US2053682A - Governing apparatus for internal combustion engines - Google Patents

Governing apparatus for internal combustion engines Download PDF

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US2053682A
US2053682A US4815A US481535A US2053682A US 2053682 A US2053682 A US 2053682A US 4815 A US4815 A US 4815A US 481535 A US481535 A US 481535A US 2053682 A US2053682 A US 2053682A
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fuel
engine
governor
pumps
pump
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Schaer Charles
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Sulzer AG
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02MSUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
    • F02M63/00Other fuel-injection apparatus having pertinent characteristics not provided for in groups F02M39/00 - F02M57/00 or F02M67/00; Details, component parts, or accessories of fuel-injection apparatus, not provided for in, or of interest apart from, the apparatus of groups F02M39/00 - F02M61/00 or F02M67/00; Combination of fuel pump with other devices, e.g. lubricating oil pump
    • F02M63/02Fuel-injection apparatus having several injectors fed by a common pumping element, or having several pumping elements feeding a common injector; Fuel-injection apparatus having provisions for cutting-out pumps, pumping elements, or injectors; Fuel-injection apparatus having provisions for variably interconnecting pumping elements and injectors alternatively
    • F02M63/0205Fuel-injection apparatus having several injectors fed by a common pumping element, or having several pumping elements feeding a common injector; Fuel-injection apparatus having provisions for cutting-out pumps, pumping elements, or injectors; Fuel-injection apparatus having provisions for variably interconnecting pumping elements and injectors alternatively for cutting-out pumps or injectors in case of abnormal operation of the engine or the injection apparatus, e.g. over-speed, break-down of fuel pumps or injectors ; for cutting-out pumps for stopping the engine
    • F02M63/0215Fuel-injection apparatus having several injectors fed by a common pumping element, or having several pumping elements feeding a common injector; Fuel-injection apparatus having provisions for cutting-out pumps, pumping elements, or injectors; Fuel-injection apparatus having provisions for variably interconnecting pumping elements and injectors alternatively for cutting-out pumps or injectors in case of abnormal operation of the engine or the injection apparatus, e.g. over-speed, break-down of fuel pumps or injectors ; for cutting-out pumps for stopping the engine by draining or closing fuel conduits

Definitions

  • Ihe present invention relates to the regulation or control of internal combustion engines, particularly multi-cylinder engines.
  • the engine governor being arranged to vary the outputs of these individual devices for the purpose of regulating the engine speed and power output, should one of these devices get out of order, the force required to be exerted by the governor to change the output of such device is usually increased. This interferes with the proper operation of the governor so that it is unable to maintain the speed of the engine at the desired value.
  • the change of setting of the governor caused by the additional force required to operate an improperly operating fuel pump has the effect (upon the power load on the engine being reduced) of causing the speed of the engine to increase to an extent which is liable to damage the engine.
  • the engine is apt to be allowed to race, andthereby be subjected to the injuries which are liable to occur on account of excessively high engine speed.
  • the primary object of the pres- 10 ent invention to provide a governing apparatus which willprotect-the engine against the occurrence of excessive speed, should one or more of the engine fuel pumps become jammed or otherwise get out of order in such a way as to increase 15 the operating force required of the governor.
  • Another object of the invention is to provide a governing apparatus which, in the event of damage to a fuel pump, will stop the engine and thus save the fuel pump from being damaged be- 20 yond repair, or destroyed, by continuing it in operation after the damage occurs.
  • Fig. 1 is a side elevation of the right hand end 30 portion of a multi-cylinder internal combustion engine with the governing apparatus of the present invention applied thereto, the engine being shown more or less diagrammatically.
  • Fig. 2 is a view partly in elevation and partly 35 in section showing in detail the construction of one of the members of the governing apparatus.
  • Fig. 3 is an enlarged vertical section of a relay. forming a part of the governing apparatus.
  • Fig. 4 is a view, partly in elevation and partly 40 in central vertical section, of the upper end of one of the fuel pumps and showing the construction of one of the fuel by-pass valves, and
  • Fig. 5 is a vertical sectional view illustrating the details of the fuel pumps as shown in Fig. 1. 45
  • the engine l is provided with separate or individual fuel pumps A for supplying fuel to each of the engine cylinders.
  • Three of the cylinders have been illustrated in Fig. 1 and these are supplied respectively by means 50 of fuel pumps 2, 3 and 4.
  • the pistons of these pumps are driven in any suitable manner (not shown) by the engine I so as to supply fuel to the injection valves of the engine at the proper times through the fuel pipes, or conduits 5, 6 and 1. 55
  • the speed of the engine is controlled by means of a governor B.
  • Governor 8 acts through an angle lever 9 and a longitudinally slidable rod I0 to adjust the regulating devices of each of the fuel pumps 2, 3 and 4, thereby varying the quantity of fuel delivered by each of the fuel pumps, that is, the output of each of these pumps, with variations in the engine speed, so as to maintain the speed constant within the range of operation of the governor regardless of the power output required of the engine.
  • a reduction in the power load on the engine will cause an increase in engine speed which, in turn, will cause the fly balls of the governor 8 to move outwardly from their center of rotation, thereby lowering the horizontal arm of angle lever 9.
  • This causes a movement of rod I0 toward the left, which reduces the amount of fuel supplied by the fuel pumps. Movement of rod I0 toward the right causes the quantity of fuel supplied to the engine cylinders to be increased.
  • Fig. 5 illustrates the structural details of fuel pump 2.
  • Pumps 3 and 4 are of similar construction.
  • cam 50 of the cam shaft 5I lifts the cross head body 52 and plunger piston 53 against the force of spring 54, whereby the fuel contained in the pump chamber 55 is forced through pipe 4 and injected into the combustion chamber of the engine.
  • the fuel is led from a supply tank to the pump through pipe 51, and a second pipe 58 is provided by means of which excess fuel is returned to the supply tank.
  • the longitudinally slidable rod I0 the movement of which adjusts or regulates the output of the fuel pump, is connected to a slidable rack 59, the teeth of which engage a pinion 56.
  • rack 59 On displacement of rack 59 by rod ID, pinion 56 is rotated together with sleeve 60 to which it is attached, and sleeve 60 being connected to pump plunger 53 by means of a pin 6
  • This turning of the pump plunger causes the helicoidal running control edge 62 to -uncover earlier or later in the stroke of the pump the opening leading to return pipe 58 so that a greater or lesser quantity of the fuel drawn into the pump chamber through pipe 51 can flow through groove 63 into the space below control edge 62 and thence to the outlet leading to return pipe 58.
  • the present invention provides the mechanism about to be de scribed by means of which the governor 8, whenever the resistance to the adjustment of the regulating means of the fuel pumps exceeds a predetermined force, causes the actuation of an auxiliary means for reducing the supply of fuel to the engine cylinders.
  • the operation of such auxiliary means reduces the amount of fuel supplied to such an extent that the engine is either stopped, or at least the development of power by the engine is so diminished as to prevent the engine from operating at excessively high speed.
  • valves I2, I3 and I4 are connected in the fuel pipes 5, 6 and 1 leading to the cylinders. These valves are actuated by arms or levers 4
  • the device I I is connected between the right hand end of rod I0 and the vertical arm of angle lever 9.
  • This device comprises a sleeve I6 within which is a spring I1, which at one end bears against a collar I8 formed on a rod-like member Ia, by which device II is connected to angle lever 9, and at the other end on a seat I9 which forms a part of sleeve I6.
  • is mounted against a shoulder on the left hand end of rod-like member IUa by means of a nut 2U, this disc being held against a stop 22 (formed as an extension of seat I9) by the tension of spring I1.
  • Spring I1 is held between collar I8 and seat I9 under a predetermined initial tension, so that disc 2
  • a member 23 having a cone-shaped end, and when spring I1 is compressed, this conical end moves toward the left and makes contact with two pins 24 and 25 which are mounted in member 44 which is constructed of insulating material. The movement of member 23 forces these outwardly against their positioning springs 26. In this way, a circuit is completed from battery 43 through conductors 21 and 26 to relay I5 and back to the battery through conductor 42.
  • valves I2. I3 and I4 are shown in Fig. 4. These valves are mounted upon the tops of the fuel pumps 2, 3 and 4, respectively. They are provided with a longitudinal passageway 43 by means of which fuel from the pumps is led to the conduits 5, 6 and 1. Opening laterally at the center of the valve is a small passage which is closed by valve 35 which is mounted on the inner end of a valve-supporting member 38 which is arranged to slide freely within a cylindrical bore in the valve casing. Valve 35 is urged toward the left by means of a helical spring 39, the tension of which is adjustable by turning a valve spindle 40 which is threaded into the outer end of the valve casing by a high pitched double left hand thread.
  • the arms 4I are fixed to the outer ends of spindles 40 and when these arms are turned to the Vertical position in which they are normally held by relay I5, springs 39y are compressed so that the pressure exerted by them on the respective valve-members 35 of Valves I2, I3 and I4 is sufficient to prevent these valves from opening during the operation of the fuel pumps 2, 3 and 4. Hence, under normal conditions, the fuel from these pumps is forced through conduits 5, 6 and 'I into the engine cylinders.
  • the pitch of the double threads on spindles 40 is sufficiently high so that when the right hand end of rod 33 is released by the energization of relay I5, springs 39 turn the spindles .and arms 4I together with rod 33 toward the left.
  • This permits the inner ends of spindle 40 to move outwardly a suflcient distance to release the tension of springs 39 so that valve members 35 are permitted to open, thereby allowing at least a portion of the fuel supplied by pumps 2, 3 and 4 to be by-passed through the dotted passages shown in Fig. 4 to discharge pipe 31 which may return this by-passed fuel to the fuel supply tank.
  • various changes may be made without de parting from the spirit 'of the invention.
  • various types of fuel pumps may be employed so long as the fuel outputs of the several pumps can be regulated'by a common governor.
  • the fuel pumps may be constructed as separate units, or they can be assembled in block form. It is essential, however, that each engine cylinder be supplied with fuel from its own fuel pump.
  • changes may be made in the construction of the by-pass valves, and if desired, these valves can be made to completely stop the ilow of fuel to the engine cylinders.
  • each of said pumps having a regulating device for varying the output thereof, a governor for controlling the speed of the engine, auxiliary means for reducing the fuel delivery of said fuel pumps, a connection between said governor and each of said pump regulating devices including yielding means adapted to be actuated only after the force exerted by said governor in operating said regulating device exceeds a predetermined maximum above normal, and means operatively connecting said yielding means, and said auxiliary means adapted, upon actuation of said yielding means, to operate said auxiliary means to reduce the fuel delivery to the engine.
  • a multi-cylinder internal combustion engine the combination of a plurality of fuel pumps one for delivering fuel to each of said cylinders, each of said pumps having a regulating device for varying the output thereof, a valve having an element permitting the by-passing of fuel from the delivery conduit of each of said fuel pumps, a relay having its armature operatively connectedwith said by-pass valve elements to hold them in ⁇ closed position, a governor for controlling the speed of said engine, a connection between said governor and said fuel pump regulating devices including means for closing a circuit through said relay upon an increase in the force exerted by the governor to actuate said regulating devices above normal, so as reduce the fuel supply to the engine cylinders in the event that a fuel pump becomes jammed.
  • a governor operated in accordance with the speed of the engine, means connecting said governor with said fuel supply means and actuated by said governor for controlling the fuel supply to the engine, an auxiliary device for reducing the engine output operable only after the force exerted by the speed governor in operating said fuel supply means exceeds a predetermined maximum above normal, and means actuated by said governor and forming a part of the means connecting the governor with the fuel supply means responsive to an increase above said predetermined maximum force for actuating said auxiliary device.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • High-Pressure Fuel Injection Pump Control (AREA)
  • Output Control And Ontrol Of Special Type Engine (AREA)
  • Fuel-Injection Apparatus (AREA)

Description

Sept- 3, 1936- c. scHAER I GOVERNING APPARATUS FOR INTERNAL CMBUSTION ENGINES Filed Feb. 4, '1935 2 Sheets-Sheet 1 lNVENTOR @/Mmds HIS ATTORNEYS sept'. s, 193s. C, 'HAER 2,053,682
GOVERNING APPARATUS FOR INTERNAL COMBUSTION ENGINES Filed Feb. 4, 1935 2 Sheets-Sheet 2 INVENTOR am Mw BY /a ,gm/mf/LM f H/s ATTORNEYS Patented Sept. 8, 1936 UNITED STATES GOVERNING APPARATUS FOR INTERNAL COMBUSTION ENGINES Charles Schaer, Winterthur, Switzerland, assignor to Sulzer Freres Socit Anonyme, Winterthur, Switzerland Application February 4, 1935, Serial No. 4,815 In Switzerland February 10, 1934 5 Claims.
Ihe present invention relates to the regulation or control of internal combustion engines, particularly multi-cylinder engines.
In internal combustion engines of the kind where separate devices, such, for example, as pumps, are provided to supply the fuel to each cylinder of the engine, the engine governor being arranged to vary the outputs of these individual devices for the purpose of regulating the engine speed and power output, should one of these devices get out of order, the force required to be exerted by the governor to change the output of such device is usually increased. This interferes with the proper operation of the governor so that it is unable to maintain the speed of the engine at the desired value.
In order to keep the engine operating when a fuel supplying device gets out of proper operating condition, it has heretofore been proposed to insert a yielding device in the connection between the engine governor and each individual fuel supplying device. Then, should any of the fuel supplying devices become jammed, or damaged, or otherwise get out of order, the other fuel supplying devices would be continued in op,-
eration, thereby keeping the engine running.
There are, however, two disadvantages to this arrangement. In the first place, the force necessary for operating the yielding device is added to the normal force exerted by the governor in changing the outputs of the fuel supplying devices, or in other words, the setting of the governor is changed, so that the desired speed of operation of the engine is no longer maintained by the governor. This creates a serious situation where the internal combustion engine is driving an alternating current generator connected to an alternating current distributing system to which other generators are also connected. In addition, the engine still continues in operation after the damage occurs to thefuel pump with the result that the pump is apt to be damaged, and in some instances is completely destroyed. Further damage results from the fact that foreign particles produced by the damage or destruction of the fuel pump are apt to be carried along with the fuel into the injection nozzle and into the engine cylinders. There is liability of the engine also being damaged by such foreign particles,
getting into the other fuel pumps, and likewise causing them to be damaged.
In addition to thesedisadvantages, with internal combustion engines provided with governing mechanism as above described, the change of setting of the governor caused by the additional force required to operate an improperly operating fuel pump, has the effect (upon the power load on the engine being reduced) of causing the speed of the engine to increase to an extent which is liable to damage the engine. In 5 other words, the engine is apt to be allowed to race, andthereby be subjected to the injuries which are liable to occur on account of excessively high engine speed.
Accordingly it is` the primary object of the pres- 10 ent invention to provide a governing apparatus which willprotect-the engine against the occurrence of excessive speed, should one or more of the engine fuel pumps become jammed or otherwise get out of order in such a way as to increase 15 the operating force required of the governor.
Another object of the invention is to provide a governing apparatus which, in the event of damage to a fuel pump, will stop the engine and thus save the fuel pump from being damaged be- 20 yond repair, or destroyed, by continuing it in operation after the damage occurs.
The invention will be understood from a consideration of the accompanying drawings in which there is illustrated by 'way of example one 25 embodiment of the invention shown in simplied form, and also from consideration of the following description.
In these drawings:
Fig. 1 is a side elevation of the right hand end 30 portion of a multi-cylinder internal combustion engine with the governing apparatus of the present invention applied thereto, the engine being shown more or less diagrammatically.
Fig. 2 is a view partly in elevation and partly 35 in section showing in detail the construction of one of the members of the governing apparatus.
Fig. 3 is an enlarged vertical section of a relay. forming a part of the governing apparatus.
Fig. 4 is a view, partly in elevation and partly 40 in central vertical section, of the upper end of one of the fuel pumps and showing the construction of one of the fuel by-pass valves, and
Fig. 5 is a vertical sectional view illustrating the details of the fuel pumps as shown in Fig. 1. 45
Referring now to these drawings, the engine l is provided with separate or individual fuel pumps A for supplying fuel to each of the engine cylinders. Three of the cylinders have been illustrated in Fig. 1 and these are supplied respectively by means 50 of fuel pumps 2, 3 and 4. The pistons of these pumps are driven in any suitable manner (not shown) by the engine I so as to supply fuel to the injection valves of the engine at the proper times through the fuel pipes, or conduits 5, 6 and 1. 55
The speed of the engine is controlled by means of a governor B. Governor 8 acts through an angle lever 9 and a longitudinally slidable rod I0 to adjust the regulating devices of each of the fuel pumps 2, 3 and 4, thereby varying the quantity of fuel delivered by each of the fuel pumps, that is, the output of each of these pumps, with variations in the engine speed, so as to maintain the speed constant within the range of operation of the governor regardless of the power output required of the engine. Thus, for example, a reduction in the power load on the engine will cause an increase in engine speed which, in turn, will cause the fly balls of the governor 8 to move outwardly from their center of rotation, thereby lowering the horizontal arm of angle lever 9. This causes a movement of rod I0 toward the left, which reduces the amount of fuel supplied by the fuel pumps. Movement of rod I0 toward the right causes the quantity of fuel supplied to the engine cylinders to be increased.
Although the regulating device for the fuel pumps 2, 3 and 4 can be of any suitable construction, a desirable construction is shown in Fig. 5 which illustrates the structural details of fuel pump 2. Pumps 3 and 4 are of similar construction. Referring to this figure, cam 50 of the cam shaft 5I lifts the cross head body 52 and plunger piston 53 against the force of spring 54, whereby the fuel contained in the pump chamber 55 is forced through pipe 4 and injected into the combustion chamber of the engine. The fuel is led from a supply tank to the pump through pipe 51, and a second pipe 58 is provided by means of which excess fuel is returned to the supply tank.
The longitudinally slidable rod I0, the movement of which adjusts or regulates the output of the fuel pump, is connected to a slidable rack 59, the teeth of which engage a pinion 56. On displacement of rack 59 by rod ID, pinion 56 is rotated together with sleeve 60 to which it is attached, and sleeve 60 being connected to pump plunger 53 by means of a pin 6| causes the pump plunger to be turned on its axis. This turning of the pump plunger causes the helicoidal running control edge 62 to -uncover earlier or later in the stroke of the pump the opening leading to return pipe 58 so that a greater or lesser quantity of the fuel drawn into the pump chamber through pipe 51 can flow through groove 63 into the space below control edge 62 and thence to the outlet leading to return pipe 58.
With such a pump, under normal conditions, very little force is required of the governor to rotate the pump piston and change the output of the pump. Should an irregularity in operation occur, however, such, for example, as through particles of dirt from the fuel working in between the cylinder walls and the pump piston, the piston will begin to stick or jam. Under these conditions, the piston of such a pump no longer turns readily. This increases the force required by the governor 8 to move the adjusting rod I0, and the result of this jamming of one or more of the pump pistons, is that, upon a lightening of the load upon the engine, the governor attempts to reduce the amount of fuel supplied by the fuel pumps, but the shifting of rod IU is prevented by the jammed pump, and the speed of the engine is apt to increase to a dangerous point.
To overcome this diiculty, the present invention provides the mechanism about to be de scribed by means of which the governor 8, whenever the resistance to the adjustment of the regulating means of the fuel pumps exceeds a predetermined force, causes the actuation of an auxiliary means for reducing the supply of fuel to the engine cylinders. The operation of such auxiliary means reduces the amount of fuel supplied to such an extent that the engine is either stopped, or at least the development of power by the engine is so diminished as to prevent the engine from operating at excessively high speed.
For the purpose of reducing the supply of fuel to the respective engine cylinders, by-pass valves I2, I3 and I4 are connected in the fuel pipes 5, 6 and 1 leading to the cylinders. These valves are actuated by arms or levers 4| which are pivoted at their lower ends to a common actuating rod 33. These valves are held in their normal or closed positions, shown in Fig. 1, by means of an electromagnetic relay I5, having a pin 3| attached to its core 30 which, in its normal position, engages an upwardly projecting head 32 on the end of actuating rod 33. When the operating coil 29 of relay I5 is energized, as will presently be described, pin 3| is lifted, releasing rod 33 which, being biased toward the left as will be described below moves in that direction and changes the adjustment of valves I2, I3 and I4 so that a portion, or all, of the fuel pumped by the fuel pumps 2, 3 and 4 is by-passed back to the fuel tank through conduits 31.
For the purpose of energizing relay I5, the device I I, shown in detail in Fig. 2, is connected between the right hand end of rod I0 and the vertical arm of angle lever 9. This device comprises a sleeve I6 within which is a spring I1, which at one end bears against a collar I8 formed on a rod-like member Ia, by which device II is connected to angle lever 9, and at the other end on a seat I9 which forms a part of sleeve I6. A disc 2| is mounted against a shoulder on the left hand end of rod-like member IUa by means of a nut 2U, this disc being held against a stop 22 (formed as an extension of seat I9) by the tension of spring I1.
Spring I1 is held between collar I8 and seat I9 under a predetermined initial tension, so that disc 2| is held against stop 22 with a definite pressure which corresponds to the maximum force to be exerted by governor 8 in moving rod I0 for the purpose of adjusting the regulating devices of fuel pumps 2, 3 and 4 to vary the outputs thereof.
On disc 2| there is also arranged a member 23 having a cone-shaped end, and when spring I1 is compressed, this conical end moves toward the left and makes contact with two pins 24 and 25 which are mounted in member 44 which is constructed of insulating material. The movement of member 23 forces these outwardly against their positioning springs 26. In this way, a circuit is completed from battery 43 through conductors 21 and 26 to relay I5 and back to the battery through conductor 42.
The construction of valves I2. I3 and I4 is shown in Fig. 4. These valves are mounted upon the tops of the fuel pumps 2, 3 and 4, respectively. They are provided with a longitudinal passageway 43 by means of which fuel from the pumps is led to the conduits 5, 6 and 1. Opening laterally at the center of the valve is a small passage which is closed by valve 35 which is mounted on the inner end of a valve-supporting member 38 which is arranged to slide freely within a cylindrical bore in the valve casing. Valve 35 is urged toward the left by means of a helical spring 39, the tension of which is adjustable by turning a valve spindle 40 which is threaded into the outer end of the valve casing by a high pitched double left hand thread. The arms 4I are fixed to the outer ends of spindles 40 and when these arms are turned to the Vertical position in which they are normally held by relay I5, springs 39y are compressed so that the pressure exerted by them on the respective valve-members 35 of Valves I2, I3 and I4 is sufficient to prevent these valves from opening during the operation of the fuel pumps 2, 3 and 4. Hence, under normal conditions, the fuel from these pumps is forced through conduits 5, 6 and 'I into the engine cylinders.
The pitch of the double threads on spindles 40 is sufficiently high so that when the right hand end of rod 33 is released by the energization of relay I5, springs 39 turn the spindles .and arms 4I together with rod 33 toward the left. This permits the inner ends of spindle 40 to move outwardly a suflcient distance to release the tension of springs 39 so that valve members 35 are permitted to open, thereby allowing at least a portion of the fuel supplied by pumps 2, 3 and 4 to be by-passed through the dotted passages shown in Fig. 4 to discharge pipe 31 which may return this by-passed fuel to the fuel supply tank.
In the operation of the improved governing apparatus, so long as the fuel pumps 2, 3 and 4 are in good operating condition, the adjusting forces transmitted by the governor 8 through angle lever 9, device II and rod I do not exceed the predetermined amount for which spring I1 of device II is set. However, when one of the fuel pumps begins to jam, as for example, by the presence of dirt, or other particles, between the pump plunger and cylinder Walls, the forces required for adjusting the output of the pump by the governor are increased when the engine operates at a speed which differs from its normal operating speed, because the governor strives" to adjust the regulating devices of the fuel pumps, but is prevented by the jammed pump from effecting a proper adjustment.
The jamming of a pump becomes particularly dangerous when, in consequence of the relieving of the power load on the engine, its speed rises excessively. Then a pressure towards the left (Fig, l) is exerted on rod IIl by governor 8. However, on account of the jammed pump, rod I does not move under the increased adjusting force exerted by the governor, and consequently cone-shaped member 23 of device II is moved toward the left agains't the action of spring I'I, so that contact is made with pins 24 and 25. This closes the circuit through relay I as above described, and releases rod 33 so that the valve arms 4I move toward the left as shown in Fig. 1 under the action of springs 39. This movement simultaneously reduces the tension on valves 35 and permits fuel to flow back to the fuel tank through pipes 31 instead ofbeing forced into the engine cylinders. This causes the engine to be stopped, or at least so reduces its output as to prevent an excessive 'rise in speed.
It will be understood that the above is merely an exemplifying disclosure of the invention in connection with one embodiment thereof, and
that various changes may be made without de parting from the spirit 'of the invention. Thus, for example, various types of fuel pumps may be employed so long as the fuel outputs of the several pumps can be regulated'by a common governor. Also, the fuel pumps may be constructed as separate units, or they can be assembled in block form. It is essential, however, that each engine cylinder be supplied with fuel from its own fuel pump. In like manner, changes may be made in the construction of the by-pass valves, and if desired, these valves can be made to completely stop the ilow of fuel to the engine cylinders. Furthermore, although electromagnetic means have been shown for causing the operation of by-pass or cut-01T valves I2, I3 and I4, it will be'understood that the invention includes the actuationof these Valves by other means, it being intended that the scope of the invention shall be indicated by the appended claims.
I claim:
l. In a multi-cylinder internal combustion engine the combination of a plurality of fuel pumps,`
one for supplying fuel to each of said cylinders, each of said pumps having a regulating device for varying the output thereof, a governor for controlling the speed of the engine, auxiliary means for reducing the fuel delivery of said fuel pumps, a connection between said governor and each of said pump regulating devices including yielding means adapted to be actuated only after the force exerted by said governor in operating said regulating device exceeds a predetermined maximum above normal, and means operatively connecting said yielding means, and said auxiliary means adapted, upon actuation of said yielding means, to operate said auxiliary means to reduce the fuel delivery to the engine.
2. In a multi-cylinder internal combustion engine the combination of a plurality of fuel pumps one for delivering fuel to each of said cylinders, each of said pumps having a regulating device for varying the output thereof, a valve having an element permitting the by-passing of fuel from the delivery conduit of each of said fuel pumps, a relay having its armature operatively connectedwith said by-pass valve elements to hold them in `closed position, a governor for controlling the speed of said engine, a connection between said governor and said fuel pump regulating devices including means for closing a circuit through said relay upon an increase in the force exerted by the governor to actuate said regulating devices above normal, so as reduce the fuel supply to the engine cylinders in the event that a fuel pump becomes jammed.
3. In an internal combustion engine, the cornbination of means for regulating the fuel supply to the engine during normal operation thereof, a' governor operated in accordance with the speed of the engine, means, including yielding means, connecting said governor with said Yfuel supply means and actuated by said governor for controlling the fuel supply to the engine, an auxiliary device for reducing the engin-e speed, and means operable only after the force exerted by the speed governor in operating said fuel supply means exceeds a predetermined maximum above normal and is suicient to actuate said yielding means for actuating said auxiliary device.
4. In an internal combustion engine, the combination of means for regulating the fuel supply to the engine during normal operation thereof,v
a governor operated in accordance with the speed of the engine, means connecting said governor with said fuel supply means and actuated by said governor for controlling the fuel supply to the engine, an auxiliary device for reducing the engine output operable only after the force exerted by the speed governor in operating said fuel supply means exceeds a predetermined maximum above normal, and means actuated by said governor and forming a part of the means connecting the governor with the fuel supply means responsive to an increase above said predetermined maximum force for actuating said auxiliary device.
' 5. In an internal combustion engine, the combination of means for regulating lthe fuel supply to the engine during normal operation thereof, a governor operated in accordance with the speed of the engine, an electrical circuit including an electrical de\ ice, means, including yielding means for closing said electric circuit, connecting said governor with said fuel supply means and actuated by said governor or controlling the fuel supply to the engine, auxiliary means for reducing the yengine speed, said electrical device preventing operation of said auxiliary means until the force exerted by the speed governor in operating said fuel supply means exceeds a predetermined maximum above normal and is suicient to actuate said yielding means to close the circuit including said electrical device.
CHARLES SCHAER.
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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2502989A (en) * 1945-03-05 1950-04-04 Rathbun Jones Engineering Comp Fuel injection device for diesel engines
US2932165A (en) * 1952-10-29 1960-04-12 Chandler Evans Corp Speed control apparatus for rotatable mechanism
US4380222A (en) * 1979-10-15 1983-04-19 Friedmann & Maier Aktiengesellschaft Fuel injection pump for internal combustion engines

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2502989A (en) * 1945-03-05 1950-04-04 Rathbun Jones Engineering Comp Fuel injection device for diesel engines
US2932165A (en) * 1952-10-29 1960-04-12 Chandler Evans Corp Speed control apparatus for rotatable mechanism
US4380222A (en) * 1979-10-15 1983-04-19 Friedmann & Maier Aktiengesellschaft Fuel injection pump for internal combustion engines

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