RU2628366C1 - Solid-fuel feeder - Google Patents

Abstract

FIELD: power industry.

SUBSTANCE: solid-fuel feeder contains a hopper placed above the furnace, the outlet of which is communicated through the fuel supply chamber to the grate surface, equipped with a crank-and-rod mechanism of its reciprocating motion, and a drive of this mechanism. In the cavity of the fuel supply chamber, the fuel dispenser is placed, the upper and lower gate valves are rotatable about horizontal axes parallel to the front wall of the furnace and the baffle plate with an inclination of not less than the sliding angle of the coal along the steel. The dispenser comprises a cylindrical fuel drum provided with equidistant triangular protrusions oriented along generatrixes, rotatably mounted about the horizontal axis parallel to the front wall of the furnace, is provided with a rotation drive and is made of a length equal to the width of the fuel supply chamber. The upper gate valve is hinged to the rear wall of the fuel supply chamber with the upper edge, and the lower part is supported on the portion of the fuel drum facing it. The lower gate valve is hinged to the rear wall of the fuel supply chamber with the upper edge, below the rotation axis of the fuel drum, and the lower one is supported against the surface of the grate plate surface facing it. The feeder is provided with a work unit for coordinating the operation of the reciprocating motion of the grate plate and the drive of the fuel drum. In addition, a receiving chamber is formed between the hopper and the fuel supply chamber in the form of a hollow body contiguous therewith, in the cavity of which there is an inclined unloading plate with an inclination of not less than the sliding angle of the coal along the steel, the upper edge of which is rigidly fixed to the rear wall of the receiving chamber, is placed with a clearance to the front wall of the receiving chamber. Improved depth regulation of fuel delivery and accuracy of its dosing is provided for operation at low loads.

EFFECT: invention makes it possible to increase the depth of fuel supply regulation and the accuracy of its dosing, when operating at low loads.

2 cl, 2 dwg

Description

The invention relates to a device for loading boiler units with fuel (coal, wood chips, etc.) and can be used in the construction of boiler units with mechanized furnaces.

Known mechanized furnaces with chain gratings of direct travel of the means of supplying fuel to the cold part of the furnace grate using a vertical knife-regulator to control the thickness of the fuel layer and, accordingly, the thermal performance of the boiler (see Yu.L. Gusev. Basics of the design of boiler plants. Publishing house literature on construction. Moscow - 1967 p. 90).

Also known is a fuel feeder containing a hopper located above a mechanized furnace, the outlet of which is communicated by a vertical chamber with the surface of the grate, equipped with a crank mechanism of reciprocating motion, rigidly fastened by the frame of the boiler installation, an electric motor with a gearbox, on the output shaft of which is installed a crank pivotally connected to a slider, the free end of which is pivotally connected to a movable frame on which an inclined a firing grate (see MA Styrikovich, K. Ya. Katkovskaya and EP Serov. Boiler units. Gosenergoizdat, Moscow, Leningrad - 1959, p. 78).

The disadvantage of such designs is the danger of fuel ignition in the boiler hopper when operating at low loads, due to the prolonged presence of fuel in the ignition zone on the grate.

Also known is a solid-fuel feeder containing a hopper located above the furnace, the outlet of which is communicated through the fuel supply chamber with the surface of the grate equipped with a crank mechanism for its reciprocating movement and the drive of this mechanism, while a fuel dispenser is placed in the cavity of the fuel supply chamber, upper and lower slide gates installed with the possibility of rotation around horizontal axes parallel to the front wall of the furnace, and a baffle sheet with an inclination of not less than coal slip on steel (see RU No. 156579, F23B 40/00, F23K 3/08, 2015).

The disadvantage of this solution is the insufficient depth of regulation of the fuel supply, due to the fact that the lattice drive mechanism also provides the metering drive. In addition, the accuracy of fuel metering when working at low loads is unsatisfactory.

The task to which the claimed technical solution is directed is to increase the depth of fuel supply regulation and also the accuracy of its dosing when operating at low loads.

The technical result, which manifests itself in solving the problem, is expressed in increasing the depth of regulation of the fuel supply and the accuracy of its dosing when operating at low loads.

The technical result is achieved due to the fact that a solid-fuel feeder containing a hopper located above the furnace, the outlet of which is communicated through the fuel supply chamber with the surface of the grate, equipped with a crank mechanism for its reciprocating movement, and the drive of this mechanism, while in the cavity fuel supply chambers accommodate a fuel dispenser, upper and lower slide gates, mounted for rotation around horizontal axes parallel to the front wall of the furnace, and a baffle sheet with an inclination not less than the angle of coal sliding on steel, characterized in that the dispenser comprises a cylindrical fuel drum provided with triangular projections equidistant from each other, oriented along the generators, while the drum is mounted to rotate around a horizontal axis parallel to the front wall of the furnace, equipped with a rotation drive and made in length corresponding to the width of the fuel supply chamber, in addition, the upper slide gate with the upper edge is pivotally attached to the rear wall of the chambers the fuel supply, and the lower one is supported on the portion of the fuel drum facing it, while the lower slide gate with the upper edge is pivotally attached to the rear wall of the fuel supply chamber, lower than the axis of rotation of the fuel drum, and the lower one is supported on the portion of the surface of the grate, facing which the feeder is equipped with a unit coordination of the operation of the reciprocating drive of the grate and the fuel drum drive. In addition, between the hopper and the fuel supply chamber, a receiving chamber is made in the form of a hollow body coupled to them, in the cavity of which an inclined discharge plate is installed, with an inclination not less than the angle of coal sliding on steel, the upper edge of which is rigidly bonded to the rear wall of the receiving chamber, and the lower placed with a gap to the front wall of the receiving chamber.

A comparative analysis of the features of the claimed solution with the signs of the prototype and analogues indicates the conformity of the claimed solution to the criterion of "novelty." Moreover, the totality of the features of the claims provides a solution to the technical problem, namely, increasing the depth of regulation of the fuel supply, as well as the accuracy of its dosing when working at low loads. Moreover, the features of the characterizing part of the claims provide a solution to the following functional problems.

The signs "the dispenser contains a cylindrical fuel drum equipped with triangular projections equidistant from each other, oriented along the generatrices, while the drum is mounted for rotation around a horizontal axis parallel to the front wall of the furnace, equipped with a rotation drive and made with a length corresponding to the width of the fuel supply chamber" accurate dosing of fuel, with its supply only through the fuel drum.

The signs “the upper gate valve with the upper edge pivotally fastened to the rear wall of the fuel supply chamber, and the lower one resting on the portion of the fuel drum facing it” provide fuel supply to the desired portion of the fuel drum and do not interfere with its movement.

The signs “the lower slide gate with the upper edge hinged to the rear wall of the fuel supply chamber, lower than the axis of rotation of the fuel drum, and the lower one resting on the surface section of the grate to face it” exclude the filling of the fuel drum in the gap with the rear wall of the fuel supply chamber and do not interfere with its movement .

The signs “the feeder is equipped with a unit for coordinating the operation of the reciprocating drive of the grate and the drive of the fuel drum” allows you to adjust the operation of the fuel drum, regardless of the operation of the crank mechanism of the grate.

The signs of the second paragraph of the formula reduce and stabilize the flow of coal leaving the hopper before entering it into the fuel supply chamber

In FIG. 1 schematically shows the feeder and its mechanisms and components; in FIG. 2 is a volumetric section through a hopper-receiving chamber-fuel supply chamber.

The drawings show a furnace 1, equipped with an inclined-pusher grate 2, mechanism 3 for its reciprocating movement, its drive 4, hopper 5, its outlet 6, fuel supply chamber 7, upper 8 and lower 9 gate valves, their horizontal axis 10 , the front wall 11 of the furnace 1, the baffle plate 12, a cylindrical fuel drum 13 with an axis of rotation 14, its triangular projections 15, its rotation drive 16, the rear wall 17 of the fuel supply chamber 7, the matching unit 18, the receiving chamber 19, the discharge plate 20, the rear 21 and front 22 Tenkai receiving chamber 19, protective visors 23, the hatches 24.

The outlet 6 of the hopper 5 is placed above the furnace, reported through the receiving chamber 19 and the fuel supply chamber 7 with the surface of the grate 2. The named chambers are arranged sequentially one after another, forming a vertical channel connecting the outlet 6 of the hopper 5 with the surface of the grate 2.

The reciprocating movement mechanism 3 is designed as a crank mechanism, the drive 4 of which is made in a known manner and contains an electric motor with a planetary gear, on the output shaft of which a crank is mounted, with an adjustable eccentricity, pivotally connected to the connecting rod, which, in turn, is pivotally connected with a slider, the free end of which is pivotally connected to the movable frame, on which the inclined-repulsive grate 2 is mounted.

At the same time, in the cavity of the fuel supply chamber 7 there are upper 8 and lower 9 slide gates installed with the possibility of rotation around horizontal axes 10 parallel to the front wall 11 of the furnace 1, and a baffle plate 12 with an inclination no less than the coal sliding angle on steel. In addition, a dispenser is placed in the cavity of the fuel supply chamber 7, which comprises a cylindrical fuel drum 13 provided with triangular projections 15 equally spaced from each other, oriented along the drum generators of equal length. In this case, the drum 13 is mounted to rotate around a horizontal axis 14 parallel to the front wall 11 of the furnace 1. It is equipped with a rotation drive 16 and is made in length corresponding to the width of the fuel supply chamber 7. In addition, the upper gate valve 8 is articulated to its rear edge from the rear the wall 17 of the fuel supply chamber 7, and the lower one is supported on the portion of the fuel drum 13 facing it, while the lower slide gate 9 is pivotally fastened with the upper edge to the rear wall 17 of the fuel supply chamber 7, below the rotation axis of 14 t the fuel drum 13, and the lower one is supported on the surface portion of the grate 2 facing it.

The feeder is equipped with a coordination unit 18 of the operation of the drive 4 for reciprocating the grate and the rotation drive 16 of the fuel drum 13, made on the basis of a controller of known design (options for controlling the electric motors of these drives using pulse-width modulation), or through a timer the power signal to the electric motors for a predetermined period of time, (i.e., the controller sends a signal to the electric motor of the rotation drive 16 of the drum 13 when the limit switch I (not shown in the drawings - when the furnace is in the initial position). As a result, the rotation drive 16 starts to rotate the fuel drum in a predetermined period of time, 1, 2, 3, etc. sec, after which it stops for a period of time equal to the duration cycle of the movement of the grate 2, after pressing the limit switch ... and the cycle repeats). In this case, the operation occurs along the limit switch installed in the initial position of the crank of the planetary gearbox, which ensures synchronization of the operation of the inclined-repulsive lattice 2 and the dispenser. Regulation of the performance of the solid-fuel feeder and the amount of fuel supplied to the furnace 1 is provided by changing the duration of the drive 4.

In the cavity of the receiving chamber 19, an inclined discharge plate 20 is installed, the width of which corresponds to the width of this chamber, the inclination is not less than the angle of coal sliding on steel, the upper edge of which is rigidly bonded to the rear wall of the receiving chamber 19, and the lower one is placed with a gap to the front wall of the receiving chamber, localized over the area of the baffle plate 12.

The claimed device operates as follows.

From the hopper 5, solid fuel flows by gravity into the vertical receiving chamber 19 and, moving along the discharge plate 20 mounted in the cavity of the chamber, flows to the baffle plate 12 of the fuel supply chamber 7, which prevents uncontrolled fuel intake due to gravitational forces (its plummet falling down) and organizes its exit in the form of a layer of a limited thickness gap between the lower edge of the discharge plate 20 and the corresponding wall of the receiving chamber 19. Next, the fuel enters the fuel supply chamber 7, at its outlet yny sheet 12 is mounted at an angle up to 55 °. Thus, the baffle sheet 12 forms a layer of fuel on the fuel drum 13, due to the resulting gap between its edge and the surface of the upper gate valve 8, and also prevents arbitrary movement of fuel by gravity to the grate 2, bypassing the drum 13. The upper gate valve 8, made width equal to the width of the chamber 7, mounted on a horizontal axis 10, is supported by its lower edge (preferably bent up) on the longitudinal ribs of the fuel drum 13 on the triangular protrusions 15 preventing spillage the flickering of fine fuel in the direction opposite to the rotation of the fuel drum 13. When the fuel drum 13 rotates, the upper shut-off slide 10 rises and lowers back onto the surface of the longitudinal ribs, shaking the volume of fuel between it and the baffle plate 12.

The performance control of the solid-fuel feeder and the amount of fuel supplied to the furnace 1 is provided by changing the duration of its rotation drive. Protective visors 23 prevent fuel from entering the drum shaft 13, into the gap between the ends of the drum and the side walls of the fuel supply chamber 7.

When the drum 13 rotates, the volume of fuel located on its surface and held by its longitudinal ribs (triangular protrusions 15) falls on the grate of the inclined-repulsive grill 2 for subsequent combustion in the furnace of boiler 1. The lower gate valve 9, also made across the entire width of the chamber and leaning on the first row of moving grates, prevents the failure of the fuel behind the canvas inclined-peretalkivaya lattice 2.

The horizontal reciprocating movement of the inclined-pusher grate 2 is transmitted to it in a known manner (as in the prototype) by a thrust that pushes the connecting rod connected to the crank when the latter is rotated by the drive 4 through a planetary gearbox.

The change in the speed of the inclined-repulsive lattice 2 is carried out by a planetary gear, it is also possible to install a frequency converter (not shown in the drawings) of the electric motor 4 to increase the range of performance control.

Hatches 24 are provided in the end walls of the feeder for maintenance and periodic cleaning of the fuel drum 13, as well as for igniting the boiler.

The gap between the fuel located on the surface of the fuel drum 13 and the surface of the grate 2 eliminates the possibility of fuel ignition in the hopper during operation of the boiler unit at low loads.

Claims (2)

1. A solid fuel feeder containing a hopper located above the furnace, the outlet of which is communicated through the fuel supply chamber with the surface of the grate equipped with a crank mechanism for its reciprocating movement, and the drive of this mechanism, while a fuel dispenser is placed in the cavity of the fuel supply chamber, upper and lower slide gates installed with the possibility of rotation around horizontal axes parallel to the front wall of the furnace, and a baffle sheet with an inclination not less than the sliding angle coal in steel, characterized in that the dispenser contains a cylindrical fuel drum equipped with equidistant triangular protrusions oriented along the generatrices, while the drum is mounted for rotation around a horizontal axis parallel to the front wall of the furnace, equipped with a rotation drive and a length corresponding to the width of the fuel supply chamber, in addition, the upper slide gate with the upper edge is pivotally attached to the rear wall of the fuel supply chamber, and the lower one is supported on the a portion of the fuel drum, while the lower slide gate is pivotally fastened with the upper edge to the rear wall of the fuel supply chamber, lower than the axis of rotation of the fuel drum, and the lower one is supported by the surface section of the grate grid facing it, and the feeder is equipped with a unit for coordinating the operation of the reciprocating drive grate and fuel drum drive. 2. The solid-fuel feeder according to claim 1, characterized in that a receiving chamber is made between the hopper and the fuel supply chamber in the form of a hollow body conjugated with them, in the cavity of which there is an inclined discharge plate with an inclination not less than the angle of coal sliding on steel, the upper edge of which is rigid fastened to the rear wall of the receiving chamber, and the bottom is placed with a gap to the front wall of the receiving chamber.

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