RU132365U1 - DEVICE FOR PRODUCING FIBER FROM MELT - Google Patents

Abstract

A device for producing fiber from a melt, including a mixer for metal extraction and a rotary disk crystallizer, a temperature sensor connected to a temperature controller connected to a temperature controller and a frequency controller connected to a thyristor frequency converter, which is connected to an inductor connected by electromagnetic connection with the mixer, in which molten metal is located with the possibility of contact with the crystallizer disk, and to which the electric drive of the mechanism mixer movement, characterized in that a chemical analyzer is connected to the temperature setter, the device comprising a range finder, to which a distance setter is connected via a comparator, which is connected to the electric drive of the mixer moving mechanism.

Description

The utility model relates to the field of metallurgy and can be used to obtain metal fibers from various metals and alloys by melt extraction.

A device is known for producing fibers and powder from a melt (AS USSR No. 921670, B22D 11/06, 04/23/1982), comprising a heat sink connected to a rotational drive located above the bath with a melt, and a system for maintaining a predetermined level of immersion the disk into the melt containing a plate placed under the disk with a hole whose axis coincides with the vertical axis of the disk.

The disadvantage of this analogue is the low quality of the fiber obtained from the melt.

A device for dispersing melts is known (USSR AS No. 1026938, B22D 11/06, B22F 9/06, 07/07/1983) containing a mold with a drive, a bath with molten material, a transfer system and a heater, while the bath is made in the form two communicating containers of larger and smaller volumes, with a displacer connected to the displacement system above the larger displacement tank, and a mold with a drive connected over the smaller volume tank connected through the flow meter to the displacement system.

The disadvantage of this analogue is the low quality of the fiber obtained from the melt.

A known installation for producing metal powders (AS USSR No. 1673271, B22F 9/08, 08/30/91) containing a bath with a melt, a rotating cooled disk and a system for controlling the location of the disk in the melt, equipped with an additional element made in the form of a body of revolution from a material wetted by liquid metal, and placed in the center of the bath with a melt under the disk, partially immersed in the melt and in contact with the surface of the disk.

The disadvantage of this analogue is the low quality of the fiber obtained from the melt.

A device for the manufacture of metal fibers from a melt (RF patent No. 2071868, B22D 11/06, 01/20/1997) containing a bed and a bath for the melt and located above it on the horizontal axis of the drive crystallizer, equipped with a two-arm lever, at one end of which the horizontal axis contains a disk crystallizer, and on the other a counterweight, and the fulcrum of the lever is pivotally connected to the bed, while the counterweight is provided with a drive for moving it along the lever, and the disk mold is equipped with a drive for its return ostupatelnogo displacement.

The disadvantage of the prototype is the low quality of the fiber obtained from the melt.

The closest in technical essence and the achieved result to the claimed is a device for the manufacture of metal fibers from a melt (RF patent No. 48837, B22D 11/06, 10.10.2005), containing a mixer for metal extraction and a rotary disc-mold, temperature sensor, connected to a comparator connected to a temperature controller and a frequency regulator connected to a thyristor frequency converter, which is connected to an inductor connected by electromagnetic coupling to a mixer, into a cat The molten metal with the possibility of contact with the crystallizer disk, and to which the electric drive of the lifting mechanism connected with the frequency regulator is connected, is located.

The disadvantage of the prototype is the low quality of the fiber obtained from the melt.

The objective of the utility model is to improve the quality of the fiber obtained from the melt, by ensuring the temperature stability of the molten metal at a constant temperature of the mold disk by selecting the initial temperature (base temperature) of melting of the metal depending on the chemical. the composition of the molten metal in the mixer, automatically maintaining the optimal level of immersion of the crystallizer disk in the metal bath, as well as increasing the overall efficiency of the device.

The technical result is to increase the accuracy of measuring the temperature of the molten metal in the mixer due to the analyzer of the chemical composition, and maintaining a constant depth of immersion of the crystallizer disk due to the range finder.

The problem is solved, and the technical result is achieved by the fact that in the device for producing fiber from the melt, including a mixer for extracting metal and a disk crystallizer with rotation, a temperature sensor connected to a temperature controller connected to a temperature controller and a frequency controller connected to thyristor frequency converter (TFC), which is connected to an inductor connected by electromagnetic coupling to a mixer, in which molten metal is located with the possibility of contact According to a utility model, a chemical analyzer is connected to a crystallizer disk, and to which an electric mixer movement drive is connected.

In addition, according to a utility model, it may include a range finder, to which a distance adjuster is connected via a comparator, with an electric mixer moving drive connected to it.

The essence of the utility model is illustrated in the drawing. In Fig.1 shows a block diagram of a device, Fig.2 is a diagram of the location of the mold disk in solution.

The device comprises a temperature sensor 1 connected to a temperature controller 2 connected to the first input of a temperature controller 3, which in turn is connected to a chemical analyzer 4. Another output of the temperature controller 2 is connected to a frequency controller 5 connected to a thyristor frequency converter (TFC) 6, which is connected to an inductor 7, connected by electromagnetic coupling to the mixer 8. The mixer contains molten metal 9 with the possibility of contact with the crystallizer disk 10. The range finder 11 is connected with a comparator 12, which in turn is connected setpoint distance 13. To the mixer coupled electric moving mechanism 14 associated with the temperature controller 2.

The device operates as follows.

The analyzer of chemical composition 4 determines the composition of the alloy (i.e., the grade of the metal), and transmits the melting temperature of this metal to temperature setter 3. The signal from temperature setter 3 is fed to the first input of temperature controller 2. The signal from temperature sensor 1 is supplied to the second input ( with a laser sight), which constantly measures the temperature of the alloy. The mismatch signal is fed to the frequency controller 5 of the thyristor frequency converter 6.

To maintain a given immersion depth of the crystallizer disk 10 in the molten metal 9, a range finder 11 is used, which measures the distance to the melt hb and also uses a distance gauge 13, in which the specified distance h2, is determined by the formula:

h ₂ = R _d -h _p + h ₃

Where:

R _d is the radius of the mold disk,

h _p - the immersion depth of the mold disk in the melt,

h ₃ is the distance from the sensor to the shaft of the mold disk.

These values are received in the comparison device 12. The error signal is supplied to the adjustable electric drive of the movement mechanism 14, which raises the mixer 8.

So, the claimed utility model allows to improve the quality of the fiber obtained from the melt, by ensuring the temperature stability of the molten metal at a constant temperature of the crystallizer disk by frequency regulation of the electric power supplied to the mixer, as well as maintaining the optimal level of immersion of the crystallizer disk in the metal melt, range finder account.

Claims (1)

A device for producing fiber from a melt, including a mixer for metal extraction and a rotary disk crystallizer, a temperature sensor connected to a temperature controller connected to a temperature controller and a frequency controller connected to a thyristor frequency converter, which is connected to an inductor connected by electromagnetic connection with the mixer, in which molten metal is located with the possibility of contact with the crystallizer disk, and to which the electric drive of the mechanism mixer movement, characterized in that a chemical analyzer is connected to the temperature setter, the device comprising a range finder, to which a distance setter is connected through a comparator, which is connected to the electric drive of the mixer moving mechanism.

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