DE102007012618A1 - Mechanical variables e.g. tension, detecting device for e.g. house, has sensor device arranged at point of support in building to find variables, where value found by sensor device is sent to processing device to compare value with data set - Google Patents

Abstract

The device has a sensor device (1) arranged at a point of support in a building, construction unit and/or a static system for detecting mechanical variables. Measuring value (2) detected by the sensor device is transmitted to a data processing device for automatic comparison of measuring value with a preset data set, which includes data about the variable. A data processing device (3) automatically releases an alarm signal (4), when a preset limiting value for the mechanical variable is increased or decreased. An independent claim is also included for a method for detecting mechanical variables in a building.

Description

contraption and method for detecting movements, forces and / or stresses in a building, a component and / or static system

The The invention relates to a device according to the preamble of the claim 1, a building, a component and / or a static system Claim 19 and a method according to claim 21.

On Structures or static systems, and the components forming these act during construction and after completion numerous forces, tensions or find movements within the structure or static System or between components. To a certain degree Such mechanical parameters are tolerable. When exceeded certain limits, e.g. a ceiling load, a structural is done Failure of the structure, the component and / or the static system.

Of the present invention is based on the object, a device to prevent structural failure can.

To is at least at one point in the structure, in the component and / or in the building static system a sensor device for detecting at least arranged a mechanical size. The measured values acquired by the at least one sensor device are sent to a data processing device for automatic comparison transmitted the measured values with a predetermined record. This is a surveillance of the structure, the component and / or the static system possible.

Advantageous, if the at least one mechanical quantity is a movement, a force, is a bending moment, a torque and / or a voltage. The Play sizes in the monitored objects a role, as they have a particular impact on safety. It is advantageous if at least one sensor device in a support point of the structure, the component and / or the static Systems is arranged. personnel and movements can be captured very well at these locations.

The For example, the invention may be applied to a component in conjunction with a roof rack, an element of a bridge or a beam in a floor construction. Also it is advantageous if the building is a truss, a blasting plant or a stiffener is. All these embodiments are preferably in Building construction used.

A possible Application of an embodiment is that the predetermined record data on the permissible mechanical sizes in the Structure, the component and / or the static system has. In order to can e.g. Limit voltages (possibly with a safety margin) specified be, whose crossing is determined.

Then it is particularly advantageous if the data processing device automatically a signal, in particular an alarm signal triggers when a predetermined limit for exceeded the mechanical sizes or falls below. Such a signal can advantageously a record, in particular an e-mail or SMS to at least a predetermined receiver to ship. An example for An advantageous use of a limit value is a pressure load due to a snow load.

Further it is advantageous if in dependence from the signal automatically a measure to produce a standard value for the movement, the force and / or the tension can be introduced. In order to can e.g. when exceeded of the limit value, a correction is automatically initiated returns the measured value to the normal range. Examples of such activities for producing the standard value for the at least one mechanical Size are the switching on of a heating and / or the switching on of a blower.

After advantage manner the at least one sensor device has a hydraulic pressure gauge. Also it is advantageous if the at least one sensor device with a device is coupled to compensate for temperatures.

In an embodiment the sensor device has an upper part which is connected to a component, in particular a roof rack, is coupled, wherein the upper part is in operative connection with a lower part.

In a further embodiment the sensor device has a pressure pad and / or a load cell on. in principle are mutually the same or different sensors usable.

Height pressures can well absorbed by a pressure pad that has a plastic layer, in particular of an elastomer or neoprene.

It is also advantageous if the sensor device has a metallic pressure transducer surface, in particular a pressure transducer surface made of sheet metal having. Advantageously, the sensor device has an oil filling. With these embodiments, even large forces and pressures can be detected permanently good.

• a) an mindestens einer Stelle im Bauwerk, dem Bauteil und/oder dem statischen System mit einer Sensorvorrichtung die mindestens eine mechanische Größe erfasst wird und
• b) die von der mindestens einen Sensorvorrichtung erfassten Messwerte an eine Datenverarbeitungsvorrichtung übertragen werden und
• c) die Messwerte sofort oder zu einem späteren Zeitpunkt automatisch mit einem vorbestimmten Datensatz verglichen werden.

The object is also achieved by a method in which

• a) at least one point in the building, the component and / or the static system with a sensor device, the at least one mechanical variable is detected and
• b) the measured values acquired by the at least one sensor device are transmitted to a data processing device, and
• c) the measured values are automatically compared with a predetermined data set immediately or at a later time.

These The object is achieved by a Device solved with the features of claim 1.

The Invention will be described below with reference to the figures of Drawings on several embodiments explained in more detail. It demonstrate:

1 a schematic representation of an embodiment of the device according to the invention;

2 a schematic representation of a plurality of sensor devices for detecting pressure loads in a roof construction;

three a schematic representation of an embodiment of a sensor device;

4 a schematic representation of a load cell, usable as part of a sensor device;

5 a schematic representation of another embodiment of a sensor device.

In 1 is an example of a building 10 schematically represented a house. The house is just one example of a structure in building construction, for which the embodiments of the invention are well suited.

In two places of the roof truss are sensor devices 1 arranged, which measure the downwardly acting pressure force (or the compressive stress) of the roof truss permanently. The compressive force depends, among other things, on the wind load and any possible snow load. Here are by the construction of the structure 10 specified limits for the permissible forces or voltages, which must not be exceeded. Prescribed security surcharges can be used to prevent a situation endangering the structure from occurring.

In the following, without limitation to this case, a snow load on the roof of the building 10 be based on.

The sensor devices 1 continuously record the pressure forces at supporting points of the roof truss. The measured values 2 are sent to a data processing device three transfer. The transmission can eg be done wirelessly or eg via a cable. One possibility for a fixed line is the use of a bus line (2nd conductor bus RS 485). The sensor devices 1 They are connected in series with a 4-wire line of up to 1.2 km in length. In addition to the transmission of measured values 2 This data line also accepts the power supply (24V) of the sensor devices 1 , In a wireless transmission, the sensor devices are eg connected to the household network or have batteries.

In the data processing device three are the limits for certain readings 2 deposited. The data processing device three can be in the building 10 be arranged or a remote location. It is also possible that with a data processing device three several structures three can be monitored.

Is with a growing snow cover a predetermined limit for the pressure forces at least on a sensor device 2 exceeded, so is the data processing device three automatically a signal 4 triggered that eg can be transmitted to a person. This person could then initiate further steps, such as a roof cleaning. In one embodiment, the signal becomes 4 from a means 5 received, with which the normal range of the measured value can be restored. In the present case, a defrosting system could be used on the roof to reduce the pressure load on the roof.

The House 10 in 1 is shown only as an example. Embodiments of the device according to the invention can also be used in other structures, such as bridges or towers. Embodiments of the device according to the invention may also be used in parts of structures, ie individual components.

Also, the application of the invention is not limited to roof structures. Rather, sensor devices 1 For example, it can also be used to detect earth pressures for houses standing on a slope in order to promptly report any increase in pressure. It is expressly intended, several different sensor devices 1 to pair with each other, so that the data processing device three a complete and permanent picture of the mechanical loads of a house.

The monitoring of the mechanical loads can also aim at a more complex load condition. Thus, in addition to compressive forces and tensile forces, torques and / or bending moments can be monitored. It is also possible to move individual components in a building 10 to monitor. If a combination of these mechanical quantities is recorded, a realistic picture of the mechanical load can be recorded.

Such an approach is especially in the renovation of historic buildings 10 makes sense, since the force curve in the structures can not be reconstructed mathematically. The detection of the possibly critical mechanical variables by embodiments of the invention allows safe work, in which no computational assumptions need to be made. Retrofitting an existing structure with embodiments of the invention is therefore particularly useful.

The retrofitting can be done temporarily, eg during the construction work. A roof structure could be hydraulically lifted at the support points to accommodate sensor devices 1 to install at the support points. It is advantageous if the sensor device 1 is formed flat and compact, such as a load cell, which will be described below. Thus, not only the load distribution in a node can be determined, but also a computational load distribution to other nodes. If sensor devices are arranged at all support points, for example in the binder level of a roof truss 10 , the flow of forces in this structure 10 be accurately understood.

In 2 is a plan view of an array of sensor devices 1 represented, which are arranged within a carrier plane of a roof construction. Sensor devices permanently monitor the actual bearing pressures and compare them with the specified maximum permissible pressures. The measured values 2 are passed through a data cable through the data processing device three transfer. If a predetermined limit is reached, a signal 4 sent, for example, with the homeowner or hall operator is alerted.

In three schematically is an embodiment of a constructive solution for a sensor device 1 shown. On a component 10 , here a roof rack, is a compressive load, which is indicated by vertical arrows.

The component 10 lies here transversely on a double-T-beam. The sensor device 1 is here below the lower belt of the double-T-beam arranged. In this case, the sensor device 1 surrounded by a neoprene layer at the top and bottom.

That of the sensor device 1 recorded measured values 2 be via a cable to the data processing device not shown here three transfer.

In 4 are various forms of pressure pad (also called pressure cans) shown that part of a sensor device 1 can be according to the invention.

It can be seen that this pressure pad 1 are very flat, so that they can be easily integrated into supports. Dimensions are, for example, side lengths of 50 to 150 mm at thicknesses of 6 to 10 mm.

Also the forms of the pressure pads 1 are so variable that they can be adapted to the requirements. Further, each of the pressure pads faces 1 a port for transmitting measurement data.

In 5 is an embodiment for a sensor device 1 shown. This has an upper part 1A on, for example, with a part of a roof construction 10 connected is. The top 1A the sensor device 1 has a stamp in a corresponding recess of a lower part 1B the sensor device 1 intervenes. In the lower part 1B is arranged hydraulic oil and a sensor whose measuring signals 2 via a line to a data processing device, not shown here 2 to get redirected.

Below the lower part 1B is a neoprene layer 6 arranged.

The Restricted invention in their execution not to the preferred embodiments given above. Rather, a number of variants are conceivable that of the device according to the invention and the method of the invention also in principle different types Make use.

1

sensor device

2

reading

3

Data processing device

4

Signal, alarm

5

medium for setting a standard value

6

neoprene layer

10

building, Component, static system

Claims (21)

Device for detecting movements, forces and / or stresses in a building, a component and / or a static system, characterized in that at least one point in the building ( 10 ), in the component and / or in the static system, a sensor device ( 1 ) is arranged for detecting at least one mechanical variable, wherein the at least one sensor device ( 1 ) measured values ( 2 ) to a data processing device ( three ) for automatically comparing the measured values with a predetermined data record. Device according to claim 1, characterized in that that the at least one mechanical quantity is a movement, a force, is a bending moment, a torque and / or a voltage. Apparatus according to claim 1 or 2, characterized in that at least one sensor device ( 1 ) in a support point of the structure ( 10 ), the component and / or the static system is arranged. Device according to at least one of the preceding claims, characterized in that the component ( 10 ) is a roof rack, an element of a bridge or a beam in a floor construction. Device according to at least one of the preceding claims, characterized in that the predetermined data record data about the permissible mechanical variables in the building ( 10 ), the component and / or the static system. Device according to at least one of the preceding claims, characterized in that the building ( 10 ) is a framework, an explosive device or a stiffener. Device according to at least one of the preceding claims, characterized in that the data processing device ( three ) automatically a signal ( 4 ), in particular an alarm signal triggers when a predetermined limit value for the mechanical quantities is exceeded or undershot. Apparatus according to claim 7, characterized in that in dependence on the signal ( 4 ) a record, in particular an e-mail or an SMS is sent to at least one predetermined recipient. Apparatus according to claim 7 or 8, characterized that the limit value is a pressure load due to a snow load concerns. Device according to at least one of claims 7 to 9, characterized in that in dependence on the signal ( 4 ) is automatically a measure for producing a standard value for the movement, the force and / or the voltage can be introduced. Device according to claim 10, characterized in that that the measure for producing the standard value for the at least one mechanical Size the activation a heater and / or the involvement of a blower is. Device according to at least one of the preceding claims, characterized in that the at least one sensor device ( 1 ) has a hydraulic pressure gauge. Device according to at least one of the preceding claims, characterized in that the at least one sensor device ( 1 ) is coupled to a device for compensating for temperatures. Device according to at least one of the preceding claims, characterized in that the sensor device ( 1 ) a top ( 1A ), which is coupled to a component, in particular a roof rack, wherein the upper part ( 1A ) with a lower part ( 1B ) is in operative connection. Device according to at least one of the preceding claims, characterized in that the sensor device ( 1 ) has a pressure pad and / or a load cell. Device according to claim 15, characterized in that that the pressure pad with a plastic layer, in particular from an elastomer or neoprene. Apparatus according to claim 15 or 16, characterized in that the sensor device ( 1 ) has a metallic pressure transducer surface, in particular a pressure transducer surface made of sheet metal. Device according to one of claims 15 to 17, characterized in that the sensor device ( 1 ) has an oil filling. Building, component and / or static system with a device according to at least one of the claims 1 to 18. Structure, component and / or static system according to Claim 19, characterized in that the device is permanent is installed. Method for detecting at least one mechanical variable in a building, in a structural element and / or a static system, characterized in that a) at least one point in the building ( 10 ), the component and / or the static system with a sensor device ( 1 ) the at least one mechanical variable is detected and b) that of the at least one sensor device ( 1 ) measured values ( 2 ) to a data processing device ( three ) and c) the measured values ( 2 ) are automatically compared with a predetermined record immediately or at a later time.