Abnormality monitoring apparatus for a pipeline

Measuring and testing – Vibration – By mechanical waves

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Details

73 405A, G01N 2900

Patent

active

053335015

DESCRIPTION:

BRIEF SUMMARY
TECHNICAL FIELD

The present invention relates to an abnormality monitoring apparatus for monitoring the occurrence of abnormality, such as an injury and leakage, on a pipeline and, in particular, to an abnormality monitoring apparatus including a plurality of detectors arranged at a plurality of places relative to the pipeline to rapidly and accurately detect the occurrence and position of an abnormal spot on the pipeline from a remote site.
The present apparatus includes a plurality of detectors arranged on a pipeline to readily identify the kind of abnormality on the pipeline, using the waveforms of sound waves detected by the detectors.


BACKGROUND ART

A pipe of pipeline is usually laid beneath the surface of the ground, buried at a location between the walls of the adjacent buildings, or arranged in a place readily inaccessible by a maintenance personnel. There sometimes occurs an abnormal spot or an injury on the pipe upon impact from an external force or a leakage of an internal fluid resulting from a corroded pipe wall. It is very cumbersome or difficult to detect occurrence of abnormality on the pipe and locate it once the pipe has been buried or laid beneath the ground surface.
Published Unexamined Japanese Patent Application No. 60-49199 discloses a piping buried with an optical fiber spirally wound thereon. This optical fiber is connected at one end to a light emitting element and at the other end to a light receiving element, time differentiating circuit, alarm circuit, etc. A light signal emitted from the light emitting element is transmitted via the optical fiber to the light receiving element where it is converted to an electric signal, which is differentiated by the time differentiating circuit. An external lateral force on the buried piping causes microbends on the optical fiber. This leads to a greater transmission loss across the full length of the optical fiber and an abrupt variation in the output signal of the time differentiating circuit. The occurrence of abnormality is thus detected.
A piping, if newly buried beneath the ground surface, may be so done at a desired location with the wound optical fiber disposed on the piping. If, on the other hand, an optical fiber cable is provided on an already buried piping, digging-out has to be done at a location around the piping, involving an unpractically larger construction work expense.
The digging is effective to the situation in which the piping is deformed over a certain ground area due to the occurrence of earthquake, local ground subsidence or upheaval, etc., but a local impact by an excavating machine, etc., on the piping and resultant occurrence of a injured spot or spots on the piping do not correspond to the location of the optical fiber cable, sometimes failing to positively detect the occurrence of abnormality on the optical fiber.


DISCLOSURE OF INVENTION

A first object of the present invention is to provide an abnormality monitoring apparatus for readily, rapidly and accurately detecting the occurrence of abnormality on a pipeline and its position from a local site.
A second object of the present invention is to provide an abnormality monitoring apparatus for readily identifying a kind of abnormality on a pipeline.
A third object of the present invention is to provide an abnormality monitoring apparatus for readily, rapidly and accurately detecting the occurrence of abnormality on a pipeline and its position and a kind of abnormality from a remote site.
In order to achieve the first object of the present invention, a plurality of detectors are arranged at a plurality of places in the axial direction of a pipeline with a predetermined distance left between the detectors to detect sound waves generated due to the presence of abnormality on the pipeline and propagating from the position of occurrence of abnormality with a fluid as a medium. A sound wave detection time difference between the detectors is found, for example, at a data processing unit where it calculates the position of occurrence of abnormality on the basis of

REFERENCES:
patent: 3626750 (1971-12-01), Talmon
patent: 4066095 (1978-01-01), Massa
patent: 4457163 (1984-07-01), Jackle
Translation of DT 3726585, Feb. 1993.
Patent Abstracts of Japan, vol. 10, No. 198 (P-476) (2254) Jul. 11, 1986 & JP-A-61 041 940 (Power Reactor & Nuclear Fuel Dev. Corp.) Feb. 28, 1986.
Patent Abstracts of Japan, vol. 10, No. 64 (P-436) (2121) Mar. 14, 1986 & JP-A-60 205 229 (Hitachi Seisakusho KK) Oct. 16, 1985.
Week 8729, Jul. 29, 1987, Derwent Publications Ltd., London, GB; AN 87-205116/29 & SU-A-276 936 (Anisimov VK) Dec. 15, 1986.
Japanese Academic Society of Noise Control Engineering, Collection of Theses Reported At Technical Meeting, p. 305, Sep. 1989.
ASME/ETCE PD-vol. 31, p. 101, Jun. 1990.

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