CS258690B1 - Ultrasonic pendulum mounting device - Google Patents

Abstract

The purpose of the device is to permanently hold the center of the working surface of the ultrasonic probe in the axis of the arm, which is swingably attached to the probe. The stated purpose is achieved by rotatably attaching two pairs of longitudinal arms to two pairs of pins located on two opposite walls of the ultrasonic probe body, which in turn are connected in the same places by two pairs of transverse arms. In the center of the transverse arms, in places shifted closer to the ultrasonic probe by the distance of the body wall pins from the working surface of the ultrasonic probe, we place pins to which we attach the holder.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mechanical device which ensures a constant central holding of the center of the working surface of the ultrasonic (hereinafter US) probe during its tilt.

The prior art devices which provide the swivel or swivel mounting of the UZ-probe are based on the principle of the swivel sleeve on the pin. Despite its location in close proximity to the working surface of the UZ-probe, when the UZ-probe is rotated around a pin, undesirable displacement of the center of its working surface with respect to the arm axis with which the UZ-probe is held. The disadvantage of the known device so far is manifested in the evaluation of the ultrasound measurement, especially in locating a possible defect identified by the ultrasound probe. This is because, when the UZ-probe is rotated relative to the arm, the UZ-signal always enters the material at a different location relative to the arm axis. This results in an undesirable error which reduces the reliability of the ultrasonic measurement.

The above-mentioned drawbacks are eliminated by a device for swinging attachment of the UZ-probe, consisting of a set of transverse and longitudinal arms connected by pins and a holder, which consists in the fact that two opposite walls of the probe body are provided with four pins at the same height. o which four equally long elongated arms are pivoted at one end, each pair of elongated arms which is attached to the same wall of the probe body being pivotably interconnected by means of pairs of transverse arms of a length equal to the distance between the pins located on the same a certain wall of the probe body and at points halfway through the length of each transverse arm that are offset from the endpoints of the transverse arms closer to the UZ-probe by a distance equal to the distance between the UZ-probe body pins and its working surface placed APY on which is mounted rotatable holder.

The main advantages of the device according to the invention are that there is no displacement of the center of its work surface relative to the arm axis when the UZ-probe is rotated by the device described. This means that the UZ-signal always enters the material at the arm axis. identify, by means of conventional sensors, without any deviation.

In the accompanying drawing, FIG.

FIG.

the same device in section.

The device for swinging the UZ-probe consists of the UZ-probe 1 itself embedded in the body 2, in the form of a prism. On the body 2, two pairs of pegs 3 are located on two opposing walls at the same height. Four pegs of equal length *, which are pivotably connected by two ends of pegs 3, are pivoted at one end. the arms 6 equals the mutual distance of two pins 3 located on the same wall of the body 2. In places which are half the length of the transverse arms 6 and which are offset from the connecting line of both edge pins 3 of the transverse arm 6 by a distance equal to the distance of pins 3 located on the wall of the body 2, from the working surface 8 of the UZ-probe 1. The pins 4, located in the middle of the length of the transverse arms 6, have a rotatably mounted holder 4 which is connected to the support arm of the UZ-probe.

The operation of the device is as follows: The UZ-probe 1 with the body 2 is swiveled on an uneven surface of the measured material through the arm system on both sides so that afcoiby rotated around a fictitious line placed on its working plane passing through its center 5th

Measuring equipment, defectoscopy.

Claims (1)

An ultrasonic probe swinging device consisting of an ultrasonic probe with a body, a set of transverse and longitudinal arms, connected by pins and a holder, is characterized in that two opposing body walls (2) are provided at the same height with four pins (3) of which one end pivotally mounted four equally long side arms (7), wherein each pair of longitudinal arms (7) which is attached to the same body wall (2) is pivotally connected by pairs of transverse arms (6) at the same height through pins (3) the length of which is equal to the mutual distance between the pins (3): located on the same body wall (2) and at points halfway through the length of each transverse arm (6) and offset more closely relative to the endpoints of the transverse arms (6) to the ultrasonic probe (1) by a distance equal to the distance between the pins (3j located on the body (2) and the work surface (8) There are pins (3) on which the holder (4) is rotatably mounted.