RU199839U1 - Device for ultrasonic testing of metal products - Google Patents

Abstract

Usage: for non-destructive testing of metal products working under pressure. The essence of the utility model lies in the fact that the device for ultrasonic testing of metal products includes an arcuate holder for an acoustic unit, in the case of which piezoelectric transducers are installed. The arcuate holder with the acoustic unit is connected through a ramp and a rack with a screw rod with the possibility of vertical movement, while the arcuate brackets are movably fixed to the ends of the arcuate holder to adjust the diameter of the product. The stand is movably fixed on a screw rod. A rack on a screw rod is connected to an electric drive. A damper is installed at the lower end of the rack on a screw rod. A stand on a screw rod with a damper and a ramp are fixed on a plate with wheels. EFFECT: improving the quality of scanning of the controlled item. 4 p.p. f-ly, 2 dwg

Description

The utility model relates to the field of non-destructive testing of metal products operating under pressure, and is designed to detect and characterize defects in welded joints and the base metal of metal products.

Known scanning flaw detector (RU 142323, class G01N 29/265, F17D 5/00, publ. 06/27/2014), including a sensor mounted on the chassis frame, a sensor of non-destructive testing with a magnetizing system (supporting magnetic wheels) and emitting and receiving primary electromagnetic acoustic transducers and an electronic unit with a preamplifier.

The disadvantages of this device are the poor sensitivity of eddy current sensors to such types of defects, such as corrosion, as well as insufficient accuracy in determining the geometric parameters of defects. In addition, this device can only be used for vessels made of ferrimagnetic alloys.

The closest in technical essence is an ultrasonic measuring unit and a mechanoacoustic unit for it (RU 2351926, class G01N 29/04, G01N 29/26, published on 10.04.2009), containing a flaw detector and a mechanoacoustic unit, which includes one acoustic unit, connected a communication channel with a flaw detector, and a device for rotating cylinders, made in the form of a base with an arcuate holder for an acoustic unit, in the housing of which piezoelectric transducers are installed.

The disadvantage of this device is the impossibility of monitoring a stationary, vertically located vessel.

The technical problem of the utility model is the creation of a device for ultrasonic testing of metal products with the possibility of monitoring longitudinal and transverse welds on pipelines and vessels made of high-alloy (austenitic) and carbon steels, located both in horizontal and vertical positions.

The technical result is to improve the quality of scanning of the controlled product.

The stated problem and the technical result are achieved by the fact that the device for ultrasonic testing of metal products includes an arcuate holder for an acoustic unit, in the case of which piezoelectric transducers are installed. According to the utility model, an arcuate holder with an acoustic unit is connected through a ramp and a rack with a screw rod with the possibility of vertical movement, while arcuate brackets are movably fixed to the ends of the arcuate holder to adjust the diameter of the product.

The stand is movably fixed on a screw rod.

A rack on a screw rod is connected to an electric drive.

A damper is installed at the lower end of the rack on a screw rod.

A stand on a screw rod with a damper and a ramp are fixed on a plate with wheels.

The connection of the arcuate holder with the acoustic unit through a ramp and a rack with a screw rod with the possibility of vertical movement allows improving the quality of scanning of vertically located welded joints.

The movable fastening to the ends of the arcuate holder of the arcuate brackets for adjusting the diameter of the product provides the ability to inspect the welded joints of vessels of various diameters, which increases the quality of scanning of the tested product.

The movable fastening of the stand on a screw rod allows you to move the device in a vertical plane.

The connection of a rack on a screw rod with an electric drive allows for automatic inspection of vertically located welds.

Installing a damper at the lower end of the screw rod provides vibration damping when the device is moved in the vertical plane.

Fastening a screw stand with a damper and a ramp on a plate with wheels allows you to scan the circumferential seams of the vessels, as well as move the devices in different directions, which improves the quality of scanning of the controlled item.

A device for ultrasonic testing of metal products is illustrated by a drawing, where in FIG. 1 is a side view of a device for ultrasonic testing of metal products, FIG. 2 is a top view of the device.

The device for ultrasonic testing of metal products includes an arcuate holder 1 for the acoustic unit 2. Piezoelectric transducers are installed in the acoustic unit 2 housing. The arcuate holder 1 with the acoustic unit 2 is connected through a ramp 3 and a rack 4 with a screw rod 5 with the possibility of vertical movement. In this case, the post 4 is movably mounted on a screw rod 5. The post 4 on a screw rod 5 is connected to an electric drive 6. At the lower end of the screw rod 6, a damper 7 is installed.

To the ends of the arcuate holder 1, arcuate clamps 8 are movably fixed to adjust the diameter of the product.

Rack 4 on a screw rod 5 with a damper 7 and a ramp 3 are fixed on a plate 9 with wheels 10.

The device operates as follows.

The device is installed on a stationary vertical vessel. The arcuate holder 1 of the device is fixed in the required position. Further, the arcuate holder 1 with the acoustic units 2 installed on it is moved vertically upward at a given speed along the helical rod. For the behavior of the girth weld control on the device, the position of the piezoelectric transducers is changed from vertical to horizontal. With the help of wheels, the device controlled by an electric motor moves around a stationary installed vessel.

This utility model is at the preliminary design stage.

Claims (5)

1. A device for ultrasonic testing of metal products, including an arcuate holder for an acoustic unit, in the case of which piezoelectric transducers are installed, characterized in that the arcuate holder with the acoustic unit is connected through a ramp and a rack with a screw rod with the possibility of vertical movement, while to the ends of the arcuate the holder is movably fixed with arcuate brackets for adjusting the diameter of the product. 2. The device according to claim 1, characterized in that the stand is movably fixed on a screw rod. 3. The device according to claim 1, characterized in that the stand on the screw rod is connected to the electric drive. 4. The device according to claim 1, characterized in that a damper is installed at the lower end of the rack on a screw rod. 5. The device according to claim 1, characterized in that the rack on a screw rod with a damper and the ramp are fixed on a plate with wheels.

Images