US1806623A - gleason - Google Patents
gleason Download PDFInfo
- Publication number
- US1806623A US1806623A US1806623DA US1806623A US 1806623 A US1806623 A US 1806623A US 1806623D A US1806623D A US 1806623DA US 1806623 A US1806623 A US 1806623A
- Authority
- US
- United States
- Prior art keywords
- fuel
- shell member
- bell
- shell
- charging
- 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 - Lifetime
Links
- 239000000446 fuel Substances 0.000 description 40
- 229910000806 Latten Inorganic materials 0.000 description 2
- 230000005540 biological transmission Effects 0.000 description 2
- 230000002950 deficient Effects 0.000 description 2
- 238000003379 elimination reaction Methods 0.000 description 2
- 230000005484 gravity Effects 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000000737 periodic Effects 0.000 description 2
- VYMDGNCVAMGZFE-UHFFFAOYSA-N phenylbutazonum Chemical compound O=C1C(CCCC)C(=O)N(C=2C=CC=CC=2)N1C1=CC=CC=C1 VYMDGNCVAMGZFE-UHFFFAOYSA-N 0.000 description 2
Images
Classifications
-
- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10J—PRODUCTION OF PRODUCER GAS, WATER-GAS, SYNTHESIS GAS FROM SOLID CARBONACEOUS MATERIAL, OR MIXTURES CONTAINING THESE GASES; CARBURETTING AIR OR OTHER GASES
- C10J3/00—Production of combustible gases containing carbon monoxide from solid carbonaceous fuels
- C10J3/02—Fixed-bed gasification of lump fuel
- C10J3/20—Apparatus; Plants
- C10J3/30—Fuel charging devices
Definitions
- the invention particularly relatesl v'to fliargi'rlg; devices by whicha circumferenf tially uniform fuel fbedis maintained auto?
- Thea'cconipanying showing of theinl vention relates to a form of suchadevicef, for 'use with a gas generator, finrwhioh each charge covers substantially' sucha fractional part of the completefge'nerator circumference that Qaplurali'tyf of vchanges will, eirtend. sub.- ⁇ stanti'ally 'once around. theaigenerator.
- thercharged areas are so created that a plurality of. charges :will
- Figure 1 represents ayvertical sectional view-of LmyYim' ⁇ g roved' charging device-un combination -with ⁇ fragmentary portionsofa standard water-gas generatonfeeding" means Y therefor, distributor cone actuating devices, etc.'the view being taken inthe :planesgindijf 40 fee-ted by une ifi, Figure e, and ⁇ Shew-ing the1 relative positions of the Mr several parts durhggachareine eperat'on;
- a Fgure 2 is 'a diagrammatic.vyiewnillus;
- Fi'fre ⁇ 's a horizo tal sectionY showing certain drivingv mechanism, the sectionv beingtaken inA the plane lll'ffff;
- FIG. 51 a Figure 1; and' j o f- ⁇ Fignre 4 is a fragmentary view of the li @any standard means ffuel is fed automatically ments shown in l ]igure l, certain partsbein-g in get ionv andljcertain other, parts in eleva? @bathe View distinguishing from Figure. 51 11' that Figiirellfgshowsthe parts non'f 1 Chareflepeston- Referring ,to the,- annexed drawings-Win which the same lparts j are indicated yby the Assieme' fro imams i o same respective*ordinalsinthe several views, a standard water-gas generator' 1.
- .improved charging device isdesigned t depositen@ Char-ge of fuelintothelgenera tor-l during each: down ru-n; of thefapparatus.
- the device -l is designed to dis- Y tribute'ygthis' .fuelautomatically,uniformly y foverfgt'h N VhOl circumferential., area of 1, the generatorrl.
- the pinion 20 is secured to oneV end of a shaft 21 and to the other end of said shaft 21 is secured a' bevel gear 22 adapted to mesh Awith a bevel gear 23 secured to a shaft 24 to which the vspirally arranged standard feeding means 25 are secured.
- the feeding means 25 are actuated to-feed the fuel by a step-by-step process during one charging operation through the medium of a rod 26 connected at one end by suitable transmission devices to the shaft 24 and eccentrically connected at the other end to a shaft 27 of reduction gearing 28 which in turn is driven by motor 29.
- This motor 29 by suitable switch devices is adaptedcooperatively with the'actuation of the 'hydraulic cylinders governing the movements of the rods 7 and 12, to feed fuel charges in the manner plainly indicated in Figure l to the generator 1 at each down run and ata time when the valve distributor 14 -is in its lowermost position, as is well lmown in the art. ⁇ With the standard constructionV just described I have combined the described means for rotating the shell 9, and hence the chutelO, a part of a rotation so as to cause the fuel to discharge through the lower opening ⁇ 31 of the Vshell 9 and upon the valve distributor 14 over an area of about one-fifth of the total circumference of the generator 1 for each entire charge of fuel fed by the vanes 25.
- Fuel-charging mechanism comprising a fuel-feeding device; means for supplying said device with fuel; a vertically-movable shell member with .i which said device communicates; means for periodically actuating said device to feed into said shell member; a vertically-reciprocable bell distributer below said shell member; means for periodically raising and lowering said bell, said shell member being supported upon said bell in the upper position ofthe latter, the bell forming a cone valve for the shell member in such upper position; means for intercepting and supporting the shell member intermediate the upper and lower positions of the bell as the latter is lowered; a discharge chute formed as an integral part of the shell member and interiorly thereof; and means for rotating said shelll member from the periodic actuating means of said fuel-feeding device.
- Fuel-charging mechanism comprising a fuel-feeding device; means for supplying said device with fuel; a vertically-movable shell member with which said device communicates in the lower position of said member; means for periodically actuating said device to feed into said shell member; a vertically-reciprocable bell distributer below said shell member; means for periodically raising and lowering said bell, said shell member being raised and loweredl by said bell, the latter in its upper position supporting the shell member in a non-communicating lposition with reference tothe fuel-feeding from said vfeeding device; means for intercepting and supporting said shell member as the bell distributer is lowered; a sectorshaped discharge chute secured witliin'said shell member; and means for rotating said shell member concurrently with the actuation of said fuel-feeding device.
- Fuel-charging mechanism comprising a fuel-feeding device; means for supplying iis said device with fuel; a main casing with which said device communicates; means for periodically actuating said device to feed into said casing; a vertically-reciprocable bell distributer; means for periodically raising and lowering said bell; a vertically-movable shell memberwithin said casing supy;
- Fuel-charging mechanism comprising a fuel-feeding device; means Afor supplying said device with fuel; a main casing with which said device communicates; means for periodically actuating said device to feed linto said casing, including a driving shaft;
- a vertically-reciprocable bell distributer means for periodically raising and lowering said bell; a Vvertically-movable shell member within said casing supportedvupon said bell in the Vupper position of the latter and adapted to receive the fuel charged into said casing; interengaging means formed 'upon said shell member and casinglforstopping ⁇ the downward .movement of the shell mem-V.
Landscapes
- Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Combustion & Propulsion (AREA)
- Oil, Petroleum & Natural Gas (AREA)
- Organic Chemistry (AREA)
- Feeding And Controlling Fuel (AREA)
Description
May 2.6,'1931.
J. H. GLEAsoN FUEL CHARGING` MECHANISH Fi1ed.NOV. Il, 1927 V2 Sheets-Sheet 1 O00 awww D May 26251931. 'Y l J. H. GLEAsoN 1,806,623
FUEL CHARGING MEGHANISI Patented May 2`6, 193i .minne H. GLEASN; on winnouennv; offro YPALTSLQOL" onnvnnnivn, omdn oonionnirronon OHIO L t Vfixipiivcanon.fined November 11, '192%A senar-Nazavir The invention particularly relatesl v'to fliargi'rlg; devices by whicha circumferenf tially uniform fuel fbedis maintained auto? mati'callyin the generator, furnace or other .6 fuel consuming chamber by means ofperiodic fuel charges depositedthereinfby `a distributor continuoslylrotated during the Y 'chargingloperatiom Preferably, `although A not necessarily, "each charge tcovers `an :area y comprising only a small* fractional `partof the complete circumference of the fuel chanuber. Thea'cconipanying showing of theinl vention relates to a form of suchadevicef, for 'use with a gas generator, finrwhioh each charge covers substantially' sucha fractional part of the completefge'nerator circumference that Qaplurali'tyf of vchanges will, eirtend. sub.- `stanti'ally 'once around. theaigenerator. To b'e'fmoreexact, thercharged areas are so created that a plurality of. charges :will
slightly more than comprehend one complete 4circuifnference whereby for eachl series .of 'completecharging operations therewill be slight overlapping-area wherebyvto obviate charges. Y y c The annexed `drawings `and the following description set forth in'. detail Icertain means 'any1 'possible flow Vsjoots between successive illustrating `my inventiomffth disclosed y means howevemconstituting butone ,of the Y various mechanical formsin whichthe, ci'pl'e oifliny vinvention beyembodied. ;2 y ,In 'said'annexed dr'awings': v v i o lo Figure 1 represents ayvertical sectional view-of LmyYim'}g roved' charging device-un combination -with `fragmentary portionsofa standard water-gas generatonfeeding" means Y therefor, distributor cone actuating devices, etc.'the view being taken inthe :planesgindijf 40 fee-ted by une ifi, Figure e, and `Shew-ing the1 relative positions of the Mr several parts durhggachareine eperat'on; A Fgure 2 is 'a diagrammatic.vyiewnillus;
"trating howfthe successivecoalgcharges are depositedin :the generatori;
Fi'fre `'s a horizo tal sectionY showing certain drivingv mechanism, the sectionv beingtaken inA the plane lll'ffff;
a Figure 1; and' j o f-`Fignre 4 is a fragmentary view of the li @any standard means ffuel is fed automatically ments shown in l ]igure l, certain partsbein-g in get ionv andljcertain other, parts in eleva? @bathe View distinguishing from Figure. 51 11' that Figiirellfgshowsthe parts non'f 1 Chareflepeston- Referring ,to the,- annexed drawings-Win which the same lparts j are indicated yby the Assieme' fro imams i o same respective*ordinalsinthe several views, a standard water-gas generator' 1. formed with e ademe 2 and a Charging 1001 3 is 4ad'fflflfd to b e'jfed 4with fuel .from my improved charging device. *,Thelatter isy supported upon eccenv-j trically mounted wheelsll ,toV permit f lrjolofiing ard mechanism, usually ahydraul-io-cylinden. A 0
fthelconey distributor inthis position serving Y also as a valveto prevent escape, of thegafses Y treuil/.1-instheupperandV nonfcharfgng posi-tion ofthe latten Las, :plainly f shqwnn Figure 4, 8`5
.improved charging device isdesigned t depositen@ Char-ge of fuelintothelgenera tor-l during each: down ru-n; of thefapparatus.
"Ellr'hermore, )the device -l is designed to dis- Y tribute'ygthis' .fuelautomatically,uniformly y foverfgt'h N VhOl circumferential., area of 1, the generatorrl. the form: o'ffdevice h'ereinde .s cribechjith'e fuel is charged over apart only tof l `the generator 'circumference lat each f Charging operation; @bil/shells) and hence-the i AchuteV 1,0I being vslowly and, continuously rottddilne the Charging Operation A the 'v'alve lcfis" lowered,"th e shell 9 follows the chute 10 having been lowered only toY about a height substantially symmetrical with the charging door 3, whereby the shell member 9 is lowered from the position shown in Fig. 4, in which its open upper receiving end is not in communication withthe discharge side of the fuel-feeding device 25, to the position shown in Fig. 1, inwhich the fuelv fed by the device 25 can Vfall by gravity into the open top of the shell member 9. By means of the gear 18 having external teeth 19 meshing with a driven pinion 20, the shell 9 is slowly continuously rotating during the charging operation. These means for rotating the shell 9 are interconnected with'the means for operating the standard feeding drive, so as to rotate the shell 9 only a part of a complete rotation during a complete ,charging operation, as will now be described.
The pinion 20 is secured to oneV end of a shaft 21 and to the other end of said shaft 21 is secured a' bevel gear 22 adapted to mesh Awith a bevel gear 23 secured to a shaft 24 to which the vspirally arranged standard feeding means 25 are secured. By wellknown means, the feeding means 25 are actuated to-feed the fuel by a step-by-step process during one charging operation through the medium of a rod 26 connected at one end by suitable transmission devices to the shaft 24 and eccentrically connected at the other end to a shaft 27 of reduction gearing 28 which in turn is driven by motor 29. This motor 29 by suitable switch devices is adaptedcooperatively with the'actuation of the 'hydraulic cylinders governing the movements of the rods 7 and 12, to feed fuel charges in the manner plainly indicated in Figure l to the generator 1 at each down run and ata time when the valve distributor 14 -is in its lowermost position, as is well lmown in the art.` With the standard constructionV just described I have combined the described means for rotating the shell 9, and hence the chutelO, a part of a rotation so as to cause the fuel to discharge through the lower opening`31 of the Vshell 9 and upon the valve distributor 14 over an area of about one-fifth of the total circumference of the generator 1 for each entire charge of fuel fed by the vanes 25. As plainly illustrated in Figure 2, wherein the arrow indicates the direction of rotation of the shell 9 and the shaded area 30 indicates that portion of the generator area covered by one charge, and the angle aindicates exactly one-fth of the whole circumference, it will be seen that I actually cover slightly more than one-fifth of the generator area by each charge so that upon the repeated coverings of the same area of the furnace, every fth charge `will slightly overlap, resulting in the elimination of any low or otherwise defective areas between the edges of successive charges. Y
The result of the operation of the apparatus described is automatically to facilitate even distribution of the fuel around the wall of the generator 1, as plainly shown in Figure 1, and eliminate entirely any undue dumping of fuel on any .given area and also the building up of any low spots between successive series of charges or between any charges which are dumped on toV adjacent areas.
What I claim is Y 1. Fuel-charging mechanism comprising a fuel-feeding device; means for supplying said device with fuel; a vertically-movable shell member with .i which said device communicates; means for periodically actuating said device to feed into said shell member; a vertically-reciprocable bell distributer below said shell member; means for periodically raising and lowering said bell, said shell member being supported upon said bell in the upper position ofthe latter, the bell forming a cone valve for the shell member in such upper position; means for intercepting and supporting the shell member intermediate the upper and lower positions of the bell as the latter is lowered; a discharge chute formed as an integral part of the shell member and interiorly thereof; and means for rotating said shelll member from the periodic actuating means of said fuel-feeding device.
2,; Fuel-charging mechanism comprising a fuel-feeding device; means for supplying said device with fuel; a vertically-movable shell member with which said device communicates in the lower position of said member; means for periodically actuating said device to feed into said shell member; a vertically-reciprocable bell distributer below said shell member; means for periodically raising and lowering said bell, said shell member being raised and loweredl by said bell, the latter in its upper position supporting the shell member in a non-communicating lposition with reference tothe fuel-feeding from said vfeeding device; means for intercepting and supporting said shell member as the bell distributer is lowered; a sectorshaped discharge chute secured witliin'said shell member; and means for rotating said shell member concurrently with the actuation of said fuel-feeding device.
3. Fuel-charging mechanism comprising a fuel-feeding device; means for supplying iis said device with fuel; a main casing with which said device communicates; means for periodically actuating said device to feed into said casing; a vertically-reciprocable bell distributer; means for periodically raising and lowering said bell; a vertically-movable shell memberwithin said casing supy;
portedupon said bell in the upper position of the latter and adapted to receive the fuel charged' into 'said casing; interengaging means formed uponv said shell member and casing for stoppingV the downward movement of the shell member and supporting theV latter before the bellreaches its lowermost` position; a sector-shaped discharge chute y secured withinsaid shell member; and means for rotating said shell member concurrently with the actuation vice. v l y 4. Fuel-charging mechanism comprising a fuel-feeding device; means Afor supplying said device with fuel; a main casing with which said device communicates; means for periodically actuating said device to feed linto said casing, including a driving shaft;
a vertically-reciprocable bell distributer; means for periodically raising and lowering said bell; a Vvertically-movable shell member within said casing supportedvupon said bell in the Vupper position of the latter and adapted to receive the fuel charged into said casing; interengaging means formed 'upon said shell member and casinglforstopping `the downward .movement of the shell mem-V. Y Y
ber and supporting the latter before the bell reaches its lowermost position; a sectorshaped discharge chute secured wit-hin n' said shell member; a gear membersecuredto and of said fuel-feeding dey, JAMES ii. cLEAsoNiY;
Publications (1)
Publication Number | Publication Date |
---|---|
US1806623A true US1806623A (en) | 1931-05-26 |
Family
ID=3421733
Family Applications (1)
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US1806623D Expired - Lifetime US1806623A (en) | gleason |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2593535A (en) * | 1946-04-12 | 1952-04-22 | Emhart Mfg Co | Method and apparatus for handling glass batch |
US3220567A (en) * | 1961-05-12 | 1965-11-30 | Lonza Werke Elektrochemische | Apparatus for charging shaft furnaces |
-
0
- US US1806623D patent/US1806623A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2593535A (en) * | 1946-04-12 | 1952-04-22 | Emhart Mfg Co | Method and apparatus for handling glass batch |
US3220567A (en) * | 1961-05-12 | 1965-11-30 | Lonza Werke Elektrochemische | Apparatus for charging shaft furnaces |
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