JP5536141B2 - Construction machine and method for notifying good or bad operation of construction machine - Google Patents

Description

  The present invention relates to a construction machine and a method for notifying whether a construction machine is operating properly.

2. Description of the Related Art Conventionally, in construction machines, a technology for promoting energy saving operation by notifying a driver whether or not energy saving operation is being performed regarding a driving operation is known.
For example, the technology described in Patent Document 1 is a technology that, in a wheel loader, turns off the lamp and prompts the operator to save energy depending on whether the accelerator opening and the actual engine speed satisfy the energy saving operation condition. It is disclosed.

On the other hand, in a construction machine in which an operator can set an optimal work mode according to the situation during work by operating a work mode selection switch provided on an operation panel or the like, A construction machine having a function of fixing a work mode is also known (see Patent Document 2).
Such a function for fixing the work mode is determined by the manager or supervisor of the work in advance according to the skill level of the operator, the work environment, etc. By making it impossible to change the work mode, there is an effect that the work can be performed in accordance with these conditions.

International Publication No. 2007/072701 JP 2011-127372 A

However, when the function of fixing the work mode described in Patent Document 2 is added to the construction machine provided with the notification means for encouraging the energy saving operation described in Patent Document 1, there are the following problems.
In other words, when the work mode is fixed, the operator cannot change this, so depending on the work load of the work machine, there is a problem that the operator is informed of energy saving operation and is troublesome for the operator. .

  An object of the present invention is a construction machine in which a plurality of work modes can be selected. Even when the work mode is fixed, the construction machine in which information on unnecessary energy saving is not notified, and the operation of the construction machine. It is in providing the quality notification method.

The construction machine according to the first invention is
A construction machine capable of setting a plurality of work modes,
Work mode setting means for setting the work mode of the construction machine;
Work mode fixing means for fixing to any one of the work modes settable by the work mode setting means,
Energy wasteful operation determining means for determining whether or not the operation of the construction machine is energy wasteful operation,
A determination result notifying means for notifying the determination result of the energy waste driving operation determining means to the outside;
A notification restricting means for restricting notification of the determination result by the determination result notifying means based on the determination result of the energy wasting operation determination means when the work mode is fixed by the work mode fixing means; It is characterized by being.

A construction machine according to a second invention is the first invention,
When the energy waste driving operation determination means determines that the operation is wasteful operation and the work mode is fixed by the work mode fixing means, the notification restriction means restricts notification of the determination result by the determination result notification. Features.

A construction machine according to a third invention is the first invention or the second invention,
The energy wasting operation operation judging means is an energy wasting operation operation when the work mode setting means is able to work in a work mode with a small load despite being set to a work mode with a large load. Judge that there is,
The notification restricting means restricts the notification of the determination result by the determination result notifying means when it is determined that the operation is an energy waste operation by setting the work mode.

A method for notifying whether the operation of the construction machine according to the fourth invention is good or bad is:
In a construction machine capable of setting a plurality of work modes, the operation operation of the construction machine is a method for notifying whether or not the operation operation of the construction machine notifies the outside whether or not the operation operation of the construction machine is an energy waste operation operation,
When the operation mode is fixed to any one of the plurality of operation modes, the notification of whether or not the energy wasting operation is restricted.

According to a fourth aspect of the fourth aspect of the present invention, there is provided a method for notifying whether the operation of the construction machine is good or bad.
When it is determined that the operation is an energy wasting operation and the work mode is fixed, notification of whether the operation is an energy wasting operation is restricted.

  According to the first invention, when the work mode is fixed by the work mode fixing means, the notification of the determination result by the energy wasting operation determination means is restricted by the notification restriction means, so that the work mode is fixed. Even if the operator is operating the construction machine, notifications that encourage energy-saving operation are regulated, and the operator does not feel bothersome.

According to the second aspect of the invention, when the operation mode is determined by the operation mode fixing means and the operation mode is fixed by the operation mode fixing means, the notification by the notification restriction means is restricted, so that the operator may feel troublesome. Absent.
According to the third invention, since the operator cannot change the work mode by the work mode fixing means, if the notification is restricted in such a case, it does not feel troublesome.
According to the fourth invention and the fifth invention, the same operation and effect as the first invention and the second invention can be enjoyed.

The side view of the construction machine which concerns on 1st Embodiment of this invention. The partial perspective view showing the cab of the construction machine in the said embodiment. The schematic diagram showing the control system of the construction machine in the said embodiment. The functional block diagram showing the structure of determination and alerting | reporting whether it is an energy waste operation operation in the said embodiment. The schematic diagram of the screen which sets the work mode in the said embodiment. The schematic diagram of the screen which prompts the password input which permits use of the fixed function of the work mode in the said embodiment. The schematic diagram of the screen which selects the work mode to fix in the said embodiment. The schematic diagram of the screen which sets the work mode when the work mode in the said embodiment is fixed. The flowchart for demonstrating the effect | action of the said embodiment. The flowchart for demonstrating the effect | action of the said embodiment. The flowchart for demonstrating the deformation | transformation of the effect | action of the said embodiment. The functional block diagram showing the structure of determination and alerting | reporting whether it is energy wasting operation operation which concerns on 2nd Embodiment of this invention. The functional block diagram showing the structure of determination and alerting | reporting whether it is energy wasting operation operation which concerns on 3rd Embodiment of this invention. The schematic diagram showing the content of the guidance according to the item of the waste driving | operation operation | movement memorize | stored in the memory in the said embodiment, and an item. The schematic diagram of the guidance displayed on the monitor screen in the said embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[First embodiment]
[1] Overall Configuration FIG. 1 shows a hydraulic excavator 1 as a construction machine according to a first embodiment of the present invention.
The excavator 1 includes a lower traveling body 2, an upper revolving body 4 that is turnably mounted on an upper portion of the lower traveling body 2 via a revolving mechanism 3, and a work machine 5 that is connected to the upper revolving body 4. With.
The work machine 5 has a base 6 swingably connected to the upper swing body 4, an arm 7 swingably connected to the tip of the boom 6, and swingable to the tip of the arm 7. And a bucket 8 connected to.
The upper swing body 4 includes a cab 10 in which an operator who operates the excavator 1 gets.

As shown in FIG. 2, a driver's seat 11 is provided in the center of the cab 10 of the upper swing body 4, and a traveling operation means 12 is provided in front of the driver's seat 11. The travel operation means 12 includes travel levers 13 and 14 and travel pedals 15 and 16 that swing together with the travel levers 13 and 14.
In the hydraulic excavator 1 of this embodiment, when the traveling levers 13 and 14 are pushed forward, the lower traveling body 2 moves forward, and when the traveling levers 13 and 14 are pulled rearward, the lower traveling body 2 moves backward. . An instrument panel 19 is provided on the right side window 18 side of the driver's seat 11.

On the side of the driver's seat 11, operation levers 20 and 21 are provided, respectively. The operation lever 20 performs the rotation of the arm 7 and the turning operation of the upper turning body 4. The operation lever 21 performs the vertical movement of the boom 6 and the rotation of the bucket 8. A lock lever 22 is provided in the vicinity of one operation lever 20.
Here, the lock lever 22 is for stopping functions such as operation of the work implement 5, turning of the upper revolving structure 4, and traveling of the lower traveling structure 2. That is, the lifting operation of the lock lever 22 makes it possible to lock the movement of the work machine 5 and the like. In this state, the work machine 5 and the like do not operate even if the operation levers 20 and 21 are operated. It has become.

The cab 10 is provided with a monitor device 23 that displays various states of the excavator 1 (engine water temperature, hydraulic oil temperature, fuel amount, etc.).
The monitor device 23 is provided in a lower part of a vertical frame 25 that partitions the front window 24 and one side window 18 of the cab 10. A monitor screen 29 and an operation switch 30 as an operation input unit are provided on the front surface of the outer case 28 of the monitor device 23. The monitor screen 29 is constituted by a liquid crystal panel, for example. In this embodiment, the operation switch 30 is provided integrally with the monitor device 23. However, the operation switch 30 may be provided separately from the monitor device, such as provided on the instrument panel 19 or the like in the cab. Good.

Further, below the monitor screen 29 of the monitor device 23, an efficiency display lamp 30A for prompting the operator to save energy is provided. The efficiency display lamp 30A has a built-in red LED, and is turned off when the driving operation of the hydraulic excavator 1 to be described later is not an energy waste driving operation with poor fuel consumption but a driving operation with good fuel consumption. Informs the operator that is operating in an energy-saving state.
On the other hand, when the driving operation of the hydraulic excavator 1 is an energy wasting driving operation with poor fuel efficiency, the efficiency display lamp 30A is lit to notify the operator that the hydraulic excavator 1 is in the fuel consumption deterioration operating state.
In the present embodiment, the efficiency display lamp 30A is turned off when the driving operation of the excavator 1 is not an energy waste driving operation with poor fuel consumption but a driving operation with good fuel consumption, and is turned on when bad. However, it is not limited to this.
For example, when the green LED is incorporated in the efficiency display lamp and the driving operation of the hydraulic excavator 1 is an energy waste driving operation with poor fuel consumption, the display lamp is turned off, and the driving operation with poor fuel consumption is an energy waste driving operation. Alternatively, when the driving operation is good in fuel efficiency, the efficiency display lamp may be turned on to notify the operator that the fuel economy is in an deteriorated operation state.
Furthermore, the green LED and the red LED are built in the display lamp, and the green LED of the efficiency display lamp is lit when the driving operation is not an energy waste driving operation with poor fuel consumption but a driving operation with good fuel consumption. When the driving operation is an energy waste driving operation with poor fuel consumption, the red LED of the efficiency display lamp may be turned on to notify the operator whether or not the driving operation is an energy waste driving.
The display of the efficiency display lamp is not limited to lighting and extinguishing and a combination of different colors, but may be blinking and extinguishing, lighting and blinking, or the like. Further, instead of the efficiency display lamp, an image of a mark such as a character or a lamp may be displayed on the monitor screen of the monitor device.

[2] Structure of Control System of Hydraulic Excavator 1 FIG. 3 shows a control system of the hydraulic excavator 1.
The control system of the hydraulic excavator 1 is a system that controls the engine 31, the hydraulic pump 32, and the exhaust gas purification device 33, and includes an engine controller 34 and a pump controller 35. Further, the monitor device 23, the engine controller 34, and the pump controller 35 are connected to each other via a CAN (Controller Area Network) so as to communicate with each other.

  The engine 31 is a diesel engine that uses light oil as fuel oil, has a common rail fuel injection device, a fuel pump 36 that pumps fuel to the common rail, and an engine water temperature sensor that detects the coolant temperature of the engine 31. 37. The output shaft of the engine 31 is connected to the hydraulic pump 32.

The hydraulic pump 32 is an axial piston pump that includes a swash plate that is driven by a swash plate driving device 38 and that adjusts the discharge pressure of hydraulic oil at the rotational position of the swash plate. A hydraulic actuator 40 is connected to the hydraulic oil discharge side of the hydraulic pump 32 via a control valve 39. Examples of the hydraulic actuator 40 include a boom cylinder, an arm cylinder, a bucket cylinder, a turning hydraulic motor, and a traveling hydraulic motor (not shown).
The hydraulic pump 32 is connected to a hydraulic pump 32A for generating a pilot pressure, and the discharge side of the hydraulic pump 32A is connected to the operation levers 20 and 21 and the travel levers 13 and 14 via a pilot line. Yes. When the operation levers 20 and 21 and the travel levers 13 and 14 are operated, the discharge pressure of the control valve 39 is changed via the pilot line, and the hydraulic actuator 40 of the work machine 5 is operated. The engine 31 and the hydraulic pump 32 are provided on the upper swing body 4.

  Further, a solenoid valve 22A is provided between the hydraulic pump 32A, the operation levers 20 and 21, and the travel levers 13 and 14, and when the lock lever 22 is operated to the lock side, the pilot line is shut off by the solenoid valve 22A. Even if the operator operates the operation levers 20 and 21 and the travel levers 13 and 14, the hydraulic actuator 40 is not driven.

  The pressure sensor 40A is a sensor that detects whether or not the operation levers 20 and 21 and the travel levers 13 and 14 are operated, and may be an analog type sensor or an on-off sensor. Good. The pressure sensor 40 </ b> A is provided, for example, in a pilot line that transmits the operation of the operation levers 20 and 21 and the travel levers 13 and 14 to the control valve 39. Instead of the pressure sensor 40A, a potentiometer may be incorporated in the operation lever, and it may be determined whether or not the potentiometer is operated.

The exhaust gas purification device 33 is a device that removes PM (Particulate Matter) contained in the exhaust gas of the engine 31 and includes a filter 41 and an oxidation catalyst 42.
The filter 41 is made of a material such as ceramic and captures PM contained in the exhaust gas.
The oxidation catalyst 42 has a function of reducing nitrogen monoxide (NO) among nitrogen oxides (NOx) in the exhaust gas and increasing nitrogen dioxide (NO ₂ ). The oxidation catalyst 42 oxidizes hydrocarbons (hydrocarbon) injected from a fuel injection injector 43 provided upstream of the exhaust gas flow from the oxidation catalyst 42, and the reaction heat generated by the oxidation reaction causes the filter 41 to oxidize. It also has a function of performing a regeneration process for the filter 41 that burns the PM captured in step (b). In addition, as the hydrocarbon injected from the fuel injection injector 43, the light oil which is a fuel can be used, for example.
In the present embodiment, the fuel injection injector 43 is provided in the middle of the exhaust path between the engine 31 and the oxidation catalyst 42. However, the present invention is not limited to this, and the timing of fuel injection into the combustion chamber of the engine 31 is determined by the engine. The post injection may be performed in the exhaust stroke 31 and the unburned fuel is supplied to the exhaust gas purification device 33.
Further, the exhaust gas purification device 33 of the present embodiment has a configuration in which the oxidation catalyst 42 is disposed on the upstream side of the filter 41, but is not limited thereto. That is, the exhaust gas purification device may adopt a configuration in which an oxidation catalyst is directly supported in the filter, and further, another oxidation catalyst is provided upstream of the filter while the oxidation catalyst is directly supported on the filter. You may arrange.

The exhaust gas purification device 33 includes a differential pressure sensor 44 that detects a differential pressure on the inlet side and the outlet side of the filter 41, an inlet side of the exhaust gas purification device 33, an inlet side of the filter 41, and an exhaust gas purification device 33. Temperature sensors 45, 46 and 47 for detecting the respective temperatures on the outlet side of the engine are provided, and detection values detected by these sensors 44 to 47 are output to the engine controller 34 as electric signals.
In the present embodiment, the differential pressure sensor 44 is a single differential pressure sensor, but a pressure sensor is provided on each of the inlet side and the outlet side of the filter 41, and the detected pressure is sent to the engine controller 34 as an electrical signal. May be output and the difference may be obtained.

The engine controller 34 controls the rotational speed of the engine 31 according to the rotational speed set by the fuel dial 48. As a result of the control of the engine 31, the water temperature detected by the engine water temperature sensor 37 is output to the monitor device 23 as an electrical signal.
As will be described in detail later, the engine controller 34 determines whether or not the regeneration processing of the exhaust gas purification device 33 should be performed based on an electrical signal from the differential pressure sensor 44 of the exhaust gas purification device 33.
In the present embodiment, it is determined whether or not the regeneration process of the filter 41 is necessary based on the pressure. However, the present invention is not limited to this. It is possible to determine whether or not the filter 41 is clogged and whether or not a regeneration process is necessary by calculating and calculating the PM accumulation amount by taking this difference and accumulating this amount in time series. is there.

  The pump controller 35 controls the swash plate driving device 38 based on the detected value of the pressure sensor 49 for detecting the discharge pressure of the hydraulic pump 32 and the engine rotation sensor 50 provided on the output shaft connecting the engine 31 and the hydraulic pump 32. Control. Further, the pump controller 35 generates data as to whether or not the operation levers 20 and 21 and the travel levers 13 and 14 are operated based on the pressure sensor 40A in the pilot pipe line, and outputs the data to the monitor device 23 as an electrical signal. .

[3] Judgment and Notification Structure of Driving Operation FIG. 4 is a functional block diagram of the engine controller 34, the pump controller 35, and the monitor device 23 that are electrically connected via CAN.
The engine controller 34 includes a dial setting detection unit 52, an engine control unit 53, a regeneration process determination unit 54, and a DPF control unit 55.
The dial setting detection unit 52 detects the number of revolutions set by the fuel dial 48 and outputs it to the engine control unit 53 as an electric signal.
The engine control unit 53 controls the rotation speed of the engine 31 based on the set rotation speed, and outputs information such as the actual engine rotation speed and the engine water temperature to the monitor device 23 as the operating state of the engine 31. .

The regeneration processing determination unit 54 performs regeneration processing of the exhaust gas purification device 33 when the value of the differential pressure sensor 44 exceeds a predetermined threshold while detecting an electrical signal from the differential pressure sensor 44 of the exhaust gas purification device 33. It is determined that it should be (automatic playback).
Although not shown, the regeneration process determination unit 54 monitors the regeneration process start switch provided in the cab 10 and should perform the regeneration process even when the operator operates the regeneration process start switch. Is determined (manual regeneration).
If the regeneration process determination unit 54 determines that the regeneration process should be performed, the fact is output to the DPF control unit 55, and the DPF control unit 55 outputs a control signal to the fuel injector 43, and the exhaust gas purification device 33. The fuel is injected into the exhaust gas, and the regeneration process of the exhaust gas purification device 33 is started. In addition, the reproduction processing determination unit 54 outputs a determination result on whether or not to perform the reproduction processing to the monitor device 23 as an electric signal.
The monitor device 23 causes the monitor screen 29 to display a display prompting the regeneration process of the exhaust gas purification device 33 based on the information sent from the regeneration process determination unit 54. The display prompting the reproduction process may be a lamp provided on the instrument panel or the like instead of on the monitor screen 29.
The operator of the hydraulic excavator 1 stops the hydraulic excavator on a flat ground with a display prompting the regeneration process, and does not touch the levers 13, 14, 20, 21 of the work implement or the like, or operates the lock lever 22 to the lock side. The engine 31 is set to a predetermined rotational speed (for example, low idle).

Next, the operator operates the operation switch 30 provided on the monitor device 23 to start the regeneration processing of the exhaust gas purification device 33. Note that the signal for starting the reproduction process may be another operation switch provided on the instrument panel or the like, instead of the operation switch 30 on the monitor device 23.
When the regeneration process of the exhaust gas purification device 33 is started, a display indicating that the regeneration process is being performed is displayed on the monitor screen 29. The display during the reproduction process may be a lamp provided on the instrument panel 19 or the like instead of on the monitor screen 29.
When the regeneration process of the exhaust gas purification device 33 is completed, the display during the regeneration process disappears, and the operator is notified of the end of the regeneration process.

  The pump controller 35 includes an operation detection unit 56 and detects operation states of the operation levers 20 and 21 and the travel levers 13 and 14 from a detection signal from the pressure sensor 40A. The detection result of the lever operation is output to the monitor device 23 as an electric signal. In addition, the pump controller 35 controls the hydraulic pump 32 at each output point of the engine according to the pump absorption torque set for each work mode, the engine speed set by the fuel dial 48, and the actual engine speed. Control to absorb the best matching torque.

The monitor device 23 includes an operating state acquisition unit 57, a display control unit 58, a work mode setting unit 59, an energy waste operation operation determination unit 60, an efficiency display control unit 61, a notification restriction unit 62, an authentication unit 63, and a work mode fixing unit. 64.
The operating state acquisition unit 57 acquires the state of the operation switch 30 and various detection values output from the engine controller 34 and the pump controller 35 via CAN, and outputs the state of the hydraulic excavator 1 to the display control unit 58. To do.
The display control unit 58 is provided with a coolant temperature, a fuel remaining amount acquired by the operating state acquisition unit 57, and a work mode set by a work manager or operator described later (shown in the upper right of the display screen of FIG. 14 described later). And the like are displayed on the monitor screen 29.

The work mode setting unit 59 operates the hydraulic excavator 1 with priority on fuel consumption or operates with priority on work by operating a switch for operation mode selection operation provided on the monitor device 23 or in the driver's cab of the instrument panel 19 or the like. It is a part to set whether to do. Specifically, as shown in FIG. 5, items of work modes that can be selected by the operator are displayed on a monitor screen 29 of the monitor device 23 as a screen G1, and the operator is prompted to select a work mode.
The operator operates one of the operation modes by operating the F3 operation switch 30 associated with the cursor down icon down operation or the F4 operation switch 30 associated with the cursor up icon up operation. And the operation mode 30 is set by operating the operation switch 30 of F6 associated with the confirmation operation of the confirmation icon.
In the present embodiment, the selected work mode is displayed on the screen in a display form that can be identified from a work mode that is not selected by shading or the like, but is not limited thereto.
In addition, the work mode can be selected directly from the heavy excavation mode to the fuel saving mode or from the fuel saving mode to the heavy excavation mode by operating the work mode selection operation switch without using the work mode setting screen. You may make it switch to. In this case, the selected work mode can be grasped by the display of the work mode displayed on the upper right of FIG. 14, the operation position of the work mode selection operation switch, or the like.
The work mode set by the work mode setting unit 59 is output to the pump controller 35, and the pump controller 35 performs absorption torque control of the hydraulic pump 32 based on the set work mode.
The work mode set by the work mode setting unit 59 is also output to the energy wasting operation determination unit 60.

In general, a construction machine such as a hydraulic excavator is provided with a plurality of work modes corresponding to work contents. For example, there are work modes such as “heavy excavation mode (P mode)” and “fuel saving mode (E mode)”. The outline of each work mode is as follows.
The “heavy excavation mode” is an operation mode (emphasis on the amount of work) for excavation work with a heavy load, and the output torque of the engine 31 and the hydraulic pump 32 are controlled in a region where the rotation and output torque of the engine 31 are relatively high. In this mode, the absorption torque is matched.
“Fuel saving mode” is a work mode (emphasis on fuel consumption) for performing light work such as excavation work with less load and skid removal than heavy excavation mode, which is lower than in heavy excavation mode In this mode, engine output torque characteristics are set.

The energy wasting operation determination unit 60 determines the hydraulic pressure based on the operation state of the operation levers 20 and 21 and the travel levers 13 and 14 output from the operation detection unit 56 of the pump controller 35 or the setting state of the work mode setting unit 59. It is determined whether or not the operation of the excavator 1 is an energy wasting operation. The determination result by the energy wasting operation determination unit 60 is output to the efficiency display control unit 61.
Specifically, the energy wasting operation operation determination unit 60 determines whether the operation is an energy wasting operation based on the following criteria.

(1) Item name indicating operation: long-term idling “long-term idling” is a state in which all hydraulic actuators such as the work implement 5 are not operated (the levers 13, 14, 20) while the engine 31 is operating. , 21 is not operated, or the lock lever 22 is locked) for a predetermined time. The lever that is the target of the determination condition may be appropriately determined according to the type of vehicle such as a wheel loader, but the lever that operates the work machine is preferably the target of the condition.
(2) Item name indicating operation: Fuel saving mode recommended “Fuel saving mode recommended” is a mode in which the setting in the work mode setting unit 59 is not the fuel saving mode and the fuel consumption is higher than the fuel saving mode. This refers to the case where the actually generated horsepower is within the E mode range in the state set to the excavation mode.
The generated horsepower is calculated by integrating the engine speed from the engine controller 34 and the value of the engine output torque.
As described above, when the conditions of “long-term idling” and “recommended fuel saving mode” are satisfied, it is determined that the operation is an energy wasting operation that causes deterioration in fuel consumption.

The efficiency display control unit 61 is a part that performs display control of the efficiency display lamp 30A based on the determination result of the energy wasting operation determination unit 60, and functions as a determination result notification unit of the present invention. In the present embodiment, when it is determined by the energy wasting operation determining unit 60 that the driving operation is the energy wasting operation, the efficiency display control unit 61 turns on the efficiency display lamp 30A, and the driving operation is energy wasting. When it is determined not to be a driving operation, the efficiency display lamp 30A is turned off.
The notification restriction unit 62 determines whether or not the regeneration process output from the regeneration process determination unit 54 of the engine controller 34 should be performed, or whether or not the work mode is fixed by the work mode fixing unit 64 described later. This is a part that regulates the display control of the efficiency display lamp 30A by the efficiency display control unit 61 based on the determination result of the energy wasting operation determination unit 60.

The authentication unit 63 is a part that performs authentication to use the function of the work mode fixing unit 64. When the work manager fixes the work mode, as shown in FIG. 6, the operation switch 30 is operated, A password input screen G2 for prompting the input of a password is displayed on the monitor screen 29.
When the work manager operates the operation switch 30 capable of inputting numbers, alphabetic characters, etc. of the monitor device 23 and inputs a correct password, the work mode fixing unit 64 uses the function of fixing the work mode. Then, it is determined, and the work mode fixed setting screen G3 shown in FIG. 7 is displayed on the screen of the monitor device.
The work mode fixed setting screen G3 may be displayed by a specific operation such as operating several operation switches 30 at the same time or operating in a predetermined order.

On the work mode fixed setting screen, a heavy excavation mode (P) and a fuel saving mode (E), which are work mode items that can be selected as fixed work modes, are displayed so as to be selectable. It should be noted that the item display of the work mode that is fixed at this time is shaded.
When the work manager fixes the work mode to the heavy excavation mode, the heavy excavation mode is selected by moving the cursor up and down with the operation switches 30 of F3 and F4 described above on the work mode fixing setting screen G4, and the operation switch of F6 Confirm the selection with.
Thereby, as shown in the work mode fixed setting screen G4 shown in FIG. 8, the display of the heavy excavation mode (P) is shaded, and it can be identified that the work mode is fixed to the heavy excavation mode (P). . On the other hand, for example, as shown in FIG. 8, the display shade is displayed on the normal work mode selection screen so that the operator can recognize that the display of the fuel saving mode that has not been selected as the fixed work mode can be selected. Thinner than time.
When the work manager fixes the work mode according to the above-described procedure, the setting is stored and saved even if the key of the excavator 1 is turned off, and then the key of the excavator 1 is turned on. The fixed state of the work mode is also maintained.

As a result, as for the modes that can be set as the work mode by the operator, only the work mode selected as the fixed work mode by the work mode setting unit 59 can be accepted, and other modes cannot be set.
As described above, since the function for performing the work mode fixing process is provided, it is possible to limit the work modes that can be set by the operator in advance. As a result, the operator can select the work mode only within a limited range with respect to the excavator 1 in which the work mode is fixed.
8 is an example of the display of the work mode selection screen when the work mode fixing process is performed, and FIG. 5 is a display of the work mode selection screen when the work mode fixing process is not performed. It is an example.

[4] Operation and Effect of Embodiment The operation of the engine controller 34, the pump controller 35, and the monitor device 23 as described above will be described based on the flowcharts shown in FIGS.
In the present embodiment, even when the work mode by the work mode setting unit 59 is set to the heavy excavation mode (P), the work by the work machine 5 can be performed in the fuel saving mode (E). explain.
As shown in FIG. 9, the energy wasting operation determination unit 60 acquires various operation information of the excavator 1 from the operation detection unit 56, the engine control unit 53, and the like of the pump controller 35 (step S1).
Next, the energy wasting operation determination unit 60 performs the actual work by the hydraulic excavator 1 in the work mode set by the work mode setting unit 59 more than the set work mode (heavy excavation mode in this example). It is determined whether it is possible even in a work mode (fuel saving mode in this example) that consumes less fuel, that is, whether or not an appropriate work mode is set.
In the fuel economy mode recommended determination described above, when the work mode is set to the heavy excavation mode and the generated horsepower actually generated by the construction machine is within the fuel economy mode range, the energy wasting operation is performed. It is determined that the set work mode is not appropriate.
If the generated horsepower that is actually generated is larger than the fuel saving mode range, it is determined that the operation is not an energy wasting operation, and the set work mode is determined to be appropriate (step S2).
Note that the threshold value of the generated horsepower when determining whether or not the driving operation has good fuel efficiency may be the upper limit value of the generated horsepower in the fuel saving mode, and a predetermined value smaller than the upper limit value is determined as the determination value. May be.
When it is determined that the setting of the work mode is not appropriate, the notification restricting unit 62 determines whether or not the work mode is fixed by the work mode fixing unit 64 (step S3).

When the work mode is not fixed, notification restriction by the notification restriction unit 62 is not performed, and the efficiency display control unit 61 performs control to turn on the efficiency display lamp 30A based on the determination result of the energy wasting operation determination unit 60. Perform (step S4).
On the other hand, when the work mode is fixed, the notification restriction unit 62 restricts the turning on / off control of the efficiency display lamp 30A by the efficiency display control unit 61 regardless of the determination result of the energy wasting operation operation determination unit 60, and the efficiency The display of lighting of the display lamp 30A is restricted and the current extinguishing state is maintained (step S5).
When it is determined that the setting of the work mode is appropriate, the efficiency display control unit 61 performs control to turn off the efficiency display lamp 30A (step S6).
The determination in the case where the fuel saving mode is recommended is that the position of the intersection between the engine speed set with the fuel dial 48 and the engine torque at the time of work is the difference between the engine speed set with the fuel dial 48 and the engine torque. Based on the relationship, it may be determined whether or not the driving operation is included within a preset range of good fuel efficiency.

Further, in the present embodiment, the energy wasting operation determination unit 60 regulates the turning on / off of the efficiency display lamp 30 </ b> A depending on whether or not the regeneration process determination unit 54 needs to perform the regeneration process of the exhaust gas purification device 33. Yes.
That is, as shown in FIG. 10, the energy wasting operation determination unit 60 acquires various types of operation information of the excavator 1 from the operation detection unit 56, the engine control unit 53, and the like of the pump controller 35 (step S7).
Next, the energy wasting operation determination unit 60 monitors the operation state of the levers 20, 21, 13, and 14 and determines whether or not there is no lever operation for a predetermined time (step S8).
If it is determined that the lever is operated within the predetermined time, the efficiency display control unit 61 performs control to turn off the efficiency display lamp 30A (step S9).

On the other hand, when it is determined that the lever is not operated continuously for a predetermined time, or when the lock lever 22 is in the locked state, the notification restricting unit 62 performs exhaust in the regeneration process determining unit 54 of the engine controller 34. It is determined which of the determination contents whether or not the regeneration process of the gas purification device 33 should be performed (step S10).
Here, the determination that the regeneration process needs to be performed includes a case where the exhaust gas purification device 33 is already in the regeneration process.
When the determination in the regeneration process determination unit 54 does not require the regeneration process, the notification restriction unit 62 does not perform the notification restriction, and the efficiency display control unit 61 determines the efficiency based on the determination result of the energy waste driving operation determination unit 60. Control to turn on the display lamp 30A is performed (step S11).
When the determination in the regeneration process determination unit 54 requires the regeneration process, the notification restriction unit 62 turns on / off the efficiency display lamp 30A by the efficiency display control unit 61 regardless of the determination result of the energy wasting operation operation determination unit 60. The control is restricted, the display of lighting of the efficiency display lamp 30A is restricted, and the current extinguishing state is maintained (step S12).

According to the present embodiment, when the work mode is fixed by the work mode fixing unit 64, the notification of the determination result by the energy wasting operation determination unit 60 is restricted by the notification restriction unit 62. Therefore, the work mode Even if the operator is operating the construction machine 1 in a state where is fixed, notification that promotes energy-saving operation is restricted, and the operator does not feel bothersome.
When the heavy excavation mode is fixed by the work mode fixing process, it is difficult for the operator to change the work mode to the fuel saving mode, which is a fuel efficient mode. There arises a problem that a display or a sound indicating that it is. However, according to the present embodiment, even in such a case, when the work mode is fixed, a display indicating that the operation is an energy waste operation is not performed, and no sound is generated. Therefore, the operator who operates the excavator 1 is not bothered by these unnecessary reports.

In the present embodiment, both the restriction of the fixed mode and the restriction of the reproduction process are performed, but only one of the restriction controls may be performed.
The setting of the fixed mode function has been described in the example of the work manager, but it may be a construction machine manager or a service person. This does not prevent the operator of the excavator 1 from setting the fixed mode function. In this case, the operator is given a password in advance.
The setting method of the fixed mode is not limited to the password input, but may be performed by inserting an ID key that can identify the user into the key cylinder.
Furthermore, the work mode is not limited to the heavy excavation mode and the fuel saving mode, and it is possible to further select a technique operation mode that requires fine operation, a suspension mode for suspension work, and the like. Good.

  In the present embodiment, as shown in FIG. 9, the determination as to whether or not the work mode is appropriate is performed first, but the present invention is not limited to this. That is, as shown in FIG. 11, the order of steps S2 and S3 is reversed, and it is determined first whether or not the work mode is fixed, and it is determined that the work mode is fixed and the work mode is not appropriate. In such a case, the flow may regulate the lighting of the efficiency display lamp 30A lamp.

[Second Embodiment]
Next, a second embodiment of the present invention will be described.
In the said 1st Embodiment, the determination result alerting | reporting means has been performed by turning on and off the efficiency display lamp 30A.
On the other hand, as shown in FIG. 11, the monitoring device 70 according to the second embodiment includes a guidance output control unit 71, a speaker 72, and a memory 73. When it is determined that the sound is bad, a sound as an example of guidance is output from the speaker 72, so that the operator is notified.

The guidance output control unit 71 reads out a different message from the memory 73 according to the determination result of the energy wasting operation operation determination unit 60 and causes the speaker 72 to output it as voice guidance.
For example, when the energy waste driving operation determination unit 60 determines that the operation lever is not operated for a certain period of time and is idling for a long time, the guidance output control unit 71 stores the “long idling” stored in the memory 73. Is read out, and is output from the speaker 72 as voice guidance.
In addition, the energy waste driving operation determination unit 60 indicates that the work by the actual work machine 5 can be operated in the fuel saving mode even though the work mode in the work mode setting unit 59 is set to the heavy excavation mode. If it is determined, the guidance output control unit 71 reads out the audio information “Recommend using fuel saving mode” stored in the memory 73 and outputs the audio from the speaker 72.

  In such an embodiment, when the work mode is fixed to the heavy excavation mode by the work mode fixing unit 64, even if it is determined by the energy wasting operation determination unit 60 that the operation can be performed in the fuel saving mode, the notification is made. The restriction unit 62 restricts the voice output from the speaker 72 that “it is recommended to use the fuel saving mode”, and the operator is not bothered.

[Third embodiment]
Next, a third embodiment of the present invention will be described.
In the said 1st Embodiment, the determination result alerting | reporting means has been performed by turning on and off the efficiency display lamp 30A.
On the other hand, as shown in FIG. 12, the monitor device 80 according to the third embodiment displays guidance on the monitor screen 29 for idling for a long time and for recommending a fuel saving mode (E mode). Is different.
The monitor device 80 according to the present embodiment includes a memory 81, and includes operation items that become a fuel-efficient operation as shown in FIG. 13, determination conditions for each operation item, and guidance that is displayed on the monitor screen 29. It is remembered.

Then, the energy wasting operation determination unit 60 determines that the work implement can be sufficiently operated even in the fuel saving mode, although the setting in the work mode setting unit 59 is set to the heavy excavation mode. In this case, as shown in FIG. 14, a guidance G5 “Recommend fuel saving mode (E mode)” is displayed on the monitor screen 29 to encourage driving in the fuel saving mode.
However, when the work mode setting by the work mode setting unit 59 is fixed by the work mode fixing unit 64, the notification restriction unit 62 restricts the display on the monitor screen 29 of the guidance G5.
Furthermore, according to the third embodiment, in addition to the effects described in the first embodiment, an effect of suppressing a decrease in visibility of an engine water temperature meter indicating the state of the vehicle displayed on the screen, a fuel amount, and the like. Bring.

The present invention can be used not only for a hydraulic excavator but also for other construction machines such as a wheel loader.

  DESCRIPTION OF SYMBOLS 1 ... Hydraulic excavator, 2 ... Lower traveling body, 3 ... Turning mechanism, 4 ... Upper turning body, 5 ... Working machine, 6 ... Boom, 7 ... Arm, 8 ... Bucket, 10 ... Driver's cab, 11 ... Driver's seat, 12 ... Traveling operation means 13, 14 ... Traveling lever, 15, 16 ... Traveling pedal, 18 ... Side window, 19 ... Instrument panel, 20, 21 ... Operation lever, 22 ... Lock lever, 22A ... Solenoid valve, 23 ... Monitor Device: 24 ... Front window, 25 ... Vertical frame, 28 ... Exterior case, 29 ... Monitor screen, 30 ... Switch for operation, 30A ... Efficiency display lamp, 31 ... Engine, 32 ... Hydraulic pump, 32A ... Hydraulic pump, 33 ... Exhaust gas purification device 34 ... Engine controller 35 ... Pump controller 36 ... Fuel pump 37 ... Engine water temperature sensor 38 ... Swash plate drive device 39 ... Control valve 40 ... Hydraulic pressure 40A ... pressure sensor, 41 ... filter, 42 ... oxidation catalyst, 43 ... fuel injection injector, 44 ... differential pressure sensor, 45 ... temperature sensor, 48 ... fuel dial, 49 ... pressure sensor, 50 ... engine rotation sensor, 52 ... Dial setting detection unit, 53 ... Engine control unit, 54 ... Reproduction process determination unit, 55 ... DPF control unit, 56 ... Operation detection unit, 57 ... Operating state acquisition unit, 58 ... Display control unit, 59 ... Work mode setting unit , 60 ... Energy wasting operation determination unit, 61 ... Efficiency display control unit, 62 ... Notification restriction unit, 63 ... Authentication unit, 64 ... Work mode fixing unit, 70 ... Monitor device, 71 ... Guidance output control unit, 72 ... Speaker 73 ... Memory, 80 ... Monitor device, 81 ... Memory

Claims (5)

A construction machine capable of setting a plurality of work modes,
Work mode setting means for setting the work mode of the construction machine;
Work mode fixing means for fixing to any one of the work modes settable by the work mode setting means,
Energy wasteful operation determining means for determining whether or not the operation of the construction machine is energy wasteful operation,
A determination result notifying means for notifying the determination result of the energy waste driving operation determining means to the outside;
A notification restricting means for restricting notification of the determination result by the determination result notifying means based on the determination result of the energy wasting operation determination means when the work mode is fixed by the work mode fixing means; A construction machine characterized by The construction machine according to claim 1,
When the energy waste driving operation determination means determines that the operation is wasteful operation and the work mode is fixed by the work mode fixing means, the notification restriction means restricts notification of the determination result by the determination result notification. A featured construction machine. In the construction machine according to claim 1 or 2,
The energy wasting operation operation judging means is an energy wasting operation operation when the work mode setting means is able to work in a work mode with a small load despite being set to a work mode with a large load. Judge that there is,
The construction machine characterized in that, when it is determined that the operation is an energy wasting operation by setting the work mode, the notification regulation unit regulates the notification of the determination result by the determination result notification unit. In a construction machine capable of setting a plurality of work modes, the operation operation of the construction machine is a method for notifying whether or not the operation operation of the construction machine notifies the outside whether or not the operation operation of the construction machine is an energy waste operation operation,
A method for notifying whether or not the operation operation of the construction machine is good, wherein the notification of whether or not the operation is an energy waste operation is performed when the operation mode is fixed to any one of the plurality of operation modes. In the quality notification method of the driving operation of the construction machine according to claim 4,
A method for notifying whether a construction machine is operating or not, characterized in that, when it is determined that the operation is energy waste operation and the work mode is fixed, notification of whether or not the operation is energy waste operation is regulated.

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