RU88447U1 - ADJUSTMENT TO A DYNAMIC SMALL-SIZED SOLIDER FOR MEASUREMENTS OF MATERIAL HARDNESS ON A CONICAL SURFACE - Google Patents

Abstract

A fixture for a dynamic small-sized hardness tester designed to measure the hardness of a material on a conical surface of the transition of radial holes to the inner surface, made in a product such as a long pipe, contains a holder for moving the hardness tester sensor with a trigger button to the test conical surface of one of the radial holes, equipped with a inside a long pipe the end of the body, made in the form of a channel and having an inclined platform, the angle of inclination of which coincides with the angle of inclination of the investigated conical surface, and on which there is a hardness tester sensor, the end of which is in contact with the studied conical surface, and the release button with the plate attached to the holder and connected to the outgoing rod, and also contains a clamp assembly made in the form of a rod , in which one end abuts against the housing with an inclined platform fixed to the holder, and the second end comes out through the other radial hole.

Description

The invention relates to the field of measurement technology, in particular, to a device made in the form of a device, which is provided with a hardness tester, for example, dynamic small-sized during measurements of the hardness of the material on the conical surface of the transition of the radial holes to the inner surface, available in the product such as a long pipe, for example , inside the autoclave reactor vessel, the length of which is about 3 meters.

Non-destructive testing devices are known, including those for controlling the hardness of large-sized steel and cast iron products, which include, among others, a dynamic hardness tester of the grade 54-359M (see, for example, the article by Pavlov A.G. and others "Non-destructive testing devices developed and manufactured by the State Unitary Enterprise Central Scientific Research Institute of Materials, Metalworking, 2001, No. 1, p.66-67. Moreover, with all the advantages of such devices, if necessary, measure hardness in the depth of a large pipe type part, and even more so, if you need to take a few measurements and at stake cal surface, so even with the shift, there are great difficulties and hardships.

The authors are not aware of sources of information that would report on devices used in measuring the hardness of a material on a conical surface of the transition of radial holes to the inner surface, which are available in a product such as a long pipe.

The technical result, which is achieved by the claimed utility model, is to enable the required hardness measurements using a dynamic small-sized hardness tester on the conical surface of the transition of the radial holes to the inner surface inside the part of considerable length, and at the same time to ensure that the hardness gage sensor is pressed against the test plane.

To achieve the specified technical result, the inventive device is used for a dynamic small-sized hardness tester, designed for repeated measurements of the material hardness on the conical surface of the transition of radial holes to the inner surface inside a part such as a long pipe, which contains a holder for moving the hardness sensor with the trigger button to the conical surface of one of the radial holes provided at the end inserted into the length of the pipe a housing made in the form of a channel and having an inclined platform, the angle of inclination of which coincides with the angle of inclination of the investigated conical surface, and on which the hardness tester is located, the end of which is in contact with the studied conical surface, and the release button is connected to the plate fixed to the holder and connected with outgoing traction. Moreover, the inventive device also contains a clamping unit, made in the form of a rod, in which one end abuts against the housing with an inclined platform fixed to the holder, and the second end comes out through another radial hole.

The inventive device for a hardness tester with the indicated design features, including a holder that provides movement of the hardness gage sensor to the test surface, triggering of its release button, as well as a node for pressing the hardness gage sensor to the conical surface, allows measurements to be taken on the conical surface at a depth, transition of radial holes to the inner surface inside the part, such as a long pipe, displaying their readings on a display located outside the part.

The figure shows a General view of the inventive device.

The inventive device for a dynamic small-sized hardness tester, for example, of type 54-359 M, comprises a holder 1 for moving the hardness tester sensor 3 having a shutter button 2 to the conical surface 4 under investigation of one of the radial holes 5, provided with a housing 6 at the end of the long holder 1 inserted into the interior, made in the form of a channel and having an inclined platform 7, the angle of inclination of which coincides with the angle of inclination of the investigated conical surface 4, and on which a hardness tester, the sensor 3 of which is in contact with the test my conical surface 4, and the release button 2 - with a swinging plate 8, mounted on the holder 1 and connected with the outgoing rod 9, placed on the uprights 10. In addition, there is also a clamping unit made with the possibility of axial movement in the form of a rod 11, in which one 12 end abuts against the housing 6 with an inclined platform 7, and the second end 13 extends through another radial hole 14.

The principle of operation of the claimed device is as follows. If it is necessary to measure the hardness of the material using a dynamic small-sized hardness tester on the conical surface 4 of the transition of the radial holes 5 or 14 to the inner surface inside the part of a significant length, the hardness tester 3 with its release button 2 is installed on an inclined platform 7 of the housing 6, the angle of inclination of which coincides with the angle the inclination of the investigated conical surface 4. In this case, the plate 8, mounted on the holder 1, is in contact with the release button 2 of the sensor 3 of the hardness tester. Next, the holder 1 with the hardness tester is introduced into the inside of the long part, brought to the conical surface 4 under investigation so that the hardness sensor 3 abuts against the conical surface 4 under investigation, while the axis of the sensor 3 is normal to it, press the housing 6 to the surface on which it lies with the help of the clamping unit, namely with the help of the rod 11, its end 12, so that it does not bounce at the moment of measurement, after which the progressive movement in the direction of the sensor 3 is reported to the rod 9 and the plate 8 to the trigger button 2 of the sensor 3 verdomera. It is triggered and accordingly measured. To obtain the next measurement, it is necessary to bring the holder with the hardness tester out, cock the sensor 3 trigger mechanism, then bring it back to the conical surface 4 under investigation, press the housing 6 to prevent bouncing, repeat the release button 2 and measure accordingly.

Claims (1)

A fixture for a dynamic small-sized hardness tester designed to measure the hardness of a material on a conical surface of the transition of radial holes to the inner surface, made in a product such as a long pipe, contains a holder for moving the hardness tester sensor with a trigger button to the conical surface of one of the radial holes, equipped with a inside a long pipe with the end of a body made in the form of a channel and having an inclined platform, the angle of inclination of which coincides with the angle of inclination of the investigated conical surface, and on which there is a hardness tester sensor, the end of which is in contact with the studied conical surface, and the release button with the plate attached to the holder and connected to the outgoing rod, and also contains a clamp assembly made in the form of a rod , in which one end abuts against the housing with an inclined platform fixed to the holder, and the second end comes out through the other radial hole.