SU1052792A1 - Air-jet spreader - Google Patents

Abstract

1. A pneumatic deflator of fuel, containing a coal box, a powered feeder, an accelerating plate located under the feeder, the output section of which is in communication with the furnace, and the initial nozzle with pneumatic device, characterized in that, in order to increase its efficiency by improving combustion efficiency, The accelerating plate is made in the form of a cone, is hingedly articulated with a nozzle pneumatic device and installed with the possibility of changing its angle of inclination to the horizontal plane, and the nozzle pneumatic an Arat is equipped with an automatic valve connected to the drive of the feeder. 2. The spreader according to Claim 1, characterized in that the drive of the feeder is designed as a pneumatic diaphragm actuator. (L O1 to so go

Description

The invention relates to the supply of fuel to combustion devices and can be used in the layer combustion of solid fuels. A pneumatic fuel spreader is known, which contains a coal box, a powered feeder, an accelerating plate located under the feeder, below which air nozzles 1 are placed. The disadvantage of this thrower is low efficiency due to the considerable uneven distribution of fuel in the grate, which reduces the combustion efficiency. Known pneumatic spreader fuel containing coal box, feeder drive, located under the feeder accelerating plate, the output section of which communicates with the furnace, and the initial - with a nozzle pneumatic device 2. This device is inherent in the uneven distribution of fuel over the grate area, which leads to a decrease combustion efficiency. The purpose of the invention is to increase efficiency. This goal is achieved by the fact that in a pneumatic fuel spreader containing a coal box, a feeder with a drive, a booster plate located under the feeder, the output section of which is connected to the furnace, and the initial one - with a nozzle pneumatic device, the accelerator plate is made in the form of a cone, jointed with nozzle pneumatic apparatus and installed with the possibility of changing its angle of inclination to the horizontal plane, and the nozzle pneumatic apparatus is equipped with an automatic valve connected to the power supply ate. In addition, the drive of the feeder can be made in the form of a pneumatic diaphragm actuator. FIG. 1 shows the proposed spreader, top view; in fig. 2 is a view A of FIG. 1. The pneumatic fuel spreader contains a coal box 1, a feeder 2 with a drive 3, an accelerating plate 4 located under the feeder 2, the output section of which communicates with the furnace 5, and the initial section with a pneumatic nozzle device 6. The accelerating plate 4 is made in the form of a cone articulated joint 7 with a pneumatic device b and installed with the possibility of changing its angle of inclination to the horizon using a lever 8. The nozzle pneumatic device 6 is equipped with an automatic valve 9 connected by a pneumatic line 10 with a drive 3 of the feeder 2, made in the form of a pneumatic diaphragm actuator. The nozzle pneumatic device 6 is connected to a compressed air source by a pipe 11. The pneumatic fuel spreader operates as follows. The compressed air through the pipeline 11 enters the nozzle pneumatic apparatus 6. When the specified pressure is reached, the automatic valve 9 supplies air to the pneumatic diaphragm actuator, which by means of the crane mechanism turns the drive shaft of the feeder 2, resulting in a portion of coal from the coal box 1 to the accelerator plate 4. After that, the valve 9 is actuated and the fuel is injected with an air flow into the furnace 5. The conical form of the booster plate contributes to the sieving of coal along the width of the firebox 5. Zab range the coal axis is controlled by the tilt lever 8 of the acceleration plate and the pressure change at which the valve 9 is activated. The thrower performance is controlled by increasing the valve response frequency 9. Pulsed fuel supply to the furnace 5 and sieving of the fuel eliminates blockages in the furnace 5 and improves air access to the fuel, improves combustion efficiency, reduces chemical and mechanical underburning, thereby increasing efficiency. In addition, the proposed spreader, by adjusting the angle of inclination of the acceleration plate 4, the frequency of operation of the valve 9 and the pressure at which the valve 9 operates, ensures the effective burning of the angle of different chemical and fractional composition and humidity.

Claims (2)

1. PNEUMATIC FUEL SPRAY containing a coal box, a feeder with a drive, an accelerating plate located under the feeder, the output section of which is connected to the furnace, and the initial section - with a nozzle pneumatic device, characterized in that, in order to increase its efficiency by increasing efficiency combustion, the booster plate is made in the form of a cone, articulated with a nozzle pneumatic device and installed with the possibility of changing the angle of its inclination to the horizontal plane, and the nozzle pneumatic device equipped with an automatic valve connected to the feeder drive. 2. Spreader according to π. 1, characterized in that the feeder drive is made in the form of a pneumatic diaphragm actuator.