SU954424A1 - Hot blast valve - Google Patents

Description

The invention relates to ferrous metallurgy, in particular to the equipment of blast furnace gas and air heaters.

The closest to the proposed technical essence is a hot blast valve, comprising a housing, a hollow cooled ring damper, refrigerant inlet and outlet pipes, clamping angles of the damper [1].

However, due to the fact that the gate is cooled by water, and the gaps between the disk and the rings are selected based on the heat capacity of the cooling water and the coefficient of volume expansion of the gate material and the rings, the cooler is reduced from the optimal one (due to precipitation of salts of temporary hardness, formation of vapor plugs, etc. .) leads to an increase in the temperature on the disk and, as a result, to jamming of the disk between the rings or, in case of an excess of flow, to thermal deformations, which ultimately leads to a decrease in resistance to lapana. In addition, to reduce the flow of gas, it is practiced to create the force of pressing the gate to the seat using wedges mounted on the housing between the rings or, as is done in the known device, a sliding cracker is installed on the gate, interacting with the latter along the wedge plane during valve closure. When the gate is torn off * the place (opening the valve), the integrity of the gate – ring pair may be violated, which also leads to a decrease in valve durability.

The purpose of the invention is to increase the stand ^{10 of the} bone valve. Hot blast.

This goal is achieved by the fact that in the hot-blast valve, which includes a body, a hollow water-cooled damper from the sides and fastening them 15 shells, rings, nozzles for supplying and discharging refrigerant, clamping stops of the damper, sides and the shell of the cooled damper 'are made of capillary-porous material with fixed 20 inside perforated panels, clamping stops are located in the grooves of one of the rings perpendicular to the valve and are connected to the pneumatic piping.

In FIG. 1 shows a gate and rings, a section; in FIG. 2 - node I in figure 1.

The valve gate (one of the options) consists of a spacer element 1 made in the form of a perforated panel with extensions 2 and 3, through which the panel is fastened to the sides 4 and 5. The pipe 6 for supplying a cooler (air or liquid) is connected to the internal cavity of the panel. Rings 7 and 8 are mounted movably in the housing 9 and are connected to the rod of pneumatic cylinders 5 10 and 11.

The operation of the valve is as follows.

In the closed position of the valve, a cooler (air 'or water) is supplied through the pipe 6 through the pipe perforations into the cavity under the sidewall 15 (into the cavity of the valve (cavity of the distant element 1 made in the form of a perforated panel) cavity defined by the height of the extrusions 2 and 3.) and then through ka. the pillar-porous structure of the side walls 4 and 5 is outward, forming a wall layer representing the design of the valve from heating. The pneumatic cylinders 10 and 11 are set to the Closed position, in this case the rings 7 and 8 are pressed against the side walls 4 and 5, excluding hot gas overflow. The gas flow through the sidewalls 4 and 5 to the outside does not exceed, according to the levers, 0.6 kg / s, which cannot significantly affect the operation of the blast furnace and the air heater. <_

To open the valve, a command is issued to move the rings 7 and 8 into the housing 9 (pneumatic cylinders 10 and 11 · are moved to the open position). The gate rises to the upper position, after which the pneumatic cylinders 10 35 and 11 are again brought into the Closed position and the rings 7 and 8 are sealed. Along the perimeter of the sidewall of the gate. In this position, the axis of the window coincides with the axis of the gas duct .. 40

Thus, the proposed design can significantly increase the valve durability through the use of capillary-porous (evaporative) cooling, which leads to the creation of a cold near-wall layer that protects the structure from heating ', elimination of thermal deformations of the gate, since its design becomes isothermal. Use of air as cooling medium, which in all cases is preferable, eliminating gate jamming between the rings, since the latter are made movable (floating ); reliability of sealing of the ring-gate pair, since the possibility of breakage and scoring during the Opening-3 mode of closing the gate is excluded.

Claims (1)

which the panel is bonded with sidewalls 4 and 5. The coolant supply pipe (air or liquid) is connected to the internal cavity of the panel. The rings and 8 are movably mounted in the housing and are connected to the rod of the pneumatic cylinders 10 and 11. The operation of the valve is as follows. In the closed position of the valve, a coolant (air or water) is fed through the pipe b into the internal cavity of the valve (cavity of the unwinding element 1, made in the form of a perforated panel). Through the perforations of the panel it passes into the cavity under the bauxins pockets 2 and 3.) and further through the capillary-porous structure of the sidewalls 4 and 5 - outwards, forming a wall layer representing the valve design from heating .. The pneumatic cylinders 10 and 11 are set to the Closed position, in this case rings 7 and 8 are pressed to the sides 4 and .5, is Lyucha Leakage of hot gas. The gas flow through the sidewalls 4 and 5 to the outside does not exceed, according to the lever, 0.6 kg / s, which cannot significantly affect the operation of the blast furnace and the air heater. To open the valve, the command is given to retract the -ing of rings 7 and 8 into the housing 9 (pneumatic cylinders 10 and are moved to the open position). The cage is raised to the upper position, after which the pneumatic cylinders 10 and 11 are again moved to the closed position and the rings 7 and 8 are compressed around the side of the side of the gate. In this position, the axis of the window coincides with the axis of the gas duct. Thus, the proposed design allows the valve to be significantly increased by using capillary-porous (evaporative) cooling, which leads to the creation of a cold wall layer that prevents the structure from heating, eliminating thermal deformations of the gate, because its structure becomes isothermal; use of air as a cooling medium, which in all cases is preferable to prevent jamming of the gate between the rings , since the latter are made movable (floating) J of the reliability of the sealing of the ring-gate pair, since the possibility of breakdowns and scuffs is excluded during the Opening mode - 3 closing the gate. Claims An inventive hot blowing valve comprising a housing, a hollow cooled damper, from sidewalls and a shell that holds them together, rings, coolant inlets and outlets, clamping stops of the valve, characterized in that, in order to increase the durability of the valve, sidewall and cooled shell The dampers are made of capillary-porous material with perforated panels fixed inside, and the clamping stops are located in the grooves of one of the rings perpendicular to the damper and connected to the pneumatic actuators. Sources of information taken into account in the examination 1. US Patent No. 1995727, cl. 137-340, 1965.