RU142543U1 - DEVICE FOR ULTRASONIC CONTROL OF CYLINDRICAL PRODUCTS - Google Patents

Abstract

A device for ultrasonic testing of cylindrical products, containing a support for the product, two ultrasonic transducers with a mechanism for moving them, made with the possibility of pressing the transducers to the product and coaxially located opposite each other during the control process, characterized in that the support is additionally equipped with product clamps mounted on a flat graduated ring, contains three coaxial rings, two of which are of the same diameter are placed at a predetermined distance from each other and rigidly connected symmetrically arranged vertical struts, the third ring is located in the same plane with the lower ring, made with a diameter larger than the diameter of the other two rings, and rigidly connected to the upper ring with symmetrically located inclined racks, the product clamps are evenly placed on a graduated ring mounted on a larger diameter ring with using vertical struts above the upper ring, ultrasonic transducers are equipped with spring mechanisms of pressing to the product and are installed at the ends of two parallel but located gear racks, which are part of the movement mechanism of ultrasonic transducers, made in the form of two buildings with grooves that repeat the shape of the supporting surface of the walls of the product under control, two guide grooves for gear racks are made in one of the cases and a gear wheel equipped with a handle is installed, which is engaged simultaneously with two parallel gear racks located with the possibility of vertical movement along the guide grooves, while the housing is connected by a holder,

Description

The inventive utility model relates to equipment used in the development of techniques for ultrasonic testing of products.

It is known "Device for ultrasonic testing of tubular products", and.with. SU No. 1415177 authors A.I. Pantyushina, Yu.I. Zakharova, V.M. Kukhnin and G.I. Baltina used for ultrasonic non-destructive testing of pipes of constant and variable diameters. The device contains a base, roller bearings rigidly fixed on it for installing a controlled product on it, a drive for rotating it, guides, ultrasonic transducers coaxially installed during monitoring and a mechanism for pressing them in the process of monitoring the product, a contactless synchronization unit for the coaxial movement of ultrasonic transducers. The specified device is equipped with an electric drive node synchronization coaxial movement of ultrasonic transducers, which limits the possibility of using this device. The technical problem solved by the claimed invention: the creation of devices for controlling defects in the walls of cylindrical vessels with a spherical bottom, a height of 300-400 mm, a diameter of 270-400 mm, a wall thickness of 12-14 mm.

The technical result consists in providing control of defects in the walls of cylindrical vessels having a spherical bottom in laboratory and field conditions, a full scan of the entire area of the cylindrical part of the test product.

The technical result is achieved due to the fact that the inventive device for ultrasonic testing of cylindrical products, containing support for the product, and an installation device containing two ultrasonic transducers with a movement mechanism, made with the possibility of pressing them against the product and coaxially located opposite each other during the control process, unlike the prototype, the support is additionally equipped with product clamps mounted on a flat graduated ring, contains three coaxial rings, two of which x are made of the same diameter, placed at a predetermined distance one above the other and rigidly connected by symmetrically arranged vertical struts, the third ring is located in the same plane as the lower ring, made by a diameter larger than the diameter of the other two rings, and rigidly connected to the upper ring by symmetrically located inclined racks, product clamps are evenly placed on a graduated ring mounted on a larger diameter ring using vertical struts above the upper ring, ultrasonic transducers The callers are equipped with spring mechanisms of pressing against the product and are installed at the ends of two parallel toothed racks, which are part of the movement mechanism of ultrasonic transducers, made in the form of two cases with grooves repeating the shape of the supporting surface of the walls of the controlled product, two guide grooves are made in one of the cases for gear racks and a gear equipped with a handle is installed, which is meshed simultaneously with two parallel gear racks located with the possibility of vertical movement along the guide grooves, while the housing is connected by a holder made with the possibility of changing its length.

Supplying the support with product clamps ensures reliable fastening of the controlled product in the vertical direction. The presence of a graduated ring allows you to examine the product in the range from 0 ° to 360 ° in the horizontal plane. Due to the movement mechanism, equipped with rails that can be moved in the vertical direction, driven by a gear equipped with a handle with ultrasonic transducers fixed to them, with spring mechanisms, a snug fit to the surface of the product is ensured, and ultrasonic transducers are in constant contact with his wall.

The inventive utility model is illustrated by figures. In FIG. 1 shows a General view of the device for ultrasonic testing of cylindrical products. In FIG. 2 shows the installation fixture.

A device for ultrasonic testing of cylindrical products comprises a support 1 for a controlled product 3, two ultrasonic transducers 15 with a mechanism for moving them 2, configured to press the transducers 15 against the product 3 and coaxially located opposite each other during the control process.

The support 1 is equipped with clamps 5 of the product 3, mounted on a flat graduated ring 4, contains three coaxial rings 18, two of which are of the same diameter are placed at a predetermined distance one above the other and are rigidly connected by symmetrically arranged vertical struts 19, the third ring 20 is located in the same plane with the lower ring 18 is made with a diameter larger than the diameter of the other two rings, and is rigidly connected to the upper ring by symmetrically located inclined racks 21.

The latches 5 of the product 3 are evenly placed on the graduated ring 4, mounted on a ring 20 of a larger diameter using vertical struts 22 above the upper ring 18.

Ultrasonic transducers 15 are located in the housings 17, are equipped with spring mechanisms of pressing 16 to the product 3 and are installed at the ends of two parallel toothed racks 13, which are part of the movement mechanism 2 of the ultrasonic transducers 15, made in the form of two housings 6 and 7 with grooves A, repeating the shape of the supporting surface of the walls of the monitored product 3. In one of the buildings, in this embodiment, in the housing 6, two guide grooves are made (not shown in Fig.) for the gear racks 13 and is equipped with Handle 14 gear 12 meshing simultaneously with two parallel toothed racks 13 arranged vertically movable along the guide grooves, wherein the housing 6 and 7 are connected to the holder 9, arranged to change its length. In this example, the change in the length of the holder 9 is provided by the presence of left and right threads on the studs 8 that are part of the holder 9.

The inventive device for ultrasonic testing of cylindrical products works as follows.

In the support 1 we install the controlled product 3 and fix it with the clamps 5 fixed on the graduated ring 4, thereby ensuring the vertical position of the controlled product 3. On top of the controlled product 3 we install the housings 6 and 7 connected by the holder 9. The housings 6 and 7 have radial grooves A for installing them on the walls of the controlled product 3 from above.

By rotating the pins 8 of the holder 9 we ensure a tight fit of the housings 6 and 7 to the lateral surfaces of the controlled product 3. Rotating the handle 14 of the gear wheel 12, we set the gear racks 13. The rotation of the gear wheel 12 by one tooth corresponds to the simultaneous movement of ultrasonic transducers 15 mounted on the ends gear racks 13, 10 mm. The radial movement of the housings 6 and 7 in the horizontal plane is provided by turning the holder 9 along the upper end surface of the controlled product 3. The rotation is controlled according to the risks of the graduated ring 4 of the support 1.

Claims (1)

A device for ultrasonic testing of cylindrical products, containing a support for the product, two ultrasonic transducers with a mechanism for moving them, made with the possibility of pressing the transducers to the product and coaxially located opposite each other during the control process, characterized in that the support is additionally equipped with product clamps mounted on a flat graduated ring, contains three coaxial rings, two of which are of the same diameter are placed at a predetermined distance from each other and rigidly connected symmetrically arranged vertical struts, the third ring is located in the same plane with the lower ring, made with a diameter larger than the diameter of the other two rings, and rigidly connected to the upper ring with symmetrically located inclined racks, the product clamps are evenly placed on a graduated ring mounted on a larger diameter ring with using vertical struts above the upper ring, ultrasonic transducers are equipped with spring mechanisms of pressing to the product and are installed at the ends of two parallel but located gear racks, which are part of the movement mechanism of ultrasonic transducers, made in the form of two buildings with grooves that repeat the shape of the supporting surface of the walls of the product under control, two guide grooves for gear racks are made in one of the cases and a gear wheel equipped with a handle is installed, which is engaged simultaneously with two parallel gear racks located with the possibility of vertical movement along the guide grooves, while the housing is connected by a holder, made with the possibility of changing its length.

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