Device for diagnostics and forecasting of technical condition of tray channels in irrigation systems

FIELD: construction.

SUBSTANCE: invention is related to nondestructive methods for control and diagnostics of operational condition of tray channels. Device for diagnostics and forecasting of technical condition of tray channels in irrigation systems includes frame, antenna blocks and motion sensor. Device is equipped with processing module. Frame copies channel shape and is equipped with support rollers. Antenna blocks are arranged along frame perimetre.

EFFECT: makes it possible to improve quality of tray channel operational monitoring, to speed up their inspection with nondestructive test methods and to carry out forecasting of remaining service life of tray channels.

3 dwg

 

The invention relates to hydraulic construction and can be used for diagnosing the operational state of the UV channels and prediction of the lifetime of the flume irrigation canals.

Known diagnostic system for the pumping equipment of oil wells (registration number 2002115509/06, IPC F04B 47/00).

The disadvantage of this diagnostic system for the pumping equipment of oil wells is that the diagnosis is made only pumping equipment without any assessment of the technical condition.

The closest in technical essence is the ultrasonic method of monitoring the strength of concrete in concrete and reinforced concrete structures during the operation (registration number 2262687).

The disadvantage of this ultrasonic method of monitoring the strength is that it includes the measurement of ultrasound in samples - cubes, not the facility itself, which is an expensive and long procedure.

The technical result achieved by the present invention is the detection of defects and damage of the UV channels, irrigation systems, and the ability for each concrete element of the UV channels to assess its stress-strain state and prediction of the remaining SRO the and operation.

This technical result is achieved in that the device for diagnostics and forecasting of the technical condition of the flume irrigation canals includes the frame, the antenna units and the motion sensor, characterized in that the device has a processing module, and the frame copies the shape of the channel and provided with supporting rollers, and the antenna units are located on the perimeter of the frame.

1 shows a device for the diagnosis and prediction of the technical condition of the flume irrigation canals in axonometric projection; figure 2 - is the same in section; figure 3 - the same, lateral view.

The device for diagnostics and forecasting of the technical condition of the flume irrigation canals includes a frame 1, in the form of repeating the shape of the tray with rubber wheels 2, the antenna units 3 located on the periphery of the frame 1, the processing module 4, the motion sensor 5, rollers 6.

The device operates as follows. It is placed in the flume channel irrigation systems; provides power to the processing module 4, confirmed the readiness of all systems to work. The operator gives the command to start the movement of the device along the flume channel, the data from the antenna unit 3 and the motion sensor 5 are received in the processing module 4, where the data processing and forecasting with the eye of operation of each of the concrete element bin of canal irrigation systems.

The use of the invention will improve the quality of performance monitoring, and most importantly will significantly speed up (4 times) survey of non-destructive control of the flume channel irrigation systems for defects and damage, and to produce a prediction of the remaining lifetime of the flume irrigation canals.

The device for diagnostics and forecasting of the technical condition of the flume irrigation canals, including the frame, the antenna units and the motion sensor, wherein the device has a processing module, and the frame copies the shape of the channel and provided with supporting rollers, and the antenna units are located on the perimeter of the frame.



 

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2 dwg

FIELD: construction.

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3 dwg

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FIELD: construction.

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EFFECT: increased efficiency of meliorative system operation and lower salt content in water-absorbing soil massif and drain flow down to rated parameters of mineralisation.

5 cl, 14 dwg

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