CN2900632Y - Electromechanical integrated digging machine - Google Patents

Abstract

The utility model discloses a digger dynamoelectric integration, which comprises a monitor, a storage, a watchdog, a display screen, a voice alarm, a photoelectric buffer, a high-speed photoelectric buffer, a counter, an electric filter and a communication circuit. The monitor is connected with the storage, the watchdog, the display screen, the alarm, the counter, the electric filter and the communication circuit. The photoelectric buffer is connected with the electric filter, and the high-speed photoelectric buffer is connected with the counter. The utility model also comprises a move controller, a whip obliquity sensor, a dipper obliquity sensor and a bucket obliquity sensor. The outputs of the whip obliquity sensor, the dipper obliquity sensor and the bucket obliquity sensor are connected with the input of the move controller. The move controller is connected with the monitor according to the communication circuit. The utility model can achieve the automatic digging control of the desired trajectory, the control and positioning accuracy is high, and the consumption energy is low.

Description

Electromechanical integrated excavator

Technical field

The utility model relates to a kind of excavator, a kind of especially electromechanical integrated excavator

Background technology

Excavator is a kind of engineering machinery that is widely used in building operations, the construction maneuverability, and the efficiency of construction height, but in the excavator work progress, the problem of existence also can not be ignored, and the labour intensity of operation excavator operation is big; The human inconvenience of some adverse circumstances directly enters; The operator must train just for a long time can finish high-quality operation.Therefore improving the electromechanical integration degree of excavator, and then realize automation, the intellectuality of excavator, is to address the above problem optimal scheme.

The utility model content

The purpose of this utility model provides a kind of control device and control method of electromechanical integrated excavator, and existing excavator is operated and control accuracy is not enough, the location is inaccurate to solve, the too high problem of energy consumption.

For realizing above-mentioned purpose, the technical solution of the utility model: comprise monitoring processor, memory, house dog, show screen, phonetic alarm, photoelectric isolating circuit, high speed optoelectronic buffer circuit, counter, wave filter, telecommunication circuit, monitoring processor respectively with memory, house dog, show screen, phonetic alarm, counter, wave filter, telecommunication circuit and link to each other, photoelectric isolating circuit links to each other with wave filter, and the high speed optoelectronic buffer circuit links to each other with counter; Also comprise motion controller, boom angle sensor, dipper obliquity sensor, scraper bowl obliquity sensor, the output of boom angle sensor, dipper obliquity sensor, scraper bowl obliquity sensor connects the input of motion controller, and motion controller links to each other with monitoring processor through telecommunication circuit.

In the above-mentioned electromechanical integrated excavator, also comprise generating laser support, generating laser, height detecting instrument, generating laser props up near the place ahead that is placed on excavator, generating laser places on the generating laser support, the height detecting instrument is fixed on the excavator boom, and the output of height detecting instrument links to each other with monitoring processor.

In the above-mentioned electromechanical integrated excavator, also comprise energy-saving controller, mode selection switch, engine speed setting knob, be input to the engine controller in the energy-saving controller by mode selection switch, engine speed setting knob, and the detection of engine rotating speed enters engine controller formation feedback in real time, regulate the demand of engine throttle adaptation by the straight-line displacement electromagnet, the action of control motor to power; Δ P adjusting knob front pump controller, throttle position and engine speed enter controller, form effectively feedback, and output signal control pump adjuster is realized the control to pump.

Advantage of the present utility model: 1) utilize hard-wired generating laser emitting head rotation emission laser, be installed in the height detecting instrument on the excavator, receive the relative altitude of laser signal and the relative zero-bit of measurement laser beam, draw the positional information of excavator body, can regulate excavation depth in real time, the location position of bucket, thus reach accurate control.Simultaneously, based on elevation guidance information, after finishing the car body location,, can follow the tracks of and control digger operating device according to the equipment kinematics model.2) at excavator swing arm, dipper, scraper bowl obliquity sensor is set respectively, but the operating attitude of real-time monitored excavator provides the position and the attitude information of digger operating device, and the handled easily person compares accurate operation, raise labour productivity, and can realize blind operation.Simultaneously, adopt intelligent position PID to control, can overcome the big inertia of digger operating device according to the pose real time altering pid algorithm of equipment, the parameter uncertainty of the strong nonlinearity of hydraulic system and control model guarantees control accuracy.3) monitoring system can make the operator in time grasp the duty of excavator to monitoring, demonstration and the warning of system's major parameter.Fault diagnosis functions are the numerical value of display device each port of when work in real time, so that when machine breaks down, finds abort situation quickly and easily and keep in repair.4) adopt mode of operation selector switch and diesel speed setting knob to determine the expectation rotating speed of diesel engine jointly, by permanent power and the combination that becomes two kinds of control modes of power, regulate engine throttle and deacclimatize its demand power, reach the matched well of motor, hydraulic pump, load, realize energy-conservation.

Following machine is further described structure of the present utility model and operating principle in conjunction with specific embodiments.

Description of drawings

Fig. 1 is the mounting structure figure of sensor in the utility model.

Fig. 2 is a monitoring system structured flowchart of the present utility model.

Fig. 3 is the utility model automatic control system flow chart.

Fig. 4 is an Energy Saving Control theory diagram of the present utility model.

The specific embodiment

Referring to Fig. 1, the equipment swing arm 1 of excavator is provided with obliquity sensor 2, and dipper 3 is provided with obliquity sensor 4, the obliquity sensor 7 that scraper bowl 6 is provided with.Be provided with generating laser support 8 near the dipper 3 of excavator, generating laser 9 places on the generating laser support 8, and height detecting instrument 5 is fixed on the excavator boom 3, and the output of height detecting instrument 5 links to each other with monitoring processor.During excavator work, with generating laser support 8 level-ofves, laser head rotation on the generating laser 9 and emission laser, height detecting instrument 5 receives laser signal, measure the relative altitude of the relative zero-bit of laser beam, to the monitoring system central processing unit, on the display screen of monitoring system, show elevation by bus transfer, be transferred to motion controller by telecommunication circuit again.

Referring to Fig. 2, Fig. 2 is a monitoring system composition frame chart of the present utility model.Monitoring system of the present utility model comprises monitoring processor, memory, house dog, shows screen, phonetic alarm, photoelectric isolating circuit, high speed optoelectronic buffer circuit, counter, wave filter, telecommunication circuit, motion controller, boom angle sensor, dipper obliquity sensor, scraper bowl obliquity sensor, generating laser, height detecting instrument, monitoring processor respectively with memory, house dog, show screen, phonetic alarm, counter, wave filter, telecommunication circuit and link to each other.Photoelectric isolating circuit links to each other with wave filter, and the positional information of boom angle sensor, dipper obliquity sensor, scraper bowl obliquity sensor is delivered to motion controller through bus transfer, delivers to monitoring processor through telecommunication circuit again, send display screen to show after treatment.The laser signal that the height detecting instrument receives, the relative altitude of the relative zero-bit of measurement laser beam to monitoring processor, shows elevation by bus transfer on display screen.High-speed pulse signal from motor is delivered to counter through photoelectric isolating circuit, delivers to monitoring processor through rolling counters forward.Various switching signals are delivered to monitoring processor and are handled behind photoelectric isolating circuit, wave filter.

Pressure, temperature, the liquid level numerical value of each node also can be realized Based Intelligent Control to a certain extent during the utility model display device work in real time.Monitoring, demonstration and warning have been realized to system's major parameter, comprise: fuel liquid level, engine oil pressure, water temperature, oil temperature, battery voltage is low, engine water temperature is too high, fuel oil is low excessively, cleaner stops up, empty filter is unusual, the oily temperature of hydraulic oil is too high, engine oil pressure is low excessively, the oily temperature of machine oil is too high, water level is crossed low etc.Simultaneously, the fault diagnosis functions of monitoring processor are the numerical value of display device each port of when work in real time, so that when machine breaks down, finds abort situation quickly and easily and keep in repair.

Referring to Fig. 3, Fig. 3 is an excavator automatic control system flow chart in the utility model.The equipment of excavator is handled as the multiple degrees of freedom mechanical hand, utilization is installed in the obliquity sensor 2 on the equipment swing arm 1, obliquity sensor 4 on the dipper 3, obliquity sensor 7 on the scraper bowl 6 is determined the pose of equipment, the signal of three obliquity sensors is by the motion controller 11 of bus transfer to the excavator, utilize the online planning function of motion controller, at definite target trajectory (as straight line, oblique line, circular arc etc.) after, according to kinematics and kinetics planning acquisition equipment is swing arm 1, dipper 3, the motion sequence of scraper bowl 6, a point in the sequence is carried out the parameter setting and obtains pwm signal control guide electro-hydraulic proportional valve, again by guide's electro-hydraulic proportional valve control main valve, drive each hydraulic cylinder action, and the error that detects motion process in real time forms feedback, because digger operating device inertia is big, hydraulic system is non-linear strong, the control model parameter is uncertain, according to the pose of equipment and adopt self-adaptive PID algorithm real time altering controlling parameter, the controlled quentity controlled variable of being revised in real time through PWM output.The action of equipment can cause that the value of three obliquity sensors changes and transmits by bus in real time, form feedback in real time, so circulation is as above controlled each sequence of points, obtain accurate track, only need just can realize automatic control by a button.

Referring to Fig. 4, Fig. 4 is an Energy Saving Control theory diagram of the present utility model.By permanent power and the combination that becomes two kinds of control modes of power, be input to the engine controller in the energy-saving controller 12 by model selection, engine speed setting knob, and the detection of engine rotating speed enters engine controller formation feedback in real time, regulate the demand of engine throttle adaptation by the straight-line displacement electromagnet, the action of control motor to power; Δ P adjusting knob front pump controller, throttle position and engine speed enter controller, form effectively feedback, and output signal control pump adjuster is realized the control to pump; The energy-saving controller that engine controller and pump controller are formed is realized the matched well of motor, hydraulic pump and load jointly, reaches energy-conservation purpose.

Claims (3)

1, a kind of electromechanical integrated excavator, comprise monitoring processor, memory, house dog, show screen, phonetic alarm, photoelectric isolating circuit, high speed optoelectronic buffer circuit, counter, wave filter, telecommunication circuit, monitoring processor respectively with memory, house dog, show screen, phonetic alarm, counter, wave filter, telecommunication circuit and link to each other, photoelectric isolating circuit links to each other with wave filter, and the high speed optoelectronic buffer circuit links to each other with counter; It is characterized in that: also comprise motion controller, boom angle sensor, dipper obliquity sensor, scraper bowl obliquity sensor, the output of boom angle sensor, dipper obliquity sensor, scraper bowl obliquity sensor connects the input of motion controller, and motion controller links to each other with monitoring processor through telecommunication circuit.

2, electromechanical integrated excavator according to claim 1, it is characterized in that: also comprise generating laser support, generating laser, height detecting instrument, generating laser props up near the place ahead that is placed on excavator, generating laser places on the generating laser support, the height detecting instrument is fixed on the excavator boom, and the output of height detecting instrument links to each other with monitoring processor.

3, electromechanical integrated excavator according to claim 1, it is characterized in that: also comprise energy-saving controller, mode selection switch, engine speed setting knob, be input to the engine controller in the energy-saving controller by mode selection switch, engine speed setting knob, and the detection of engine rotating speed enters engine controller formation feedback in real time, regulate the demand of engine throttle adaptation by the straight-line displacement electromagnet, the action of control motor to power; Δ P adjusting knob front pump controller, throttle position and engine speed enter controller, form effectively feedback, and output signal control pump adjuster is realized the control to pump.

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