CS195095B1 - Apparatus for supplying air into shaft furnaces - Google Patents

Description

SOCIALISTIC AND DESCRIPTION OF THE INVENTION OF THE COPYRIGHT CERTIFICATE 195095 (Π) (Bl)

/ 22 / Registered 03 08 77/21 / / PV 5132-77 / (51) Int. C1.-3F 27 B 1/24 (• 1-0) Posted on 28 04 · 79

OFFICE OFFICE

AND DISCOVERIES (45) Released 1 5 04 82 (75)

Author of the invention GABRIEL OLDŘICH ing., KOPŘIVNICE (54) Equipment for air supply to shaft furnace 1

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for supplying cooling air to a shaft furnace and to achieving maximum utilization of the cooling zone. The supply of air to the cooling zone of the shaft furnace is normally carried out by means of nozzles in the form of a central ridge, either longitudinal, cross, or circular, which is a means of preventing penetration of the material or is further provided by peripheral nozzles in the furnace housing. Furthermore, there is known an apparatus for cooling drying consisting of two funnels from which the bottom is provided with an emptying device, whereby air or cooling gas is drained into the space between the cooling gas piping. the refrigerant gases into the filling. There is a regulator on the pipe through which the supply of cooling gas to both devices can be controlled.

The disadvantage of said devices is that the cooling air flows through the individual channels and slowly dissipates over the cross section of the cooling zone. This results in dead spaces, especially above the discharge device, where both the material and the construction of the discharge device do not cool and the furnace then fails to perform, or the heat consumption and thermal stress of the structure is increased, which reduces its durability. This drawback is particularly important in gas-fired or oil-fired furnaces, where not all 2 combustion air can be conveyed through the cooling band.

These drawbacks are eliminated by the cooling air supplying device to the shaft furnace, in particular by the vacuum, formed as a hollow body in the space between the discharge device of the cooled product, where the air supply pipe is directed in the upper part of the hollow body provided with the slot and the extension piece which can be guided the downward part of which is that the slots formed in the lower part of the hollow body are directed to the discharge device and between these slots is provided a neck-shaped container above the finished product layer under the discharge device, and the neck is ended by a flap. The actuator is connected to the damper with a periodic movement, or the damper is connected by a lever mechanism to the damping device for transferring the movement from the discharge device to the damper. The outlet of the outlet and the discharge device are interconnected by the space of the container above the finished product layer.

The device according to the invention is provided by intensive cooling in the whole layered product on the discharge device, but also by cooling the finished product in the container, then cooling the entire hollow body by which the air is also fed to the discharge device from the underside. If the throat is given a periodic movement in the throat, there is a cyclic increase in the speed of the cooling air, thereby penetrating additional layers of the charge material.

The air conduits fully utilize all the surfaces and spaces of the shaft furnace for cooling the 195095

Claims (4)

195095 the charge material and the substructure are cooled. The flap is closed so that approximately the same amount of air enters the slots and from the discharge side of the discharge device. A further increase in effect is achieved by alternately opening and closing the flap, thereby periodically changing the velocity profile and the range of the air flow of the slot and the discharge from the discharge device. An exemplary embodiment of the device according to the invention is shown in a schematic section. A discharge device 2 is mounted in the lower part of the shaft shaft. A hollow body 3 provided on the shaft furnace structure 1 is fixed to it at the center of the shaft shaft. Slits 5 are provided close to the discharge device 2 at both sides of the stubby body 3, and in the center of the hollow body 3 there is provided a neck 7 provided with a flap 7 for throttling or closing the air flow. Flap 7 ^ is lever 1. An apparatus for supplying air to a shaft furnace, in particular a vacuum furnace, formed as a hollow body in the space between the discharge device of a cooled product, wherein the air supply pipe extends in the upper portion of said hollow body with slots and a nozzle extending downwardly, in that the gaps (5) provided in the lower part of the hollow body (3) are directed to the discharge device (2) and between these gaps (5) a neck (6) is provided, leading to the container (9) under the with a discharge device (2) and this neck (6) terminated by a flap (7). by the mechanism 8 is connected to the discharge device 2. In the space below the discharge device 2 there is a layered product 9 in the undistorted container. Nozzles 10 are provided in the upper part of the hollow body 3 to introduce a portion of the air into the central portions of the batch material in the shaft furnace. The air is fed into the hollow body 3 via a pipe 4 in its upper part. Here, about 10% by volume of the total cooling air is discharged into the chilled feed material through the nozzles 10 and the remainder flows downwards. One part is discharged through the slots 5 of the bottom of the cooled charge material and the other part is passed through the neck 6 of the space above the finished product layer 9. Here, it flows above this layer, thereby cooling, then flowing through the finished product falling from the discharge device 2 and entering the falling out side of the finished product. produced into a material lying on the discharge device. THE INVENTION 2. Apparatus according to claim 1, characterized in that the actuator is coupled to the flap (7) by a speriodic movement. 3. Apparatus according to claim 1, characterized in that the flap (7) is coupled to the discharge device (2) by means of a lever mechanism (8) for transmitting motion from the discharge device (2) to the flap (7). 4. Apparatus according to claim 1, characterized in that the outlet of the neck (6) and the discharge from the discharge device (2) are interconnected by the container space above the finished product (9). 1 sheet of drawings Scvcrngrafia. n. p. race 7. Mosl