SU1087869A1 - Assembly for suspension prism with converter for flaw detection scanning device - Google Patents

Abstract

NODE SUSPENSION PRISM WITH TRANSDUCER to a scanning device for round stock TESTING comprising a two-armed lever pivotally mounted on the faceplate of the scanning device and spring-loaded towards it, a mandrel with a counterweight secured to one end of the lever, and the prism with the transducer, pivotally mounted on the second end of the lever, made with eyelets, characterized in that, in order to increase the reliability of the control, it is equipped with two flat springs, cantilevered fixed to the eyelets of the lever, the prism is made ene with four arranged at the end opposite its base surface, by stops cooperating with the flat springs and hinge pins fixed to the prism are mounted in lugs with a gap, providing angular movement of the prisms about the axes of hinges. (L 00 00 O5

Description

The invention relates to non-destructive testing, is intended for detecting defects of calibrated metal and long products of round section and can be used both in finishing lines at metallurgical plants, and at incoming inspection at machine-building plants.

The known node of the transducer's suspension is scanned to a flaw detection device containing a hinged rhombus mounted on the faceplate of a scanning flaw detector, balanced by counter weights fixed at the tops of the rhombus, and the transducer 1 mounted at the top of the rhombus.

However, this control unit during monitoring cannot reliably track the converter with controlled rolling at its angular and parallel displacements relative to the axis of rotation of the faceplate.

The closest in technical essence to the invention is a prism suspension assembly with a converter to a scanning device for round steel inspection, containing a double-arm lever pivotally mounted on the faceplate of the scanning device and spring-loaded to it, a mandrel with a counterweight attached to one end of the lever, and a prism with the transducer, pivotally mounted on the second end of the lever, made with lugs 2.

However, the fingers of the hinges mounted on the prism are mounted in the lugs rotatably around the axes of the hinges and do not allow the prism to make angular movements relative to this axis, which makes it impossible in principle for the converter to track the angular deviations of the rolled steel, which sharply reduces the reliability and quality of control.

The aim of the invention is to increase the reliability of control of the round bar.

The goal is achieved by the fact that a prism suspension assembly with a converter to a scanning device for round steel inspection, containing a double-arm lever pivotally mounted on the faceplate of the scanning device and spring-loaded to it, a mandrel with a counterweight mounted on one end of the lever, and a prism with a converter, pivotally mounted on the second end of the lever, made with eyelets, equipped with two flat springs, cantilever-mounted on the arms of the lever, the prism is made with four located E at the end opposite its base surface, by stops cooperating with the flat springs and hinge pins fixed to the prism are mounted in lugs with a gap, providing angular movement of the prism about axes scharnirov.

FIG. 1 shows the structure of a scanning device; in fig. 2 is a view A of FIG. one; in fig. 3 is a view B in FIG. 2; in fig. 4 shows a section B-B in FIG. 2; in fig. 5 is a schematic depiction of a suspension assembly and a monitored rod, extending at an angle to the axis of rotation of the faceplate.

The device comprises a housing 1 with replaceable bushings 2, a faceplate 3,

on which there are two brackets 4, each of which has a roller 5, an adjustable stop 6, an axis 7, a prism suspension assembly lever 8 suspended on it, a spring 9 and a mandrel 10 fixed on the rod 5. On the mandrel 10 is wearing a counterweight 11, pressing the spring 12 to the roller 5. At the other end of the lever is mounted on the fingers 13 a prism 14, in contact with a controlled product 15. In the prism

14 installed transducers 16 and 0 four stops 17, which are pressed

two flat springs 18, cantilever arm-mounted on the arms of the lever 8. The gap in the connection of the finger and the eyelet of the lever of the lever 8 is chosen so as to ensure that the prism 14 with the converter 16 is able to track the inevitable angular deviations of the car from the axis of rotation of the faceplate.

The suspension assembly works as follows.

When rotating the plate 3 in the absence of a controlled product 15, the lever 8 is rotated around the axis 7 under the action of the spring 9 so that the mandrel 10 is pressed against the adjustable stop 6 and the gap about is chosen. The prisms 14 with flat springs 18 are pressed through the stops 17 in the direction of the axis of rotation (Fig. 2 and 4).

When moving a controlled product

15, through the axis of rotation of the faceplate bar, 0, run over the bevels of the prisms 14 and move them apart,

turns lever 8, expanding spring 9 and creating gap 6. The springs 18 are not deformed in this, and the prisms 14 are in the position shown in FIG. 1., Provides conditions for the normal control of products.

When the controlled article 15 moves parallel to the axis of rotation of the plate 3, its position is tracked by prisms 14 with converters 16 by means of springs 9 and 18 and turns of lever 8 and prism 14.

When moving at an angle to the axis of rotation of the plate 3 (Fig. 5), the controlled product 15, acting on one or the other 5 of the prism 14, deforms the corresponding springs 18 and, choosing a part of the gap, installs the prism 14 along its actual axis. The converter 16 in this case

is positioned normally to the surface of the controlled product 15. When the product leaves the prism 14 or occupies a position parallel to the axis of rotation, the flat springs 18, overcoming the centrifugal force acting on the prism 14, return it to its original position (Fig. 2), restoring the gap D.

Thus, the proposed prism half-mount assembly with a transducer ocyniecr corrects the prism with the transducer to the test item with any possible deviations from the axis of rotation of the faceplate, thereby providing the necessary condition for reliable and quality control.

/ SG

Fig.Z

Claims (1)

PRISM SUSPENSION UNIT WITH A CONVERTER TO A SCANNING DEVICE FOR ROLLED DEFECTOSCOPY, comprising a two-arm lever pivotally mounted on the scanning device faceplate and spring-loaded to it, a counterweight mandrel mounted on one end of the lever, a second arm and a prism made with eyes, characterized in that, in order to increase the reliability of control, it is equipped with two flat springs, console mounted on the eye of the lever, the prism is made with four stops located at the end opposite to its base surface interacting with flat springs, and the hinge fingers mounted on the prism are installed in the eyes with a gap providing angular movement of the prism relative to the hinge axes.