US1394921A - Priming device - Google Patents

Priming device Download PDF

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US1394921A
US1394921A US418831A US41883120A US1394921A US 1394921 A US1394921 A US 1394921A US 418831 A US418831 A US 418831A US 41883120 A US41883120 A US 41883120A US 1394921 A US1394921 A US 1394921A
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Prior art keywords
fuel
reservoir
passage
mixture
manifold
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US418831A
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Edward C Mckenzie-Martyn
Frank A Howard
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Standard Oil Co
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Standard Oil Co
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02NSTARTING OF COMBUSTION ENGINES; STARTING AIDS FOR SUCH ENGINES, NOT OTHERWISE PROVIDED FOR
    • F02N99/00Subject matter not provided for in other groups of this subclass
    • F02N99/002Starting combustion engines by ignition means
    • F02N99/008Providing a combustible mixture outside the cylinder
    • YGENERAL 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
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S261/00Gas and liquid contact apparatus
    • Y10S261/08Carburetor primers

Definitions

  • his invention relates to improvements in priming devices, and more especially to a priming device adapted to be used on a motor vehicle to assist in starting the engine thereof in cold weather, or under other adverse conditions.
  • the priming device comprises primarily a cylindrical casting 3 comprising the cup shaped auxilia-ry fuel reservoir 3 provided with a tanentially arranged plate 4 on one side havmg bolt'or screw holes 5 adapted for attachin the device to the dash, cowl, or other desire part of a motor vehicle. l Prelerably, it should be sible.
  • Fastened to the bottom of the passage 7 is a pipe 8 which is connected by means of the T to the pipe '8 which leads. from the intake manifoldE) of an internal combustion. engine to the top oi the vacuum feed tank 51.
  • the point of entry of the pipe 8 into the manifold 9 is slightly above the throttle and main carbureter of the engine which are respectively indicated diagrammatically in the drawings by 10 and 11. Near the top, the passage 7 is slightly enlarged to form the shoulder 12.
  • the upper enlarged part of the passage 7 forms a mixing chamber indicated by 13.
  • the passage 7 is threaded and adapted to receive the threaded valve screw 14, pointed at its lower end as indicatedby 15, and adapted to be screwed downwardly and inwardly to close the passage 7 by seating on the seat 16 formed just below ,the shoulder 12.
  • the valve screw 14 is decreased in diameter as indicated by 18 and not threaded from a point at about its center downwardly to the point where the taper 15 commences.
  • An air inlet or port 20 is provided through the outer wall to admit air into the mixing chamber 13.
  • a small hole 23 is drilled or milled through the wall of the fuel reservoir 3 close to the bottom to meet the lower end of the passage 22.
  • a smalljet opening leads from the mixing chamber 13, at a point opposite the air intake 20, to the passage near its upper end; and the upper end of the passage 22 above the jet 25 is closed by the small plug 27.
  • the fuel reservoir 3 is filled, or nearly filled with any suitable so-called priming fluid such as ether, or high test gasolene.
  • the valve screw 14 is then screwed upwardly in order to open slightly the upper end of the passage 7.
  • the engine is then turned over by means of the self-starter, or crank, or any other desired means, whereupon a slight vacuum or suction will be formed in the inlet manifold 9 which will cause priming fluid to be forced by atmospheric pressure from the fuel reservoir 3'" through the port 23 upwardly through the passage 22 and through the jet passage 25 into the mixing chamber 13.
  • the suction or vacuum in the manifold 9 will also cause air to enter the mixing chamber 13 through the air inlet 20, where it will strike the priming fluid issuing in a jet from the opening 25 and vaporize the same in the manner in common use in carbureters.
  • the mixture of air and vaporized priming fluid will be drawn downwardly through the mixture passage 7, pipe 8, and pipe 8' into the manifold 9, whence it will enter the cylinders of the engine.
  • the suction or vacuum in the manifold '9 will also cause a suction from the top of the vacuum feed reservoir 51 in the ordinary manner,
  • the air inlet 20 and the mixture passage 7 are made sufliciently large. and the jet opening so that, by properly adjusting the valve screw 14, the correctproportion of air fluid will be admitted into the mixing. chamber 13 to form a mixture which, with the vapor obtained from the vacuum feed reservoir, will readily
  • the priming fluid used is preferably some liquid that will vaporize readily in cold weather and consequently form an explosive mixture, as hereinafter described, when all the apparatus is cold, or under other adverse conditions.
  • the throttle 10 is substantially closed so that only enough mixture is admitted to the engine from the main carbureter 11 to allow the engine to idle when warm.
  • the idling mixture (with the use of ordinary fuel) admitted from ,the carbureter 11 through the (substantially) closed throttle 10 will be too lean to start the engine alone.
  • the regulating valve 14 of the priming device is adjusted as described above so that the mixture su plied from the priming device into the manifold, together with the vapor obtained from the vacuum feed reservoir and the mixture drawn from the carburetor 11, will form an explosive mixture which will start the engine when cold.
  • the engine be started by using the priming device as explained above, and allowed to run until the priming fluid has been entirely exhausted from the fuel reservoir
  • the engine then, being warm, is allowed to run in the normal way on the mixture obtained from the main carbureter 11 and the vapor from the vacuum feed reservoir.
  • the valve 14 can be (gradually) closed to cut' off the mixture from the priming device as desired.
  • the valve 14 can be left open pletely empty the fuel reservoir, whereupon it can be entirely closed, thus entirely cutting off the priming device from the engine.
  • the slanting bottom of the fuel reservoir long enough to com-.
  • bustion engine intake manifold, carbureter.
  • auxiliary fuel reservoir containing a mixture passage connected at one end .
  • a priming device comprising fuel
  • a priming device comprising an auxiliary fuel reservoir, an integral mix"- ture passage with its upper end open and tlireaded and adapted to receive a regulating; valve and having its lower end connected 3 will assistallthefuel therein in draining to he manifold, an integral fuel conduit leading from the bottom of the fuel reservoir to a point near the top of the mixture passage, an air inlet leading into the mixture passage near the top, and a regulating valve screwed into the top of the mixture passage and adapted to open or close the ame below the jet and air inlet.
  • a priming device comprising a fuel reservoir with its wall thickened at one side and provided with two parallel passages formed therein, one of relatively large size open at the top [and connected at the bottom to the intake manifold, and the other smaller and extending from the top of the casting to a point near the bottom, with.
  • a priming device comprising a fuel reservoir with its wall thickened at one side and provided with two parallel passages formed therein, one of relatively large size open at the top and connected at the bottom to the intake manifold, and the other smaller and extending from the top of the casting to a. point near the bottom, with its upper end plugged and having an opening, leading from its lower end to the bottom of the fuel reservoir and another opening leading from a point near its upper end below the plug to a point near the upper end of the larger passage, the larger passage having a lateral opening from a point near its upper end to the air.
  • a priming device comprising an auxiliary fuel reservoir containing, fuel, and a mixture passage having one end conne ted to the connection between the manifold and vacuum feed reservoir and the other end provided with an air inlet and a fuel jet receiving fuel from the reservoir.
  • a priming device comprising, an auxiliary fuel reservoir containing fuel, a mixture passage connected at one cud to the connection between the manifold and vacuum feed reservoir and having its other end provided with an air inlet and a fuel jet receiving fuel from the reservoir. and manually operated means for completelyclosing oil' flow through the mixture pa sage below the fuel jet.
  • the combination with an internal com- 11 The comhination'with an internal conibustion engine, intake manifold connected to a vacuum feed reservoir, carburetor and throttle, of a priming device comprising an ,auxiliary fuel reservoir containing fuel, a gmixture passage having one end connected to the connection between the manifold and vacuum feed reservoir, and the other end provided with an air inlet and a fuel jet receiving fuel from the reservoir, and a manually operated needle valve for closing off the mixture passage below the jet.
  • a priming device comprising an ,auxiliary fuel reservoir containing fuel, a gmixture passage having one end connected to the connection between the manifold and vacuum feed reservoir, and the other end provided with an air inlet and a fuel jet receiving fuel from the reservoir, and a manually operated needle valve for closing off the mixture passage below the jet.
  • a priming device comprising an auxiliary fuel reservoir, an. integral mixture )assage open at the top and connected at the bottom to the connection between the manifold and vacuum feed reservoir, an air inlet entering mixture passage near the top, and fuel conduit leading from the bottom of the fuel reservoir to a point near the top of the mixture passage,
  • a priming device comprising an auxiliary fuel reservoir, an integral mixture passage with its upper end open and threaded and adapted to receive a regulatino valve and having its lower end connected to the connection between the manifold and vacuum feed reservoir an integral fuel conduit leading from the bottom of the fuel reservoir to a point near the top of the mixture passage, an air inlet leading into the mixture passage near the top, and a regulating valve screwed into the top of the mixture passage and adapted to open or close the same below the jet and air inlet.
  • a priming device comprising a fuel reservoir with its wall thickened at one side and provided with two parallel passages formed therein. one of relatively large size open at the top and connected at the bottom to the connection between the manifold and vacuum feed reservoir, and the other smaller and extending from the top of the casting to a point ncar the bottom, with its upper end plugged and loving an opening leading ,from its lower end to the bottom of the fuel reservoir and another opening leading from a point near its upper endbelow the plug to a point near the upper end of the larger passage.
  • a priming device comprising a fuel reservoii- 'with its wall thickened at one side and provided with two parallel passages formed therein, one of relatively large size open at the top and connected at the bottom to the connection between the manifold and vacuum feed reservoir, and the other smaller and extending from the top of the casting to a point near the bottom, with its upper end plugged and having an opening leading a point near the upper end of the larger passage, the larger passage having a lateral opening from a point near its upper end to the air.

Description

E. C. McKENZIE-MARTYN AND F. A. HOWARD.
- PRIMING DEVICE.
APPHCATIQN FILED OCT- 22. 1920.
1,394,921, Patented 00a 25, 1921 J5 In J2 I 6 5E 7 II [UNITED srarss PATENT OFFICE.
EDWARD C. McKENZIE-MAETYN AND FRANK A. HOWAR-ID, OF ELIZABETH, NEW
JERSEY, ASSIGNORS TO STANDARD OIL COMPANY, OF BAYONNE, NEW JER- SEY, A. CORPORATION OF NEW JERSEY.
PRIMING DEVICE.
Specification of Letters Patent.
Patented Oct. 25, 1921.
Application filed October 22, 1920. Serial No. 418,831.
To all w 7mm 2'; may concern -Be it known that we, EDWARD C. McKaNzm- MARTYN, a subject of the King of Great Britain, residi-ngoat Elizabeth, in the county of Union and State of New Jersey, and
FRANK A. HOWARD, a citizen of the United States, residing at Elizabeth, in the county of Union and State of New Jersey, hav invented a new and useful Improvement in Priming Devices, of which the following is a s ecification.
his invention relates to improvements in priming devices, and more especially to a priming device adapted to be used on a motor vehicle to assist in starting the engine thereof in cold weather, or under other adverse conditions.
' i In that form of device embodying the features of our invention shown in the accompanying drawings, Figure 1 is vertical sectional view of our improved priming device showing diagrammatically theman nor of attaching it to the intake manifold of an internal combustion engine, and 2 is a view taken as indicated by the line 2 of is shown in the drawings, the priming device comprises primarily a cylindrical casting 3 comprising the cup shaped auxilia-ry fuel reservoir 3 provided with a tanentially arranged plate 4 on one side havmg bolt'or screw holes 5 adapted for attachin the device to the dash, cowl, or other desire part of a motor vehicle. l Prelerably, it should be sible.
The wall of the auxiliary 'fuel reservoir 3 attached where it will be accesis thickened at one side as indicated by 6 and provided with two vertical parallel passages 7 and 22, the former being somewhat larger and extending entirely through the casting, and the latter extending from the top to a point about opposite the lowest part of the fuel reservoir 3. Fastened to the bottom of the passage 7 is a pipe 8 which is connected by means of the T to the pipe '8 which leads. from the intake manifoldE) of an internal combustion. engine to the top oi the vacuum feed tank 51. The point of entry of the pipe 8 into the manifold 9 is slightly above the throttle and main carbureter of the engine which are respectively indicated diagrammatically in the drawings by 10 and 11. Near the top, the passage 7 is slightly enlarged to form the shoulder 12. The upper enlarged part of the passage 7 forms a mixing chamber indicated by 13. Above the mixing chamber 13, the passage 7 is threaded and adapted to receive the threaded valve screw 14, pointed at its lower end as indicatedby 15, and adapted to be screwed downwardly and inwardly to close the passage 7 by seating on the seat 16 formed just below ,the shoulder 12. The valve screw 14 is decreased in diameter as indicated by 18 and not threaded from a point at about its center downwardly to the point where the taper 15 commences. An air inlet or port 20 is provided through the outer wall to admit air into the mixing chamber 13. A small hole 23 is drilled or milled through the wall of the fuel reservoir 3 close to the bottom to meet the lower end of the passage 22. A smalljet opening leads from the mixing chamber 13, at a point opposite the air intake 20, to the passage near its upper end; and the upper end of the passage 22 above the jet 25 is closed by the small plug 27. A cover 24: provided with a small air inlet 26 is adapted to substantially cover the fuel reservoir 3.
In the operation of the device, the fuel reservoir 3 is filled, or nearly filled with any suitable so-called priming fluid such as ether, or high test gasolene. The valve screw 14 is then screwed upwardly in order to open slightly the upper end of the passage 7. The engine is then turned over by means of the self-starter, or crank, or any other desired means, whereupon a slight vacuum or suction will be formed in the inlet manifold 9 which will cause priming fluid to be forced by atmospheric pressure from the fuel reservoir 3'" through the port 23 upwardly through the passage 22 and through the jet passage 25 into the mixing chamber 13. The suction or vacuum in the manifold 9 will also cause air to enter the mixing chamber 13 through the air inlet 20, where it will strike the priming fluid issuing in a jet from the opening 25 and vaporize the same in the manner in common use in carbureters. The mixture of air and vaporized priming fluid will be drawn downwardly through the mixture passage 7, pipe 8, and pipe 8' into the manifold 9, whence it will enter the cylinders of the engine. The suction or vacuum in the manifold '9 will also cause a suction from the top of the vacuum feed reservoir 51 in the ordinary manner,
. and priming start the engine.
some of the vapor in the top of this into the manifold causing reservoir to be drawn with the mixture obtained from the priming device. The air inlet 20 and the mixture passage 7 are made sufliciently large. and the jet opening so that, by properly adjusting the valve screw 14, the correctproportion of air fluid will be admitted into the mixing. chamber 13 to form a mixture which, with the vapor obtained from the vacuum feed reservoir, will readily The priming fluid used is preferably some liquid that will vaporize readily in cold weather and consequently form an explosive mixture, as hereinafter described, when all the apparatus is cold, or under other adverse conditions. In the use of the device, the throttle 10 is substantially closed so that only enough mixture is admitted to the engine from the main carbureter 11 to allow the engine to idle when warm. It is obvious, t at when the engine is cold, the idling mixture (with the use of ordinary fuel) admitted from ,the carbureter 11 through the (substantially) closed throttle 10 will be too lean to start the engine alone. The regulating valve 14 of the priming device is adjusted as described above so that the mixture su plied from the priming device into the manifold, together with the vapor obtained from the vacuum feed reservoir and the mixture drawn from the carburetor 11, will form an explosive mixture which will start the engine when cold. In the use of the device, it is contemplated that the engine be started by using the priming device as explained above, and allowed to run until the priming fluid has been entirely exhausted from the fuel reservoir The engine then, being warm, is allowed to run in the normal way on the mixture obtained from the main carbureter 11 and the vapor from the vacuum feed reservoir. As the engine warms up, the mixture supplied from the carbureter 11 will become richer, and more explosive, and as' this occurs the valve 14 can be (gradually) closed to cut' off the mixture from the priming device as desired. In order to prevent the escape of fumes from the fuel reservoir 3, the valve 14 can be left open pletely empty the fuel reservoir, whereupon it can be entirely closed, thus entirely cutting off the priming device from the engine. The slanting bottom of the fuel reservoir long enough to com-.
a mixture passage down to the opening 23 where it will be sucked out 'of the reservoir as explained above. 7
While we have shown and described certain embodiments of our invention,.it is to be understood that it is capable of many modifications. Changes therefore in the construction and arrangement may be made without departing from the spirit and scope of the invention as disclosed in the appended claims, in which it is our intention to claim all novelty inherent in our invention as broadly as possible in view of the prior" 25 is made sufficiently small, a
What we claim as new,
1. The combination with an internal com-.
bustion engine, intake manifold, carbureter.
and throttle, of an auxiliary fuel reservoir containing a mixture passage connected at one end .a priming device comprising fuel, to
the manifold and having its other end'provided with an air inlet and a fuel jet receiving fuel from the reservoir, and manually operated means [or completely closing off flow through the mixture passage below the fuel jet. v i
2. The combination with an internal con1 bustion engine. intake manifold, carbureter and throttle. of a priming device COXITPIlS'. ing an auxiliary fuel reservoir containing fuel, a mixture passage having one end-Iconnected to the manifold and its other end provided with'an air inlet and fuel jet receiving fuel from the reservoir, and regulable means for closing off the mixture passage below the jet. 3. The combination with an internal combustion engine. intake manifold, carbureter and throttle, of a priming device comprisin an auxiliary fuel reservoir containing fue, having one end connected to the manifold, and the other end provided with an air inlet and a fuel jet receiving fuel from the reservoir, and a manually operated needle valve for closing off the mixture pas 5. The combination with an internal combustion engine, intake manifold, carbureter and throttle,of a priming device comprising an auxiliary fuel reservoir, an integral mix"- ture passage with its upper end open and tlireaded and adapted to receive a regulating; valve and having its lower end connected 3 will assistallthefuel therein in draining to he manifold, an integral fuel conduit leading from the bottom of the fuel reservoir to a point near the top of the mixture passage, an air inlet leading into the mixture passage near the top, and a regulating valve screwed into the top of the mixture passage and adapted to open or close the ame below the jet and air inlet.
6. The combination with an internal combustion engine, intake manifold, carbureter and throttle, of a priming device comprising a fuel reservoir with its wall thickened at one side and provided with two parallel passages formed therein, one of relatively large size open at the top [and connected at the bottom to the intake manifold, and the other smaller and extending from the top of the casting to a point near the bottom, with.
its upper end plugged and having an open ing leading from its lower end to the bottom of the fuel reservoir and another opening leading from a point near its upper end below the plug to a point near the upper end of the larger passage.
7. The combination with an internal combustion engine, intake manifold, carburetor and throttle, of a priming device comprising a fuel reservoir with its wall thickened at one side and provided with two parallel passages formed therein, one of relatively large size open at the top and connected at the bottom to the intake manifold, and the other smaller and extending from the top of the casting to a. point near the bottom, with its upper end plugged and having an opening, leading from its lower end to the bottom of the fuel reservoir and another opening leading from a point near its upper end below the plug to a point near the upper end of the larger passage, the larger passage having a lateral opening from a point near its upper end to the air.
8. The combination with an internal combustion engine, intake manifold connected to a vacuum feed reservoir, carburetor and throttle, of a priming device comprising an auxiliary fuel reservoir containing, fuel, and a mixture passage having one end conne ted to the connection between the manifold and vacuum feed reservoir and the other end provided with an air inlet and a fuel jet receiving fuel from the reservoir.
9. The combination with an internal combustion engine, intake manifold connected to a vacuum feed reservoir, carburetor and throttle, of a priming device comprising, an auxiliary fuel reservoir containing fuel, a mixture passage connected at one cud to the connection between the manifold and vacuum feed reservoir and having its other end provided with an air inlet and a fuel jet receiving fuel from the reservoir. and manually operated means for completelyclosing oil' flow through the mixture pa sage below the fuel jet.
10. The combination with an internal com- 11. The comhination'with an internal conibustion engine, intake manifold connected to a vacuum feed reservoir, carburetor and throttle, of a priming device comprising an ,auxiliary fuel reservoir containing fuel, a gmixture passage having one end connected to the connection between the manifold and vacuum feed reservoir, and the other end provided with an air inlet and a fuel jet receiving fuel from the reservoir, and a manually operated needle valve for closing off the mixture passage below the jet.
12. The combination withan internal combustion engine, intake manifold connected to a vacuum feed reservoir, carbureter and throttle, of a priming device comprising an auxiliary fuel reservoir, an. integral mixture )assage open at the top and connected at the bottom to the connection between the manifold and vacuum feed reservoir, an air inlet entering mixture passage near the top, and fuel conduit leading from the bottom of the fuel reservoir to a point near the top of the mixture passage,
13. The combination with an internal combustion engine, intake manifold connected to a vacuum feed reservoir, carburetor and throttle, of a priming device comprising an auxiliary fuel reservoir, an integral mixture passage with its upper end open and threaded and adapted to receive a regulatino valve and having its lower end connected to the connection between the manifold and vacuum feed reservoir an integral fuel conduit leading from the bottom of the fuel reservoir to a point near the top of the mixture passage, an air inlet leading into the mixture passage near the top, and a regulating valve screwed into the top of the mixture passage and adapted to open or close the same below the jet and air inlet.
14. The combination wi han internal combustion engine, intake inaniiold connected to a vacuum feed reservoir, carburetor and throttle, of a priming device comprising a fuel reservoir with its wall thickened at one side and provided with two parallel passages formed therein. one of relatively large size open at the top and connected at the bottom to the connection between the manifold and vacuum feed reservoir, and the other smaller and extending from the top of the casting to a point ncar the bottom, with its upper end plugged and loving an opening leading ,from its lower end to the bottom of the fuel reservoir and another opening leading from a point near its upper endbelow the plug to a point near the upper end of the larger passage.
15. The combination with an internal combustion engine, intake manifold connected to a vacuum feed reservoir, carbureter and throttle, of a priming device comprising a fuel reservoii- 'with its wall thickened at one side and provided with two parallel passages formed therein, one of relatively large size open at the top and connected at the bottom to the connection between the manifold and vacuum feed reservoir, and the other smaller and extending from the top of the casting to a point near the bottom, with its upper end plugged and having an opening leading a point near the upper end of the larger passage, the larger passage having a lateral opening from a point near its upper end to the air.
In 'witness whereof we have hereunto set our hands and seals this 16th day of October, 1920. 1
EDWARD C. McKENZlE-MARTYN. [13.8.] FRANK A. HOWARD. [L. s.l
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2469751A (en) * 1943-09-01 1949-05-10 Standard Oil Dev Co Cold starting motor fuel

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2469751A (en) * 1943-09-01 1949-05-10 Standard Oil Dev Co Cold starting motor fuel

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