RU2460062C1 - Method to determine corrosion condition of underground part of reinforced concrete supports of power transmission lines and contact system - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: in a proposed method to detect a corrosion condition of an underground part in reinforced concrete supports of power transmission lines and a contact system including visual survey of an underground part of a reinforced concrete support, a video endoscopic system is placed via a ventilation hole inside a support. At the same time with the help of a lighting system, the necessary level of illumination is provided on the inner surface of the support, with the help of an endoscope control system the endoscope is moved so that the entire surface of the support is surveyed from the soil surface to the support base. Besides, video information on the condition of the inner surface is displayed to the screen for the operator, and sent to a system of images processing for automatic detection of defects and identification of their dimensions, by availability and size of cracks and brown stains on the inner surface of the support the corrosion condition of the underground part of the reinforced concrete support is estimated.

EFFECT: higher accuracy and reduced labour intensiveness in detection of a corrosion condition of an underground part of reinforced concrete supports by a visual method.

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Description

The invention relates to instrumentation and can be used to determine the corrosion state of the underground part of the reinforced concrete supports of power lines and a contact network without digging them.

The electrochemical method is known, which consists in polarizing the reinforcement of a reinforced concrete structure with a calibrated direct current pulse along the “reinforcement-ground-rail” circuit and registering the “reinforcement-soil” potential decay after turning off the source. To exclude the influence of the induced potentials, positive and negative polarization is carried out, and the corrosion state of the reinforcement of the reinforced concrete structure is assessed by the value of the total potential equal to the sum of the “reinforcement-soil” potential measured at a given time t after disconnecting the negative polarization source and the “reinforcement- soil ", measured at a given point in time t after turning off the source of positive polarization. (Weinstein A.L., Pavlov A.V. Corrosion damage to the supports of the contact network. M., 1988. 111 p.)

The disadvantage of this method is the low reliability, because when measuring the “reinforcement-soil” potential at a given time t after switching off the polarization source, it is impossible to distinguish the ohmic and polarization components of this potential.

Closest to the proposed one is a visual method for determining the corrosion state of the underground part of reinforced concrete supports of the contact network (Instructions for the maintenance and repair of supporting structures of the contact network. / Electrification and Power Supply Department of the Ministry of Railways of the Russian Federation. M: Transizdat, 2003. 88 p.) . Visual inspection of the underground part of the supports is carried out after excavation of the support to a depth of 1 m, if damage is detected in the underground part of the supports, the excavation depth is increased, to ensure the stability of structures in these cases, temporary braces are set.

The disadvantage of this method is the low accuracy due to the fact that, depending on the stage of corrosion failure of the reinforcement on the surface of the support, there may be no obvious signs of corrosion, as well as the high complexity due to the need to dig the support.

The purpose of the invention is to increase accuracy and reduce the complexity in determining the corrosion state of the underground part of reinforced concrete supports by visual method.

To achieve the goal in the proposed method for determining the corrosion state of the underground part of reinforced concrete supports of power lines and a contact network containing a visual inspection of the underground part of the reinforced concrete support, a video endoscopic system is placed through the ventilation hole in the support, using the lighting system, the required level of illumination of the inner surface of the support is provided, with using the endoscope control system, move it in such a way as to examine the entire internal the surface of the support from the soil surface to the base of the support, video information about the condition of the internal surface is displayed on the screen to the operator and transmitted to the image processing system for automatic recognition of defects and determining their sizes, the presence and size of cracks and brown spots on the internal surface of the support are used to judge the corrosion state of the underground part reinforced concrete support.

Destruction of concrete occurs both in the outer and inner layers of the walls of centrifuged supports (Podolsky V.I. Reinforced concrete supports of the contact network. Design, operation, diagnostics / V.I. Podolsky. M .: Intekst, 2007. 152 p.). The inner layer with a thickness of 0.5-2.0 cm, as a rule, is a cement-sand mortar. Its large and small aggregate during centrifugation moves to the outer walls. As a result, the outer layer of concrete is dense, with a large amount of coarse and fine aggregate, and the inner, on the contrary, consisting of a porous cement-sand mortar, prone to deformation. Under the influence of temperature stresses, after several cycles of freezing and thawing, or under the influence of electrocorrosion, longitudinal cracks can form in the supports, which reduce the bearing capacity. Moreover, it is rather difficult to detect such damage, since there may not be any external signs on the surface of the supports. Therefore, a visual inspection of the inner surface for cracks and the output of the products of corrosion of the reinforcement can give reliable information about the corrosion state of the underground part of the contact network support without digging it.

The figure shows a functional diagram of the installation that implements measurements by this method. The following notation is used in the figure: 1 - image processing system, 2 - screen, 3 - endoscope control system, 4 - power supply unit, 5 - ventilation hole, 6 - internal surface of the support, 7 - lighting system, 8 - video endoscope, 9 - level soil.

The installation contains a video endoscope 8 with a lighting system 7, an endoscope control system 3, a power supply 4, a screen 2, an image processing system 1.

The method for determining the corrosion state of the underground part of reinforced concrete supports of power lines and a contact network is as follows. Through the ventilation hole 5, a video endoscopic system 8 is placed inside the support, using the lighting system 7, the required level of illumination of the inner surface of the support 6 is provided, using the control system of the endoscope 3, it is moved so as to examine the entire inner surface of the support 6 from the surface of the soil 9 to the base of the support . Video information is displayed on the screen 2 to the operator and fed to the image processing system 1 for automatic recognition of defects and determining their sizes. By the presence and size of cracks and brown spots on the inner surface of the support, the corrosion state of the underground part of the reinforced concrete support is judged.

In this method, the accuracy of determining the corrosion state of the underground part of reinforced concrete supports is increased by examining the inner surface of the support, as more informative about the corrosion state of the support, and increasing the depth of inspection of the underground part of the support, reducing the complexity of the need to dig the support.

Claims (1)

A method for determining the corrosion state of the underground part of reinforced concrete supports of power lines and a contact network, comprising a visual inspection of the underground part of the reinforced concrete support, characterized in that a video endoscopic system is placed through the ventilation hole inside the support, using the lighting system, the required level of illumination of the inner surface of the support is provided using the system the endoscope controls move it in such a way as to examine the entire inner surface of the support from the surface soil to the base of the support, video information about the condition of the internal surface is displayed on the screen to the operator and transmitted to the image processing system for automatic recognition of defects and determining their sizes, the presence and size of cracks and brown spots on the internal surface of the support is used to judge the corrosion state of the underground part of the reinforced concrete support.