JPS58204940A - Controller of fuel injection pump in engine - Google Patents

Abstract

PURPOSE:To increase output power of an engine only when necessary, by increasing a speed of the engine at operative time of a turning control lever and a boom control lever in the captioned device used for an oil hydraulic work machine of hydraulic shovels or the like. CONSTITUTION:A signal generated in accordance with operation of a throttle lever 6, signal given from a maximum output speed setting means 7, signal given from a turning control level operating means 11, and a signal given from a boom control lever operation detecting means 12 are applied to a fuel injection pump controller 5. When a turning lever 8 is urged further a boom control lever 10 is urged in the direction of lifting a boom, speed of an engine is increased. In this way, the speed of the engine is increased only when a large engine output is requested.

Description

[Detailed description of the invention]

The present invention relates to a control device for a fuel injection pump of an engine of a hydraulic working machine such as a hydraulic excavator. In the conventional technology, a mechanical all-speed governor is used as a governor for the fuel injection pump of a diesel engine in a hydraulic excavator, which is designed to keep the engine speed at the value commanded by the throttle lever regardless of the load. Ta. Thus, while the hydraulic excavator is working, the engine speed command is kept constant by moving the throttle lever, and the amount of fuel injected into the diesel engine is adjusted according to the load on the hydraulic excavator. For this reason, no matter what kind of work the hydraulic excavator is doing, the engine runs at the high rotational speed necessary to produce maximum horsepower. Even when the horsepower of the engine is not so required, the engine is driven at a high rotational speed with a large loss of torque, which increases fuel consumption and is extremely uneconomical. Figure 1 shows the engine output required for hydraulic excavator work.

[7] However, during one cycle of excavation work, which includes the excavation of the hydraulic excavator a, the boom operator rotation b, the boom downward rotation d, the boom
The only requirement is that the engine should produce maximum power during two-turn operations. The present invention improves the drawbacks of the prior art, and operates at a low engine speed when engine output is not required, and only reduces the engine speed when engine horsepower is required, such as during boom swing operations. An embodiment of the present invention will be described below with reference to FIGS. 2 to 4, which provides a device for controlling the fuel injection pump of an engine to increase the number of fuel injection pumps. FIG. 2 is a diagram showing a part of the hydraulic circuit of a hydraulic excavator equipped with the device of the present invention, and FIG.
:1. "... A block diagram of a control device for a fuel injection pump which is an embodiment of the present invention. FIG. 4 is a block diagram of a control device for a fuel injection pump which is another embodiment of the present invention. For reference, a diesel engine 1 drives a hydraulic pump 2.3 to supply pressure oil from a tank T to a hydraulic motor (not shown) that rotates the revolving body of the hydraulic excavator, and a cylinder (not shown) that drives the arm of the hydraulic excavator. ) and a cylinder (not shown) that drives the boom of a hydraulic excavator.In FIG. 2, a hydraulic pump 2 is for sending pressure oil to the three hydraulic actuators, and a hydraulic pump 3 is This is for sending pressure oil to other hydraulic actuators (not shown).The above-mentioned swing, arm operation, and boom operation of the hydraulic excavator are controlled by the swing controller 3 and valve 13, respectively.
, the arm control valve 14, and the arm control valve 15. These 3
The valve is a three-way switching valve with a neutral position.To explain the swing control valve 13, when valve 3 is in the neutral position, no swing is performed, and when it is switched to the right position, it rotates to the right, and switches to the left position. It is controlled so that it rotates to the left when it is rotated. Control of the control valves 14 and 15 is similar, and these are well known to those skilled in the art and will not be described in detail. Switching of the arm control valve 14 is performed by the arm operating lever 9, and switching of the boom control valve 15 is performed by the arm operating lever 10.The left, neutral, and right movements of these levers 81.9, 10 are The control valves 13, 14 and 15 respectively correspond to the left, neutral and right movement of the control valves]3, ]/I1.15. In FIG. 2, control valves 13, 14 and 15 are all hydraulically driven. However, it goes without saying that these may be electromagnetic valves.The fuel injection amount supplied by the fuel injection pump 4 of the diesel engine 1 is controlled by the fuel injection pump control device 5. are a signal generated with the operation of the throttle lever 6, a signal given from the maximum output rotation speed setting means 7, and a turning operation lever operation detection means 11.
A signal given from the boom operation lever operation detection means 12 and a signal given from the boom operation lever operation detection means 12 are applied. The swing operation lever operation detection means 11 detects when the swing operation lever 8 is operated, and the boom operation lever operation detection means 12 operates so that the boom operation lever 10 raises the boom. It is designed to detect when something is done. Referring to FIG. 3, details of one embodiment of the fuel injection pump control device 5 are shown. A command signal from the throttle lever 6 or the maximum output rotation speed setting means 7 is manually inputted to the adder 5a via the switching relay 5b. This human power is compared with a feed bank signal corresponding to the engine 10 rotation speed N, and the fuel injection pump 4 is controlled according to the magnitude of the deviation to control the rotation speed and output of the engine 1. In other words, the all-speed governor (7) does not serve the purpose of driving the engine at a rotational speed according to the command signal regardless of the magnitude of the load. Comparator 5C
is designed to be output when the value of the command signal given by the throttle lever 6 exceeds a predetermined value. Output of comparator 5c, swing operation lever operation detection means 11
and the output of the boom operation lever operation detection means 12 are input to an AND circuit 5d. A, the ND circuit 5d is operated as described above: when all three outputs are manually input, that is, when the command signal applied by the throttle lever 6 is equal to or higher than a predetermined value, and the swing operation lever 8 is operated, the eye When the boom operating lever 10 is operated in the direction of raising the boom, an output is output to switch the switching relay 5b from B to A. Next, the operation will be explained according to Fig. 2.3. Initially, the switching relay 51+ is in the B position. When the throttle lever 6 is operated, the fuel injection pump control device 5 controls the amount of fuel injected from the fuel injection pump 4 so that the diesel engine 71 rotates at the rotation speed commanded by the lever 6. . The throttle lever 6 is operated to a predetermined value set by the comparator 5c or more, and the swing operation lever operation detection means 11 and the boom operation lever operation detection means 12 are operated.
When the output of < , A, ND as mentioned above is issued,
The circuit 5d changes the position of the switching relay from B to Al1c41.
) change. When the switching relay 5b is switched to the IJ''-A position, the command signal from the maximum output rotation speed setting means 7 is applied to the adder 5a, and the diesel engine 1 operates at the maximum output rotation according to the command from the maximum output rotation speed setting means 7. Another embodiment will be described with reference to Fig. 4. In the embodiment of Fig. 4, the lever operation detection means 11a,
As 12a, a device that outputs a signal proportional to the amount of operation of the operating lever 8 or 10, such as a pressure detector, is employed. The computing unit 5e is the lever operation detection means 1]a, 1
Whether to add or multiply the signals emitted from 2a,
Alternatively, only the larger signal is selected and the output signal is applied to the rotation speed setting means 7a. The rotation speed setting means 7a connects an output signal to the switching relay 5b in accordance with the output of the calculator 5e so that if the output is high, the set rotation speed is high, and if it is low, the set speed is low. The other symbols in FIG. 4 are the same as those explained in FIG. 23 above, so they will not be repeated. As shown in Figure 4←
With this configuration, the output command signal from the rotation speed setting means 7a changes according to the operation amount of the swing operation lever 8 and the boom operation lever 10, so that the appropriate rotation speed according to the operation amount of these operation levers can be set.・The engine can be operated with . In the above-mentioned embodiment, the case where the hydraulic working machine is a hydraulic excavator has been described, but the present invention can also be applied to a fuel injection pump control device for an engine of another hydraulic working machine. In addition, in the above embodiment, the case where the constant displacement hydraulic pump and the actuator are connected in an open circuit is explained, but the variable displacement hydraulic pump and the actuator are connected in a closed circuit, and the discharge of the variable displacement hydraulic pump is The present invention can also be applied when an actuator is controlled by an operating lever that controls oil. moreover,
- In the embodiment described above, the maximum output rotation speed setting means 7 and the rotation speed setting means 7a are used as means for commanding a rotation speed higher than the rotation speed set by the throttle lever 6. A means for commanding a set rotation speed that is higher than the set rotation speed by a predetermined value may be used. As explained above, according to the present invention, the engine is normally operated at a low rotational speed, and the engine rotational speed is increased only when a large engine output is required, such as when turning the Everboom upward. It is possible to meet this demand by increasing engine output by increasing engine power, thereby reducing fuel consumption.

[Brief explanation of drawings]

Fig. 1 is a diagram showing the engine output required for one cycle operation of a hydraulic excavator, Fig. 2 is a diagram showing a part of the hydraulic circuit of a hydraulic excavator equipped with the device of the present invention, and Fig. 3 is a diagram showing one embodiment of the present invention. FIG. 4 is a block diagram of a fuel injection pump control device according to another embodiment of the present invention. ]...Diesel engine, 2, 3...Hydraulic pump, 4...Fuel injection pump, 5...Fuel injection pump control device, 5a...Adder, 5b...Switching relay, 5
c... Comparator, 5d... AND circuit, 5e.
... Arithmetic unit, 6. Throttle lever, 7, 7a.. Rotation speed setting means, 8.. Swing operation lever, 9.. Arm operation lever, 10.. Boom operation lever, 11..
Swing operation lever operation detection means, 12... Boom operation lever operation detection means, 13... Control valve for swing, 14... Control valve for arm, 15...
・Boom control valve, T...tank. Agent Patent Attorney Junnosuke Nakamura 1ゝ・11・1'1 Figure 3 t4 a

Claims (3)

[Claims] (1) An engine that drives the hydraulic pump of a hydraulic working machine, which has a plurality of actuators driven by pressure oil of the hydraulic pump, and an operating lever provided corresponding to the plurality of actuators to control each of the actuators. In a fuel injection pump control device, a rotation speed normally set by a throttle lever is commanded, and when a specific control lever among the control levers mentioned above is operated, the set rotation speed is higher than the rotation speed set by the throttle lever. A fuel injection pump control device for an engine, characterized in that it commands a number of fuel injection pumps. (2) When the specific operating lever is operated and the operating amount of the throttle lever is equal to or greater than a preset value, the set rotation speed is commanded. Engine fuel injection pump control device. (3) The fuel injection pump control device for an engine according to claim 1 or 2, wherein the set rotation speed is changed depending on the amount of operation of the specific operating lever.