RU2102669C1 - Furnace feeding device - Google Patents

Abstract

FIELD: roasting of materials; manufacture of building materials. SUBSTANCE: device is provided with cyclone heat exchanger including rotary drier-crusher which has chute for feeding the component at low moisture content located above it and appliance for feeding sludge which is made in form of gravity-flow pipe mounted above rotor of crusher-drier for swinging. EFFECT: simplified construction and enhanced reliability of operation. 2 cl, 2 dwg

Description

 A device for feeding a furnace relates to the technique of firing materials and can be used in industrial materials.

There are various devices for powering stoves. [1]
The closest in technical essence is a device for feeding a furnace containing a cyclone heat exchanger, dryer-crusher, estrus for supplying a low-moisture component and a device for feeding slurry with a metering pump and five spray nozzles located along the length of the rotor, dryer-crusher to ensure uniform distribution [2 ]
Such a device allows the sludge to be fed into the furnace with a cyclone heat exchanger along with some other low-moisture component of the raw mix, for example, ash, cake obtained by filtering from sludge, part of the raw meal returned from the system, etc. which allows you to increase the productivity of the furnace or reduce the temperature of the exhaust gas if necessary.

 A disadvantage of the known device is the need to use a complex and expensive high-pressure metering pump and nozzles for sludge, which quickly fail due to wear.

 The objective of the invention is to simplify the design and increase reliability.

 The problem is solved in that in a device for feeding a furnace operating with a cyclone heat exchanger containing a rotary dryer-crusher and a heat exchanger placed above it to supply a low-moisture component and a device for supplying sludge, the latter is made in the form of a self-flowing driving pipe placed above the rotor of the crusher-dryer with the possibility of swinging.

 An air supply pipe may be installed inside the gravity slurry feed pipe.

The drawing shows a General view of the device, where
in FIG. 1 shows a longitudinal section through a dryer-grinder, and in FIG. 2 is a section along AA, A ¹ -A ¹ in FIG. 1.

 Rotary kiln 1 flue 2 is connected to the cyclone 3 of the cyclone heat exchanger. The gas duct 4 serves to supply hot gas to the dryer-grinder 5 with the rotor 6, and the gas duct 7 for the gases from it through the electrostatic precipitator 8, a smoke exhauster 9 and a pipe 10.

 The feeder of the low-moisture component 11 through the estrus 12 and the lock gate 13 feeds it evenly along the length of the rotor 6 into the dryer-grinder or gas duct 4 also along its width. A pipe 15 is mounted on the bearings 14 over the rotor 6 along its axis 14, which swings with a lever 16 from one end of the rotor 6 to the other or along the width of the pipe 4. To supply slurry from the batcher to the pipe 15 there is a fixed pipe 17, which is connected to the pipe 15 by stuffing box 18. The pipe 15 can be closed by a casing 19, an air pipe 20 can be installed inside it, into which compressed air can be supplied through the hose 21. The raw meal caught by the electrostatic precipitator 8 by means of a pneumatic screw pump 22 is fed through a pipe 23 to the gas duct 2. The stream 24 serves to feed the raw meal caught in the cyclone 3 into the furnace 1.

 The diameter of the pipe 15 is determined by calculating from the condition that a predetermined amount of slurry be passed by gravity to a full cross section for good cooling. The diameter of the pipe 20 is determined by calculation from the condition of good spraying of sludge. The remaining dimensions are determined constructively and checked for strength and performance.

 The device operates as follows.

 A smoke exhaust 9 draws hot gases from the furnace 1 through a gas duct 2 cyclone 3, a gas duct 4, a dryer-crusher 5, a gas duct 7, an electrostatic precipitator 8 and emits them through a pipe 10 into the atmosphere.

 The feeder 11 through the estrus 12, the lock gate 13 delivers a low-moisture component along the length of the rotor 6 of the dryer-crusher 5, where, along the width of the pipe 4, also sludge is sprayed with air from the pipe 15. Hot gases dry a low-moisture component and the sludge in the form of raw meal is discharged through a gas duct 7 to an electrostatic precipitator 8, where it is captured and fed by a pneumatic screw pump 22 through a pipe 23 to a gas duct 2. In a gas duct 2, the raw meal is heated by the hottest gases from furnace 1 and is separated from them into cyclone 3 and estrus 24 is fed into the furnace 1 for final firing.

 The use of the device simplifies the design by eliminating a complex high-pressure metering pump and several 6 nozzles arranged uniformly along the length of the rotor, which will reduce construction and operating costs. In addition, the reliability increases, because there is no danger of clogging and wear of nozzles 1, which will increase the utilization rate and, consequently, the output.

Claims (2)

 1. A device for feeding a furnace operating with a cyclone heat exchanger, comprising a rotary dryer-crusher and a chute placed above it to supply a low-moisture component and a device for supplying slurry from a dispenser, characterized in that the device for feeding slurry is made in the form of a crusher placed above the rotor dryers of a drive gravity pipe with a possibility of swing.  2. The device according to claim 1, characterized in that a pipe for supplying air is installed inside the gravity-fed slurry supply pipe.

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