JP2016084761A - Work vehicle - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a tractor 1 acting as a work vehicle capable of informing necessity about a regeneration operation rapidly to an operator and providing detailed information about the regeneration operation to the operator.SOLUTION: This invention relates to a tractor 1 for oxidizing and removing particulate substance. An instrument board 30 is provided with a regeneration operation indicator 34A, an alert indicator 35, a first display device 42, a second display device 28 displaying information about the regeneration operation. When a regeneration operation is required, or regeneration operation is being carried out, the regeneration operation indicator 34A and the alert indicator 35 are illuminated or lit, information concerning the regeneration operation is displayed at the first display device 42, and information concerning the regeneration operation not displayed at the first display device is displayed at the second display device 28.SELECTED DRAWING: Figure 16

Description

  The present invention relates to a work vehicle. More specifically, the present invention relates to a work vehicle including an exhaust purification device.

  2. Description of the Related Art Conventionally, a work vehicle such as a tractor is known that includes an exhaust purification device that collects particulate matter (hereinafter simply referred to as “PM”) contained in exhaust from a diesel engine or the like. In such a work vehicle, when the amount of PM remaining in the exhaust purification device increases, the exhaust back pressure rises, causing deterioration of the fuel consumption of the engine, a decrease in output, and the like. Therefore, when the estimated value of the amount of accumulated PM remaining in the exhaust purification device exceeds the specified amount, the work vehicle forcibly raises the exhaust temperature to be higher than the activation temperature of the oxidation catalyst and forces the PM collected in the soot filter. It has a function of removing oxidation (regeneration). For example, as described in Patent Document 1.

  The work vehicle described in Patent Document 1 displays that the regeneration operation is necessary by the display means arranged in the operation unit when the exhaust purification device needs to be regenerated. In the regeneration operation, there are various regeneration methods depending on the function and effect. Therefore, it is desirable to perform the regeneration operation by the optimum regeneration method depending on the operation time of the work vehicle and the state of the exhaust purification device. However, the work vehicle only displayed that the regenerative operation is necessary.

JP 2011-106286 A

  The present invention has been made in view of the situation as described above, and it is an object of the present invention to provide a work vehicle capable of promptly transmitting the necessity of regeneration driving to a driver and providing detailed information regarding the regeneration driving. To do.

  That is, in the present invention, in a work vehicle in which a regeneration operation for removing particulate matter in the exhaust gas collected by the exhaust gas purification device of the engine is oxidized, the meter panel has a state where the regeneration operation is necessary or the regeneration operation. Is provided, a warning indicator indicating a malfunction of the work vehicle, and a first display device for displaying information related to the regenerative operation. When a second display device for displaying information is provided and regeneration operation is required, the regeneration operation indicator, or the regeneration operation indicator and the warning indicator are flashed, and the first display device is necessary for performing the regeneration operation. Information related to the operation is displayed, and information related to the operation necessary for carrying out the regeneration operation is displayed on the second display device and the first display device. When the regeneration operation is being performed, the regeneration operation indicator, or the regeneration operation indicator and the warning indicator are lit, and the information regarding the regeneration operation implementation state is displayed on the first display device. The information related to the state of execution of the regeneration operation and the information related to the regeneration operation not displayed on the first display device are displayed on the second display device.

  In the present invention, a regeneration operation switch that can be at least partially lit or blinked is provided on the surface of the steering column facing the driver seat, and when the regeneration operation is necessary and the regeneration operation can be performed, the regeneration operation switch When the flashing regeneration operation switch is pressed for longer than a predetermined time, the regeneration operation switch is turned on and the regeneration operation is performed.

  As effects of the present invention, the following effects can be obtained.

  That is, in the present invention, the minimum information regarding the regeneration operation is displayed by the indicator and the first display device, and the supplementary information is displayed by the second display device. Thus, the necessity of the regeneration operation can be promptly transmitted to the operator, and detailed information regarding the regeneration operation can be provided.

  In the present invention, the display on the first display device and the second display device is switched in conjunction with the operation of the regeneration operation switch. Thus, the necessity of the regeneration operation can be promptly transmitted to the operator, and detailed information regarding the regeneration operation can be provided.

The figure which shows the structure of one Embodiment of the tractor which concerns on this invention. Schematic which shows the whole structure of the exhaust purification apparatus of the tractor which concerns on this invention. The figure which shows the driver's seat of the tractor which concerns on this invention, and its periphery. (A) The figure which shows the instrument panel of the tractor which concerns on this invention (b) The figure which similarly shows a regeneration driving | operation switch. The perspective view which shows the shape of the meter panel of the tractor which concerns on this invention. The figure which shows the display structure of the meter panel of the tractor which concerns on this invention. Schematic which shows the 2nd display apparatus of the tractor which concerns on this invention. The figure which shows the home screen displayed on the 2nd display apparatus of the tractor which concerns on this invention. Schematic which shows the control structure of the tractor which concerns on this invention. The figure which shows the flowchart showing the control aspect of assist regeneration in the exhaust gas purification apparatus of the tractor which concerns on this invention. The figure which shows the flowchart showing the control aspect of reset regeneration, non-work regeneration, and recovery regeneration of the exhaust purification device in the exhaust purification device of the tractor according to the present invention. The figure which showed the display mode of the meter panel in the case of displaying a status display screen in the tractor which concerns on this invention. The figure which shows the hour meter screen displayed on the 1st display device arrange | positioned at the meter panel of the tractor which concerns on this invention (b) The figure which shows a setting value display screen similarly (c) The average fuel consumption and driveable time screen are shown FIG. 4D is a diagram showing a maintenance setting screen. The figure which shows the graph showing the mode of lighting of the indicator displayed on a meter panel at the time of the assist regeneration driving | operation of the tractor which concerns on this invention, and a regeneration driving | operation switch. (A) The figure which shows the display mode of the meter panel at the time of the assist regeneration driving | operation request | requirement of the tractor which concerns on this invention (b) The figure which similarly shows the display mode of the meter panel at the time of assist regeneration driving | operation. (A) The figure which shows warning screen S2 displayed on a 2nd display device at the time of the assist regeneration driving | operation request | requirement of the tractor which concerns on this invention (b) Similarly, warning screen S2 displayed on the 2nd display device at the time of assist regeneration driving | operation FIG. The figure which shows the graph showing the mode of lighting of the indicator displayed on a meter panel at the time of stationary regeneration driving | operation, and a regeneration driving | operation switch. (A) The figure which shows the display mode of the meter panel at the time of the stationary regeneration operation | movement request | requirement of the tractor based on this invention (b) The figure which similarly shows the display mode of the meter panel at the time of stationary regeneration operation | movement. (A) The figure which shows warning screen S2 displayed on a 2nd display device at the time of the stationary regeneration operation | movement request | requirement of the tractor which concerns on this invention (b) Similarly, warning screen S2 displayed on the 2nd display device at the time of stationary regeneration operation | movement FIG.

  The technical idea of the present invention can be applied to any work vehicle. In the present application, description will be made using a tractor which is a typical work vehicle.

  First, the tractor 1 will be briefly described with reference to FIG.

  As shown in FIG. 1, the tractor 1 mainly includes a frame 2, an engine 3, a transmission 5, a front axle 6, and a rear axle 7. Further, the tractor 1 includes a cabin 8. The cabin 8 has a cockpit inside, and in addition to the driver's seat 19, operating tools such as an accelerator pedal 22 and a shift lever 23, a second display device 28, a meter panel 30, and the like are arranged.

  The frame 2 forms a skeleton at the front portion of the tractor 1. The frame 2 forms a chassis of the tractor 1 together with the transmission 5 and the rear axle 7. The engine 3 described below is supported by the frame 2.

  The engine 3 converts thermal energy obtained by burning fuel into kinetic energy. That is, the engine 3 generates rotational power by burning fuel. When the operator operates the accelerator pedal 22 (see FIG. 3), the driving state of the engine 3 is changed according to the operation. Further, the engine 3 is provided with an exhaust purification device 4. The exhaust purification device 4 oxidizes particulates, carbon monoxide, hydrocarbons, etc. contained in the exhaust.

  The transmission 5 transmits the rotational power of the engine 3 to the front axle 6 and the rear axle 7. The rotational power of the engine 3 is input to the transmission 5 via a coupling mechanism. The transmission 5 is provided with a continuously variable transmission (not shown). When the operator operates the shift lever 23 (see FIG. 3), the continuously variable transmission changes the operating state of the transmission 5 according to the operation.

  The front axle 6 transmits the rotational power of the engine 3 to the front tire 9. The rotational power of the engine 3 is input to the front axle 6 via the transmission 5. The front axle 6 is provided with a steering device (not shown). When the operator operates the handle 20 (see FIG. 3), the steering device changes the steering angle of the front tire 9 according to the operation. The rear axle 7 transmits the rotational power of the engine 3 to the rear tire 10. The rotational power of the engine 3 is input to the rear axle 7 via the transmission 5.

  The tractor 1 includes a control device 45 that controls the engine 3, the exhaust purification device 4, the transmission 5, various devices, and the like. The control device 45 may be configured such that a CPU, ROM, RAM, HDD, or the like is connected by a bus, or may be configured by a one-chip LSI or the like. The control device 45 stores various programs and data for controlling the engine 3, the exhaust purification device 4, the transmission 5, various devices, and the like. In addition, the tractor 1 is configured with a controller area network (CAN), which is an information network in which various devices constituting the tractor 1 are organically connected around the control device 45 so that the maximum performance can be exhibited. Has been. In the tractor 1, the control device 45 grasps in detail the state of the engine 3, the exhaust purification device 4, the transmission 5, various devices and the like by CAN and displays them on the meter panel 30 and the like, and a control panel and a second display device 28 not shown. The engine 3, the exhaust purification device 4, the transmission 5, various devices and the like are integratedly controlled on the basis of the input from.

  Next, an exhaust purification device 4 that is an embodiment of the exhaust purification device of the tractor 1 will be described with reference to FIG. In this embodiment, “upstream side” indicates the upstream side in the exhaust flow direction, and “downstream side” indicates the downstream side in the exhaust flow direction.

  As shown in FIG. 2, the exhaust purification device 4 purifies exhaust exhausted from the engine 3. The exhaust purification device 4 is provided in the engine 3, and includes a soot filter 14, an oxidation catalyst 15, a DPF upstream temperature sensor 16, a DPF downstream temperature sensor 17, a rotation speed sensor 18, and the like. The exhaust purification device 4 is controlled by a control device 45.

  The engine 3 is composed of a diesel engine. The engine 3 mixes and burns the outside air supplied via the intake passage 11 and the fuel supplied from each fuel injection valve 12 in each cylinder. Exhaust gas generated by the combustion of fuel is discharged through an exhaust path 13. The intake passage 11 is provided with an intake throttle 11a that can control the intake air amount by adjusting the opening degree. Although the engine 3 according to this embodiment is an in-line four cylinder, it is not limited to this.

  The soot filter 14 is disposed in the exhaust path 13 of the engine 3 and collects particulate matter (PM) in the exhaust. Specifically, the soot filter 14 has a honeycomb structure composed of a porous wall made of ceramic or the like, and the exhaust is always discharged after passing through the porous wall. The soot filter 14 collects PM in the exhaust when the exhaust passes through the porous wall. As a result, PM is removed from the exhaust.

The oxidation catalyst 15 generates NO ₂ by an oxidation reaction with respect to a NO component in NOx that is an exhaust component. The oxidation catalyst 15 is provided on the upstream side of the soot filter 14. The oxidation catalyst 15 oxidizes and removes the PM collected by the soot filter 14 by the oxidizing power of the generated NO ₂ .

  The DPF upstream temperature sensor 16 and the DPF downstream temperature sensor 17 detect the exhaust gas temperature t1. The DPF upstream temperature sensor 16 is provided on the upstream side of the oxidation catalyst 15, and detects the upstream temperature of the oxidation catalyst 15, that is, the inlet temperature (exhaust temperature t1) of the oxidation catalyst 15. The DPF downstream temperature sensor 17 is provided on the downstream side of the oxidation catalyst 15 and detects the downstream temperature of the oxidation catalyst 15, that is, the outlet temperature t <b> 2 of the oxidation catalyst 15.

  The rotational speed sensor 18 detects the rotational speed R of the engine 3. The rotational speed sensor 18 is provided on a crankshaft or a flywheel (not shown) and detects the rotational speed R of the engine 3 from the angle of the crankshaft.

  The control device 45 controls the engine 3 to perform a regeneration operation for oxidizing and removing the PM of the soot filter 14. The control device 45 stores various programs and data for performing the regeneration operation. Specifically, the controller 45 calculates exhaust flow rate data obtained by calculation, internal temperature data calculated by the DPF upstream temperature sensor 16 and the DPF downstream temperature sensor 17 of the oxidation catalyst 15, and a calculation result of the PM oxidation removal amount. Data such as data, PM emission amount map M1, oxidation removal efficiency map M2 are stored.

The control device 45 is connected to the fuel injection valve 12 and can control the fuel injection amount of the fuel injection valve 12 to start and stop the engine 3 and control the output.
The control device 45 is connected to the rotation speed sensor 18 and can acquire the rotation speed R of the engine 3 detected by the rotation speed sensor 18 and the fuel injection amount Fi injected by the fuel injection valve 12.

  The control device 45 is connected to the DPF upstream temperature sensor 16 and the DPF downstream temperature sensor 17 and calculates the inlet temperature t1 of the oxidation catalyst 15 detected by the DPF upstream temperature sensor 16 and the DPF downstream temperature sensor 17. It is possible to obtain the outlet temperature t2 of the oxidation catalyst 15.

  The control device 45 can calculate the exhaust gas flow rate Ex per unit time from the rotational speed R of the engine 3, the intake air flow rate, and the fuel injection amount Fi.

  The control device 45 calculates the internal temperature of the oxidation catalyst 15 that is an average value of the internal temperature of the oxidation catalyst 15 from the inlet temperature t1 of the oxidation catalyst 15, the outlet temperature t2 of the oxidation catalyst 15, and the exhaust flow rate Ex every time the exhaust flow rate Ex is calculated. It is possible to calculate t3.

  The control device 45 calculates a discharge amount PMout that is a discharge amount per unit time of PM based on the PM discharge amount map M1 from the rotation speed R of the engine 3 and the fuel injection amount Fi every time the exhaust flow rate Ex is calculated. It is possible.

  For each calculation of the exhaust gas flow rate Ex, the control device 45 removes the oxidation removal amount per unit time of PM based on the PM oxidation removal efficiency map M2 from the internal temperature t3 of the oxidation catalyst 15 and the calculated generation amount Ndo. PMreg can be calculated.

  Each time the exhaust gas flow rate Ex is calculated, the control device 45 calculates a deposition amount PMdep, which is a deposition amount per unit time of PM, from the difference between the exhaust amount PMout and the removal amount PMreg, and the accumulated amount PMdep calculated so far is calculated. Cumulative addition is possible. That is, the control device 45 can calculate a cumulative deposition amount ΣPMdep obtained by cumulatively adding the deposition amount PMdep calculated every time the exhaust flow rate Ex is calculated.

  As a method of regeneration operation for removing PM deposited on the soot filter 14 by oxidation, self regeneration for spontaneous regeneration in the soot filter 14 during normal operation of the engine 3 and intentional increase of the exhaust gas temperature for the soot filter 14 There are assist regeneration that is forced regeneration for oxidizing and removing PM, reset regeneration, stationary regeneration that is regeneration when not working, and recovery regeneration.

In the self-regeneration, PM collected by the soot filter 14 is oxidized and removed by the oxidation action of NO ₂ generated by oxidizing the NOx contained in the exhaust gas of the engine 3 by the oxidation catalyst 15.

The assist regeneration intentionally activates the oxidation catalyst 15 to oxidize and remove PM collected by the soot filter 14. The control device 45 raises the exhaust temperature t1 to the activation temperature of the oxidation catalyst 15 by the opening degree control of the intake throttle 11a and the injection control of the fuel injection valve 12. Thereby, the exhaust purification device 4 oxidizes and removes the PM in which the NO ₂ generated by the oxidation catalyst 15 is collected by the soot filter 14. Specifically, the control device 45 closes the intake throttle 11a to a predetermined opening to reduce the intake amount of the engine 3. In addition, the control device 45 raises the exhaust gas temperature by performing post-combustion combustion by performing retarded injection of the fuel injection valve 12 and after-injection in which fuel is injected with a delay from the main injection. Thus, the control device 45 oxidizes and removes the PM collected by the soot filter 14 by raising the exhaust gas temperature t1 and activating the oxidation catalyst 15.

  In the reset regeneration, post injection is performed in addition to the control mode of assist regeneration. The control device 45 performs the reset regeneration when the accumulated operation time of the exhaust purification device 4 is equal to or longer than the set time T0 or when the predetermined condition X (see FIG. 8) is not satisfied even when the assist regeneration is performed. The control device 45 supplies unburned fuel to the soot filter 14 by post-injection that is further retarded in addition to the adjustment of the opening degree of the intake throttle 11a, the retard angle and after-injection of the main injection by the fuel injection valve 12. Thus, the control device 45 activates the oxidation catalyst 15 to further raise the exhaust gas temperature t1, and oxidizes and removes the PM collected by the soot filter 14.

  Stationary regeneration is to maintain the rotational speed R of the engine 3 at a predetermined rotational speed in addition to the control mode of reset regeneration. The control device 45 performs stationary regeneration when the predetermined condition Y (see FIG. 9) is not satisfied even if reset regeneration is performed depending on the operating condition of the engine 3 or the like. In addition to adjusting the opening of the intake throttle 11a and after-injection and post-injection by the fuel injection valve 12, the control device 45 sets the rotational speed R of the engine 3 to a predetermined high speed (for example, 2200 rpm, maximum rotational speed or high idle rotational speed). ). Thus, the control device 45 further raises the exhaust gas temperature t1 to activate the oxidation catalyst 15 to oxidize and remove the PM collected by the soot filter 14.

  The recovery regeneration is performed when PM is excessively deposited on the DPF due to some condition. The recovery method for recovery regeneration is performed in substantially the same control manner as that for stationary regeneration, but the exhaust temperature t1 is controlled to be lower than that for non-work regeneration. This is to prevent the PM that has accumulated excessively in the DPF from being regenerated (burned) rapidly at the start of regeneration, and the DPF from being excessively heated. The control device 45 controls the exhaust temperature t1 to be lower than the stationary regeneration by controlling the after injection amount and the post injection amount by the fuel injection valve 12. Thus, the control device 45 oxidizes and removes the PM collected by the soot filter 14 for a long time (for example, 3 to 3.5 hours).

  Next, the cockpit of the tractor 1 will be described with reference to FIGS. 3 and 4.

  As shown in FIG. 3, the cabin 8 has a cockpit inside. In the cabin 8, a driver seat 19 is disposed substantially in the center. Around the driver's seat 19, there are a handle 20, an instrument panel 21, an accelerator pedal 22, a shift lever 23, a brake pedal 24, a clutch pedal 25, a reverser lever 26, a key switch 27 (see FIG. 4), and a second display device 28. Is arranged.

  The cabin 8 (cockpit) operates the handle 20, the accelerator pedal 22, the shift lever 23, the handle 20, the brake pedal 24, the clutch pedal 25, the reverser lever 26, and the like while the operator is sitting on the driver's seat 19, and the tractor 1 is configured to be steerable. An instrument panel 21 is disposed on the front side of the driver seat 19. On the instrument panel 21, a meter panel 30 including a first display device 42, which is one display device, is disposed. A steering column 29 is disposed on the driver seat 19 side of the instrument panel 21 and supports the handle 20. A second display device 28, which is another display device, is arranged on the right front side of the driver seat 19 so that the display screen faces the driver seat 19.

  As shown in FIG. 3, a meter panel 30 is arranged on the instrument panel 21. The meter panel 30 is disposed so as to face the driver seat 19 and is disposed so as to be visible while the operator is sitting on the driver seat 19. A regeneration operation switch 31 is arranged on the upper surface 29a of the steering column 29 so as to face the driver's seat. The regenerative operation switch 31 is disposed at a position where the operator can visually recognize and operate the driver while sitting on the driver's seat 19. That is, the regeneration operation switch 31 is disposed at a position where the operator sitting in the driver's seat 19 can visually recognize it together with the display on the meter panel 30.

  The regeneration operation switch 31 carries out a regeneration operation described later. The regeneration operation switch 31 is constituted by a push button in this embodiment. The regeneration operation switch 31 is connected to the control device 45. The regeneration operation switch 31 is configured such that the pressing surface can blink or be lit. The regeneration operation switch 31 is configured such that a symbol for regeneration operation is displayed on the pressing surface by blinking or lighting of the pressing surface.

  Next, the meter panel 30 will be described with reference to FIGS. 5, 6 and 9. The meter panel 30 displays a part of information among the operation information of the tractor 1 and the abnormality information of each part of the tractor 1.

  As shown in FIG. 5, the meter panel 30 includes a first display unit 32, a second display unit 39, and a third display unit 41. In the center of the first display part 32, a second display part 39 formed in a semicircular shape is arranged so as to overlap. In the center of the second display section 39, a third display section 41 formed in a semicircular shape is arranged so as to overlap. That is, the meter panel 30 is configured by stacking the first display unit 32, the second display unit 39, and the third display unit 41 in this order.

  As shown in FIG. 5, the meter panel 30 is provided with a fuel gauge 33, a water temperature gauge 36, a tractor indicator 34, a work implement indicator 37, a rotation speed meter 40 of the engine 3, a first display device 42, and the like. . The first display section 32 of the meter panel 30 is provided with a needle type fuel gauge 33, a needle type water temperature gauge 36, a tractor indicator 34, and a work machine indicator 37.

  A fuel gauge 33 is disposed on the left side of the first display section 32 of the meter panel 30. The fuel gauge 33 is rotatably supported in the vicinity of the center portion of the first display portion 32. On the left side of the fuel gauge 33, a tractor indicator 34 and a warning indicator 35 for displaying information on the tractor 1 are arranged. A water temperature meter 36 is disposed on the right side of the first display unit 32. The water temperature gauge 36 is rotatably supported near the center of the first display unit 32. On the right side of the water temperature gauge 36, a working machine indicator 37 and a caution indicator 38 for displaying information on the working machine are arranged. The rotation support portions of the fuel gauge 33 and the water temperature gauge 36 are covered with a second display unit 39. That is, the first display unit 32 is configured such that the needle of the fuel gauge 33 and the needle of the water temperature gauge 36 move along the outer edge of the second display unit 39.

  The tractor indicator 34 includes a regeneration operation indicator 34A. The regeneration operation indicator 34A is displayed when the regeneration operation is necessary or when the regeneration operation is performed. The regeneration operation indicator 34A is configured so that a symbol mark imitating the soot filter 14 is lit.

  The warning indicator 35 is displayed when an immediate action is required due to the occurrence of an abnormal state regarding the state of the tractor 1. The warning indicator 35 is configured such that a symbol mark in which “!” Is surrounded by a triangular frame is lit in red. The caution indicator 38 is displayed when it is necessary to alert the operator regarding the state of the tractor 1. The attention indicator 38 is configured such that a symbol mark in which “!” Is surrounded by a diamond-shaped frame lights in yellow.

  The second display unit 39 of the meter panel 30 is provided with a needle type rotational speed meter 40. The tachometer 40 is rotatably supported at the center of the second display unit 39. The tachometer 40 is configured to indicate the scale of the arc portion of the second display unit 39. The rotation support portion of the tachometer 40 is covered by the third display unit 41. That is, the second display unit 39 is configured so that the needle of the tachometer 40 moves along the outer edge of the third display unit 41 and points to the scale of the arc portion of the second display unit 39.

  The third display unit 41 of the meter panel 30 is provided with a first display device 42 that is a first display device. The first display device 42 is disposed so as to be surrounded by the tachometer 40 of the engine 3. The first display device 42 is arranged such that a first display screen 43 constituted by a liquid crystal screen or the like faces the driver seat. The first display screen 43 displays the vehicle speed of the tractor 1 and the rotational speed of the engine 3, various set values, various detailed information, and abnormality information. The first display device 42 is configured so that the content displayed on the first display screen 43 is displayed separately in an upper screen stage, a middle screen area, and a lower screen area.

  As shown in FIG. 9, the meter panel 30 includes a fuel gauge 33, a tractor indicator 34, a warning indicator 35, a water temperature gauge 36, a work implement indicator 37, a caution indicator 38, a tachometer 40, and a first display device 42. A meter panel control device 44 for controlling the above is provided. The meter panel control device 44 is provided at a position where it cannot be visually recognized from the outside. The meter panel control device 44 is connected to the fuel gauge 33, the tractor indicator 34, the warning indicator 35, the water temperature gauge 36, the work implement indicator 37, the caution indicator 38, the tachometer 40, and the first display device 42, and the fuel gauge 33, the tractor indicator 34, the warning indicator 35, the water temperature meter 36, the work implement indicator 37, the caution indicator 38, the tachometer 40, and the first display device 42 can be controlled.

  Next, the second display device 28 will be described with reference to FIGS. The second display device 28 displays a part of information among setting of various values of the tractor 1, operation information of the tractor 1, and abnormality information of each part.

  As shown in FIG. 7, the second display device 28 includes a second display screen 46 constituted by a liquid crystal screen or the like, an encoder dial 47a that is a screen selection device, and an enter button 47b that determines a selection operation. Have. The second display device 28 has five command buttons 48a, 48b, 48c, 48d, and 48e as input means. The second display device 28 is disposed on the side console on the right front side of the driver seat 19 so that the operator can operate with the right hand (see FIGS. 3 and 4).

  The second display screen 46 is provided in the center of the front surface of the second display device 28. The second display screen 46 is configured to display a predetermined screen based on an instruction from the control device 45 described later. For example, the second display screen 46 can display the home screen S1 based on an instruction from the control device 45 (see FIG. 8). The second display screen 46 may be a so-called touch panel.

  The encoder dial 47 a is provided on the upper right side of the second display device 28. The encoder dial 47a is configured to be able to switch the selected element by scrolling the tab or traversing the highlight when the element displayed on the second display screen 46 is selected. For example, the encoder dial 47a switches numbers and English characters displayed by scrolling the tabs. Also, the encoder dial 47a switches the selected element by traversing the highlight when selecting the displayed icon.

  The enter button 47b is provided integrally with the encoder dial 47a. The enter button 47 b can transmit information of one element selected by the encoder dial 47 a among the elements displayed on the second display screen 46 to the control device 45. For example, the enter button 47b can transmit to the control device 45 information on one numeral or alphabet selected by the encoder dial 47a among the displayed numerals and alphabets. Further, the enter button 47b can transmit the information of one icon selected by the encoder dial 47a among the displayed icons to the control device 45. In the second display device 28, the enter button 47b has a structure in which the encoder dial 47a itself is pushed, but a structure in which a push button is provided on the upper end surface of the encoder dial 47a may be used.

  The command buttons 48 a, 48 b, 48 c, 48 d, and 48 e are provided on the upper front portion of the second display device 28. The command buttons 48a, 48b, 48c, 48d, and 48e display a signal for switching to another screen and information on the selected element on the screen when a predetermined screen is displayed on the second display screen 46. This is transmitted to the control device 45. For example, when the home screen S1 is displayed on the second display screen 46, the command buttons 48a and 48b transmit a signal to the control device 45 to switch to a shortcut screen (a screen arbitrarily set by the operator).

  On the home screen S1, icons Ia1, Ia2, Ia3, Ia4,... Ia8 for selecting menus are displayed in two upper and lower rows. One of the selected icons Ia1, Ia2, Ia3, Ia4... Ia8 is highlighted (see, for example, icon Ia8). The highlight is traversed according to the rotation of the encoder dial 47a. The operator can determine by selecting any one of the icons Ia1, Ia2, Ia3, Ia4... Ia8 by turning the encoder dial 47a and pressing the enter button 47b.

  On the home screen S1, any one of the icons Ia1, Ia2, Ia3, Ia4,... Ia8 is selected by pressing any one of the command buttons 48a, 48b, 48c, 48d, and 48e. can do. Furthermore, it is possible to switch to another screen by the command button 48d. In the present embodiment, the home screen S1 shows a state in which the icon Ia1 marked “tractor information” is selected. Further, the home screen S1 shows a state where the icon Ia8 labeled “Camera 2” is grayed out and cannot be selected.

  As shown in FIG. 9, the control device 45 includes a fuel injection valve 12, a DPF upstream temperature sensor 16, a DPF downstream temperature sensor 17, a rotational speed sensor 18, a handle 20, an accelerator pedal 22, a shift lever 23, a brake pedal. 24, the clutch pedal 25, the reverser lever 26, the key switch 27, the second display device 28, the regeneration operation switch 31 and the like are electrically connected to the operation tools and devices, and signals from the respective operation tools and devices can be acquired. it can. Further, the control device 45 is connected to the meter panel control device 44 and is a part of the operation information of the work vehicle such as the rotational speed of the engine 3, the remaining fuel amount, the water temperature, and the regeneration operation, and the abnormality information of each part of the work vehicle. It is possible to send a signal about the information to the meter panel control device 44.

  Hereinafter, the control mode of the regeneration operation in the tractor 1 will be specifically described with reference to FIGS. 10 and 11. The forced regeneration process refers to a regeneration operation in which the regeneration operation mode is assist regeneration, reset regeneration, stationary regeneration, and recovery regeneration, and does not include a regeneration operation in which the regeneration operation mode is self-regeneration. In the present embodiment, the description will be made assuming that the control device 45 has acquired a regeneration operation signal by operating the regeneration operation switch 31.

  The control device 45 starts the forced regeneration processing A when acquiring the regeneration operation signal by the operation of the regeneration operation switch 31, and proceeds to step S110.

As shown in FIG. 10, in step S110, the control device 45 determines whether or not the cumulative operation time ΣT of the engine 3 since the last forced regeneration has been performed is less than or equal to a set time T0 (eg, 100h).
As a result, when it is determined that the cumulative operation time ΣT of the engine 3 since the last forced regeneration is less than or equal to the set time T0, the control device 45 shifts the step to step S120.
On the other hand, when it is determined that the cumulative operation time ΣT of the engine 3 since the last forced regeneration is not less than the set time T0, the control device 45 shifts the step to step S200.

In step S120, the control device 45 determines whether or not the accumulated deposition amount ΣPMdep is equal to or greater than the reference amount PM1.
As a result, when it is determined that the accumulated accumulation amount ΣPMdep is greater than or equal to a reference amount PM1 (for example, 8 g / l). The control device 45 shifts the step to step S130.
On the other hand, if it is determined that the accumulated accumulation amount ΣPMdep is not equal to or greater than the reference amount PM1, the control device 45 ends the forced regeneration process A and shifts the step to step S110.

  In step S130, the control device 45 starts the regeneration operation in which the regeneration operation mode is the assist regeneration, and shifts the step to step S140.

In step S140, the control device 45 determines whether or not a predetermined condition X is satisfied.
As a result, when it is determined that the predetermined condition X is satisfied, for example, the accumulated deposition amount ΣPMdep is less than the reference amount PM2 (for example, 7 g / l) after a predetermined time Ta (for example, 10 minutes) has elapsed since the start of assist regeneration. When the predetermined time Tb (for example, 30 minutes) has elapsed or when the accumulated accumulation amount ΣPMdep has decreased to a value less than the predetermined amount MP3 (for example, 6 g / l), the control device 45 ends the forced regeneration process A, The step moves to step S110.
On the other hand, when it is determined that the predetermined condition X is not satisfied, for example, when the accumulated deposition amount ΣPMdep is equal to or greater than the reference amount PM2 after a predetermined time Ta has elapsed since the start of assist regeneration, the control device 45 performs steps. The process proceeds to step S200.

  In step S200, the control device 45 starts the forced regeneration process B, and proceeds to step S210 (see FIG. 11).

  As shown in FIG. 11, in step S210, the control device 45 starts the regeneration operation in which the regeneration operation mode is reset regeneration, and shifts the step to step S220.

In step S220, the control device 45 determines whether or not a predetermined condition Y is satisfied.
As a result, when it is determined that the predetermined condition Y is satisfied, for example, the accumulated accumulation amount ΣPMdep is less than the reference amount PM2 (for example, 7 g / l) after a predetermined time Ta (for example, 10 minutes) has elapsed since the start of reset regeneration. When the predetermined time Tb (for example, 30 minutes) has elapsed or the accumulated deposition amount ΣPMdep has decreased to a value less than the predetermined amount MP3 (for example, 6 g / l), the control device 45 ends the forced regeneration process B, The step proceeds to step S110 (see FIG. 8).
On the other hand, if it is determined that the predetermined condition Y is not satisfied, for example, if the accumulated deposition amount ΣPMdep is equal to or greater than the reference amount PM2 after a predetermined time Ta has elapsed since the start of reset regeneration, the control device 45 performs steps. The process proceeds to step S330.

In step S330, the control device 45 determines whether or not the working machine on which the engine 3 is mounted is in a non-working state.
As a result, when it is determined that the work machine or the like on which the engine 3 is mounted is in a non-working state, the control device 45 shifts the step to step S340.
On the other hand, when it is determined that the working machine or the like on which the engine 3 is mounted is not in the non-working state, the control device 45 ends the forced regeneration process B and shifts the step to step S110 (see FIG. 8).

  In step S340, the control device 45 starts the regeneration operation in which the regeneration operation mode is stationary regeneration, and shifts the step to step S350.

In step S350, the control device 45 determines whether or not a predetermined condition Z is satisfied.
As a result, when it is determined that the predetermined condition Z is satisfied, for example, the accumulated deposition amount ΣPMdep is less than the reference amount PM2 (for example, 7 g / l) after a predetermined time Ta (for example, 10 minutes) has elapsed since the start of assist regeneration. When the predetermined time Tb (for example, 30 minutes) has elapsed or the accumulated deposition amount ΣPMdep has decreased to a value less than the predetermined amount MP3 (for example, 6 g / l), the control device 45 ends the forced regeneration process B, The step proceeds to step S110 (see FIG. 8).
On the other hand, when it is determined that the predetermined condition Y is not satisfied, for example, when the accumulated accumulation amount ΣPMdep is equal to or larger than the reference amount PM2 after a predetermined time Ta has elapsed since the start of the stationary regeneration, the control device 45 performs steps. The process proceeds to step S460.

  In step S460, the control device 45 starts the regeneration operation in which the regeneration operation mode is recovery regeneration, ends the forced regeneration process B, and shifts the step to step S110 (see FIG. 8).

  Next, the operation mode of the meter panel 30 of the tractor 1 and the display mode of the first display device 42 and the second display device 28 according to an embodiment of the present invention will be described with reference to FIGS. First, a state display screen that is a basic screen that the meter panel 30 normally displays will be described.

  As shown in FIG. 12, when the key switch 27 (see FIG. 9) is turned on, the meter panel control device 44 displays the type of status display screen that was displayed when the key switch 27 was turned off most recently ( Hereinafter, the state display screen to be displayed is determined based on the “previous display screen”.

  As shown in FIG. 13, the state display screens are an hour meter screen 43A, a set value display screen 43B, an average fuel consumption / operation possible time screen 43C, and a maintenance setting screen 43D. On the status display screen, “N” is displayed when the reverser lever 26 is in the N position as the reverse lever position display 43α as a common display, and the vehicle speed of the tractor 1 as the speed display 43β of the tractor 1 is displayed in the middle of the screen. And the rotation speed of the engine 3 are displayed. In the lower part of the status display screen, any one of an hour meter display 43γ, a set value display 43δ, an average fuel consumption / operation possible time display 43ε, and a maintenance setting display 43ζ is selectively displayed.

  As shown in FIG. 13A, the hour meter screen 43 </ b> A is a screen that displays the operating time of the tractor 1. The hour meter screen 43A is the hour meter display 43γ as the hour meter display 43γ at the bottom of the screen of the first display device 42, the hour meter which is the cumulative operation time of the tractor 1, and the cumulative operation time from the arbitrarily set time. Trip meter is displayed.

  As shown in FIG. 13B, the set value display screen 43B is a screen for limiting the maximum engine speed of the tractor 1. The set value display screen 43B is an engine 3 in the A mode that is applied when the work implement is mainly used as the set value display 43δ at the bottom of the screen of the first display device 42 and the B mode that is applied when the work implement is not used. The maximum rotation speed and maximum vehicle speed are displayed simultaneously. On the set value display screen, the maximum rotation speed of each mode can be changed by a signal from an operating tool (not shown). Similarly, the set value display screen can be switched to a screen that limits the maximum rotational speed of the PTO shaft (not shown) between the A mode and the B mode. On the screen for limiting the maximum rotational speed of the PTO shaft, the rotational speed of the PTO shaft from the first speed to the fourth speed is displayed by changing the maximum rotational speed of the PTO shaft in each mode.

  As shown in FIG. 13C, the average fuel consumption / drivable time screen 43 </ b> C is a screen for limiting the maximum engine speed of the tractor 1. The average fuel consumption / drivable time screen 43C is an average fuel consumption / drivable time display 43ε at the bottom of the screen of the first display device 42. The load factor of the engine 3, the average fuel consumption of the tractor 1, and the drivable time or setting in the average fuel consumption An upward arrow indicating that the vehicle can be driven more than the time is displayed.

  As illustrated in FIG. 13D, the maintenance setting screen 43 </ b> D is a screen for setting various maintenance times for the tractor 1. In the maintenance setting screen, the maintenance setting display 43ζ is displayed in the lower part of the screen of the first display device 42 as being in the maintenance setting mode. The maintenance setting screen is a screen for displaying and setting the replacement time of consumables that require periodic replacement, such as engine oil, mission oil, front axle oil, and engine oil element. In the maintenance setting screen 43 </ b> D, when the consumable item is replaced, the replacement time can be reset by inputting the fact by a signal from an operation tool (not shown). When it is time to replace the consumables (for example, engine oil), the meter panel control device 44 displays text information “engine oil replacement” and maintenance as a maintenance message at the bottom of the screen of the first display device 42 when the key switch 27 is turned on. And the symbol mark for.

  The meter panel control device 44 displays the hour meter screen 43A when the previous display screen cannot be specified (stored), and displays the same screen as the previous display screen when the previous display screen is not the maintenance setting screen 43D. . Further, the meter panel control device 44 displays the hour meter screen 43A when the rotation speed of the engine 3 is equal to or higher than the reference value on the maintenance setting screen 43D, and the previous display screen is the maintenance setting screen 43D and the rotation speed is When it is less than the reference value, the maintenance setting screen 43D is displayed. The meter panel control device 44 is configured to be able to switch the status display screen to an arbitrary status display screen when receiving a switching signal from a switching switch (not shown). Similarly, when the meter panel control device 44 acquires a signal indicating that the regeneration operation has been completed from the control device 45, the meter panel control device 44 displays any one of the status display screens 43A, 43B, 43C, and 43D on the first display device 42. Let

  Hereinafter, the display mode of the meter panel 30 (first display device 42), the display mode of the second display device 28, and the operation mode of the regeneration operation switch 31 relating to the regeneration operation will be described with reference to FIGS.

  The control device 45 controls the lighting mode of the regeneration operation switch 31 and transmits a signal regarding the regeneration operation to the meter panel control device 44. The meter panel control device 44 controls the display of the regeneration operation indicator 34A, the display of the warning indicator 35, and the display of the first display device 42.

  As shown in FIG. 14, the control device 45 blinks the regeneration operation switch 31 when the regeneration mode is necessary for the regeneration mode in which the regeneration mode is the reset regeneration, the stationary regeneration, and the recovery regeneration and can be performed. The control device 45 lights the regeneration operation switch 31 when the regeneration operation in which the regeneration mode is reset regeneration, stationary regeneration, and recovery regeneration is performed.

  The meter panel control device 44 causes the regeneration operation indicator 34A, or the regeneration operation indicator 34A and the warning indicator 35 to blink when the regeneration operation in which the regeneration mode is reset regeneration, stationary regeneration and recovery regeneration is necessary, and displays the first display. The apparatus 42 is caused to display information relating to operations necessary for carrying out the regeneration operation. Further, the meter panel control device 44 lights the regeneration indicator or the regeneration operation indicator 34A and the warning indicator 35 when the regeneration operation in which the regeneration mode is the reset regeneration, the stationary regeneration, and the recovery regeneration is performed. 1 Display device 42 displays information related to the state of regeneration operation.

  In addition, the meter panel control device 44 blinks or lights the regeneration operation indicator 34A and the warning indicator 35 in the regeneration operation where the regeneration mode is stationary regeneration and recovery regeneration that can be performed only while the tractor 1 is stopped. Let Further, the meter panel control device 44 blinks or lights only the regeneration operation indicator 34A when the regeneration mode is a regeneration operation in which the regeneration mode is reset regeneration that can be performed during the operation of the tractor.

  Specifically, when the mode of the regeneration operation is self regeneration and assist regeneration, the control device 45 does not blink and light the regeneration operation switch 31. Similarly, the meter panel control device 44 does not blink and light the regeneration operation indicator 34A and the warning indicator 35. That is, the regeneration operation in which the regeneration mode is self regeneration or assist regeneration is performed with the regeneration operation switch 31, the regeneration operation indicator 34A, and the warning indicator 35 turned off.

  When the regeneration operation mode is reset regeneration, when the control device 45 determines that a predetermined condition for performing the regeneration operation in the reset regeneration mode is satisfied (see FIG. 10), the control device 45 resets to the meter panel control device 44. A signal indicating that regeneration operation is necessary in the regeneration mode is transmitted. Furthermore, the control device 45 blinks the regeneration operation switch 31 (time T1 in FIG. 14). As shown in FIG. 15A, when the meter panel control device 44 obtains a signal from the control device 45, the regeneration operation indicator 34A blinks (time T1 in FIG. 14). Further, the meter panel control device 44 causes the first display device 42 to display a message (for example, “press the regeneration switch for 3 seconds”) and a symbol mark related to an operation necessary for carrying out the regeneration operation.

  At this time, as shown in FIG. 16A, the control device 45 switches the screen (for example, the home screen S1) displayed on the second display device 28 to the warning screen S2. Then, the control device 45 displays a message “Press the reproduction switch for 3 seconds” and a symbol mark having the same contents as the message displayed on the first display device 42 on the message display portion S2α of the warning screen S2. Further, the control device 45 provides detailed information such as a message prompting the regeneration operation, which is information relating to the regeneration operation that is not displayed on the first display device 42, precautions when performing the regeneration operation, the state of the exhaust purification device, and the like. It is displayed on the detailed information display part S2β of the warning screen S2.

  As shown in FIG. 14, when the regeneration operation switch 31 is pressed for longer than a predetermined time (for example, 3 seconds), the control device 45 starts the regeneration operation in a reset regeneration mode. In addition, the control device 45 lights up the regeneration operation switch 31 (time T2 in FIG. 14). Furthermore, the control device 45 transmits a regeneration operation start signal to the meter panel control device 44. As shown in FIG. 15B, when the meter panel control device 44 obtains a signal from the control device 45, it turns on the regeneration operation indicator 34A (time T2 in FIG. 14). Further, the meter panel control device 44 causes the first display device 42 to display a message indicating that the regeneration operation is being performed (for example, “exhaust filter is being regenerated”) and a symbol mark.

  At this time, as shown in FIG. 16B, the control device 45 changes the display content of the warning screen S <b> 2 displayed on the second display device 28. The control device 45 displays a warning message S2 with a message “exhaust filter being regenerated” and a symbol mark having the same contents as the message displayed on the first display device 42 when the regeneration operation switch 31 is pressed for a longer time than the predetermined time. Are displayed on the message display part S2α. In addition, the control device 45 warns the precautions when the regeneration operation is being performed, which is information related to the regeneration operation that is not displayed on the first display device 42, the elapsed time, the approximate time until the regeneration operation is completed, and the like. It is displayed on the detailed information display part S2β of the screen S2.

  As shown in FIG. 17, when the mode of the regeneration operation is stationary regeneration, when the control device 45 determines that a predetermined condition for performing the regeneration operation in the stationary regeneration mode is satisfied (see FIG. 11), A signal indicating that the regeneration operation is necessary in the stationary regeneration mode is transmitted to the meter panel control device 44. As shown in FIG. 18A, when the meter panel control device 44 acquires a signal from the control device 45, the regeneration operation indicator 34A and the warning indicator 35 blink (time T3 in FIG. 17). Further, the meter panel control device 44 alternately displays messages relating to operations necessary for carrying out the regeneration operation (for example, “stop work” and “park in a safe place”) on the first display device 42. Display) and a symbol mark.

  At this time, as shown in FIG. 19A, the control device 45 switches the screen (for example, the home screen S1) displayed on the second display device 28 to the warning screen S2. Then, the control device 45 causes the message “Same to stop / safe position” and the symbol mark to be displayed on the message display unit S2α of the warning screen S2 with the same content as the message displayed on the first display device 42. Further, the control device 45 performs operations necessary for performing the regeneration operation that is information relating to the regeneration operation that is not displayed on the first display device 42, precautions when performing the regeneration operation, the state of the exhaust purification device, and the like. Are displayed on the detailed information display section S2β of the warning screen S2.

  The control device 45 determines whether or not a condition for enabling the regeneration operation in the stationary regeneration mode is satisfied. Specifically, the control device 45 determines whether the reverser lever 26 is in the N position, a PTO switch (not shown) is OFF, a parking brake (not shown) is operated, or the engine 3 is in an idle state. . When the regeneration operation switch 31 is pressed when at least one of the state of the reverser lever 26, the state of the PTO switch, the state of the parking brake, or the state of the engine 3 is not satisfied, the control device 45 is stationary. The regeneration operation is not performed in the regeneration mode. Further, the control device 45 transmits a message to that effect to the meter panel control device 44. When the instrument panel control device 44 obtains a signal from the control device 45, the instrument panel control device 44 sends a message relating to an operation necessary for carrying out the regeneration operation (for example, “set the reverser to neutral”, “switch the PTO switch off”). ”,“ Apply parking brake ”and“ Idle ”are displayed according to the priority order) and the symbol mark is displayed.

  If the control device 45 determines that the above-described conditions are satisfied and the regeneration operation can be performed in the stationary regeneration mode (see FIG. 11), the control panel 45 causes the meter panel control device 44 to perform the regeneration operation in the stationary regeneration mode. Send a signal that it is possible. Furthermore, the control device 45 blinks the regeneration operation switch 31 (time T4 in FIG. 17). When the meter panel control device 44 acquires a signal from the control device 45, a message (for example, “press the regeneration switch for 3 seconds”), a symbol mark, and a message regarding an operation necessary for performing the regeneration operation is displayed on the first display device 42. Is displayed. At this time, the control device 45 switches the content of the warning screen S2 displayed on the second display device 28 to the content of the warning screen S2 shown in FIG.

  When the regeneration operation switch 31 is pressed for longer than a predetermined time (for example, 3 seconds), the control device 45 starts the regeneration operation in a stationary regeneration mode. In addition, the control device 45 lights the regeneration operation switch 31 (time T5 in FIG. 17). Furthermore, the control device 45 transmits a regeneration operation start signal to the meter panel control device 44. As shown in FIG. 18B, when the meter panel control device 44 obtains a signal from the control device 45, the warning indicator 35 and the regeneration operation indicator 34A are turned on (time T5 in FIG. 17). Further, the meter panel control device 44 displays a message indicating that the regeneration operation is being performed on the first display device 42 (for example, an operation message “Exhaust filter regeneration” and “Waiting until regeneration end” are alternately displayed) and Display the symbol mark. At this time, the control device 45 switches the content of the warning screen S2 displayed on the second display device 28 to the content of the warning screen S2 shown in FIG.

  When the mode of the regeneration operation is recovery regeneration, the control device 45 ends the regeneration operation even if the regeneration operation is performed in the predetermined condition for performing the regeneration operation in the recovery regeneration mode, that is, the stationary regeneration mode. When it is determined that the predetermined power condition is not satisfied (see FIG. 11), the regeneration operation is started in the recovery regeneration mode. At the same time, the control device 45 continues to turn on the regeneration operation switch 31 (time T6 in FIG. 17). Further, the control device 45 transmits a regeneration operation start signal to the meter panel control device 44 in a recovery regeneration mode. When the meter panel control device 44 acquires the signal from the control device 45, it continuously lights the warning indicator 35 and the regeneration operation indicator 34A (time T6 in FIG. 17). Further, the meter panel control device 44 alternately displays a message indicating that the regeneration operation is being continued (for example, “exhaust filter regeneration” and “waiting for regeneration end”) on the first display device 42 alternately. Display) and a symbol mark.

  When the mode of the regeneration operation is reset regeneration, stationary regeneration, and recovery regeneration, when a predetermined condition for terminating the regeneration operation is satisfied (see FIGS. 10 and 11), the control device 45 terminates the regeneration operation. At the same time, the control device 45 turns off the regeneration operation switch 31 (time T7 in FIGS. 14 and 17). Furthermore, the control device 45 transmits a meter panel control device 44 regeneration end signal. When acquiring the signal from the control device 45, the meter panel control device 44 turns off the warning indicator 35 and the regeneration operation indicator 34A (time T7 in FIGS. 14 and 17). Furthermore, the meter panel control device 44 displays the latest status display screen displayed on the first display device 42 (see FIG. 13). At this time, the control device 45 switches the warning screen S2 displayed on the second display device 28 to the screen (for example, the home screen S1) that has been displayed most recently.

  With this configuration, at least one of the warning indicator 34A and the warning indicator 35 blinks and a message is displayed on the first display device 42. Further, the regeneration operation switch 31 provided on the surface of the steering column 29 facing the driver seat 19 blinks. Therefore, the tractor 1 indicates whether or not the regeneration operation is necessary by blinking the highly reproducible regeneration operation indicator 34A and the warning indicator 35 and blinking the regeneration operation switch 31. Further, information related to the regeneration operation is specifically displayed on the first display device 42. In addition, detailed contents relating to the regeneration operation not displayed on the first display device 42 are displayed on the second display device. Thereby, the minimum information regarding the regeneration operation is displayed by the regeneration operation indicator 34A, the warning indicator 35, and the first display device 42, and the supplementary information regarding the regeneration operation is displayed by the second display device 28. Thus, the necessity of the regeneration operation can be promptly transmitted to the operator, and detailed information regarding the regeneration operation can be provided.

DESCRIPTION OF SYMBOLS 1 Tractor 3 Engine 4 Exhaust gas purification device 19 Driving seat 28 Second display device 30 Meter panel 31 Regeneration operation switch 34A Regeneration operation indicator 35 Warning indicator 42 First display device

Claims (2)

In a work vehicle in which a regeneration operation is carried out to oxidize and remove particulate matter in exhaust gas collected by an exhaust purification device of an engine,
On the meter panel, a regeneration operation indicator that indicates a state in which regeneration operation is necessary or a state in which regeneration operation is being performed, a warning indicator that indicates an abnormality of the work vehicle, and a first display device that displays information related to regeneration operation, Is provided,
In the vicinity of the driver's seat, a second display device for displaying information related to the regenerative driving is provided,
When the regeneration operation is necessary, the regeneration operation indicator, or the regeneration operation indicator and the warning indicator are flashed, and information related to the operation necessary for performing the regeneration operation is displayed on the first display device, and the regeneration is performed on the second display device. Information related to the operation necessary for carrying out the driving and information related to the regeneration driving that is not displayed on the first display device are displayed.
When the regeneration operation is being performed, the regeneration operation indicator or the regeneration operation indicator and the warning indicator are lit, information on the state of the regeneration operation is displayed on the first display device, and the regeneration operation is performed on the second display device. A work vehicle in which information on a state and information on regeneration driving that is not displayed on the first display device are displayed. A regenerative operation switch that can be at least partially lit or flashed is provided on the surface of the steering column facing the driver seat,
When regeneration operation is required and regeneration operation is possible, the regeneration operation switch flashes,
The work vehicle according to claim 1, wherein when the flashing regeneration operation switch is pressed longer than a predetermined time, the regeneration operation switch is turned on and the regeneration operation is performed.