KR19990085457A - How to control work equipment of construction machinery - Google Patents

Abstract

When operating a work device drive such as an excavator by using an electric joystick (joystick) to mitigate the vibration and shock of the work device during the sudden operation of the joystick, it is to improve the workability by securing the initial response.

According to a preferred embodiment, there is provided an electric joystick, a switch board which can select vibration and shock mitigation degree by an operator, a controller for changing the signals output from the joystick and the switch board to a predetermined signal, and a predetermined signal from the controller. According to claim 1, wherein the actuator comprises a proportional pressure reducing valve for forming a pilot pressure, and a control valve for driving the actuator and the work device by the pilot signal pressure passing through the proportional pressure reducing valve. Determining a minimum value at the start of the joystick operation and a maximum value when the filter is fully operated with respect to a predetermined filter coefficient to be applied, and a time for which the initial value of the filter coefficient is applied after the joystick operation is started. The maximum time is defined as the maximum time. When the minimum time is defined as 0, an initial value of the filter coefficient is applied from the beginning of the operation of the joystick, and when the minimum time is defined as a constant time, the filtering of the joystick output by the filter coefficient is performed after that time. The applied process, the filter coefficient, the minimum time and the maximum time provides a method for controlling a work machine of a construction machine comprising the step of randomly determining according to the operation of the work device.

For this reason, when operating a work device drive such as an excavator using an electric joystick, vibration and shock of the work device are alleviated when the joystick is suddenly operated to minimize the fatigue of the driver during work, and workability is improved by securing initial response. It has one advantage.

Description

How to control work equipment of construction machinery

The present invention relates to a method for controlling a work device of a construction machine, and more particularly, in the case of operating a work device drive such as an excavator by using an electric joystick, the vibration and impact of the work device are abated when the joystick is suddenly operated. In addition, the present invention relates to a method for controlling a work device of a construction machine to improve workability by securing initial responsiveness.

As schematically shown in FIG. 1, a hydraulic system to which a work device control method for a construction machine according to an embodiment of the present invention is applied includes an engine 1 as a power source and a hydraulic pump driven by the engine 1. (2) and the respective hydraulic cylinders (3) (4) (5) connected to the hydraulic pump (2) and driven by a hydraulic oil supply to rotate work devices such as booms, arms, and buckets within a predetermined stroke range. And a control valve 6 installed between the aforementioned hydraulic pump 2 and the hydraulic cylinders 3, 4, and 5 to drive a predetermined pilot signal pressure supply to control the flow direction of the hydraulic oil, and the aforementioned control. Electric joystick 7 for controlling supply of predetermined pilot signal pressure to valve 6, switch board 8 for selecting the degree of vibration and shock mitigation of the operator, control valve 6 and the like described above To drive the above-described work device to perform a predetermined task. Equipped.

Heavy construction equipment such as hydraulic excavators as described above have a large size of the working device and its own weight, so that when the operation of the device is drastically operated, large vibrations and shocks are generated throughout the equipment. Various technical contents for this are being practiced.

That is, the technical contents disclosed in Japanese Patent Application No. 58-199373 use an electric joystick that converts an operation amount of an operation lever into an electric signal, as shown in Fig. 2, and the output of the operation amplifier is amplified and set in the setter. As the signal is input, the first delay time constant is determined according to the set signal, and the main valve is driven by the signal to select the responsiveness of the main valve arbitrarily.

The technical contents disclosed in Korean Patent Application No. 92-7018 include an electric joystick with a built-in potentiometer, an electronic proportional control valve or a servovalve capable of measuring displacement and speed according to the operation of the joystick and receiving a controlled operation signal. The controller sends the controller to the main control valve spool displacement connected to the hydraulic source by an electronically controlled proportional valve or servomechanism and a corresponding valve that receives the operation signal of the controller, and drives the cylinder (actuator) by the flow rate. It is characterized by. At this time, the operating speed of the joystick is sensed and if this signal is faster than the set speed, the controller applies the control operation signal.

As described above, the mechanical characteristics of the technical contents are not subjected to large vibrations and shocks due to the sag of responsiveness when the initial operation is started.

However, in the sudden operation of the joystick lever and the neutral position, the flow path of the main valve is suddenly shut off, which causes damage to the hydraulic hose or mechanical damage to the equipment of the equipment.

In addition, as a whole, the initial time responsiveness of the equipment is not sufficiently secured by performing the first delay or selective delay according to the speed of the joystick with the same time constant in all sections of the equipment control. In addition, when using the operation speed of the joystick lever, the signal acquisition of the speed component is difficult and the degree is not high enough to have a problem that it is difficult to implement the algorithm.

Accordingly, an object of the present invention, when operating the work device drive such as excavator using an joystick (electric joystick) to mitigate the vibration of the work device during sudden operation of the joystick to minimize the fatigue of the driver during the operation, the initial response It is to provide a control method for working equipment of construction machinery to improve workability due to securing the castle.

1 is a schematic diagram of a hydraulic system to which a work device control method for a construction machine according to an embodiment of the present invention is applied;

Figure 2 is a graph showing the relationship between the operation device input and output characteristics according to the prior art,

3 is a graph showing changes in initial and final values of filter coefficients;

4 is a graph when the initial value of the filter coefficient is 0,

5 is a graph when the initial value of the filter coefficient and the minimum filter application time are 0;

6 is a graph showing the response when the initial value of the filter coefficient has a constant value;

7 is a graph showing a response when the input of the joystick is suddenly changed to stop and motion,

8 is a graph showing the response when the stop time of the joystick is equal to or greater than the maximum stop time.

The object of the present invention described above is an electric joystick, a switch board capable of selecting vibration and shock mitigation degree by an operator, a controller for changing a signal output from the joystick and the switch board to a predetermined signal, and from the controller. A method of controlling a work device of a construction machine, comprising: a proportional pressure reducing valve for forming a pilot pressure in accordance with a predetermined signal; and a control valve for driving an actuator and a work device by a pilot signal pressure passing through the proportional pressure reducing valve. Determining the minimum value at the start of the joystick operation and the maximum value when the filter is fully operated with respect to the predetermined filter coefficient applied to the actuator, and the time at which the initial value of the filter coefficient is applied after the joystick operation is started. The minimum time is defined and the maximum time is defined as the maximum time. When the minimum time is defined as 0, an initial value of the filter coefficient is applied from the beginning of the operation of the joystick, and when the minimum time is defined as a constant time, the filtering of the joystick output by the filter coefficient is performed after that time. This is achieved by providing a method for controlling a work machine of a construction machine, comprising the step of applying the filter coefficient, the minimum time and the maximum time according to the operation of the work device.

According to a preferred embodiment, the initial value and the final value of the filter value change linearly with time according to the difference between the filter value when the joystick starts to move when the filter is used and the filter value after a predetermined time elapses. It has an output characteristic.

According to a preferred embodiment, the initial filter value application time is applied to a predetermined time after the joystick is operated.

According to a preferred embodiment, the maximum stop time of the joystick is set to apply a continuous filter value when the time at the neutral position of the joystick is less than the maximum stop time, and the time at the neutral position of the joystick is the maximum stop. If the time is exceeded, the initial filter value is reset and applied.

According to a preferred embodiment, when the work device is formed by a multi-joint using a cylinder, each of the filter devices according to the contraction and extension stroke of the work device and the cylinder has a predetermined response characteristic.

According to a preferred embodiment, the step of vibration and shock mitigation of the work device is divided into at least one step by a selection switch of the switch board.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are not intended to limit the technical scope of the present invention.

1 is a schematic diagram of a hydraulic system to which a work device control method for a construction machine according to an exemplary embodiment of the present invention is applied, FIG. 2 is a graph showing a relationship between an input and an output characteristic of a control device according to the prior art, and FIG. 4 is a graph showing the change of the initial value and the final value, FIG. 4 is a graph when the initial value of the filter coefficient is 0, FIG. 5 is a graph when the initial value of the filter coefficient and the minimum filter application time is 0, and FIG. A graph showing the response when the initial value of the filter coefficient has a constant value, FIG. 7 is a graph showing the response when the joystick input is suddenly changed to stop and operation. FIG. 8 is a maximum stop time of the joystick. It is a graph showing the response when the time is over.

When explaining an embodiment for maintaining a constant working posture of the bucket by using a method for controlling a work device of a construction machine according to an embodiment of the present invention as follows.

When a work device such as a boom, an arm, a bucket, or the like is constituted by multiple joints such as an excavator, even when the input of the same joystick is given, the characteristics of the extension side and the contraction side of the cylinder are different. In addition, when the movement of the equipment starts, it is difficult to recognize that a large shock generated in the equipment occurs even when the joystick is suddenly operated due to the response of the equipment itself.However, when the movement of the joystick is suddenly stopped, the control valve is quickly closed, The working device, etc., which is moved to the furnace must be stopped at a moment, causing a large strain on the hydraulic circuit and the equipment itself.

Therefore, if the input of the joystick is processed at a constant rate, the vibration damping degree will be different according to the respective conditions. Therefore, for each working device, the working direction of the working device, and the time from the start of the working device movement. It is necessary to set a predetermined time constant.

In order to satisfy the above condition, a Butterworth filter having a first time constant for signal change of the electric joystick is used, and the equation thereof is as follows.

V _out (k) = c1 × V _out (k-1) + (1-c1) / 2 × ((V _in (k) + V _in (k-1))

Where V _out (k): output of the controller,

V _out (k-1): 1 sampling time delay value of V _out (k),

V _in (k): output of electric joystick (input of controller),

V _in (k-1): 1 sampling time delay value of V _in (k),

c1: represents the coefficient of the primary delay filter.

A method for mitigating shock and vibration of the working apparatus using the above filter will be described in detail with reference to FIGS. 3 to 8 as follows.

First, for the filter coefficient c1 used for each cylinder (actuator), the lowest value at the start of the joystick operation and the maximum value when the filter is fully operated are determined. At this time, the filter coefficient c1 of the initial operation of the joystick should be smaller than the value when the filter is fully operated (shown in FIG. 6).

When the value of the above-described filter coefficient c1 is 0, the signal of the joystick is output as it is at the beginning of the equipment movement (shown in FIG. 5).

When the joystick starts to move with respect to the filter coefficient c1 determined as described above, assuming that the minimum time is applied as the time when the initial value of the filter coefficient c1 is applied and the maximum time is applied as the maximum time, the minimum time is 0. In this case, the initial value of the filter coefficient c1 is applied from the beginning of the operation of the joystick, and if the minimum time is defined as a constant time, the filtering of the joystick output by the filter coefficient c1 is applied after that time. Between the minimum time and the maximum time, the value of the filter coefficient c1 changes linearly to the minimum value and the maximum value to smooth the operation.

At this time, the above-described filter coefficient (c1), the minimum time and the maximum time is used to define arbitrarily according to the movement of the equipment.

From this, when the initial value of the above-described filter coefficient c1 is 0 and the minimum time is 0, an output value as shown in FIG. 5 is obtained. In addition, if the initial value of the above-described filter coefficient c1 is set to a non-zero constant value, an output value as shown in FIG. 6 is obtained.

When the input of the joystick using the filter as described above is changed at a fast cycle, an output value as shown in FIG. 7 is obtained. This is the case when the joystick returns to the neutral position and then starts again, so if the stop time at the neutral position is lower than a certain value, the continuous filter coefficient (c1) is applied. If the stop time is longer than the set time, the filter coefficient ( c1) is applied as an initial value.

As shown in FIG. 8, the output of the filter when the stop time is longer than the set maximum stop time as described above.

As described above, according to a preferred embodiment, when operating the work device drive such as an excavator using the electric joystick to mitigate the vibration of the work device during sudden operation of the joystick to minimize the fatigue of the driver during the operation, the initial response Securing sex has the advantage of improving workability.

Claims (7)

An electric joystick, a switch board for selecting vibration and shock mitigation degree by an operator, a controller for changing a signal output from the joystick and the switch board to a predetermined signal, and a pilot pressure in accordance with a predetermined signal from the controller In the method for controlling a work machine of a construction machine comprising a proportional pressure reducing valve and a control valve for driving the actuator and the working device by a pilot signal pressure passing through the proportional pressure reducing valve: Determining a minimum value at the start of the joystick operation and a maximum value when the filter is fully operated with respect to a predetermined filter coefficient applied to each actuator; When the initial time of the filter coefficient is defined as the minimum time and the maximum time is applied as the maximum time after the joystick operation is started, when the minimum time is defined as 0, from the beginning of the operation of the joystick Applying the initial value of the filter coefficient, and applying the filtering of the joystick output by the filter coefficient after the time when the minimum time is defined as a constant time; And And randomly determining the filter coefficient, the minimum time, and the maximum time according to the operation of the work device. The method according to claim 1, wherein the initial value and the final value of the filter value change linearly with time according to the difference between the filter value when the joystick starts to move when the filter is used and the filter value after a predetermined time elapses. The control method of the work machine of a construction machine, characterized in that it has an output characteristic. The method according to claim 1, wherein the initial filter value application time is applied as a predetermined time after the joystick is operated. The method of claim 1, wherein the maximum stop time of the joystick is set to apply a continuous filter value when the time at the neutral position of the joystick is equal to or less than the maximum stop time, and the time at the neutral position of the joystick is the maximum stop. If the time is exceeded, the initial filter value is set and applied again. The construction machine according to claim 1, wherein when the work device is formed by a multi-joint using a cylinder, the work machine has a predetermined response characteristic by applying respective filter values according to the contraction and extension stroke of the work device and the cylinder. How to control work equipment. The method of controlling a work machine of a construction machine according to claim 1, wherein the step of vibration and impact relaxation of the work device is divided into at least one step by a selection switch of the switch board. The method according to claim 1, wherein the filter value is calculated by the following equation. V _out (k) = c1 × V _out (k-1) + (1-c1) / 2 × ((V _in (k) + V _in (k-1)) Where V _out (k) is the output of the controller, V _out (k-1) is the sampling time delay value of V _out (k), and V _in (k) is the output of the electric joystick (input of the controller), V _in (k-1): 1 sampling time delay value of V _in (k), c1: coefficient of 1st order delay filter)