US857429A - Kiln. - Google Patents
Kiln. Download PDFInfo
- Publication number
- US857429A US857429A US9969602A US1902099696A US857429A US 857429 A US857429 A US 857429A US 9969602 A US9969602 A US 9969602A US 1902099696 A US1902099696 A US 1902099696A US 857429 A US857429 A US 857429A
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- furnace
- shaft
- kiln
- air
- hue
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23G—CREMATION FURNACES; CONSUMING WASTE PRODUCTS BY COMBUSTION
- F23G5/00—Incineration of waste; Incinerator constructions; Details, accessories or control therefor
- F23G5/002—Incineration of waste; Incinerator constructions; Details, accessories or control therefor characterised by their grates
- F23G5/004—Incineration of waste; Incinerator constructions; Details, accessories or control therefor characterised by their grates with endless travelling grates
Definitions
- Our invention relates to the construction of kilns for heating, burning or smelting metals, metal. alloys, combustible and noncombustible materials, as also for roasting and reducing ores, and is especially adapted for house-refuse and similar waste-materials.
- Figure 1 is a central vertical section of a kiln constructed in accordance with this invention
- Fig. 2 a section taken on the line E F of Fig. 3
- Fig. 3 a section taken on the line C D of Fig. 1, Fig. 4, a section partly in elevation, taken on the line A B ofvFig. 1, and Fig. 5, a vertical central section of a modified form of kiln.
- the kiln is open at the top and may be provided with meanssuch as fiaps or slides for closing it. It consists of a shaft which takes mainly a vertical direction except its wall 2, which is not vertical but forms an obtuse angle with the horizon. The angle may advantageously be from about 92O to 130".
- the opposite wall of the furnace is preferably vertical and therefore forms with the horizon an angle of 90, although it may be built at a larger angle up to 130.
- the upper part of the shaft forms the feed portion and the lower part forms a vertical combustion portion.
- the wall 2 of the vertical combustion portion of the shaft is connected with the sole of the furnace shaft 4, by a rounded portion 3, which may advantageously be of segmental form.
- the sole 4 which preferably formsa smooth plane, can if desired be channeled in a longitudinal direction. In most cases the sole is not exactly horizontal but slightly inclined. If the furnace or kiln is intended for the combustion of house-refuse the incline is preferably from 4O to 6 to the horizon. For other uses, say for the production of iron, the incline of the sole may differ.
- the sole 4 leads immediately to the lower mouth of the furnace which may be fitted with a door, slide or any appropriate means for closing it and for allowing the removal of slags or of theA materials treated or produced in the kiln.
- kiln is provided with three furnace-shafts 1, side by side, and the furnace ilues 11 lead from the junction of the feed and vertical combustion portions of the shafts to a common chimney.
- a smoke-dust separator is formed at 19 to receive at 20 the furnace gases laden with dust; the gases finally escaping through the channel 21 into the chimney.
- the inlet 20 for the flue gases is lower than the passage 21.
- the compressed air is supplied from suitable blast engines and enters beneath the fire-bridge into vthe channel 13. This latter4 y by the material collecting near them.
- the furnace-flue at first surrounds the furnace-flue and then after ascending it dips vertically down near the vertical furnace wall, then circulates aty 14 around the furnace shaft and finally leads into the twyers of the air blast.
- sightglasses 39 are provided at the end of narrow passages 40. It is advantageous to form internal spaces 41 in the briclrwork of the furnace so as to permit of the brickwork expanding and contracting in accordance with the changes of temperature.
- the furnace constructed as hereinbefore described operates in the following manner 5 it being presumed that house'refuse forms the material to be burnt.
- a small quantity of coal is ignited upon the sole 4 of the furnace and the blast turned on until the coal has reached an incandescent state, some of the refuse is then introduced into the furnace from the top which is then closed and the blast again started.
- a higher temperature is produced and the refuse then begins to burn, whereupon fresh refuse is charged into the furnace to fill the latter up to the top.
- the air-blast is continued and finally the mineral arts of the refuse are rendered sufficiently liquid to sink to the bottom and gradually run down the sole of the furnace whereupon it can be withdrawn through the furnace mouth.
- the modified construction shown in Fig. 5 is also designed for the use of refuse and other matter.
- the material forcombustion is charged in wagons 35 running on rails 38 and is tipped into hoppers 34 and falls into a room 33 providedwitli an endless conveyerbelt or apron.
- the latter carries the materials to the furnace mouth and discharges them into a hopper 28 forming the extension of the furnace-top 25.
- the material is discharged upon the oscillating damper or flap 26 provided with a counterweight 27. When the charge is sufliciently heavy it lowers the flap 26 and falls into the furnace shaft 1 whereupon the flap 26 again closes.
- the air which is strongly heated by the slowly removed slags ascends through the channels 31 and enters through orifices 32 beneath the top of the furnace 36 into the room 33 and there serves to dry the materials upon the conveyer 29.
- the air, which is strongly heated by the slags as drying air in the room 33 it may if desired be used as secondary combustion air for the kiln, and with this object it would in the arrangement shown in Figs. y1 to 4 pass through the channel 17. Again the drying air may be conducted to the rear of the boiler into the flue where all deleterious matter in it will be destroyed by reason of the high temperature (at least 180 C).
- drying air may also be heated to the required temperature by causing atmospheric air to pass through channels in the heated brickwork of the furnace and thus become strongly heated.
- the heated drying air is then introduced into the room 33 in which latter the combustible materials are brought to the mouth of the furnace.
- a vertical shaft having an upper feed portion and a lower combustion portion, a Hue leading from the shaft at the point where the feed and combustion portions meet, an approximately Ahorizontal shaft in direct communication with the lowerend of the combustion portion of the vertical shaft, blast nozzles opening into both sides of the approximately horizontal shaft, and an air passage in the walls of the vertical shaft, the said air passage beginning underneath the said Hue, and after passing along near to the innersurface of said vertical shaft terminating in the said blast nozzles, substantially as set forth.
- a kiln having a vertical shaft comprising a feed portion and a combustion portion
- a Hue leading off from the point where the feed portion meets with the combustion portion a dust chamber to which the flue leads, an approximately horizontal shaft in direct communication with the combustion portion of the vertical shaft, an air channel disposed in the walls of the vertical shaft and adapted to be heated by the fire in said shaft, blast nozzles at the end of said air channel and opening into said approximately horizontal shaft, and a second air channel disposed in the Walls of said shafts and opening out into the Hue and adapted to be heated by the fire in said shafts.
- a kiln comprising in combination a vertical shaft having plane walls, a Hue leading from said shaft, an approximately horizontal shaft in direct communication with the vertical shaft, an air channel disposed in the walls of said shafts and adapted to be heated by the fire in said shafts, blast nozzles at the end of said air channel and opening into said approximately horizontal shaft, a second lair channel likewise disposed in the wall of said shafts and opening outiinto said Hue and adapted to be heated by the fire in said shafts, a smoke-dust separating chamber to which the said Hue leads, and a gas outlet channel dis osed above the inlet for the Hue gases, and Reading from the smoke-dust epeating chamber substantially as set ort 9.
- a kiln comprising a vertical shaft, an-
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Processing Of Solid Wastes (AREA)
Description
"Nm 857,429. y PATBNTBD JUNE 18, 1907.# G. WIEGMANN an o. BURR.
l KILN. y nrnxoulon FILED 11511.24. 1902.
3 SHEETS-SHEET 1.
110,857,429. PTBNTED JUNI: 1a, 19o?.
G. WIEGMANN & 0.1136311.
KILN. APPLICATION FILED HARM, 1902.
3 SHEETS-SHEET 2.
I il; j g :Y
l110.357.429. PATENTEDJUNE 1s, 1907. G. WIEGMA-NN a c. DRR.
KILN.
APPLIOATIQN FILED MAR. 24. 1902.
3 SHEETS-SHEET 8.
GUSTAV WIEGMANN AND CLEMLENS DRR, OF BERLIN, GERMANY.
Specification of Letters Patent.
rammed June 18,1907.
Application filed March 24,1902. Serial No. 99,696.
T0 @ZZ wtmn if 712,603/ con/cern: f
Be it known that we, GUsTAv IIEGMANN and CLEMnNs DRR, both subjects of the King of Prussia, and residents of Berlin, in the Kingdom of Prussia and German Empire, have invented new and useful Improvements in Kilns, of which the following is a specification.
Our invention relates to the construction of kilns for heating, burning or smelting metals, metal. alloys, combustible and noncombustible materials, as also for roasting and reducing ores, and is especially adapted for house-refuse and similar waste-materials.
In order that our invention may be readily understood and carried into effect, we describe the same fully with reference to the accompanying drawings which show three forms of kiln embodying the invention.
Figure 1 is a central vertical section of a kiln constructed in accordance with this invention; Fig. 2, a section taken on the line E F of Fig. 3; Fig. 3, a section taken on the line C D of Fig. 1, Fig. 4, a section partly in elevation, taken on the line A B ofvFig. 1, and Fig. 5, a vertical central section of a modified form of kiln. p
Similar reference letters indicate corresponding parts in all the figures.
Referring to the form shown in Figs; 1 to 4, the kiln is open at the top and may be provided with meanssuch as fiaps or slides for closing it. It consists of a shaft which takes mainly a vertical direction except its wall 2, which is not vertical but forms an obtuse angle with the horizon. The angle may advantageously be from about 92O to 130".
The opposite wall of the furnace is preferably vertical and therefore forms with the horizon an angle of 90, although it may be built at a larger angle up to 130. The upper part of the shaft forms the feed portion and the lower part forms a vertical combustion portion. The wall 2 of the vertical combustion portion of the shaft is connected with the sole of the furnace shaft 4, by a rounded portion 3, which may advantageously be of segmental form. The sole 4 which preferably formsa smooth plane, can if desired be channeled in a longitudinal direction. In most cases the sole is not exactly horizontal but slightly inclined. If the furnace or kiln is intended for the combustion of house-refuse the incline is preferably from 4O to 6 to the horizon. For other uses, say for the production of iron, the incline of the sole may differ. The sole 4 leads immediately to the lower mouth of the furnace which may be fitted with a door, slide or any appropriate means for closing it and for allowing the removal of slags or of theA materials treated or produced in the kiln. kiln is provided with three furnace-shafts 1, side by side, and the furnace ilues 11 lead from the junction of the feed and vertical combustion portions of the shafts to a common chimney. A smoke-dust separator is formed at 19 to receive at 20 the furnace gases laden with dust; the gases finally escaping through the channel 21 into the chimney. The inlet 20 for the flue gases is lower than the passage 21. -The dust carried off with the gases enters at great velocity in the dust-separator 19, where the dust particles strike violently against the opposite wall-or when the gases enter the chamber tangentially they receive an eddying motion-and then fall down upon the disk 22 which closes the lower collecting room 23. By turning the disk 22 edgewise as indicated by dotted lines in Fig. 3, the dust is caused to drop into the collecting room from which it can be removed (after reclosing the disk 22) by openin the door 24. For the purpose of utilizing t e Hue-@fases which collect in the upper part of the s aft, it is advantageous to form a passage 15 havin any desired number of openings into the s aft 1 and entering the channel 16 which leads into the iiue.
In order to obtain a very high temperature in the furnace the two following conditions are requisite, viz. where the flame enters the flue secondary combustion air must be introduced and in addition there must be a blower above the sole-4. The secondary air enters below the sole into the passages 17 which are rst continued in the form of loops 18 and then ascend in a zig-zag form to the flue. The long passage through which the secondary combustion air is thus obliged to iiow in constant contact with the highly heated walls, provides an exceedingly hot air-current for combustion which will not injuriously affect the flame. It is advisable to provide removable stones 42 in the front wall As shown in Fig. 3 this form of.
IOO
of the furnace, in order to permit access to the channels 17 from outside.
The compressed air is supplied from suitable blast engines and enters beneath the fire-bridge into vthe channel 13. This latter4 y by the material collecting near them.
at first surrounds the furnace-flue and then after ascending it dips vertically down near the vertical furnace wall, then circulates aty 14 around the furnace shaft and finally leads into the twyers of the air blast. There are provided two twyer-batteries 12 in opposite positions and so arranged that the air-jets are caused to cross each other in front of the curvature 3. This arrangement of circulating the air-blast has been found exceedingly advantageous for the production of high temperatures in the furnace. It may here be mentioned that the twyer batteries 12 require to be arranged at such an angle as will prevent the nozzles thereof becoming chokkeld T 's angle is naturally dierent for various materials; and is about 30o for house refuse.
In order to enable the heating process within the furnace to be inspected, sightglasses 39 are provided at the end of narrow passages 40. It is advantageous to form internal spaces 41 in the briclrwork of the furnace so as to permit of the brickwork expanding and contracting in accordance with the changes of temperature.
The furnace constructed as hereinbefore described operates in the following manner 5 it being presumed that house'refuse forms the material to be burnt. A small quantity of coal is ignited upon the sole 4 of the furnace and the blast turned on until the coal has reached an incandescent state, some of the refuse is then introduced into the furnace from the top which is then closed and the blast again started. In this manner a higher temperature is produced and the refuse then begins to burn, whereupon fresh refuse is charged into the furnace to fill the latter up to the top. The air-blast is continued and finally the mineral arts of the refuse are rendered sufficiently liquid to sink to the bottom and gradually run down the sole of the furnace whereupon it can be withdrawn through the furnace mouth.
Beyond the smoke-dust which is deposited in the collector 23, no ash is formed because the furnace has no grate and the internal temperature is sufficiently high to reduce all the materials in the furnace to slags. As the consumption of the materials proceedsffresh material is introduced so as to render the operation continuous. In case the refuse is very poor in combustible matter a little coal may be added, which however need never exceed 4% of the refuse. The furnacegases which escape through the channel 21 are not led direct into the chimney, but are utilized for the generation of steam or for other purposes. y
The modified construction shown in Fig. 5 is also designed for the use of refuse and other matter. The material forcombustion is charged in wagons 35 running on rails 38 and is tipped into hoppers 34 and falls into a room 33 providedwitli an endless conveyerbelt or apron. The latter carries the materials to the furnace mouth and discharges them into a hopper 28 forming the extension of the furnace-top 25. The material is discharged upon the oscillating damper or flap 26 provided with a counterweight 27. When the charge is sufliciently heavy it lowers the flap 26 and falls into the furnace shaft 1 whereupon the flap 26 again closes.
In order to utilize the heat of the slags, which is considerable, the following arrangement may be used The lower end of the furnace is closed by a sliding or other door 5 and at its exterior is mounted a box 6 which lis open toward the door 5. The opposite side of the box 6 is also open but normally covered by a slide 7. Each of these slides is suspended from a chain 8, 8 passed over rollers and having a counterweight at the free end., In order to reach the box 6 it is necessary Ato open the door 10. After raising the slides 5 and 7 the slag which slowly flows down the sole 4 can be raked into the box 6 from which it falls upon an Vendless conveyer band 37 of suitable construction. The air which is strongly heated by the slowly removed slags ascends through the channels 31 and enters through orifices 32 beneath the top of the furnace 36 into the room 33 and there serves to dry the materials upon the conveyer 29. In lieu of utilizing the air, which is strongly heated by the slags, as drying air in the room 33 it may if desired be used as secondary combustion air for the kiln, and with this object it would in the arrangement shown in Figs. y1 to 4 pass through the channel 17. Again the drying air may be conducted to the rear of the boiler into the flue where all deleterious matter in it will be destroyed by reason of the high temperature (at least 180 C). Obviously the drying air may also be heated to the required temperature by causing atmospheric air to pass through channels in the heated brickwork of the furnace and thus become strongly heated. The heated drying air is then introduced into the room 33 in which latter the combustible materials are brought to the mouth of the furnace.
As an exception the. use of secondary combustion air has not been adopted in the installation shown in Fig. 5. The air blastvis conducted through a pipe 13 in the drying room 33 and then through a coil 14 around the furnace-shaft. The furnace in this arrangement is of a different form as it has no vertical walls, although in other respects the general installation is essentially the same as that described with reference to Figs. 1 to 4.
The advantages of the installations hereinbefore described as regards the combustion of refuse are, hygienically considered, of gerat importance, as the combustion is complete, no ash is formed, the residues are re- IOO ITO
covered asv molten slags adapted for various uses and only occupyasmallpercentage of the volume of the refuse. Further it is also important that a complete smoke-consumption be eHected, as the gases escaping from the chimney consist with the exception of very small quantities of carbonio oxid gas, exclusively of nitrogen and carbonio acid.
What we claim and desire to secure by Letters Patent of the United States is 1. The combination in a kiln, of a vertical shaft having a feed portion and a combustion portion, an approximately horizontal shaft communicating with the lower end of the combustion portion of said vertical shaft, blast nozzles opening into both sides of the approximately horizontal shaft, a Hue leading off from that point Where the feed portion of the vertical shaft meets with the combustion portion, and a channel connected withthe feed portion of the vertical shaft at a point above the connection of said'feed portion with the Hue, the said channel leading to the Hue substantially as set forth.
2. In a kiln, the combination with the vertical shaft and Hue leading therefrom, of a channel connecting the upper part of said shaft with said flue, the said channel com- `municating with said shaft at a point abovev the connection of the latter with the Hue, substantially as set forth.
3. In a kiln, the combination with a vertical shaft having a feed portion, anda combustion portion, of a Hue leading off from that point where the feed ortion of the shaft meets with the combustlon portion, an approximately horizontal shaft in direct communication with the lower end of the combustion portion of said vertical shaft, blast nozzles opening into both sides of the approximately horizontal shaft, and passages built in the walls of the said shafts, said passages being adapted to be heated by the Hre in said shafts and opening into said Hue, substantially as set forth.
4. The combination in a kiln, of a vertical shaft having plane walls, and comprising an upper feed ortion and a lower combustion portion, a ue leading off from said shaft at the point where the feed portion meets thecombustion portion, an approximately horizontal shaft in direct cornerless communication with the lower end of the combustion portion of said vertical shaft, blast nozzles opening into said approximately horizontal shaft, and passages built in the walls of said shafts, said passages being adapted to be heated by the fire in said shafts, the passages extending upward in a zigzag form and opening into said Hue, substantially as set forth.
5. In a kiln, the combination with a vertical shaft having an upper feed portion and a lower combustion portion, a Hue leading from the shaft at the point where the feed and combustion portions meet, an approximately Ahorizontal shaft in direct communication with the lowerend of the combustion portion of the vertical shaft, blast nozzles opening into both sides of the approximately horizontal shaft, and an air passage in the walls of the vertical shaft, the said air passage beginning underneath the said Hue, and after passing along near to the innersurface of said vertical shaft terminating in the said blast nozzles, substantially as set forth.
v6. The combination in a kiln, of a vertical shaft having plane walls, a Hue leading off from said shaft, an approximately horizontal shaft in direct cornerless communication with the lower end of the vertical shaft, blast nozzles opening into the said approximately horizontal shaft, and an air passage builtin the walls of said shafts, said passage beginning underneath the said Hue and after passing along near to the inner surface of said vertical shaft and extending around the lower part of the same, terminating in said nozzles, substantially as set forth.
7. A kiln having a vertical shaft comprising a feed portion and a combustion portion,
a Hue leading off from the point where the feed portion meets with the combustion portion, a dust chamber to which the flue leads, an approximately horizontal shaft in direct communication with the combustion portion of the vertical shaft, an air channel disposed in the walls of the vertical shaft and adapted to be heated by the fire in said shaft, blast nozzles at the end of said air channel and opening into said approximately horizontal shaft, and a second air channel disposed in the Walls of said shafts and opening out into the Hue and adapted to be heated by the fire in said shafts.
8. A kiln, comprising in combination a vertical shaft having plane walls, a Hue leading from said shaft, an approximately horizontal shaft in direct communication with the vertical shaft, an air channel disposed in the walls of said shafts and adapted to be heated by the fire in said shafts, blast nozzles at the end of said air channel and opening into said approximately horizontal shaft, a second lair channel likewise disposed in the wall of said shafts and opening outiinto said Hue and adapted to be heated by the fire in said shafts, a smoke-dust separating chamber to which the said Hue leads, and a gas outlet channel dis osed above the inlet for the Hue gases, and Reading from the smoke-dust epeating chamber substantially as set ort 9. A kiln comprising a vertical shaft, an-
approximately horizontal shaft in direct communication with the vertical shaft, blast nozzles opening into said approximately horizontal shaft, a smoke-dust separating chamber, a flue connecting said chamber with said vertical shaft, an air channel names to lnhis specification in the presence of two Suhsorihing Witnesses.
GUSTAV WIEGMANN. Y CLEMENS DORR.
disposed in the Walls of said shafts and adapted to be heated by thele in said shafts, the said air channel opening into the said Hue, and a gas outlet channel disposed 4 5 above said flue and leading f'om the smokedust separating chamber, as set forth. x In testimony Whereofwe have signed our Witnesses FRANZ SOHNAYTERLEY, WOLDEMAR HAUPT.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US9969602A US857429A (en) | 1902-03-24 | 1902-03-24 | Kiln. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US9969602A US857429A (en) | 1902-03-24 | 1902-03-24 | Kiln. |
Publications (1)
Publication Number | Publication Date |
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US857429A true US857429A (en) | 1907-06-18 |
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US9969602A Expired - Lifetime US857429A (en) | 1902-03-24 | 1902-03-24 | Kiln. |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3812796A (en) * | 1973-03-22 | 1974-05-28 | Iwatani & Co | Refuse incinerator |
-
1902
- 1902-03-24 US US9969602A patent/US857429A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3812796A (en) * | 1973-03-22 | 1974-05-28 | Iwatani & Co | Refuse incinerator |
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