EP2976614A1

EP2976614A1 - Device for testing ducts

Info

Publication number: EP2976614A1
Application number: EP14792369.2A
Authority: EP
Inventors: Marko Taferner
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-11-28
Filing date: 2014-09-25
Publication date: 2016-01-27
Also published as: AU2014354562B2; EP3118602A1; CA2913939A1; US20160069821A1; AU2014354562A1; CA2913939C; WO2015077805A1; US9804102B2; AT14204U1

Abstract

A device (1) for registering data and features of ducts comprises at least one camera (3, 5), at least one distance measurement apparatus and at least one apparatus for measuring properties of the medium contained in the duct. Furthermore, provision can be made for an illumination apparatus (4), a tracking sensor (10), which emits data in relation to the current position of the device (1), and an inclination measurement device (inclinometer and gyroscopic compass 9). The device can have a passive or active drive for moving the device (1) along the duct. The device (1) can register a length recording of the duct with the aid of photo geometry or with sound, radar, acceleration sensors and/or mechanical distance measurements. Thus, after a duct has been inspected, each point can be assigned precisely in terms of length.

Description

Device for testing lines

The invention relates to a device having the features of the introductory part of claim 1.

There is a need for devices that can capture data from lines and their characteristics.

The invention has for its object to provide such a device.

This object is achieved according to the invention with a device having the features of claim 1.

Preferred and advantageous embodiments of the invention are the subject of the dependent claims.

By means of the device according to the invention, it is possible to acquire data from arbitrary lines and with possible embodiments of the device according to the invention also data from media contained in the line or transported by the line and forward it for the evaluation.

Lines are among others in the present context

Sewage drainage channels, sewage (pump) pressure lines, water lines, pressure lines for liquid and gaseous media, e.g. Drinking water pipes, oil pipes (pipelines), district heating pipes, gas pipes, cable protection pipes,

Power plant pipes or any industrial pipes.

The device according to the invention is in particular a universally applicable, preferably floating, optical measuring device, which, depending on the type of line and in the line

subsidized medium can be performed. In detail, the device according to the invention is a, preferably floating,

Examination device for pipelines, wherein, for example, a camera is provided which receives and stores images or videos of the examined line or passes them directly to an evaluation.

The device according to the invention can also be designed so that it can create a length recording of the line with the aid of photo geometry or with sound, radar, acceleration sensors, mechanical displacement measurement or a combination thereof. Thus, after a successful inspection of a pipeline each point can be assigned in length exactly.

The device according to the invention can be used without interrupting the use of the line to be tested.

When using the device according to the invention, it is not necessary that the line is cleaned.

The device according to the invention allows a cost-effective investigation of lines, in particular a pre-examination of channels, even in poorly accessible places.

The device according to the invention is designed so that it can work in a floating manner. In one embodiment, the device according to the invention floats freely in the medium flow in the line without cables.

With the device according to the invention is depending on

Embodiment possible: to evaluate the state of deposits,

an optical control of deformation of the pipe,

Determine high points of the line

an optical evaluation of the interior of the pipe make,

to carry out a leak detection without external impulse disturbances, to record leak noises directly,

a leak detection even in hard to reach pipes

perform.

In embodiments, the device according to the invention may comprise the following sensors:

Pressure transmitter for pressure recording in a pipe that is in operation so that hydraulic models of the pipe can be detected

Noise level measurements by noise level sensors,

Turbidity sensors,

Conductivity sensors,

Inclinometer and gyrocompass for reconstructions and

Location of the pipeline,

Wall thickness measuring devices,

Locating devices for the device,

Temperature sensor.

The apparatus according to the invention may be associated with a drive for advancing the apparatus in the duct to be inspected. The locomotion can for example in

Freispiegelleitungen or Selbstfallleitungen above all done by the fact that the device according to the invention mitschwimmt with the flowing medium in the conduit.

In pressure lines, the device can be associated with devices in the form of umbrellas, in order to move the device further through the flowing medium.

Another possibility for moving the device in the line is that a drive propeller

is provided, which is coupled with an electric motor. When the device according to the invention in a

Sewage free channel is used, it is called

Floating device introduced into a sewer manhole and then floats with the faecaliferous water contained in the channel in the flow direction. So depending on

Flow rate, the device per hour 0.01 to cover over 30 km and is at the end of the shaft to

checking ■ route of the line out of the canal again

taken.

The data collected by the device can be retrofitted either via Bluetooth, radio or another

Data transmission option are read or it will be transferred from the data carrier contained in the device, the data to a computer (PC). Further evaluation can be carried out with the appropriate software via an interface for GIS (line cadastre).

For example, the following data can be recorded in sewage free-flowing channels:

- temperature measurement for the external water measurement,

- optical inspection,

- length measurement,

- inclinometer,

- Location sensor: an electronic standard (eg. 32.8 kHz), which can be pinpointed with a line locating device, so that the position of the device in

Real time can be captured.

When used in drinking water and pressure lines (up to 100 bar), the device according to the invention can carry out the following investigations:

- optical inspection,

- length measurement, - Acoustic examination for possible leaks

(Boss losses, leaks) with indication of the location of the leak, measured from the starting point or the nearest fitting

(Slide, valve flap, tapping clamp, vent pot, etc.),

- conductivity sensor,

Turbidity sensor,

- wall thickness gauge,

- inclinometer measurements and gyrocompass for the

Reconstruction and location of the pipeline,

- pressure sensor,

- Temperature sensor.

The movement of the device according to the invention in a drinking water line or pressure line up to 100 bar, as described above for sewage channels,

respectively. This also applies to the evaluation of the data.

When a device according to the invention is used in industrial pipes (up to 100 bar pressure), the device according to the invention can be introduced into the pressure line during the operation thereof and the following under operating pressure

Perform examinations:

- optical inspection,

- length measurement,

- Acoustic examination for possible leaks and

Drip losses up to the leakage with indication of the place of the

Leakage or leakage,

- conductivity sensor,

- pressure sensor,

- temperature,

- acoustic examination leaks,

Turbidity sensor,

- wall thickness gauge,

- Inclinometer measurements and gyrocompass. Depending on the flow rate of the medium in an industrial pipe, the device according to the invention can cover 0.01 to 30 km per hour and is removed again at the end of the industrial pipe to be tested. The data acquired by the device concerning the industrial pipe or the medium conveyed in it are read out either via Bluetooth, radio or other data transmission possibilities or the data is transferred to a computer (PC) via the data carrier located in the device. The evaluation of the collected data may be done by evaluation with an interface for GIS {line register) ^'.

If a device according to the invention is used to acquire data and features of a gas pipeline, the measuring device can carry out the following investigations, for example:

- optical inspection,

- length measurement,

- Acoustic examination for possible leaks and

Drip loss until leakage indicating the location of the leak or leakage,

- conductivity sensor,

Turbidity sensor,

- wall thickness gauge,

- Inclinometer measurements and gyrocompass.

Depending on the flow rate of the medium in a gas pipe, the device according to the invention can travel 0.01 to 30 km per hour and is removed again at the end of the route of the gas pipe to be tested. The data collected by the device concerning the gas pipe or the medium conveyed in it are either via Bluetooth, radio or other

Data transmission possibilities are read out or the data is transferred to a computer (PC) via the data carrier in the device. The evaluation of the acquired data can be done by an evaluation software with an interface for GIS (line cadastre).

If a device according to the invention is designed to be used in district heating pipelines, it is possible to use the device during operation of the line, whereby the following tests can be carried out:

- optical inspection,

- length measurement,

- Acoustic examination for possible leaks and

Drip loss until leakage indicating the location of the

Leakage or leakage,

- conductivity sensor,

Turbidity sensor,

- wall thickness gauge,

- Inclinometer measurements and gyrocompass.

Depending on the flow rate of the medium in a pipeline for district heating, the device according to the invention can cover 0.01 to 30 km per hour and is removed again at the end of the route to be tested of the pipeline for district heating. The data collected by the device concerning the pipeline for district heating or the medium conveyed in this are read out either via Bluetooth, radio or other data transmission options or it can be read via the in the device

data carrier on a computer (PC). The evaluation of the collected data can be done by an evaluation software with an interface for GIS

(Line cadastre).

In a further embodiment, the device according to the invention can be used for inspecting oil pipes (pipelines), in which case the device can also operate during operation, for example as follows

To carry out investigations: - optical inspection,

- length measurement,

- Acoustic examination for possible leaks and

Drip loss until leakage indicating the location of the leak or leakage,

- conductivity sensor,

Turbidity sensor,

- wall thickness gauge,

- Incominometer measurements and Gyrocompass,

- Pressure sensor.

Depending on the flow rate of the medium in an oil line (pipeline), the device according to the invention can cover 0.01 to 30 km per hour and is removed again from the oil line (pipeline) at the end of the route to be tested. The data collected by the device concerning the oil line

(Pipeline) or promoted in this medium are either read out via Bluetooth, wireless or other data transfer options or it will be on the in the device

data carrier on a computer (PC). The evaluation of the collected data can, by an evaluation software with an interface for GIS

(Line cadastre).

Further details and features of the invention will be

below with reference to the drawings shown in the drawings

Embodiments explained. It shows:

1 schematically a device according to the invention,

Fig. 2 shows schematically a modified embodiment of a device according to the invention and

Fig. 3 is an application example according to the invention

Devices. A device 1 according to the invention has a housing 2 in the embodiment shown in FIG. 1. At one end, with respect to the direction of movement, during an examination of a line at the front end, a camera 3 is provided. The camera 3, for example, around the camera 3 around a lighting device 4 is provided which is formed for example as an LED lighting unit.

In addition, the device 1 can be another camera 5

which has a different angle than the am

Since the device 1 according to the invention is intended to float in a liquid medium, for example, it has a swim bladder 6, which via a line 7, which opens into the wall of the housing 2, with the area outside the housing 2, ie outside the device 1, communicates.

The embodiment of the device 1 shown in Fig. 1 further comprises two sensors 8 for a path measuring device, which allow to detect the distance covered by the device 1 distance.

Inside the case are an inclinometer and / or

Gyro compass 9 and a location transmitter 10 arranged. The

Power supply of the various components of the device according to the invention via a provided in the housing 2

Power storage 11, for example, an accumulator. All

Devices of the device according to the invention, such as the cameras 3 and 5, sensors 8 of the displacement measuring device, radar sensor,

Speed sensor and temperature sensor 13, inclinometer and gyro 9 and location transmitter 10 are effectively linked to a data logger and a control unit 12.

The embodiment shown in Fig. 2 of a device 1 according to the invention comprises a housing 2, which in this

Embodiment is streamlined. The

Device 1 of the embodiment of Fig. 2 again has one Camera 3 and one of these associated lighting unit 4, the swim bladder 6, the sensors 8 of the displacement measuring device,

Radar sensor, speed sensor and temperature sensor 13, the inclinometer and gyro 9 and the location transmitter 10.

The embodiment of the device 1 according to the invention shown in FIG. 2 further comprises an active drive

Propeller 15 with drive motor 16, which is powered by the power storage 11 with electricity.

Instead of or in addition to the active drive of the device 1 in the form of the propeller 15, in particular in the region of the front end, where the camera 3 is arranged, as an passive drive, an annular shield 20 may be provided to the

Device 1 of flowing through the conduit medium

take.

The umbrella 20 may be replaced or supplemented by a parachute sail 21, which is connected via connecting elements 22 to the front end of the device 1.

Furthermore, the embodiment of a device 1 according to the invention shown in FIG. 2 has a conductivity sensor 17 and an acoustic sensor 18. Finally, in the device 1 according to the invention of the embodiment of FIG. 2, a turbidity sensor 19 is provided.

The device according to the invention can also be assigned a device for detecting the flow velocity of the medium through the line to be tested.

The inventive device can also with a

Accelerometer be equipped so that in combination with other sensors (such as radar sensor) the current

Speed at which the device 1 moves, can be detected. In addition, by capturing the image geometry of the

Pipe sections (recording the length and time) on the

Speed of the device 1 are closed.

Fig. 3 shows an application example comprising two

Devices 1 according to the invention, which are connected to each other via a flexible (non-variable-length) element 25. At the element 25 are at least two diametrically opposed and extending in the longitudinal direction of the element 25 sensors 26, 27 detect the changes in length, e.g. Strain gauges provided. When the element 25 is bent (e.g., bend 28 in Fig. 3), the one at the

External curve lying sensor 26 extended (stretched) and lying on the inner curve sensor 27 shortened (compressed). These changes in length of the sensors 26, 27 are detected and allow it in connection with gyrocompass devices 29 in the devices 1 to detect the course of the line 30.

In summary, an embodiment of the invention can be described as follows:

A device 1 for detecting data and features of lines comprises at least one camera 3, 5> at least one displacement measuring device and at least one device for measuring properties of the medium contained in the line.

Furthermore, a lighting device 4, a position sensor 10, which outputs data relating to the current position of the device 1 and an inclinometer (inclinometer and gyro 9) may be provided. The device may include a passive or active drive for moving the device 1 along the

Have direction. The device 1 can with ^' help from

Photo geometry or with sound, radar, acceleration sensors and / or mechanical displacement measurements record a length record of the line. Thus, after a successful inspection of a line each point can be assigned exactly in length.

Claims

Claims :

1. Device (1) for detecting data and features of lines, characterized by at least one camera (3, 5), at least one displacement measuring device and at least one device for measuring properties of the medium contained in the conduit.

2. Apparatus according to claim 1, characterized in that the at least one camera (3,5) a

Lighting device (4) is assigned.

3. Apparatus according to claim 1 or 2, characterized in that a location sensor (10) which outputs data relating to the current position of the device (1) is provided.

4. Device according to one of claims 1 to 3, characterized

in that an inclinometer (inclinometer and gyro compass 9) is provided.

5. Device according to one of claims 1 to 4, characterized

in that the device (1) is assigned a passive or active drive for moving the device (1) along the line.

6. Apparatus according to claim 5, characterized in that the drive in the manner of a ship's propeller (15) is formed, which is associated with a drive motor (16).

7. Device according to one of claims 1 to 6, characterized

characterized in that in the device (1) a

Electricity storage (11) is provided for supplying existing in the device (1) components with electric current.

8. Device according to one of claims 1 to 7, characterized in that the means for measuring

Properties of the medium contained in the line is selected from the group comprising

Conductivity sensor (17), turbidity sensor (19) and

acoustic pickup (18).

9. Device according to one of claims 1 to 8, characterized

characterized in that for regulating the buoyancy of the

Device (1) in the device (1) a swim bladder (6) is provided.

10. The device according to claim 9, characterized in that the swim bladder (6) with the medium contained in the conduit, in particular that contained in the conduit

Liquid, communicates.

11. Device according to one of claims 5 to 10, characterized

in that the drive is a passive drive which comprises surfaces (20, 21) designed in the manner of umbrellas.

12. The device according to claim 11, characterized in that the passive drive is provided on the device, an annular shield (20).

13. The apparatus according to claim 11, characterized in that the passive drive is connected to the device, parachute-like screen (21).

14. Device according to one of claims 1 to 13, characterized

in that the device (1) comprises a housing (2) in or on which the elements and components of the device (1) are provided.

15. Device according to one of claims 3 to 14, characterized characterized in that the location transmitter 10 a

electronic transmitter is that with a

Line locating device can be located.

16. Device according to one of claims 1 to 15, characterized in that an acoustic pickup (18) is provided, the leaks of the line through

Drip or leak detected.

17. Device according to one of claims 1 to 16, characterized

in that the device is associated with a memory (12) linked to a control unit.

18. The device according to claim 17, characterized in that the memory (12) for the data detected by the device, a transmitter is assigned to transmit data of the line wirelessly to an evaluation device.

19. Device according to one of claims 1 to 18, characterized

in that the apparatus (1) is associated with an inclinometer and gyrocompass in order to locate the line course.

20. Device according to one of claims 1 to 19, characterized

characterized in that the device (1) a

and strength meter is assigned.