RU1827724C - Current lead of vacuum processing installation - Google Patents

Abstract

The essence of the invention: the supply of electricity to heat the lining of the vacuum chamber, which is an integral part of the installation for evacuating steel, consists of two sections - the first section from the source to the working platform of the vacuum installation, which houses the vacuum chamber, is a bundle of wires in bifilar design, the second section, through which electrical wiring is carried out along the working platform to the contacts of the graphite heating rod, fixed by means of movable cycles in the vacuum chamber to form two separate single-pole conductor bundle. 3 ill.

Description

The invention relates to electrothermal, in particular, to provide a current supply of electricity to the heaters of vacuum installations, which is part of an installation for out-of-furnace steel processing.

The purpose of the invention is to reduce energy losses by reducing resistance.

This embodiment of the power supply gives 2/3 less resistance impedance than the known one, as a result of which the power supply is significantly lower than the voltage loss, which allows the use of a power source - a heating transformer - with a lower required maximum output voltage, and therefore and with a lower rated power for the particular required maximum value of the heating current, with the result that the power factor and ying thus does not supply cool water. A further advantage of the new version is that in the entire supply section from the source terminals to the terminals of the heating element, one type of wire can be used continuously.

An exemplary embodiment of the electric power supply for heating the lining of the vacuum chamber according to the present invention is shown in the attached drawings, in particular in FIG. 1 shows in simplified form a typical arrangement of equipment for heating the lining of a vacuum chamber; FIG. 2 in section AA shows the location of the wires in the area between the source and the working platform, indicating

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Yu VJ VI Yu. &.

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electric current supply directions, and in FIG. 3 in the context of BB shows the location of the wires on the working platform.

The electric power supply for heating the lining of the vacuum chamber according to FIGS. 1 and 2 in section 2 is formed by a bundle of bare or insulated wires 10 in a bifilar design with a cross section of 70-150 mm2, the amount of which is defined as twice the partial maximum value of the heating current and the value of the allowable current wire loads and fluctuates between 56-72 wires. Section 2 of the line at the entrance to the work platform 4 is divided into two independent branches 3 of the line, consisting of two single-pole wires with half the number of wires 10 in comparison with the number of wires in the bifilar section 2, i.e. 28-36 wires. If you use wires with a cross section of, for example, 90 mm2, the number of wires of a single-pole line is 32. When using wires of the same type in the section between the source and the working platform, 64 wires were used for bifilar execution. A section of line 2 is connected to an electric power source - heating transformer 1 and sections of a line 3, which are single-pole wiring, carry out electrical wiring on the work platform 4 and are connected to special movable holders 5, in which the heating element-graphite heating rod 6 is fixed , which serves to heat the ceramic lining 7 of the vacuum chamber 8. In the place where the line 2 enters the work platform 4, there can be separate wires

10 separate poles connected in parallel. The mechanical fastening of the supply to the equipment structure in sections of the line 2, 3 is carried out with the help of holders 9, consisting of guide profiles 11 and fixing plates 12. The supply holders 9 and fixing plates 12 fix the positions of individual wires 10 along the entire length of the supply line.

The arrangement of wires 10 in sections of line 2 and 3 in principle should not be symmetrical, as indicated in section AA in FIG. 2, or asymmetric, as indicated in section B-B,. FIG. 3. The interaxial distance of the wires 10 in sections 2 and 4 should be maximum, the limitation of the interaxial distance of the conductors and the method of their location is determined by the size of the space intended to accommodate the supply, i.e. allowable distance of supply from the steel structure of the rest of the equipment at the working site.

Claims (1)

SUMMARY OF THE INVENTION A current supply device for vacuum installations containing a bundle of bifilar wires fixed in the area between the power source and the entrance to the installation site, characterized in that, in order to reduce power losses by reducing the resistance, in the area from the input The current lead to the work platform to the heaters is made in the form of two single-pole bundles of wires, each of which contains 28-36 wires, while these bundles are fixed independently of each other. tpt / S 1 Editor B. Fedotov Compiled by O. Shchedrina Tehred M. Morgenthal FIG. 2 Fig.z Corrector P. Gereshi