DE2542619A1 - DEVICE FOR CONTROLLING THE FUEL SUPPLY TO A COMBUSTION ENGINE OF A MOTOR VEHICLE - Google Patents

Description

PATENT LAWYERS? R A? 6 1 9

DR.- ING. HH WILHELM - DI PL. - I U GH D AU STE R

D-70 00 STUTTGART 1 - GYMNASIUMSTRASSE 31 B - TELEPHONE (0711) 29 11 33

Stuttgart, Sept. 24, 1975 Da / Ei

Patent and utility model auxiliary application D 4920

Note; Franz Semmler

7332 Eislingen
Arbstrasse 167

Device for controlling the supply of fuel to an internal combustion engine of a motor vehicle

The invention relates to a device for controlling the fuel supply to an internal combustion engine of a motor vehicle, which is used for Metering the amount of fuel supplied, a selector switch, in particular includes a pedal and a device for interrupting the fuel supply when a predetermined driving speed is exceeded and is operated when the selector switch is in the starting position, in particular according to the patent

(A.Z.,: P 25 34 360.6).

The main patent ensures that the fuel supply is automatic is interrupted as soon as the vehicle is in overrun mode. When a certain driving speed or engine speed is not reached, the fuel supply switches on again,

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so that the engine will run if the vehicle should come to a standstill. A significant saving can be achieved with this device of fuel consumption.

The invention is based on the object of such a device " for a carburetor engine that does not require any special construction for the carburetor and also an intervention in the Eliminates the need for a carburetor.

The invention consists in that in a leading to a carburetor Intake pipe an air flap is installed, which is to be operated with an actuator to interrupt the fuel supply is closable.

With this measure, the carburettor is simulated that the engine is at a standstill, even if the engine is actually running should still rotate at a relatively high speed, so that the fuel delivery is interrupted. This design of the device comes into play without special construction of the carburetor and without intervention off the carburetor so that it can be used with any type of carburetor.

In order not to let the negative pressure in the intake pipe behind the carburetor become too great when the fuel through the device supply is interrupted, it is useful if between the area of the intake manifold in front of the air flap and the area a by-pass is provided behind the carburetor. A closure member is expediently assigned to this by-pass, which is connected to the actuator connected and that opens the by-pass when the air damper is closed. The by-pass, which is closed in normal operation, thus has no influence on the function and the setting of the carburetor for normal operation.

In a further embodiment of the invention, two can be inserted between the inlet or the outlet of a carburetor and the intake manifold Built-in parts provided that the air flap and the closure

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element included and which are connected via the by-pass. on In this way, a kit is created that can be easily installed in the intake duct of an internal combustion engine can without having to change the carburetor or its setting.

In a further embodiment of the invention it is provided that the Device for interrupting the fuel supply an electrical one Contains actuator which is connected via a relay to a source of electrical energy, wherein in the control circuit of the Eelais a switch connected to the selector switch and a switch that closes when a specified driving speed is exceeded Switching element is switched. In the case of injection engines in particular, it can be provided that the switching element is one in one Intake manifold of an injection engine built-in vacuum switch is used.

In most cases it will be advantageous if the switch, which switches depending on the driving speed, is a transistor is, at the base of a voltage generated by a generator is applied, which is proportional to the engine speed rotating component is connected. It is possible to use the voltage of a direct current generator or the rectified To use voltage of an alternator.

In a further embodiment of the invention it is provided that the device for interrupting the fuel supply and the Maximum speed of the vehicle can be limited, regardless of the selected position of the pedal that is operated by the driver will. For this purpose it is provided that a relay which actuates the device for interrupting the fuel supply is connected to Actuator controls, another control circuit is connected, which contains only one switching element that depends on the control circuit closes on reaching a predetermined, preferably selectable driving speed. When reaching the specified

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Driving speed, the fuel supply is then interrupted regardless of the position of the accelerator pedal. She will only released again when the speed falls below the specified speed.

Further features and advantages of the invention emerge from the following description of several shown in the drawings Embodiments and the subclaims.

Fig. 1 shows a schematic representation of an inventive Device for a carburetor engine,

2 shows a circuit diagram for an electrical actuator of the device according to FIGS. 1 and

FIG. 3 shows part of a circuit diagram for a further embodiment of a device according to the invention.

In Fig. 1, a downdraft carburetor 1 is shown schematically, which is installed in an intake manifold (not shown) of an internal combustion engine is. The carburetor has an air funnel 2 into which a main nozzle 3 opens which is connected to a float housing 4, one of which supplies fuel via a float valve 5 steering float 6 contains. Connect one to the connection line between the main nozzle and the float housing Main air nozzle 7 and an idle air nozzle 9 via an idle nozzle 8. Guide the idle jet 8 and the idle air jet 9 to an idle bore 10 which opens downstream of a throttle valve 11. About the throttle valve 11 by the The amount of air sucked in through the carburetor is controlled, which is responsible for the amount of fuel sucked in in a known manner is. The throttle valve 11 is connected via a lever linkage 12 to a pedal 13, which feeds as a selector switch for the fuel and thus as a selector switch for the operating status of the engine or of the vehicle.

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The throttle valve 11 is in the idle position shown, when the pedal 13 is released and via a spring 14 in its rest position or starting position is withdrawn. In this pail fuel is essentially only via the idle bore 10 sucked, the calculation of this amount is done so that the engine runs without stalling. The position shown also assumes the throttle valve when the vehicle to which the downdraft carburetor 1 belongs is running in overrun mode, whereby the Pedal 13 has been returned to its original position. In this case it is increased by the prevailing behind the throttle valve A slightly larger amount than the amount of fuel required for idling is sucked in under vacuum.

To reduce fuel consumption by reducing the fuel supply is completely interrupted in overrun, measures are taken that the downdraft carburetor 1 in overrun Simulate the state of motor standstill. For this purpose, an air flap is placed in the intake manifold in front of the inlet of the downdraft gasifier 1 arranged, which can be closed via an electric actuator 16 and a lever mechanism 32. This air flap 31 then cuts off the air supply to the carburetor 1 completely.

To avoid that then in the area below the throttle valve 11 too high a negative pressure is generated, which could also lead to increased suction via the idle bore 10, a by-pass 34 is provided, which covers the area of the suction pipe in front of the air flap 31 with the area behind the throttle valve 11 connects. A closure member 33 is assigned to this by-pass 3 ^, which is hinged to the air flap 31 and is adjusted synchronously with this. The adjustment takes place so that the closure member 33 the by-pass 34- opens when the air flap 31 of the actuator 16 is closed. In the by-pass 34- is one Throttle screw 35 is provided, through which the negative pressure in the Suction pipe behind the carburetor can be adjusted. The negative pressure can be chosen so that it is approximately the idle conditions corresponds, so that only the necessary for idling

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Amount of fuel can be sucked in via the idle bore 10. But it is also possible to set the negative pressure so that it deviates from the idle conditions, so that practically at all no fuel delivery is obtained in overrun mode.

It is automatically determined whether the vehicle is working in overrun mode. For this purpose, the position of the accelerator pedal and the driving speed of the vehicle or the engine speed are recorded. As Fig. 2 shows, the electric actuator 16 is in a circuit with which it is connected to the positive pole 18 of the vehicle battery and is connected to ground 19. This circuit includes except a fuse nor the known means 21 for interference suppression. In this circuit there is a switch 22 which is operated by a relay 23 is operated. In the control circuit of the relay 23 there is initially a Test switch 17, which is assigned to the pedal 13 and its position supervised. The push button switch 17 closes when the pedal 13 is in its starting position. As another switch a transistor 24 is used, the emitter 2 of which is connected upstream of different resistors 25 and 26, each of which one is switched on via a changeover switch 27 in the circuit. The collector of transistor 24 is connected to relay 23, which in turn is connected to ground via a line 44. If necessary, a dashed line can also be used Switch 29 can be arranged between the transistor 24 and the relay 23, by means of which another variable is used as a criterion for the The device for interrupting the fuel supply becomes effective can be entered. For example, it is possible to provide a switch that operates with the vehicle's clutch pedal is connected so that it opens the control circuit of the relay 23 when the clutch is actuated. This prevents the The engine cuts out if the clutch is disengaged while driving.

The base 24 of the transistor is dependent on the driving speed or a voltage applied to the speed of the motor

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one is proportional to the engine speed or the vehicle speed rotating component is driven. For example, such a direct current generator can be built into a gearbox, will.

It is also possible to use existing devices in the vehicle, as shown in FIG. A generator 28 is used here with two terminals on the base circuit of the Transistor 24- connected ignition coil 28, which is one of the engine speed dependent alternating voltage generated. This alternating voltage is rectified before it is fed to the base of the transistor will. For this purpose, a capacitor 39 and a rectifier 40 are connected upstream of the base in the usual way. Also are another filter capacitor 4-1 and a limiting diode leading to ground 4-3 4-2 provided.

When the vehicle is traveling and the engine is running at a certain speed above the idling speed, the transistor 24- is made ready by the base voltage generated by the ignition coil 28. If now the push button switch 17 is also closed, which or the like by releasing the pedal for braking or when driving downhill. ¹ happens, the relay 23 is energized. The relay 23 then actuates the electric actuator via the switch 22, so that the fuel supply to the downdraft carburetor 1 is interrupted in the manner already described.

If the driving speed or the engine speed is below the set If the value drops, there is no longer sufficient current to continue to hold the relay 23. The relay 23 drops out and opens the switch 22, so that then the electric actuator 16, preferably a direct current magnet, is also de-energized and the Releases fuel supply. The same case occurs when the vehicle is to be accelerated again by actuating the pedal 13, since the push button switch 17 is then opened.

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Instead of controlling the relay 23 via a rotating one Component, it is also possible to use another parameter that is dependent on the operating state of the engine.

Pig. 3 shows such a possibility, in which an air intake duct 45 of an injection motor, a vacuum switch 46 is connected is. The vacuum switch 46 is designed so that it has its electrical switch at a predetermined negative pressure 47 closes .. The vacuum setting is carried out in such a way that that the negative pressure necessary for closing with a clear margin differs from the negative pressure in the air intake duct 45 when the engine is idling.

The vacuum switch 46 or its electrical switch 47 can in the control circuit according to FIG. 2 of the relay 23 instead of the generator to be built in. For this purpose, it is provided that the vacuum switch 46 switches the bias voltage for the transistor 24. He is connected via a resistor 48 to the base of the transistor and via the resistors 48 and 49 to the positive pole. Also is the electrical switch 47 is connected to the line 44. Even In this case, two criteria are recorded in order to determine the overrun of the vehicle or the engine and then the fuel interrupt supply.

It should be noted that, if necessary, the device according to the invention can also be used sensibly with stationary units, since it It can also happen with these units that they work in overrun mode.

It is easily possible to add another control circuit to the To connect relay 23, which can for example essentially correspond to the control circuit according to FIG. 2, but which does not have any contains the pedal 13 dependent switch, but only one speed-dependent switched transistor, similar to transistor 24. This transistor, which corresponds to the resistors 25 or 26 If necessary, continuously variable resistors are connected upstream,

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is then also dependent on the driving speed operated generator controlled. This makes it possible to limit the driving speed to a maximum value, by then energizing the relay 23 each time through this control circuit and thus the device for interrupting the Fuel supply is actuated when the speed is reached or is exceeded. This happens regardless of the position of the accelerator pedal.

It is self-evident in a modification of the illustrated embodiments also possible to use a pneumatic or hydraulic actuator instead of an electric actuator 16, which is connected to an energy source via a valve. The valve can then be controlled via a corresponding control circuit be switched.

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Claims (12)

Patent and protection claims / Ι. · Device for controlling the fuel supply to a Ver ^w 'internal combustion engine of a motor vehicle, which contains a wiper switch for metering the amount of fuel supplied, in particular a pedal and a device for interrupting the fuel supply, which when a predetermined driving speed is exceeded and when in the starting position Selector switch is operated, in particular according to the patent (A.Z .: P 25 34 360.6), characterized in that in a to an intake manifold leading to a carburetor (1) an air flap (31) is installed, which can be closed with an actuator (16) to be actuated to interrupt the fuel supply. 2. Apparatus according to claim 1, characterized in that between the area of the intake manifold in front of the air flap (31) and the area behind the carburetor (1) a bypass is provided. 3. Device according to claim 2, characterized in that the by-pass (3 ² O) is assigned a closure member (33) which is connected to the actuator (16) and which opens the by-pass when the air flap (31) is closed. 4-. Device according to claim 2 or 3, characterized in that that the by-pass (34-) is a preferably adjustable throttle point (35) contains. 5- Device according to at least one of claims 1 to 4-, characterized in that two built-in parts (30, 36) which can be inserted between the inlet and the outlet of a carburetor (1) and the suction pipe are provided, which the air flap (31) and contain the closure member (33) and which are connected to one another ^{via the bypass (3 2 O. -11-} 709813/0483 6. Device, in particular according to claim 1, characterized in that that the device for interrupting the fuel supply includes an actuator (16) which via a relay (23) ac a Energy source (18) is connected, a switch connected to the selector switch (13) in the control circuit of the relay • (17) and on when a specified driving speed is exceeded or switching element (24) closing the engine speed is connected upstream. 7. Apparatus according to claim 6, characterized in that the Switching element with a built into an intake manifold (45) of an injection engine Unterdrucksäialter (46) is controlled. 8. Apparatus according to claim 7, characterized in that the vacuum switch (46) is assigned to a transistor (24), which he switches the bias voltage. 9 · Device according to claim 6, characterized in that the from the driving speed bzxv. depending on the rotor speed The switching switch is a transistor (24), at the base of which a voltage generated by a generator (28) is applied, which is connected to a component rotating in proportion to the engine speed. 10. Apparatus according to claim 9? characterized in that the The base of the transistor (24) is connected to an ignition coil (28) of the internal combustion engine via a rectifier (40). 11. The device according to claim 9 »characterized in that the to the transistor (24) connected generator, which is preferably a direct current generator, in a to the motor vehicle belonging gear is installed. 12. The device, in particular according to claim 1, characterized in that a relay (23) ₅ which controls a device for interrupting the fuel supply actuating actuator (16), a v / additional control circuit is connected which contains only one switching element that the control circuit closes depending on the achievement of a predetermined, preferably selectable driving speed. 709813/0483