JPH0526023B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an electronically controlled fuel injection pump, and more specifically, to a fuel injection pump that electronically controls the injection amount of fuel supplied to an internal combustion engine.

Conventional electronically controlled fuel injection pumps are, for example, as disclosed in Japanese Patent Application Laid-Open No. 57-20525,
An injection amount adjustment member that mechanically adjusts the increase or decrease of the injection amount, an electric actuator that adjusts the position of the adjustment member, and a position sensor coil that detects the position of the adjustment member driven by the electric actuator. The electric actuator is driven in response to a signal indicating the operating state of the internal combustion engine combined with the fuel injection pump and a position signal from a position sensor including a position sensor coil, thereby achieving desired governor characteristics. It is configured so that it can be obtained.
The position detector has an oscillator using the position detection coil as an oscillation coil, obtains an oscillation output with a frequency corresponding to the inductance value of the position sensor coil according to the position of the injection amount adjustment member, and adjusts the injection amount based on the oscillation output. It is configured to output a DC output voltage of a level according to the position of the adjustment member as a position signal. In this type of conventional electronically controlled fuel injection pump, the circuit parts other than the position sensor coil of the position detector are housed in a control unit separate from the injection pump body, along with other control electronic circuits. The position sensor coil and the position detector circuit are wired with a predetermined wire harness.

By the way, the above-mentioned adjustment work for the electronically controlled fuel injection pump is performed by preparing the injection pump main body, which contains the position sensor coil and the electric actuator for positioning the fuel adjustment member, in advance using a predetermined wiring harness for adjustment. The adjustment element of the position detector circuit is connected so that the position of the injection amount adjustment member and the level of the position signal correspond to a predetermined relationship. Therefore, when installing the above-mentioned adjusted electronically controlled fuel injection pump in a vehicle, for example,
The control unit and the injection pump body are connected using a separately prepared mounting wiring harness, but due to differences in the length of the wiring harness, etc., the position of the injection amount adjustment member and the level of the position signal obtained from the position detector may vary. The correspondence relationship between the two deviates from a predetermined relationship, resulting in a control error and a decrease in control accuracy. Furthermore, when replacing the mounted control unit or the injection pump main body, the matching must be readjusted, resulting in a disadvantage that maintenance costs inevitably increase.

Therefore, an object of the present invention is to prevent the control characteristics from changing depending on the length of the wire harness that connects the fuel injection pump main body and the control unit, and to significantly reduce the adjustment man-hours in implementation and maintenance. It is an object of the present invention to provide an electronically controlled fuel injection pump that can not only improve the accuracy of injection amount control but also significantly improve the control accuracy of the injection amount.

The structure of the present invention includes a fuel adjustment member for mechanically adjusting increase/decrease in fuel injection amount, and an electric actuator connected to the fuel adjustment member for adjusting the position of the fuel adjustment member. A control signal for driving the actuator so as to obtain a fuel injection amount necessary to obtain a desired injection amount characteristic in response to at least a signal indicating the operating state of the injection pump main body and the internal combustion engine combined with the fuel injection pump main body. In an electronically controlled fuel injection pump equipped with a control unit comprising a circuit that outputs
a sensor coil whose inductance changes according to the position of the fuel adjustment member; a predetermined electrical connection member; and a predetermined electrical connection member that is electrically connected to the sensor coil and whose inductance changes according to the position of the fuel adjustment member. A position detection circuit unit that outputs a level DC signal is attached to or built in the fuel injection pump main body, and the DC signal is inputted from the position detection circuit unit to the control unit as a feedback signal.

In this way, since the sensor coil and the position detection circuit connected to the sensor coil by the predetermined electrical connection member are attached or built into the fuel injection pump main body, the signal indicating the position of the fuel adjustment member is transmitted to the pump. It can be output as a DC signal from the main unit.
As a result, even if the pump body and control unit are connected using an appropriate wiring harness for mounting,
Since control characteristics that are almost the same as those during adjustment can be obtained, variations in characteristics can be significantly reduced.

Hereinafter, the present invention will be explained in detail with reference to illustrated embodiments.

FIG. 1 shows an embodiment of an electronically controlled fuel injection pump according to the present invention. The electronically controlled fuel injection pump 1 includes a fuel injection pump main body 3 connected to an internal combustion engine 2, and a control unit 4 for electronically controlling the operation of the fuel injection pump main body 3. The fuel injected from the injection pump main body 3 is supplied into each cylinder of the internal combustion engine 2 via the injection pipe 5. In the illustrated embodiment, the fuel injection pump body 3 is constructed as a distributed fuel injection pump, so that in FIG.
Regarding the mechanical configuration of the fuel injection pump body 3,
Only its essential parts are illustrated, and other known mechanical configurations are omitted.

The fuel injection pump main body 3 is provided with a control sleeve 7 fitted to a plunger 6 as an injection amount adjusting member, and the control sleeve 7 is connected to an electromagnetic actuator 9 via a connecting rod 8. The electromagnetic actuator 9 is driven in accordance with a drive current supplied from the control unit 4 as described below, and thereby is positioned along the axes of the control sleeve 7 and the plunger 6, and the injection amount is adjusted. For the purpose of detecting the position of the control sleeve 7 determined by the electromagnetic actuator 9, the electromagnetic actuator 9
A sensor coil 10 is attached to. The sensor coil 10 is a variable inductance element configured such that its inductance value changes according to the amount of operation of the electromagnetic actuator 9, and
It is provided inside the case 3a.

A sensor coil 1 is provided on the upper flat part of the case 3a.
0 and the position detection circuit section 11 electrically connected to
is fixed to the case 3a with a predetermined space by support legs 12 and 13, and the sensor coil 1
0 and a position detection circuit section 11, and as will be explained later with reference to FIG. This constitutes a position detector 14 that outputs a position signal R, which is a DC signal at a level corresponding to the adjusted position of the control sleeve 7. The position detection circuit section 11 is covered and protected by a cover 15 fixed to the case 3a with screws, and the position signal R from the position detection circuit section 11 is sent to the output line 11a as an output signal of the position detector 14. The signal is input to the control unit 4 via.

The control unit 4 is supplied with a speed signal N indicating the engine speed of the engine 2 and an accelerator signal A indicating the operation amount of an accelerator pedal (not shown) from a rotational speed detector 16 and an accelerator detector 17, respectively. The control unit 4 controls the drive current supplied to the electromagnetic actuator 9 according to signals A, N and position number R indicating the operating state of the engine, and controls the drive current to be supplied to the electromagnetic actuator 9 to achieve a predetermined injection amount according to the operating state of the engine 2. The position of the control sleeve 7 is controlled so that the characteristics are obtained.

FIG. 2 shows a block diagram of the control circuit of the electronically controlled fuel injection pump 1 shown in FIG. The control unit 4 has a target value calculation circuit 18 into which the speed signal N and the accelerator signal A are input, and the target value calculation circuit 18 calculates, based on these input signals indicating the operating state of the engine,
A target position signal R _t indicating the position of the control sleeve 7 necessary to obtain the optimum fuel injection amount according to the engine operating state at that time is calculated and output. The target position signal R _t is input to the error amplification circuit 19 together with the position signal R from the position detector 14 (described later), and based on both signals R _t and R, the target position P _t and the actual control position of the control sleeve 7 are determined. An error signal E having a level corresponding to the difference from P _a is output. The error signal E is input to the drive circuit 20, and a drive current I of a magnitude necessary to drive the control sleeve 7 is applied to the excitation coil 9a of the electromagnetic actuator 9 via the output line 20a so that P _t = _a . applied.

On the other hand, the position detection circuit section 11 attached to the fuel injection pump main body 3 as described above is equipped with an oscillation circuit 22 connected to the sensor coil 10 by a wire 21, and the oscillation frequency of this oscillation circuit 22 is is configured to change in accordance with the inductance value of the sensor coil 10 functioning as an oscillation coil. The oscillation output signal O whose frequency changes according to the position of the control sleeve 7 is input to the frequency-voltage (F/V) conversion circuit 23, and the oscillation output signal O is inputted to the actual position of the control sleeve 7.
It is converted into a DC signal with a level according to P _a ,
It is output as a position signal R.

In the electronically controlled fuel injection pump according to the present invention, the position detection circuit section 11 is fixed to the case 3a of the pump body 3, and the oscillation circuit 22 in the position detection circuit section 11 and the sensor coil 10 are connected to a specific wire 21. Since the oscillation circuit 22 is connected by
Once the relationship between the position of the control sleeve 7 and the level of the position signal R is set to the desired relationship by adjusting the adjustment element (not shown) inside, the main body 3 can be mounted on, for example, a vehicle. A position signal R having predetermined characteristics can always be supplied to the control unit 4. Since the position signal R is a DC signal, the characteristics of the signal are hardly affected by the length of the wire harness connecting the main body 3 and the control unit 4. As a result, the main body 3 and control unit 4
When adjusted on a test bench and installed in a vehicle, the characteristics are hardly affected by the length of the wire harness, etc., so the adjusted characteristics can be obtained and quality uniformity can be maintained. Can be easily secured.

The position detection circuit section 11 is, for example, a hybrid
It can be made as an IC circuit, and the characteristics can be adjusted by
Functional trimming of the film resistor formed on the substrate is performed using, for example, a laser beam.
This can be done independently while the circuit section 11 is in the operating state. The final adjustment of the injection quantity characteristics may be carried out by attaching the circuit section 11 to the fuel injection pump body and using a trimmer or the like in the hybrid IC while both are in operation, and then sealing it with an appropriate means. good. Of course, it is also possible to configure the circuit using individual components and adjust the characteristics using a trimmer capacitor, variable resistor, etc. while attached to the main body 3.

In the above embodiment, the position detector 14 including the sensor coil 10 is attached to or built into the fuel injection pump body 3, but the error amplification circuit 19 and the drive circuit 20 are also housed in the case 15. The control unit 4 may be configured to supply only the target position signal _Pt to the circuitry inside the case 15. In this case, the position detection circuit section 11, the error amplification circuit 19, and the drive circuit 20 may be configured as a hybrid IC on one substrate. According to such a configuration, the drive current I from the drive circuit 20 can be supplied to the excitation coil 9a through a short wire, so that the voltage drop and power loss in the output line 20a can be significantly reduced.

Further, in the above embodiments, the present invention has been explained by taking a distribution type fuel injection pump as an example, but as can be seen from the above description, the present invention is not limited to distribution type fuel injection pumps, and can be applied to other types of fuel injection pumps. The present invention can be similarly applied to other types of fuel injection pumps (for example, row type).

According to the present invention, as described above, the position of the fuel adjustment member is detected, which includes a sensor coil, a position detection circuit, and an electrical connection member for electrically connecting these to the fuel injection pump main body. A position detector is attached or built-in, and a DC signal indicating the position of the fuel adjustment member is sent and received via the wire harness between the control unit and the pump body, so it is easy to use during adjustment and installation. Even if the wiring harness connecting the control unit and the pump body is different, it has almost no effect on the control characteristics, and when installed,
There is no problem that the accuracy of injection amount control is lower than during adjustment. Furthermore, since the position detector can be separated from the control unit, there are advantages such as the ability to downsize the control unit and reduce power consumption. Furthermore, since signals can be exchanged between the control unit and the fuel injection pump main body without being affected by the wire harness as described above, the number of adjustments or maintenance steps can be significantly reduced.

[Brief explanation of the drawing]

FIG. 1 is a schematic configuration diagram showing an embodiment of the present invention;
FIG. 2 is a block diagram of the control circuit of the apparatus shown in FIG. 1...Fuel injection pump, 2...Internal combustion engine, 3...
... Fuel injection pump body, 4 ... Control unit, 6 ... Plunger, 7 ... Control sleeve, 9 ... Electromagnetic actuator, 10 ... Sensor coil, 11 ... Position detection circuit section, 14 ... Position detector, 18... Target value calculation circuit, 19... Error amplification circuit, R... Position signal, R _t ... Target position signal, A... Accelerator signal, N... Speed signal.

Claims (1)

[Claims] 1. A fuel injection pump body comprising a fuel adjustment member for mechanically adjusting increase/decrease in fuel injection amount and an electric actuator connected to the fuel adjustment member for adjusting the position of the fuel adjustment member; The circuit includes a circuit that responds to at least a signal indicating the operating state of the internal combustion engine combined with the fuel injection pump body and outputs a signal for driving the actuator so as to obtain the fuel injection amount necessary to obtain the desired injection amount characteristic. An electronically controlled fuel injection pump comprising a control unit comprising a sensor coil whose inductance changes depending on the position of the fuel adjustment member, an electrical connection member, and an electrical connection between the sensor coil and the electrical connection member. A position detection circuit unit is attached to or built in the fuel injection pump main body, and the position detection circuit unit is connected to the control member and outputs a DC signal at a level corresponding to the position of the fuel adjustment member. An electronically controlled fuel injection pump characterized in that a feedback signal is input to the unit.