RU185857U1 - FERROMAGNETIC STEEL ELECTROMAGNETIC HOLDER FOR MICROSCOPIC STUDY - Google Patents

Abstract

Field of use: heat power engineering. The device contains a non-magnetic base, in which there is fixed means of electromagnetic action on the adapter, designed to hold the required small items with the help of a magnetic field. The specified base is made in the form of an overturned glass, in the bottom of which a spatial hinge is installed along the axis of the glass with an electromagnet passed through it. The rod end is used as the specified adapter. The spatial joint is equipped with a clamp securing the selected position of the rod. Effect: increasing the accuracy of positioning a small sample in the device before fixing it by filling the mold with a substance with a low pour point. 1 s.p. f-ly, 4 ill.

Description

Area of use

The utility model relates to the field of microscopic studies of ferromagnetic steel samples to identify defects in their structure.

State of the art

Microscopic examination (examination of a sample using optical and electron microscopes) usually requires the preparation of a slice of a sample with a certain orientation of the slice plane, which most representatively reveals the characteristics under study.

A device is known for fixing a solid sample by pouring it with a substance with a low pour point before creating the necessary orientation for microscopic examination in the slice sample, containing a flat base for placing the sample and a casting mold installed on the indicated base, and a layer of plasticine with an external coating a flat surface parallel to the plane of the base for pressing the sample into it so that its future cut coincides with the external surface layer of clay (RU 114530, G01N 1/28, 2012 [1]).

Essentially, the device [1] is an artificially created fixture of a small sample cut out from the metal of power equipment elements. For the manufacture of the thin section examined under the microscope, the sample is installed in the required spatial position.

In this case, the necessary orientation of the sample when pressed into the plasticine is made by positioning it with the fingers of the operator, that is, the fingers of the operator in this case are the holder of the specified sample and can be considered as a first approximation as an analogue of the patented utility model.

Using the operator’s fingers as a sample holder cannot provide sufficient accuracy for its positioning, especially when examining a metal with a heterogeneous structure, which includes, in particular, welded joints consisting of deposited metal, a heat-affected zone, and an adjacent base metal, since this accuracy of the positioning of the sample should ensure that the slice is performed within the specified small layer thickness.

Known electromagnetic holder of small-sized objects made of ferromagnetic material, containing a non-magnetic base, in which is fixed the means of electromagnetic action on the adapter, designed to hold the required small-sized object with the help of a magnetic field (RU 2093900, B23Q 3/15, 1995 [2] - prototype). The electromagnetic holder [2] cannot be used for preliminary positioning of the sample when it is installed in the device [1], since the adapter of the holder [2] is a relatively wide plate designed to capture a large number of small-sized objects in order to transfer them from one place to another in the engineering process.

Utility Model Disclosure

The technical result of the patented utility model is to increase the accuracy of positioning a small sample in the device [1] before fixing it by filling the mold with a substance with a low pour point.

The achievement of the specified technical result is ensured by the fact that in the electromagnetic holder of small-sized objects made of ferromagnetic material containing a non-magnetic base, in which the electromagnetic means are attached to the adapter, designed to hold the desired small-sized object with the help of a magnetic field, according to the patented utility model, said base is made in in the form of an overturned glass, in the bottom of which a spatial hinge with a missing Erez electromagnet has a rod, wherein the adapter as said end of said rod serves, and wherein said hinge is provided with a spatial position of the selected fixation rod clamp.

A causal relationship between the totality of the main features of the patented utility model and the achieved technical result is as follows: the base of the holder is in the form of an overturned cup, in the bottom of which a spatial hinge with an electromagnet rod passed through it is installed, allows spatial positioning to be further cut the boundary between heterogeneous layers of metal magnetized to the sample holder relative to the plane of the open end of the glass. Using as an adapter the end face of the rod of the electromagnetic holder provides ease of installation of the sample in the device [1]. The presence of a fixing clip on the spatial hinge allows you to rigidly fix the position of the rod after the implementation of its necessary spatial positioning.

Brief Description of the Drawings

In FIG. 1 is a sketch showing a general view of an electromagnetic holder according to a patentable utility model with a small-sized sample of ferromagnetic material magnetized to its adapter; in FIG. 2 - the same in interaction with the plasticine layer of the device [1] before filling the mold with a substance with a low pour point; in FIG. 3 - the device [1] with the sample fixed on it after filling the form with a substance with a low pour point; in FIG. 4 - node articulation of the sample in the place of the necessary slice with a flooded form.

List of drawing items

10 - non-magnetic base of the holder in the form of an overturned glass; 20 - spatial hinge; 30 - solenoid type electromagnet; 31 - rod of the electromagnet; 311 - adapter (rod end); 40 - flat base of the device [1]; 50 - casting mold; 60 - a layer of plasticine; 61 - the outer flat surface of the plasticine layer; 70 - test sample; 80 - a substance with a low pour point.

Utility Model Implementation

The electromagnetic holder of small-sized objects made of ferromagnetic material, according to the patented utility model, contains (Fig. 1, 2) a non-magnetic base in the form of an overturned glass 10, in the bottom of which a spatial hinge 20 is installed along the axis of the glass. Inside the glass 10 there is an electromagnetic effect on the adapter, designed to hold with the magnetic field the desired small item. The specified tool is an electromagnet 30 of the solenoid type, mounted on a rod 31, passed through the specified spatial hinge 20, and the rod end 311 serves as the specified adapter. The position of the rod 31 in the spatial joint 20 is set both by its angular rotation, and by axial movement. To ensure the stiffness of the rod when adjusting its position, as well as guaranteeing a sufficient spot of contact of the sample with the adapter, the diameter of the holder rod should be at least 8 mm.

With a larger diameter, in order to achieve the optimal geometric correspondence between the dimensions of the adapter and the retained small-sized sample, the output end of the rod can be made in the form of a truncated cone tapering to the end face, like a pencil or ballpoint pen.

The spatial hinge 20 is equipped with a clamp fixing the selected position of the rod, and the solenoid coil is connected via a start button to a power source (not shown).

Industrial applicability

The device according to the utility model meets the condition of "industrial applicability". The essence of the technical solution is disclosed in the formula, description and drawings clearly enough for understanding and industrial implementation by appropriate specialists based on the current state of the art in the field of heat power engineering. As an example of industrial application, the following is a description of the use of a patentable electromagnetic holder for precise positioning of a small-sized sample of ferromagnetic steel with a multilayer heterogeneous structure in the device [1] in order to study the thin section in the selected layer of the specified sample under a microscope.

The specified device [1] (Fig. 3) is a flat base 40 and a casting mold 50 mounted on the specified base, and a plasticine layer 60 with an external flat surface 61 parallel to the plane of the base 40 for pressing the sample 70 into it is applied to the specified base 40 so that its future slice coincides with the outer surface of the plasticine layer 60. The positioning of the specified sample in plasticine is carried out using a patentable electromagnetic holder. In this case, the sample pre-magnetized to the adapter (end face 311 of the rod 31) of the holder is oriented by moving the rod 31 in the spatial hinge 20, so that the visible boundary between two layers with a heterogeneous structure intended for microscopic examination is parallel to the exit section plane of the overturned glass 10, after which the position of the spatial joint 20 is fixed with a clamp not shown in the drawing. In this position, the sample is pressed into plasticine, after which the electromagnet coil is disconnected from the power supply, the electromagnetic holder is removed, and the mold 50 is filled with substance 80 with a low pour point (epoxy resin).

In FIG. 3 shows a device [1] with a sample mounted on it after pouring the mold with epoxy resin; in FIG. 4 in an enlarged scale - the junction of the sample with the flooded shape, and the sample shows the visible boundary between the layers, along which the section is then cut and the thin section is prepared for microscopic examination.

As a pilot test showed, the use of a patentable electromagnetic holder in this example of its industrial application provides the necessary accuracy in positioning a sample of a heterogeneous material during its microscopic examination.

Claims (1)

An electromagnetic holder of small-sized objects made of ferromagnetic material, containing a non-magnetic base, in which electromagnetic means are attached to the adapter, designed to hold the required small-sized objects by means of a magnetic field, characterized in that said base is made in the form of an overturned glass, the bottom of which along the axis of the glass a spatial hinge is installed with the electromagnet rod passed through it, and the end of the decree serves as the specified adapter Nogo rod and said hinge is provided with a spatial position of the selected fixation rod clamp.

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