US527515A - Vania - Google Patents
Vania Download PDFInfo
- Publication number
- US527515A US527515A US527515DA US527515A US 527515 A US527515 A US 527515A US 527515D A US527515D A US 527515DA US 527515 A US527515 A US 527515A
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- United States
- Prior art keywords
- tubes
- pipes
- horizontal
- steam
- transverse
- 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
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- 241000382509 Vania Species 0.000 title 1
- 230000008878 coupling Effects 0.000 description 19
- 238000010168 coupling process Methods 0.000 description 19
- 238000005859 coupling reaction Methods 0.000 description 19
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 19
- 238000010276 construction Methods 0.000 description 6
- 238000002485 combustion reaction Methods 0.000 description 2
- 230000002950 deficient Effects 0.000 description 2
- 101100117236 Drosophila melanogaster speck gene Proteins 0.000 description 1
- 210000000988 bone and bone Anatomy 0.000 description 1
- 239000011449 brick Substances 0.000 description 1
- 238000004140 cleaning Methods 0.000 description 1
- 239000003245 coal Substances 0.000 description 1
- 230000008020 evaporation Effects 0.000 description 1
- 238000001704 evaporation Methods 0.000 description 1
- 230000003137 locomotive effect Effects 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 210000003739 neck Anatomy 0.000 description 1
- 230000008439 repair process Effects 0.000 description 1
- 239000000725 suspension Substances 0.000 description 1
Images
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F22—STEAM GENERATION
- F22B—METHODS OF STEAM GENERATION; STEAM BOILERS
- F22B17/00—Water-tube boilers of horizontally-inclined type, i.e. the water-tube sets being inclined slightly with respect to the horizontal plane
Definitions
- Boilers of which the following is a specification.
- the improvement contemplates certain features of construction which permit moreperfect circulation of water and steam in a boiler .entirelybuilt upof tubes.
- the invention also includes specific improvements in the construction looking to the assembling ofthe parts making up thewater circulatory system in such a way that a water tubemay be readily replaced when defective and Without dismantling the structure as an entirety.
- the fire grate is arrangedbetween the walls of vertical tubes and below the in-' by and connecting with the four upright or corner tubes, two of which open into the bot tom of one steam drum and two into the bottom of the other steam drum.
- the drums are also connected together at each end by trans- ,versetubes or pipes, from one or both of which steam may be led to the place of consumption.
- the safety valve may be placed.
- the entire is inclosed.
- FIG. 1 is a front elevation of our improved boiler.
- Fig.2 is a longitudinal vertical sectional view on the line a;-.r of Fig. 1.
- Fig. 3 is a vertical sectional detail view on an enlarged scale of one form of coupling which may be employed.
- Fig. his a similar view of one of the couplings for the small horizontal pipes.
- Fig. 5 is a side elevation of the structure with its inclosing walls; and
- Fig. 6 is a perspective view of the. boiler i structure composed of; the large pipes.
- A are the large vertical pipes.
- the bot- Ioo toms of the pipes A, A on each side are connected by large side pipes B.
- O is a large transverse pipe connecting the two rear pipes A, A.
- the tops of the pipes, A, A on each side are connected by the large side pipes D.
- E is the rear transverse pipe connecting the tops of the two opposite rear pipes A, A.
- F is the front transverse pipe connecting the tops of the two opposite front pipes A, A.
- G is the intermediate large transverse pipe connecting the two opposite front pipes A, A between their tops and bottomsf All of the pipes described are united at their points of connection by suitable water and steam tight couplings.
- H, H are the steam drums which are connected with the tops of the pipesA, A through the connecting pipes or couplings h,h, the "pipes A, A on one side being connected with one drum H and the pipes A, A on the other side with the other drum.
- the drums H, H are connected together at each end by transverse tubes or pipes, i, 2', from one or both of which steam may be led to the place of consumption.
- the two transverse connecting pipes i, 03 may be connected by a pipe or tube.
- a safety valve may be placed.
- I are a set of small tubes connecting one of the lower side pipes B with one of the upper side pipes D and having horizontal portions 1 extending from side to side within the structure composed of the large pipes.
- J are a similar set of small tubes connecting the other lower side pipe B with the other upper side pipe D and having similar horizontal portions J extending from side to side within the structure composed of the large pipes.
- K are a series of small tubes connecting the lower transverse rear pipe 0 with one of the transverse upper pipes and having horizontal portions K extending longitudinally within the structure composed of the large pipes and preferably above the horizontal portions I and J of the pipes or tubes I and J.
- L are another set of small pipes or tubes connecting the intermediate transverse pipe G with the other upper transverse pipe and having horizontal portions L similar to the horizontal'portions K of the pipes or tubes K.
- pipes or tubes I and J respectively connect one of the bottom side pipes B with the opposite top side pipes D; and the pipes K and L respectively connect the'lower pipes O and G with the upper transverse pipes F. and E. It will be understood however, that these small pipes or tubes I, J, K and L may connect the upper and lower pipes on the same side, instead of the opposite pipes.
- the various small pipes I, J, K and L may be connected with the respective large pipes B, C, D, E, F and G by suitable couplings.
- the connection is preferably made through coupling M uniting the ends of the pipes I, J, K, and L with short pipe sections 19, c, d, e f and carried by the respective pipes B, G, D, E, F and G.
- the pipes I, J, K and L or any portion of them may be easily disconnected without dismantling the entire boiler.
- the inclosing structure '1 may be provided with doors t suitably located to permit the couplings to be reached from the outside when the doors are opened.
- doors t suitably located to permit the couplings to be reached from the outside when the doors are opened.
- the coupling M consists of the two parts N and 0 adapted to be secured together as by a bolt P.
- the parts N and O are provided respectively with threaded necks n and 0 adapted to receive the threaded ends of the pipes J, &c., and b, &c. Any other form of coupling may however be employed.
- Fig. 4 In Fig. 4 is shown our preferredv coupling for the horizontal portions of the pipes I, J, K and L. This consists of a hollow cap Qprovided with threaded sockets q to receive the ends of two horizontal portions I, J, K, L.
- R is a removable plug in the cap Q in line with one of the sockets q so that when the plug is removed a cleaning rod may be inserted through the cap directly into one of the pipes connected therewith.
- each cap gives access to the interior of one of the two pipes coupled by it and in that manner each horizontal pipe may be cleaned.
- S is a water pipe which supplies water to the lower portion of the pipe structure formed by the large pipes.
- the grate is located within the structure below the horizontal pipes I, J, K and L asis shown at U in dotted lines in Fig. 2 so that these horizontal portions of small pipe are subjected directly to the heat.
- a second pipe section or structure composed of the large upright corner pipes, upper horizontal connecting pipes and small tubes may be coupled with the upper large horizontal pipes of the first section or structure.
- the operation of the boiler in the generation of steam will be readily understood from the foregoing description of the construction of the boiler.
- the water is admitted to the structure of large pipes by the pipe S and is subjected to the products of combustion from the grate U.
- the connecting pipes or tubes induce a constant circulation of the water so thatit is thoroughly subjected to the heat giving ofi its steam which passes ofi through the connecting tubes h into the steam drums H.
- Athe steam will be separated from the water of ebullition the steam passposed of four large upright corner tubes con nected at the top and bottom by large horizontal tubes, and sets of small generating tubes connecting the upper and lower horizontal tubes and having substantially horizontal portions or sections located at adistance above the lower large horizontal connecting tubes, and a grate located within the space bounded by the large upright tubes and situated above the lower horizontal connecting tubes and below the substantially horizontal portions of the small generating tubes.
- a steam boiler composed of an upper and lower set of large horizontal tubes, the upper large horizontal tubes being located above the water level, a series of generating tubes connecting the upper and lower large horizontal tubes and having horizontal portions extending above the grate, large upright corner return tubes between the upper and lower sets of large horizontal tubes and non-connecting with the small generating tubes, whereby the steam is generated within the small generating tubes and passes thence into the upper large horizontal tubes without passing through the upright tubes and the water is returned through the large upright corner tubes, and a steam drum or drums having the inlet passages from the set of upper horizontaltubes leading directly from above the vertical return tubes, whereby the steam in passing to the inlet to the steam drum or drums will traverse the open upright return tubes, therebybecoming freed of the water of ebullition.
- the steam boiler section consisting of the four large corner tubes A, the large side tubes B connecting the bottoms of the tubes A, the upper large side tubesconnecting the top of the tubes A, the large transverse tube 0 connecting the rear tubes A at thebottom, the upper transverse large tubes E, F connecting the two rear and the two front tubes A respectively, the intermediate large connecting tube G between the front tubes A, and small connecting pipes between the upper and lower large connecting tubes.
- the steam boiler section consisting of the four large corner tubes A, the large side.
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Control Of Steam Boilers And Waste-Gas Boilers (AREA)
Description
v 3 Sheets-Sheet 1. H. TETLOW & T. HARRISON.
(No Model.)
BOILER Patented 001;. 16,1894.
Attorney.
52 O m uuunuwmnuu f I m: Noam; Prrzns co.. moruu'ma. WASNINOTO 2 m h s F m h 3R '0 S I R R A H. m T n &0 B W 0 L T E T w,
- (No Model.)
Patented Oct. 16
IS PErEns c0, PHOTOUTNQ, WASHINGTON n c UNITED STATES PATENT OFFICE.
HENRY TETLOW AND THOMAS HARRISON, OF PHILADELPHIA, PENNSYL- VANIA; SAID HARRISON ASSIGNOR TO SAID TETLOW.
BOILER.
SPECIFICATION forming part of Letters Patent No. 527,515, dated October 16, 1894. Application filed July 28:1893; Serial No. 481,712- (No model.)
To (ZZZ whom/ it may concern:
Be it known that we, HENRY TETLOW and THOMAS HARRISON, both of Philadelphiafin the county of Philadelphia and State of Penn-1 sylvania, havehinvented an Improvement in:
Boilers,of which the following is a specification.
Our invention has reference to steam boilem, and consists of certain improvements which are fully set forth in the following speck fication and shown in the accompanying drawings which form a part thereof.
The improvement contemplates certain features of construction which permit moreperfect circulation of water and steam in a boiler .entirelybuilt upof tubes.
The invention; also includes specific improvements in the construction looking to the assembling ofthe parts making up thewater circulatory system in such a way that a water tubemay be readily replaced when defective and Without dismantling the structure as an entirety.
In carrying out our invention we employ large upright tubes located at each corner, and these are connected at the sides and back by a large horizontal tube at the bottom of v with the horizontal bottom side tubes.
horizontal tubes at the top of the boiler. There is also a large. transverse or cross tube connecting the two front upright corner tubes located intermediate of the top andbottom. A series of steam generating tubes of small diameter have their tops connected with the upper side horizontal tubes and their bottoms In addition to these two sets of steam generating tubes there are two other sets of similar tubes connected at the bottom with the two large transverse tubes and at the top with the upper large transverse tubes. These generating tubeshave horizontal, or approximately horizontal portions or sections. These variably of the construction shown, so that any complete generating tube may be readily removed, repaired and replaced, or replaced by a new one. The fire grate is arrangedbetween the walls of vertical tubes and below the in-' by and connecting with the four upright or corner tubes, two of which open into the bot tom of one steam drum and two into the bottom of the other steam drum. The drums are also connected together at each end by trans- ,versetubes or pipes, from one or both of which steam may be led to the place of consumption.
bone of said connecting pipes the safety valve may be placed. The entire is inclosed.
by brickwork on sides and back and by breeching in front, and long doors or removable plates are arranged therein adjacent to or over the couplings in the generating tubes to permit access thereto when it may be necessary to make repairs or replace a defective. 1 tube. i
In the operation of our improved boiler the heat from the furnace grate is caused to come into contact with the horizontal portions of l the small generating tubes, thus generating steam veryqui'cklyand utilizing to the best advantage the products of combustion. The
water is kept in a constant circulation and permits the ready escape of steam from the various pipes to the steam drums when it is clearlyseparated from any ebullition of the water, and thus may be delivered to the engine in a comparatively drystate. This is very advantageous in that it permits a greater evaporation duty per pound of coal than in those cases where the hot water of the boiler is carried off in suspension with the steam.
Our. invention will be better understood by reference to the accompanying drawings, in which- Figure 1 is a front elevation of our improved boiler. Fig.2 is a longitudinal vertical sectional view on the line a;-.r of Fig. 1. Fig. 3 is a vertical sectional detail view on an enlarged scale of one form of coupling which may be employed. Fig. his a similar view of one of the couplings for the small horizontal pipes. Fig. 5 is a side elevation of the structure with its inclosing walls; and Fig. 6 is a perspective view of the. boiler i structure composed of; the large pipes.
A are the large vertical pipes. The bot- Ioo toms of the pipes A, A on each side are connected by large side pipes B.
O is a large transverse pipe connecting the two rear pipes A, A. The tops of the pipes, A, A on each side are connected by the large side pipes D.
E is the rear transverse pipe connecting the tops of the two opposite rear pipes A, A.
F is the front transverse pipe connecting the tops of the two opposite front pipes A, A.
G is the intermediate large transverse pipe connecting the two opposite front pipes A, A between their tops and bottomsf All of the pipes described are united at their points of connection by suitable water and steam tight couplings.
H, H are the steam drums which are connected with the tops of the pipesA, A through the connecting pipes or couplings h,h, the "pipes A, A on one side being connected with one drum H and the pipes A, A on the other side with the other drum. The drums H, H are connected together at each end by transverse tubes or pipes, i, 2', from one or both of which steam may be led to the place of consumption. The two transverse connecting pipes i, 03 may be connected by a pipe or tube.
In one of the connecting pipes 11 a safety valve may be placed.
I are a set of small tubes connecting one of the lower side pipes B with one of the upper side pipes D and having horizontal portions 1 extending from side to side within the structure composed of the large pipes. J are a similar set of small tubes connecting the other lower side pipe B with the other upper side pipe D and having similar horizontal portions J extending from side to side within the structure composed of the large pipes.
K are a series of small tubes connecting the lower transverse rear pipe 0 with one of the transverse upper pipes and having horizontal portions K extending longitudinally within the structure composed of the large pipes and preferably above the horizontal portions I and J of the pipes or tubes I and J.
L are another set of small pipes or tubes connecting the intermediate transverse pipe G with the other upper transverse pipe and having horizontal portions L similar to the horizontal'portions K of the pipes or tubes K.
We prefer to connect the small pipes or tubes I, J, K and L with the opposite top and bottom pipes, and they are so shown in the drawings.
5 Thus the pipes or tubes I and J respectively connect one of the bottom side pipes B with the opposite top side pipes D; and the pipes K and L respectively connect the'lower pipes O and G with the upper transverse pipes F. and E. It will be understood however, that these small pipes or tubes I, J, K and L may connect the upper and lower pipes on the same side, instead of the opposite pipes.
The various small pipes I, J, K and L may be connected with the respective large pipes B, C, D, E, F and G by suitable couplings. The connection is preferably made through coupling M uniting the ends of the pipes I, J, K, and L with short pipe sections 19, c, d, e f and carried by the respective pipes B, G, D, E, F and G. By the use of such couplings the pipes I, J, K and L or any portion of them, may be easily disconnected without dismantling the entire boiler. To permit easy access to these couplings M, the inclosing structure '1 may be provided with doors t suitably located to permit the couplings to be reached from the outside when the doors are opened. In Fig. 3 we have shown a form of coupling which may be employed. In this construction the coupling M consists of the two parts N and 0 adapted to be secured together as by a bolt P. The parts N and O are provided respectively with threaded necks n and 0 adapted to receive the threaded ends of the pipes J, &c., and b, &c. Any other form of coupling may however be employed.
In Fig. 4 is shown our preferredv coupling for the horizontal portions of the pipes I, J, K and L. This consists of a hollow cap Qprovided with threaded sockets q to receive the ends of two horizontal portions I, J, K, L.
R is a removable plug in the cap Q in line with one of the sockets q so that when the plug is removed a cleaning rod may be inserted through the cap directly into one of the pipes connected therewith. Thus each cap gives access to the interior of one of the two pipes coupled by it and in that manner each horizontal pipe may be cleaned.
While the sections I, J, K and L are described as horizontal pipes, it will be observed that they incline slightly from the horizontal plane.
S is a water pipe which supplies water to the lower portion of the pipe structure formed by the large pipes. The grate is located within the structure below the horizontal pipes I, J, K and L asis shown at U in dotted lines in Fig. 2 so that these horizontal portions of small pipe are subjected directly to the heat.
While we prefer the minor details of construction shown we do not limit ourselves to 'them as they may be varied without departing from the invention.
The pipe structure which composes the boiler-will be inclosed in a suitable setting of brick as has been heretofore stated or when used as a marine or locomotive boiler it may be enveloped in a suitable metal structure.
To increase the height of the boiler, when the same is desired it is apparent that a second pipe section or structure composed of the large upright corner pipes, upper horizontal connecting pipes and small tubes may be coupled with the upper large horizontal pipes of the first section or structure.
Theoperation of the boiler in the generation of steam will be readily understood from the foregoing description of the construction of the boiler. The water is admitted to the structure of large pipes by the pipe S and is subjected to the products of combustion from the grate U. The connecting pipes or tubes induce a constant circulation of the water so thatit is thoroughly subjected to the heat giving ofi its steam which passes ofi through the connecting tubes h into the steam drums H. As these drums are connected with the upright pipe A, Athe steam will be separated from the water of ebullition the steam passposed of four large upright corner tubes con nected at the top and bottom by large horizontal tubes, and sets of small generating tubes connecting the upper and lower horizontal tubes and having substantially horizontal portions or sections located at adistance above the lower large horizontal connecting tubes, and a grate located within the space bounded by the large upright tubes and situated above the lower horizontal connecting tubes and below the substantially horizontal portions of the small generating tubes.
2. In a steam boiler, the combination of four corner upright tubes connected on all sides by horizontal tubes, with two sets of small generating tubes respectively connected with the diagonally opposite horizontal tubes, detachable couplings between the generating tubes and the horizontal tubes, an inclosing covering for the tubes, a breeching provided with a door atthe front to secure access to the front couplings, and covered openings at top and rear to secure access to the couplings at these places.
3. In a steam boiler, water circulating tubes combined with two horizontal or transverse water tubes at diiferent elevations, a series of generating tubes of small diameter having their ends connecting with the horizontal or transverse tubes, detachable couplings adjacent to the horizontal or transverse tubes for disconnecting the generating tubes separately consisting of elbowed parts connected respectively with the return tubes and horizontal tubes and providedwith communicating water passageways, and a clamping bolt for clamping the two parts together.
4. In a steam boiler, water circulating tubes combined with two horizontal or transverse water tubes at diiferent elevations, a series of generating tubes of small diameter having their ends connecting with the horizontal or transverse tubes, detachable couplings adjacent to the horizontal or transverse tubes for disconnecting the generatingtubes separately consisting of elbowed parts connected re,- spectively with the return tubes and horizontal tubes and provided with communicating waterpassageways, and a clamping bolt for clamping the two parts together passing through the apertures parallel to the return tube and packed to prevent leakage.
5. A steam boiler composed of an upper and lower set of large horizontal tubes, the upper large horizontal tubes being located above the water level, a series of generating tubes connecting the upper and lower large horizontal tubes and having horizontal portions extending above the grate, large upright corner return tubes between the upper and lower sets of large horizontal tubes and non-connecting with the small generating tubes, whereby the steam is generated within the small generating tubes and passes thence into the upper large horizontal tubes without passing through the upright tubes and the water is returned through the large upright corner tubes, and a steam drum or drums having the inlet passages from the set of upper horizontaltubes leading directly from above the vertical return tubes, whereby the steam in passing to the inlet to the steam drum or drums will traverse the open upright return tubes, therebybecoming freed of the water of ebullition.
6. The steam boiler section consisting of the four large corner tubes A, the large side tubes B connecting the bottoms of the tubes A, the upper large side tubesconnecting the top of the tubes A, the large transverse tube 0 connecting the rear tubes A at thebottom, the upper transverse large tubes E, F connecting the two rear and the two front tubes A respectively, the intermediate large connecting tube G between the front tubes A, and small connecting pipes between the upper and lower large connecting tubes.
7. The steam boiler section consisting of the four large corner tubes A, the large side.
tubes B connecting the bottoms of the tubes A, the upper large side tubes connecting the top of the tubes A, the large transverse tube 0 connecting the rear tubesA atthe bottom, the upper transverse large tubes E, F con: necting the two rear and the two front tubes A respectively, the intermediate large connecting tube G between the front tubes A,
and small connecting pipes between the up per and lower large connecting tubes; in combination with the grateU located between the large tubes A abovethe connecting tubes B, B, .O and below the intermediate front connecting tube G.
In testimony of which invention we have hereunto set our hands.
HENRY TETLOW. THOMAS HARRISON.
Witnesses:
ERNEST HOWARD HUNTER, HELEN L. MOTHERWELL.
Publications (1)
| Publication Number | Publication Date |
|---|---|
| US527515A true US527515A (en) | 1894-10-16 |
Family
ID=2596305
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| US527515D Expired - Lifetime US527515A (en) | Vania |
Country Status (1)
| Country | Link |
|---|---|
| US (1) | US527515A (en) |
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0
- US US527515D patent/US527515A/en not_active Expired - Lifetime
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