the chloride content on the construction.

Description

The invention relates to a method for permanent monitoring of electrochemical, physical and chemical parameters on reinforced concrete structures to detect changes in chemical conditions composition as well as the physical properties of construction determine substances, as well as a suitable device.

Such monitoring is particularly necessary because the Durability of the structure due to reinforcement corrosion can be permanently impaired or moisture and tension can display unscheduled loads. Usual steel is usually added to reinforcement, to be able to absorb tensile forces. In the case of a faultless posed reinforced concrete element is the reinforcement with such a strong Concrete layer covered that this usually permanently before Cor rosion is protected. The corrosion protection of the concrete layer is based on the alkalinity of the pore water, which has a pH that is greater than 12.5. This forms on the steel surface Conditions a thin, adherent oxide layer that is a corro sion of the steel element practically completely prevented. For this Reason can be reinforced concrete for exterior parts that are exposed to the weather are used. Under unfavorable conditions, esp especially in the case of faulty construction work or particularly intensive Environmental stress (de-icing salts, pollution, freeze-thaw changes) However, the corrosion protection of the reinforcement can be impaired  become. On the one hand follows by removing carbon dioxide from the air with the alkaline components of the cement react, a carbonation tion of the concrete. This slowly lowers the pH so that at No corro on the reinforcement carbonation front protection is more given. Another frequently occurring cor The cause of corrosion is the penetration of chlorides into the concrete for example on reinforced concrete structures in traffic engineering (bridges, tunnels, Parking decks), where de-icing salts are used for de-icing. Both Processes start on the concrete surface and settle in nere of the concrete for reinforcement, whereby their oxide layer dissolves. In order to destroy the concrete due to chipping as a result of vo To prevent luminous corrosion products, the chloride-containing ones Concrete replaced or the chloride itself removed from the concrete become.

To react in time to the damage to the concrete due to corrosion Being able to yaw is constant monitoring of the chemical Composition and certain physical properties of the concrete is necessary. Previously known methods, for example the German patent application DE 199 44 974.0 deal only with the rehabilitation of corrosion-damaged steel, which however an electrochemical, physical and chemical characteristic must precede the concrete. DE 100 01 706.1 is used for this purpose sensors with which the resting potential, the galvani cal pulse, the reinforcement course, the concrete cover, the pores space, the humidity, the chloride content and the depth of carbonation be determined. The data determined in this way are sent via a Sen transmission to an electronic module.

However, this method does not allow monitoring, in particular no permanent monitoring of the concrete condition, since the  individual chemical and physical parameters first determined if a renovation of the concrete seems necessary. The is usually only the case when a visual assessment of a Damage to the concrete can be seen or due to experience age-related damage to the concrete is suspected. However, it is fundamental, a shame detection of reinforced concrete at an early stage in order to enable ge renovation of the component.

The alternative of taking manual individual measurements is known men; However, they have the disadvantage that only a current Zu was recorded and at the examination interval 0.5. . .2 years none sufficiently precise trend can be derived (see also Schiegg, Y .; Böhm, H .: Online monitoring of corrosion on steel clay structures. Concrete and reinforced concrete. 2000 (95), 2, pp. 92-103).

It is therefore an object of the present invention to overcome this disadvantage of To overcome the state of the art. The task here is one permanent, completely remote-controlled monitoring of the concrete enable.

According to the invention, this is achieved by a permanent method Monitoring of electrochemical, physical and chemi parameters of concrete in concrete structures that the Pa rameter of claim 1. To do this, sensors are attached installed in exposed areas in the building. The Senso The data determined (raw sensor data) include all for the appraisal Information about the condition of the concrete, ins special the ambient temperature, the building temperature, the Building moisture, the corrosion potential and the chloride content of the concrete. In addition, galvono  static pulse measurements carried out, voltage states over watches and statements about the state of carbonation are derived the. The sensors are connected to a via a local data bus Building evaluation system coupled. The evaluation system stem is preferably a computer. After the transfer of the sen raw data to the evaluation system, these data are available there processed, that is, the transmitted data are collected together quantified that the necessary to assess the degree of damage agile values can be calculated. The evaluation system is over a wide area network (WAN) attached to a central database concluded about the transfer of data from the evaluation system to the central control with linked database wire bound or wireless. From the central control with a linked database, the data is cyclically selectable intervals and saved. The data are with the information already contained in the database. To this information includes in particular the results of a visual inspection of the concrete, information about the construction creation of the plant, through previous remedial measures, controls and inspections. Based on the stored information and the Results of the sensor obtained from the evaluation systems Monitoring is a query of the current state of the building at all times plant, a risk analysis regarding the degree of damage to the Concrete and building history possible. The evaluation units are also set up so that sensor data or calc values that lie outside of specified limits, too are actively transmitted and given outside the query cycles otherwise an alarm is triggered. Within the database the Data by correlating all available parameters with each other for a reliable interpretation of the individual measured values, through changes change of discrete parameters during the monitoring period and  by deriving cross-comparisons between different Buildings and analysis of environmental and location factors for Building optimization prepared. Via authorized user interface can put the data stored in the database via Inter net by external appraisers, building owners, operators, authorities the etc. retrieved and locally ana be lysed. To prevent unauthorized access to the data of the zen To prevent the central database, the database is protected and only allows access by authorized users.

The method according to the invention offers a permanent one Monitoring the state of the building further advantages: It enables light an immediate query at any time to determine the Degree of damage necessary data. All for the assessment of the The data required for the state of damage are saved centrally and can be analyzed in a standardized manner. Due to the central data acquisition and analysis in connection with the data already stored and easy access to The database, among other things via the Internet, can reduce the cost of Building supervision can be significantly reduced, necessary Sa planning measures early and standardized be carried out and thus the costs for the building sub attitudes can be lowered sustainably.

The implementation of the aforementioned methods includes sensors for Determination of electrochemical, physical and chemical Parameters on the structure, preferably in exposed areas are appropriate; at least one evaluation system for recording and Preprocessing of the data determined by the sensors, the Evaluation system with the sensors assigned to it via a lo kalen data bus is connected; and a central control with ver  linked database for recording and processing the data from the Evaluation system determined data, the central database with the evaluation systems assigned to them via a wide area network connected is. The central database preferably has authors based user interfaces for querying the central data bank stored data on the Internet.

After the device has been installed on the reinforced concrete structure, the method for determining the electrochemical, physical and chemical parameters of the concrete comprises the following steps:

• a) Determine the electrochemical, physical and chemical data using sensors attached to the structure are brought;
• b) Query of the raw data determined by the sensors by an evaluation system that is connected to the sensors;
• c) preprocessing of the raw data from the evaluation system stem;
• d) query the data recorded by the evaluation system through a central control system with a linked database that works with connected to the evaluation system via a world traffic network (WAN) is; and
• e) Processing and storage of the from value system recorded data in the central database.

Claims (13)

1. A method for the permanent monitoring of electro-chemical, physical and chemical parameters on buildings made of reinforced concrete, characterized in that it takes the steps

• a) attaching sensors to and in the structure;
• b) coupling the sensors via local data bus with an evaluation system, which is located on the building;
• c) transmission of the raw sensor data to the evaluation system and preprocessing of this data by the evaluation system;
• d) connection of the evaluation system to a central controller with a linked database via a wide area network (WAN);
• e) cyclical query and transmission of the data of the evaluation system to the central control with linked database and
• f) storage of the data in the central database comprises, the monitoring being carried out continuously cyclically and continuously with a freely selectable cycle and
• g) automatic transmission of data when thresholds are exceeded / exceeded (alarm function).

2. The method according to claim 1, characterized in that that the sensors on exposed vulnerable or sensi  blen places of the structure during its manufacture or can be retrofitted. 3. The method according to claim 1 or 2, characterized records that the sensors are the ambient temperature, the building temperature, the building moisture, the cor corrosion potential, the chloride content as well as voltage and Determine the cartonization status on the building. 4. The method according to any one of the preceding claims characterized in that the connection of evaluating systems to a central control with linked data wireless network over a wide area network (WAN). 5. The method according to any one of the preceding claims characterized in that the connection of evaluating systems to a central control with linked data tenbank over a world traffic network (WAN) wired he follows. 6. The method according to any one of the preceding claims characterized in that following step (e) continue to query or analyze the in the central Control with linked database saved data via a user interface via the Internet. 7. A method for the permanent monitoring of electro-chemical, physical and chemical parameters of concrete in concrete structures, characterized in that the steps

• a) determining the electrochemical, physical and chemical data of concrete by means of sensors attached to the concrete;
• b) interrogation of the raw data determined by the sensors through an evaluation system which is connected to the sensors;
• c) preprocessing of the raw data from the evaluation system;
• d) Querying the data recorded by the evaluation system by a central controller with a linked database which is connected to the evaluation system via a wide area network (WAN); and
• e) processing and storage of the data recorded by the evaluation system in the central controller with linked database comprises, the monitoring being carried out continuously cyclically continuously with freely selectable cycle.

8. The method according to claim 7, characterized in that that the data determined in step (a) by the sensors the ambient temperature, the building temperature, the Building moisture, the corrosion potential, the chloride content of the concrete and tension and carbonation conditions include. 9. The method according to claim 7 or 8, characterized records that it continues the following step (e) Query of the linked in the central control Data stored through an authorized database Includes user interface via the Internet.   10. A device for the central detection of electrochemical, physical and chemical parameters of concrete in concrete structures, characterized in that it

• a) sensors for determining the electrochemical, physical and chemical parameters of the steel concrete, which are attached to the structure;
• b) at least one evaluation system for recording and preprocessing the data determined by the sensors, the evaluation system being connected to the sensors assigned to it via a local data bus; and
• c) a central controller with a linked database for recording and processing the data determined by the evaluation system, the central database being connected to the evaluation systems assigned to it via a wide area network,

includes. 11. The device according to claim 10, characterized in that that the sensors are in exposed areas of the building are attached to the concrete. 12. The apparatus of claim 10 or 11, characterized records that the sensors are the ambient temperature, the building temperature, the building moisture, the cor corrosion potential, the chloride content of the concrete and the Determine the state of tension and carbonation.   13. Device according to one of claims 10 to 12, characterized characterized in that the central control with ver linked database authorized, secured users interfaces for querying and analyzing the data in the center len database stored data includes via the Internet.