SU892391A1 - Permeameter - Google Patents

Description

(54) PERMEAMETER

The invention relates to the elements there and to the devices of information-measuring equipment and can be used for sorting materials and parts possessing ferromagnetic properties ..S. The permeameter is known, which contains a hollow body, in the upper part of which a micrometric method is fixed (micrometer). The movable micrometer rod across six intermediate parts carries out the displacement of the movable cylindrical magnet. When a certain gap is reached between the magnet and the object under control, the magnet is suddenly attracted to the object under control. This moment is recorded by the observer through the viewing windows in the housing fl. However, the known device has low reliability and accuracy, which is explained by the presence of mechanical springs, blows of the magnet when it jumps to a controlled object, which leads to demagnetization of the magnets from the blows, and vi-. by close observation of the moment of magnet attraction. The purpose of the invention is to improve accuracy. - -. The goal is achieved by the fact that the permeameter containing a hollow cylindrical body, a micrometer and a movable magnet is equipped with a non-magnetic bushing, a magnetic puck-shaped sub-polarizer, a cylindrical core, an annular measuring winding, a disc-shaped non-magnetic part and a non-magnetic cup rigidly connected by an external face surface of the base plate, a ring-shaped non-magnetic part and a non-magnetic cup rigidly connected by an external face surface of the base plate. . The magnet is made ring-mounted and fixed on the glass at its open end, the magnet is rigidly connected to the outside of the sub-pole inside the magnet. A nonmagnetic sleeve is rigidly installed, inside of which a core is placed on a sliding fit, the non-magnetic disk-shaped part is blocked on it and inside the housing - sa concentric with respect to the core ring-winding is placed, while the inner diameter of the sub-pole is large in the outer diameter of the winding, and the inner diameter of the winding is made large diameter; core ..

The drawing shows the permeameter design.

The permeameter contains a hollow cylindrical body 1 in which a through hole is made to prevent evacuation. A micrometer 2 is fixed in the upper part of the body. Inside the body with the stem 3 of the micrometer, the outer end surface of the base is rigidly connected to a non-magnetic cup 4. At the open end of the glass, it is rigidly a permanent magnet 5, made annular, is fixed, a nonmagnetic sleeve 6 is placed rigidly with it, inside which a cylindrical core 7 is placed on a sliding fit. the toronas are rigidly connected with the diving pole 8,

The open end of the housing 1 is blocked by a non-magnetic disc-shaped part 9 on which the inner side of the body 1 is concentric with respect to the core 7 the ring winding 10 is placed. The inner diameter of the subfield 8 is large outer: the diameter of the winding 10 and the inner diameter of the winding 10 are larger than the core 7.

The non-magnetic disk-shaped part can be made, in particular, from titanium-based alloys.

The outer end of the core may be provided with a rubber tip to reduce the impact.

The permeameter works as follows.

Micrometer 2 is set to zero position of the scale and limb.

The controlled sample 11 is demagnetized and a permeameter is placed on it. Rotation of the micrometer screw 2 with the help of rod 3 brings the magnet to the surface of sample 11. At the same time, as a result of magnetic interaction of the magnet 5 and the core 7, the latter hangs in the field of the permanent magnet and is shifted together with a magnet.

Upon reaching a certain gap between the magnet and the sample, a jump-like attraction of the core 7 to the surface of the sample 11 occurs. Since the core 7 is placed on a sliding fit inside the sleeve 6, it rushes towards the surface of the component 11 at high speed. In this case, the core 7 falls into the winding region 10. In accordance with this, in the winding 10 an emf is induced, by the presence of which a moment of a jump-like attraction is detected. A core.7 to the surface of the part 11. The emf is fixed using an i2 device (analog device, oscilloscope, etc.) AT the moment of occurrence of ED, C stops the magnet feed.

The micrometer readings determine the grade of the ferromagnetic material of sample 11, since the abrupt movement of the core 7 will occur at distances corresponding to the magnetic permeability of

other material.

The simplification of the construction is explained by the exception of complex kinematic joints between the parts difficult to prepare (no

a membrane, a spring, etc. Increased reliability and accuracy is explained by the elimination of magnet strikes. In addition, the accuracy is increased as a result of the presence of a meter of winding, which leads to the elimination of the need for sticking inside the permeameter body.

Claims (1)

1. USSR author's certificate f b9945 & Cl. G 01 R 33/12, 1979.