RU2438273C2 - Screw-down structure - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: device is equipped with removable cover in form of cylinder cartridge with hole in bottom part. A flexible element is made in form of a corrugated disk and is pressure tight connected with an internal side of the case. A moveable element is located inside a cavity formed with the flexible element and the removable cover and has a concave base resting on the flexible element. A stop rod of smaller diametre transfers hold-down force on a contact flange to an electrode passing through the hole in the removable cover. A mechanism of return is positioned around the rod of the moveable element and rests on the bottom section of the removable cover.

EFFECT: reduced geometric sizes of device, increased service life and reduced pressure of working substance.

1 dwg

Description

The invention relates to the field of metallurgy, in particular to the production of metals and alloys by the method of ore-reducing electric melting, mainly to the production of ferroalloys.

The most common in the design of ore-reducing electric furnaces was an electrode column designed to hold the electrode and supply current to it.

The current is supplied from a short network through the contact cheeks to a carbon or graphite electrode. To ensure a tight electrical contact between the contact cheeks and the electrode, a pressure device is used that presses the contact cheek to the electrode.

A known pressure device [1], providing a spring-screw clamp, consisting of a housing, a pressure screw, a rod and a spring. When the screw is screwed in, the rod abuts against the contact jaw and due to compression of the spring, the necessary force is created to press the contact jaw against the electrode. For the operation of bypassing the electrode, it is necessary to loosen the pressure screws of the device on the hot furnace, bypass the electrode and tighten the pressure screws again to provide the required force.

A disadvantage of the known design of the pressure device is the weakening of the spring force due to temperature effects and metal fatigue. In addition, during the bypass operation, dangerous manual manipulations with a pressure screw are carried out.

The closest in technical essence and the achieved results is the design of the pressure device for pressing the contact cheeks to the electrode of the electric furnace [2]. The proposed pressure device consists of a hydraulically connected housing, a flexible element, a movable element and a return mechanism. The flexible element is a cylindrical corrugated metal bellows, inside which is located a spring return mechanism. A sealed cavity is formed due to the return mechanism welded to the body and the movable element. The hydraulic fluid is supplied from the pressure line through the hydraulic ports in the housing.

When the working fluid is supplied under pressure to the sealed cavity of the device, the movable element overcomes the resistance of the return mechanism and with effort moves forward, providing a contact cheek against the electrode through the stop.

The known design allows to reduce labor costs when bypassing the electrode and to prevent the reduction of the clamping force.

The disadvantages of the known device design are low life with significant geometric dimensions of the device. Due to the design features of the device, a low clamping force is provided, which requires maintaining high pressure in the pressure line. Significant dimensions of the device are a consequence of the fact that the required stroke of the movable element is provided by the use of a bellows, the specific moves of which are insignificant.

The aim of the present invention is to reduce the geometric dimensions of the device, increasing its service life, reducing the pressure of the working fluid.

This goal is achieved in that the device is a push-rod electrode column of an ore-reducing electric furnace for pressing contact cheeks to the electrode, comprising a hydraulically connected housing, a flexible element, a movable element and a return mechanism, characterized in that it is additionally equipped with a removable cover in the form of a cylindrical glass with a hole in the bottom . The flexible element is made in the form of a corrugated disk and is hermetically fixed on the inside of the housing. The movable element is located inside the cavity formed by the flexible element and the removable cover, and is made with a concave base resting on the flexible element and a thrust rod of smaller diameter to transmit the pressure of the contact cheek against the electrode passing through the hole in the removable cover. The return mechanism is located around the rod of the movable element and is supported on the bottom of the removable cover.

The proposed constructive solution of the pressure device makes it possible to provide the necessary force to press the contact cheek against the electrode with a sufficiently high reliability of the device, ensuring operability for 10,000 cycles.

The combination in the use of a flexible element in the form of a corrugated disk and a return mechanism removed from the cavity of the working fluid allows to reduce the height of the device compared to the prototype. That will favorably reduce the size of the electrode column itself and its mass. This, in turn, facilitates its installation and maintenance.

The use of a movable element with a concave base allows for distributed contact of the base of the movable element with a flexible element when creating pressure in the hydraulic supply system and deformation of the corrugated disk.

The pressing force of the contact cheek is provided by the pressure of the working fluid on the flat base of the movable element. Due to the fact that the area of the flat base of the movable element is close to the area of the casing of the device, the required pressure is provided by lower pressure of the working fluid. The specified pressure reduction allows you to simplify the design of the hydraulic supply and reduce the cost of its operation.

The drawing shows a General view of the proposed device pressure electrode columns. The ratios of the main dimensions of the structural elements of the device are also shown there:

- D is the diameter of the landing housing of the device for installation;

- D ₁ - the diameter of the base of the movable element;

- d is the diameter of the hole of the removable cover for the passage of the rod of the movable element;

- d ₁ - the diameter of the rod of the movable element to transmit clamping forces;

- N - the height of the pressure device;

- h is the height of the cavity of the return mechanism, providing the required stroke.

The pressure device of the electrode column of the ore reduction electric furnace is a housing 1 in the form of a circular disk with holes (at least one) for hydraulic supply. A flexible element 2 in the form of a corrugated disk and a removable cover 5 in the form of a cylindrical glass with a hole in the bottom are hermetically fixed to the housing from the inside. A movable element 3 is placed inside the cavity formed between the flexible element and the removable cover. A return mechanism 4 is located around the rod of the movable element 3 between its base and the bottom of the removable cover 5. The movable element 3 is centered in the cavity of the generatrix of the cylindrical part of the removable cover 5 and the rod forming the movable element 3 passing through the opening of the removable cover 5.

The magnitude of the stroke of the movable element 3 is provided by the design of the return mechanism 4 and the height of the cavity h.

When assembled, two cavities form inside the device. One sealed cavity of the working fluid A and the cavity of the return mechanism B.

The device is pressed electrode columns of the ore reduction furnace operates as follows. The hydraulic supply system creates an excess pressure of the working fluid supplied to the cavity A. The working fluid through the flexible element 2 begins to press on the base of the movable element 3, which, overcoming the resistance of the return mechanism 4, extends outward from the cavity B. The extension of the rod ensures that the contact cheek is pressed against the electrode. The magnitude of the stroke of the rod of the movable element is determined by the magnitude of the compression mechanism of the return device.

The clamp will be carried out for the entire time until the required pressure of the working fluid in the cavity A of the device is provided.

Due to the fact that the flexible element is replaced in the proposed device from a metal bellows to a corrugated disk, the height of the pressure device can be reduced by more than 30%.

The life of the device is determined by the performance of the flexible element. The guaranteed number of cycles of the corrugated disk is more than 50 times the same value for a metal bellows. Therefore, the life of the proposed device is as many times longer than the prototype.

Based on the fact that the diameter of the base of the moving element of the proposed device is 1.5 times the diameter of the base of the moving element of the prototype device, 1.5 times, the working pressure in the hydraulic supply system can be reduced by more than two times.

This ensures the achievement of the goal of reducing the geometric dimensions of the device, increasing its service life, reducing the pressure of the working fluid.

Information sources

1. Strunsky B.M. Ore-melting furnaces. - M.: Metallurgy, 1972. - 368 p.

2. AS of the USSR No. 245221, cl. Н05В 7/10, June 4, 1969.

Claims (1)

A device for pressing an electrode column of an ore-reducing electric furnace, comprising a hydraulically connected housing, a flexible element, a movable element and a return mechanism, characterized in that it is provided with a removable cover in the form of a cylindrical glass with an opening in the bottom, the flexible element is made in the form of a corrugated disk and hermetically fixed with the inner side of the body, the movable element is located inside the cavity formed by a flexible element and a removable cover, and is made with a concave base resting on a flexible element , and a thrust rod of smaller diameter to transmit the clamping force of the contact cheek to the electrode passing through the hole in the removable cover, and the return mechanism is located around the rod of the movable element and is supported on the bottom of the removable cover.

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