RU2164950C1 - Gas-tight valve of charging apparatus of blast furnace - Google Patents

Abstract

FIELD: metallurgy, namely, gas-tight valves of charging apparatuses of blast furnaces. SUBSTANCE: gas-tight valve includes sealed housing in which branch pipe with seat and sealing disc secured to lever are arranged. Lever is joined with mechanisms for rotating and displacing disc having rotary shafts whose axes are arranged in the same plane and are mutually normal. Rotary shafts are mounted in bearing assemblies of housing and they have arms directly driven to motion, for example by means of hydraulic cylinders. Lever has fork-like protrusion whose groove is in constant engagement with lateral faces of dent secured to end of rotary shaft of mechanism for rotating disc through hinge. At displacing disc, axis of hinge coincides with axis of rotary shaft of mechanism for displacing disc; at rotating disc, lateral faces of dent engaging with groove of fork-like protrusion are arranged normally relative to axis of rotary shaft of mechanism for rotating disc. EFFECT: improved design of valve providing minimal sizes of valve height and width, lowered height of charging apparatus and enhanced reliability of valve operation. 2 dwg

Description

 The invention relates to the field of metallurgy, and more specifically to gas sealing valves of the loading device of a blast furnace.

Known gas sealing valve of the loading device of the blast furnace, including a sealed housing in which there is a nozzle with a saddle and a sealing plate mounted on a lever connected to the mechanism of removal of the plate by means of a rotary shaft (D.A. Storozhik and others. Manufacture and operation of loading devices of blast furnaces Metallurgy, 1973, p. 308-309, Fig. 231). When opening the valve, the sealing plate together with the lever is retracted down, turning at an angle of more than 90 ^o . The disadvantage of this valve is cumbersome and large overall height, due to the need to reserve a sufficiently large free space to place the sealing plate in the allotted (fully open) position.

 The closest analogue is the loading device of a shaft furnace (patent RU 2025494 C1, class C 21 B 7/18 of 12.30.94), including a sealed housing in which a nozzle with a saddle and a sealing plate are mounted, mounted on a lever connected to the withdrawal mechanisms and pivoting, comprising pivoting shafts.

 A significant drawback of the gas sealing valve described above is the presence of a large number of structurally complex elements that provide movement of the sealing plate, operating in the interior of a blast furnace characterized by high temperature, high pressure and a high degree of dust, which leads to a decrease in the reliability of the valve and loading device in general, as well as to increase the overall dimensions of the valve.

 The technical result of the present invention is the creation of a gas sealing valve loading device of a blast furnace, reliable in operation, with reduced dimensions in height and width, a simple mechanism for moving the plate and a minimum number of elements operating in the interior of the furnace. The use of such a gas sealing valve allows you to create a modern valve loading device that fits into the height dimension of a typical two-cone apparatus.

 The specified technical result in the implementation of the invention is achieved by the fact that in the known gas sealing valve of the loading device of the blast furnace, which includes a sealed housing in which a nozzle with a saddle and a sealing plate are mounted, mounted on a lever connected to the removal and rotation mechanisms containing rotary shafts, to ensure the plate is removed from the saddle, the lever is made with a fork-shaped protrusion, the groove of which is constantly in contact with the side surfaces of the tooth, mounted on the end of the rotary shaft the retraction mechanism, and connected to the rotary shaft of the rotation mechanism by means of a hinge with the possibility of matching the axis of the hinge with the axis of the rotary shaft of the retraction mechanism when the plate is retracted, while the axes of the rotary shafts of the rotation and retraction mechanisms are located in the same plane and are mutually perpendicular, and the contact surfaces of the tooth the rotation of the plates are perpendicular to the axis of the rotary shaft of the mechanism of rotation of the plates.

 This valve design allows for minimum valve height and width and reduces the height of the loading device.

 The use of a simple device to coordinate the operation of the mechanisms of removal and rotation of the plate, working in the conditions of the internal space of a blast furnace, characterized by high temperature, high pressure and a high degree of dust, increases the reliability of the valve and the loading device as a whole.

The drawings show a diagram of the claimed device, where
in FIG. 1 is a sectional perspective view of the gas sealing valve of a loading device;
in FIG. 2 is a section AA of FIG. 1.

 The gas sealing valve of the blast furnace loading device includes a sealed housing 1, in which a nozzle 2 with a saddle 3 and a sealing plate 4 mounted on the lever 5 are placed. The lever 5 is connected to the mechanisms 6, 7 of the outlet and rotation of the plate, containing rotary shafts 8, 9, axis of which 10, 11 are located in one plane and are mutually perpendicular. The rotary shafts 8, 9 are fixed in the bearings 12, 13 of the housing 1 and have arms 14, 15 directly actuated, for example, by hydraulic cylinders 16, 17. The lever 5 is made with a fork-shaped protrusion 18, the groove 19 of which is constantly in contact with the side surfaces 20 of the tooth 21, mounted on the end of the rotary shaft 8 of the plate retraction mechanism and connected to the rotary shaft 9 of the plate rotation mechanism using the hinge 22. When the plate is retracted 4, the axis 23 of the hinge 22 coincides with the axis 10 of the rotary shaft 8 of the plate removal mechanism, and when the plate is rotated, 4 are lateral the surface STI 20 of the tooth 21 in contact with the groove 19, the fork-shaped projection 18, disposed perpendicular to the axis 11 of rotation of the rotary shaft 9 tareli mechanism.

 The device operates as follows.

 Valve opening is carried out in two phases.

 In the first phase - the phase of the withdrawal of the plate - the hydraulic cylinder 16 of the mechanism 6 of the removal of the plate is turned on, which, acting on the shoulder 14, rotates the rotary shaft 8 in the bearings 12 and through the tooth 21 in contact with the groove 19 of the fork-shaped protrusion 18, causes the lever 5 to rotate in the hinge 22 taking the plate 4 away from the seat 3. During the first phase, the axis 23 of the hinge 22 coincides with the axis 10 of the rotary shaft 8 of the plate retraction mechanism, and upon completion of this phase, i.e. at the end of the removal of the plate 4 from the saddle 3, the lateral surfaces 20 of the tooth 22 in contact with the groove 19 of the fork-shaped protrusion 18, are perpendicular to the axis 11 of the rotary shaft 9 of the mechanism of rotation of the plate.

 In the second phase - the phase of rotation of the plate - turns on the hydraulic cylinder 17 of the mechanism of rotation of the plate, which, acting on the shoulder 15, rotates the rotary shaft 9 in the bearings 13 and together with the hinge 22 rotates the lever 5 with the plate 4 to the side, setting the plate 4 in the rotated position, at which it is located on the side of the nozzle 2. In the second phase, the groove 19 of the yoke 18 of the lever 5 slides along the side surfaces 20 of the tooth 21 without disengaging.

 The valve closes in the reverse order.

 Thus, the gas sealing valve of the blast furnace loading device, embodying the claimed invention in its implementation, has increased reliability and reduced dimensions in height and width, which allows you to create a modern valve loading device that fits into the height dimension of a typical two-cone apparatus.

Claims (1)

 The gas sealing valve of the blast furnace loading device, comprising a sealed housing in which a nozzle with a saddle and a sealing plate are placed, mounted on a lever connected to the retraction and rotation mechanisms containing rotary shafts, characterized in that the lever is made with a fork-shaped protrusion, the groove of which is constantly in contact with the lateral surfaces of the tooth, mounted on the end of the rotary shaft of the retraction mechanism, and connected to the rotary shaft of the rotation mechanism using a hinge with the possibility of providing coincidence of the hinge axis with the axis of the rotary shaft of the retraction mechanism when the plate is retracted, while the axes of the rotary shafts of the rotation and retraction mechanisms are located in the same plane and are mutually perpendicular, and the contact surfaces of the tooth when the plate is rotated are perpendicular to the axis of the rotary shaft of the plate rotation mechanism.

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