CA2423551C - Chimney mount for heater - Google Patents
Chimney mount for heater Download PDFInfo
- Publication number
- CA2423551C CA2423551C CA002423551A CA2423551A CA2423551C CA 2423551 C CA2423551 C CA 2423551C CA 002423551 A CA002423551 A CA 002423551A CA 2423551 A CA2423551 A CA 2423551A CA 2423551 C CA2423551 C CA 2423551C
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- CA
- Canada
- Prior art keywords
- burner
- burner tube
- flame
- chimney
- nozzle
- 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
- 238000002485 combustion reaction Methods 0.000 claims description 16
- 239000000446 fuel Substances 0.000 description 23
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 16
- 239000007788 liquid Substances 0.000 description 10
- ATUOYWHBWRKTHZ-UHFFFAOYSA-N Propane Chemical compound CCC ATUOYWHBWRKTHZ-UHFFFAOYSA-N 0.000 description 8
- 238000002347 injection Methods 0.000 description 8
- 239000007924 injection Substances 0.000 description 8
- 238000010438 heat treatment Methods 0.000 description 5
- 239000001294 propane Substances 0.000 description 4
- 239000002283 diesel fuel Substances 0.000 description 2
- 239000003921 oil Substances 0.000 description 2
- 239000007787 solid Substances 0.000 description 2
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 1
- 229910052782 aluminium Inorganic materials 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
- 238000004140 cleaning Methods 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 238000005065 mining Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000000717 retained effect Effects 0.000 description 1
- HBMJWWWQQXIZIP-UHFFFAOYSA-N silicon carbide Chemical compound [Si+]#[C-] HBMJWWWQQXIZIP-UHFFFAOYSA-N 0.000 description 1
- 229910010271 silicon carbide Inorganic materials 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
Landscapes
- Chimneys And Flues (AREA)
- Pressure-Spray And Ultrasonic-Wave- Spray Burners (AREA)
Abstract
A heater body with a flat upper surface has a chimney mount extending downwardly from the flat upper surface. Outer and inner collar members are joined together and the chimney is mounted between the external collar members.
Description
TITLE
CHIMNEY MOUNT FOR HEATER
CROSS REFERENCE TO RELATED APPLICATION
This application is a divisional of application serial No. 2,153,610 filed July 11, 1995.
INTRODUCTION
This invention relates to a chimney mount for a multi-fuel burner and, more particularly, to a chimney mount for a multi-liquid fuel burner utilizing an iqniter and a nozzle holder which emits atomized fuel and which utilizes a heated burner tube to an infrared condition under operation.
BACKGROUND OF THE INVENTION
It is desirable in many applications to have a burner which will operate using a plurality of fuels. Such a burner is described and claimed in Reissue U.S. Patent 28,679 naming the same inventor as named in the present application. The use of a multi-fuel burner is desirable because it may be operated with fuel as is readily available in the operating environment where the burner is utilized. For example, in the high north, construction and mining equipment may operate with diesel fuel.
It is convenient to use such a fuel for operating the burner.
The burner illustrated and disclosed in Reissue Patent 28,679 and in U.S. Patent 5,102,328, however, utilize in the first instance a round flame grid and, in the second instance, a cylindrical flame grid which are convenient for the particular applications under which they may be used. In other applications, however it is convenient to utilize a flame grid having a different configuration which may be designed and manufactured for far less expense and which may be used, for example, for water heating and for oven heating, which oven may be used in a field kitchen by the military: A furnace may also I
CHIMNEY MOUNT FOR HEATER
CROSS REFERENCE TO RELATED APPLICATION
This application is a divisional of application serial No. 2,153,610 filed July 11, 1995.
INTRODUCTION
This invention relates to a chimney mount for a multi-fuel burner and, more particularly, to a chimney mount for a multi-liquid fuel burner utilizing an iqniter and a nozzle holder which emits atomized fuel and which utilizes a heated burner tube to an infrared condition under operation.
BACKGROUND OF THE INVENTION
It is desirable in many applications to have a burner which will operate using a plurality of fuels. Such a burner is described and claimed in Reissue U.S. Patent 28,679 naming the same inventor as named in the present application. The use of a multi-fuel burner is desirable because it may be operated with fuel as is readily available in the operating environment where the burner is utilized. For example, in the high north, construction and mining equipment may operate with diesel fuel.
It is convenient to use such a fuel for operating the burner.
The burner illustrated and disclosed in Reissue Patent 28,679 and in U.S. Patent 5,102,328, however, utilize in the first instance a round flame grid and, in the second instance, a cylindrical flame grid which are convenient for the particular applications under which they may be used. In other applications, however it is convenient to utilize a flame grid having a different configuration which may be designed and manufactured for far less expense and which may be used, for example, for water heating and for oven heating, which oven may be used in a field kitchen by the military: A furnace may also I
utilize the burner which furnace distributes the hot air by using appropriate ducting.
Heretofore, the multi-fuel burner according to the aforementioned patents has used an ignition electrode to provide for the initial combustion of the atomized liquid fuel which is emitted from the nozzle by the venturi action of the primary air in the nozzle.
Ignition electrodes, however, have a gap in which the distance is critical. The tips of such electrodes can also burn off until the electrode eventually becomes inoperable and a relatively high amount of power is required to form the spark on the electrode. Thus, relatively high maintenance is required to keep the ignition electrode in optimum condition and replacement is, of course, required from time to time.
Although igniters have been used with gaseous systems such as propane as described in U.S. Patent 3,875,477, it has not been contemplated that an igniter may be used with atomized liquid fuels. Although propane is stored in a liquid form, when the pressure is released on the liquid, the propane is ejected by the nozzle in gaseous form. The propane will be ignited when it passes over the igniter.
The place of introduction of secondary air is important. For example, if it is desired that combustion occur on an external grid rather than internally of the burner tube, the secondary air is added at a location where it supports combustion on the grid and not within the burner tube.
STJIdMARY OF THE INVENTION
According to one aspect of the invention, there is provided a heater body comprising a combustion chamber, a flat, upper surface, an opening to allow mounting of a burner within said combustion chamber and a chimney mount extending downwardly below said flat, upper surface, said chimney mount comprising outer and inner collar members joined together below said flat upper surface, and a chimney operable to be mounted between and in contact with said inner and outer collar members.
BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS
Specific embodiments of the invention will now be described by example only, with the use of drawings in which:
Figure 1 illustrates a burner according to the invention having a burner tube in which combustion takes place with a nozzle holder connected to the end of the burner tube in accordance with the present invention;
Heretofore, the multi-fuel burner according to the aforementioned patents has used an ignition electrode to provide for the initial combustion of the atomized liquid fuel which is emitted from the nozzle by the venturi action of the primary air in the nozzle.
Ignition electrodes, however, have a gap in which the distance is critical. The tips of such electrodes can also burn off until the electrode eventually becomes inoperable and a relatively high amount of power is required to form the spark on the electrode. Thus, relatively high maintenance is required to keep the ignition electrode in optimum condition and replacement is, of course, required from time to time.
Although igniters have been used with gaseous systems such as propane as described in U.S. Patent 3,875,477, it has not been contemplated that an igniter may be used with atomized liquid fuels. Although propane is stored in a liquid form, when the pressure is released on the liquid, the propane is ejected by the nozzle in gaseous form. The propane will be ignited when it passes over the igniter.
The place of introduction of secondary air is important. For example, if it is desired that combustion occur on an external grid rather than internally of the burner tube, the secondary air is added at a location where it supports combustion on the grid and not within the burner tube.
STJIdMARY OF THE INVENTION
According to one aspect of the invention, there is provided a heater body comprising a combustion chamber, a flat, upper surface, an opening to allow mounting of a burner within said combustion chamber and a chimney mount extending downwardly below said flat, upper surface, said chimney mount comprising outer and inner collar members joined together below said flat upper surface, and a chimney operable to be mounted between and in contact with said inner and outer collar members.
BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS
Specific embodiments of the invention will now be described by example only, with the use of drawings in which:
Figure 1 illustrates a burner according to the invention having a burner tube in which combustion takes place with a nozzle holder connected to the end of the burner tube in accordance with the present invention;
Figures 2A and 2B are sectional and end views of the nozzle holder according to the invention taken along IIA and IIB of Figure 1, respectively;
Figure 3 is an exploded view of several of the operating components of a hot water heater into one end of which is inserted a burner according to Figure 1; and Figure 4A is a view of the burner according to the invention utilizing a rectangular flame grid and baffle in a furnace or oven heating application;
Figure 4B is a view of the baffle within the burner tube taken along IVB-IVB of Figure 4A;
Figure 4C is a plan view of the rectangular flame grid of the burner according to Figure 4A;
Figure 5A is a side, partially sectioned diagrammatic view of an infrared burner according to a further aspect of the invention;
Figure 5B is an end view taken along VB-VB of Figure 5A;
Figure 6A is a side view of an inner tube which is used within the burner tube of Figure 5;
Figure 6B is an end view taken along VIB-VIB of Figure 6A;
Figure 7 is a diagrammatic side view of a heater body with a chimney and chimney collar according to a further aspect of the invention;
Figure 3 is an exploded view of several of the operating components of a hot water heater into one end of which is inserted a burner according to Figure 1; and Figure 4A is a view of the burner according to the invention utilizing a rectangular flame grid and baffle in a furnace or oven heating application;
Figure 4B is a view of the baffle within the burner tube taken along IVB-IVB of Figure 4A;
Figure 4C is a plan view of the rectangular flame grid of the burner according to Figure 4A;
Figure 5A is a side, partially sectioned diagrammatic view of an infrared burner according to a further aspect of the invention;
Figure 5B is an end view taken along VB-VB of Figure 5A;
Figure 6A is a side view of an inner tube which is used within the burner tube of Figure 5;
Figure 6B is an end view taken along VIB-VIB of Figure 6A;
Figure 7 is a diagrammatic side view of a heater body with a chimney and chimney collar according to a further aspect of the invention;
Figure 8A is a side view of a heat exchanger used with the burner of Figure 1;
Figure 8B is an end view of the heat exchanger of Figure 8A taken along VIIIB-VIIIB of Figure 8A; and Figure 8C is a diagrammatic view of the heat exchanger of Figures 8A and 8B showing the water circulation therein.
DESCRIPTION OF SPECIFIC EMBODIMENT
Referring now to the drawings, a burner according to the invention is generally illustrated at 10 in Figure 1. It comprises a burner tube 11 with one end having a secondary air injection plate 12. The opposite end 13 of the burner tube 11 is open.
The secondary air injection plate 12 is-operably connected to a nozzle holder 14. Nozzle holder 14 is adapted to allow the mounting of a nozzle 20 in one end 15 of the nozzle holder 14 and also to allow an igniter 21 to be mounted on an inclined radial to the nozzle holder 14 as is illustrated. A
typical igniter that may be utilized in this application is a NORTON hot surface igniter and, in particular, the NORTON Model 301 igniter which is more_completely described, for example, in U. S. Patent 3,875,477 entitled SILICON CARBIDE RESISTANCE
IGNITER. The igniter 21 has a tip 22 which is located a distance from the apex 23 of the nozzle 20 such that when atomized liquid is emitted from the nozzle 20, the tip 22, when heated, allows the atomized fuel to be ignited as will be described.
Figure 8B is an end view of the heat exchanger of Figure 8A taken along VIIIB-VIIIB of Figure 8A; and Figure 8C is a diagrammatic view of the heat exchanger of Figures 8A and 8B showing the water circulation therein.
DESCRIPTION OF SPECIFIC EMBODIMENT
Referring now to the drawings, a burner according to the invention is generally illustrated at 10 in Figure 1. It comprises a burner tube 11 with one end having a secondary air injection plate 12. The opposite end 13 of the burner tube 11 is open.
The secondary air injection plate 12 is-operably connected to a nozzle holder 14. Nozzle holder 14 is adapted to allow the mounting of a nozzle 20 in one end 15 of the nozzle holder 14 and also to allow an igniter 21 to be mounted on an inclined radial to the nozzle holder 14 as is illustrated. A
typical igniter that may be utilized in this application is a NORTON hot surface igniter and, in particular, the NORTON Model 301 igniter which is more_completely described, for example, in U. S. Patent 3,875,477 entitled SILICON CARBIDE RESISTANCE
IGNITER. The igniter 21 has a tip 22 which is located a distance from the apex 23 of the nozzle 20 such that when atomized liquid is emitted from the nozzle 20, the tip 22, when heated, allows the atomized fuel to be ignited as will be described.
A plurality of circumferential holes 24, conveniently eight(8) in number, are located about the periphery of the nozzle holder 14 and allow primary air to enter the nozzle holder 14 and to proceed directly, without diversion, to the burner tube il as is indicated by the arrows.
A plurality of circumferential secondary air holes 30 are located about the inside circumference of the burner tube 11 and are drilled through the secondary air injection plate 12 in the positions illustrated. A
central circumferential aperture 31 allows ingress of the atomized fuel from the nozzle 20 into the burner tube 11 where combustion occurs.
A flame rod 32 is located in the burner tube 11 and is operable to pass current between the flame rod 32 and ground 33operably mounted across the burner tube 11 so as to indicate the presence or absence of a flame. A
voltage source 34 supplies the necessary power to the flame rod 32.
Nozzle 20 has a source of liquid fuel 60 which is provided to the nozzle 20. Compressed air is also provided to the nozzle 20 through a compressed air line 61.
OPERATION
In operation, the igniter 21 is switched on and tip 22 immediately-heats to a temperature which will ignite the atomized liquid being emitted from the apex 23 of nozzle 20 under the suction or venturi effect of the compressed air entering line 61 and leaving nozzle 20.
The atomized liquid fuel which may be gasoline, jet fuel, waste oil, diesel fuel, heating oil or the like is ignited .. .. ,. .
A plurality of circumferential secondary air holes 30 are located about the inside circumference of the burner tube 11 and are drilled through the secondary air injection plate 12 in the positions illustrated. A
central circumferential aperture 31 allows ingress of the atomized fuel from the nozzle 20 into the burner tube 11 where combustion occurs.
A flame rod 32 is located in the burner tube 11 and is operable to pass current between the flame rod 32 and ground 33operably mounted across the burner tube 11 so as to indicate the presence or absence of a flame. A
voltage source 34 supplies the necessary power to the flame rod 32.
Nozzle 20 has a source of liquid fuel 60 which is provided to the nozzle 20. Compressed air is also provided to the nozzle 20 through a compressed air line 61.
OPERATION
In operation, the igniter 21 is switched on and tip 22 immediately-heats to a temperature which will ignite the atomized liquid being emitted from the apex 23 of nozzle 20 under the suction or venturi effect of the compressed air entering line 61 and leaving nozzle 20.
The atomized liquid fuel which may be gasoline, jet fuel, waste oil, diesel fuel, heating oil or the like is ignited .. .. ,. .
by the tip 22 of the guide 21 and pass through the centrally located circumferential aperture 31 where combustion takes place within the burner tube 11.
Following the ignition of the atomized fuel in the burner tube 11 and the increase in temperature of the burner tube 11 to allow the combustion to be self sustaining, the igniter 21 will terminate operation. The flame rod 32 senses the presence of a flame in the burner tube 11 as is known. In the event no flame is present, the flame rod 32 will immediately act to-shut down the burner 10.
The primary air passes radially through the circumferential primary air holes 24 from the atmosphere.
It then passes directly to the burner tube 11 as is illustrated by the arrows in Figure 1. The secondary air passes axially through the secondary air holes 30 on the secondary air injection plate 12 and act to support combustion within the burner tube 11.
The nozzle holder 14 is shown in more detail in Figures 2A and 2B. A hole 62 is machined in the nozzle holder 14 to allow the nozzle 20 (Figure 1) to be held by the nozzle holder 14. The primary air holes 24 are located about the circumference of the nozzle holder 14 and are used to allow primary air to radially enter into the nozzle holder 14 and, thence, to pass directly to the burner tube 11.
A further embodiment of an apparatus with which the burner according to the invention is used is illustrated in Figu'res 4A, 4B and 4C. This embodiment is used, for example, where it is desired to heat an oven such as a stove in a field kitchen as might be used by the military and the like. In this case, the air injection plate 71 will have no secondary holes surrounding the nozzle holder 70 and the burner tube 64 will be located a _ 8 -distance away from the air injection plate 71 as is illustrated. A rectangular or square flame grid 63 faces upwardly and is connected to one end of the burner tube 64. A U-shaped baffle 65 is positioned within the burner tube 64 so that the fuel passes through the baffle 65 on the way to the rectangular grid 63. The baffle 65 has a centrally located pilot hole 66 and a plurality of holes 67 to allow passage of the fuel to the grid 63. The nozzle holder 70 is mounted directly to the injection plate 71 and, upon the tip of the igniter 72 igniting the atomized fuel being ejected from the nozzle 73 under the influence of air being provided through the compressed air line 74 and the liquid fuel being provided through fuel line 80, primary air enters the primary air holes 81 and passes directly to the burner tube 64 to support combustion on flame grid 63. It will be particularly noted that no secondary air holes are provided in the injection plate 71 because the combustion is not taking place within the burner tube 64 but, rather, on the rectangular flame grid 63. However, secondary air intake holes 68, 69 are located in the jacket 76 surrounding the burner tube 64 about the outside circumference of the jacket 76 and the circumference of the end 75 of the jacket 76, respectively.
A further embodiment of the invention is shown in Figure 3 which illustrates several operating components of a hot water heater. The burner according to the invention as illustrated in Figure 1 is inserted directly into the end 85 of the housing generally shown at 82. The burner tube 11 (Figure 1) extends into cylinder 83 and cylinder 83, in turn, extends into the water jacket generally illustrated at 84.
In operation, and upon initial combustion of the atomized fuel within burner tube 11, the cylinder 83 will . , ~- . ' . . ~ : . .
be heated. Cylinder 83 will provide heat to the water jacket 90 and the water will be heated.
Instead of a flame rod 32, a photocell could be used which senses the presence or absence of a flame in the burner tube 11.
A further embodiment of the invention is illustrated in Figure 5 which shows an infrarpi burner generally illustrated at 100 and is useful to increase heating efficiency in many applications. This is accomplished by keeping the flame within the burner tube ill so far as possible so that the flame heats the burner tube 111 to a red or white hot condition. To that end, the nozzle holder 101, nozzle 102, igniter 103 and the fuel and air inlets 104, 110, respectively, remain identical to those illustrated in the Figure 1 embodiment.
Likewise, primary air holes 111 are located in the nozzle holder 101.
However, the configuration of the burner tube lll departs markedly from that of the Figure 1 embodiment.
In the configuration according to Figure 5, it is the intention to keep the flame within the burner tube 111 and a closure member 112 is located at the end of the second portion 121 of the burner tube 111 distant or remote from the nozzle 102. Burner tube 111 has a circumferential configuration and extends axially or longitudinally from an interface 113 between the nozzle 102 and the burner tube 111 to the closure member 1,12. It has two areas, the first area 114 having a solid circumference and the second portion 121 having a plurality of holes 120 extending therethrough to the inside of the burner tube 111. Holes 120 appear on the top one half of the second portion 121 of burner tube 111 or all the way around the second portion 121 of the burner tube 111. To assist the burner . . . , . . . .. r,. ~ %1 '. . . . :\ _.. . .
100 to keep the flame within the burner tube 111 and the outer axial area of the flame near the closure member 112, an inner tube 116 is located within the burner tube 111 principally within the solid or first portion 114 of the burner tube 111.
The inner tube 116 is illustrated in greater detail in Figures 6A and 68. It comprises first and second flame grids 122, 123, respectively, each with a plurality of holes 124 extending axially therethrough. A
central circumferential member 130 extends longitudinally.
Inwardly of each end of the circumferential member 130, ,-.
the flame grids 122, 123, are located.
An orifice 131 is positioned within the member 130. The orifice 131 is tapered as illustrated; that is, it tapers from a first diameter 132 nearest the nozzle 102 to a second diameter 133 which is of a smaller value that the first diameter 132. The orifice 131 is intended to create a low pressure zone which exerts some influence on the flame formation and keeps it nearer the closure member 112 than extending outwardly from it and the burner tube ill. if the flame is retained within the inner tube 116, there is better heat transfer between it and the flame with the result that the burner tube 111 and particularly the second portion 121 of the burner tube 1l1 will be heated to a higher temperature..
Yet a further embodiment of the invention is illustrated in Figure 7. In this embodiment a burner is generally illustrated at 200 with its flame 201 diagrammatically shown. The burner 200 can be of the various configurations including the configuration of Figures 2- 6 but, regardless of the configuration, it is mounted in a heater body or combustion chamber generally shown at 202 which may be positioned and operated in a shelter such as a tent or cabin (not illustrated) to heat the interior.
A chimney 203 is mounted at the outlet of the heater body 202 and is inserted into a joined outer straight collar 204 and a tapered inner collar 210 which is joined to the outer straight collar 204 by weld 211.
Thus, the top 212 of the heater body 202 is flush with the top of outer and inner collars 204, 210, respectively, and facilitates cleaning and handling. Chimney 203 is secured to a greater extent when it is inserted into the circumferential "V" formed between the outer and inner collars 204, 210 and there is little or no possibility of air leakage between the chimney and'the collars 204, 210 which would otherwise be the case when using chimney collars of known configuration.
Yet a further embodiment of the invention is illustrated in Figures 8A, 8B and 8C. In this embodiment, the burner assembly of Figure 1 generally illustrated at 300 is mounted within a heat exchanger generally illustrated at 301. A circulating pump 302 provides for water to be introduced to the heat exchanger 301 through inlet 303 and 'which water exits the heat exchanger through outlet 304 after circulating through the heat exchanger 301 as seen diagrammatically in Figure 8C.
The heat exchanger has a plurality of flutes or hat sections 310 (Figure- 88) located about the circumference of the heat exchanger 301, the flutes 310 having an increased'.surface area which serves to more efficiently pass heat from the burner 300 to the water and which flutes 310 are made from cast aluminum. The lower one half of the flutes 310 are connected to the circumference of the heat exchanger 301 thereby to form a lower passageway 309 confining the water to the passageways on the lower half of the heat exchanger 301 until the leftward end is reached as illustrated in Figure SC. A channel or passageway 311 passes the water at the leftward end of the heat exchanger 301 to the upper passageway 312 which thereby confines the water to pass through the upper half of flutes 310 and out through outlet 304 as described.
The use of the heat exchanger 301 allows applications which require hot water. Such applications are well known and include maintaining water within water jackets of an engine in a heated condition thereby keeping f..., an engine heated when otherwise shut down. The heated water could be used for many other purposes as is well known in the art.
While specific embodiments have been described, such descriptions should be taken as 3.llustrative of the invention only and not as limiting its scope. Many modifications will readily occur to those skilled in the art to which the invention relates and, accordingly, the scope of the invention should be construed in accordance with the accompanying claims.
Following the ignition of the atomized fuel in the burner tube 11 and the increase in temperature of the burner tube 11 to allow the combustion to be self sustaining, the igniter 21 will terminate operation. The flame rod 32 senses the presence of a flame in the burner tube 11 as is known. In the event no flame is present, the flame rod 32 will immediately act to-shut down the burner 10.
The primary air passes radially through the circumferential primary air holes 24 from the atmosphere.
It then passes directly to the burner tube 11 as is illustrated by the arrows in Figure 1. The secondary air passes axially through the secondary air holes 30 on the secondary air injection plate 12 and act to support combustion within the burner tube 11.
The nozzle holder 14 is shown in more detail in Figures 2A and 2B. A hole 62 is machined in the nozzle holder 14 to allow the nozzle 20 (Figure 1) to be held by the nozzle holder 14. The primary air holes 24 are located about the circumference of the nozzle holder 14 and are used to allow primary air to radially enter into the nozzle holder 14 and, thence, to pass directly to the burner tube 11.
A further embodiment of an apparatus with which the burner according to the invention is used is illustrated in Figu'res 4A, 4B and 4C. This embodiment is used, for example, where it is desired to heat an oven such as a stove in a field kitchen as might be used by the military and the like. In this case, the air injection plate 71 will have no secondary holes surrounding the nozzle holder 70 and the burner tube 64 will be located a _ 8 -distance away from the air injection plate 71 as is illustrated. A rectangular or square flame grid 63 faces upwardly and is connected to one end of the burner tube 64. A U-shaped baffle 65 is positioned within the burner tube 64 so that the fuel passes through the baffle 65 on the way to the rectangular grid 63. The baffle 65 has a centrally located pilot hole 66 and a plurality of holes 67 to allow passage of the fuel to the grid 63. The nozzle holder 70 is mounted directly to the injection plate 71 and, upon the tip of the igniter 72 igniting the atomized fuel being ejected from the nozzle 73 under the influence of air being provided through the compressed air line 74 and the liquid fuel being provided through fuel line 80, primary air enters the primary air holes 81 and passes directly to the burner tube 64 to support combustion on flame grid 63. It will be particularly noted that no secondary air holes are provided in the injection plate 71 because the combustion is not taking place within the burner tube 64 but, rather, on the rectangular flame grid 63. However, secondary air intake holes 68, 69 are located in the jacket 76 surrounding the burner tube 64 about the outside circumference of the jacket 76 and the circumference of the end 75 of the jacket 76, respectively.
A further embodiment of the invention is shown in Figure 3 which illustrates several operating components of a hot water heater. The burner according to the invention as illustrated in Figure 1 is inserted directly into the end 85 of the housing generally shown at 82. The burner tube 11 (Figure 1) extends into cylinder 83 and cylinder 83, in turn, extends into the water jacket generally illustrated at 84.
In operation, and upon initial combustion of the atomized fuel within burner tube 11, the cylinder 83 will . , ~- . ' . . ~ : . .
be heated. Cylinder 83 will provide heat to the water jacket 90 and the water will be heated.
Instead of a flame rod 32, a photocell could be used which senses the presence or absence of a flame in the burner tube 11.
A further embodiment of the invention is illustrated in Figure 5 which shows an infrarpi burner generally illustrated at 100 and is useful to increase heating efficiency in many applications. This is accomplished by keeping the flame within the burner tube ill so far as possible so that the flame heats the burner tube 111 to a red or white hot condition. To that end, the nozzle holder 101, nozzle 102, igniter 103 and the fuel and air inlets 104, 110, respectively, remain identical to those illustrated in the Figure 1 embodiment.
Likewise, primary air holes 111 are located in the nozzle holder 101.
However, the configuration of the burner tube lll departs markedly from that of the Figure 1 embodiment.
In the configuration according to Figure 5, it is the intention to keep the flame within the burner tube 111 and a closure member 112 is located at the end of the second portion 121 of the burner tube 111 distant or remote from the nozzle 102. Burner tube 111 has a circumferential configuration and extends axially or longitudinally from an interface 113 between the nozzle 102 and the burner tube 111 to the closure member 1,12. It has two areas, the first area 114 having a solid circumference and the second portion 121 having a plurality of holes 120 extending therethrough to the inside of the burner tube 111. Holes 120 appear on the top one half of the second portion 121 of burner tube 111 or all the way around the second portion 121 of the burner tube 111. To assist the burner . . . , . . . .. r,. ~ %1 '. . . . :\ _.. . .
100 to keep the flame within the burner tube 111 and the outer axial area of the flame near the closure member 112, an inner tube 116 is located within the burner tube 111 principally within the solid or first portion 114 of the burner tube 111.
The inner tube 116 is illustrated in greater detail in Figures 6A and 68. It comprises first and second flame grids 122, 123, respectively, each with a plurality of holes 124 extending axially therethrough. A
central circumferential member 130 extends longitudinally.
Inwardly of each end of the circumferential member 130, ,-.
the flame grids 122, 123, are located.
An orifice 131 is positioned within the member 130. The orifice 131 is tapered as illustrated; that is, it tapers from a first diameter 132 nearest the nozzle 102 to a second diameter 133 which is of a smaller value that the first diameter 132. The orifice 131 is intended to create a low pressure zone which exerts some influence on the flame formation and keeps it nearer the closure member 112 than extending outwardly from it and the burner tube ill. if the flame is retained within the inner tube 116, there is better heat transfer between it and the flame with the result that the burner tube 111 and particularly the second portion 121 of the burner tube 1l1 will be heated to a higher temperature..
Yet a further embodiment of the invention is illustrated in Figure 7. In this embodiment a burner is generally illustrated at 200 with its flame 201 diagrammatically shown. The burner 200 can be of the various configurations including the configuration of Figures 2- 6 but, regardless of the configuration, it is mounted in a heater body or combustion chamber generally shown at 202 which may be positioned and operated in a shelter such as a tent or cabin (not illustrated) to heat the interior.
A chimney 203 is mounted at the outlet of the heater body 202 and is inserted into a joined outer straight collar 204 and a tapered inner collar 210 which is joined to the outer straight collar 204 by weld 211.
Thus, the top 212 of the heater body 202 is flush with the top of outer and inner collars 204, 210, respectively, and facilitates cleaning and handling. Chimney 203 is secured to a greater extent when it is inserted into the circumferential "V" formed between the outer and inner collars 204, 210 and there is little or no possibility of air leakage between the chimney and'the collars 204, 210 which would otherwise be the case when using chimney collars of known configuration.
Yet a further embodiment of the invention is illustrated in Figures 8A, 8B and 8C. In this embodiment, the burner assembly of Figure 1 generally illustrated at 300 is mounted within a heat exchanger generally illustrated at 301. A circulating pump 302 provides for water to be introduced to the heat exchanger 301 through inlet 303 and 'which water exits the heat exchanger through outlet 304 after circulating through the heat exchanger 301 as seen diagrammatically in Figure 8C.
The heat exchanger has a plurality of flutes or hat sections 310 (Figure- 88) located about the circumference of the heat exchanger 301, the flutes 310 having an increased'.surface area which serves to more efficiently pass heat from the burner 300 to the water and which flutes 310 are made from cast aluminum. The lower one half of the flutes 310 are connected to the circumference of the heat exchanger 301 thereby to form a lower passageway 309 confining the water to the passageways on the lower half of the heat exchanger 301 until the leftward end is reached as illustrated in Figure SC. A channel or passageway 311 passes the water at the leftward end of the heat exchanger 301 to the upper passageway 312 which thereby confines the water to pass through the upper half of flutes 310 and out through outlet 304 as described.
The use of the heat exchanger 301 allows applications which require hot water. Such applications are well known and include maintaining water within water jackets of an engine in a heated condition thereby keeping f..., an engine heated when otherwise shut down. The heated water could be used for many other purposes as is well known in the art.
While specific embodiments have been described, such descriptions should be taken as 3.llustrative of the invention only and not as limiting its scope. Many modifications will readily occur to those skilled in the art to which the invention relates and, accordingly, the scope of the invention should be construed in accordance with the accompanying claims.
Claims (2)
PROPERTY OR PRIVILEGE IS CLAIMS ARE DEFINED AS FOLLOWS:
1. A heater body comprising a combustion chamber, a flat, upper surface, an opening to allow mounting of a burner within said combustion chamber and a chimney mount extending downwardly below said flat, upper surface, said chimney mount comprising outer and inner collar members joined together below said flat upper surface, and a chimney operable to be mounted between and in contact with said inner and outer collar members.
2. A heater body as in claim 1 wherein said inner collar tapers downwardly and outwardly to join with said outer collar.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US08/272,819 | 1994-07-11 | ||
US08/272,819 US5527180A (en) | 1993-07-09 | 1994-07-11 | Infrared burner |
CA002153610A CA2153610C (en) | 1994-07-11 | 1995-07-11 | Infrared burner |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA002153610A Division CA2153610C (en) | 1994-07-11 | 1995-07-11 | Infrared burner |
Publications (2)
Publication Number | Publication Date |
---|---|
CA2423551A1 CA2423551A1 (en) | 1996-01-12 |
CA2423551C true CA2423551C (en) | 2008-07-08 |
Family
ID=25678070
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA002423551A Expired - Lifetime CA2423551C (en) | 1994-07-11 | 1995-07-11 | Chimney mount for heater |
Country Status (1)
Country | Link |
---|---|
CA (1) | CA2423551C (en) |
-
1995
- 1995-07-11 CA CA002423551A patent/CA2423551C/en not_active Expired - Lifetime
Also Published As
Publication number | Publication date |
---|---|
CA2423551A1 (en) | 1996-01-12 |
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MKEX | Expiry |
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