AU2619197A - Apparatus for controlling a load connected to an engine - Google Patents

Description

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AUSTRALIA

PATENTS ACT 1990 COMPLETE SPECIFICATION FOR A STANDARD PATENT I ORIGINAL seesi Name of Applicant: JOHN GALGUT Actual Inventors: Kevin Patrick Austin Pearman S* David Joseph Peart Address for Service: MADDERNS, 1st Floor, 64 Hindmarsh Square, Adelaide, South Australia, Australia Invention title: "APPARATUS FOR CONTROLLING A LOAD CONNECTED TO AN ENGINE" The following statement is a full description of this invention, including the best method of performing it known to me.

S-1- 4- LV INTRODUCTION AND BACKGR

OUND

THIS invention relates to an apparatus for controlling a load provided to an internal combustion engine during operation.

If In US Patent 4,300,088 to Hicks and with reference to figure 2 of the specification, there is disclosed an electric charging apparatus for ground vehicles. The apparatus disclosed comprises an alternator including an :excitation circuit comprising a rotor winding and a generator circuit ,excitation circuit corpnsing Scomprising a three-phase stator winding. The apparatus further comprises control means connected to a brake pedal of the vehicle ,1 arranged such as to excite the excitation circuit dependent on the extent of actuation of the brake pedal. The said control means replaces the conventional regulator of conventional alternators. If the brake pedal is not actuated, the excitation circuit is not excited so that the alternator does not present a load to the vehicle engine. However, when the brake pedal is actuated, the excitation circuit is energised, thereby causing the generator circuit to become operative- The more the brake pedal is actuated, the larger the output current cf the generator circuit becomes.

SWith this apparatus, the electrical generating and charging system is operative only during braking operations, so as to take advantage of the 2 -4 w energy which is usually dissipated as heat in the brake system, to produce electrical battery charging power.

Although operating economics may be achieved with this system, it suffers from the disadvantage that measured against the total driving time of a vehicle, the proportion of town driving with long waiting times during which the engine idles and cruising on the open road, when the brakes are also not applied, is very great. During these periods the alternator would not be operative. The periods during which the alternator would be operative may not be sufficient and this may cause damage to the alternator and/or 10 the battery of the vehicle.

OBTECT OF THE INVENTION Accordingly, it is an object of the present invention to provide alternative apparatus with which the applicant believes the aforementioned problems may at least be 15 alleviated and which would also improve the economy and/or performance of engines.

SUMMARY OF THE INVENTION According to the invention apparatus for controlling a load, including an alternator, connected to an internal combustion engine during operation;the apparatus including power sensitive means sensitive to a demand for an increase in output power to be generated by the engine and Soperative means responsive to the power sensitive means and being connected to remove part of the load connected to the engine constituted by the alternator thereby to L.1 i;u 3* usnrar -T make more of the power generated by the engine available to a remaining part of the load, wherein the alternator has an excitation circuit and a voltage regulator connected in said excitation circuit and being arranged to render the excitation circuit inoperative when it, the voltage regulator, is subject to a voltage in excess ot a predetermined voltage and wherein the operative means comprises voltage generator means which is connected to the voltage regulator and which 10 when operated, generates a voltage in excess of said predetermined voltage thereby causing the excitation circuit to be inoperative.

The means sensitive to a demand for an increase in output power may comprise means sensitive to a decrease in vacuum, in use, created in a manifold region of the engine.

Said means sensitive to a decrease in vacuum may comprise a vacuum switch comprising a diaphragm which is in suction communication with the manifold region of the vehicle and operable under the influence of vacuum to actuate an electronic switch element.

The vacuum switch preferably comprises adjustment means for displacing said Sdiaphragm and said switch element relative to one another.

4 The means responsive to the sensitive means may comprise an electronic controller comprising an input and an output, the input being connected to said electronic switch element and the output to said part of the load.

The said part of the load preferably comprises an alternator and a voltage regulator therefor connected in an excitation circuit of the alternator. The electronic controller preferably comprises voltage generator means connected via said output of the controller to the voltage regulator for generating a voltage; in response to a signal from S said sensitive means for interrupting current flow in the excitation circuit, thereby to 10 switch off the alternator.

.a The said voltage generator means preferably comprises a DC to DC converter operative, when switched on, to generate a voltage larger than said set value.

-i YII--~PI~ UI~ IISUII~OC Said part of the load may further comprise an air-conditioning system of a vehicle driven by the engine and the electronic controller may comprise an enable and disable circuit to disable the air-conditioning system, in response to a signal from said means sensitive to a demand for an increase in output power to be generated by the engine.

Said enable and disable circuit may comprise time delay means for causing a time delay before the air-conditioning system is enabled again.

Si The controller may further comprise a battery voltage sense circuit and switch means for switching said voltage generator means off, if the S 1 voltage of a battery connected to the controller has fallen to below a predetermined value.

BRIEF DESCRIPTION OF THE DIAGRAMS The invention will now further be described, by way of example only, with reference to the accompanying diagrams wherein: figure 1 is a block diagram of one embodiment of the invention and S- certain relevant components of a motor vehicle comprising an internal combustion engine; 6 F figure 2 is a circuit diagram of the one embodiment of the invention; and figure 3 is a diagrammatic sectional view through a housing of the apparatus according to the invention.

DESCRIPTION OF A PREFERRED EMBODIMENT OF THE INVENTION

'"I

In figure 1 there is shown a diagrammatic block diagram of a first embodiment of the apparatus 10 according to the invention and certain relevant components of a vehicle (not shown) comprising an internal combustion engine (also not shown).

if i The apparatus 10 comprises means sensitive to a demand for an increase in power to be generated by the engine in the form of a vacuum switch 12. The vacuum switch 12 is connected via a suitable suction conduit 14 to a manifold region 16 of the engine. Upon a demand for an increase in output power, for example when the accelerator pedal (not shown) of the vehicle is depressed further to accelerate the vehicle or to S- climb a hill or the like, the vacuum created in the manifold region is decreased. The vacuum generated in the manifold region of an internal combustion engine is inversely proportional to the power demanded, which in turn is proportional to the degree of depression of the accelerator pedal.

The physical construction of the apparatus 10 is shown in more detail in figure 3. The vacuum switch 12 is housed in a housing 18 for the apparatus. The vacuum switch 12 comprises a thin metal diaphragm mounted in the housing to form one wall of a fluid tight chamber 22 in the housing communicating via conduit 14 with the manifold region 16.

A micro-switch 26 is mounted with other electronic circuitry on a printed circuit board 24 so that the actuation button 26.1 of the switch 26 is 1.0 located ,inderneath diaphragm 20. At one end thereof, board 24 is mounted on pillars 25 in housing 18. At the other end it is suspended S. from a spring biased adjustment screw 27 extending through housing 18, so that the distance of micro-switch 26 from the diaphragm is manually adjustable from outside of the housing, when the housing is closed.

During normal operation of the engine and vehicle, that is during idling and cruising. the suction in the manifold region 16 cases diaphragm to bulge away from the switch 26. Switch 26 is then in a normally open (NO) position. but as the vacuum decreases as a result of actuation of the accelerator pedal, the diaphragm adopts its normal flat form, shown

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I-L li in figure 3. wherein it actuates button 26.1 to close switch 26. Electrical wires 28 connect switch 26 of vacuum switch 12 to means responsive to the vacuum switch in the form of electronic controller 30 made up by the aforementioned electronic components on printed circuit board 24.

As best shown in figure 2. the controller 30 comprises a DC to DC converter 32 comprising an integrated circuit pulse width modulator 34.

As shown in figures 1 and 2. the controller 30 is connected at 36 and 38 respectively to the indicator light 40 of the vehicle and the 12 volt S: battery 42 of the vehicle. When the converter 32 is switched off. that O: is when switch 26 is open. there is provided substantially 12V at output terminal 44 of the controller. However, when the switch 26 is closed.

converter 32 starts operating and then there is provided a 18 V DC voltage at output 44. Output 44 is connected to a D terminal of the conventional regulator 46 of conventional alternator 48 of the vehicle.

15 Referring now only to figure 2. the controller further comprises a start up circuit 50: a voltage sense circuit 52; a one minute delay circuit 54 connected to the output of the voltage sense circuit; a field effect transistor (FET) switch 56 connected between a normally open contact (NOlof the micro-switch 26 and the pulse width modulator 34: an output '79 P delay circuit 58 connected between the converter 32 and output terminal 44 and an enable an disable circuit 60 for an air-conditioning system of Sthe vehicle, shown at 62 in figure 1.

Referring now to figure 1. conventional alternator 48 is connected in conventional manner at its B' and B terminals across the vehicle battery 42. As indicated hereinbefore, the D' terminal is also connected to the battery 42 via ignition switch 64. ignition lamp 40. input terminal 36 of Scontroller 30 and output terminal 44 of controller The alternator 48 comprises an excitation circuit comprising a rotor 0 with excitation windings. The rotor is connected via a drive train 68 to be driven by the engine of the vehicle. The alternator further comprises a generator circuit comprising a stator 70 comprising a three-phase winding system. A bridge circuit 72 connects the outputs of the threephase winding to the B* and B'terminals of the alternator. Exciter diodes 71 and the negative diodes of bridge circuit 72 are connected in the excitation circuit together with regulator 46 in conventional manner.

The regulator 46 has first, second and third terminals D. D' and DF respectively. If the voltage between terminals D D is lower than a

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p- predetermined setvalue, the regulator is operational and regulates current flow in the excitation circuit in conventional manner. However, if the voltage between terminals D0 and D' exceeds the predetermined set value, a switch system (not shown) in the regulator opens, thereby interrupting current flow through the excitation circuit. When current in the excitation circuit is interrupted, the alternator is switched off and it then does not generate a voltage in the stator 70. to drive the electronic circuitry 74 of the vehicle or to charge the battery 42. It thus ceases to be a load (o the engine of the vehicle except, of course, for some fricon 10 losses in the alternator 48.

In use, when a demand for more output power from the vehicle engine is made by further depressing the accelerator pedal, either to accelerate S* the vehicle or to climb a hill, the suction in the manifold region 16 decreases, causing diaphragm 20 to actuate button 26.1 of micro-switch 15 26. thereby to connect the normally open (NO) contact of switch 26 to the common terminal C, both shown in figure 2.

The DC to DC converter 32, which is normally off so that 12 volt is available at output 44 of the controller, is switched on to provide 18 V at output 44. This voltage exceeds the aforementioned predetermined set voltage for regulator 46 causing the aforementioned switch n the regulator to open and the current flow in the excitation circuit to be interrupted, thereby to switch the alternator 48 off as hereinbefore Sdescribed. At the same time relay 61 of enabling and disabling circuit causes air-conditioning system 62 also to be switched off by opening circuit 63.

Thus, part of the load connected to the engine of the vehicle i.e. the Ialternator 48 and airconditioning system 62 is removed, thereby making S I more of the output power available to the driving wheels of the vehicle.

"0 When the accelerator pedal is kept in a constant position again the vacuumin manifold 16 increases causing the diaphragm 20 to bulge and vacuum in mathe o n terminl.

Sthe NC terminal of switch 26 to be connected to the common terminal.

The DC to DC converter is then switched off so that 12 V is available at output 44. The alternator 48 is then energised in the conventional manner through pre-excitation, and maintained on by self-excitation.

After a delay determined by the 555 timer forming part of the enable and S*disable circuit 60, the air-conditioning system is energised again.

12 4 .1 The voltage sense circuit 52 (shown in figure 2) senses the battery voltage and if it becomes too low, the DC to DC converter 32, if on, is Sswitched off by switch 56, thereby to start the alternator 48 again to charge the battery 42.

It will be appreciated that there are many variations in detail on the apparatus according to the invention without departing from the scope and spirit of the appended claims.

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Claims (10)

1. 2. Apparatus as claimed in claim 1 wherein the voltage generator comprises a DC y to DC converter. 14
2. 3. Apparatus as claimed in claim 1 wherein said power sensitive means comprises means sensitive to a decrease in vacuum, in use, created in a manifold region of the engine.
3. 4. Apparatus as claimed in claim 3 wherein said means sensitive to a decrease in vacuum comprises a vacuum switch comprising a diaphragm which is in suction communication with a manifold region of the vehicle and operable under the influence of vacuum to actuate an electronic switch element.
4. 5. Apparatus as claimed in claim 4 wherein the vacuum switch comprises adjustment means for displacing said diaphragm and said switch element relative to one another.
5. 6. Apparatus as claimed in claim 4 or claim 5 wherein said operative means responsive to said sensitive means comprises an electronic controller having an input and an output, the input being connected to said electronic switch element and the output to said part of the load.
6. 7. Apparatus as claimed in any one of the preceding claims wherein another part of the load comprises an air-conditioning system of a vehicle driven by the engine and Swherein the electronic controller comprises an enable and disable circuit to disable the air-conditioning system in response to a signal from said means sensitive to a demand i for an increase in output power to be generated by the engine.
7. 8. Apparatus as claimed in daim 7 wherein said enable and disable circuit comprises time delay means for causing a time delay before the air-conditioning system is enabled again.
8. 9. Apparatus as claimed in any one of the preceding claims comprising a battery connected to be charged by said alternator; a battery voltage sense circuit; and switch means connected to the voltage sense circuit for switching said voltage generator means off, if the voltage of the battery has fallen to below a predetermined value. 10 10. A vehicle comprising an internal combustion engine and the apparatus as claimed in any one of claims 1 to 9.
9. 11. Apparatus for controlling a load connected to an internal combustion engine substantially as herein described with reference to the accompanying diagrams.
10. 12. A vehicle comprising apparatus for controlling a load connected to an internal S combustion engine for driving the vehicle substantially as herein described with reference to the accompanying diagrams. -i 20 Dated this 20th day of June 1997. JOHN GALGUT By his Patent Attorneys MADDERNS 625 16