USRE19693E - Stoker - Google Patents
Stoker Download PDFInfo
- Publication number
- USRE19693E USRE19693E US19693DE USRE19693E US RE19693 E USRE19693 E US RE19693E US 19693D E US19693D E US 19693DE US RE19693 E USRE19693 E US RE19693E
- Authority
- US
- United States
- Prior art keywords
- ash
- ring
- base plate
- orifices
- screw
- 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.)
- Expired
Links
- 239000002956 ash Substances 0.000 description 119
- 235000002918 Fraxinus excelsior Nutrition 0.000 description 12
- 239000000446 fuel Substances 0.000 description 11
- 210000000614 Ribs Anatomy 0.000 description 3
- 230000004075 alteration Effects 0.000 description 1
- OKTJSMMVPCPJKN-UHFFFAOYSA-N carbon Chemical compound [C] OKTJSMMVPCPJKN-UHFFFAOYSA-N 0.000 description 1
- 239000003245 coal Substances 0.000 description 1
- 230000000875 corresponding Effects 0.000 description 1
- 238000010348 incorporation Methods 0.000 description 1
Images
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23K—FEEDING FUEL TO COMBUSTION APPARATUS
- F23K3/00—Feeding or distributing of lump or pulverulent fuel to combustion apparatus
- F23K3/10—Under-feed arrangements
- F23K3/14—Under-feed arrangements feeding by screw
Definitions
- My invention relates to improvements in stoke! mechanisms for furnaces, and the object of my invention is to devise a stoker in which an ash receiving ring constituting the base of the fire pot has a rotative movement for the removal of ashes.
- a still further object of my invention is to provide a conveyer mechanism for removing the ashes from the furnace, and to utilize the movement of such conveyer mechanism as a means for rotating an .ash receiving ring constituting the fire pot base, and another object of my invention is to incorporate my ash removing mechanism in a standard underfeed stoker in a very simple way using a minimum of parts and driving connections.
- My invention consists of a stoker mechanism constructed and arranged all as hereinafter more particularly described and illustrated in the accompanying drawing in which:
- Fig. l is a perspective View of my screw mechanism together with a fragmentary portion of the furnace to which it is connected.
- Fig. 2 is a vertical cross sectional view through the air draft chamber, tuyere containing member or retort, and coal delivery and ash removal conveying screws.
- Fig. 3 is a plan view of the rotatable ash receiving ring tuyere and a fragmentary portion of the fuel conveyers, such conveyers being partly shown in section.
- Fig. 4 is a plan view of a fragmentary portion of the flange of the tuyere containing member or retort upon which the rotatable ash receiving ring is mounted.
- Fig. 5 is a. plan view of a fragmentary portion of the rotatable ash receiving ring
- Fig. 6 is a vertical cross sectional view through the ring illustrated in Fig. 5.
- the mechanism for feeding the fuel into the furnace in which I incorporate my stoker together with the air draft delivery mechanism follows standard practice and consists of a fuel hopper I positioned exteriorly of the furnace in close proximity thereto, the fuel being carried therefrom by a screw conveyer contained within a housing 3 which extends into an air draft chamber 4 and opens into a trough5 connected with the tuyere containing member or retort 6 mounted upon the open top of the air draft chamber 4.
- the air draft is supplied by a fan actuated by a motor I which also actuates the screw conveyer 2, such fan being furnished with an air conduit 9 which connects with the air draft chamber 4, the air draft passing from out of the tuyeres through the orifices 25.
- the tuyre containing member or retort 6 is 5 specially designed for the incorporation of my ash removal mechanism and is formed at its lower outer edge In with a horizontal circular flange or base plate II the outer edge of which is seated upon the upper edge of the air draft 10 chamber 4.
- the flange II is formed with an orifice I2 through which the ashes fall and are carried out of the furnace as shall be hereinafter explained.
- the ring I3 Upon the outer face of the flange II I seat the ring I3 having a plurality of radially extending ash receiving orifices ll formed therein, such ring being rotatable and constituting the base of the fire pot 24.
- the ring I3 may be rotatable I form the bottoms of the ribs I5 between the orifices I4 into teeth I6 which project downwardly into a circular channel I H in the top of the flange I I so that the ring constitutes a flat horizontal gear having teeth upon its lower face and orifices between the teeth.
- a screw conveyer II which connects with any suitable ash receiving receptacle, such screw conveyer extending along a. conveyer casing I8 which passes into the air draft chamber 4 and opens into a. trough I9.
- of this trough extend upwardly into connection with the lower face of the tuyre containing member or retort flange II on each side of the orifice I2, as will be clearly seen upon reference to Fig. 2.
- the motor 8 is connected to the conveyer screws 2 and IT by means of any suitable mechanism so that the screw conveyer 2 5 carries fuel into the furnace and the screw conveyer I'I carries the ash or burnt fuel from out of the furnace.
- the fuel is carried from the hopper I along the conveyer casing 3 into the trough 5 and up through the interior of the tuyere containing member or retort 6 from whence it spills into the fire pot 24, the air draft from the chamber 4 passes through the tuyere orifices 25 into the burning fuel in the top of the tuyere containing member or retort and into the fire pot 24.
- the ash removing screw also rotates to remove the ash or burnt fuel from out of the furnace, and as the gear 22 which meshes with the teeth l6 of the ring l3 also meshes with the fiight of the screw 01 it will be apparent that the ring l3 will slowly rotate as the screw [1 revolves.
- the rate of rotation of the ring l3 will be extremely slow as the screw l1 rotates slowly with the consequent very slow movement of the gear 22.
- a fire pot and a base plate therefor having an ash discharge orifice, and an ash removing mechanism incorporating a screw conveyor and having an ash inlet registering with the ash discharge orilies in the base plate, of a rotatable ash ring supported on the base plate and having ash receiving orifices therein, said base plate coacting with the ash ring to retain the ashes in the orifices in the latter until such orifices register with the ash discharge orifice in such base plate, and means between the ash ring and the flight of the ash removing mechanism conveyor screw for successively bringing the orifices in the ash ring into register with the discharge orifice in the base plate and the registering ash inlet of the ash removing mechanism.
- a fire pot and a base plate therefor having an ash discharge orifice, and an ash removing mechanism incorporating a screw conveyor and having an ash inlet registering with the ash discharge orifice in the base plate, of a rotatable ash ring supported on the base plate and having ash receiving orifices therein, said base plate coacting with the ash ring to retain the ashes in the orifices in the latter until such orifices register with the ash discharge orifice in such base plate, and means between the ash ring and the flight of the ash removing mechanism conveyor screw extending through the ash inlet of the ash removing mechanism and through the ash discharge orifice in the base plate for successively bringing the orifices in the ash ring into register with the discharge orifice in the base plate and the registering ash inlet of the ash removing mechanism.
- a fire pot and a base plate therefor having an ash discharge orifice, and an ash removing mechanism incorporating a screw conveyor and having an ash inlet registering with the ash discharge orifice in the base plate, of a rotatable ash ring sup- 5 ported on the base plate and having ash receiving orifices therein, said base plate coacting with the ash ring to retain the ashes in the orifices in the latter until such orifices register with the ash discharge orifice in such base plate, teeth on the ro- 10 tatable ash ring, and a gear wheel journalled in the ash removing mechanism meshing with the flight of the screw conveyor screw thereof and also extending through the ash inlet of the ash removing mechanism and through the ash dis- 15 charge orifice in the base plate and meshing with the teeth on the ash ring.
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Gasification And Melting Of Waste (AREA)
Description
M. W. BEST Sept. 10, 1935.
STOKER Original Filed Oct. 6, 1930 Inventcir' MILLARU W. BEST EH Attclr-ne Reissued Sept. 10, 1935 UNITED STATES PATENT OFFICE STOKER Millard Whyte Best, Hamilton, Ontario, Canada 8 Claims.
My invention relates to improvements in stoke! mechanisms for furnaces, and the object of my invention is to devise a stoker in which an ash receiving ring constituting the base of the fire pot has a rotative movement for the removal of ashes.
A still further object of my invention is to provide a conveyer mechanism for removing the ashes from the furnace, and to utilize the movement of such conveyer mechanism as a means for rotating an .ash receiving ring constituting the fire pot base, and another object of my invention is to incorporate my ash removing mechanism in a standard underfeed stoker in a very simple way using a minimum of parts and driving connections.
My invention consists of a stoker mechanism constructed and arranged all as hereinafter more particularly described and illustrated in the accompanying drawing in which:
Fig. l is a perspective View of my screw mechanism together with a fragmentary portion of the furnace to which it is connected.
Fig. 2 is a vertical cross sectional view through the air draft chamber, tuyere containing member or retort, and coal delivery and ash removal conveying screws.
Fig. 3 is a plan view of the rotatable ash receiving ring tuyere and a fragmentary portion of the fuel conveyers, such conveyers being partly shown in section.
Fig. 4 is a plan view of a fragmentary portion of the flange of the tuyere containing member or retort upon which the rotatable ash receiving ring is mounted.
Fig. 5 is a. plan view of a fragmentary portion of the rotatable ash receiving ring, and
Fig. 6 is a vertical cross sectional view through the ring illustrated in Fig. 5.
Like characters of reference indicate corresponding parts in the different views in the drawm The mechanism for feeding the fuel into the furnace in which I incorporate my stoker together with the air draft delivery mechanism follows standard practice and consists of a fuel hopper I positioned exteriorly of the furnace in close proximity thereto, the fuel being carried therefrom by a screw conveyer contained within a housing 3 which extends into an air draft chamber 4 and opens into a trough5 connected with the tuyere containing member or retort 6 mounted upon the open top of the air draft chamber 4. The air draft is supplied by a fan actuated by a motor I which also actuates the screw conveyer 2, such fan being furnished with an air conduit 9 which connects with the air draft chamber 4, the air draft passing from out of the tuyeres through the orifices 25.
The tuyre containing member or retort 6 is 5 specially designed for the incorporation of my ash removal mechanism and is formed at its lower outer edge In with a horizontal circular flange or base plate II the outer edge of which is seated upon the upper edge of the air draft 10 chamber 4. The flange II is formed with an orifice I2 through which the ashes fall and are carried out of the furnace as shall be hereinafter explained.
Upon the outer face of the flange II I seat the ring I3 having a plurality of radially extending ash receiving orifices ll formed therein, such ring being rotatable and constituting the base of the fire pot 24.
In designing my mechanism so that the ring I3 may be rotatable I form the bottoms of the ribs I5 between the orifices I4 into teeth I6 which project downwardly into a circular channel I H in the top of the flange I I so that the ring constitutes a flat horizontal gear having teeth upon its lower face and orifices between the teeth.
For removing the ashes from the furnace I provide a screw conveyer II which connects with any suitable ash receiving receptacle, such screw conveyer extending along a. conveyer casing I8 which passes into the air draft chamber 4 and opens into a. trough I9. The walls 20 and 2| of this trough extend upwardly into connection with the lower face of the tuyre containing member or retort flange II on each side of the orifice I2, as will be clearly seen upon reference to Fig. 2.
Between the walls 20 and 2| of the trough I9 I position a gear wheel 22 freely rotatable upon a spindle 23. This gear wheel meshes with the ash removal screw I1 and also with the teeth It upon the ring l3. It will be therefore understood that the rotation of the screw II will rotate the gear 22 and the ring I3. The motor 8 is connected to the conveyer screws 2 and IT by means of any suitable mechanism so that the screw conveyer 2 5 carries fuel into the furnace and the screw conveyer I'I carries the ash or burnt fuel from out of the furnace.
The operation of my device is as follows:-
When the screw mechanism is in operation the fuel is carried from the hopper I along the conveyer casing 3 into the trough 5 and up through the interior of the tuyere containing member or retort 6 from whence it spills into the fire pot 24, the air draft from the chamber 4 passes through the tuyere orifices 25 into the burning fuel in the top of the tuyere containing member or retort and into the fire pot 24.
As the screw conveyer 2 rotates to feed the fuel into the furnace the ash removing screw also rotates to remove the ash or burnt fuel from out of the furnace, and as the gear 22 which meshes with the teeth l6 of the ring l3 also meshes with the fiight of the screw 01 it will be apparent that the ring l3 will slowly rotate as the screw [1 revolves.
The rate of rotation of the ring l3 will be extremely slow as the screw l1 rotates slowly with the consequent very slow movement of the gear 22.
As the fuel in the fire pot burns the ash falls down onto the face of the ring it and enters the orifices It in the ring, and as the ring is rotating these orifices will be successively carried over the orifice I! in the flange Ii, whereby the ashes will drop from such through the orifice I! as they pass thereover. The ashes upon passing into the orifice I! drop downwardly into the trough I! from whence they are conveyed out of the furnace by the screw l1.
From the foregoing description it will be seen that I have devised a particularly simple and effective stoker mechanism which will constantly remove the ash from the furnace, thus preventing it from accumulating and therefore ensuring a very hot burning fire bed at all times, and although I have shown and described a. particular embodiment of my invention it is to be under stood that I can make such changes and alterations as I may from time to time deem necessary without departing from the spirit of my invention as set forth in the appended claims.
What I claim as my invention is:
1. In a furnace, the combination of a fire pot and a base plate therefor having an ash discharge orifice, and an ash removing mechanism incorporating a screw conveyor and having an ash inlet registering with the ash discharge orilies in the base plate, of a rotatable ash ring supported on the base plate and having ash receiving orifices therein, said base plate coacting with the ash ring to retain the ashes in the orifices in the latter until such orifices register with the ash discharge orifice in such base plate, and means between the ash ring and the flight of the ash removing mechanism conveyor screw for successively bringing the orifices in the ash ring into register with the discharge orifice in the base plate and the registering ash inlet of the ash removing mechanism.
2. In a. furnace, the combination of a fire pot and a base plate therefor having an ash discharge orifice, and an ash removing mechanism incorporating a screw conveyor and having an ash inlet registering with the ash discharge orifice in the base plate, of a rotatable ash ring supported on the base plate and having ash receiving orifices therein, said base plate coacting with the ash ring to retain the ashes in the orifices in the latter until such orifices register with the ash discharge orifice in such base plate, and means between the ash ring and the flight of the ash removing mechanism conveyor screw extending through the ash inlet of the ash removing mechanism and through the ash discharge orifice in the base plate for successively bringing the orifices in the ash ring into register with the discharge orifice in the base plate and the registering ash inlet of the ash removing mechanism.
3. In a furnace, the combination of a fire pot and a base plate therefor having an ash discharge orifice, and an ash removing mechanism incorporating a screw conveyor and having an ash inlet registering with the ash discharge orifice in the base plate, of a rotatable ash ring sup- 5 ported on the base plate and having ash receiving orifices therein, said base plate coacting with the ash ring to retain the ashes in the orifices in the latter until such orifices register with the ash discharge orifice in such base plate, teeth on the ro- 10 tatable ash ring, and a gear wheel journalled in the ash removing mechanism meshing with the flight of the screw conveyor screw thereof and also extending through the ash inlet of the ash removing mechanism and through the ash dis- 15 charge orifice in the base plate and meshing with the teeth on the ash ring.
4. A furnace as claimed in claim 3 wherein the teeth on the ash ring are formed on ribs constituted in the ring between the ash receiving 20 orifices.
5. In a furnace, the combination of a fire pot and. a base plate therefor having an ash discharge orifice, and an ash removing mechanism incorporating a screw conveyor and having an ash 25 inlet registering with the ash discharge orifice in 1 the base plate, of a tuyere containing member or retort formed centrally in the base plate and opening to the fire pot, of a rotatable ash ring surrounding the tuyere containing member and 30 mounted on the portion of the base plate disposed outwardly of the periphery of such tuyere containing member, said ash ring having ash receiving orifices therein, said base plate coacting with the ash ring to retain the ashes in the orifices in the latter until such orifices register with the ash discharge orifice in such base plate, and means between the ash ring and the flight of the ash removing mechanism conveyor screw for successively bringing the orifices in the ash ring into 40 register with the discharge orifice in the base plate and the registering ash inlet of the ash removing mechanism.
6. In a furnace, the combination of a fire pot and a base plate therefor having an ash discharge 45 orifice, and an ash removing mechanism incorporating a screw conveyor and having an ash inlet registering with the ash discharge orifice in the base plate, of a tuyere containing member or retort formed centrally in the base plate and 50 opening to the fire pot, a rotatable ash ring surrounding the tuyere containing member and mounted on the portion of the base plate disposed outwardly of the peripheryof such tuyere containing member, said ash ring having ash re- 55 ceiving orifices therein, said base plate coacting with the ash ring to retain the ashes in the orifices in the latter until such orifices register with the ash discharge orifice in such base plate, and means between the ash ring and the flight of 0 the ash removing mechanism conveyor screw extending through the ash inlet of the ash removing mechanism and through the ash discharge orifice in the base plate for successively bringing the orifices in the ash ring into register with the discharge orifice in the base plate and the registering ash inlet of the ash removing mechanism.
7. In a furnace, the combination of a fire pot and a base plate therefor having an ash discharge orifice, and an ash removing mechanism incorporating a screw conveyor and having an ash inrounding the tuyere containing member and mounted on the portion of the base plate disposed outwardly of the periphery of such tuyere containing member, said ash ring having ash receiving orifices therein, said base plate coacting with the ash ring to retain the ashes in the orifices in the latter until such orifices register with the ash discharge orifice in such base plate, teeth on the rotatable ash ring, and a gear wheel 10 iournalied in the ash removing mechanism meshing with the flight oi. the screw conveyor screw thereof and also extending through the ash inlet of the ash removing mechanism and through the ash discharge orifice in'the basepiate and meshing with the teeth on the ash ring.
8. A furnace as claimed in claim 5 wherein the teeth on the ash ring are formed on ribs constituted in the ring between the ash receiving orifices.
MIILARD WHY'I'E BEST.
Publications (1)
Publication Number | Publication Date |
---|---|
USRE19693E true USRE19693E (en) | 1935-09-10 |
Family
ID=2084021
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US19693D Expired USRE19693E (en) | Stoker |
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Country | Link |
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US (1) | USRE19693E (en) |
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- US US19693D patent/USRE19693E/en not_active Expired
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