US2168927A - Prime mover regulation - Google Patents
Prime mover regulation Download PDFInfo
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- US2168927A US2168927A US214274A US21427438A US2168927A US 2168927 A US2168927 A US 2168927A US 214274 A US214274 A US 214274A US 21427438 A US21427438 A US 21427438A US 2168927 A US2168927 A US 2168927A
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- generator
- valve
- solenoid
- engine
- prime mover
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02D—CONTROLLING COMBUSTION ENGINES
- F02D1/00—Controlling fuel-injection pumps, e.g. of high pressure injection type
- F02D1/02—Controlling fuel-injection pumps, e.g. of high pressure injection type not restricted to adjustment of injection timing, e.g. varying amount of fuel delivered
- F02D1/08—Transmission of control impulse to pump control, e.g. with power drive or power assistance
Definitions
- This invention relates to regulators for use with motor driven electric generator units and has particular reference to electro-magnetic regulators or governors for automatically regulating the speed and torque of an internal combustion engine, or other prime mover driving a generator, in accordance with the current load on the generator.
- One object of the present invention is to automatically regulate the output, preferably the voltage, of an electric generator.
- a further object is to maintain the voltage output of a generator constant for varying current loads on the generator.
- a further object of the invention is to provide a relatively large movement of a controlling element of an electric regulator.
- a further object is to utilize the energy of a prime mover to assist in controlling the opera-- tion of the same.
- a further object of the invention is to reduce the force required to open a butterfly type fuel inlet valve of an internal combustion engine, when the engine is running.
- Fig. 1 is an elevational View of a motor driven generator unit embodying the present invention.
- Fig. 2 is a sectional View through the electric regulator.
- Fig. 3 is a fragmentary view, partly in section, showing the fuel inlet valve of the engine and its various operating connections.
- Fig, 4 is a sectional plan view taken along the line 44 of Fig. 3.
- the generator unit comprises an internal combustion engine ill, which is shown in the illustration as a gasoline engine having a crankcase H, a cylinder block l2, a fuel inlet manifold l3, connected in the usual manner to the cylinders (not shown) in the cylinder block l2, a carburetor M, and a tube or conduit l5, forming part of the manifold is and interconnecting the carburetor l4 with the inlet opening of the manifold 13.
- the crank. shaft 25 of the engine It is connected to the shaft l? of a shunt wound generator [8 through a coupling l9.
- the fuel inlet valve 26 of the engine is of the butterfly type and is rotatably adjustable within the conduit 25 by a valve shaft 2! journalled in bearings 22 and formed on diametrically opposite sides of the conduit l5.
- An arm 2% securely mounted at one end thereof as by a pin 25 to the exterior portion of the shaft 2!, is pivotally connected at its opposite bifurcated end to a vertically extench ing link 28 by means of a clevis pin 2?.
- Link 28 has a plurality of spaced bearing holes 29 therein whereby the position of the pivotal connection between the arm 24 and link 28 may be changed.
- the lower end of the link 28 is pivotally mounted to the extending end of an actuating lever 25 as shown in Fig. 1.
- the lever 25 is pivotally mounted by means of a clevis pin to the upwardly extending bifurcated portion.
- the core 33 is rigidly secured in relation to the crankcase ll of the engine thmugh an angle bracket 34.
- Bracket 34 is secured to the crankcase I I by bolts 35 and is secured to the lower end of the core 33 by bolts 35.
- a second solenoid 4! is mounted on a similar spool comprising flanges 42 and 43, and a sleeve 44, This second spool, however, is slidable vertically along the core 33 to and from the lower solenoid 31.
- the windings of the two solenoids 3'! and ll are connected in series with each other and are wound in opposite directions so that the polarity of the magnetic field produced by one of the solenoids opposes that of the other solenoid. Therefore, on application of current through the two solenoids the upper solenoid ll will be raised against the force of gravity by an amount depending on the current passing through the solenoids.
- the solenoids 3'l and 4! may, however, be connected in parallel or other circuit relation with each other with their magnetic polarities in opposition to produce the same effect.
- a ring shaped flange 45 surrounding the core 33, is secured as by screws 46 to the upper flange 42 of the movable solenoid 4
- An upwardly extending lug 41 formed integrally with the flange 46 is pivotally connected to a vertically extending link 48 by a pin 49.
- the upper end of the link 48 is pivotally secured by means of a pin 50 to a point on the lever 26.
- comprising a small number of turns of heavy conductor wire is wound around the lower solenoid 31 and is secured thereto in any suitable manner, as by being tightly wrapped.
- is placed in series with the load circuit, generally indicated at 52, of the generator l8 (Fig. 1) and has its polarity opposed to that of solenoid 31.
- , in series with each other, are connected in shunt with the load circuit 52 as diagrammatically shown by the connections 53 and 54.
- a rheostat 56 is provided in series with the windings of the solenoids 31 and 4
- the load circuit 52 of the generator may be used to supply current to any electrical device. Howeven in this case it is shown as supplying current to a number of lamps diagrammatically indicated at 55.
- the weight of the movable solenoid d! is such as to move the valve 29, through the force of gravity, toward an open position when the op posing magnetic force between the solenoids 3. and 4
- the booster 51 comprises a cylinder 58 which is pivotally supported by means of a pin 59 on a bracket 60 integrally formed on the conduit 55.
- secured at its upper end at E2 to the manifold l3 and its lower end 63 to the cylinder 58 communicates the interior of the manifold l3 with the interior of the cylinder 53..
- a close fitting plunger 64 is movable within he cylinder 58 and is pivotally secured at $5 to the lower end of an arm 66 journalled on the valve shaft 2
- a dog 61 is securely mounted on the extending portion of. the valve shaft 2! and has an adjustable screw 68 threadably mounted therein, the end of screw 68 being adapted to abut a boss 69,formed on the arm 66.
- This action of the vacuum booster 5! prevents an undue resistance from being offered to the movement of the solenoid 4
- a dashpot H1 is provided to prevent a strain from being imposed on the engine due to a sudden application of current load on the generator and also to prevent a hunting or oscillating movement of the valve 25 on a sudden change of load.
- Dashpot 10 comprises a cylinder H pivotally mounted at 12 to the cylinder block l2 and a double acting piston indicated by the dotted lines 73, movable within the cylinder II.
- the piston '53 is attached to an extending portion of lever 26 by means of a piston rod 14 pivotally secured at its lower end to the lever 25 to retard the movement of the solenoid 4
- a dashpot acting only on the opening movement of valve 29 may be substituted, permitting the valve to be closed immediately after a load has been removed from the generator, while retarding its opening movement.
- a starting control 15 is provided to control the engine it during starting.
- This control comprises a rod i6 manually shiftable lengthwise thereof and having a slot ll formed at one of its ends.
- An arm i8 rigidly secured at its lower end to the valve shaft 2! has a pin 19 at its upper end adapted to ride within the slot i1 01' the rod l6.
- the rod i6 may be also used to control the operation of the engine independently of the electric regulator in the event that the regulator would become inoperative.
- the operation of the regulating apparatus is as follows. Since the solenoids 3'! and 4
- Fig. 1 the solenoicL-on raising, moves the lever 25 in aclockwise direction and therefore, through the link 28 and arm 24, moves the valve toward a closed position to a setting which is predetermined by adjustment of the lengths of the various ele- 75 ments comprising the linkage between the solenoid 4
- this setting is so adjusted that the speed of the engine in a no-load condition of the generator circuit will be approximately the same as when a light current load is applied to the circuit.
- may be made of such strength, and the linkage between solenoid 4
- the field of solenoid 31 will be weakened by the opposing field of coil 5
- l may be changed to suit the current-voltage-speed characteristics of the generator. For instance, if the speed of the generator has to be increased only slightly to maintain a constant voltage for a relatively large applied current load, the coil 5
- the regulator may be over-compensated, if desired, by increasing the strength of coil 5
- the present invention obviates the necessity of using springs by employing the force of gravity on the solenoid 4
- an electric generator a prime mover operatively connected to said generator, means for controlling the operation of said prime mover, a pair of electro-magnetic coils adapted to react on each other and connected in shunt with the load circuit of said generator, means whereby said coils are adapted to move relatively to each other through the electro-magnetic action of the current passing through said coils, means operatively connecting said first mentioned means and one of said coils to transmit bodily movement to said first mentioned means and means responsive to the current flow in said load circuit for modifying the electromagnetic efiect of one of said coils.
- an electric generator a prime mover operatively connected to said generator, means for controlling the operation of said prime mover, a pair of electro-magnetic coils electrically connected with each other and opposing each other, said pair being connected in shunt with the load circuit of said generator, means for supporting one of said coils in a fixed position, means whereby the other of said coils is adapted to be moved relative to said fixed coil against the force of gravity through the magnetic action of the current passing through said coils, means responsive to the movement of said movable coil for operating said first mentioned means and a third coil in series with said load circuit and adapted to oppose one of said first mentioned coils.
- a device for automatically controlling the operation of a motor in accordance with the current load on a generator driven by said motor comprising means for controlling the operation of said motor, a fixed electro-magnetic coil having an upwardly extending core, an operative connection between said controlling means and said movable coil, a second electro-magnetic coil movable along said core, said coils being electrically connected with each other and in shunt with the load circuit of said generator, with their magnetic fields in opposite directions and adapted to react upon each other against the force of gravity in accordance with the voltage of said load circuit, and a third coil connected in series with said load circuit, said third coil having its magnetic field in an opposite direction to the field of said fixed coil whereby to modify the field of said fixed coil in accordance with the current in said circuit.
- a prime mover means for controlling the operation of said prime mover, an electric generator operatively connected to said prime mover, a regulator responsive to said generator for operating said first mentioned means, and means actuated by said prime mover for assisting said regulator when starting said prime mover.
- a motor driven generator apparatus the combination of an internal combustion engine having a fuel inlet valve, a generator operatively connected to said engine, a regulator responsive to the voltage of said generator for operating said valve, and means responsive to the difference in air pressure on opposite sides of said valve for controlling said regulator.
- a motor driven generator the combination of an internal combustion engine having a fuel inlet valve, a generator operatively connected to said engine, means responsive to the current in the load circuit of said generator for operating said valve, and a vacuum booster adapted to urge said valve toward an open position when in a substantially closed position, said booster being substantially ineffective at a substantially open position of said valve.
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Control Of Vehicle Engines Or Engines For Specific Uses (AREA)
- Connection Of Motors, Electrical Generators, Mechanical Devices, And The Like (AREA)
Description
g- 1939- L; J. ADAMS ET AL 2,168,927
PRIME MOVER REGULATION Original Filed Oct. 22
INVENTOR5 J. AQAMS FPANK BIPAcKEN ATTORNEY PIE. 2.
lir
Patented Aug. 8, 1939 UNITED STATES PATENT OFFICE PRIME MOVER. REGULATION of Delaware Original application ()ctober 22, 1937, Serial No. 170,436. Divided and this application June 17, 1938, Serial No. 214,274
'7 Claims.
This invention relates to regulators for use with motor driven electric generator units and has particular reference to electro-magnetic regulators or governors for automatically regulating the speed and torque of an internal combustion engine, or other prime mover driving a generator, in accordance with the current load on the generator.
As is well known in the art, the voltage output of a constant speed shunt, series or compound generator varies with the current load, except in the case of special compound wound generators. This variation in voltage is very objectionable in many current consuming systems of which illuminating systems having a varying number of lamps in circuit are notable examples.
One object of the present invention is to automatically regulate the output, preferably the voltage, of an electric generator.
A further object is to maintain the voltage output of a generator constant for varying current loads on the generator.
A further object of the invention is to provide a relatively large movement of a controlling element of an electric regulator.
A further object is to utilize the energy of a prime mover to assist in controlling the opera-- tion of the same.
A further object of the invention is to reduce the force required to open a butterfly type fuel inlet valve of an internal combustion engine, when the engine is running.
The accomplishment of the above and other objects of the invention will be apparent from the following description read in conjunction with the accompanying drawing wherein:
Fig. 1 is an elevational View of a motor driven generator unit embodying the present invention.
Fig. 2 is a sectional View through the electric regulator.
Fig. 3 is a fragmentary view, partly in section, showing the fuel inlet valve of the engine and its various operating connections.
Fig, 4 is a sectional plan view taken along the line 44 of Fig. 3.
This patent application is a division of our copending application Serial No. 170,436, filed October 22, 1937, for Regulator,
Referring particularly to Fig. l the generator unit comprises an internal combustion engine ill, which is shown in the illustration as a gasoline engine having a crankcase H, a cylinder block l2, a fuel inlet manifold l3, connected in the usual manner to the cylinders (not shown) in the cylinder block l2, a carburetor M, and a tube or conduit l5, forming part of the manifold is and interconnecting the carburetor l4 with the inlet opening of the manifold 13. The crank. shaft 25 of the engine It is connected to the shaft l? of a shunt wound generator [8 through a coupling l9.
As shown in Figs. 3 and 4, the fuel inlet valve 26 of the engine is of the butterfly type and is rotatably adjustable within the conduit 25 by a valve shaft 2! journalled in bearings 22 and formed on diametrically opposite sides of the conduit l5. An arm 2%, securely mounted at one end thereof as by a pin 25 to the exterior portion of the shaft 2!, is pivotally connected at its opposite bifurcated end to a vertically extench ing link 28 by means of a clevis pin 2?. Link 28 has a plurality of spaced bearing holes 29 therein whereby the position of the pivotal connection between the arm 24 and link 28 may be changed. The lower end of the link 28 is pivotally mounted to the extending end of an actuating lever 25 as shown in Fig. 1.
Referring now to both Figs. 1 and 2, the lever 25 is pivotally mounted by means of a clevis pin to the upwardly extending bifurcated portion. SI of an extension 32 formed integrally with a vertically extending core 33 of soft iron, or the like, forming part of the electric regulator to be now described. The core 33 is rigidly secured in relation to the crankcase ll of the engine thmugh an angle bracket 34. Bracket 34 is secured to the crankcase I I by bolts 35 and is secured to the lower end of the core 33 by bolts 35. A solenoid 3? is mounted upon a spool consisting of fiber flanges 38 and 39, and a sleeve 45, also of fiber, or like material, such spool being securely mounted in any suitable maner on the lower end of the core 33. A second solenoid 4! is mounted on a similar spool comprising flanges 42 and 43, and a sleeve 44, This second spool, however, is slidable vertically along the core 33 to and from the lower solenoid 31.
The windings of the two solenoids 3'! and ll are connected in series with each other and are wound in opposite directions so that the polarity of the magnetic field produced by one of the solenoids opposes that of the other solenoid. Therefore, on application of current through the two solenoids the upper solenoid ll will be raised against the force of gravity by an amount depending on the current passing through the solenoids. The solenoids 3'l and 4! may, however, be connected in parallel or other circuit relation with each other with their magnetic polarities in opposition to produce the same effect.
A ring shaped flange 45, surrounding the core 33, is secured as by screws 46 to the upper flange 42 of the movable solenoid 4|. An upwardly extending lug 41 formed integrally with the flange 46 is pivotally connected to a vertically extending link 48 by a pin 49. The upper end of the link 48 is pivotally secured by means of a pin 50 to a point on the lever 26.
A third coil 5| comprising a small number of turns of heavy conductor wire is wound around the lower solenoid 31 and is secured thereto in any suitable manner, as by being tightly wrapped. This coil 5| is placed in series with the load circuit, generally indicated at 52, of the generator l8 (Fig. 1) and has its polarity opposed to that of solenoid 31. The two solenoid windings 31 and 4|, in series with each other, are connected in shunt with the load circuit 52 as diagrammatically shown by the connections 53 and 54.
A rheostat 56 is provided in series with the windings of the solenoids 31 and 4| to allow adjustment required by changes in the resistance of the two solenoids 31 and 4! due to temperature variations therein as well as to vary the voltage level of the generator output circuit.
The load circuit 52 of the generator may be used to supply current to any electrical device. Howeven in this case it is shown as supplying current to a number of lamps diagrammatically indicated at 55.
'The weight of the movable solenoid d! is such as to move the valve 29, through the force of gravity, toward an open position when the op posing magnetic force between the solenoids 3. and 4| is decreased.
When the butterfly valve 20 is opened from a closed or substantially closed position, an abnormal amount of force is required to move it into an open position due to the excessive vacuum built up within the manifold l3, especially if a high power engine is used. In order to overcome this resistance of the valve a vacuum booster generally indicated at 5'7 provided. The booster 51 comprises a cylinder 58 which is pivotally supported by means of a pin 59 on a bracket 60 integrally formed on the conduit 55. A flexible tubing 6| secured at its upper end at E2 to the manifold l3 and its lower end 63 to the cylinder 58 communicates the interior of the manifold l3 with the interior of the cylinder 53.. A close fitting plunger 64 is movable within he cylinder 58 and is pivotally secured at $5 to the lower end of an arm 66 journalled on the valve shaft 2|. A dog 61 is securely mounted on the extending portion of. the valve shaft 2! and has an adjustable screw 68 threadably mounted therein, the end of screw 68 being adapted to abut a boss 69,formed on the arm 66.
When the butterfly 20 is in a closed or substantially closed position, as in a no load condition of the generator, the vacuum produced in the manifold I3 is transmitted through the tubing 6| to the cylinder 58, thereby producing a pull on the plunger 54 tending to open the valve iii. The size of the cylinder 58, however, is such that the vacuum produced in the manifold is is insufficient in itself to effect movement of the valve 26, but overcomes the excessive resistance offered to movement of the valve 2c due to the high vacuum in the manifold. 'It will be noted that the end of plunger 64 is adapted to abut the inlet end of cylinder 53 before the valve 2 is moved to its full open position. Therefore, as plunger 64 reaches the limit of its travel, it becomes ineifective to act upon the valve 26, the
about pin remaining movement of valve 20 being accomplished solely through the link 28.
This action of the vacuum booster 5! prevents an undue resistance from being offered to the movement of the solenoid 4|, by reason of the vacuum acting against one side of the valve 20, after the engine has been operating with the valve substantially closed, thus insuring a movement of the valve in accordance with the speed changes necessary to obtain constant voltage.
A dashpot H1 is provided to prevent a strain from being imposed on the engine due to a sudden application of current load on the generator and also to prevent a hunting or oscillating movement of the valve 25 on a sudden change of load. Dashpot 10 comprises a cylinder H pivotally mounted at 12 to the cylinder block l2 and a double acting piston indicated by the dotted lines 73, movable within the cylinder II. The piston '53 is attached to an extending portion of lever 26 by means of a piston rod 14 pivotally secured at its lower end to the lever 25 to retard the movement of the solenoid 4| and consequently the butterfly valve 2%. Instead of a double acting dashpot for damping any movement of the Valve 23 a dashpot acting only on the opening movement of valve 29, may be substituted, permitting the valve to be closed immediately after a load has been removed from the generator, while retarding its opening movement.
A starting control 15 is provided to control the engine it during starting. This control comprises a rod i6 manually shiftable lengthwise thereof and having a slot ll formed at one of its ends. An arm i8 rigidly secured at its lower end to the valve shaft 2! has a pin 19 at its upper end adapted to ride within the slot i1 01' the rod l6. When the engine is started the rod "(i3 is pushed inward, holding valve 2|] substantially closed through the engagement of the end of the slot il with the pin 19. The. rod i6 may be also used to control the operation of the engine independently of the electric regulator in the event that the regulator would become inoperative.
The operation of the regulating apparatus is as follows. Since the solenoids 3'! and 4| are connected in series with each other and'across the load circuit 52, these solenoids will be responsive to the voltage generated by the generator l8. On operation of the generator |8, the solenoid 4|, due to the opposed polarity thereof with the solenoid 3?, is raised against the action of gravity an amount determined by the voltage of the current passing therethrough. The rheostat 56 is adjusted to compensate for varying resistance due to temperature changes within these solenoids or to adjust the apparatus for any desired voltage level.
The interaction of the two opposed solenoids 3? and 46 produces a greater amount of bodily movementof solenoid 4| for a given change of current than is possible with the use of a single solenoid only. In View of this feature, wear or lcoseness in the various pivotal connections of the linkage system between the movable solenoid 4| and the valve is has a negligible effect on operation of the engine.
As may be noted in Fig. 1 the solenoicL-on raising, moves the lever 25 in aclockwise direction and therefore, through the link 28 and arm 24, moves the valve toward a closed position to a setting which is predetermined by adjustment of the lengths of the various ele- 75 ments comprising the linkage between the solenoid 4| and the valve shaft 2|.
Preferably this setting is so adjusted that the speed of the engine in a no-load condition of the generator circuit will be approximately the same as when a light current load is applied to the circuit. However, the series coil 5| may be made of such strength, and the linkage between solenoid 4| and valve 20 may be so arranged that the speed of engine may automatically be reduced to idling when the current load is removed from the generator.
On application of a current load on the circuit 52, the field of solenoid 31 will be weakened by the opposing field of coil 5| permitting the solenoid 4| to drop a proportional amount thus opening the valve 20, permitting the engine N) to develop a higher speed so as to raise the voltage output of the regulator suificient to compensate for the loss in voltage due to the increased load on the load circuit, bearing in mind that the generator is of the shunt wound type wherein at a constant speed the voltage decreases as the current load increases.
By varying the strength of the series coil 5|, the response of the engine ||l may be changed to suit the current-voltage-speed characteristics of the generator. For instance, if the speed of the generator has to be increased only slightly to maintain a constant voltage for a relatively large applied current load, the coil 5| should be weaker than if a greater increase in speed were necessitated for the same current load. The regulator may be over-compensated, if desired, by increasing the strength of coil 5| to compensate for voltage losses in the output circuit line or for other reasons. This change in response may also be obtained by varying the weight of the solenoid 4| or otherwise offering a resistance to the movement thereof.
It will be noted that the present invention obviates the necessity of using springs by employing the force of gravity on the solenoid 4|, thus insuring smooth operation without the varying and uncertain action of springs.
While we have described our invention in its preferred embodiment, we desire it to be understood that various modifications may be made therein. For example, although the inventionis particularly applicable to generators of the shunt wound type, it is to be understood that it may be used equally well on a series wound or any other type generator as well, using a different linkage or other inter-connecting means between the electrical regulator and the valve 20 so as to operate the valve 20 in accordance with the current-voltage curve of the particular generator employed. For example, instead of a straight line link connection as shown, any suitable nonlinear cam or like interconnection between the regulator and the fuel valve may be employed. Furthermore, for small power engines which do not require an excessive force to open the butterfly valve, the vacuum booster may be omitted.
We claim:
1. In a controlling device, an electric generator, a prime mover operatively connected to said generator, means for controlling the operation of said prime mover, a pair of electro-magnetic coils adapted to react on each other and connected in shunt with the load circuit of said generator, means whereby said coils are adapted to move relatively to each other through the electro-magnetic action of the current passing through said coils, means operatively connecting said first mentioned means and one of said coils to transmit bodily movement to said first mentioned means and means responsive to the current flow in said load circuit for modifying the electromagnetic efiect of one of said coils.
2. Al controlling device in accordance with claim. 1 wherein said last mentioned means comprises a third electro-magnetic coil in series with said load circuit.
3. In a controlling device, an electric generator. a prime mover operatively connected to said generator, means for controlling the operation of said prime mover, a pair of electro-magnetic coils electrically connected with each other and opposing each other, said pair being connected in shunt with the load circuit of said generator, means for supporting one of said coils in a fixed position, means whereby the other of said coils is adapted to be moved relative to said fixed coil against the force of gravity through the magnetic action of the current passing through said coils, means responsive to the movement of said movable coil for operating said first mentioned means and a third coil in series with said load circuit and adapted to oppose one of said first mentioned coils.
4. A device for automatically controlling the operation of a motor in accordance with the current load on a generator driven by said motor comprising means for controlling the operation of said motor, a fixed electro-magnetic coil having an upwardly extending core, an operative connection between said controlling means and said movable coil, a second electro-magnetic coil movable along said core, said coils being electrically connected with each other and in shunt with the load circuit of said generator, with their magnetic fields in opposite directions and adapted to react upon each other against the force of gravity in accordance with the voltage of said load circuit, and a third coil connected in series with said load circuit, said third coil having its magnetic field in an opposite direction to the field of said fixed coil whereby to modify the field of said fixed coil in accordance with the current in said circuit.
5. In a motor driven generator apparatus, the combination of a prime mover, means for controlling the operation of said prime mover, an electric generator operatively connected to said prime mover, a regulator responsive to said generator for operating said first mentioned means, and means actuated by said prime mover for assisting said regulator when starting said prime mover.
6. In a motor driven generator apparatus, the combination of an internal combustion engine having a fuel inlet valve, a generator operatively connected to said engine, a regulator responsive to the voltage of said generator for operating said valve, and means responsive to the difference in air pressure on opposite sides of said valve for controlling said regulator.
7. In a motor driven generator, the combination of an internal combustion engine having a fuel inlet valve, a generator operatively connected to said engine, means responsive to the current in the load circuit of said generator for operating said valve, and a vacuum booster adapted to urge said valve toward an open position when in a substantially closed position, said booster being substantially ineffective at a substantially open position of said valve.
LELAND J. ADAMS. FRANK BRACKEN.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US214274A US2168927A (en) | 1937-10-22 | 1938-06-17 | Prime mover regulation |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US17043637 US2200352A (en) | 1937-10-22 | 1937-10-22 | Regulator |
US214274A US2168927A (en) | 1937-10-22 | 1938-06-17 | Prime mover regulation |
Publications (1)
Publication Number | Publication Date |
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US2168927A true US2168927A (en) | 1939-08-08 |
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ID=26866088
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US214274A Expired - Lifetime US2168927A (en) | 1937-10-22 | 1938-06-17 | Prime mover regulation |
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US (1) | US2168927A (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2661428A (en) * | 1950-06-01 | 1953-12-01 | Gasaccumulator Svenska Ab | Transportable welding apparatus |
US2680202A (en) * | 1952-10-17 | 1954-06-01 | Electrom Neuilly Sur Seine | Current supply and starting method and unit, notably for aircraft propulsed by turbomachines or reciprocating engines |
US4756286A (en) * | 1983-07-15 | 1988-07-12 | Vdo Adolf Schindling Ag | Device for regulating the idling speed of an internal combustion engine |
-
1938
- 1938-06-17 US US214274A patent/US2168927A/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2661428A (en) * | 1950-06-01 | 1953-12-01 | Gasaccumulator Svenska Ab | Transportable welding apparatus |
US2680202A (en) * | 1952-10-17 | 1954-06-01 | Electrom Neuilly Sur Seine | Current supply and starting method and unit, notably for aircraft propulsed by turbomachines or reciprocating engines |
US4756286A (en) * | 1983-07-15 | 1988-07-12 | Vdo Adolf Schindling Ag | Device for regulating the idling speed of an internal combustion engine |
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