SU693243A1 - Device for determining mechanical parameters of ferromagnetic articles - Google Patents

Description

one

The invention relates to non-destructive testing and can be used in various fields of engineering to determine hardness by coercive force.

A device for determining the hardness of ferromagnetic products is known, comprising a housing, a magnetizing solenoid placed in it, connected to a source of pulsed current, and a ferrosonde probe that converts a normal one. the residual magnetization in the electrical signal ij.

It is also known a device for determining the hardness of ferromagnetic products, comprising a permanent magnet and flux-probes that convert the tangential component of the residual magnetization into an electrical signal 2J.

The disadvantage of these devices is the limited range of application, they control ferromagnetic products, in which the coercive force is insignificant, since they are sensitive to

ferrozond decreases with increasing residual magnetization.

The closest in technical essence to and; the invention is a device for determining the mechanical parameters of ferromagnetic products, comprising a case housed therein a permanent magnet, a balanced step and kinematically; The coiled spring, the wheel system and the dial gauge 3.

The device is designed to control the thickness of non-magnetic coatings on a ferromagnetic basis according to the magnitude of the attraction magnitude of a constant 6 mg to the product and control of products with a large coercive force is impossible.

In order to expand the assortment of controlled products by providing control of products with a large coercive force, the proposed device is equipped with a ferromagnetic tip located at the end of a balanced lever, with a crank mounted on

A permanent magnet and a magnetic screen, while the permanent magnet is attached to the case coaxially with the tip when the giblets of the coil spring, and the magnetic acrax is spring-loaded relative to the case and placed between the permanent magnet and the tip of a spherical cup.

The drawing shows the proposed Device.

It comprises a housing 1, a permanent magnet 2 placed therein, a balanced lever 3, a spiral spring 4 kinematically associated with them, a wheel system (not shown) and a dial indicator 5.

A ferromagnetic tip 6, made in the form of a spherical cup, is placed on the end of the balanced lever 3. By means of a helical spring 7, a permanent magnet 2 is fixed on the housing 1 coaxially with the tip 6 and at a distance away from it. The crank 8 is fixed on a permanent magnet 2 in the opening of the housing 1. The magnetic screen 9 is spring-loaded with a coil spring 10 and is pivotally connected to the housing 1 of the device.

The device works as follows.

When the crown 8 is pressed, the permanent magnet 2, stretching the spring 7 and turning the screen 9, enters the cavity of the handpiece 6, pressing it against the ferromagnetic product, the hardness of which is necessary to be measured. The field of Magnet 2, reinforced by a tip 6, magnetizes the product. Then the crown & released, and under the action of the spring 7, the permanent magnet 2 is released; the screen 9 is released, which takes a horizontal position and shields the tip 6. The tip remains attracted to the ferromagnetic product by the force of the product's floor, which is proportional to the coercive one. strength of the material of the product. Then coil spring 4 begins to unwind, creating an increasing tear-off moment. In case of equality of the detachable moment, MOVfefity

6 to the product, the tip breaks off, the arrow of the indicator 5 indicates the magnitude of the force of attraction. Then, the hardness of the product is determined by correlation.

The magnitude of the detachable torque can be easily adjusted by changing the stiffness of the spiral purple. .

The device can provide a measurement of the hardness of ferromagnetic products with any value of coercive force.

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1. A device for determining the mechanical parameters of ferromagnetic products, comprising a housing placed

it has a permanent magnet, a balanced lever, and a spiral spring, a kinematically associated with it, a wheel system and a dial gauge, so that, in order to expand the range of controlled products by ensuring control of products with large coercive force, it is equipped with a ferromagnetic tip located at the end of the balanced lever, a crown lever mounted on a permanent magnet and a magnetic screen, while the permanent magnet is fixed on the casing coaxially with the screw konechHHKoMJ a.magnitny screen is biased relative to the housing and disposed between a permanent magnet and a tip.

2. The device according to claim 1, wherein the ferromagnetic tip is made in the form of a spherical cup.

Sources of information taken BO attention in the examination

1. USSR author's certificate. No. 331303, c. 01 N 27/80, 196.2. Non-Destructive Testing Handbook, ed. R. Max-M Stera. ML, ,, Energie, 1965.

3. USSR author's certificate number 185495, cl. G 01 B 7 / 10.1965 (prototype).