US283537A - Apparatus for heating by exhaust-steam - Google Patents
Apparatus for heating by exhaust-steam Download PDFInfo
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- US283537A US283537A US283537DA US283537A US 283537 A US283537 A US 283537A US 283537D A US283537D A US 283537DA US 283537 A US283537 A US 283537A
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- Prior art keywords
- steam
- exhaust
- heating
- engine
- pipe
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- 238000010438 heat treatment Methods 0.000 title description 34
- 239000000203 mixture Substances 0.000 description 10
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 6
- 230000001105 regulatory Effects 0.000 description 4
- 241001527902 Aratus Species 0.000 description 2
- 230000005494 condensation Effects 0.000 description 2
- 238000009833 condensation Methods 0.000 description 2
- 238000010276 construction Methods 0.000 description 2
- 230000001276 controlling effect Effects 0.000 description 2
- 238000007599 discharging Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 238000002347 injection Methods 0.000 description 2
- 239000007924 injection Substances 0.000 description 2
- 230000000414 obstructive Effects 0.000 description 2
- 238000004326 stimulated echo acquisition mode for imaging Methods 0.000 description 2
- 238000010626 work up procedure Methods 0.000 description 2
Images
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D1/00—Steam central heating systems
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T137/00—Fluid handling
- Y10T137/6851—With casing, support, protector or static constructional installations
- Y10T137/6966—Static constructional installations
- Y10T137/6969—Buildings
Definitions
- a pressure of from five (5)to ten (10) pounds is required in ordinary steam-heating systems of pipes and radiators to maintain asufiicientlyeffective circulation of the steam, and it is obvious that when this pressure is allowed to react on the piston of a steam-engine it reduces by a large percentage the mean effective pressure and motor efficiency of a steamengine, either when working under a moder ate pressure with a late cut-off, higher pressure and an earlier cut-oft, or when steam is allowed to follow the piston through the entire stroke.
- the loss of eiticiency from this cause is, however, largest in cut-off engines, and it is the object of my invention. to obviate this loss.
- the invention consists, partly,in the combination, with the exhaustpipe of a steam-engine which delivers steam into a system of heating-pipes, radiators, &c., of a steam inspirator or injector attached to andin connection with the exhaustpipe of the engine, between the exhaust-port of the engine and the boiler A to the engine H.
- Figure 1 in the drawings represents a partial section and partial elevation of a boiler
- A represents a boiler, with the usual attachments, including feed-pump B, which takes its water from a receptacle, 0, which receives from the heating system of pipes, &c., the entire water of condensation, to be returned by the pump B to the boiler A.
- feed-pump B which takes its water from a receptacle, 0, which receives from the heating system of pipes, &c., the entire water of condensation, to be returned by the pump B to the boiler A.
- D D D are radiators connected by pipes d d d with the exhaust-pipe E E, andwith the receptacle C, and with the pump B, and it is provided at F with a valve for discharging the contents of the receptacle 0 and draining the pump when necessary.
- Gr is the induction-pipe leading from the The induction-pipe G and the branches E E of the exhaust-pipe are each provided with a gage, (represented at J J J for denoting the respective pressures in said pipes.
- the exhaust-pipe is also provided at any convenient part with a draincock, K.
- a weighted lever-valve, L allows steam to escape from the branch E of the exhaust-pipc whenever the pressure rises therein above the proper point, and this escape gives warningto the attendant that the apparatus is not working properly, this branch of the exhaust-pipe being the part from which the pressure is removed when the parts of the apparatus yet to be described are in working or- 9 der.
- the branches E and E of the exhaustpipe are connected, preferably at a right angle, with each other, and at their junction is placed an inspirator or injector, M. (Shown partly in section in Fig. 2.)
- the nozzle N of this inspirator or injector is inserted into the branch E of the exhaust-pipe in such manner as to deliver its stream toward the system of pipes, radiators, &c., which constitutes the heating system, and in a direction away from.
- Live steam is conveyed to the inspirator or injector M by a branch pipe, 0 0, from the induction-pipe G.
- a drain cook or valve is attached to O O at P to keep this pipe free from accumulated water or other obstruction.
- an automatic cock or valve, Q At any convenient part of the pipe 0 0 there is placed an automatic cock or valve, Q, for regulating the flow of live steam to the inspirator.
- Various means may be employed to cause this valve to act automatically, and I do not confine myself to any particular one.
- an ordinary diaphragmregulator, R for controlling the valve Q.
- Steam from any point between the inspirator and the radiators is brought under the diaphragm in R by connecting the lower part of It with a pipe, S, which may also lead to and connect with the pressure-gage attached to E.
- the diaphragm is connected with the valve 0 by link and lever mechanism 1 t t in the ordinary well-known manner of constructing such mechanism, and when the pressure falls in E such mechanism opens the valve Q farther to increase the jet of steam through M into said pipe, and vice versa.
- the combination in asystem for heating by exhaust-steam from a steam-engine, of an exhaust-pipe delivering steam from the engine to and into theheating system, a steam injector or inspirator for removing pressure from the exhaust-pipe betweenthe injector and the engine and accumulating or maintaining press- .ure in said system, and a relief and alarm valve for permitting'escape of steam from the part of the exhaust-pipe between the inspirator or injector and the engine, substantially as and for the purpose specified.
Description
(N0 Medal.)
F. TUDOR. APPARATUS FOR HEATING BY- EXHAUST STEAM. No. 283,537.
Patented Aug. 2
h zfnesses UNITED STATES PATENT OFFICE run'nnmo Tenor, or nosron, MAssAonrsnirTs.
,APPARATUS FOR HEATING BY EXHAUST-STEAM.
SPECIFICATION forming part of Letters Ifatent No. 283,537, dated August 21, 1883,
Application filed Octoberli, 1852. (No model.)
Boston, in the county of Suffolk and State of Massachusetts, have invented an Improvement in Apparatus for Heating by Exhaust-Steam;
and I do hereby declare the following to be a full, clear, and exact description of the same, reference beinghad to the accompanying drawings, forming part of this specification.
I am aware that sundry attempts have been made to utilize exhaust-steam for motive power and to remove back-pressure from the exhaustside of the pistons of steam-engines. My invention, however, relates to heating apparatus supplied by exhaust-steam fromthe steamengine, which exhaust requires to be delivered into the heating system under some positive pressure, and this pressure, in such ap )aratus as heretofore organized, reacts upon the engine-piston, and thus subjects it to considerable resistance or back pressure, which greatly detracts from the full power of theengine; and I am not aware that any attempt has been heretofore made to relieve the cuginc of such baclnpressure and yet maintain an eft'ective pressure in the system of heaters by. means such as I here describe. A pressure of from five (5)to ten (10) pounds is required in ordinary steam-heating systems of pipes and radiators to maintain asufiicientlyeffective circulation of the steam, and it is obvious that when this pressure is allowed to react on the piston of a steam-engine it reduces by a large percentage the mean effective pressure and motor efficiency of a steamengine, either when working under a moder ate pressure with a late cut-off, higher pressure and an earlier cut-oft, or when steam is allowed to follow the piston through the entire stroke. The loss of eiticiency from this cause is, however, largest in cut-off engines, and it is the object of my invention. to obviate this loss.
The invention consists, partly,in the combination, with the exhaustpipe of a steam-engine which delivers steam into a system of heating-pipes, radiators, &c., of a steam inspirator or injector attached to andin connection with the exhaustpipe of the engine, between the exhaust-port of the engine and the boiler A to the engine H.
principal part of the system of heating-pipes, radiators, &c., which inspirator or injector delivers a j ct of live steam from the boiler or steanrpipe into the exhaust-pipe in a direction toward such system, and by its eductive action reduces the pressure between it and such cxhaustport and maintains a pressure in the heating system into which it discharges. The invention also consists in certain details of arrangement and construction herein set forth.
Figure 1 in the drawings represents a partial section and partial elevation of a boiler,
engine, and their attachments, and a system of pipes, radiators, &c., with their attachments, constructed to carry out and illustrate my invention. Figs, 2 and 3 represent details.
A represents a boiler, with the usual attachments, including feed-pump B, which takes its water from a receptacle, 0, which receives from the heating system of pipes, &c., the entire water of condensation, to be returned by the pump B to the boiler A.
D D D are radiators connected by pipes d d d with the exhaust-pipe E E, andwith the receptacle C, and with the pump B, and it is provided at F with a valve for discharging the contents of the receptacle 0 and draining the pump when necessary.
Gr is the induction-pipe leading from the The induction-pipe G and the branches E E of the exhaust-pipe are each provided with a gage, (represented at J J J for denoting the respective pressures in said pipes. The exhaust-pipe is also provided at any convenient part with a draincock, K. A weighted lever-valve, L, allows steam to escape from the branch E of the exhaust-pipc whenever the pressure rises therein above the proper point, and this escape gives warningto the attendant that the apparatus is not working properly, this branch of the exhaust-pipe being the part from which the pressure is removed when the parts of the apparatus yet to be described are in working or- 9 der. The branches E and E of the exhaustpipe are connected, preferably at a right angle, with each other, and at their junction is placed an inspirator or injector, M. (Shown partly in section in Fig. 2.) The nozzle N of this inspirator or injector is inserted into the branch E of the exhaust-pipe in such manner as to deliver its stream toward the system of pipes, radiators, &c., which constitutes the heating system, and in a direction away from.
the exhaust-port of the steam-engine.
Live steam is conveyed to the inspirator or injector M by a branch pipe, 0 0, from the induction-pipe G. A drain cook or valve is attached to O O at P to keep this pipe free from accumulated water or other obstruction. At any convenient part of the pipe 0 0 there is placed an automatic cock or valve, Q, for regulating the flow of live steam to the inspirator. Various means may be employed to cause this valve to act automatically, and I do not confine myself to any particular one.
In the example of my improvement shown in the drawingsIuse an ordinary diaphragmregulator, R, for controlling the valve Q. Steam from any point between the inspirator and the radiators is brought under the diaphragm in R by connecting the lower part of It with a pipe, S, which may also lead to and connect with the pressure-gage attached to E. The diaphragm is connected with the valve 0 by link and lever mechanism 1 t t in the ordinary well-known manner of constructing such mechanism, and when the pressure falls in E such mechanism opens the valve Q farther to increase the jet of steam through M into said pipe, and vice versa.
It may now be seen that by the means described, when the engine is in action and the steam-jet m is emitted at the proper force, the exhaust-steam will be rapidly edueted from the engine by the powerful eductive action of the steam-jet, and the mixture of this exhaust from the engine and the live steam from the jet will be forcibly injected into the system of heating-pipes and radiators. In this way an effective pressuresay five pounds per square inch, or more-will be maintained in the heating system, and at the same time all back-pressure will be removed. from the exhaust-pipe E, thus greatly increasing the efficiency of the engine and enabling it to work up to its full power. Not only will the steamjet thus remove the back-pressure from the exhaust of the engine, but, in addition to this, it will in most cases actually form a vacuum or partial vacuum in the eXhaust-pipe, which will greatly assist the working of the engine and increase its power in a positive manner in proportion to the degree of vacuum effected; hence, while the power of theengine is increased both in a negative and positive manner by this improvement and a system of heaters is maintained by the same means, yet the amountof steam used to sustain the jet need be little or no greater than that used through the engine when the exhaust is directly delivered under pressure into the heating system, and hence, while the consumption of steam is the same, the power of the engine is greatly increased, and the heating effect in the heating system is also increased, for, as a large portion of the steam forced into the heat: ing system is live steam, it thus contains much more heat than would be the case if it were all at first passed through the engine, where its expansionwould remove a great portion of its heat, so that by these means a great improvement is effected, both in the working of the engine and in the action of the heaters, without increased cost.
Vhat I claim is- 1. In a heating system for using exhauststeam for heating purposes, the combination, with the exharistpipe of the steam-engine and.
a system of heating-pipes, radiators, 850., sup
plied with steam from the exhaust, of a steam inspirator or injector placed in relation with the exhaust-pipes, heating-pipes, radiators, &c., as set forth, and operating substantially as and for the purpose herein described.
2. The combination, in asteam-heating system, of an exhaust-pipe, an inspirator or injector, a system of pipes, radiators, &c., and an automatic valvefor regulating the injection of steam through said inspirator, substantially as and for the purpose specified.
The combination, in asystem for heating by exhaust-steam from a steam-engine, of an exhaust-pipe delivering steam from the engine to and into theheating system, a steam injector or inspirator for removing pressure from the exhaust-pipe betweenthe injector and the engine and accumulating or maintaining press- .ure in said system, and a relief and alarm valve for permitting'escape of steam from the part of the exhaust-pipe between the inspirator or injector and the engine, substantially as and for the purpose specified.
EREDERIC TUDOR. XVitnesses ROBERT JACKSON, JNo. E. GAVIN.
Publications (1)
Publication Number | Publication Date |
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US283537A true US283537A (en) | 1883-08-21 |
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US283537D Expired - Lifetime US283537A (en) | Apparatus for heating by exhaust-steam |
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