US2098489A - Hot water heater - Google Patents
Hot water heater Download PDFInfo
- Publication number
- US2098489A US2098489A US99590A US9959036A US2098489A US 2098489 A US2098489 A US 2098489A US 99590 A US99590 A US 99590A US 9959036 A US9959036 A US 9959036A US 2098489 A US2098489 A US 2098489A
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- Prior art keywords
- boiler
- hot water
- heating chamber
- wall
- heating
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H1/00—Water heaters, e.g. boilers, continuous-flow heaters or water-storage heaters
- F24H1/18—Water-storage heaters
- F24H1/186—Water-storage heaters using fluid fuel
Definitions
- the invention relates generally to hot water heaters and in particular to a heating attachment to be applied around the side of an ordinary hot water tank or boiler.
- Hot water boilers of any standard size vary considerably in diameter and curvature, as for instance, a heavy duty boilermay have a. larger diameter than a lighter one of the same standard size, and a boiler may be considerably out of round due to the method of manufacture thereof.
- the difliculty with prior heating attachments to be applied to the side of a hot water boiler is that they are adapted for fitting a standard size boiler having exactdimensions, and can not be adjusted for variations in diameter and curvature. v .7 3. Furthermore, in localities where the water is hard the deposit and accumulation of limeorscale is an ever present problem, not only where heat is applied directly to the bottom of the boiler, but also where it is applied toa pipe coil at the side of theboiler, in which latter case the coil has to be renewed at frequent intervals. I g
- Another object is to provide a heating attachment which will heat the water in the boiler efficiently and at the same time produce a minimum amount of lime or scale deposit.
- Another object is to provide a heating attachment for a hot water boiler which includes bafile means for retarding the flow of hot gases and thereby increasing the efficiency of the heater.
- a concave-convex flexible sheet metalshell having a heat insulating chamber and adapted for fitting around the side of a hot water boiler and forming therewith a narrow heating chamber, said heating chamber having a series of ciroum ferentially adjustable baffles for conforming to the wallof the boiler.
- Figure 1 is an elevational view of ahot water boilershowing the improved heating attachment applied to the side thereof;
- Fig. 2 is an enlarged plan view thereof
- Fig. 3 is an enlarged transverse sectional view as on line 3-3, Fig. 1.;
- Fig. 4 is an enlarged transverse sectional view as on line 4-4, Fig. 1;
- w I Fig. 5 is an enlarged longitudinal section taken circumstantially on line 5 -5, Fig. 1;
- Fig. 6 is a sectional view taken on line 6-6, Fig. 5;
- Fig. 7 is an enlarged fragmentary section taken on line '11, Fig. 1;
- Fig. 8 is a view showing the manner of forming the baflles; and v I Fig. 9 is a sectional View as on line 9-9, Fig. 8.
- FIG. 1 of the drawings is shown an ordinary cylindrical hot water boiler I0 having the usual water connections I I, and supportedon the feet l2.
- the improved heating attachment is indicated generally at I3 and is secured to the side wall of the boiler ID at the lower portion 7 thereof.
- the heating attachment 13 comprises a flexible sheet metal shell substantially concavo-convex in cross section, and includes an outer shell member l4 and an inner shell member 15.
- the outer shell member l4 is preferably formed to be polygonal in shape and has the inwardly directed side walls l6 integral therewith.
- the inner shell member I5 has alongitudinally extending arcuate wall I 5' which is provided with inwardly directed side walls I! having angular curved portions l8 substantially conforming to the curved wall of the boiler [0.
- the inner edges of the flange portions l8 arepreferably crimped around the inner edges of the side walls 16 of the. outer shell member M, as at I9, so as to form a substantially U-shaped heat insulating chamber which is filled with asbestos wool 20 or other suitable heat insulating material.
- the heat insulating material .20thus surrounds. on three sides the narrow heating chamber 22. formed between the arcuate wall l5 of the inner shell member l5 .and the circular .wall of the boiler l 0.
- the top wall 23 and the bottom wall 24 of the heating attachment areformed by. slitting the end portions of the outer shell member atthe corners of the polygonal sides thereof and bending the resulting leaves or portions 23 in overlapping relation .angularly inward towards the boiler,.so that said walls are circumferentially ad.- justable as indicated in Fig. 2.
- Thebottom wall" 24, however, is preferably bent upwardly behind the wall l5 of the inner shell member as shown at 25, so that the heating chamber 22 is open at its lower end, as best shown in Fig. 5.
- the heating attachment 13 may be attached to the boiler ID by means of metal straps 26 which encircle the boiler and preferably have flanged ends 21 through which bolts 28 are inserted.
- the bolts 28 are passed through lugs 29 which are secured to the heating attachment in a suitable manner, and the straps 28 clamp the heating attachment to the boiler by means of nuts 30 bearing against lugs 29.
- a burner is secured to the heating attachment in the lower open end of heating chamber 22, and the burner may comprise an arcuate pipe 32 substantially conforming to the curve of the boiler wall, and preferably flattened vertically between its end portions, as best shown at 33 in Fig. 5.
- the flattened portion 33 is provided'with a series of burner holes 34 for discharging gas, and by flattening the pipe, ample space 36 is provided for admission of secondary. air for combustion.
- the burner pipe 32 is closed at one end 31 and is provided at its other end with the usual mixing chamber 38 and gas valve 39.
- the central portion of the top wall 23 of the heating attachment is cut out to form a rectangular opening in which an L-shaped plate 44 is fitted.
- the top flange of the L-shaped plate 44 is provided with a flanged opening 45 for taking the usual flue pipe connection 46.
- the depending flange 41 of the L-shaped plate preferably projects or extends outwardly beyond the outer shell member l4, and has rearwardly extending walls 41 secured to shell member l4 so as to form a downdraft flue opening 48.
- The. L-shaped plate 44 forms the top and outer walls of a flue compartment 53, the bottom wall 49 thereof being formed by bending the upper end portion of wall I5 of the inner shell downwardly as shown in Fig. 5, and the side walls 50 thereof being formed by bending the central portions of the outer shell inwardly, as shown in Fig. 3.
- An angular plate 5! is secured to the top flange of plate 44 behind the flue opening 45 to form a baffle plate for directing down or back drafts from the flue out of. the opening 48 to the atmosphere.
- the heating chamber 22 is provided with a series of vertically spaced bafiles 52 which extend radially between the inner shell member I5 and the boiler.
- the baflles 52 are staggered by spacing alternate ends from side walls H of the heating chamber so as to retard the flow of gases in the heating chamber and cause them to follow a zigzag path as indicated in Fig. l.
- the top bave 52' is located at the bottom wall of the flue compartment 53; and its one end being spaced from adjacent wall I! provides communication between chamber 22 and compartment 53 at the inner side of said compartment.
- baflles 52 and 52 preferably have angular flanges 54 which may be welded to the inner shell member l5, and the horizontal flange of each baflle is slit into leaves or segments 55, as shown in Fig. 8. By thus slitting the horizontal.
- the bailies may be bent to circumferentially conform to the curvature of the boiler wall regardless of variations of diameter or curvature.
- outer and inner shell members are constructed of flexible sheet metal and the top and bottom walls of the outer shell are formed by overlapping portions, when the bolts 28 are drawn up to clamp the heating attachment to the boiler wall, the shell members will also conform to the variations in diameter and curvature of the boiler wall.
- the improved heating attachment is inexpensive to make and is easily attached to a standard size boiler without interfering in any way with its usual fittings.
- Any sludge or lime deposit in the water will settle to the bottom of the boiler where it does not act to insulate the heat from the water and decrease heating efliciency as well as increase lime deposit, because the transfer of heat to the water occurs at the side of the boiler above the deposit in the bottom, and the side wall of the boiler is kept free and clean of sludge and lime deposit.
- a heater for a cylindrical hot water boiler including a flexible shell adapted for fitting around the side of the boiler and forming therewith a narrow heating chamber, said shell having a heat insulating chamber outside of said heating chamber, and a series of circumferentially adjustable arcuate bafiies in the heating chamber for conforming to the curved wall of said boiler.
- a heater fora hot water boiler including a shell for fitting around the side of the boiler, said shell having walls forming an inner heating chamber and an outer heat insulating chamber, walls forming a flue passage. extending across both of said chambers at one end of said shell and projecting beyond said insulating chamber and communicating with said heating chamber, a flue communicating with said flue passage, and means in said flue passage for directing back drafts from said flue out of said flue passage to the atmosphere.
- a concavo-convex flexible shell for fitting around the side of the boiler and forming a narrow heating chamber therewith, means securing said shell to said boiler, a burner at one end of said heating chamber, a flue passage communicating with other end of said heating chamber, and a series of staggered circumferentially collapsible adjustable battles in the heating chamber for conforming to the circular wall of said boiler 4.
- a heater for a hot water boiler including a shell for fitting around the side of the boiler and having an inner heating chamber and an outer heat insulating chamber, walls forming a flue compartment extending across both chambers at one end of said shell, a flue connection at the upper side of said compartment, the rear end of said compartment communicating with said heating chamber and the front end projecting over said heat insulating chamber to form a downwardly directed opening to the atmosphere, and a baflle wall in said compartment for directing back drafts from the flue connection directly out through said downwardly directed opening.
- a heater for a cylindrical hot water boiler including an elongated flexible shell having an open side for forming an elongated heating chamber alongside the boiler, the outer walls of the shell forming a heat insulating chamber at the rear and sides of the heating chamber, a closure at one end of said heating chamber and an arcuate burner secured to the shell at the other end of said chamber, said burner being adapted to direct flames upwardly alongside of said boiler, and radially extending circumferentially collapsible bafile plates in the heating chamber for retarding the gases passing therethrough.
- a heater for a cylindrical hot water boiler including a flexible elongated shell for fitting around the side of the boiler and forming therewith a narrow heating chamber, said shell having circumferentially adjustable top and bottom walls and a heat insulating chamber outside of said heating chamber, and a series of circumferentially adjustable baflles in the heating chamber for conforming to the curved wall of the boiler.
- a heater for a hot water boiler including a shell for fitting around the side of the boiler, said shell having walls forming an inner heating chamber and an outer heat insulating chamber, walls forming a flue passage communicating with said heating chamber and extending across and beyond said insulating chamber for communicating with the atmosphere, and a flue communil5 eating with said flue passage.
Description
Nov. 9, 1937. I H. H. EVERHARD 2,098,489
HOT WATER HEATER Filed Sept. 5, 1936 2 Sheets-Sheet l Hair 12' lveifiard Nov. 9, 1937.
File? Sept. 5, 1956 2 Sheets-Sheet 2 Patented Nov. 9, 1937 UNITED STATES PATENT OFFIE 2,098,489 nor WATER HEATER Harry H. Everhard, Canton, Ohio Application September 5, 1936, Serial No. 99.590 7 Claims. (01. 122 14) The invention relates generally to hot water heaters and in particular to a heating attachment to be applied around the side of an ordinary hot water tank or boiler.
Hot water boilers of any standard size vary considerably in diameter and curvature, as for instance, a heavy duty boilermay have a. larger diameter than a lighter one of the same standard size, and a boiler may be considerably out of round due to the method of manufacture thereof.
The difliculty with prior heating attachments to be applied to the side of a hot water boiler is that they are adapted for fitting a standard size boiler having exactdimensions, and can not be adjusted for variations in diameter and curvature. v .7 3. Furthermore, in localities where the water is hard the deposit and accumulation of limeorscale is an ever present problem, not only where heat is applied directly to the bottom of the boiler, but also where it is applied toa pipe coil at the side of theboiler, in which latter case the coil has to be renewed at frequent intervals. I g
It is a principal object of the present invention to provide a heating attachment for a hot water boiler which is adapted to fit around standard size boilers regardless of variations in diameter and curvature. V v ,7
Another object is to providea heating attachment which will heat the water in the boiler efficiently and at the same time produce a minimum amount of lime or scale deposit.
Another object is to provide a heating attachment for a hot water boiler which includes bafile means for retarding the flow of hot gases and thereby increasing the efficiency of the heater.
And finally, it is an objectof the present invention to provide an improved construction attaining all of the foregoing objectives, which construction is inexpensive to make, and is easily attached to a standard size hot water boiler withe out interfering in any way with its'usual fittings.
These and other objects are accomplished by the improvements comprising the present invention, which may be briefly stated as including a concave-convex flexible sheet metalshell having a heat insulating chamber and adapted for fitting around the side of a hot water boiler and forming therewith a narrow heating chamber, said heating chamber having a series of ciroum ferentially adjustable baffles for conforming to the wallof the boiler.
In the drawings forming part hereof Figure 1 is an elevational view of ahot water boilershowing the improved heating attachment applied to the side thereof;
Fig. 2 is an enlarged plan view thereof; r
.Fig. 3 is an enlarged transverse sectional view as on line 3-3, Fig. 1.;
Fig. 4 is an enlarged transverse sectional view as on line 4-4, Fig. 1; w I Fig. 5 is an enlarged longitudinal section taken circumstantially on line 5 -5, Fig. 1;
Fig. 6 is a sectional view taken on line 6-6, Fig. 5;
Fig. 7 is an enlarged fragmentary section taken on line '11, Fig. 1;
Fig. 8 is a view showing the manner of forming the baflles; and v I Fig. 9 is a sectional View as on line 9-9, Fig. 8.
Similar numerals refer to similar parts throughout the drawings.
In Figure 1 of the drawings is shown an ordinary cylindrical hot water boiler I0 having the usual water connections I I, and supportedon the feet l2. The improved heating attachmentis indicated generally at I3 and is secured to the side wall of the boiler ID at the lower portion 7 thereof.
The heating attachment 13 comprises a flexible sheet metal shell substantially concavo-convex in cross section, and includes an outer shell member l4 and an inner shell member 15. The outer shell member l4 ispreferably formed to be polygonal in shape and has the inwardly directed side walls l6 integral therewith. I
, The inner shell member I5 has alongitudinally extending arcuate wall I 5' which is provided with inwardly directed side walls I! having angular curved portions l8 substantially conforming to the curved wall of the boiler [0. The inner edges of the flange portions l8 arepreferably crimped around the inner edges of the side walls 16 of the. outer shell member M, as at I9, so as to form a substantially U-shaped heat insulating chamber which is filled with asbestos wool 20 or other suitable heat insulating material. The heat insulating material .20thus surrounds. on three sides the narrow heating chamber 22. formed between the arcuate wall l5 of the inner shell member l5 .and the circular .wall of the boiler l 0. The top wall 23 and the bottom wall 24 of the heating attachment areformed by. slitting the end portions of the outer shell member atthe corners of the polygonal sides thereof and bending the resulting leaves or portions 23 in overlapping relation .angularly inward towards the boiler,.so that said walls are circumferentially ad.- justable as indicated in Fig. 2. Thebottom wall" 24, however, is preferably bent upwardly behind the wall l5 of the inner shell member as shown at 25, so that the heating chamber 22 is open at its lower end, as best shown in Fig. 5.
The heating attachment 13 may be attached to the boiler ID by means of metal straps 26 which encircle the boiler and preferably have flanged ends 21 through which bolts 28 are inserted. The bolts 28 are passed through lugs 29 which are secured to the heating attachment in a suitable manner, and the straps 28 clamp the heating attachment to the boiler by means of nuts 30 bearing against lugs 29. V
A burner is secured to the heating attachment in the lower open end of heating chamber 22, and the burner may comprise an arcuate pipe 32 substantially conforming to the curve of the boiler wall, and preferably flattened vertically between its end portions, as best shown at 33 in Fig. 5. The flattened portion 33 is provided'with a series of burner holes 34 for discharging gas, and by flattening the pipe, ample space 36 is provided for admission of secondary. air for combustion. The burner pipe 32 is closed at one end 31 and is provided at its other end with the usual mixing chamber 38 and gas valve 39.
The burner pipe 32 is adjustably connected to the bottom wall 24 of the heating attachment by means of bracket arms 40 supporting the pipe and having slots 4| through which studs 42 pass and are clamped to the bracket arms by nuts 43. Thus the burner may be adjusted to hug the wall of the boiler after the heating attachment is clamped thereto.
The central portion of the top wall 23 of the heating attachment is cut out to form a rectangular opening in which an L-shaped plate 44 is fitted. The top flange of the L-shaped plate 44 is provided with a flanged opening 45 for taking the usual flue pipe connection 46. The depending flange 41 of the L-shaped plate preferably projects or extends outwardly beyond the outer shell member l4, and has rearwardly extending walls 41 secured to shell member l4 so as to form a downdraft flue opening 48. V
The. L-shaped plate 44 forms the top and outer walls of a flue compartment 53, the bottom wall 49 thereof being formed by bending the upper end portion of wall I5 of the inner shell downwardly as shown in Fig. 5, and the side walls 50 thereof being formed by bending the central portions of the outer shell inwardly, as shown in Fig. 3.
An angular plate 5! is secured to the top flange of plate 44 behind the flue opening 45 to form a baffle plate for directing down or back drafts from the flue out of. the opening 48 to the atmosphere.
The heating chamber 22 is provided with a series of vertically spaced bafiles 52 which extend radially between the inner shell member I5 and the boiler. The baflles 52 are staggered by spacing alternate ends from side walls H of the heating chamber so as to retard the flow of gases in the heating chamber and cause them to follow a zigzag path as indicated in Fig. l. The top baiile 52' is located at the bottom wall of the flue compartment 53; and its one end being spaced from adjacent wall I! provides communication between chamber 22 and compartment 53 at the inner side of said compartment.
The baflles 52 and 52 preferably have angular flanges 54 which may be welded to the inner shell member l5, and the horizontal flange of each baflle is slit into leaves or segments 55, as shown in Fig. 8. By thus slitting the horizontal.
flanges of the baffles and forming one slit edge of each leaf with an angular overlapping flange 56, the bailies may be bent to circumferentially conform to the curvature of the boiler wall regardless of variations of diameter or curvature.
Since the outer and inner shell members are constructed of flexible sheet metal and the top and bottom walls of the outer shell are formed by overlapping portions, when the bolts 28 are drawn up to clamp the heating attachment to the boiler wall, the shell members will also conform to the variations in diameter and curvature of the boiler wall.
The improved heating attachment is inexpensive to make and is easily attached to a standard size boiler without interfering in any way with its usual fittings.
With the present construction heat is applied to the relatively large body of water in the tank directly through the thin side wall of the boiler, instead of a small body of water as in a coil heater, with the result that the temperature of the water can be maintained below 180 F., at which temperaturevery little lime or scale is deposited.
Any sludge or lime deposit in the water will settle to the bottom of the boiler where it does not act to insulate the heat from the water and decrease heating efliciency as well as increase lime deposit, because the transfer of heat to the water occurs at the side of the boiler above the deposit in the bottom, and the side wall of the boiler is kept free and clean of sludge and lime deposit.
I claim:
1. A heater for a cylindrical hot water boiler, including a flexible shell adapted for fitting around the side of the boiler and forming therewith a narrow heating chamber, said shell having a heat insulating chamber outside of said heating chamber, and a series of circumferentially adjustable arcuate bafiies in the heating chamber for conforming to the curved wall of said boiler.
2. A heater fora hot water boiler, including a shell for fitting around the side of the boiler, said shell having walls forming an inner heating chamber and an outer heat insulating chamber, walls forming a flue passage. extending across both of said chambers at one end of said shell and projecting beyond said insulating chamber and communicating with said heating chamber, a flue communicating with said flue passage, and means in said flue passage for directing back drafts from said flue out of said flue passage to the atmosphere.
3. In combination with a cylindrical hot water boiler, a concavo-convex flexible shell for fitting around the side of the boiler and forming a narrow heating chamber therewith, means securing said shell to said boiler, a burner at one end of said heating chamber, a flue passage communicating with other end of said heating chamber, and a series of staggered circumferentially collapsible adjustable battles in the heating chamber for conforming to the circular wall of said boiler 4. A heater for a hot water boiler, including a shell for fitting around the side of the boiler and having an inner heating chamber and an outer heat insulating chamber, walls forming a flue compartment extending across both chambers at one end of said shell, a flue connection at the upper side of said compartment, the rear end of said compartment communicating with said heating chamber and the front end projecting over said heat insulating chamber to form a downwardly directed opening to the atmosphere, and a baflle wall in said compartment for directing back drafts from the flue connection directly out through said downwardly directed opening.
5. A heater for a cylindrical hot water boiler, including an elongated flexible shell having an open side for forming an elongated heating chamber alongside the boiler, the outer walls of the shell forming a heat insulating chamber at the rear and sides of the heating chamber, a closure at one end of said heating chamber and an arcuate burner secured to the shell at the other end of said chamber, said burner being adapted to direct flames upwardly alongside of said boiler, and radially extending circumferentially collapsible bafile plates in the heating chamber for retarding the gases passing therethrough.
6. A heater for a cylindrical hot water boiler, including a flexible elongated shell for fitting around the side of the boiler and forming therewith a narrow heating chamber, said shell having circumferentially adjustable top and bottom walls and a heat insulating chamber outside of said heating chamber, and a series of circumferentially adjustable baflles in the heating chamber for conforming to the curved wall of the boiler.
7. A heater for a hot water boiler, including a shell for fitting around the side of the boiler, said shell having walls forming an inner heating chamber and an outer heat insulating chamber, walls forming a flue passage communicating with said heating chamber and extending across and beyond said insulating chamber for communicating with the atmosphere, and a flue communil5 eating with said flue passage.
HARRY H. EVERHARD.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US99590A US2098489A (en) | 1936-09-05 | 1936-09-05 | Hot water heater |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US99590A US2098489A (en) | 1936-09-05 | 1936-09-05 | Hot water heater |
Publications (1)
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US2098489A true US2098489A (en) | 1937-11-09 |
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Application Number | Title | Priority Date | Filing Date |
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US99590A Expired - Lifetime US2098489A (en) | 1936-09-05 | 1936-09-05 | Hot water heater |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2452852A (en) * | 1945-07-06 | 1948-11-02 | John A Hilkene | Heat reclamation attachment for heating furnaces |
US2559110A (en) * | 1949-04-22 | 1951-07-03 | Maurel G Burwell | Water heater and burner housing therefor |
US2650575A (en) * | 1950-03-31 | 1953-09-01 | Smith Corp A O | Water heater flue construction |
US2751892A (en) * | 1950-08-15 | 1956-06-26 | Leonardis Michael J De | Device for heating a heat transfer medium |
US6554608B1 (en) * | 1998-01-20 | 2003-04-29 | Gas Research Institute | Apparatus and method for sensing flammable vapor |
-
1936
- 1936-09-05 US US99590A patent/US2098489A/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2452852A (en) * | 1945-07-06 | 1948-11-02 | John A Hilkene | Heat reclamation attachment for heating furnaces |
US2559110A (en) * | 1949-04-22 | 1951-07-03 | Maurel G Burwell | Water heater and burner housing therefor |
US2650575A (en) * | 1950-03-31 | 1953-09-01 | Smith Corp A O | Water heater flue construction |
US2751892A (en) * | 1950-08-15 | 1956-06-26 | Leonardis Michael J De | Device for heating a heat transfer medium |
US6554608B1 (en) * | 1998-01-20 | 2003-04-29 | Gas Research Institute | Apparatus and method for sensing flammable vapor |
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