US2105309A - Furnace - Google Patents

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US2105309A
US2105309A US89287A US8928736A US2105309A US 2105309 A US2105309 A US 2105309A US 89287 A US89287 A US 89287A US 8928736 A US8928736 A US 8928736A US 2105309 A US2105309 A US 2105309A
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furnace
wall
air
nozzle
sight tube
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US89287A
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Hugh E Carleton
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Foster Wheeler Inc
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Foster Wheeler Inc
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23MCASINGS, LININGS, WALLS OR DOORS SPECIALLY ADAPTED FOR COMBUSTION CHAMBERS, e.g. FIREBRIDGES; DEVICES FOR DEFLECTING AIR, FLAMES OR COMBUSTION PRODUCTS IN COMBUSTION CHAMBERS; SAFETY ARRANGEMENTS SPECIALLY ADAPTED FOR COMBUSTION APPARATUS; DETAILS OF COMBUSTION CHAMBERS, NOT OTHERWISE PROVIDED FOR
    • F23M11/00Safety arrangements
    • F23M11/04Means for supervising combustion, e.g. windows
    • F23M11/042Viewing ports of windows

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  • My invention relates to furnaces, and particularly to an improved means for permitting observation of combustion and internal furnace conditions, and the action of the burning gases on Athe refractory walls of a high temperature furnace chamber and on any tubes or other devices disposed therein. More particularly, my invention vpertains to furnaces irl which the furnace chamber is wholly or partially surrounded by an air duct or air chamber, the pressure in which is higher than that existing in the furnace, and provides an aperture or peephole of speciall design that opens t-o the atmosphere in a boiler room or ring isle, and extends inwardly .therefrom 1 through the air duct andreiractory furnace wall to the furnace, wherebyy a clear vision may be had into the furnace chamber whenever desired, and without the use of any interposed transparent material, such as glass or mica, which has nu- 20.I merous disadvantages. l A
  • advantage is taken of the pressure differential existing between the air duct and the furnace, to create a iiow of air from the air duct of suillclent 25 momentum to oppose any ilow of gases from the furnace, and of suiicient velocity to entrain from outside the air duct, when the peephole is open, some additional air at atmospheric pressure.
  • the mixture is then forced into the furnace through 30 a Venturi nozzle assembly and a diiuser.
  • Fig. 1 isa vertical sectional view of apparatus embodying the invention
  • Fig. 2 is a vertical sectional view, taken on line 2 2 of Fig. 3, illustrating another form of the invention
  • Fig. 3 is an elevation of the outer end of the arrangement shown in Fig. 2 and (ci. las-19o)
  • Fig. 4 is a vertical sectional view, illustrating still another form of the invention.
  • reference 5 character i0 designates the inner refractory 1ining of a furnace chamber having an outer lining il of suitable refractory material
  • I2 and i2 indicate the inner metallic casing walls of an air duct or chamber i3 which may entirely sur- 10 round the furnace or may be disposed on and exteriorly of, one or more walls thereof.
  • the outer wall is formed by heat insulating material designated I0 and outer metallic casing I5. Suitable means are provided to maintain a pressure in the air chamber which is higher than the pressure in the furnace, or that of the surrounding atmosphere.
  • the peephole arrangement provided by this form of the invention includes a taperedl sight 20 tube I3 having an inner end portion I 6' and a laterally extending annular flange at its outer end.
  • the inner end ci' the siglrt tube extends ⁇ into the throat or reduced portion of a nozzle .member 23 of suitable refractory or metal. which g5 is secured by bolts 20 to casing I2, and forms in combination with an enlarged furnace opening 28,
  • Venturi shaped nozzle assembly and diuser which is arranged and adapted to provide the desired volume and velocity of air flow theref through from the air chamber to the furnace, and at the same time to permit a wide range of vision within the furnace when the sight tube coverv plate il hereinafter described, is removed.
  • Cover plate Il is secured to an intermediate portion of a latch it by a pin it, and the latch is hinged at one end by pin 20 on spaced studs 20' extending from the annular flange on the sight tube i8.
  • the other end of the latch I8 is provided with a slot'which receives a swinging bolt 2l secured to d0 said annular ange, and the cover plate il is secured in closed position by a wing nut 2l threaded on the bolt 2 i.
  • the sight tube i8 is supported on the outer wall of the air chamber by means of the annular flange thereon and by bolts y '2t that pass through the flange and the outer wall.
  • wing nut 2l' is loosened.
  • bolt 2l is swung free ci' the latch i8 50A p the outer end of the sight tube to be swungoutcured to heated air will ow outwardly so as to cause injury to the person using the peephole.
  • Fig. 2 'I'he form of the invention shown in Fig. 2 is similar generally to the form illustrated in Fig. 1, excepting for a control valve and the cover for the outer end of the sight tube.
  • Fig. 2 In Fig. 2,
  • lreference character 21 designates a sliding valve for controlling flow through the nozzle member 23 and comprises an annular metallic channel member that has a snug ⁇ sliding fit inthe annular space between sight tube I6 and the outer casing wall.
  • Diametrically opposed eye bolts 28 sealve 21 pass through openings in the flanged end of sight tube i6 and secure the valve to a plug 29 by pins 30 and 3l which pass through the eyes of the bolts 28 and lugs 32 projecting from opposed portions of the plug.
  • a handle 33 is secured to plug 29, in spaced relationship therewith for cooling purposes by bolts 3l which pass through spacing thimbles 35.
  • additional seciuing means are provided for the plug, such as studs and wing nuts 38 which engage oppositely disposed lugs 39 on the plug.
  • Fig. 4 The form of the invention illustrated in Fig. 4 is, in general, similar to the form shown in Fig.
  • the sight tube I8 has an elongated' cylindrical section 40 that extends in a snug sliding it through a supporting and guiding.. member 4l secured in the outer casing wall bysuitable securing means such as the bolts 42 shown.- 'Ihis arrangement makes it mechanically possible. to adjust the position of the conical or taperedD portion I6 of the sight tube with respect to nozzle member 231.
  • the extreme inward or closed position ofthe sight tube is indicated in dotted lines in which position, ow through the nozzle member from the e air duct to the furnace is entirely cut off.
  • nozzle member may be constructed and arranged so that it will extendentirely through the furnace wall, rather than extending only partially therethrough as illustrated in the several views in the drawings.
  • any one from the outside may view through a hole in the furnace wall, in which there is neither glass nor any other transparent substance, the interior of the furnace, wherein a pressure exists higher than that of the atmosphere and less than that of an air chamber or duct, without subjecting the viewer to a blast of hot gas from the furnaceor an undue blast of air from the air chamber.
  • the arrangement -and proportions of the several parts of the peephole device is such that when it is in' use, neither the blast of air from the air chamber to the furnace is of undue proportions nor is the flow o f air from the air chamber to the atmosphere outside such as to inconvenience or injure the observer.
  • the arrangement,fproportions, and relative disposition of the several parts of the peephole device are such as to provide a sufficient momentum for the air flowing through the annular space between the sight tube and the nozzle member so that thismomentum opposes and exceeds the pressure existing in the furnace. In this manner, ow of air is assured from the air chamber to the furnace rather than from the air chamber or furnace to the surrounding atmosphere.
  • the volume or flow area of this annular space may .be determined and fixed at the time the furnace and setting are designed, or it may be adjusted by some means such as shown in Figs. 2. 3 and 4 of the drawings, to obtain the desired flow area therefor to suit the relative pressures existing in the air chamber, theboiler room or 'ring isle and the furnace.
  • means for observing combustion and internal furnace conditions comprising a nozzle in a wall of the furnace, and a sight tube extending through the wall of the air duct l and having its inner end so disposed with respect Yto the nozzle that fluid flow through the latter causes air iiow inwardly through the tube.
  • means for observing combustion and internal furnace conditions comprising a nozzle in a wall of the furnace, and a sight tube having a tapered portion extending through the wall of the air duct and having its inner end so disposed with respect. to the nozzle that uid flow through the latter causes air flow inwardly through the tube.
  • means for observing "pombustion and internal furnace conditions comA prising a. flared aperture in a refractory wall of the furnace, a. nozzle in axial alignment withsa'id 75 aperture and extending into the air chamber, and a sight tube having a tapered portion supo ported by the Wall 'of' the air chamber and so disposed with respect to the nozzle that uid ilow ⁇ through the latter causes air flow inwardly through the tube.
  • a peephole comprising an inwardly flared aperture in the wall of the furnace, a nozzle extending outwardly into the air chamber and in axial alignment with said flared aperture, a sight tube extending through the wall ⁇ of the air chamber and having its inner end s'o disposed with respect to the nozzle that iiuid flow through the latter causes air flow inwardly through the tube, and means for closing the outer end of the sight tube.
  • a peephole comprising a flared aperture in the furnace'wall, a nozzle member supported by said furnace wall and in axial alignment with the flared aperture therein, a sight tube having a tapered portion extending from the wall of the air chamber to the throat of f the nozzle member, an annular space between the sight tube and said nozzlemember, and valve
  • means for observing internal combustion conditions in the furnace comprising a sight tube having a laterally extending annular flange secured to the wall of the air chamber, and a tapered portion extending inwardly through the air chamber to the throat of a nozzle member supported by the furnace wall and inaxial alignment with a flared aperture in said furnace wall, closure means for'said sight tube, and a valve comprising an annular member arranged for operation with said closure means for controlling the flow of air from the air chamber through said nozzle member.
  • a peephole comprising a flared aperture in the furnace wall, a nozzle member supported by said furnace wall and in axial alignment with the flared aperture therein,
  • a peephole comprising a flared aperture in the furnace wall, a nozzle member supported by said furnace Wall and in axial alignment with the flared aperture therein, a sight tube having a tapered portion extending inwardly and in axial alignment with the nozzle member, and a cylindrical portion extending outwardly through, and movably mounted in the wall of the air chamber, the arrangement being such that movement of the sight tube will control the flow of air from the air chamber through said nozzle member.
  • ai furnace having an air chamber outside at least one wall thereof, a peephole comprising in combination, a flared aperture in the furnace Wall, a nozzle member supported by said furnace wall and in axial alignment with the flared aperture therein, and a sight tube slidably supported on the wall of the air chamber having a tapered portion extending into the throat of said nozzle member and cooperating therewith to provide an annular space between the tapered portion of the sight tube and said nozzle member,
  • means for observing combustion and internal furnace conditions comprising a nozzle in a wall of the furnace, a sight tube extending through the wall of the air duct and having its inner end so disposed with respect to the nozzle that uid flow through the latter causes air flow inwardly through the tube, and valve means fory controlling the flow of air from the air duct through the nozzle.
  • means for observing combustion and internal furnace conditions comprising a nozzle in a wall of the furnace, a sight tube extending through the wall of the air duct and having its inner end so disposed with respect to the nozzle that fluid ow through the latter causes air flow inwardly through the tube, means for closing the outer end of the sight tube, and valve means for controlling the flow of air from the air duct through the nozzle.
  • nozzle in a wall of the furnace, a sight tube extending through the wall of the air duct and having its inner end so disposed with respect to the nozzle that fluid flow through the latter causes air flow inwardly through the tube, a cover plate for closing the outer end of the sight tube, and means for securing the cover plate in closed position.
  • means for observing combustion and internal furnace conditions comprising a nozzle in a wall of the furnace, a sight tube extending throughthe wall of the air duct and having its inner end so disposed with respect to the nozzle that fluid flow through the latter causes air ow inwardly ⁇ through the tube,
  • closure means for ⁇ the sight tube, and a valve arranged for operation with'said closure means to cut oi the flow of air from the air chamber through the nozzle when the sight tube is closed.
  • means for observing combustion and internal furnace conditions com- prising a nozzle in a wall of the furnace, a sight tube extending through the wall of the air'duct and having'itseinner end so disposedwiith respect to the nozzle that fluid flow through the latter causes air ow inwardly through the tube, closure means for the sight tube, and a valve arranged for operation with said closure means to simultaneously cut off the ow of air from the air chamber through the nozzle and to close the y sight tube.
  • means for observing combustion and internal furnace conditions comprising a nozzle in a wall of the furnace, a. sight tube extending through the wall of the air duct and having its inner end so disposed with respect to the nozzle that uid ow through the latter causes air fiow inwardly through the tube,
  • closure means for the sight tube and a valve arranged for operation with said closure means to Y aioasoa' cut'ol the ow of air from the air chamber through the nozzle when the sight tube is closed, the arrangement being such that the closure means can be opened only when there is a ow of air from the air chamber through the nozzle.
  • means for observing combustion and internal furnace conditions comprising a. nozzle in a wall of the furnace, and ⁇ a sight tube extending through the Wall of the air duct and having its inner end so disposed with respect to the nozzle that fluid flow through the latter causes air flow inwardly through the tube, said sight tube being axially movable and having a portion cooperating with the nozzle to control the flow of air through the nozzle.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Waste-Gas Treatment And Other Accessory Devices For Furnaces (AREA)

Description

Jan. 11, 1938. H. E. cARLEToN FURNACE Filed July 7, 1936 2 Sheets-Sheet 2 INVEN'roR HUGH 5634)?67/1/ ATTCRN Y Patente Jan. il, E293 Hugh E. Carleton, Carteret, N. J., gnor to Foster caler Corporation, New York, N. Y., a corporation of NewYork Application `lilly '3, 1936, Serial No. 89,287
My invention relates to furnaces, and particularly to an improved means for permitting observation of combustion and internal furnace conditions, and the action of the burning gases on Athe refractory walls of a high temperature furnace chamber and on any tubes or other devices disposed therein. More particularly, my invention vpertains to furnaces irl which the furnace chamber is wholly or partially surrounded by an air duct or air chamber, the pressure in which is higher than that existing in the furnace, and provides an aperture or peephole of speciall design that opens t-o the atmosphere in a boiler room or ring isle, and extends inwardly .therefrom 1 through the air duct andreiractory furnace wall to the furnace, wherebyy a clear vision may be had into the furnace chamber whenever desired, and without the use of any interposed transparent material, such as glass or mica, which has nu- 20.I merous disadvantages. l A
In attaining the objects of my invention, advantage is taken of the pressure differential existing between the air duct and the furnace, to create a iiow of air from the air duct of suillclent 25 momentum to oppose any ilow of gases from the furnace, and of suiicient velocity to entrain from outside the air duct, when the peephole is open, some additional air at atmospheric pressure. The mixture is then forced into the furnace through 30 a Venturi nozzle assembly and a diiuser.
In the practice of my invention, neither hot gases from the furnace, nor any excessive amount of the preheated aiafrom the air duct, the temperature of which may be around 300 or 400 F.,
35 will enter the boiler room or firing isle or other enclosure wherein the furnace is disposed during.
periods of inspection. Any one of the operating personnel is enabled to inspect thoroughly, and without the danger of injury from a blast of hot 40 air or furnace gases, the inner walls of the fur-- nace and the prevailing combustion conditions whenever occasion demands. y
For a better understanding of the particular features that characterize my invention, refer- 45 ence may be had to the following description,
considered in connection with the accoming drawings, forming a. part thereof and in which:
Fig. 1 isa vertical sectional view of apparatus embodying the invention;
Fig. 2 is a vertical sectional view, taken on line 2 2 of Fig. 3, illustrating another form of the invention;
Fig. 3 is an elevation of the outer end of the arrangement shown in Fig. 2 and (ci. las-19o) Fig. 4 is a vertical sectional view, illustrating still another form of the invention.
Like reference characters refer to like parts throughout the several views.
Referring to Fig. 1 of the drawings, reference 5 character i0 designates the inner refractory 1ining of a furnace chamber having an outer lining il of suitable refractory material, while I2 and i2 indicate the inner metallic casing walls of an air duct or chamber i3 which may entirely sur- 10 round the furnace or may be disposed on and exteriorly of, one or more walls thereof. The outer wall is formed by heat insulating material designated I0 and outer metallic casing I5. Suitable means are provided to maintain a pressure in the air chamber which is higher than the pressure in the furnace, or that of the surrounding atmosphere.
The peephole arrangement provided by this form of the invention includes a taperedl sight 20 tube I3 having an inner end portion I 6' and a laterally extending annular flange at its outer end. The inner end ci' the siglrt tube extends `into the throat or reduced portion of a nozzle .member 23 of suitable refractory or metal. which g5 is secured by bolts 20 to casing I2, and forms in combination with an enlarged furnace opening 28,
-a Venturi shaped nozzle assembly and diuser which is arranged and adapted to provide the desired volume and velocity of air flow theref through from the air chamber to the furnace, and at the same time to permit a wide range of vision within the furnace when the sight tube coverv plate il hereinafter described, is removed. Cover plate Il is secured to an intermediate portion of a latch it by a pin it, and the latch is hinged at one end by pin 20 on spaced studs 20' extending from the annular flange on the sight tube i8. The other end of the latch I8 is provided with a slot'which receives a swinging bolt 2l secured to d0 said annular ange, and the cover plate il is secured in closed position by a wing nut 2l threaded on the bolt 2 i. The sight tube i8 is supported on the outer wall of the air chamber by means of the annular flange thereon and by bolts y '2t that pass through the flange and the outer wall. In. operation, when it is desired to use the peep- `hole assembly illustrated in Fig. 1, wing nut 2l' is loosened. bolt 2l is swung free ci' the latch i8 50A p the outer end of the sight tube to be swungoutcured to heated air will ow outwardly so as to cause injury to the person using the peephole.
'I'he form of the invention shown in Fig. 2 is similar generally to the form illustrated in Fig. 1, excepting for a control valve and the cover for the outer end of the sight tube. In Fig. 2,
lreference character 21 designates a sliding valve for controlling flow through the nozzle member 23 and comprises an annular metallic channel member that has a snug `sliding fit inthe annular space between sight tube I6 and the outer casing wall. Diametrically opposed eye bolts 28 sealve 21, pass through openings in the flanged end of sight tube i6 and secure the valve to a plug 29 by pins 30 and 3l which pass through the eyes of the bolts 28 and lugs 32 projecting from opposed portions of the plug. A handle 33 is secured to plug 29, in spaced relationship therewith for cooling purposes by bolts 3l which pass through spacing thimbles 35. With this arrangement, it will be apparent that the valve 21 may be moved in a longitudinal direction, and
thus 'control the volume of air flow from the air spectively. To prevent leakage resulting from the pressure of the furnace gases on plug 219, when the ow of preheated air through nozzle 23 is cut oi, additional seciuing means are provided for the plug, such as studs and wing nuts 38 which engage oppositely disposed lugs 39 on the plug.
With this embodiment of my invention, when the peephole is not in use and when the valve 21 is moved inwardly to closed position against thenozzle member, there is no possibility of excess air from the air duct entering the furnace'. When the peephole is to be used the valve must rst be moved outwardly far enough to assure a positive iow of air to the furnace through the nozzle member and to permit the plug 29 closing wardly about pin 30 as a pivot. Before the plug and valve are moved, the wing/nuts must, of course, be removed from engagement with lugs 39 on the plug. Pin 3| is then removed, after which the plug isswung outwardly to open the sight tube.
The form of the invention illustrated in Fig. 4 is, in general, similar to the form shown in Fig.
. 1, excepting that the sight tube is adjustably supported to provide a control for the flow of air from the air duct into the furnace through the nozzle member. In Fig. 4, the sight tube I8 has an elongated' cylindrical section 40 that extends in a snug sliding it through a supporting and guiding.. member 4l secured in the outer casing wall bysuitable securing means such as the bolts 42 shown.- 'Ihis arrangement makes it mechanically possible. to adjust the position of the conical or taperedD portion I6 of the sight tube with respect to nozzle member 231. The extreme inward or closed position ofthe sight tube is indicated in dotted lines in which position, ow through the nozzle member from the e air duct to the furnace is entirely cut off. It is vobvious that by thus moving the sight tube axially one way or the other, the volume of air acl-- mitted to the furnacefrom the air duct may be controlled within all limits from zero to maximum for the arrangement. Otherwise the apparatus operates in substantially the same manner as in the form of apparatus shown in Fig. 1.
It will be understood that the nozzle member may be constructed and arranged so that it will extendentirely through the furnace wall, rather than extending only partially therethrough as illustrated in the several views in the drawings.
It will thus be perceived that the invention.
provides means whereby any one from the outside may view through a hole in the furnace wall, in which there is neither glass nor any other transparent substance, the interior of the furnace, wherein a pressure exists higher than that of the atmosphere and less than that of an air chamber or duct, without subjecting the viewer to a blast of hot gas from the furnaceor an undue blast of air from the air chamber. The arrangement -and proportions of the several parts of the peephole device is such that when it is in' use, neither the blast of air from the air chamber to the furnace is of undue proportions nor is the flow o f air from the air chamber to the atmosphere outside such as to inconvenience or injure the observer. In other Words, the arrangement,fproportions, and relative disposition of the several parts of the peephole device are such as to provide a sufficient momentum for the air flowing through the annular space between the sight tube and the nozzle member so that thismomentum opposes and exceeds the pressure existing in the furnace. In this manner, ow of air is assured from the air chamber to the furnace rather than from the air chamber or furnace to the surrounding atmosphere. The volume or flow area of this annular space may .be determined and fixed at the time the furnace and setting are designed, or it may be adjusted by some means such as shown in Figs. 2. 3 and 4 of the drawings, to obtain the desired flow area therefor to suit the relative pressures existing in the air chamber, theboiler room or 'ring isle and the furnace.
Although the embodiments of my invention herein disclosed are preferred forms, it is to be understood that changes may be made in the 'forms and structure without departing from the principles of the invention, which is not to be limited except by the scope of the appended claims.
What I claim is:
1. In a furnace having an air duct outside at least one wall thereof, means for observing combustion and internal furnace conditions comprising a nozzle in a wall of the furnace, and a sight tube extending through the wall of the air duct l and having its inner end so disposed with respect Yto the nozzle that fluid flow through the latter causes air iiow inwardly through the tube.
2. In a Vfurnace having an air duct outside at least one wall thereof, means for observing combustion and internal furnace conditions comprising a nozzle in a wall of the furnace, and a sight tube having a tapered portion extending through the wall of the air duct and having its inner end so disposed with respect. to the nozzle that uid flow through the latter causes air flow inwardly through the tube.
3. In a furnace having an air chamber outside at least one wall thereof, means for observing "pombustion and internal furnace conditions comA prising a. flared aperture in a refractory wall of the furnace, a. nozzle in axial alignment withsa'id 75 aperture and extending into the air chamber, and a sight tube having a tapered portion supo ported by the Wall 'of' the air chamber and so disposed with respect to the nozzle that uid ilow` through the latter causes air flow inwardly through the tube.
4. In a furnace having an air chamber outside lat least one wall thereof, 4means for observing combustion and internal furnace conditions comprising a flared aperture in a refractorywall of .the furnac a nozzle in axial alignment with said aperture a d extending into the air chamber, and a sight tube supported by the wall of the air chamber and so disposed with respect to the nozzle that fluid flow through the latter causes air flow inwardly through the tube.
5. In a furnace having an air chamber outside at least one wall thereof, a peephole comprising an inwardly flared aperture in the wall of the furnace, a nozzle extending outwardly into the air chamber and in axial alignment with said flared aperture, a sight tube extending through the wall\of the air chamber and having its inner end s'o disposed with respect to the nozzle that iiuid flow through the latter causes air flow inwardly through the tube, and means for closing the outer end of the sight tube.
6. In a furnace having an air chamber outside at least one wall thereof, a peephole comprising a flared aperture in the furnace'wall, a nozzle member supported by said furnace wall and in axial alignment with the flared aperture therein, a sight tube having a tapered portion extending from the wall of the air chamber to the throat of f the nozzle member, an annular space between the sight tube and said nozzlemember, and valve Aa sight tube having a tapered portion extending from the wall of the air chamber to the throat of the nozzle member, an annular space between the sight tube and said nozzle member, and valve means comprising an annular channel member for controlling the'ow of air through said annular space.
8. In a furnace having an air chamber outside at least one wall thereof, means for observing internal combustion conditions in the furnace comprising a sight tube having a laterally extending annular flange secured to the wall of the air chamber, and a tapered portion extending inwardly through the air chamber to the throat of a nozzle member supported by the furnace wall and inaxial alignment with a flared aperture in said furnace wall, closure means for'said sight tube, and a valve comprising an annular member arranged for operation with said closure means for controlling the flow of air from the air chamber through said nozzle member.
9. In a furnace having an air chamber outside at least one Wall thereof, a peephole comprising a flared aperture in the furnace wall, a nozzle member supported by said furnace wall and in axial alignment with the flared aperture therein,
` wardly through the wall of the air chamber and movably mounted thereon for axial movement.
. 10. In a furnace havingan air chamber outside` at least one wall thereof, a peephole comprising a flared aperture in the furnace wall, a nozzle member supported by said furnace Wall and in axial alignment with the flared aperture therein, a sight tube having a tapered portion extending inwardly and in axial alignment with the nozzle member, and a cylindrical portion extending outwardly through, and movably mounted in the wall of the air chamber, the arrangement being such that movement of the sight tube will control the flow of air from the air chamber through said nozzle member.
l1. In ai, furnace having an air chamber outside at least one wall thereof, a peephole comprising in combination, a flared aperture in the furnace Wall, a nozzle member supported by said furnace wall and in axial alignment with the flared aperture therein, and a sight tube slidably supported on the wall of the air chamber having a tapered portion extending into the throat of said nozzle member and cooperating therewith to provide an annular space between the tapered portion of the sight tube and said nozzle member,
the arrangement being such that axial movement of the sight tube will vary the flow area of said annular space. v
12.' In a furnace having an air duct outside at least one Wall thereof, means for observing combustion and internal furnace conditions comprising a nozzle in a wall of the furnace, a sight tube extending through the wall of the air duct and having its inner end so disposed with respect to the nozzle that uid flow through the latter causes air flow inwardly through the tube, and valve means fory controlling the flow of air from the air duct through the nozzle.
13..In a furnace having an air duct outside at least one wall thereof, means for observing combustion and internal furnace conditions comprising a nozzle in a wall of the furnace, a sight tube extending through the wall of the air duct and having its inner end so disposed with respect to the nozzle that fluid ow through the latter causes air flow inwardly through the tube, means for closing the outer end of the sight tube, and valve means for controlling the flow of air from the air duct through the nozzle.
' prisinga nozzle in a wall of the furnace, a sight tube extending through the wall of the air duct and having its inner end so disposed with respect to the nozzle that fluid flow through the latter causes air flow inwardly through the tube, a cover plate for closing the outer end of the sight tube, and means for securing the cover plate in closed position.
l5. In a furnace having an air duct outside at least one wall thereof, means for observing combustion and internal furnace conditions comprising a nozzle in a wall of the furnace, a sight tube extending throughthe wall of the air duct and having its inner end so disposed with respect to the nozzle that fluid flow through the latter causes air ow inwardly`through the tube,
closure means for`the sight tube, and a valve arranged for operation with'said closure means to cut oi the flow of air from the air chamber through the nozzle when the sight tube is closed.
16. In a furnace having an air duct outside at least one 'wall thereof, means for observing combustion and internal furnace conditions com- ;prising a nozzle in a wall of the furnace, a sight tube extending through the wall of the air'duct and having'itseinner end so disposedwiith respect to the nozzle that fluid flow through the latter causes air ow inwardly through the tube, closure means for the sight tube, and a valve arranged for operation with said closure means to simultaneously cut off the ow of air from the air chamber through the nozzle and to close the y sight tube.
17. In a furnace having an air duct outside at least one wall thereof, means for observing combustion and internal furnace conditions; comprising a nozzle in a wall of the furnace, a. sight tube extending through the wall of the air duct and having its inner end so disposed with respect to the nozzle that uid ow through the latter causes air fiow inwardly through the tube,
closure means for the sight tube, and a valve arranged for operation with said closure means to Y aioasoa' cut'ol the ow of air from the air chamber through the nozzle when the sight tube is closed, the arrangement being such that the closure means can be opened only when there is a ow of air from the air chamber through the nozzle.
18. In a furnace having an air duct outside at least one wall thereof, means for observing combustion and internal furnace conditions comprising a. nozzle in a wall of the furnace, and `a sight tube extending through the Wall of the air duct and having its inner end so disposed with respect to the nozzle that fluid flow through the latter causes air flow inwardly through the tube, said sight tube being axially movable and having a portion cooperating with the nozzle to control the flow of air through the nozzle.
HUGH E. CARLETON.
US89287A 1936-07-07 1936-07-07 Furnace Expired - Lifetime US2105309A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE908776C (en) * 1940-09-06 1954-04-08 Hermann Roemer Suspended ceilings for steam boiler systems
US2920585A (en) * 1955-12-30 1960-01-12 Babcock & Wilcox Co Observation or lance door
US3110274A (en) * 1960-12-29 1963-11-12 Combustion Eng Observation door for pressurized furnaces
FR2220754A1 (en) * 1973-03-05 1974-10-04 Goetaverken Angteknik Ab
US3859041A (en) * 1974-01-21 1975-01-07 Ney Co J M Muffle furnace with sighting assembly

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE908776C (en) * 1940-09-06 1954-04-08 Hermann Roemer Suspended ceilings for steam boiler systems
US2920585A (en) * 1955-12-30 1960-01-12 Babcock & Wilcox Co Observation or lance door
US3110274A (en) * 1960-12-29 1963-11-12 Combustion Eng Observation door for pressurized furnaces
FR2220754A1 (en) * 1973-03-05 1974-10-04 Goetaverken Angteknik Ab
US3859041A (en) * 1974-01-21 1975-01-07 Ney Co J M Muffle furnace with sighting assembly

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