SU881492A1 - Shaft furnace discharge apparatus - Google Patents

Description

The invention relates to the processing of solid materials in shaft furnaces, namely to the discharge devices of these furnaces, and can be used in the metallurgical, chemical and other industries. A discharge device containing a hopper, a screw feeder and a discharge window is known. This device is used to unload the powder material from the furnace after heat treatment 1. The disadvantage of this device in summer is that it cannot be used for unloading bulk material, as the cold intake of air into the furnace dramatically increases through the discharge device. This results in increased fuel consumption. It is also known to unload a shaft furnace device used to unload fine-grained material (fraction up to 5 mm). It contains a hopper, a screw feeder and a discharge box. Hot fine-grained material from the shaft furnace through the hopper enters the screw feeder and is continuously discharged by the screw through the discharge window 2. However, using this device for unloading bulk material also leads to an increase in cold air inflow into the furnace, disruption of the material processing temperature and increased fuel consumption. In addition, in this device the measured discharging of the material is not premeditated. The closest in technical essence to the invention is a discharge device of a multi-slide apparatus, comprising a storage chamber with a shutter and a screw feeder with a housing and a screw 3. A disadvantage of the known device is the low reliability when unloading lump materials from the shaft furnace. The purpose of the invention is to increase reliability when unloading bulk material. This goal is achieved by the fact that in the discharge device of a shaft furnace containing a storage chamber with a shutter and a screw feeder with a housing and a screw, the storage chamber is located behind the screw feeder, and the shutter is made of two

sashes with counter-loads installed on them ,. ,

In addition, it is advisable that the distance from the axis of the screw to the top of the body be greater than the distance from the axis of the screw to the bottom of the body.

Fig, 1 shows the discharge device of the shaft furnace, a longitudinal section; figure 2 is a view of And figure 1; on fig.Z - section BB in figure 1,

The discharge device of the shaft furnace 1. Contains a hopper 2, a screw drive 3 ,. having a housing .4 and auger 5, a discharge window 6 and an accumulation chamber 7. The discharge window is located in the accumulation chamber and is closed by a movable gate that has two flaps 8 equipped with counter-loads 9. The accumulation chamber communicates with the auger feeder on the discharge side. The housing 4 of the screw feeder is made elongated. The screw 5 in the housing is positioned in such a way that the distance from the axis of the screw to the upper part of the housing t exceeds the distance from the axis of the screw to the bottom of the housing f (FIG. 3) and is connected to the drive 10,

The device works as follows.

Calcined ferroalloy (fractions up to 50 mm), having an eye temperature and high Strength, from the shaft furnace 1 enters the hopper 2 and further into the screw feeder 3. With the help of the drive 10, the screw 5 is driven, which starts feeding lumpy ferroalloy into the accumulative chamber 7. The latter is designed for the accumulation of a portion of ferroalloy of 400 kg and during the accumulation of material material it is blocked by shutters 8 of the movable valve with counterweights 9, each 200 kg. As soon as the weight of a portion of the ferroalloy exceeds the weight of the counterloads, the shutter flaps open and the ferroalloy is unloaded through the discharge window 6. At the time of opening the flap, the auger drive is turned off and the ferroalloy feeds to the accumulation chamber. After the accumulative chamber is emptied, the shutters under the action of countergloes are closed and the discharge device is ready for accumulation and unloading of the next portion of ferroalloy. The loading device is equipped with an accumulation chamber communicating with the screw feeder on the discharge side, placing the discharge gate in the accumulation chamber and installing a movable damper on it allows to reduce cold air leaking into the kiln when unloading the lump material La and discharging it metered.

Unloading of the accumulated portion of material occurs self-production after reaching a weight greater than the weight of counter-loads.

 The implementation of the mobile flap of the two wings is aimed at achieving reliable isolation of the furnace from cold air, ensures the dosing and completeness of the material loading, and

5 is also a compact design.

Making the housing of the screw feeder elongated in height and positioning the screw in it so that the distance from the axis of the screw to the upper part of the body exceeds the distance from the axis of the screw to the bottom of the body, reduces the likelihood of jamming of the material from the unloaded material to the screw.

5 start-up at the exit of the bunker and thereby increases the reliability of the device;

Claims (3)

1. An unloading device for a shaft furnace containing an accumulation chamber with a shutter and a screw feeder with a housing and a screw, characterized in that, in order to increase the reliability of work when unloading bulk material, the accumulation chamber is located behind the auger feeder, and the shutter is made of two wings with the counter-loads installed on them 2, the apparatus according to claim 1, characterized in that the distance from the axis of the screw to the top of the body, there is more distance from the axis of the screw to the bottom of the body. Sources of information taken into account in the examination 1. Author's certificate of the USSR 558758, cl. F 27 1/00, 1975. 2. Authors certificate of the USSR 398660, class, F 27 1/20, 1971. 3. USSR author's certificate number 166835, cl. F 27 B 15/02, 1962. ... BUT .View/( AT 6