GB2077893A - Grates - Google Patents

Grates Download PDF

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Publication number
GB2077893A
GB2077893A GB8117772A GB8117772A GB2077893A GB 2077893 A GB2077893 A GB 2077893A GB 8117772 A GB8117772 A GB 8117772A GB 8117772 A GB8117772 A GB 8117772A GB 2077893 A GB2077893 A GB 2077893A
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United Kingdom
Prior art keywords
grate
channel
grate according
fuel
side walls
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
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GB8117772A
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GB2077893B (en
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Parkinson Cowan GWB Ltd
Parkinson Cowan Appliances Ltd
Original Assignee
Parkinson Cowan GWB Ltd
Parkinson Cowan Appliances Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Parkinson Cowan GWB Ltd, Parkinson Cowan Appliances Ltd filed Critical Parkinson Cowan GWB Ltd
Priority to GB8117772A priority Critical patent/GB2077893B/en
Publication of GB2077893A publication Critical patent/GB2077893A/en
Application granted granted Critical
Publication of GB2077893B publication Critical patent/GB2077893B/en
Expired legal-status Critical Current

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23LSUPPLYING AIR OR NON-COMBUSTIBLE LIQUIDS OR GASES TO COMBUSTION APPARATUS IN GENERAL ; VALVES OR DAMPERS SPECIALLY ADAPTED FOR CONTROLLING AIR SUPPLY OR DRAUGHT IN COMBUSTION APPARATUS; INDUCING DRAUGHT IN COMBUSTION APPARATUS; TOPS FOR CHIMNEYS OR VENTILATING SHAFTS; TERMINALS FOR FLUES
    • F23L1/00Passages or apertures for delivering primary air for combustion 
    • F23L1/02Passages or apertures for delivering primary air for combustion  by discharging the air below the fire
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23BMETHODS OR APPARATUS FOR COMBUSTION USING ONLY SOLID FUEL
    • F23B1/00Combustion apparatus using only lump fuel
    • F23B1/16Combustion apparatus using only lump fuel the combustion apparatus being modified according to the form of grate or other fuel support
    • F23B1/28Combustion apparatus using only lump fuel the combustion apparatus being modified according to the form of grate or other fuel support using ridge-type grate, e.g. for combustion of peat, sawdust, or pulverulent fuel
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23HGRATES; CLEANING OR RAKING GRATES
    • F23H1/00Grates with solid bars
    • F23H1/02Grates with solid bars having provision for air supply or air preheating, e.g. air-supply or blast fittings which form a part of the grate structure or serve as supports
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23HGRATES; CLEANING OR RAKING GRATES
    • F23H3/00Grates with hollow bars
    • F23H3/02Grates with hollow bars internally cooled
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23HGRATES; CLEANING OR RAKING GRATES
    • F23H9/00Revolving-grates; Rocking or shaking grates
    • F23H9/04Grates rocked as a whole
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23HGRATES; CLEANING OR RAKING GRATES
    • F23H2900/00Special features of combustion grates
    • F23H2900/03021Liquid cooled grates

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Incineration Of Waste (AREA)
  • Solid-Fuel Combustion (AREA)

Abstract

A grate (12, 112) characterised in that a fuel supporting and conveying surface is provided comprising at least one elongate channel (20, 120) having an open mouth and a bottom, the or each of said channels (20, 120) having a transverse cross-section which decreases in width in a direction extending away from the open mouth towards the bottom of the channel (20, 120), air feed opening means (21, 121) to feed air to the interior of the channel (20, 120) at least in the region of the bottom thereof, and means (55) mounting the channel (20, 120) to permit the channel (20, 120) to be vibrated to cause fuel to be conveyed along the channel (20, 120) and longitudinally of the grate (12, 112). In a second embodiment the sides of the channel are perforated and a horizontal baffle is provided therebeneath. The angle of taper of the channel decreases along the length thereof. The grate may be water cooled. <IMAGE>

Description

SPECIFICATION Improvements relating to grates This invention relates to a grate particularly, but not exlusively, to a grate for use in a boiler.
An object of the invention is to provide a new and improved grate, in particular one which is suitable for burning material of relatively small particle size.
According to one aspect of the invention we provide a grate having a fuel supporting and conveying surface comprising at least one elongate channel having an open mouth and a bottom, the or each of said channels having a transverse cross-section which decreases in width in a direction extending away from the open mouth towards the bottom of the channel, air feed opening means to feed air to the interior of the channel at least in the region of the bottom thereof, and means mounting the channel to permit the channel to be vibrated to cause fuel to be conveyed along the channel and longitudinally of the grate.
According to another aspect of the invention we provide a grate having a fuel supporting and conveying surface comprising at least one elongate channel having an open mouth and a bottom, an air feed opening to feed air to the interior of the channel in the region of the bottom thereof, baffle means to prevent egress of fuel through said opening and means mounting the channel to permit the channel to be vibrated, in use, to cause fuel to be conveyed along the channel and longitudinally of the grate.
The or each of said channels may have a transverse cross-section which decreases in width in a direction extending away from the open mouth towards the bottom of the channel.
In either of the above aspects of the invention: The or each channel may be of V-shape or generally of V-shape in said cross-section.
The included angle of the or each channel may decrease towards a discharge end of the grate.
Said fuel supporting and conveying surface may comprise a plurality of said channels arranged side-by-side transversely of the grate.
The channel defining elements may all be mounted on a rigid frame and the rigid frame may be mounted for vibration so that, in use, the channel or all the channels vibrate as a single unit.
The grate may be provided in a shell-type boiler comprising an outer shell within which is contained the steam and/or water space of the boiler, a furnace and preferably a plurality of smoke tubes for passage therethrough of the products of combustion of the furnace, the said grate being provided within said furnace to fire the furnace, The boiler may have apparatus for feeding solid fuel onto the grate through a feed opening in the front of the boiler, Alternatively the boiler may have apparatus for feeding solid fuel onto the grate downwardly through the steam and/or water space of the boiler.
The boiler may be provided with means to feed burnt fuel from the grate through the shell, preferably said means feed the burnt fuel through the shell at or adjacent the back end of the boiler.
The grate may be mounted on flexible mountings extending through the bottom of the shell and fixed to a rigid support outwardly of the shell.
The grate may be vibrated by at least one motor located outwardly of the shell.
Flexible sealing means are provided where said supports and drive means extend through the shell.
Means may be provided to control the amplitude and/or speed of vibration of the grate thereby controlling the rate of fuel feed and hence the range of combustion.
In one alternative of either of the above aspects of the invention: The or each channel may comprise a pair of spaced apart side walls, a base part, an air feed opening between at least one side wall, and preferably between both side walls, and the base part and a or said baffle means extending upwardly from the base part outwardly of the or each side wall to a position above the bottom of the associated side wall or walls.
Preferably the or each baffle and associated side wall overlap so that the baffle terminates at a position approximately half way between the top and bottom of the channel.
The side walls of the or each channel may extend downwardly and inwardly to define said generally V-shape cross-section.
Where a plurality of channels are provided, the tops of adjacent side walls of adjacent channels may be connected together.
The connected together adjacent side walls may comprise an inverted V-section assembly and the base part and baffles of each channel may be connected together to provide a V-shaped in section assembly.
The grate may be water cooled.
A lower water cooling pipe may be provided for the base part of the or each channel and an upper water cooling pipe may be provided for the top of each wall of the or each channel.
The base part may comprise said lower water cooling pipe and the baffle means may comprise plates fixed to the pipe and diverging upwardly and outwardly therefrom and the side walls of adjacent channels may be fixed to said upper water cooling pipe to diverge downwardly and outwardly therefrom.
The grate may be provided with side members to retain fuel on said surface.
The side members may be provided with air feed openings and baffle means to prevent egress of fuel therethrough.
The side members, baffles and air feed openings may be provided by means of a first set of longitudinally spaced apart plates and a second set of longitudinally spaced apart plates, the plates of the second set being positioned outwardly of and overlapping the plates of the first set.
The side members may be water cooled.
In another alternative of either of the above aspects of the invention: The or each channel may comprise a pair of spaced apart side walls connected at their lower ends to a base part, a plurality of air feed perforations in said side walls, an air feed chamber, having a peripheral wall, beneath said side walls, an air feed opening in said peripheral wall and a or said baffle means extending in said chamber transversely above said opening.
Where a plurality of channels are provided, said chamber may be provided with an air feed opening beneath the adjacent side walls of adjacent channels.
Means may be provided to permit of egress of fuel from the interior of said chamber at a discharge end of the grate.
The side walls of the or each channel may extend downwardly and inwardly to define said generally V-shape cross-section.
Where a plurality of channels are provided, the tops of adjacent walls of adjacent channels may be connected together.
The connected together adjacent side walls may comprise an inverted V-section assembly.
A lower water cooling pipe may be provided for the base part of the or each channel and an upper water cooling pipe may be provided for the top of each wall of the or each channel.
The base part may comprise said lower water cooling pipe and the side walls may comprise plates fixed to said lower pipe and diverging upwardly and outwardly therefrom, and top edges of said plates of adjacent channels may be fixed to said upper cooling pipe to diverge downwardly and outwardly therefrom.
The grate may be provided with side members to retain fuel on said surface.
The side members may be provided with a plurality of air feed perforations.
The side members may be water cooled.
Where side members are provided, said air feed chamber may be provided with an extension part laterally outwardly of the side walls and may be provided with a top closure member to provide a passageway for air between the top closure member and the top of said side walls.
Two embodiments of the invention will now be described in more detail by way of example, with reference to the accompanying drawings wherein: FIGURE 1 is a diagrammatic fragmentary longitudinal cross-sectional view through a boiler embodying the invention; FIGURE 2 is a diagrammatic fragmentary transverse cross-sectional view to an enlarged scale through the boiler of Figure 1; FIGURE 3 is a fragmentary view of part of Figure 2 drawn to an enlarged scale; FIGURE 4 is a diagrammatic plan view showing part of the water cooling arrangement of the grate of the boiler of Figure 1; FIGURE 5 is a diagrammatic plan view showing another part of the water cooling arrangement of the grate of the boiler of Figure 1;; FIGURE 6 is a diagrammatic fragmentary longitudinal cross-sectional view through a grate for use in a boiler and illustrates a second embodiment of the invention; FIGURE 7 is a view similar to that of Figure 2 but illustrating the second embodiment of the invention; and FIGURE 8 is another view similar to that of Figure 2 but illustrating a third embodiment of the invention.
Referring to Figures 1 to 5 of the drawings, the shell of a shell boiler is indicated at 10 and within the shell is located a furnace chamber 11 of generally cylindrical configuration having a grate 1 2 disposed therein. Adjacent the rear end, the furnace tube 11 has an opening 13 which communicates with a duct 14 through the shell 10 to permit exit of ash discharged from the exit end 15 of the grate 12.
A hopper 1 6 is located outside the boiler shell 10 at the front and is provided with a discharge control door 17 to permit fuel to be fed through a feed opening 1 8 into the interior of the furnace tube 11 and onto the grate 12.
The construction of the boiler other than the grate may follow conventional practice for example, if desired, one or more passes of smoke tubes may be provided extending between smoke boxes provided, as appropriate, at the front and rear of the shell.
Also, if desired, instead of the hopper fuel feed arrangement illustrated in the drawing, the fuel supply tube may extend downwardly through the shell 10 and the water/steam space adjacent the front of the boiler to permit coal or other solid fuel to be fed downwardly through the shell and water/steam space onto the-grate 12, suitable fuel feed apparatus being provided within the tube.
The grate 1 2 comprises a plurality of generally V-shaped channels 20 arranged transversely of the grate and each channel extending longitudinally of the grate, with an air feed opening 21 at the base of each channel and baffle means 22 are provided to prevent egress of fuel through the openings 21.
Referring particularly to Figure 3, the side walls 23 of each channel comprise unperforated generally rectangular plates welded to a water cooling pipe 24 so that the plates providing the side walls of adjacent channels 20 diverge downwardly and outwardly from the associated pipe 24.
The base of each channel is provided by a further water cooling pipe 25 from which further generally rectangular unperforated plates 26 diverge upwardly and outwardly to provide the baffle means. It will be seen that the upper end 27 of each baffle 26 terminates at a position approximately mid-way between the bottom 28 of the channel and the top 29 thereof.
As best shown in Figures 4 and 5, the upper pipes 24 are connected to laterally extending manifolds 30, one at the front and the other at the rear of the grate and are thereby rigidly connected together and suitable flexible water supply and exit connections (not shown) are made to the manifolds 30. Similarly the lower water pipes 25 are connected to front and rear manifolds 31 likewise connected to flexible water supply and exit connections (not shown) and are similarly likewise connected together. The manifolds 30 and 31 are connected together by suitable members 32 and the front member 32 is connected by a link 33 to a vibrator unit 34 located outwardly of the boiler shell, there being a suitable flexible seal between the shell 10 and the link 34.
As best shown in Figure 2, the parts of the grate thus far described are partly enclosed within a box comprising a base 36, side wall 37 and inturned flanges 38 which are fixed to the end ones of the upper water pipes 24. The box thus provides an air feed chamber C beneath the channels 20. Partitions 39 extend between each lower water supply pipe 25 and the base 36 and air supply ducts 40 provided with valves 41 extend from apertures formed in the base 36 between the partitions 39 and communicate with a plenum chamber 42 to which primary air is fed via suitable feed means 42a.
As shown in Figure 2 the primary air follows the path indicated by the arrows and hence is fed into the base of each channel 20.
Operation of the valves 41 permits control of the amount and distribution of the primary air transversely of the grate and the baffle plates 26 are arranged so that the space between each baffle plate 26 and side wall plate 23 provides the desired distribution of air longitudinally of the grate for example, the gap may decrease towards the exit end 1 5 of the grate thereby reducing the flow of air towards the discharge end.
Abover the water supply pipes 24, side plates 43 are provided in the form of two sets of overlapping plates 44 and 45, the first set 44 being disposed inwardly of the second set and being spaced apart longitudinally so as to provide a space 46 therebetween and the plates 45 likewise having a space 46 therebetween. The plates of the first set 43 depend downwardly from side plate water cooling pipes 47 whilst the plaies 45 extend upwardly from the upper water cooling pipes 24. The side plate water cooling pipes 47 are connected by vertical pipes 48 to the manifolds 30.
An enclosure 49, which provides a continuation of the air feed chamber C, is provided for each side plate assembly comprising a side wall member 50 formed as an extension of the members 37 and an upper horizontal closure member 51 spaced closely above the side plate cooling pipe 47.
Air is fed from the chamber C to the interior of the space 52 thus formed which can exit through the gaps 46 between the plates of the sets 44 and 45 and above the pipes 47 to provide secondary air for combustion.
The lower water feed pipes 25 are mounted on transversely extending beams 53 which are supported on rigid struts 54 which extend downwardly through the lower end of the furnace tube 11 and of the boiler shell 10 and are mounted on coil compression springs 55 anchored to a rigid support such as the ground or boiler base. A flexible seal 56 is provided between the boiler shell and the struts 54.
Referring now to Figures 6 and 7 of the drawings in which is illustrated a second embodiment of the invention, which is generally similar to that of the first embodiment except for the detailed construction of the grate. In this embodiment the grate 1 12 is disposed within the furnace chamber 11 in an exactly similar manner to that of the first embodiment and only features of difference, i.e. the detailed features of the grate, will be described hereinafter.
The grate 112 comprises a plurality of generally V-shape channels 120 arranged transversely of the grate and each channel extending longitudinally of the grate. In this embodiment, an air feed opening 121 is provided beneath the side walls of adjacent channels and baffle means 122 are provided to prevent egress of fuel through the openings 121.
Each channel 120 has side walls 123 comprising perforated generally rectangular plates welded to an upper water cooling pipe 124 so that the plates providing the side walls of adjacent channels 120 diverge downwardly and outwardly from the associated pipe 1 24. The lower edge of each side wall plate is welded to a lower water cooling pipe 125 so that the plates diverge upwardly and outwardly therefrom. The upper and lower pipes 124, 1 25, are connected to manifolds in an exactly similar manner to the upper and lower pipes 24, 25 of the first embodiment.
Again, as in connection with the first embodiment, the parts of the grate thus far described are partly enclosed within a box comprising a base 136, side walls 137, inturned flanges 138 which are fixed to the end ones of the upper water pipes 124. The box thus again provides an air feed chamber C1 beneath the channels 120. Partitions 139 extend between each lower water supply pipe 1 25 and the base 136 and air supply ducts 140 provided with valves 141 extend from the air feed openings 121 formed in the base 136, between the partitions 139 and communicate with a plenum chamber 142 to which primary air is fed by suitable feed means 1 42a. As shown in Figure 7, the primary air foliows a path indicated by the arrows around the baffles 122 and through the perforations in the plates 123 and hence is fed into each channel 120. Operation of the valves 141 permits control of the amount of distribution of the primary air transversely of the grate and the baffle plates 1 22 and/or the density of perforation of the plates 123 provides the desired distribution of air longitudinally of the grate. For example, the gap provided by the baffle plates 1 22 and/or the density of perforation may decrease towards the exit end 1 5 of the grate thereby reducing the flow of air towards the discharge end.
Above the upper water supply pipes 124, side plates 143 are provided which again comprise perforated plates. The perforated side plates 143 and the perforated plates which provide the side walls 1 23 of each channel are preferably made of stainless steel.
The side plates 143 depend downwardly from side plate water cooling pipes 147 and are connected at their lower ends to the upper water cooling pipes 124. The side plate water cooling pipes 147 are connected by vertical pipes 148 to the manifold as described in connection with the first embodiment.
An enclosure 149 providing a continuation of the air feed chamber C1 is provided for each side plate and comprises a side wall member 1 50 formed as an extension of the members 137 and an upper horizontal closure member 1 51 spaced closely above the side plate cooling pipe 147.
Air is fed from the chamber C1 to the interior of the space 1 52 thus formed and can exit through the perforations in the plates 143 and through the gap between the pipes 147 and horizontal closure member 151 to provide secondary air for combustion.
As in the case of the first embodiment, the lower water pipes 125 are mounted on transversely extending beams 53, supported on rigid struts 54 which extend downwardly through the lower end of the furnace tube 11 and are mounted on coil compression springs, all as in the first embodiment.
The flow rate of the air through the perforations in the plates 123 and 143 prevents a substantial amount of ash from the interior of the channels 120 passing through the plates into the chamber C1.
Such ash dust as does pass through the perforations of the plates into the chamber C1 is prevented from egressing through the openings 121 into the duct 140 by the baffle plates 122.
The ash dust in the chamber C1 is transported along the plates 1 36 towards the discharge end of the grate where is leaves via an opening 1 52a and falls with the remainder of the ash on the discharge end of the channels 120 through the duct 14 described in connection with the first embodiment.
Referring now to Figure 8, there is illustrated part of a third embodiment of the invention which is similar to the second embodiment in that the troughs are made up of perforated plates, but in this case the grate is not water cooled and hence the fuel supporting and conveying surface of the grate is made of a steel plate formed to a generally sinusoidal configuration is illustrated in Figure 8.
Except for the absence of separate perforated plates joined to water cooling pipes, the grate of the third embodiment is as described in connection with the first and second embodiments.
Although in the example illustrated the stainiess steel plate has been described as being of sinusoidal configuration, it could be made of more precise V-configuration if desired and could be made by welding or otherwise joining individual planar plates at their adjacent lower and upper edges to provide a V-shaped configuration.
In all embodiments, if desired, the width of the channels, i.e. the included angle between the side walls thereof, may reduce towards the discharge end of the grate in order to concentrate ash and any remaining combustible material. In addition, a water cooled dam is preferably provided at the discharge end of the grate so as to increase the residence time of the fuel at the discharge end.
The ash discharged from the exit end of the grate passes through the hereinbefore described duct 14 and after passage through a rotary valve is collected. Although generally V-shaped channels have been described, if desired the channels may be of other configuration and the number of channels provided transversely of the grate may be varied as desired.

Claims (44)

1. A grate having a fuel supporting and conveying surface comprising at least one elongate channel having an open mouth and a bottom, the or each of said channels having a transverse cross-section which decreases in width in a direction extending away from the open mouth towards the bottom of the channel, air feed opening means to feed air to the interior of the channel at least in the region of the bottom thereof, and means mounting the channel to permit the channel to be vibrated to cause fuel to be conveyed along the channel and longitudinally of the grate.
2. A grate having a fuel supporting and conveying surface comprising at least one elongate channel having an open mouth and a bottom, an air feed opening to feed air to the interior of the channel in the region of the bottom thereof, baffle means to prevent egress of fuel through said opening and means mounting the channel to permit the channel to be vibrated, in use, to cause fuel to be conveyed along the channel and longitudinally of the grate.
3. A grate according to Claim 2 wherein the or each of said channels has a transverse crosssection which decreases in width in a direction extending away from the open mouth towards the bottom of the channel.
4. A grate according to any one of the preceding claims wherein the or each channel is of V-shape or generally of V-shape in said crosssection.
5. A grate according to Claim 4 wherein the included angle of the or each channel decreases towards a discharge end of the grate.
6. A grate according to any one of the preceding claims wherein said fuel supporting and conveying surface comprises a plurality of said channels arranged side-by-side transversely of the grate.
7. A grate according to any one of the preceding claims wherein the channel defining elements are all mounted on a rigid frame and the rigid frame is mounted for vibration so that, in use, the channel or all the channels vibrate as a single unit.
8. A grate according to any one of the preceding claims wherein the grate is provided in a shell-type boiler comprising an outer shell within which is contained the steam and/or water space of the boiler, a furnace and optionally a plurality of smoke tubes for passage therethrough of the products of combustion of the furnace, the said grate being provided within said furnace to fire the furnace.
9. A grate according to Claim 8 wherein the boiler has apparatus for feeding solid fuel onto the grate through a feed opening in the front of the boiler.
10. A grate according to any of of Claims 1 to 8 wherein the boiler has apparatus for feeding solid fuel onto the grate downwardly through the steam and/or water space of the boiler.
11. A grate according to any of Claims 8 to 10 wherein the boiler is provided with means to feed burnt fuel from the grate through the shell.
12. A grate according to Claim 11 wherein said means feed the burnt fuel through the shell at or adjacent the back end of the boiler.
13. A grate according to any one of Claims 8 to 12 wherein the grate is mounted on flexible mountings extending through the bottom of the shell and fixed to a rigid support outwardly of the shell.
14. A grate according to any one of Claims 8 to 1 3 wherein the grate is vibrated by at least one motor located outwardly of the shell.
1 5. A grate according to Claim 14 wherein flexible sealing means are provided where said supports and drive means extend through the shell.
1 6. A grate according to any one of the preceding claims wherein means are provided to control the amplitude and/or speed of vibration of the grate thereby controlling the rate of fuel feed and hence the rate of combustion.
17. A grate according to any one of the preceding claims wherein the or each channel ccmprises a pair of spaced apart side walls, a base part, an air feed opening between at least one side wall, and preferably between both side walls, and the base part and a or said baffle means extending upwardly from the base part outwardly of the or each side wall to a position above the bottom of the associated side wall or walls.
18. A grate according to Claim 17 wherein the or each baffle and associated side wall overlap so that the baffle terminates at a position approximately half way between the top and bottom of the channel.
1 9. A grate according to Claim 17 or Claim 18 wherein the side walls of the or each channel extends downwardly and inwardly to define said generally V-shape cross-section.
20. A grate according to any one of Claims 1 7 to 1 9 wherein a plurality of channels are provided, and the tops of adjacent side walls of adjacent channels are connected together.
21. A grate according to Claim 20 wherein the connected together adjacent side walls comprise an inverted V-section assembly and the base part and baffles of each channel are connected together to provide a V-shaped in section assembly.
22. A grate according to any one of Claims 1 7 to 21 wherein the grate is water cooled.
23. A grate according to Claim 22 wherein a lower water cooling pipe is provided for the base part of the or each channel and an upper water cooling pipe is provided for the top of each wall of the or each channel.
24. A grate according to Claim 23 wherein the base part comprises said lower water cooling pipe and the baffle means comprises plates fixed to the pipe and diverging upwardly and outwardly therefrom and the side walls of adjacent channels are fixed to said upper water cooling pipe to diverge downwardly and outwardly therefrom.
25. A grate according to any one of Claims 1 7 to 24 wherein the grate is provided with side members to retain fuel on said surface.
26. A grate according to Claim 25 wherein the side members are provided with air feed openings and baffle means to prevent egress of fuel therethrough.
27. A grate according to Claim 26 wherein the side members, baffles and air feed openings are provided by means of a first set of longitudinally spaced apart plates and a second set of longitudinally spaced apart plates, the plates of the second set being positioned outwardly of and overlapping the plates of the first set.
28. A grate according to any one of Claims 25 to 27 wherein the side members are water cooled.
29. A grate according to any one of Claims 1 to 1 6 wherein the or each channel comprises a pair of spaced apart side walls connected at their lower ends to a base part, a plurality of air feed perforations in said side walls, an air feed chamber, having a peripheral wall, beneath said side walls, an air feed opening in said peripheral wall and a or said baffle means extending in said chamber transversely above said opening.
30. A grate according to Claim 29 wherein a plurality of channels are provided, and said chamber is provided with an air feed opening beneath the adjacent side walls of adjacent channels.
31. A grate according to Claim 29 or Claim 30 wherein means are provided to permit of egress of fuel from the interior of said chamber at a discharge end of the grate.
32. A grate according to any one of Claims 29 to 31 wherein the side walls of the or each channel extend downwardly and inwardly to define said generally V-shape cross-section.
33. A grate according to any one of Claims 29 to 32 wherein a plurality of channels are provided, and the tops of adjacent walls of adjacent channels are connected together.
34. A grate according to Claim 33 wherein the connected together adjacent side walls comprise an inverted V-section assembly.
35. A grate according to any one of Claims 29 to 34 wherein the grate is water cooled.
36. A grate according to Claim 35 wherein a lower water cooling pipe is provided for the base part of the or each channel and an upper water cooling pipe is provided for the top of each wall of the or each channel.
37. A grate according to Claim 36 wherein the base part comprises said lower water cooling pipe and the side walls comprise plates fixed to said lower pipe and diverging upwardly and outwardly therefrom, and top edges of said plates of adjacent channels are fixed to said upper water cooling pipe to diverge downwardly and outwardly therefrom.
38. A grate according to any one of Claims 29 to 37 wherein the grate is provided with side members to retain fuel on said surface.
39. A grate according to Claim 38 wherein the side members are provided with a plurality of air feed perforations.
40. A grate according to Claim 38 or Claim 39 wherein the side member are water cooled.
41. A grate according to any one of Claims 25 to 28 or Claims 38 to 40 wherein said air feed chamber is provided with an extension part laterally outwardly of the side members and is provided with a top closure member to provide a passageway for air beneath the top closure member and the top of said side members.
42. A grate substantially as hereinbefore described with reference to and as illustrated in Figures 1 to 5 of the accompanying drawings.
43. A grate substantially as hereinbefore described with reference to and as illustrated in Figures 6 and 7 or Figure 8 of the accompanying drawings.
44. Any novel feature or novel combination of features disclosed herein and/or illustrated in the accompanying drawings.
GB8117772A 1980-06-10 1981-06-10 Grates Expired GB2077893B (en)

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Application Number Priority Date Filing Date Title
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GB8019015 1980-06-10
GB8117772A GB2077893B (en) 1980-06-10 1981-06-10 Grates

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GB2077893A true GB2077893A (en) 1981-12-23
GB2077893B GB2077893B (en) 1984-02-08

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2002081995A2 (en) * 2001-04-06 2002-10-17 Claudius Peters Technologies Gmbh Cooling grid for a bulk material cooling device
CN100465566C (en) * 2003-11-28 2009-03-04 Khd洪保德韦达克有限公司 Bulk material cooler for cooling hot materials to be cooled
GB2473739A (en) * 2009-09-17 2011-03-23 Frederick Frank Waghorn Solid fuel firebed

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2002081995A2 (en) * 2001-04-06 2002-10-17 Claudius Peters Technologies Gmbh Cooling grid for a bulk material cooling device
WO2002081995A3 (en) * 2001-04-06 2002-11-28 Bmh Claudius Peters Gmbh Cooling grid for a bulk material cooling device
CN100346125C (en) * 2001-04-06 2007-10-31 克劳迪亚斯·彼得斯技术有限责任公司 Cooling grid for bulk material cooling device
CN100465566C (en) * 2003-11-28 2009-03-04 Khd洪保德韦达克有限公司 Bulk material cooler for cooling hot materials to be cooled
GB2473739A (en) * 2009-09-17 2011-03-23 Frederick Frank Waghorn Solid fuel firebed
GB2473739B (en) * 2009-09-17 2012-05-30 Frederick Frank Waghorn Improvements in or relating to solid fuel heating apparatus

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