RU2287740C2 - Fire grate for mechanical furnace - Google Patents

Abstract

FIELD: combustion apparatus and processes.

SUBSTANCE: fire grate and chain fire grates are ring-shaped, comprises front and back closed ends, and reciprocates.

EFFECT: enhanced efficiency of combustion.

13 cl, 7 dwg

Description

FIELD OF THE INVENTION

The invention relates to a mechanical furnace of a boiler, in particular to a grate for combustion with horizontal circulation.

Description of the Related Art

At present, grate grates for boilers with mechanical furnaces by design can be classified into two types, namely, grate grates that perform reciprocating motion, and chain grate grates. Fuel is fed continuously to one end of the surface of the grate, and it moves horizontally along the grate during combustion. Residual ash is discharged from the opposite end. Such grate grids of mechanical furnaces have the following disadvantages: 1) coal is ignited mainly by thermal radiation from the furnace roof, while ignition of the fuel starts from the upper layer to the lower layer of coal in a direction that is opposite to the direction of the air flow, which leads to an unfavorable combustion mode and incomplete combustion; 2) the time spent in the furnace of coal burning on the grate, can not be long, since the grate has a limited length, so that coal cannot completely burn; and 3) the lower layer of coal is ignited by the very last, which leads to the fact that small particles of coal pass through the ventilation slots of the grate and cause a large loss of coal.

SUMMARY OF THE INVENTION

The objective of the present invention is to create a mechanical combustion chamber of a horizontal-circulation combustion boiler, which overcomes the following disadvantages of reciprocating and chain grate systems used for existing mechanical solid fuel furnaces: the duration of the coal burning on the grate is insufficient ; The ignition of coal occurs mainly through thermal radiation from the furnace, so that complete combustion of coal cannot be ensured, and small particles of coal in the lower layer easily come out of the ventilation slots of the grate and lead to noticeable losses of coal.

To solve the problem of the present invention, the technical scheme is as follows. Provide the ability to connect together both ends of a conventional grate of a mechanical furnace and form a closed long annular moving grate. Coal burns on a long annular grate in the combustion mode with horizontal circulation.

According to a first embodiment of the invention, the grate includes a support for stationary grate grate plates, supports for movable grate grate plates, equipped with support rollers on a support for stationary grate grate plates, stationary grate plates provided with mounting transverse supports girders for stationary grate grate plates, grate plates equipped with mounting transverse beams of supports for movable grate plates lattice, and the drive unit, while the moving plates of the grate and the stationary plates of the grate are placed alternately, the support for the stationary plates of the grate has a long annular shape, the supports for the moving plates include a pair of rectangular supports opposite each other, and another pair of ring-shaped supports for movable plates of the grate, opposite to each other so as to form a long annular support assembly, the drive unit is a set of support blocks the shafts that are mounted on the support for the stationary plates of the grate, the oscillating rods are connected between the supports of the support blocks and at least one of the rectangular supports for the moving plates of the grate and the arcuate supports for the moving plates of the grate in the supports for the moving plates of the grate, moreover, an arcuate or rectangular support for the movable plates of the grate, connected to the oscillating rods, is a leading support for the movable plates grate, an arcuate or rectangular support for the moving plates of the grate, not connected to the oscillating rods, is a driven support for the moving plates of the grate, the adjacent driving support for the moving plates of the grate is pivotally attached to the driven support for the moving plates and the grate the supports for the movable plates of the grate are pivotally connected, and one of the oscillating rods is connected to the link for supplying energy.

According to a second embodiment of the invention, the grate includes a support for stationary grate grate plates, supports for movable grate grate plates, equipped with support rollers on a support for stationary grate grate plates, stationary grate plates provided with mounting transverse support girders for stationary grate grate plates and movable grate plates equipped with mounting cross beams of supports for movable grate plates the lattice, while the moving plates of the grate and the stationary plates of the grate are alternately arranged, the support for the stationary plates of the grate has a long annular shape, the supports for the moving plates of the grate include a pair of rectangular supports for the moving plates of the grate, which are opposite to each other, and another pair of arcuate supports for the moving plates of the grate, which are opposite to each other so as to form a long annular support assembly, rectangular supports for the movable plates of the grate is hingedly connected to arcuate supports for the movable grate plates and one of the rectangular support for the movable grate plates or arcuate supports for the movable plates of the grate is connected to a link for energy supply.

According to a third embodiment of the invention, the grate includes a support for stationary grate grate plates, supports for movable grate grate plates, equipped with support rollers on a support for stationary grate grate plates, stationary grate plates, equipped with mounting transverse supports girders for stationary grate grate plates, grate plates equipped with mounting transverse beams of supports for movable grate plates th grid, and the transfer unit, while the moving plates of the grate and the stationary plates of the grate are placed alternately, both the support for the stationary plates of the grate and the supports for the moving plates of the grate have a long annular shape, the transfer unit is a support unit, which located in the center of the supports for the movable plates of the grate and attached to the support for stationary plates of the grate, an oscillating rod is connected between the support of a support block and supports for movable plates of the grate, and said oscillating rod is connected to a link for supplying energy.

According to a fourth embodiment of the invention, the grate includes a support for the grate, a chain and a transmission unit, the chain comprising a drive chain for grate plates and driven plates of the grate, a drive chain for grate plates has a horizontal ring-shaped design, driven grate plates are inserted alternately in two opposite directions and fixed with the fingers of the drive chain for the grate plates, the sides are adjacent yedoma furnace grate plates overlap or are connected to each other, and has one or more outlet passageways for discharging ash on the side wall of the grate support.

Compared with the prior art, the invention has the following features: the grate has a long ring-shaped design, coal can be circulated and burned on the grate, the residence time of coal on the grate during combustion can be much longer, the lower layer of burning coal forms sufficient a heat source for ignition, a new coal feed covers the circulating layer of burning coal, combustion starts from the lower layer to the upper layer and Wounding direction coinciding with the direction of airflow in order to ensure complete combustion mode. The invention has the following beneficial effects: 1) coal can undergo complete combustion, and the completeness of combustion can be significantly increased (increased by more than 11% compared with a conventional mechanical solid fuel combustion chamber); 2) the blackness and dust emission in the flue gas can be significantly less; 3) combustion can be carried out at a low temperature (900 ° C), desulfurization and a lower concentration of harmful NO _x (nitrogen oxides) in the flue gas are provided, and the effect may correspond to the effect achieved for a circulating fluidized-bed furnace; 4) it is possible to burn coal with lower calorific value (only 12.56 MJ / kg); and 5) the total operating costs are only half of the corresponding costs for a circulating fluidized bed furnace.

Brief Description of the Drawings

Figure 1 shows a schematic plan view of the grate of a mechanical furnace for circulating combustion, in the case when the supports for the moving plates of the grate are long annular supports assembled and the transmission unit is two sets of support blocks;

figure 2 shows an enlarged schematic view of the design of the grate of a mechanical furnace for circulating combustion, made along the line aa in figure 1, in the case when the supports for the movable plates of the grate are long ring-shaped supports in the assembly, and the transfer the node is two sets of support blocks;

figure 3 shows a schematic plan view of the design of the grate of a mechanical furnace for circulating combustion, in the case when the supports for the moving plates of the grate are long ring-shaped supports in the assembly, and the transmission unit is one set of support block located in support center for stationary grate plates;

figure 4 shows a schematic plan view of the design of the grate of a mechanical furnace for circulating combustion, in the case when the supports for the moving plates of the grate are long annular supports in the assembly, and the transmission unit is one set of support block located with the outer side of the support for the stationary plates of the grate;

figure 5 shows a top view of the construction of the grate of a mechanical furnace for circulating combustion, in the case when there is no support block;

Fig. 6 shows a schematic plan view of the construction of the grate of a mechanical furnace for circulating combustion in the case where both the support for the stationary plates of the grate and the supports for the movable plates of the grate have an annular shape; and

Fig.7 shows a schematic view of the grate of a mechanical furnace for circulating combustion, in the case when it consists of a chain structure.

Detailed Description of a Preferred Embodiment

Next, preferred embodiments of the invention will be described with reference to the drawings. In the embodiment shown in figures 1 and 2, the grate contains a support 1 for stationary plates of the grate, supports for the movable plates of the grate, equipped with support rollers 2 on the support 1 for the stationary plates of the grate, stationary plates 4 of the grate provided mounting cross beams 3 supports 1 for stationary grate plates, movable plates 6 grate equipped with mounting cross beams 5 supports for moving grate plates a new grate and a transfer unit, while the movable plates 6 of the grate and the stationary plates 4 of the grate are arranged alternately, the support 1 for stationary plates of the grate has a long annular shape, the supports for the movable plates of the grate include a pair of rectangular supports 7 for the movable plates of the grate gratings that are opposite to each other, and another pair of half-ring supports 8 for movable plates of the grate, which are opposite to each other so as to form l the long annular support assembly, the transmission unit consists of two sets of support blocks 9 and 10, which are attached to the support 1 for stationary plates of the grate and which are located respectively in the centers of the half-ring supports 8 for the moving plates of the grate, the oscillating rods 11 are connected respectively between the supports of the support blocks 9 and 10 and the corresponding semi-ring support 8 for the moving plates of the grate, and between the rectangular supports 7 for the moving plates of the grate lattice. One of the oscillating rods 11 is connected to the link 12 for supplying energy. Between the stationary plates 4 of the grate and the movable plates 6 of the grate in the combustion zone there are slots 13 for falling ash with a size of 15-20 mm, under which there is an opening 14 for unloading ash. In the embodiment shown in FIG. 3, the transmission unit is a set of a support block 9, which is located in the center of the support 1 for stationary plates of the grate, an oscillating rod 11 is connected between the support of the support block 9 and the middle part of the rectangular supports 7 for movable grate plates, supporting elements for rollers, each of which is provided with a limiting roller 15, are bolted to the inner walls on two sides of the moving grate plates 6 on the floor annular bearings 8 for the movable grate plates corresponding to the support 1 to the stationary grate plates, and hinges 16 are connected between the rectangular legs 7 to the movable grate plates and semicircular bearings 8 for the movable grate plates. In the embodiment shown in FIG. 4, the transmission unit is a set of a support block 9, which is located on the outside of the support 1 for stationary plates of the grate, an oscillating rod 11 is connected between the support of the support block 9 and one of the semi-ring supports 8 for movable grate plates in supports for movable grate plates and supporting elements for rollers, each of which is provided with a limit roller 15, are bolted to the inner walls on two sides of the movable plates 6 on the grate semicircular bearings 8 intended for the movable grate plates, the support 1 to the stationary grate plates. In the embodiment without the support block shown in FIG. 5, one of these rectangular supports 7 for movable grate plates or half-ring supports 8 designed for movable grate plates is connected to a link 12 for supplying energy, and the limiting rollers 23 are fixed on the inner walls of the outer plate at the semi-ring supports 8, designed for movable plates of the grate, supports 1 for stationary plates of the grate. In the embodiment shown in FIG. 6, the grate contains a support 1 for stationary grate plates, a support for movable grate plates provided with support rollers 2 on a support 1 for stationary grate plates, stationary grate plates 4 provided with mounting transverse support beams 1 for stationary grate plates, movable grate plates 6 equipped with mounting transverse support beams for movable grate plates lattice, and the transfer unit, while the movable plates 6 of the grate and the stationary plates 4 of the grate are arranged alternately, as the support 1 for the stationary plates of the grate and the support for the movable plates of the grate have an annular shape, the transfer unit is a support unit 9 which is attached to the support 1 for stationary plates of the grate and which is located in the center of the ring formed respectively by the support for the movable plates of the grate, radiating rods 11 are connected between the support from the support block 9 and the support for the movable plates of the grate, one of the oscillating rods 11 is connected to the link 12 for supplying energy. Between the stationary plates 4 of the grate and between the movable plates 6 of the grate there are slots 13 for falling ash with a size of 15-20 mm, respectively, above the hole 14 for unloading ash. In the embodiment shown in FIG. 7, the grate contains a support 17 for the grate, a chain and a transmission unit, the chain comprising a drive chain 18 for grate plates and driven plates 19 of the grate, the drive chain 18 for grate plates has horizontal long ring-shaped design, driven plates 19 of the grate grid are inserted alternately in two opposite directions and secured with the fingers 20 of the drive chain 18 for grate plates, adjacent leads mye grate plate 19 overlap or are connected to each other, and the side wall of the support grate 17 has an output port 21 for discharging ash. When implementing the embodiments shown in FIGS. 1-6, link 12 is connected to a drive mechanism 22. When implementing the embodiment shown in FIG. 7, the drive chain pulley axis 24 is connected to an energy supply device.

Claims (13)

1. A grate for a mechanical furnace for circulation combustion, comprising a support for stationary grate plates, supports for movable grate plates, equipped with support rollers on a support for stationary grate plates, stationary grate plates, equipped with mounting cross beams for stationary plates grate, movable grate plates equipped with mounting cross beams of supports for movable grate plates the grid, and the transmission unit, while the moving plates of the grate and the stationary plates of the grate are arranged alternately, characterized in that the support for the stationary plates of the grate has a long annular shape, the supports for the moving plates of the grate include a pair of rectangular supports for the moving plates of the grate lattices that are opposite to each other, and another pair of arcuate supports for the movable plates of the grate, which are opposite to each other In order to form a long annular support assembly, the transmission unit consists of support blocks that are attached to the support for stationary plates of the grate, the oscillating rod is connected between the supports of the support blocks and at least one of the rectangular supports for the movable plates of the grate and arcuate supports for movable grate plates in supports for movable grate plates, arcuate or rectangular support for movable grate plates, soy inennaya with an oscillating rod, is a leading support for the moving plates of the grate, an arcuate or rectangular support for the moving plates of the grate, not connected to the oscillating rod, is a driven support for the moving plates of the grate, leading support for the moving plates of the grate to an adjacent driven support for the moving plates of the grate, and the driven supports for the moving plates of the grate are pivotally connected s each other, the oscillating rod is connected to a link for supplying energy. 2. The grate for the mechanical furnace for circulation combustion according to claim 1, characterized in that the transmission unit consists of two sets of support blocks, which are located respectively in the centers of the half rings to form an arc of arcuate supports for the moving plates of the grate, and the oscillating rods are connected between the supports of the support blocks and the corresponding arcuate support for the movable plates of the grate and between the rectangular supports for the movable plates of the grate. 3. The grate for the mechanical furnace for circulation combustion according to claim 1, characterized in that the transmission unit is one set of support block, which is located in the center of the support for stationary plates of the grate, oscillating rods are connected between the support of the support block and the middle part of two rectangular supports for the moving plates of the grate, and the supporting elements for rollers with a limit roller are bolted to the inner walls on two sides of the moving plates of the grate Lattice-twinned on arcuate supports for the movable grate plates corresponding to support plates fixed to the grate. 4. The grate for the mechanical furnace for circulation combustion according to claim 1, characterized in that the transmission unit is one set of support block, which is located on the outside of the support for stationary plates of the grate, oscillating rods are connected between the support of the support block and one rectangular a support for the movable plates of the grate or an arcuate support for the movable plates of the grate in the supports for the movable plates of the grate, and supporting elements for For rollers with a limiting roller, bolts are fixed on the inner walls on two sides of the moving plates of the grate; the furnaces are on arcuate supports for the moving plates of the grate, corresponding to the support for the stationary plates of the grate. 5. Grate for a mechanical furnace for circulation combustion according to any one of claims 1 to 4, characterized in that said arcuate supports for movable plates of the grate have a semicircular shape. 6. The grate for the mechanical furnace for circulation combustion according to any one of claims 1 to 4, characterized in that between the stationary plates of the grate and between the moving plates of the grate in the combustion zone there are slots for ash fall of 15-20 mm in size. 7. A grate for a mechanical furnace for circulation combustion, comprising a support for stationary grate plates, supports for movable grate plates, equipped with support rollers on a support for stationary grate plates, stationary grate plates, equipped with mounting cross beams for stationary plates grate, and movable grate plates equipped with mounting transverse beams of supports for movable grate plates while the movable grate plates and the stationary grate plates are arranged alternately, characterized in that the support for the stationary grate plates has an annular shape, the supports for the movable grate plates include a pair of rectangular supports for the movable grate plates, which are opposite to each other friend, and another pair of arcuate supports for movable plates of the grate, which are opposite to each other so as to form an annular know the support, the rectangular supports for the moving plates of the grate of the furnace are pivotally connected to the ring-shaped supports for the moving plates of the grate, the rectangular support for the moving plates of the grate or the arc-shaped support for the moving plates of the grate are connected to the link for supplying energy. 8. The grate for the mechanical furnace for circulation combustion according to claim 7, characterized in that the limiting rollers are fixed on the inner walls on the outer plates in the place where the support for the stationary plates of the grate corresponds to the arcuate supports for the movable plates of the grate. 9. The grate for the mechanical furnace for circulation combustion according to claim 7 or 8, characterized in that the arcuate supports for the movable plates of the grate have a semicircular shape. 10. Grate for a mechanical furnace for circulating combustion according to claim 7 or 8, characterized in that between the stationary plates of the grate and between the moving plates of the grate in the combustion zone there are slots for ash fall of 15-20 mm in size. 11. Grate for a mechanical furnace for circulating combustion, comprising a support for stationary grate plates, supports for movable grate plates, equipped with support rollers on a support for stationary grate plates, stationary grate plates, equipped with mounting transverse supports for stationary plates grate, movable grate plates equipped with mounting cross beams of supports for movable grate plates a new grate, and a transmission unit, while the moving plates of the grate and the stationary plates of the grate are arranged alternately, characterized in that the support for the stationary plates of the grate and the supports for the moving plates of the grate are ring-shaped, the transmission unit is a support unit, which located in the center of the supports for the moving plates of the grate and attached to the support for the stationary plates of the grate, the oscillating rod is connected between the support of the support block and supports for the movable plates of the grate, and the oscillating rod is connected to the link for supplying energy. 12. The grate for the mechanical furnace for circulating combustion according to claim 11, characterized in that between the stationary plates of the grate and between the moving plates of the grate in the combustion zone there are slots for ash fall of 15-20 mm in size. 13. The grate for a mechanical furnace for circulation combustion, containing a support for the grate, a chain and a transmission unit, characterized in that the chain contains a drive chain for grate plates and driven plates of the grate, the drive chain for grate plates has a horizontal ring-shaped design , the driven plates of the grate are inserted alternately in two opposite directions and are attached to the specified drive chain for the plates of the grate COROLLARY fingers neighboring slave grate plates overlap or are connected with each other, the opening for discharging the ash is provided on the side wall of the support grate.

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