JPS59196936A - Fuel controlling apparatus - Google Patents

Abstract

PURPOSE:To ensure safe operation of an engine, by connecting the shaft of a throttle valve of the engine to a motor by the intermediary of a cam which is urged in the throttle valve closing direction by a resilient means, and employing such an arrangement that the throttle valve can be controlled by a mechanical means when trouble is caused with the motor. CONSTITUTION:The valve shaft 9 of a throttle valve 2 is connected to a motor 12 by the intermediary of a lever 10 and a cam 11. The cam 11 has a spring 14 which urges the throttle valve 2 in its closing direction. Therefore, if some trouble such as disconnection of the motor 12 is caused, the throttle valve 2 is closed by the spring 14 without fail, so that the engine speed is not raised extraordinarily. Thus, it is enabled to ensure safe operation of an engine.

Description

[Detailed Description of the Invention] [Field of Application of the Invention] The present invention provides fuel supply through a throttle valve provided at the intake 1h'@.
The present invention relates to a fuel control device that controls engine speed, and particularly to a fuel control device that is suitable for controlling engine rotation speed during idling.

[The back of the invention]

Conventionally, engine idle rotation was controlled by controlling the throttle valve opening degree. A side device is known from Japanese Patent Laid-Open No. 56-96125. That is, as shown in FIG. 1, the rotation of the electric motor 21 and the gear mechanism 22 convert the piston 23 into a reciprocating operation, and the piston 23 changes the opening degree of the throttle valve. It was designed to be controlled. However, in such a conventional device, if the power supply wiring 24 of the Ton@ki 2117J is disconnected, or if the gear mechanism 22 becomes stiff, there is a risk that the throttle valve may remain open and become uncontrollable.

[Purpose of the invention]

The present invention was made in view of the above circumstances, and its purpose is to prevent the throttle valve IH &
It is an object of the present invention to provide a fuel control device with excellent safety that can actually be closed.

[Invention V) Overview]

In the fuel control device according to the present invention, the throttle shaft? , the cam is biased in the closing direction by elastic means and is connected to the electric motor, so that even if control by the electric motor becomes impossible, the cam VC throttle valve will remain closed. It is rotated to control the opening to a predetermined degree.

[Embodiments of the invention]

Hereinafter, one embodiment of the present invention'? f: Figures 2 to 5? Refer to and explain.

FIG. 2 shows the fuel fijlJ at pupil -9.

1 is an intake passage that supplies air to the engine, and has a throttle valve 2. A fuel injection valve 3 is provided in the venturi section 5 upstream of the throttle valve 2.
A hot wire type air flow meter 7 is installed in the bypass passage 6 between this venturi part 5 and the mosquito air passage 4 upstream thereof, and this hot wire type air flow meter 7 measures the amount of air that can be supplied to the engine. Flow rate? The computer 8 outputs the hot wire signal VHW and the engine speed signal N.
1 Car cooler switch signal C1 Throttle valve opening sensor signal TH
1 Is the engine operating status based on the cooling water temperature signal W, etc.? In order to detect and supply the optimum amount of fuel for each operating condition, the fuel injection valve 3
I'm trying to output a signal to .

By the way, as shown in FIG. 3, a lever lO is fixed to the throttle valve shaft 9 of the fuel side device, and the lever lO is engaged with the cam IIE via the roller 15. is a spring that presses against the roller 15 and the cam 15. This cam 11 is biased by an elastic means such as a torsion coil spring 14 in a fixed rotational direction, that is, in a rotational direction in which the cam surface closes the two throttle valves. A step motor 12 is connected to the cam shaft 11 of the cam 11, which can resist an AK spring 14VC, and this motor 12 rotates in response to a signal from the computer 8.

The computer 198 detects the presence or absence of cooling water, car cooler load, etc. based on signals from each sensor, and determines a target idle rotation speed.

Figure 3 is an example of target rotation speed for cooling water temperature.
Is the computer 8 the target rotation speed corresponding to the cooling water temperature? The search is performed from the memory area.

The computer 8 also determines the engine rotational speed during idle linking via the idle switch and rotational speed sensor r. If the rotational speed is different from the target rotational speed, a pulse signal is output to the step motor 12 so as to bring the rotational speed closer to the target. The step motor 12 rotates according to the pulse signal and rotates the cam 11 fixed to the rotor shaft.

By the way, as shown in FIG. 4, the cam 11 has a cam profile in which the amount of change in the throttle valve opening relative to the amount of change in the cam rotation angle increases in proportion to the throttle valve opening. have. With such a cam profile, it is possible to suppress changes in engine rotational speed due to changes in the cam rotation angle in a region where the engine rotational speed is low, resulting in high controllability. 1 accuracy can be obtained.

Since the cam 11 is urged by the spring 14 in the direction in which the throttle valve 2 closes, the step motor 12 may lose its holding torque due to a break in the power supply wiring or the like. If the opening is lost, the spring 14 returns to a predetermined position and the throttle valve 2 closes to a predetermined opening degree.

Therefore, according to this embodiment, even if the power supply wiring of the step motor is disconnected, the throttle valve 2 is closed by the barb 14 until the predetermined closed limb is closed, so there is no danger that the idle link rotational speed will not decrease even in the event of a disconnection, thereby increasing safety. can be secured. Also, cam profile? As mentioned above, if the change in the throttle valve opening with respect to the rotation angle of the cam is increased in proportion to the throttle valve opening, a high degree of control can be obtained.

〔Effect of the invention〕

As described above, according to the present invention, the throttle valve sleeve receives electricity via the cam which is mechanically biased in the closing direction r by the elastic means.
Since it is configured to be connected to the rock, even if the side leg by the electric motor becomes disabled due to a disconnection accident, the throttle valve shaft can be connected by mechanical means. The excellent effects of being able to control and ensuring safety are achieved.

[Brief explanation of the drawing]

Fig. 1 is an analysis diagram of the main part of a conventional example, Figs. 2 to 5 show an embodiment of the present invention, Fig. 2 is a schematic sectional view of the engine, and Fig. 3 is a main part of the engine. A sectional view, FIG. 4 is a diagram showing an example of the characteristics of a normal control device, and FIG. 5 is a diagram showing a cam curve. l... Intake passage, 2... Throttle valve, 9... Throttle valve shaft, 1
0... Lever, 11... Cam, 12... Electric motor,
14...Elastic hand sitting ('c) method EJtA (proboscis)

Claims (1)

[Claims] 1. In a fuel control device in which a throttle valve provided in the intake passage of an engine is controlled to open and close by an electric motor driven based on the rotational speed color code of the engine, etc., a force l is applied to the throttle valve ZJ axis.
- At the same time, this cam is biased in the direction of the throttle valve (A) by the force means, and this cam is connected to the throttle valve (A).
Is it connected so that it can be driven against the elastic means? Features a fuel control device.