RU2086908C1 - Stand for checking roughness indicators - Google Patents

Abstract

FIELD: measurement technology; nondestructive control of materials; may be used for tuning and checking sensors. SUBSTANCE: cylindrical screen is made in the form of two split rings and resilient cover pulled over these rings with the aid of tension ropes and provided with handles. The rings are centered on the roughness indicator housing with the use of studs. EFFECT: enlarged functionality. 2 dwg

Description

 The invention relates to non-destructive testing and can be used to configure and control sensors, on-board equipment of profilometers.

A known test sample for ultrasonic inspection, consisting of a piece of pipe with artificial defects in the form of a contour, for example a triangle, with a bottom, equidistant to the outer and inner surfaces of the sample, made, the first on the outer surface and the second on the inside. If a defect is detected during product inspection to determine its preferred orientation, sensitivity is set separately for each of the faces of the polygon, and each time the magnitude of the signals reflected from the defect is evaluated [1]
A disadvantage of the known device is the inability to use profilometers for monitoring measuring deviations of the internal dimensions of the pipe from building standards.

A device is also known for adjusting a profilometer with electromechanical sensors of the United States company Linealog, consisting of an integral ring of a given diameter. The ring is mounted concentrically relative to the shell of the profilometer so that the probe probes are pressed by the ring to a reference distance limited by the ring. In this position, the equipment is set up and checked [2]
The disadvantage of this device is the functional limitation that does not allow to simulate deviations from the norms on the pipe: protrusions, dents, narrowing, expansion.

 The purpose of the invention is the expansion of the functionality of the device for monitoring the profilometer.

 This goal is achieved by the fact that in the well-known stand for monitoring the profilometer, consisting of a detachable cylindrical screen of a given diameter, the cylindrical screen is made in the form of two detachable rings and stretched over them using the tie ropes of an elastic casing with handles on the outer surface, and the rings are centered on the housing using studs.

 Well-known stands containing a hard screen of a given diameter, allow you to check the operability of the sensors, but do not allow them to configure and calibrate for deviations from the norms in the pipe.

 An elastic casing, stretched over the frame, allows you to simulate the protrusions, dents, expansion of the pipeline and thereby configure the sensors.

 Therefore, the new solution has significant differences, because determined by the novelty of the relationship between its symptoms and the positive effect.

 The drawing shows a stand for tuning and monitoring the profilometer.

 The cylindrical screen consists of two split rings 1, which, with the help of knitting needles 2, are centered on the body of the profilometer 3 above the sensors 4. An elastic casing 6 with handles 7 is pulled over the rings using the tie ropes 5 on the outer surface.

 When assembled, the sensors 4 of the profilometer are supplied with power and the stand imitates the geometry of the pipe, which does not have distortions.

 The sensors 4 measure the steady-state distance from the surface of the profilometer 3 to the screen in the form of an elastic casing 6.

 To simulate the deformation of the pipe wall in the required place, an external force is applied to the elastic casing 6, i.e. the surface of the casing 6 is either pressed or the elastic casing 6 is pulled by the handle 7.

 The sensors 4 of the profilometer 3 respond either to inward deformation or to outward deformation in comparison with the pipe diameter.

 Thus, the operability of the sensors 4 is checked and their calibration is carried out depending on the simulated pipe deformation.

Claims (1)

 A stand for controlling the profilometer, comprising a screen designed to be placed on the body of the controlled profilometer, and sensors, characterized in that, in order to expand functionality by not only monitoring, but also configuring and calibrating the profilometer, the screen is made in the form of two rings, arranged concentrically with the possibility of relative movement, and an elastic casing fixed to the rings by means of tie ropes, the stand is equipped with studs evenly spaced around the circumference of the rings pits designed to center the rings relative to the body of the profilometer, and the sensors are located on an elastic casing.