DE102009026002A1 - Device for detecting movement of settlement-sensitive component i.e. supporting structure, of bridge, has angle measuring sensor and displacement sensor for detecting position deviations of tension cable or tension wire - Google Patents

Abstract

The device (1) has an angle measuring sensor (9) and a displacement sensor (10) for detecting position deviations of a tension cable (3) or a tension wire. The sensors are arranged on a settlement-sensitive component (2). The tension cable or the tension wire is arranged as a reference beam on a settlement-insensitive component (5) i.e. end transverse carrier of bridge. The displacement sensor and the angle-measuring sensor are designed as contactless measuring sensors or magnetic/inductive sensors. An inclinometer (14) is arranged on the settlement-insensitive component.

Description

The The invention relates to a device for detecting movements of settlement-sensitive components.

According to the prior art ( DE 10 2006 027 925 A1 ) It has hitherto been known to carry out monitoring of structures and buildings, in particular halls, widely tensioned supporting systems, roof structures and stadium roofs with a monitoring device with sensors and a tensioning wire or tensioning cable guided through the sensor, the sensors being designed as potentiometric sensors. Since structures and buildings constantly perform low allowable movements, the sensors used in the prior art are very stressed and can wear out.

in the Below is spoken of settlement sensitive components. This includes all the above components and structures and also other components whose movements are vertical and horizontal or combined must be controlled, or where it makes sense to control their movement, meant.

The prior art ( JP 2000 171 203 A ) also includes a device for monitoring a supporting structure. According to this prior art, the measuring instrument is arranged on the movable component. It is a measuring instrument for determining the distance. This rangefinder is relatively expensive and expensive. This belonging to the prior art device has the disadvantage that for monitoring a plurality of parts of a supporting structure, for example a plurality of rafters of a roof, a plurality of these complex distance measuring devices must be arranged on the settlement-sensitive components.

Furthermore belongs to the state of the art ( WO 85/00222 A1 ) a device with which deformations of bent or ground deformations can be detected. According to this prior art, the detection devices, such as laser transmitter and laser receiver are arranged according to a first embodiment of the bending part, so that again a plurality of laser transmitters and receivers is necessary to monitor each settlement-sensitive component, for example, each Dachspar ren. In other embodiments of this prior art device, either only manual monitoring is performed or soil deformation monitoring is performed.

The The technical problem underlying the invention is that a device for detecting movements of hypersensitivity Specify components that are simple and inexpensive is, and reliably the movements of sedentary Components, even over long periods recorded.

This technical problem is caused by a device with the features solved according to claim 1.

The Inventive device for detecting Movements of settlement-sensitive components characterized by it from that the detection device at least one tensioning cable or at least one tension wire, that the detection device at least one sensor for detecting positional deviations of at least a tensioning cable or the at least one tensioning wire, that the sensors are arranged on a settlement-sensitive component are, and that at least one tension cable or at least a tension wire as a reference beam to a insensitive to settlement Component is arranged, and that the detection means at least one Distance measuring sensor and at least one angle measuring sensor.

According to the Invention is the at least one detection device on a settlement-sensitive member disposed while the at least one Tensioning cable or the at least one tension wire to a insensitive to settlement Component is arranged. If there is a positional deviation of the settlement-sensitive Components on, this is due to a Lageän change between the detection device and the tension wire or the tension cable detected, since the detection device and the tension wire or the Tensioning cable communicate with each other.

Thereby, that the detection device according to the invention at least one distance measuring sensor and at least one angle measuring sensor can have both vertical and horizontal Position deviations of the settlement-sensitive component are detected. For this purpose, the tension wire or the tension cable as a reference beam arranged on insensitive to settlement components. The angle sensor and the distance measuring sensor are connected to the tension wire or tension cable and are simultaneously arranged on a settlement sensitive component. If the settlement-sensitive component moves, then the distance measuring sensor detects and / or the angle measuring sensor this movement, since the detection device and thus the sensors relative to the tension cable or tension wire, the are attached to a subsidence-insensitive component move.

According to an advantageous embodiment of the invention, the sensors are designed as non-contact measuring sensors. These sensors have the advantage that the fact that the components always move something, the sensors do not wear out mechanically.

According to one further advantageous embodiment of the invention the displacement sensor and / or the angle sensor as magnetic or inductive sensor formed. These sensors work reliably and wear-free.

A advantageous development of the invention provides that the detection device a pendulum arranged on a settlement sensitive component Distance measuring sensor, via a push rod with the tensioning cable or the tension wire is connected, for detecting vertical Movements of the settlement-sensitive component has, and that for detecting horizontal movements of the settlement sensitive Components, an angle sensor is provided, as a deflections the angle measuring sensor detecting the Wegmesssensors is formed. These sensors are particularly accurate and reliable.

Advantageous the Wegmesssensor has a tube, wherein in the tube, the movable mounted push rod for the transmission of position deviations the detection device relative to the tensioning cable or the tension wire is provided, with the tube facing away from the end of the tensioning cable or the tension wire is arranged. This makes it reliable the relative movements between the detection device and the Detect tension wire or tensioning cable.

According to one particularly preferred embodiment of the invention on at least one insensitive to settlement component, where the tension wire or the tensioning cable are attached, arranged at least one inclinometer. The inclinometer is a tilt sensor. With the inclinometer can the tendency of the insensitive components, for example a support beam of a bridge measured become. If the insensitive component tilts, it leaves the tension cable or the tension wire the reference position, whereby the measurement results can be falsified. Becomes advantageous the inclinometer at a bridge, for example, at one End cross member arranged.

The at least one detection device according to the invention with distance measuring sensor and angle measuring sensor and the at least one inclinometer form a measuring system for detecting movements of sedentary Components.

According to one preferred embodiment of the invention is in excess a minimum deviation from a desired position a signal emitting Device can be activated. Other signals are possible.

These Signaling device is advantageous as an acoustic one and / or optical and / or telecommunication signal emitting device educated.

The Tensioning cable or the tension wire of the invention Device is advantageously arranged under a certain bias. The temperature and the deflection at a certain temperature are determined. The tensioning cable or the tensioning wire becomes, for example passed through a box, in the distance by at least two Contacts are arranged. The tension wire or the tensioning rope becomes passed through these two contacts, so that the tensioning cable or the tension wire at the set bias contactless is arranged between the contacts.

In front the installation of the device according to the invention, For example, in a new or old building, the deflections and the settlements of the settlement-sensitive component determined. For new buildings is determined in the statics and old buildings is If necessary, supplement existing statics. in this connection is calculated as a maximum bend can look like, so the settlement-sensitive component is still stable.

Becomes A tensioning rope or tension wire used is the tension cable or the tension wire advantageously coated and sheathed. This one will with minimal preload to compensate for temperature fluctuations and strains of the tensioning cable or tension wire arranged.

The Measuring device is on the or the settlement sensitive components mounted with the electrical connections (electricity, DC through transformer and so on). The tensioning cable or the tensioning wire becomes connected to the push rod of the distance measuring sensors. It exists the Possibility, each device or each sensor individually head for.

The Device according to the invention also has the advantage that it can be easily retrofitted.

The inventive device is, for example under the trusses or rafters of a roof or between the laths arranged. A preferred field of use of the invention Detecting device are bridges.

For situation monitoring requires at least two fixed points advantageous with the possibility of readjustment in the Desired position.

Further features and advantages of the invention emerge with reference to the accompanying drawing, in the single figure, a device according to the invention is shown in longitudinal section only by way of example.

The figure shows a device 1 attached to a settlement-sensitive component 2 , For example, on a supporting structure such as a bridge, is arranged. The device 1 has a tensioning cable 3 on, which means holding plates 4 on insensitive components 5 , such as an end cross member of a bridge by means of screws 6 is attached. At the settlement-sensitive components 2 are by means of holding plates 7 with screws 8th on the settlement-sensitive component 2 are attached, angle measuring sensors 9 as well as distance measuring sensors 10 arranged. The distance measuring sensors 10 have a tubular receptacle 11 and one each in the tubular receptacle 11 mounted push rod 12 on. The push rod 12 is each with the tension cable 3 firmly connected.

For tensioning the tensioning cable 3 is a device 13 intended for retightening.

At the insensitive components 5 are also inclinometers 14 provided that a possible inclination of the insensitive components 5 detect, since an inclination of the insensitive components 5 Effects on the position of the tensioning cable 3 Has. With the inclinometers 14 is detected when the tension cable 3 leaves the reference position.

Changes the settlement-sensitive component 2 its position, so are vertical movements by means of distance measuring sensors 10 detected. Horizontal movements are made by means of angle measuring sensors 9 detected.

The distance measuring devices 10 , the angle measuring devices 9 and the inclinometers 14 make up the device 1 for detecting movements of settlement-sensitive components 2 ,

In addition, a pressure cell 15 provided the tension in the tensioning cable 3 to control. The pressure cell 15 is in the device 13 fitted for retightening.

1

contraption

2

reduction sensitive component

3

tether

4

holding plates

5

reduction insensitive component

6

screw

7

holding plates

8th

screw

9

Angular position sensor

10

Displacement

11

tubular admission

12

pushrod

13

contraption for retightening

14

inclinometer

15

Load cell

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 102006027925 A1 [0002]
• - JP 2000171203 A [0004]
• WO 85/00222 A1 [0005]

Claims (8)

Device for detecting movements of reaction-sensitive components, characterized in that the detection device ( 1 ) at least one tensioning cable or at least one tensioning wire ( 3 ), that the detection device ( 1 ) at least one sensor ( 9 . 10 ) for detecting position deviations of the at least one tensioning cable ( 3 ) or the at least one tension wire ( 3 ) that the sensors ( 9 . 10 ) on a settlement-sensitive component ( 2 ) are arranged, and that the at least one tensioning cable ( 3 ) or the at least one tension wire ( 3 ) as a reference beam on a settlement insensitive component ( 5 ), and that the detection device ( 1 ) at least one distance measuring sensor ( 10 ) and at least one angle measuring sensor ( 9 ) having. Device according to claim 1, characterized in that the displacement measuring sensor ( 10 ) and / or the angle measuring sensor ( 9 ) are designed as non-contact measuring sensors. Device according to claim 1 or 2, characterized in that the displacement measuring sensor ( 10 ) and / or the angle measuring sensor ( 9 ) are designed as magnetic or inductive sensors. Device according to one of the preceding claims, characterized in that the detection device ( 1 ) a pendulum on a settlement sensitive component ( 2 ) arranged distance measuring sensor ( 10 ), which via a push rod ( 12 ) with the tensioning cable ( 3 ) or the tension wire ( 3 ), for detecting vertical movements of the settlement-sensitive component ( 2 ), and that for detecting horizontal movements of the settlement sensitive construction part ( 2 ) an angle measuring sensor ( 9 ) provided as a deflection of the distance measuring sensor ( 10 ) detecting angle measuring sensor ( 9 ) is trained. Apparatus according to claim 4, characterized in that the distance measuring sensor ( 10 ) a tubular receptacle ( 11 ), that in the tubular receptacle ( 11 ) the movably mounted push rod ( 12 ) for the transmission of positional deviations of the sensor ( 10 ) relative to the tensioning cable ( 3 ) or the tension wire ( 3 ) provided with one of the tubular receptacle ( 11 ) facing away from the tensioning cable ( 3 ) or the tension wire ( 3 ) is arranged. Device according to one of the preceding claims, characterized in that the detection device ( 1 ) at least one inclinometer ( 14 ), which on at least one settlement insensitive component ( 5 ), on which the tension wire ( 3 ) or the tensioning cable ( 3 ) is arranged. Device according to one of the preceding claims, characterized in that when exceeding a Minimum deviation from the desired position a device emitting a signal is activatable. Device according to claim 7, characterized in that that the signal emitting device as an acoustic and / or optical and / or telecommunication signal emitting device is trained.