RU2040546C1 - Gas-sealing valve for charging device of blast furnace - Google Patents

Abstract

FIELD: metallurgy. SUBSTANCE: valve has housing 1, seat 2 and positioning mechanism 4 mounted on housing 1 in bearings 3, gear wheel 7, and lever 9 mounted on shaft 8 of the wheel. The positioning mechanism has rack 5 coupled with the rod of hydraulic cylinder 6. Stop plate 10 is mounted on the lever. The positioning mechanism is provided with lever 11 connected with hydraulic cylinder 12. To open the gas-sealing valve hydraulic cylinder 6 is actuated. The rod of the hydraulic cylinder moves rack 5 and simultaneously rotates gear wheel 7 together with lever 9 mounted on shaft 8 and stop plate 10. In so doing the stop plate rotates about the axis of shaft 8 and moves away from seat 2 by a given angle. Hydraulic cylinder 12 is then set in operation. The cylinder is coupled with the positioning mechanism 4 through lever 11. When lever 11 moves, the positioning mechanism rotates in bearings 3 of housing 1. In so doing lever 9 together with stop plate 10 move away from seat 2. EFFECT: enhanced reliability. 3 dwg

Description

 The invention relates to ferrous metallurgy.

 Known gas sealing valve loading device of a blast furnace, consisting of a housing, a shaft, the axis of which is parallel to the axis of the sealing hole, with a lever mounted on it, on which the plate is pivotally mounted. The valve in the closed position is adjacent to the seat attached to the lower part of the intermediate pipe (Tselikov AI, Polukhin PI, etc. Machines and assemblies of metallurgical plants. Volume 1. Machines and assemblies of blast-furnace shops. Pp. 254, 255).

 A disadvantage of the known device is its significant height, due to the need to rotate the valve in a vertical plane.

 Also known is a gas sealing valve of a blast furnace loading device, comprising a housing, a saddle, a plate with a lever mounted on a rotary shaft, and a shaft rotation drive (ed. St. USSR N 558049, class C 21 V 7/18, 1977). This technical solution is the closest in technical essence and the achieved effect to the invention and is selected as a prototype.

 A disadvantage of the known device is the complexity of the manufacture and installation of its individual nodes, which leads to a partial decrease in the sealing of a blast furnace and a decrease in its productivity. Moreover, the rotation of the plate in the vertical plane when opening the valve requires an increase in the height of the loading device of the blast furnace.

 The aim of the invention is to provide a gas seal valve design that reduces the height of the loading device of the blast furnace while increasing the reliability of the valve.

 To achieve the goal, a gas-tight valve of the loading device containing a housing, a moving mechanism installed in it, on the lever of which a locking plate is mounted, and a saddle, the moving mechanism is mounted for rotation, and a lever with a locking plate is mounted on its output shaft, while the drive axis body displacement coincides with the axis of rotation.

 This design will allow, due to the rotation of the lever with a locking plate mounted on the output shaft of the movement mechanism mounted with the possibility of rotation in the valve body, to reduce the height of the loading device of the blast furnace.

 Figure 1 shows the gas sealing valve of the loading device of the blast furnace in the context; figure 2 view a in figure 1; figure 3 option gas sealing valve.

 The gas sealing valve of the blast furnace loading device comprises a housing 1, a saddle 2 and a movement mechanism 4 mounted on the housing 1 in bearings 3, including a rail 5 connected to the hydraulic cylinder rod 6, and a gear 7, on the shaft 8 of which a lever 9 is mounted with it mounted a locking plate 10. The movement mechanism 4 is provided with a lever 11 connected to the hydraulic cylinder 12. There is a sleeve 13 of the movement mechanism 4 (Fig. 3).

 The valve operates as follows.

 To open the gas sealing valve, the stroke of the hydraulic cylinder 6 is turned on, the rod of which moves the rack 5, simultaneously turning the gear 7 together with the lever 9 mounted on the shaft 8 and the locking plate 10. At the same time, the locking plate, turning around the axis of the shaft 8, moves away from the seat 2 to a predetermined angle. Then, the hydraulic cylinder 12 is connected, connected by the lever 11 with the movement mechanism 4, during which the movement mechanism is rotated in the bearings 3 of the housing 1. In this case, the lever 9 together with the locking plate 10 is diverted away from the seat 2.

 Closing the valve is achieved by the reverse order of operation of the mechanisms.

 Obviously, the invention is not limited to the above example, other uses and implementations of the invention are possible without departing from the scope of the invention. So, for example, (FIG. 3), the movement mechanism 4 is provided with a sleeve 13 mounted on the rod of the hydraulic cylinder 6, on which a lever 9 is mounted with a locking plate 10 mounted on it.

 In the above embodiment, to open the gas sealing valve, the stroke of the hydraulic cylinder 6 is turned on, the rod of which moves the sleeve 13 together with the lever 9 and the locking plate 10 mounted on it. The locking plate moves away from the seat 2 by a predetermined distance. Then, the hydraulic cylinder 12 is connected, connected by the lever 11 with the movement mechanism 4, during which the movement mechanism is rotated in the bearings 3 of the housing 1. In this case, the lever 9 together with the locking plate 10 is diverted away from the seat 2.

 An advantage of the invention lies in the fact that it allows the design of a gas sealing valve to reduce the height of the loading device of the blast furnace by turning the movement mechanism in the valve body, on the output shaft of which a lever with a locking plate is mounted, the axis of the drive element of the movement mechanism coinciding with its axis turning.

Claims (1)

 GAS SEALING VALVE OF A DOMAIN FURNACE LOADING DEVICE, comprising a housing, a moving mechanism installed therein, a locking plate mounted on its lever, and a saddle, characterized in that the moving mechanism is mounted rotatably from the drive, a lever with a locking plate is fixed to its output shaft, with this axis of the drive of the movement mechanism coincides with the axis of rotation.

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