RU191633U1 - Device for non-destructive x-ray inspection of the pipeline - Google Patents

Abstract

Usage: for non-destructive x-ray inspection of pipelines. The essence of the utility model is that a device for non-destructive x-ray inspection of pipelines, containing an x-ray radiation source, a radiation detector, a positioning system of device elements and fastening elements of the device on a controlled pipeline, characterized in that the positioning system contains a frame for accommodating the radiation detector, which serves as the basis on which the guides are mounted with the ability to move under the diameter of the pipe being monitored and the C-oob is rigidly fixed different brackets spaced a certain distance from each other with elements for securing the x-ray source of radiation, and elements for securing the device on the controlled pipeline contain clamps, rigidly mounted on the frame, and coupling belts. Technical result: reduction of time for preparatory work in the place of control, increasing work efficiency. 2 ill.

Description

The technical solution relates to the field of materials control by the radiation method, and can be used to detect corrosion defects of the base metal of pipelines, including pipelines coated with thermal insulation with an outer diameter of 32 to 320 mm.

A device is known for inspecting an annular weld of a pipeline, including a guide for pressing around the pipeline, a radiation source and a radiation detector that are independently moving along the guide around the circumference and are installed on opposite external sides of the weld of the pipeline and moving on the corresponding motorized carts that are controlled to move along the guide (see ., patent RU, No. 2533757 C2, IPC G01N 23/04).

The closest technical solution is a device for non-destructive x-ray inspection of pipelines, including an x-ray radiation source, a radiation receiver and a positioning and moving system on the diametrically opposite sides of which the radiation source and radiation receiver are placed, while the radiation source is placed at an angle of no more than 15 degrees relative to the surface of the pipeline . The positioning and moving system is installed coaxially to the pipeline, embracing it for fixing on it and equipped with a mechanism for changing the angle of rotation of the radiation connected to the receiver for multi-angle transmission of the base metal of the pipeline and obtaining a volumetric image of the defect and its depth, (see RU patent No. 2496106 C1 , IPC - G01N 23/18)

The disadvantages of the known technical solutions are the complexity and large mass of the structure, significant time spent on installation and preparation of the device for operation.

The technical result of the claimed technical solution is to reduce the time for preparatory work in the place of control, increasing work efficiency.

The technical result is achieved by the fact that in a device for non-destructive x-ray inspection of pipelines containing an x-ray radiation source, a radiation detector, a positioning system of device elements and fastening elements of the device on a controlled pipeline, the positioning system contains a frame for placing a radiation detector, which serves as the base on which the guides are fixed the ability to move under the diameter of the controlled pipe and rigidly fixed C-shaped brackets, spaced e at a distance from each other with fixing elements X-ray source, and the fastening device elements on a controlled pipe comprise retainers fixed to the frame and tensioning belts.

The implementation of a positioning system containing a frame for placing a radiation detector, on which guides are mounted with the ability to move under the diameter of the pipe being monitored and C-shaped brackets are spaced apart at some distance from each other with the fixing elements of the x-ray radiation source allows combining the guides with the controlled pipeline ( if necessary, expanding the guides to the diameter of the pipe), connect them and using fastening elements (tie straps) quickly install on the pipeline a device with preliminary laboratory adjustment of the source and radiation detector, reducing the time required to prepare the device for monitoring.

The implementation of the positioning system of the device of a simplified design, as well as lightweight (weight 4 kg), due to the implementation of its elements from aluminum and wooden planks, accelerates the installation of the device anywhere, reducing the time required to prepare it for work during non-destructive x-ray inspection of industrial pipelines.

The figure 1 shows a schematic General view of the device Assembly, mounted on a controlled pipeline;

The figure 2 shows schematically a positioning system with fastening elements of the device on the pipeline.

A device for non-destructive x-ray inspection of pipelines consists of an x-ray source 1, for example, a MART-250 model with a side output of an x-ray beam, a radiation detector 2, for example, a model DXR250U-W wireless digital x-ray detector, a positioning system relative to a controlled pipeline containing a frame 3 for installing and securing a radiation detector 2 provided with a cover 4. On the frame 3, which serves as the base, guides 5 are made, made in the form of bo ttom rectangular section with a cut on the one hand to improve the connection with the pipe. The guides 5 are mounted with the possibility of moving under a different diameter of the controlled pipe 6. On the frame 3, C-shaped brackets 7 are fixedly fixed at the free ends of which are screw rods 8 with clamps 9 for fastening the radiation source 1. The fastening elements of the device on the pipeline contain clamps 10 made in the form of rods of rectangular cross-section, rigidly fixed from below to the frame 3 and protruding beyond the dimensions of the frame 3, coupling belts 11 with a ratchet mechanism 12.

A device for non-destructive x-ray inspection of pipelines is used as follows.

Initially, in laboratory conditions, the radiation source 1 and radiation detector 2 are mutually fastened and aligned. To do this, the radiation detector 2 is inserted into the frame 3, and the frame cover 4 is closed. Then, the brackets 7 fix the clamps 9 for fastening the radiation source 1 and the clamps 9 fasten the radiation source 1 so that its supply connector is on the side of the hole in the detector frame 3, and the center of the x-ray beam is directed to the center of the radiation detector.

At the place of the pipeline control, moving the guides 5 under the controlled diameter of the pipe, start the device behind the pipe, placing the guides 5 on the pipe in the calculated place and using the tie straps 11 with the ratchet mechanism 12 and clamps 10 fix the device to the pipe while the center of the x-ray beam passes through pipe axis. The positioning system in the place of control of the pipeline provides mutual fixation of the radiation source 1 and radiation detector 2 without additional settings, since the alignment of the radiation source and detector was carried out previously in the laboratory. The activated radiation source 1 creates an x-ray beam passing through the pipe 6 in a controlled place of the pipe and creating a signal on the radiation detector 2, which forms an image of the main metal of the pipeline on the monitor with possible corrosion defects in it (not shown conventionally). To control the metal of the pipe, the tension belts 11 are loosened elsewhere, shifting the ratchet mechanism lock 12 and the device is moved along the pipeline in the longitudinal or radial direction and secured by the tension belts 11 in the next monitoring position.

A device for non-destructive X-ray inspection of pipelines that does not require long preparation for work at the pipeline inspection site, lightweight, weighing about 4 kg, quick-detachable and quickly installed (it takes no more than 3 minutes), which allows to identify, fix the location and determine the size of corrosion defects of the main metal of the pipeline, arising during the operation of the pipeline, will find industrial application.

Claims (1)

A device for non-destructive x-ray inspection of pipelines, containing an x-ray radiation source, a radiation detector, a positioning system of device elements and fastening elements of the device on a controlled pipeline, characterized in that the positioning system contains a frame for placing a radiation detector, which serves as the base on which the guides are movable under the diameter of the controlled pipe and C-shaped brackets spaced apart standing apart from each other with elements for securing the x-ray radiation source, and elements for securing the device on the controlled pipeline contain clamps, rigidly mounted on the frame, and lashing straps.

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