JP3314143B2 - Engine control method for construction machinery - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of controlling an engine of a construction machine, and more particularly to a method of controlling an engine of a construction machine having an electronically controlled governor.

[0002]

2. Description of the Related Art A mechanical governor mounted on a diesel engine has a mechanism for adjusting the increase and decrease of fuel by using the centrifugal force of a flyweight. When the engine speed increases, the centrifugal force of the flyweight increases and the fuel decreases. By repeating this governing action,
The engine speed is set to a certain speed corresponding to the load.

FIG. 3 shows a performance diagram of a diesel engine equipped with a mechanical governor. First, when the engine speed is fixed to a full throttle, the engine speed is no-load maximum speed R.
_M , and when the load torque is applied to the output shaft in this state, the engine speed gradually decreases due to the speed regulating action. When the engine speed reaches _RT , the rated output P _T (maximum) is reached. Output). This point on the diagram is called the rated point T. When the load further increases beyond the rated point T, the engine is stopped when the maximum torque of the engine is exceeded.

[0004]

In a conventional diesel engine equipped with a mechanical governor, when the engine load increases or decreases, fuel is supplied by a speed control action, and the engine speed is balanced with the load. As shown, for example, even when the engine speed is R ₁ ,
When the engine load increases the engine speed drops to R ₂ by an operator. On the other hand, when the engine load decreases, the engine speed increases to balance the load. As a result, the engine speed overruns by 100 rpm or more when there is no load as compared with the rated output, resulting in deterioration of noise and fuel efficiency.

Therefore, there arises a technical problem to be solved in order to suppress the fluctuation of the engine speed with respect to the increase and decrease of the engine load of the construction machine and to prevent the noise and the fuel consumption from deteriorating due to the overrun without the load. Therefore, an object of the present invention is to solve this problem.

[0006]

SUMMARY OF THE INVENTION The present invention has been proposed to achieve the above object, and is an engine of a construction machine having an electronically controlled governor, wherein an operator can arbitrarily set an engine speed. A rotation speed setting device for measuring the actual rotation speed of the engine, a load ratio detector for calculating the engine load ratio from the fuel injection amount,
A target speed setting device for automatically setting the target speed according to the engine load factor is provided, and a signal of the target speed setting device and a signal of the speed detector are input to the controller, and the engine is driven at the target speed. In the method for controlling an engine of a construction machine to be rotated, a setting set by the rotation speed setting device
The value is the maximum set value and any rotation speed before or after the rated point.
And, the minimum set value is set to idling speed, and, when the engine load rate is a low load region to set the target rotation speed to low rotation than the set rotational speed set by the rotational speed setting unit, engine load When the rate increases from the low load region, the target speed is set in accordance with the set speed set by the speed setter, while the load rate detector sets the target speed.
The load factor calculated in advance is calculated by setting the load factor at the rated output to 1 in advance.
00%, and the load factor at no load is set to 0%.
The target rotation speed setting device recognizes the
Assign a value between the maximum set value and the minimum set value to the rotational speed setter.
When the engine speed is input , the controller outputs a fuel injection amount control signal and a fuel injection timing control signal to the electronically controlled governor to drive the engine at the target speed. When the number is about to fluctuate, the fuel injection amount control signal and the fuel injection timing control signal output from the controller to the electronically controlled governor are immediately adjusted to control the engine of the construction machine to maintain the engine at the target speed. It provides a method.

[0007]

Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a block diagram of an engine control device of a construction machine. An engine 1 is provided with an electronically controlled governor (hereinafter, referred to as an “electronic governor”) 2. To adjust. A rotation speed detector 3 and a load factor detector 4 are mounted on the engine 1, and a measurement signal of the rotation speed detector 3 is output to a controller 5, which calculates an actual engine rotation speed.

On the other hand, the load factor detector 4 calculates the engine load factor from the fuel injection amount of the electronic governor 2. The signal of the load ratio detector 4 is output to the target rotation speed setting device 6, and at the time of initial setting, the target rotation speed is set so that the load ratio at the rated output is 100% and the load ratio at no load is 0%. The setting device 6 is made to recognize. Further, a rotation speed setting device 7 is provided, and when an operator arbitrarily inputs an engine rotation speed to the rotation speed setting device 7, a signal of the rotation speed setting device 7 is output to the target rotation speed setting device 6.

In the target rotation speed setting device 6, based on a signal from the load factor detector 4 and a signal from the rotation speed setting device 7,
As shown in the performance diagram to be described later, the target rotation speed is automatically set according to the engine load factor, and the signal is transmitted to the controller 5.
Output to The controller 5 outputs a fuel injection amount control signal and a fuel injection timing control signal to the electronic governor 2 in order to drive the engine 1 at the target rotation speed.

FIG. 2 shows a performance diagram of a diesel engine according to the control method of the present invention. The maximum set value A of the rotational speed setting unit 7 is a rated point T or an arbitrary rotational speed before and after the rated point T, and the minimum set value B Is the idling speed. The performance charts of the maximum set value A and the minimum set value B are defined so that when no load is applied, the rotation speed A ₁ or B ₁ is lower than the rotation speed of the set value. The operator can set an arbitrary engine speed between the maximum set value A and the minimum set value B using the speed setting device 7.

As shown in the figure, when an operator inputs a set rotation speed C at a substantially intermediate position between a maximum set value A and a minimum set value B, for example, the target speed setter 6 sets an unloaded state according to the engine load factor. From the time to the maximum output, set the target speed along the performance diagram. That is, when the engine load rate is a low load region to set the target rotation speed to low rotation than the set rotational speed C inputted by the operator, at the time of no load to lower the target rotational speed C _1. Then, when the engine load factor increases from the low load region, the target rotation speed is set to match the set rotation speed C.

A target rotation speed setting signal is output to a controller 5. The controller 5 sends a fuel injection amount control signal to the electronic governor 2 based on a signal from the rotation speed detector 3 and a signal from the target rotation speed setting device 6. And outputs a fuel injection timing control signal to drive the engine 1 at the target speed.

If the engine speed changes due to an increase or decrease in the engine load, the speed detector 3 detects a slight change in the engine speed and outputs a signal to the controller 5. , The load factor detector 4 detects an increase or decrease in the load factor and outputs a signal to the target rotational speed setting device 6.

According to the performance diagram, the target speed setting device 6 outputs a target speed setting signal according to the engine load factor to the controller 5, and the controller 5 outputs the signal from the speed detector 3 and the target speed. Based on the signal from the setter 6, the fuel injection amount control signal and the fuel injection timing control signal output to the electronic governor 2 are immediately adjusted, and the engine 1
Is controlled to maintain the target rotation speed.

The present invention can be variously modified without departing from the spirit of the present invention, and it goes without saying that the present invention extends to the modified ones.

[0016]

As described above, in the present invention ,
The set value set by the rotation speed setting unit is the maximum set value.
Set the rotation speed at or around the rated point, and set the minimum set value to
The idling speed is used, during which the operator
Since the engine speed is input, the fluctuation of the engine speed is suppressed with respect to the increase / decrease of the engine load of the construction machine, and the operator can set any point from the rated point or any point before and after the rated point to no load. Can be maintained at the target rotation speed based on the rotation speed set in (1).

Thus, a decrease in the engine speed due to an increase in the engine load can be prevented, and in particular, the engine
The load factor at the rated output is 100%
Set the target speed setting device so that the load factor under load is 0%.
The engine is overloaded when there is no load.
In addition, when the engine load factor is in the low load range, the rotation speed set by the operator is lowered,
Noise can be significantly reduced, and fuel efficiency can be significantly improved.

[Brief description of the drawings]

FIG. 1 shows an embodiment of the present invention and is a block diagram of an engine control device.

FIG. 2 is a performance diagram of a diesel engine according to the engine control method of the present invention.

FIG. 3 is a performance diagram of a diesel engine equipped with a conventional mechanical governor.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 engine 2 electronic control governor (electronic governor) 3 rotation speed detector 4 load factor detector 5 controller 6 target rotation speed setting device 7 rotation speed setting device

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification code FI F02D 41/04 380 F02D 41/04 380C 385 385C 41/40 41/40 P 45/00 364 45/00 364Z (58) Field (Int.Cl. ⁷ , DB name) F02D 41/14 330 E02F 9/20 F02D 1/02 F02D 1/08 F02D 29/00 F02D 41/04 380 F02D 41/04 385 F02D 41/40 F02D 45/00 364

Claims (1)

(57) [Claims] An engine of a construction machine provided with an electronically controlled governor, a rotation speed setting device for an operator to arbitrarily set an engine rotation speed, and a rotation speed detection device for measuring an actual rotation speed of the engine. Device, a load factor detector for calculating the engine load factor from the fuel injection amount, and a target speed setting device for automatically setting the target speed according to the engine load factor. if the input signal of the rotational speed detector to the controller, in the construction machine engine control method of rotating the engine at the target rotation speed, the times
The set value set by the number setting unit determines the maximum set value.
The rotation speed at or before or after the rating point, and the minimum set value
And Idoringu speed and than said preset rotational speed set by the rotational speed setting device sets the target rotational speed to low rotational speed, the low load region the engine load factor when the engine load rate is low load region When it has increased further, the target speed is set in accordance with the set speed set by the speed setting device, while the load factor calculated by the load factor detector is set.
Means that the load factor at the rated output is 100%
The target speed setting device so that the load factor at the time is 0%.
Recognition, the operator to the rotation speed setting device
Arbitrary engine speed between maximum and minimum settings
When the controller is input , a fuel injection amount control signal and a fuel injection timing control signal are output from the controller to the electronically controlled governor in order to drive the engine at the target rotational speed.
If the engine speed fluctuates due to an increase or decrease in the engine load, immediately adjust the fuel injection amount control signal and the fuel injection timing control signal output from the controller to the electronically controlled governor to bring the engine to the target speed. How to maintain the engine control of construction machinery.