US1735613A - Siphon circulating system for automobiles - Google Patents
Siphon circulating system for automobiles Download PDFInfo
- Publication number
- US1735613A US1735613A US184061A US18406127A US1735613A US 1735613 A US1735613 A US 1735613A US 184061 A US184061 A US 184061A US 18406127 A US18406127 A US 18406127A US 1735613 A US1735613 A US 1735613A
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- United States
- Prior art keywords
- chamber
- radiator
- water
- engine
- tube
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01P—COOLING OF MACHINES OR ENGINES IN GENERAL; COOLING OF INTERNAL-COMBUSTION ENGINES
- F01P3/00—Liquid cooling
- F01P3/22—Liquid cooling characterised by evaporation and condensation of coolant in closed cycles; characterised by the coolant reaching higher temperatures than normal atmospheric boiling-point
- F01P3/2271—Closed cycles with separator and liquid return
Definitions
- VThis invention relates to an improvement in1 siphon circulating systems for automobi es. i
- the object of the invention is to provide a greater ,circulating capacity through the radiator ⁇ and the water jacket of the engine than is ordinarily obtained. This is accomplished by providing a separating chamber, a mixing tube, vand a condensing chamber in the top of aradiator, an overflow pipe7V and a bottom hose connection between the radiator and the engine waterjacket of a capacity greater than that of all the radiator tubes combined, so as to keep a continuous circulation of water through all the radiator tubes. This causes the water to flow more freely and quickly into the engine water jacket and a continuous circulation therethrough. j
- the invention further provides a mixing tube to thoroughly mix thev steam and water which passes'from the uppermost part of the engine water jacket.
- F ig. 2 is a top plan view of the same
- Fig. 3 is a detail .transverse sectional View;
- the numeral 1l designates the engine generally, 4which may be of any suitable form,
- The' usual form-'of radiator is ⁇ designated bythe numeral 3 for cooling the' water- 'pass inginto the engine water jacket 2, and for this' purpose the radiator' isprovided -with an upper steamcondensingchamber il: and a lower radiator chamber ,”connected .etogether-by a series of small tubes 6, as shown in Figs. 1 and 2.
- the upper radiator chamber is provided with ⁇ a plurality of horizontal tubes 7 which pass through said chamber. When the car is moving, airpass'es through the said horizontal tubes 7, causing the steam in chamber ⁇ 4 to partly or wholly,condense.
- a separating chamber 9 may be formed intergral with, or separate from, the upper radiator chamber 4,*but is connected therewith by one or two ypipes or passages 10l and 11 for water and steam respectively.
- a mixing tube 12 is connected with the en
- Vgine ywater jacket 2 extends upwardly from the water jacket into the separating chamber9 to a point slightlyrbelow the-top ofsaid chamber.
- ⁇ l j The ⁇ lower end of the mixing4 tube-12 ex# tends into the water jacket 2, and is perforated as at 13 to allow ,the steam to enter the mixing ⁇ tube around its entire circumference and to thoroughly mix with the water which Aenters atnthe end.
- 'An overflow opening or vpipe 14 extends downwardlyl from the upper radiator chamber llaas-shown inF ig.
- Y v 1.V In a water circulatingvsystem, the comv bination with an engine water jacket, of a radiator having an upper condensing chamber therein, a separating chamber communieating with said upper condensing chamber in the upper and --lower portionsthereof, a tube communicating with the engine water jacket and extending into the separating chamber to a point inthe upper portion thereof, and an overflow pipe extending downward from the upperV condensing chamber, and having the upper ⁇ end thereof at a pointv in said chamber below-they level of the discharge end of the tube. l i
- a mixing-tube connected with the engine water jacket and extending into the separating chamber to a point near the top thereof, and an overfiow pipe extending downwardly from the condensing chamber and having the upper end thereof arranged at apointl in said chamber beneath l the level of the discharge end of the mixingtube.
- a water vcirculating system the combination withy an engineywater jacket, of a kradiator having an upper chamber, a separating chamber connected with said upper radiator chamber, ar mixing tube having an end thereof extending into the-engine water jacket and having said end perforated, and said inlet end of they said tube extending below the top surface of the waterV in the engine water jacket, the discharge end extending into the separating chamber to a point near the top thereof, and an overflowA pipe in the up'- per radiator chamber with the upper end arranged at a point below the level, of the discharge end of the mixing-tube.
- V6 In a ⁇ water circulating system, thecom bination of a mixing-tube with inlet end perforated and extending below the water level in an engine water jacket, and a radiator having an upper condensing chamber, having v communication with the mixing tube.
- a circulating system of the character described including a radiator having an uppercooling chamber, a separating chamber having separate connections withsaid cooling chamber in the upperl and Ilower portions thereof, and an engine water-jacket having communication with the radiator and separating chamber.
- a .circulating system of the character l I described including a radiator having an upper cooling chamber, horizontally arranged condensing tubes extending across said cooling chamber above the Water level therein, a separating chamber having separate connections With the cooling chamber in the upper and lovver portions thereof, the upper communication being above the Water level in the cooling chamber, and an engine Water-jacket having communication With the radiator and separating chamber.
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
Description
Nov. 1,2, 1929. s. KAYE 1,735,613
SIPHON QIRCULATING SYSTEM FUR AUTOMOBILES Filed April 15; 1927 sAMUEL KAYE, or COLUMBUS, Mrssssrrrr; B.' G. .HAZARD AND 4Roisin WEAVER nxEcUToRs or SAMUEL KAYE, sa.; DECEASED SIPHON CIRGULATING SYSTEM FOR AUTOMBILES l Application led April 15,
VThis invention relates to an improvement in1 siphon circulating systems for automobi es. i
. The object of the invention is to provide a greater ,circulating capacity through the radiator` and the water jacket of the engine than is ordinarily obtained. This is accomplished by providing a separating chamber, a mixing tube, vand a condensing chamber in the top of aradiator, an overflow pipe7V and a bottom hose connection between the radiator and the engine waterjacket of a capacity greater than that of all the radiator tubes combined, so as to keep a continuous circulation of water through all the radiator tubes. This causes the water to flow more freely and quickly into the engine water jacket and a continuous circulation therethrough. j
The invention further providesa mixing tube to thoroughly mix thev steam and water which passes'from the uppermost part of the engine water jacket. The mixed water and steaniforms a lighter mixture thanthe solid body oflwaterv in the radiator whereas the weight ofthe water causes this light mixture to rise above the level of the water in Athe radiator and flow,A over the 'top endwof. `themix'ing tube into the separating chamber, which is made a part of the radiator or else' connected thereto, and through one or two passages into the vcondensing chamber fof theradiator; where two pipesare used, one is for the passage of water and the other for the passage of steam, the steam passing F through the Vuppermost pipe into the con- 'densing chamber7 and out through'the overow pipe, the open end of which is arranged fat a point below'the upper or discharge endl 'of the mixing tube which extends into the lseparating chamber. u i j Thisv arrangement also preventsy any -water from Aflowing' back from Vthe radiator down through the rmixing tube into the top of the engine water jacket and insuresof a con- 'tinuous circulation through the radiator and .the natural system intended ior cooling the engine. v j v- 'n the accompanying drawings p Eig. l is a vertical sectional view-of 'aradiM 1927. Serial No. 184,061.
ator and aportion of an engine with the inp vention as applied thereto;
F ig. 2 is a top plan view of the same;
Fig. 3 is a detail .transverse sectional View; The numeral 1l designates the engine generally, 4which may be of any suitable form,
normally used to drive an automobile This l engine is provided with the usual formr of water jacket 2 shownesp'ecially in Fig. 1.
The' usual form-'of radiator is `designated bythe numeral 3 for cooling the' water- 'pass inginto the engine water jacket 2, and for this' purpose the radiator' isprovided -with an upper steamcondensingchamber il: and a lower radiator chamber ,"connected .etogether-by a series of small tubes 6, as shown in Figs. 1 and 2. The upper radiator chamber is provided with`a plurality of horizontal tubes 7 which pass through said chamber. When the car is moving, airpass'es through the said horizontal tubes 7, causing the steam in chamber `4 to partly or wholly,condense.
VThe lower chamber 5 is connectedv to the water .jacket 2 by means ofan 'enlarged bottom hose connection 8. The capacity of the connection Slisgreater than that of thecombined capacities of all of the vertical radiator tubes V6,*soV as to insurea more perfect circulation through the said tubes 2. .j
A separating chamber 9 may be formed intergral with, or separate from, the upper radiator chamber 4,*but is connected therewith by one or two ypipes or passages 10l and 11 for water and steam respectively.
A mixing tube 12 is connected with the en,
Vgine ywater jacket 2, and extends upwardly from the water jacket into the separating chamber9 to a point slightlyrbelow the-top ofsaid chamber.` l j The `lower end of the mixing4 tube-12 ex# tends into the water jacket 2, and is perforated as at 13 to allow ,the steam to enter the mixing` tube around its entire circumference and to thoroughly mix with the water which Aenters atnthe end. 'An overflow opening or vpipe 14 extends downwardlyl from the upper radiator chamber llaas-shown inF ig. 1,' and the upper end of this overflow pi eis 4arranged at a pint below the top or' `c scharge `end if :the raming tube 12, morder te pre bubbles created in the1engine water jacket rise to the uppermostp art thereof from where lthey pass into the mixing tube 12, where the steamand water are so thoroughly mixed `as to form a lighter-mixture than the solid body of water inthe radiator, thereby causing this light mixture to rise above the level of the water in the radiator and flow over the top end of the mixing tube into the separating chamber where the water and steam are separated by the water flowingbelow the top end of the' mixing tube, the water level=being maintainedat that point by the relative position vof-the inlet end ofthe overflow' pipe. `The most of the steamis condensed'in the condensing chamber 4, and the vremaining steam if any passes out through the overflow pipe 14.
The increase rin the size or capacity of the bottom hose connectionf? to a size greater than the Vcombined capacities of the radiator tubes'tends to cause the water to iiow more freely and quickly into the engine water jacket when the water in contact with the hot engine wallsbecomes so hot as to produce steam, thereby reducing the resistance of the water flowing out of the radiator and tend'- ing to cause the waterl to flow through more of the radiator tubes `thanwould be the case if; the latter had a greater capacity than the bottom hose connection, which tends to increase the cooling capacity ofthe radiator.
I claim: Y v 1.V In a water circulatingvsystem, the comv bination with an engine water jacket, of a radiator having an upper condensing chamber therein, a separating chamber communieating with said upper condensing chamber in the upper and --lower portionsthereof, a tube communicating with the engine water jacket and extending into the separating chamber to a point inthe upper portion thereof, and an overflow pipe extending downward from the upperV condensing chamber, and having the upper `end thereof at a pointv in said chamber below-they level of the discharge end of the tube. l i
2. In a water circulating system, the combination with an engine water jacket, vof a radiator having van upper condensing chamber therein, a separating chamber connected with said upper condensing chamber, and
vcommunicating therewith through upper and lower passageways, a mixing-tube connected with the engine water jacket and extending into the separating chamber to a point near the top thereof, and an overfiow pipe extending downwardly from the condensing chamber and having the upper end thereof arranged at apointl in said chamber beneath l the level of the discharge end of the mixingtube.
3. In a water circulating system, the combination withan engine water jacket, of a radiator havingran upper condensing chamber, a separating chamber connected with said condensing chamber, a mixing-tube connected with engine water jacket and extendinginto the'separating chamber to a point near the top thereof, andan overflow pipe in the condensing chamber and having the end thereof arranged at a point in the said chamber at a lower level than the discharge end of the mixing tube. f
4. In a water circulating system, the combination with an engineiwater jacket, of a Vradiator having anupper chamber, a separating chamber connected with said upper radiator chamber, a mixing-tube connected with engine water jacket, the inlet end ofthe said tube extending below the top surface of the water in engine Jwater jacket,.the discharge end extending into the separating chamber to a point near the top thereof,'and an overflow pipe in the upper radiator chamber with the upper end at a point below ythe levelof theidischarge end of the mixing-tube. i
5.- In a water vcirculating system, the combination withy an engineywater jacket, of a kradiator having an upper chamber, a separating chamber connected with said upper radiator chamber, ar mixing tube having an end thereof extending into the-engine water jacket and having said end perforated, and said inlet end of they said tube extending below the top surface of the waterV in the engine water jacket, the discharge end extending into the separating chamber to a point near the top thereof, and an overflowA pipe in the up'- per radiator chamber with the upper end arranged at a point below the level, of the discharge end of the mixing-tube.
V6. In a `water circulating system,thecom bination of a mixing-tube with inlet end perforated and extending below the water level in an engine water jacket, and a radiator having an upper condensing chamber, having v communication with the mixing tube.
7. A circulating system of the character described including a radiator having an uppercooling chamber, a separating chamber having separate connections withsaid cooling chamber in the upperl and Ilower portions thereof, and an engine water-jacket having communication with the radiator and separating chamber.
8. A .circulating system of the character l I described including a radiator having an upper cooling chamber, horizontally arranged condensing tubes extending across said cooling chamber above the Water level therein, a separating chamber having separate connections With the cooling chamber in the upper and lovver portions thereof, the upper communication being above the Water level in the cooling chamber, and an engine Water-jacket having communication With the radiator and separating chamber.
9. In a Watercirculating system, the combination With an engine Water jacket, of a radiator having communication With the Water-jacket, and a separating chamber communicating with the engine Water jacket, and having a plurality of superimposed communications With the radiator.
10, In a Water circulating system, the coinbination With an engine Water jacket, of a radiator, a separating chamber communieating With the engine Water jacket, and having separate steam and Water communications With the radiator, and condensing tubes extending across the radiator above the normal Water level therein.
In testimony whereof I aiix my signature.
` SAMUEL KAYE.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US184061A US1735613A (en) | 1927-04-15 | 1927-04-15 | Siphon circulating system for automobiles |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US184061A US1735613A (en) | 1927-04-15 | 1927-04-15 | Siphon circulating system for automobiles |
Publications (1)
Publication Number | Publication Date |
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US1735613A true US1735613A (en) | 1929-11-12 |
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ID=22675408
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Application Number | Title | Priority Date | Filing Date |
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US184061A Expired - Lifetime US1735613A (en) | 1927-04-15 | 1927-04-15 | Siphon circulating system for automobiles |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4538554A (en) * | 1983-04-13 | 1985-09-03 | Nissan Motor Co., Ltd. | Arrangement of boiling liquid cooling system of internal combustion engine |
-
1927
- 1927-04-15 US US184061A patent/US1735613A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4538554A (en) * | 1983-04-13 | 1985-09-03 | Nissan Motor Co., Ltd. | Arrangement of boiling liquid cooling system of internal combustion engine |
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