Information display system, work vehicle, information display method, and computer program

Abstract

The system appropriately presents users with information regarding the output of the electric motors equipped in the work vehicles. [Solution] An information display system for use in a work vehicle comprising a traveling device, a PTO shaft that supplies power to a work machine, and one or more electric motors that drive the traveling device and the PTO shaft, wherein the information display system comprises a meter panel unit that displays information related to the work vehicle and a control device that controls the meter panel unit. The control modes for controlling one or more electric motors include a first mode in which a restriction is placed to limit the power supplied to one or more electric motors to a first upper limit value or less, and a second mode in which the restriction is removed. While one or more electric motors are being controlled in the second mode, the control device causes the meter panel unit to display information regarding the remaining time that one or more electric motors can be controlled in the second mode.

Description

【Technical Field】 【0001】 The present invention relates to an information display system, a work vehicle, an information display method, and a computer program. 【Background Art】 【0002】 In the field of automobiles whose main purpose is to move people or objects, electric vehicles (EVs) that generate driving force (traction) for driving by an electric motor (hereinafter sometimes simply referred to as "motor") instead of an internal combustion engine are becoming popular. 【0003】 On the other hand, in order to realize a decarbonized society, it is required to reduce the amount of carbon dioxide (CO2) emitted by work vehicles such as tractors used in fields. Different from general automobiles, work vehicles such as tractors need to tow work implements (agricultural implements) to perform agricultural work such as tilling. Therefore, in order to realize the electrification of work vehicles, there are problems to be solved different from the electrification of passenger cars. 【0004】 Patent Document 1 discloses an electric tractor that distributes and supplies electric power from a battery to a plurality of electric motors. The electric tractor includes a hydraulic pump, a pump motor, a PTO motor, a traveling motor, a battery, and an electric drive controller. The pump motor is an electric motor that drives the hydraulic pump. The PTO motor is an electric motor that drives the PTO shaft. The traveling motor is an electric motor that drives the traveling body to travel. The battery supplies electric power to the pump motor, the PTO motor, and the traveling motor. The electric drive controller controls the distribution of electric power to the pump motor, the PTO motor, and the traveling motor. For example, when an overload state of the battery is detected, the electric drive controller reduces the electric power supplied to the traveling motor. If the overload state continues, the electric drive controller further reduces the electric power supplied to the PTO motor. Thereby, it is possible to prevent an overload of the battery while ensuring the stability of the operation of the hydraulic equipment. [Prior art documents] [Patent Documents] 【0005】 [Patent Document 1] Japanese Patent Publication No. 2023-66721 [Overview of the Initiative] [Problems that the invention aims to solve] 【0006】 It is necessary to appropriately present users with information regarding the output of the electric motors equipped in electric work vehicles. [Means for solving the problem] 【0007】 This disclosure provides solutions as described in the following items. 【0008】 [Item 1] An information display system for a work vehicle comprising a traveling device, a PTO (Power Take Off) shaft that supplies power to a work machine, and one or more electric motors that drive the traveling device and the PTO shaft, A meter panel unit that displays information related to the aforementioned work vehicle, A control device for controlling the meter panel unit, Equipped with, The control mode for controlling the one or more electric motors includes a first mode in which the power supplied to the one or more electric motors is limited to a first upper limit value or less, and a second mode in which the limitation is removed. An information display system that, while the control device is controlling one or more electric motors in the second mode, causes the control device to display information on the meter panel unit regarding the remaining time during which the control of one or more electric motors in the second mode is possible. 【0009】 [Item 2] The information display system according to item 1, wherein the control device causes the meter panel unit to display a bar graph indicating the remaining time while the one or more electric motors are being controlled in the second mode. 【0010】 [Item 3] The information display system according to item 1 or 2, wherein the control device causes the meter panel unit to display text indicating the remaining time while the one or more electric motors are being controlled in the second mode. 【0011】 [Item 4] An information display system according to any one of items 1 to 3, wherein while the control of one or more electric motors in the second mode is being performed, the control device causes the meter panel unit to display information indicating that the control of one or more electric motors in the second mode is being performed. 【0012】 [Item 5] An information display system according to any one of items 1 to 4, wherein while the control of one or more electric motors in the second mode is being performed, the control device causes the meter panel unit to display an icon indicating that the control of one or more electric motors in the second mode is being performed. 【0013】 [Item 6] An information display system according to any one of items 1 to 5, wherein a time is set in advance for which one or more electric motors can be driven continuously in the second mode. 【0014】 [Item 7] The information display system according to item 6, wherein the time during which one or more electric motors can be driven continuously in the second mode is 3 seconds or more and 60 seconds or less. 【0015】 [Item 8] The information display system according to any one of items 1 to 7, wherein in the second mode, the upper limit of the power supplied to one or more electric motors is set to a second upper limit that is greater than the first upper limit. 【0016】 [Item 9] After the control mode switches from the second mode to the first mode, until a predetermined time elapses, the control of the one or more electric motors in the second mode is prohibited. The control device causes the meter panel unit to display information regarding the remaining time until the prohibition of the control of the one or more electric motors in the second mode is released after the control mode switches from the second mode to the first mode, in the information display system according to any one of Items 1 to 8. 【0017】 [Item 10] The control device causes the meter panel unit to display a bar graph indicating the remaining time until the prohibition of the control of the one or more electric motors in the second mode is released, in the information display system according to Item 9. 【0018】 [Item 11] The control device causes the meter panel unit to display text indicating the remaining time until the prohibition of the control of the one or more electric motors in the second mode is released, in the information display system according to Item 9 or 10. 【0019】 [Item 12] The work vehicle includes a switch that receives an operation by a user to turn on the second mode. When the user operates the switch during a period in which the control of the one or more electric motors in the second mode is prohibited, the control device causes the meter panel unit to display information regarding the inability to control the one or more electric motors in the second mode, in the information display system according to any one of Items 9 to 11. 【0020】 [Item 13] When the user operates the switch during the period in which the control of the one or more electric motors in the second mode is prohibited, the control device causes the meter panel unit to display text regarding the inability to control the one or more electric motors in the second mode, the information display system according to item 12. 【0021】 [Item 14] The predetermined time is 3 seconds or more and 60 seconds or less, the information display system according to any one of items 9 to 13. 【0022】 [Item 15] The one or more electric motors include a first electric motor that drives the traveling device and a second electric motor that drives the PTO shaft, the information display system according to any one of items 1 to 14. 【0023】 [Item 16] The work vehicle is an agricultural machine, the information display system according to any one of items 1 to 15. 【0024】 [Item 17] A work vehicle provided with the information display system according to any one of items 1 to 16. 【0025】 [Item 18] An information display method for causing a meter panel unit to display information regarding a work vehicle, which is executed by one or more computers, The work vehicle includes a traveling device, a PTO (Power Take Off) shaft that supplies power to a work implement, and one or more electric motors that drive the traveling device and the PTO shaft, The control modes for controlling the one or more electric motors include a first mode in which a limit is provided to limit the power supplied to the one or more electric motors to a first upper limit value or less, and a second mode in which the limit is released, The information display method is, While the control of one or more electric motors in the second mode is being performed, the meter panel unit will display information regarding the remaining time during which the control of one or more electric motors in the second mode is possible. Information display methods, including those mentioned above. 【0026】 [Item 19] A computer program that causes one or more computers to perform a process to display information about a work vehicle on a meter panel unit, The aforementioned work vehicle comprises a traveling device, a PTO (Power Take Off) shaft that supplies power to the work machine, and one or more electric motors that drive the traveling device and the PTO shaft. The control mode for controlling the one or more electric motors includes a first mode in which the power supplied to the one or more electric motors is limited to a first upper limit value or less, and a second mode in which the limitation is removed. The aforementioned computer program, While the control of one or more electric motors in the second mode is being performed, the meter panel unit will display information regarding the remaining time during which the control of one or more electric motors in the second mode is possible. A computer program that causes one or more computers to execute the aforementioned program. 【0027】 [Item 20] An information display system for a work vehicle comprising a traveling device, a PTO (Power Take Off) shaft that supplies power to a work machine, and one or more electric motors that drive the traveling device and the PTO shaft, A meter panel unit that displays information related to the aforementioned work vehicle, A control device for controlling the meter panel unit, Equipped with, The control mode for controlling the one or more electric motors includes a first mode in which the power supplied to the one or more electric motors is limited to a first upper limit value or less, and a second mode in which the limitation is removed. After the control mode switches from the second mode to the first mode, control of one or more electric motors in the second mode is prohibited until a predetermined time has elapsed. The control device is an information display system that causes the meter panel unit to display information regarding the remaining time until the prohibition on the control of one or more electric motors in the second mode is released, after the control device has switched from the second mode to the first mode. 【0028】 [Item 21] The control device is an information display system according to item 20, which causes the bar graph indicating the remaining time to be displayed on the meter panel unit. 【0029】 [Item 22] The control device is an information display system according to item 20 or 21, which causes the control device to display text indicating the remaining time on the meter panel unit. 【0030】 [Item 23] The work vehicle is equipped with a switch that accepts user operation to turn on the second mode, If the user operates the switch during a period in which control of the one or more electric motors in the second mode is prohibited, the control device causes the meter panel unit to display information regarding the inability to control the one or more electric motors in the second mode, according to any one of items 20 to 22. 【0031】 [Item 24] The information display system according to item 23, wherein if the user operates the switch during the period in which control of the one or more electric motors in the second mode is prohibited, the control device causes the meter panel unit to display text indicating that control of the one or more electric motors in the second mode is not possible. 【0032】 [Item 25] The information display system described in any of items 20 to 24, wherein the predetermined time is 3 seconds or more and 60 seconds or less. 【0033】 [Item 26] The information display system according to any one of items 20 to 25, wherein the one or more electric motors include a first electric motor for driving the traveling device and a second electric motor for driving the PTO shaft. 【0034】 [Item 27] The aforementioned work vehicle is an agricultural machine, and the information display system is one of the items 20 to 26. 【0035】 [Item 28] A work vehicle equipped with an information display system as described in any of items 20 to 27. 【0036】 [Item 29] An information display method that uses one or more computers to display information about a work vehicle on a meter panel unit, The aforementioned work vehicle comprises a traveling device, a PTO (Power Take Off) shaft that supplies power to the work machine, and one or more electric motors that drive the traveling device and the PTO shaft. The control mode for controlling the one or more electric motors includes a first mode in which the power supplied to the one or more electric motors is limited to a first upper limit value or less, and a second mode in which the limitation is removed. After the control mode switches from the second mode to the first mode, control of one or more electric motors in the second mode is prohibited until a predetermined time has elapsed. The aforementioned information display method is: After switching from the second mode to the first mode, the meter panel unit displays information regarding the remaining time until the prohibition on the control of one or more electric motors in the second mode is released. Information display methods, including those mentioned above. 【0037】 [Item 30] A computer program that causes one or more computers to perform a process to display information about a work vehicle on a meter panel unit, The aforementioned work vehicle comprises a traveling device, a PTO (Power Take Off) shaft that supplies power to the work machine, and one or more electric motors that drive the traveling device and the PTO shaft. The control mode for controlling the one or more electric motors includes a first mode in which the power supplied to the one or more electric motors is limited to a first upper limit value or less, and a second mode in which the limitation is removed. After the control mode switches from the second mode to the first mode, control of one or more electric motors in the second mode is prohibited until a predetermined time has elapsed. The aforementioned computer program, After switching from the second mode to the first mode, the meter panel unit displays information regarding the remaining time until the prohibition on the control of one or more electric motors in the second mode is released. A computer program that causes one or more computers to execute the aforementioned program. 【0038】 Comprehensive or specific embodiments of the present invention may be realized by apparatus, systems, methods, integrated circuits, computer programs, or computer-readable non-temporary storage media, or any combination thereof. Computer-readable storage media may include volatile storage media or non-volatile storage media. An apparatus may consist of multiple devices. If an apparatus consists of two or more devices, these two or more devices may be located in a single device or in two or more separate devices. [Effects of the Invention] 【0039】 According to one embodiment of the present invention, the control modes include a first mode in which the power supplied to one or more electric motors is limited to a first upper limit, and a second mode in which this limitation is removed. While one or more electric motors are being controlled in the second mode, the control device displays information on the meter panel unit regarding the remaining time that one or more electric motors can be controlled in the second mode. This allows the user to easily understand how much longer the operation in the high-output second mode can be performed. [Brief explanation of the drawing] 【0040】 [Figure 1] This is a schematic plan view illustrating an example of the basic configuration of a work vehicle according to an exemplary embodiment of the present invention. [Figure 2] This is a side view of a work vehicle according to an exemplary embodiment of the present invention. [Figure 3] This is a top view of the work vehicle. [Figure 4] A block diagram showing the main components of a work vehicle and an example of their connection relationships. [Figure 5] This block diagram shows an example of the configuration of a power converter and its connection to other equipment. [Figure 6] Block diagram showing examples of hardware configurations for each ECU. [Figure 7] This is a block diagram showing an example of the configuration of a power distribution unit. [Figure 8] This is a circuit diagram showing an example of a charging circuit configuration. [Figure 9] This block diagram shows an example of a drive system used in a work vehicle. [Figure 10] This figure shows an example of the information displayed by a display element. [Figure 11] This flowchart shows an example of the control of the first and second electric motors. [Figure 12] This figure shows an example of the information displayed by the display element when the first and second electric motors are being controlled in the second mode. [Figure 13]This figure shows an example of a bar graph displayed by a display element. [Figure 14] This figure shows an example of a bar graph displayed by a display element. [Figure 15] This figure shows an example of a display element that displays text indicating the remaining time that can be controlled in the second mode. [Figure 16] This figure shows an example of a display element that displays text indicating the remaining time until the control ban in second mode is released. [Figure 17] This figure shows an example of text displayed by a display element. [Figure 18] This figure shows an example of text displayed by a display element. [Figure 19] This figure shows an example of how the upper limit of total power changes when switching between the first and second control modes. [Figure 20] This flowchart shows another example of the control of the first and second electric motors. [Figure 21] This flowchart shows yet another example of the control of the first and second electric motors. [Modes for carrying out the invention] 【0041】 Embodiments of the present invention will be described below. However, unnecessarily detailed descriptions may be omitted. For example, detailed descriptions of already well-known matters and redundant descriptions of substantially identical configurations may be omitted. This is to avoid the following description becoming unnecessarily verbose and to facilitate understanding for those skilled in the art. The inventors provide the accompanying drawings and the following description so that those skilled in the art can fully understand the present invention, and not to limit the subject matter described in the claims. In the following description, components having the same or similar function are denoted by the same reference numerals. 【0042】 The following embodiments are illustrative examples for realizing the technical concept of the present invention, and the present invention is not limited to these embodiments. For example, the numerical values, shapes, materials, steps, and order of steps shown in the following embodiments are merely examples, and various modifications are possible as long as they do not create a technical inconsistency. Furthermore, it is possible to combine one embodiment with other embodiments. The size and positional relationships of the components shown in each drawing may be exaggerated for ease of understanding. 【0043】 (Definition of terms) In this specification, “work vehicle” means a vehicle used for a specific task, such as agricultural work or construction work. “Work” could be, for example, agricultural work, construction work, rubble removal work, or snow removal work. Agricultural work vehicles could be, for example, tractors, combine harvesters, rice transplanters, riding cultivators, vegetable transplanters, vegetable harvesters, lawnmowers, seeders, or fertilizer spreaders. Construction work vehicles could be, for example, backhoes, wheel loaders, or carriers. An agricultural work vehicle such as a tractor or combine harvester, or a construction work vehicle, may function as a “work vehicle” on its own, or the work vehicle and any implements attached to or towed by it may function as a single “work vehicle.” Agricultural work vehicles perform agricultural tasks on the ground in a field, such as tilling, sowing, pest control, fertilizing, planting crops, or harvesting. Construction work vehicles perform tasks such as transporting soil, rubble, and other materials at a construction site. These tasks are sometimes referred to as "ground work" or simply "work." The act of a work vehicle moving while performing work is sometimes referred to as "work driving." 【0044】 An "electric work vehicle" refers to a work vehicle that runs using an electric motor as its power source. An electric work vehicle may also be equipped with an internal combustion engine as an auxiliary power source in addition to the electric motor. Alternatively, an electric work vehicle may be equipped with an electric motor as an auxiliary power source in addition to the internal combustion engine. An electric work vehicle is equipped with an electrical energy source, such as a battery or fuel cell, to supply power to the electric motor. In the following description, an "electric work vehicle" may be simply referred to as a "work vehicle." 【0045】 Electric motors can be synchronous motors such as permanent magnet synchronous motors or reluctance motors, or asynchronous motors such as induction motors. 【0046】 A battery is an energy storage device that stores the electrical energy necessary for the operation of electric motors and other electrical components mounted on a work vehicle and / or work machine. A fuel cell is a power generation device that generates such electrical energy from a fuel such as hydrogen. An electrical energy source can be realized by an energy storage device, a power generation device, or a combination of an energy storage device and a power generation device. Furthermore, an electric work vehicle may obtain electrical energy from an electrical energy source located at a distance from the vehicle (e.g., on the ground or on another vehicle) via wired or wireless means. 【0047】 When an electric work vehicle performs various "tasks" while moving or stationary, the power required for those tasks may be obtained from electric motors. An electric work vehicle may be equipped with one or more electric motors. If an electric work vehicle is equipped with multiple electric motors, certain electric motors may output the driving force required for movement, while other electric motors may output the driving force required for the "tasks." If some or all of the "tasks" are performed by a work machine, the driving force may be mechanically transmitted from one or more electric motors on the electric work vehicle to the work machine. Such mechanical transmission of driving force may be achieved via a power transmission shaft called a power take-off (PTO) shaft. 【0048】 The work machine itself may be equipped with an electric motor for the work. In this case, power may be supplied to the electric motor of the work machine from an electrical energy source such as a battery or fuel cell equipped in the electric work vehicle. The work machine may also be equipped with an electrical energy source that stores the power required for the work. 【0049】 A "control device" (controller) is a device that controls the operation of part or all of a work vehicle. One example of a "control device" is a computing device comprising at least one processor and at least one memory that stores a computer program (code) that defines the control process executed by the processor. Another example of a "control device" is a computing device with a hardware accelerator such as an FPGA (Field-Programmable Gate Array), ASSP (Application Specific Standard Product), or ASIC (Application-Specific Integrated Circuit) configured or programmed to execute the control process. A control device may also be a collection of multiple devices. For example, several computing devices such as physically separated electronic control units (ECUs) may work together to function as a "control device". 【0050】 A "processor" is a hardware electronic circuit such as a CPU (Central Processing Unit), GPU (Graphics Processing Unit), DSP (Digital Signal Processor), ISP (Image Signal Processor), or NPU (Neural Network Processing Unit). 【0051】 "Memory" refers to hardware electronic circuits such as ROM (Read Only Memory) or RAM (Random Access Memory). Part of the memory may be a storage medium connected to the processor via wiring or a network. These hardware electronic circuits may be implemented by one or more integrated circuits (ICs) or large-scale integrated circuits (LSIs). Each functional unit or block and associated component within the electronic circuit may be manufactured individually as separate integrated circuit chips, or some or all of these functional units or blocks may be combined and manufactured as a single integrated circuit chip. Memory may store computer programs (hereinafter sometimes simply referred to as "programs") that define the operation of the processor. The programs are designed so that the processor performs one or more functions, operations, steps, or processes in embodiments of the present invention. 【0052】 (Embodiment) The following describes several embodiments of the present invention applied to an electric agricultural tractor, an example of an electric work vehicle, with reference to the drawings. The various technologies described for tractors in the following description can also be applied to agricultural machinery other than tractors, construction vehicles used at construction sites, work vehicles used at disaster sites, snowplows used in heavy snow areas, and vehicles for transporting goods. 【0053】 In the following explanation, the direction of arrow F in the diagram will be referred to as "forward," the direction of arrow B as "backward," the direction of arrow L as "left," the direction of arrow R as "right," the direction of arrow U as "up," and the direction of arrow D as "down." 【0054】 <1. Basic configuration of work vehicles> Figure 1 is a schematic plan view illustrating an example of the basic configuration of a work vehicle 10 according to an exemplary embodiment of the present invention. The illustrated work vehicle 10 is an electric tractor for agricultural use. The work vehicle 10 can travel within a field while carrying or towing implements and performing agricultural work according to the type of implement. The work vehicle 10 can also travel within and outside of a field (including roads) with the implement lifted or without the implement attached. 【0055】 The work vehicle 10 is equipped with a body (vehicle frame) 11 that rotatably supports the left and right front wheels 14F and the left and right rear wheels 14R. The body 11 includes a front frame 12 on which the front wheels 14F are mounted and a transmission case 13 on which the rear wheels 14R are mounted. The front frame 12 is fixed to the front of the transmission case 13. The front wheels 14F and the rear wheels 14R may be collectively referred to as "wheels 14". Strictly speaking, wheels 14 are wheels, and wheels 14 are fitted with tires. In this disclosure, "wheels" generally means the entire "wheel and tire". One or both of the front wheels 14F and the rear wheels 14R may be replaced with multiple wheels fitted with tracks (crawlers) instead of wheels with tires. 【0056】 The work vehicle 10 in the example in Figure 1 is equipped with a battery 20 and an electric motor 30 (hereinafter simply referred to as "motor 30") which are directly or indirectly supported by a front frame 12. The battery 20 may be configured as a battery pack including, for example, multiple cells connected in series. The battery 20 is a rechargeable battery that outputs a relatively high voltage, such as a lithium-ion battery or an all-solid-state battery. The battery 20 stores power to drive the motor 30. The battery 20 may be housed in a front housing called a "bonnet". The front housing is supported by a front frame 12 located at the front of the vehicle body 11. 【0057】 The motor 30 is electrically connected to the battery 20. The motor 30 can convert the power output from the battery 20 into mechanical motion (power) to generate the driving force (traction) necessary for the work vehicle 10 to move. The motor 30 may be, for example, an AC synchronous motor. The battery 20 generates DC current. For this reason, if the motor 30 is an AC synchronous motor, a group of electrical circuits including an inverter device (hereinafter sometimes simply referred to as "inverter") may be provided between the battery 20 and the motor 30. The inverter device converts the DC current into AC current. Part of such a group of electrical circuits may be located inside the battery 20. Another part of the group of electrical circuits may be attached to the motor 30 as a drive circuit for the motor 30. 【0058】 The motor 30 has a rotating output shaft 33. The torque of the output shaft 33 is transmitted to the rear wheels 14R via mechanical components such as a transmission (speed changer) and a rear wheel differential (differential gear device) located inside the transmission case 13. In other words, the power generated by the motor 30, which is the power source, is transmitted to the rear wheels 14R by a power transmission system (drivetrain) 34, including a transmission, located inside the transmission case 13. For this reason, the "transmission case" is sometimes called a "transmission case". In four-wheel drive mode, a portion of the power from the motor 30 is also transmitted to the front wheels 14F. In this way, the motor 30 drives a running gear including multiple wheels 14. 【0059】 The power of the motor 30 may be used not only for the travel of the work vehicle 10 but also for driving the work implement. A PTO shaft 40 is provided at the rear end of the transmission case 13. A work implement can be connected to the PTO shaft 40. The PTO shaft 40 may be driven by the motor 30 that drives the travel device, or by other electric motors not shown in Figure 1. Torque from the output shaft 33 of the motor 30 or the output shaft of another motor is transmitted to the PTO shaft 40. The work implement attached to or towed by the work vehicle 10 receives power from the PTO shaft 40 and can perform operations according to various tasks. The motor 30 and the power transmission system 34 are sometimes collectively referred to as an electric powertrain. 【0060】 As shown in Figure 1, the work vehicle 10 does not have an internal combustion engine such as a diesel engine, but is equipped with a battery 20 and a motor 30. The output shaft 33 of the motor 30 is mechanically coupled to a power transmission system 34, such as a transmission, in a transmission case 13. The motor 30 can efficiently generate torque over a relatively wide range of rotational speeds compared to an internal combustion engine. By using the power transmission system 34, including the transmission, it becomes easy to adjust the torque and rotational speed from the motor 30 over an even wider range by performing multi-stage or continuously variable speed changes. Therefore, it is possible to efficiently perform not only the movement of the work vehicle 10 but also a variety of tasks using work equipment. 【0061】 Depending on the intended use or size of the work vehicle 10, some functions of the power transmission system 34 may be omitted. For example, some or all of the transmission responsible for the gear shifting function may be omitted. The number and mounting positions of the motors 30 are not limited to the example shown in Figure 1. Furthermore, the work vehicle may be a hybrid electric vehicle (HEV) equipped with an internal combustion engine such as a diesel engine as a power source in addition to the electric motors. 【0062】 The work vehicle 10 shown in Figure 1 is equipped with one motor 30. However, the work vehicle 10 may be equipped with multiple electric motors. For example, the work vehicle 10 may be equipped with a drive electric motor that drives a running gear including four wheels 14, and a PTO electric motor that drives the PTO shaft 40. The work vehicle 10 may be equipped with multiple PTO shafts (e.g., a rear PTO shaft, a mid PTO shaft, a front PTO shaft, etc.). In that case, one electric motor may drive multiple PTO shafts, or multiple electric motors may drive multiple PTO shafts. For example, the work vehicle 10 may be equipped with multiple electric motors, each driving a corresponding one of the multiple PTO shafts. The work vehicle 10 may be equipped with a front wheel electric motor that drives two front wheels 14F, and a rear wheel electric motor that drives two rear wheels 14R. Alternatively, the work vehicle 10 may be equipped with two electric motors for the front wheels, each driving one of the two front wheels 14F, and two electric motors for the rear wheels, each driving one of the two rear wheels 14R. In other words, the work vehicle 10 may be equipped with four electric motors, each driving one of the four wheels 14. Thus, the work vehicle 10 may be equipped with one or more electric motors for driving the running gear and one or more electric motors for driving one or more PTO shafts. By providing multiple electric motors, the work vehicle 10 can control the rotation of multiple wheels 14 and one or more PTO shafts more flexibly. In the following description, electric motors for driving may be referred to as "driving motors," and electric motors for PTOs may be referred to as "PTO motors." 【0063】 <2. Specific examples of work vehicles> Next, we will describe a more specific example of the configuration of the work vehicle 10. 【0064】 Figure 2 is a side view of a work vehicle 10 according to an exemplary embodiment of the present invention. Figure 3 is a top view of the work vehicle 10 according to this embodiment. 【0065】 The work vehicle 10 shown in Figures 2 and 3 comprises a vehicle body 11 and a running gear supported by the vehicle body 11. The running gear includes various devices necessary for driving, such as left and right front wheels 14F, left and right rear wheels 14R, front axle 15F, rear axle 15R, and a rear wheel differential. 【0066】 The vehicle body 11 comprises a front frame 12, a transmission case 13, and a housing frame 16. The front frame 12 is connected to the front of the housing frame 16. The transmission case 13 is connected to the rear of the housing frame 16. A first electric motor 30A and a second electric motor 30B are housed inside the housing frame 16. The first electric motor 30A is a traction motor and drives the traction device via a power transmission system in the transmission case 13. The second electric motor 30B is a PTO motor and drives the PTO shaft 40 and one or more hydraulic pumps. The first electric motor 30A and the second electric motor 30B may be electric motors capable of relatively high efficiency and high torque output, such as permanent magnet synchronous motors. 【0067】 The front frame 12 is fitted with the front axle case 17F. The front axle case 17F supports the left and right front wheels 14F. The transmission case 13 includes the rear axle case 17R. The rear axle case 17R supports the left and right rear wheels 14R and transmits power to the rear wheels 14R. 【0068】 A battery 20 is mounted on the front frame 12. The battery 20 is supported by the front frame 12 and housed inside the front housing 19 (bonnet). The battery 20 stores the power supplied to the first electric motor 30A and the second electric motor 30B. In other words, the battery 20 stores power for driving, operation, and hydraulic drive. In the following description, the battery 20 may be referred to as the "drive battery 20". 【0069】 Above the housing frame 16 and the transmission case 13 are a steering wheel 53, a meter panel unit 54, a group of pedals 55 including the accelerator and brake, a group of switches 56 for work driving, and a driver's seat 52. A safety frame 51 is provided behind the driver's seat 52. The safety frame 51 is attached to the transmission case 13 and has a structure that extends upward. Inside the housing frame 16 are the first electric motor 30A and the second electric motor 30B. 【0070】 The switch group 56 includes various operating devices such as multiple switches, levers, and dials for adjusting the operation of the work vehicle 10 and the work implement. The switch group 56 includes various operating devices such as an accelerator lever for adjusting the travel speed, a switch for switching the PTO shaft 40 on and off, a dial for adjusting the rotational speed of the PTO shaft 40, and a lever for adjusting the height of the three-point linkage supporting the work implement. By operating the switch group 56, the driver can give various instructions to the work vehicle 10 for travel and work. 【0071】 In the following description, devices used by the user to operate the work vehicle 10, such as the steering wheel 53, pedal group 55, and switch group 56, may be collectively referred to as the "operating device group." 【0072】 The meter panel unit 54 displays information regarding the status of the work vehicle 10. For example, the meter panel unit 54 displays various information such as the travel speed, the rotational speed of the PTO shaft 40, the height of the three-point linkage, the output of motors 30A and 30B, the charge status of the battery 20, and the temperature of the battery 20. The meter panel unit 54 may be equipped with analog meters and / or a digital display (hereinafter sometimes simply referred to as "display") for displaying this information. The display of the meter panel unit 54 may show a graphical user interface (GUI) that allows the user to perform various setting operations related to the work vehicle 10. The user can perform various settings related to the work vehicle 10 on the display screen using input means such as an input device connected to the meter panel unit 54 or a touchscreen mounted on the display. 【0073】 As shown in Figure 3, a charging inlet 57 is provided to the right of the steering wheel 53. The charging inlet 57 is a device that includes a socket configured to allow connection of a charging adapter extending from an external power source or charging device. Near the charging inlet 57, a device for the user to initiate charging, such as a charging start button, may be provided. When the user connects the charging adapter to the charging inlet 57 and performs a predetermined operation, such as pressing the charging start button, charging of the battery 20 begins. 【0074】 The battery 20 can be charged using either normal charging or rapid charging. In normal charging, AC power supplied from an external AC power source is converted to high-voltage DC power (e.g., around 350V to 450V), and this DC power is supplied to the battery 20. In rapid charging, high-voltage DC power is directly supplied to the battery 20 from an external DC power source. The charging inlet 57 in this embodiment supports both normal and rapid charging. For normal charging, a commercial AC power source outputting an AC voltage of, for example, 200V or 100V may be used. For rapid charging, a DC power source outputting a DC voltage of, for example, around 350V to 450V may be used. Rapid charging can be performed using protocols compliant with standards such as CHAdeMO, NACS, CCS1, CCS2, GB / T, or ChaoJi. 【0075】 The power stored in the battery 20 can also be output to external electrical equipment via the charging inlet 57. Such external power output is referred to herein as "external power supply." External power supply is performed with an external power supply adapter connected to the charging inlet 57. The DC power from the battery 20 can be converted to AC power by a power converter in the work vehicle 10. This AC power can then be supplied to external equipment via the charging inlet 57 and the external power supply adapter. 【0076】 As shown in Figure 3, the first electric motor 30A and the second electric motor 30B in this embodiment are arranged side by side. The first electric motor 30A and the second electric motor 30B are rotated by power supplied from the battery 20. The first electric motor 30A drives the running gear via a power transmission system in the transmission case 13. The second electric motor 30B drives the PTO shaft 40 and the hydraulic pump via a power transmission system in the transmission case 13. Thus, the second electric motor 30B drives the work implement and various hydraulic devices. The hydraulic devices may be used, for example, to change the height of the three-point linkage supporting the work implement. The work vehicle 10 may be equipped with a power steering system that assists the driver's steering wheel operation. In this case, the hydraulic devices may also be used in the power steering system to supply auxiliary force to change the steering angle of the front wheels 104F. 【0077】 <3. System Configuration of Work Vehicles> Figure 4 is a block diagram showing the main components of the work vehicle 10 and an example of their connection relationships. In Figure 4, connection relationships for power transmission, high-voltage drive power, and low-voltage auxiliary power are represented by solid lines of different thicknesses. Connection relationships for signals (digital and analog signals) are represented by dotted lines. Coolant flow is represented by thick dashed lines. 【0078】 As shown in Figure 4, the work vehicle 10 is equipped with a first inverter 35A and a second inverter 35B. The first inverter 35A is connected to the first electric motor 30A. The second inverter 35B is connected to the second electric motor 30B. Each of the first inverter 35A and the second inverter 35B converts the DC voltage from the battery 20 into a three-phase AC voltage. The first inverter 35A supplies the converted three-phase AC voltage to the first electric motor 30A. This causes the first electric motor 30A to rotate and drive the traction device. The second inverter 35B also supplies the converted three-phase AC voltage to the second electric motor 30B. This causes the second electric motor 30B to rotate and drive the hydraulic pump 36 and the PTO shaft 40. 【0079】 The transmission case 13 houses the power transmission system 34A for driving, the power transmission system 34B for work, and the hydraulic pump 36. The power transmission system 34A for driving may include components such as a reduction gear, a sub-transmission, and a differential brake. The power transmission system 34A for driving transmits power from the rotation of the first electric motor 30A to the rear wheels 14R. In four-wheel drive mode, the power transmission system 34A for driving also transmits a portion of the power from the rotation of the first electric motor 30A to the front wheels 14F. The power transmission system 34B for work may include components such as a reduction gear, a PTO clutch, and a PTO transmission. The power transmission system 34B for work transmits power from the rotation of the second electric motor 30B to the hydraulic pump 36 and the PTO shaft 40. The PTO shaft 40 supplies power for work to the work implement. 【0080】 The PTO shaft 40 shown in Figure 4 is the rear PTO shaft. In addition to the rear PTO shaft, the work vehicle 10 may also have a mid-PTO shaft or a front PTO shaft. If the work vehicle 10 has multiple PTO shafts, the power transmission system 34B may be configured to distribute the power generated by the rotation of the second electric motor 30B to the multiple PTO shafts. Alternatively, the work vehicle 10 may include other electric motors to drive the other PTO shafts in addition to the second electric motor 30B that drives the PTO shaft 40. 【0081】 The implements connected to the PTO shaft 40 may include, for example, a rotary tiller, a seeder, a spreader, a transplanter, a mower, a rake, a baler, a harvester, a spreader, or a harrow. Any implement can be connected to the work vehicle 10 and used. 【0082】 The hydraulic pump 36 is driven by power from the second electric motor 30B. The hydraulic pump 36 pressurizes the hydraulic fluid, thereby changing the height of the three-point linkage to which the work equipment is connected. Alternatively, the hydraulic pump 36 may be used in a hydraulic power steering system. If a front loader is mounted as the work equipment, the hydraulic pump 36 may be used in a hydraulic system that enables the lifting and lowering of the front loader. Power from the second electric motor 30B may be transmitted to multiple hydraulic pumps to drive these multiple hydraulic systems. Alternatively, the work vehicle 10 may have one or more electric motors for hydraulics separate from the second electric motor 30B. 【0083】 In the example shown in Figure 4, the work vehicle 10 further comprises a power converter 58, a power distribution unit (PDU) 80, an auxiliary battery 21, and a battery temperature control system 70. 【0084】 The power converter 58 is positioned between the charging inlet 57 and the battery 20 and performs power conversions such as AC to DC conversion and voltage conversion. Figure 5 shows an example of the configuration of the power converter 58 and its connection to other equipment. The power converter 58 shown in Figure 5 includes an onboard charger (OBC) 81 and a DC-DC converter 82. During normal charging, the OBC 81 converts AC power from the charging inlet 57 to DC power and supplies it to the drive battery 20 via the power distribution unit 80. The drive battery 20 is charged by this DC power. The DC-DC converter 82 is connected to the OBC 81 and also to the battery 20 via the power distribution unit 80. The DC-DC converter 82 converts the relatively high-voltage DC power output from the OBC 81 or the drive battery 20 to lower-voltage DC power (e.g., 12V or 24V). The low-voltage DC power converted by the DC-DC converter 82 is supplied to the auxiliary battery 21 and the auxiliary components 84. The auxiliary components 84 include several devices that operate on the relatively low voltage output from the DC-DC converter 82 or the battery 21. For example, the auxiliary components 84 include several electronic control units (ECUs) and other electrical components. The auxiliary battery 21 is charged by the DC voltage output from the DC-DC converter 82. The auxiliary battery 21 stores the power supplied to each ECU, the meter panel unit 54, the pumps 67 and 77, and the auxiliary components 84 such as the air conditioner. The battery 21 may be, for example, a lead-acid battery. 【0085】 Refer to Figure 4 again. The work vehicle 10 is equipped with multiple ECUs. The multiple ECUs include a main ECU 61, an electric ECU 62, a charging ECU 63, and a meter ECU 151. The main ECU 61 controls the overall operation of the work vehicle 10 based on signals generated by the user operating the pedal group 55, the switch group 56, and the meter panel unit 54. The electric ECU 62 mainly controls the charging and discharging of the battery 20 and the operation of the electric motors 30A and 30B. The charging ECU 63 communicates with an external charger (external power supply) and controls the relay 64 appropriately to perform controls for smooth charging. The meter ECU 151 controls the operation of the meter panel unit 54. For example, the meter ECU 151 controls the display of various information on the meter panel unit 54 and controls various settings in response to user operations on the meter panel unit 54. 【0086】 In this embodiment, the combination of the main ECU 61, electric ECU 62, charging ECU 63, and meter ECU 151 functions as a "control device" that controls the operation of the work vehicle 10. Therefore, in the following description, the operations performed by the main ECU 61, electric ECU 62, charging ECU 63, and meter ECU 151 all correspond to operations performed by the "control device". These ECUs can communicate with each other according to a vehicle bus standard such as CAN (Controller Area Network). A faster communication method such as onboard Ethernet (registered trademark) may be used instead of CAN. An onboard computer integrating at least some of the functions of the main ECU 61, electric ECU 62, charging ECU 63, and meter ECU 151 may be provided as the "control device". The control device may include ECUs other than the main ECU 61, electric ECU 62, charging ECU 63, and meter ECU 151. Each ECU may be a computing device including one or more processors and one or more memories. Each ECU can perform the operations described later by having its processor execute a computer program stored in memory. 【0087】 The electric ECU 62 sends control signals to the first inverter 35A and the second inverter 35B in response to signals from the pedal group 55 and the switch group 56. The electric ECU 62 can perform motor control based on a rotational speed command value or a torque command value determined, for example, by the amount of operation of the pedal group 55 by the driver. In this specification, the former control based on the rotational speed command value may be referred to as "speed control," and the latter control based on the torque command value may be referred to as "torque control." 【0088】 The electric ECU 62 controls the switching operation of multiple switching elements (e.g., MOSFETs) in the first inverter 35A and the second inverter 35B, respectively. Specifically, the electric ECU 62 generates control signals to control the switching operation of each switching element and outputs them to each inverter. The first inverter 35A, in accordance with the control signals from the electric ECU 62, converts the DC power from the battery 20 into three-phase AC power, which is a pseudo-sine wave of, for example, u-phase, v-phase, and w-phase, and supplies this three-phase AC power to the first electric motor 30A. Similarly, the second inverter 35B, in accordance with the control signals from the electric ECU 62, converts the DC power from the battery 20 into three-phase AC power, which is a pseudo-sine wave of, for example, u-phase, v-phase, and w-phase, and supplies this three-phase AC power to the second electric motor 30B. As a result, the electric ECU 62 can rotate the electric motors 30A and 30B at appropriate rotational speeds and torques according to the driver's operation. 【0089】 While the work vehicle 10 is in operation, the main ECU 61 causes the meter panel unit 54 to display information regarding the status of the work vehicle 10. For example, the main ECU 61 displays information such as the travel speed, the operating status of motors 30A and 30B, the charge status of the battery 20, and the status of the transmissions included in the power transmission systems 34A and 34B on the meter panel unit 54. 【0090】 Figure 6 is a block diagram showing an example of the hardware configuration of each ECU. The main ECU 61, electric ECU 62, charging ECU 63, and meter ECU 151 each include the various components shown in Figure 6. The ECU 400 shown in Figure 6 includes a processor 434, ROM 435, RAM 436, external I / F 437, and communication I / F 438. These components are interconnected via a bus 439. 【0091】 ROM435 is, for example, writable memory (e.g., PROM), rewritable memory (e.g., flash memory), or read-only memory. ROM435 stores a program that controls the operation of processor 434. ROM435 does not have to be a single recording medium; it may be a collection of multiple recording media. Some of these multiple storage media may be removable memory. 【0092】 RAM436 provides a workspace for temporarily unpacking programs stored in ROM435 during boot-up. RAM436 does not need to be a single storage medium; it may be a collection of multiple storage mediums. 【0093】 External I / F437 is an interface for connecting to external devices. Communication I / F438 is an interface for communicating with other electronic devices (e.g., sensors and other ECUs). For example, communication I / F438 can perform wired communication compliant with various protocols such as CAN or Ethernet®. Communication I / F438 may also perform wireless communication compliant with wireless communication standards such as Bluetooth® and / or Wi-Fi®. 【0094】 The ECU400 may further include a storage device for storing data generated by the processor 434 for a relatively long period of time. Such a storage device may be, for example, a semiconductor storage device, a magnetic storage device, or an optical storage device, or a combination thereof. 【0095】 The power distribution unit 80 shown in Figure 4 is a device that electrically connects equipment such as the charging inlet 57, power converter 58, battery 20, inverters 35A and 35B, and heater 72. 【0096】 Figure 7 shows an example of the configuration of the power distribution unit 80. The power distribution unit 80 may have a plurality of relay circuits 83 (83a to 83g) that operate under the control of the electric ECU 62. During charging, the power distribution unit 80 is configured to supply power from the charging inlet 57 or power converter 58 to the battery 20, and to the heater 72 when the temperature is low. On the other hand, during discharging, the power distribution unit 80 is configured to distribute power from the battery 20 to the first inverter 35A, the second inverter 35B, and the power converter 23. The electric ECU 62 may be configured or programmed to control the charging and discharging of the battery 20 by appropriately switching the on and off of the plurality of relay circuits 83a to 83g in the power distribution unit 80. In this specification, relay circuits may be simply referred to as "relays". 【0097】 As shown in Figure 4, the battery 20 includes a battery management system (BMS) 22 and a temperature sensor 24. The BMS 22 is configured to monitor the status of the battery 20, such as its input voltage, output voltage, and temperature, and to control the charging and discharging currents to the battery 20 based on these statuses. The temperature sensor 24 may be configured to measure the temperature of each of the multiple cells contained in the battery 20. 【0098】 The work vehicle 10 illustrated in Figure 4 is equipped with a cooling system 60 for high-voltage equipment and a battery temperature control system 70. The cooling system 60 is used to cool equipment to which high voltage is applied (also referred to as "high-voltage equipment"). The cooling system 60 comprises a radiator 65, a reservoir tank 66, a pump 67, and a cooling fan 68. In the example in Figure 4, the cooling system 60 is connected via hoses to the first inverter 35A, the first electric motor 30A, the second electric motor 30B, the second inverter 35B, and the power converter 58 in that order. This forms a flow path through which the coolant circulates. The coolant in the cooling system 60 is, for example, water or oil. The cooling system 60 cools these high-voltage equipment by circulating the coolant through the flow path. The coolant heated by the high-voltage equipment is cooled by heat dissipation in the radiator 65. The cooling fan 68 generates cooling air to cool the refrigerant inside the radiator 65. The cooling airflow promotes heat dissipation from the radiator 65. 【0099】 The battery temperature control system 70 is used to cool or heat (also referred to as "heating") the battery 20. The battery temperature control system 70 comprises a heater 72, a radiator 75, a reservoir tank 76, and a pump 77. The battery temperature control system 70 is connected to the battery 20 via a hose, which forms a passage through which the coolant circulates. The coolant in the battery temperature control system 70 is, for example, water or oil. The battery temperature control system 70 cools the battery 20 by circulating the coolant through the passage. The coolant heated by the battery 20 is cooled by heat dissipation in the radiator 75. Cooling air from the cooling fan 68 also plays a role in cooling the coolant inside the radiator 75. The heater 72 raises the temperature of the battery 20 by warming the coolant. This makes it possible to suppress a decrease in the charge and discharge performance of the battery 20 even in low-temperature environments where the ambient temperature is, for example, below 0 degrees Celsius (°C). 【0100】 The operation of the cooling system 60 and the battery temperature control system 70 is controlled by the electric ECU 62. For example, the electric ECU 62 is configured or programmed to maintain the temperature of the battery 20 within an appropriate range by controlling the battery temperature control system 70 based on the temperature of the battery 20 measured by the temperature sensor 24. In addition to the measurement value of the temperature sensor 24, the electric ECU 62 may also control the battery temperature control system 70 based on the measurement value of a temperature sensor 25 that measures the ambient temperature and is installed in the work vehicle 10. 【0101】 The flow paths of the coolant in the cooling system 60 and the battery temperature control system 70 are not limited to the illustrated paths and can be changed as appropriate. The cooling method in the cooling system 60 and the battery temperature control system 70 is not limited to water cooling or oil cooling, but may also be air cooling. Alternatively, the refrigerant used in an air conditioner may be used instead of the above-mentioned coolant. 【0102】 Next, we will explain an example of a charging circuit configuration that switches between normal charging and fast charging. 【0103】 Figure 8 is a circuit diagram showing an example of a charging circuit configuration. The charging circuit 700 illustrated in Figure 8 is a circuit that enables rapid charging in accordance with the NACS standard. The charging circuit 700 comprises a pair of power pins 710a and 710b, a relay circuit 720, a contactor 730, an OBC 81, and a controller 750. The controller 750 may be, for example, the charging ECU 63 or the electric ECU 62 shown in Figure 4. The relay circuit 720 and the contactor 730 operate under the control of the controller 750. The charging circuit 700 is connected to the battery 20 and enables normal and rapid charging of the battery 20. Communication takes place between the charging circuit and the charging station, thereby controlling the charging process. 【0104】 During rapid charging, a relatively high DC voltage (e.g., 450V) is applied to a pair of power pins 710a and 710b. If high-voltage DC power is supplied to the OBC 81, the OBC 81 may fail. To avoid this, the charging circuit 700 in this embodiment is provided with a relay circuit 720. During rapid charging, the controller 750 supplies DC power from an external DC power source to the battery 20 by bringing contact 721a of the relay circuit 720 into contact with contact 721b and closing contactor 730. On the other hand, during normal charging, the controller 750 inputs AC power from an external AC power source to the OBC 81 by bringing contact 721a of the relay circuit 720 into contact with contact 721c and opening contactor 730. The controller 750 converts the AC power to DC power by controlling the OBC 81 and supplies the DC power to the battery 20. In this way, a relatively simple circuit like the relay circuit 720 can reliably prevent high-voltage DC power from being supplied to the OBC 740 during rapid charging. <4. Output control of electric motors> Next, an example of controlling the outputs of the first electric motor 30A and the second electric motor 30B will be described. 【0105】 Figure 9 is a block diagram showing an example of a drive system 100 provided by a work vehicle 10. The control device 110 shown in Figure 9 is a control unit that includes a main ECU 61, an electric ECU 62, and a meter ECU 151. The control device 110 may further include a charging ECU 63 and / or other ECUs. The control device 110 controls the operation of the first electric motor 30A and the second electric motor 30B, as well as the operation of the meter panel unit 54. 【0106】 The current sensor 121 and the voltage sensor 122 are installed at any point in the electrical path between the battery 20 and the first electric motor 30A. The current sensor 121 and the voltage sensor 122 are also installed at any point in the electrical path between the battery 20 and the second electric motor 30B. The control device 110 can calculate the power supplied to the first electric motor 30A and the power supplied to the second electric motor 30B based on the output signals of the current sensor 121 and the voltage sensor 122. The control device 110 may also calculate the power supplied to the first electric motor 30A and the power supplied to the second electric motor 30B based on command values ​​output to the first inverter 35A and the second inverter 35B. 【0107】 The control device 110 can control the first and second electric motors 30A and 30B in multiple control modes. The multiple control modes include a first mode in which the total power Wo, which is the sum of the power supplied to the first electric motor 30A and the power supplied to the second electric motor 30B, is limited to a first upper limit W1 or less, and a second mode in which this limitation is removed. The first mode is the normal mode, and the second mode is the boost mode. The multiple control modes may also include modes other than the first and second modes. 【0108】 In order to reduce power consumption and extend the lifespan of various components of the work vehicle 10, the first and second electric motors 30A and 30B may be operated with their upper output limits suppressed. On the other hand, in the operation of the work vehicle 10, there may be situations where it is desirable to increase the output of the first electric motor 30A and / or the second electric motor 30B. 【0109】 In this embodiment, when the control device 110 is controlling the first and second electric motors 30A and 30B in the first mode, if predetermined conditions are met, it switches the control mode from the first mode to the second mode and controls the first and second electric motors 30A and 30B. During normal operation, the total output is limited to a small amount to reduce power consumption and the load on various parts of the work vehicle 10, while the output of the first electric motor 30A and / or the second electric motor 30B can be increased when necessary. 【0110】 The boost switch (first switch) 131 is a switch that accepts user input to turn on the second mode. For example, if the user presses the boost switch 131, the control device 110 turns on the second mode. 【0111】 The boost reservation switch (second switch) 132 is a switch that accepts user operation to reserve the activation of the second mode. For example, if the user presses the boost reservation switch 132, the control device 110 activates the second mode when the total power Wo reaches the first upper limit W1. The boost switch 131 and the boost reservation switch 132 may be included in the switch group 56. 【0112】 The meter panel unit 54 (Figure 4) includes a display element 152. The display element 152 is a digital display. The display element 152 may be, for example, a liquid crystal display panel or an active matrix display such as an OLED (Organic Light Emitting Diode). OLED may also be called an organic EL display. The meter ECU 151 controls the display operation of the display element 152. 【0113】 The display element 152 can display color images. The display element 152 can display numbers, characters, shapes, icons, symbols, still images, or moving images of any size at any position within the display area. The display element 152 can also display an image that, for example, superficially resembles all or part of an analog meter with an indicator needle. When the display element 152 displays an image of an "analog meter," the "indicator needle" in the image can be rotated to any orientation as part of a moving image. 【0114】 The information display system 120 according to this embodiment includes a meter panel unit 54 and a control device 110. The information display system 120 is mounted on a work vehicle 10. 【0115】 Figure 10 shows an example of information displayed by the display element 152. The display element 152 can display various information about the work vehicle 10, such as driving speed, driving time, motor rotation speed, battery level, and operating mode. 【0116】 Figure 11 is a flowchart showing an example of the control of the first electric motor 30A and the second electric motor 30B. In the example shown in Figure 11, the second mode is turned on based on the user's operation of the boost switch 131. 【0117】 The control device 110 normally controls the first and second electric motors 30A and 30B in first mode (step S101). During normal operation, the total power Wo is limited to a first upper limit W1 or less, thereby reducing power consumption and the load on various parts of the work vehicle 10. 【0118】 The control device 110 determines whether or not the user has operated the boost switch 131 (step S102). As long as the control device 110 does not detect any operation of the boost switch 131 by the user, it maintains control of the first and second electric motors 30A and 30B in the first mode. 【0119】 If the control device 110 determines that the user has operated the boost switch 131, it proceeds to step S103. 【0120】 The control device 110 counts the elapsed time since the previous control in second mode ended and the control mode was switched from second mode to first mode. In step S103, the control device 110 determines whether a second predetermined time has elapsed since the previous control in second mode ended and the control mode was switched from second mode to first mode. The second predetermined time is, for example, 3 seconds or more and 60 seconds or less, but is not limited to this value. If control in second mode has not been performed even once, it is determined that the second predetermined time has elapsed and the process proceeds to step S104. 【0121】 If the control device 110 determines that a second predetermined time has not elapsed since the previous control in second mode ended and the control mode was switched from second mode to first mode, it maintains control of the first and second electric motors 30A and 30B in first mode. In this case, the control device 110 informs the user that it will not turn on second mode (step S107). For example, the control device 110 displays information on the display element 152 of the meter panel unit 54 indicating that it will not perform control in second mode until a second predetermined time has elapsed since the previous control in second mode ended and the control mode was switched from second mode to first mode. For example, the control device 110 displays text information and / or icons on the display indicating that it will not perform control in second mode. 【0122】 In this embodiment, after the previous control in the second mode has finished and the control mode has been switched from the second mode to the first mode, control in the second mode will not be performed until a second predetermined time has elapsed. By providing such a cool-down time, it is possible to suppress the frequent switching on of the second mode, thereby reducing power consumption and the load on various parts of the work vehicle 10. 【0123】 If the control device 110 determines that a second predetermined time has elapsed since the previous control in the second mode ended and the control mode was switched from the second mode to the first mode, it switches the control mode from the first mode to the second mode and controls the first and second electric motors 30A and 30B (step S104). The control device 110 sets the upper limit of the total power Wo in the second mode to a second upper limit W2 which is greater than the first upper limit W1. By increasing the upper limit of the total power Wo in the second mode, the output of the first electric motor 30A and / or the second electric motor 30B can be increased. 【0124】 The time (first predetermined time) during which the first and second electric motors 30A and 30B can be driven continuously in second mode is set in advance. The first predetermined time is, for example, 3 seconds or more and 60 seconds or less, but is not limited to that value. The control device 110 counts the time during which the first and second electric motors 30A and 30B are controlled in second mode. 【0125】 Figure 12 shows an example of the information displayed by the display element 152 when the first and second electric motors 30A and 30B are being controlled in the second mode. 【0126】 While the first and second electric motors 30A and 30B are being controlled in the second mode, the control device 110 displays information on the display element 152 indicating that the first and second electric motors 30A and 30B are being controlled in the second mode. In the example shown in Figure 12, the control device 110 displays an icon 165 on the display element 152 indicating that the first and second electric motors 30A and 30B are being controlled in the second mode. The user can easily recognize that the second mode is on by looking at the icon 165 displayed on the display element 152. 【0127】 Furthermore, while the first and second electric motors 30A and 30B are being controlled in the second mode, the control device 110 displays information on the display element 152 regarding the remaining time during which the first and second electric motors 30A and 30B can be controlled in the second mode. In the example shown in Figure 12, the control device 110 displays a bar graph 160 indicating such remaining time on the display element 152. 【0128】 Figure 13 shows an example of a bar graph 160 displayed by the display element 152. In the example shown in Figure 13, the length of the bars in the bar graph 160 decreases as the remaining time decreases. When the remaining time reaches zero, the length of the bars becomes zero. By looking at the bar graph 160, the user can easily recognize how much longer the operation in the second mode with high output can be performed. 【0129】 In step S105 shown in Figure 11, the control device 110 determines whether the counted time has reached a first predetermined time. Reaching the first predetermined time means that the remaining time during which the first and second electric motors 30A and 30B can be controlled in the second mode becomes zero. 【0130】 When the control device 110 determines that the counted time has reached the first predetermined time, it terminates control in the second mode. The control device 110 switches the control mode from the second mode to the first mode and controls the first and second electric motors 30A and 30B (step S106). In this way, by setting a time limit for control in the second mode, power consumption can be reduced and the load on various parts of the work vehicle 10 can be reduced. 【0131】 When the control mode is switched from the first mode to the second mode, the control device 110 may increase the power supplied to the first electric motor 30A at a different rate than the rate at which it increases the power supplied to the second electric motor 30B. For example, when the control mode is switched from the first mode to the second mode, the power supplied to the second electric motor 30B may be increased preferentially over the power supplied to the first electric motor 30A. This ensures that sufficient driving force is supplied to the work machine. It also helps to suppress sudden changes in the travel speed of the work vehicle 10. 【0132】 In this embodiment, after the control mode is switched from the second mode to the first mode, control of the first and second electric motors 30A and 30B in the second mode is prohibited until a second predetermined time has elapsed. The control device 110 counts the elapsed time since the control mode was switched from the second mode to the first mode. After the control mode is switched from the second mode to the first mode, the control device 110 displays information on the display element 152 regarding the remaining time until the prohibition on control in the second mode is lifted. For example, the control device 110 displays a bar graph 160 indicating the remaining time on the display element 152. 【0133】 Figure 14 shows an example of a bar graph 160 displayed by the display element 152. In the example shown in Figure 14, the length of the bars in the bar graph 160 increases as the remaining time until the control prohibition in second mode is released decreases. When the remaining time reaches zero, the length of the bars is at its maximum. By looking at the bar graph 160, the user can easily understand how much time is left before operation in second mode can be resumed. 【0134】 The colors of the bars in the bar graph 160 may be different depending on whether the bar graph 160 is showing the remaining time that control in second mode is possible or the remaining time until the prohibition on control in second mode is lifted. Users can easily recognize what the current bar graph 160 is showing by looking at the color of the bars. When the length of the bars reaches its maximum, the color of the bars changes to the color that indicates the remaining time that control in second mode is possible. 【0135】 In the example shown in Figure 14, the length of the bars in the bar graph 160 increases as the remaining time until the restriction on control in second mode is lifted decreases. However, the length of the bars in the bar graph 160 may also decrease as the remaining time until the restriction on control in second mode is lifted decreases. In this configuration as well, the user can easily recognize how much time remains until operation in second mode can be resumed by looking at the bar graph 160. In this case as well, the color of the bars in the bar graph 160 may be different depending on whether the bar graph 160 is showing the remaining time until control in second mode is possible or until the restriction on control in second mode is lifted. 【0136】 While the first and second electric motors 30A and 30B are being controlled in the second mode, the control device 110 may display text indicating the remaining time on the display element 152. Figure 15 shows an example of the display element 152 displaying text 161 indicating the remaining time that control in the second mode is possible. By looking at the text 161, the user can easily understand how much longer the high-output operation in the second mode can be performed. 【0137】 As shown in Figure 15, a bar graph 160 may be displayed near the text 161. In the example shown in Figure 15, two bar graphs 160 are displayed, but only one may be displayed. 【0138】 The control device 110 may display text on the display element 152 indicating the remaining time until the restriction on control in the second mode is lifted. Figure 16 shows an example of the display element 152 displaying text 162 indicating the remaining time until the restriction on control in the second mode is lifted. By looking at the text 162, the user can easily understand how much time is left before they can operate in the second mode again. 【0139】 As shown in Figure 16, a bar graph 160 may be displayed near the text 162. In the example shown in Figure 16, two bar graphs 160 are displayed, but only one may be displayed. 【0140】 If the user operates the boost switch 131 during a period when control in the second mode is prohibited, the control device 110 may display information on the display element 152 indicating that control in the second mode is not possible (step S107). For example, the control device 110 may display text on the display element 152 indicating that control in the second mode is not possible. 【0141】 Figure 17 shows an example of text 163 displayed by the display element 152. By looking at the text 163, the user can easily recognize that control in second mode is currently prohibited. 【0142】 Furthermore, if the work vehicle 10 is configured to prohibit control in the second mode, such as output limiting, and the user operates the boost switch 131, the control device 110 may display text on the display element 152 indicating that control in the second mode is not possible. Figure 18 shows an example of text 164 displayed by the display element 152. By looking at the text 164, the user can easily recognize that control in the second mode is prohibited. 【0143】 The rate at which the upper limit of total power Wo is increased when switching the control mode from the first mode to the second mode may be different from the rate at which the upper limit of total power Wo is decreased when switching the control mode from the second mode to the first mode. 【0144】 Figure 19 shows an example of the change in the upper limit of the total power Wo when the control mode is switched between the first mode and the second mode. The vertical axis represents the upper limit, and the horizontal axis represents time. 【0145】 In the example shown in Figure 19, at time T1, the control device 110 switches the control mode from the first mode to the second mode and changes the upper limit of the total power Wo from the first upper limit W1 to the second upper limit W2. At time T2, the control device 110 switches the control mode from the second mode to the first mode and changes the upper limit of the total power Wo from the second upper limit W2 to the first upper limit W1. 【0146】 As shown in Figure 19, the control device 110 may decrease the upper limit of the total power Wo when switching from the second mode to the first mode at a slower pace than it increases the upper limit of the total power Wo when switching from the first mode to the second mode. 【0147】 When switching the control mode from the first mode to the second mode, the upper limit of the total power Wo can be quickly increased, allowing the system to quickly respond to user requests for increased motor output. 【0148】 When switching the control mode from the second mode to the first mode, slowly reducing the upper limit of the total power Wo can prevent the motor output from dropping too sharply and causing the user to feel uncomfortable. 【0149】 Next, we will describe another example of controlling the first electric motor 30A and the second electric motor 30B. 【0150】 Figure 20 is a flowchart showing another example of the control of the first electric motor 30A and the second electric motor 30B. In the example shown in Figure 20, the second mode is turned on based on the user's operation of the boost reservation switch 132. 【0151】 Normally, the control device 110 controls the first and second electric motors 30A and 30B in first mode (step S111). The control device 110 determines whether the user has operated the boost reservation switch 132 (step S112). As long as the control device 110 does not detect that the user has operated the boost reservation switch 132, it maintains control of the first and second electric motors 30A and 30B in first mode. 【0152】 If the control device 110 determines that the user has operated the boost reservation switch 132, it proceeds to step S113. 【0153】 In step S113, the control device 110 determines whether the total power Wo, which is the sum of the power supplied to the first electric motor 30A and the power supplied to the second electric motor 30B, has reached the first upper limit W1. Even if the control device 110 detects operation of the boost reservation switch 132 by the user, it maintains control of the first and second electric motors 30A and 30B in the first mode as long as the total power Wo has not reached the first upper limit W1. If the control device 110 determines that the total power Wo has reached the first upper limit W1, it proceeds to the process in step S114. 【0154】 In step S114, the control device 110 determines whether or not a second predetermined time has elapsed since the previous control in the second mode ended and the control mode was switched from the second mode to the first mode. If control in the second mode has not been performed even once, it is determined that the second predetermined time has elapsed and the process proceeds to step S115. 【0155】 If the control device 110 determines that a second predetermined time has not elapsed since the previous control in second mode ended and the control mode was switched from second mode to first mode, it maintains control of the first and second electric motors 30A and 30B in first mode. In this case, the control device 110 notifies the user that it will not turn on second mode (step S118). 【0156】 If the control device 110 determines that more than two predetermined times have elapsed since the previous control in second mode ended and the control mode was switched from second mode to first mode, it switches the control mode from first mode to second mode and controls the first and second electric motors 30A and 30B (step S115). The control device 110 sets the upper limit of the total power Wo in second mode to a second upper limit W2 which is greater than the first upper limit W1. 【0157】 The control device 110 counts the time spent controlling the first and second electric motors 30A and 30B in the second mode. The control device 110 determines whether the counted time has reached a first predetermined time (step S116). 【0158】 When the control device 110 determines that the counted time has reached a first predetermined time, it terminates control in the second mode. The control device 110 switches the control mode from the second mode to the first mode and controls the first and second electric motors 30A and 30B (step S117). 【0159】 In the example shown in Figure 20, the user can increase the motor output when needed by pre-operating the boost reservation switch 132. For example, when the load on the work vehicle 10 and / or work machine becomes heavy and it is desired to increase the motor output, the motor output can be increased. 【0160】 Next, we will describe yet another example of the control of the first electric motor 30A and the second electric motor 30B. 【0161】 Figure 21 is a flowchart showing yet another example of the control of the first electric motor 30A and the second electric motor 30B. In the example shown in Figure 21, when the first and second electric motors 30A and 30B are being controlled in the first mode, if the total power Wo reaches the first upper limit W1, the control mode is switched from the first mode to the second mode to control the first and second electric motors 30A and 30B. 【0162】 Normally, the control device 110 controls the first and second electric motors 30A and 30B in first mode (step S121). The control device 110 determines whether the total power Wo, which is the sum of the power supplied to the first electric motor 30A and the power supplied to the second electric motor 30B, has reached a first upper limit W1 (step S122). As long as the total power Wo is less than the first upper limit W1, the control device 110 maintains control of the first and second electric motors 30A and 30B in first mode. If the control device 110 determines that the total power Wo has reached the first upper limit W1, it proceeds to step S123. 【0163】 In step S123, the control device 110 determines whether or not a second predetermined time has elapsed since the previous control in the second mode ended and the control mode was switched from the second mode to the first mode. If control in the second mode has not been performed even once, it is determined that the second predetermined time has elapsed and the process proceeds to step S124. 【0164】 If the control device 110 determines that a second predetermined time has not elapsed since the previous control in second mode ended and the control mode was switched from second mode to first mode, it maintains control of the first and second electric motors 30A and 30B in first mode. In this case, the control device 110 notifies the user that it will not turn on second mode (step S127). 【0165】 If the control device 110 determines that a second predetermined time has elapsed since the previous control in the second mode ended and the control mode was switched from the second mode to the first mode, it switches the control mode from the first mode to the second mode and controls the first and second electric motors 30A and 30B (step S124). The control device 110 sets the upper limit of the total power Wo in the second mode to a second upper limit W2 which is greater than the first upper limit W1. 【0166】 The control device 110 counts the time spent controlling the first and second electric motors 30A and 30B in the second mode. The control device 110 determines whether the counted time has reached a first predetermined time (step S125). 【0167】 When the control device 110 determines that the counted time has reached a first predetermined time, it terminates control in the second mode. The control device 110 switches the control mode from the second mode to the first mode and controls the first and second electric motors 30A and 30B (step S126). 【0168】 In the example shown in Figure 21, the total power Wo is limited to a small amount during normal operation, thereby reducing power consumption and the load on various components of the work vehicle 10, while the motor output can be increased when necessary. For example, when the load on the work vehicle 10 and / or the work machine becomes large and it is desired to increase the motor output, the motor output can be increased. 【0169】 Compared to control systems where the upper limit of total power Wo is always high, this embodiment imposes a time limit on the control in the second mode. This reduces power consumption and the load on various components of the work vehicle 10. 【0170】 In the processes illustrated in Figures 20 and 21, information regarding the remaining time, as explained using Figures 12-16, may be displayed, or information regarding the inability to perform control in the second mode, as explained using Figures 17 and 18, may be displayed. 【0171】 When the control device 110 switches the control mode from the first mode to the second mode, it may increase the total power Wo so that the rotational speed of at least one of the first and second electric motors 30A and 30B can be maintained at the target rotational speed. In this embodiment, when controlling in the first mode, the upper limit of the total power Wo is reduced to provide a margin in the output of the battery 20. This ensures that even when the load on the first electric motor 30A and / or the second electric motor 30B increases, power is secured to maintain the rotational speed at the target rotational speed. 【0172】 The drive system 100 according to this embodiment can also be retrofitted to a work vehicle that does not have those functions. Such a system can be manufactured and sold independently of the work vehicle. The computer program used in such a system can also be manufactured and sold independently of the work vehicle. The computer program can be provided, for example, stored in a computer-readable non-temporary storage medium. The computer program can also be provided by download via a telecommunications line (e.g., the Internet). [Industrial applicability] 【0173】 The present invention is particularly useful in the field of electric work vehicles such as agricultural tractors and construction vehicles equipped with electric motors for driving. [Explanation of symbols] 【0174】 10...Work vehicle, 11...Body, 12...Front frame, 13...Transmission case, 14...Wheels, 14F...Front wheel, 14R...Rear wheel, 15F...Front axle, 15R...Rear axle, 16...Housing frame, 17F...Front axle case, 17R...Rear axle case, 19...Front housing, 20...Battery, 22...Battery management system (BMS), 24...Temperature sensor, 30, 30A, 30B...Electric motor, 33...Output shaft, 34...Power transmission system, 35A, 35B...Inverter, 36...Hydraulic pump, 40...PTO shaft, 51...Loops frame, 52...Driver's seat, 53...Steering wheel, 54...Instrument panel unit, 55...Pedal group, 56...Switch group, 57...Charging inlet, 58...Power converter, 60...Cooling system for high-voltage equipment, 61...Main ECU, 62...Electric ECU, 63...Charging ECU, 64...Relay, 65...Radiator for high-voltage equipment, 66...Reservoir tank, 67...Pump, 68...Cooling fan, 70...Battery temperature control system, 72...Heater, 75...Battery radiator, 76...Reservoir tank, 77...Pump, 80...Power distribution unit, 81...Onboard charger (OBC), 82...DC-DC converter, 83...Relay circuits, 84...Auxiliary equipment, 100...Drive systems, 110...Control devices, 121...Current sensors, 122...Voltage sensors, 131...Boost switches, 132...Boost reservation switches

Claims

[Claim 1] An information display system for a work vehicle comprising a traveling device, a PTO (Power Take Off) shaft that supplies power to a work machine, and one or more electric motors that drive the traveling device and the PTO shaft, A meter panel unit that displays information related to the aforementioned work vehicle, A control device for controlling the meter panel unit, Equipped with, The control mode for controlling the one or more electric motors includes a first mode in which the power supplied to the one or more electric motors is limited to a first upper limit value or less, and a second mode in which the limitation is removed. An information display system that, while the control device is controlling one or more electric motors in the second mode, causes the control device to display information on the meter panel unit regarding the remaining time during which the control of one or more electric motors in the second mode is possible. [Claim 2] The information display system according to claim 1, wherein while the control of one or more electric motors is being performed in the second mode, the control device causes the meter panel unit to display a bar graph indicating the remaining time. [Claim 3] The information display system according to claim 1 or 2, wherein while the control of one or more electric motors is being performed in the second mode, the control device causes the meter panel unit to display text indicating the remaining time. [Claim 4] The information display system according to claim 1 or 2, wherein while the control of one or more electric motors in the second mode is being performed, the control device causes the meter panel unit to display information indicating that the control of one or more electric motors in the second mode is being performed. [Claim 5] The information display system according to claim 1 or 2, wherein while the control of one or more electric motors in the second mode is being performed, the control device causes the meter panel unit to display an icon indicating that the control of one or more electric motors in the second mode is being performed. [Claim 6] The information display system according to claim 1 or 2, wherein a time is set in advance for which one or more electric motors can be driven continuously in the second mode. [Claim 7] The information display system according to claim 6, wherein the time during which one or more electric motors can be driven continuously in the second mode is 3 seconds or more and 60 seconds or less. [Claim 8] The information display system according to claim 1 or 2, wherein in the second mode, the upper limit of the power supplied to one or more electric motors is set to a second upper limit that is greater than the first upper limit. [Claim 9] After the control mode switches from the second mode to the first mode, control of one or more electric motors in the second mode is prohibited until a predetermined time has elapsed. The information display system according to claim 1, wherein the control device displays on the meter panel unit information regarding the remaining time until the prohibition on the control of one or more electric motors in the second mode is released after switching from the second mode to the first mode. [Claim 10] The information display system according to claim 9, wherein the control device causes the meter panel unit to display a bar graph indicating the remaining time until the prohibition on the control of one or more electric motors in the second mode is released. [Claim 11] The information display system according to claim 9 or 10, wherein the control device causes the meter panel unit to display text indicating the remaining time until the prohibition on the control of one or more electric motors in the second mode is released. [Claim 12] The work vehicle is equipped with a switch that accepts user operation to turn on the second mode, The information display system according to claim 9 or 10, wherein if the user operates the switch during a period in which the control of one or more electric motors in the second mode is prohibited, the control device causes the meter panel unit to display information that the control of one or more electric motors in the second mode is not possible. [Claim 13] The information display system according to claim 12, wherein if the user operates the switch during the period in which control of one or more electric motors in the second mode is prohibited, the control device causes the meter panel unit to display text indicating that control of one or more electric motors in the second mode is not possible. [Claim 14] The information display system according to claim 9 or 10, wherein the predetermined time is 3 seconds or more and 60 seconds or less. [Claim 15] The information display system according to claim 1 or 2, wherein the one or more electric motors include a first electric motor for driving the traveling device and a second electric motor for driving the PTO shaft. [Claim 16] The information display system according to claim 1 or 2, wherein the work vehicle is agricultural machinery. [Claim 17] A work vehicle equipped with the information display system according to claim 1 or 2. [Claim 18] An information display method that uses one or more computers to display information about a work vehicle on a meter panel unit, The aforementioned work vehicle comprises a traveling device, a PTO (Power Take Off) shaft that supplies power to the work machine, and one or more electric motors that drive the traveling device and the PTO shaft. The control mode for controlling the one or more electric motors includes a first mode in which the power supplied to the one or more electric motors is limited to a first upper limit value or less, and a second mode in which the limitation is removed. The aforementioned information display method is: While the control of one or more electric motors in the second mode is being performed, the meter panel unit is to display information regarding the remaining time during which the control of one or more electric motors in the second mode is possible. Information display methods, including those mentioned above. [Claim 19] A computer program that causes one or more computers to perform a process to display information about a work vehicle on a meter panel unit, The aforementioned work vehicle comprises a traveling device, a PTO (Power Take Off) shaft that supplies power to the work machine, and one or more electric motors that drive the traveling device and the PTO shaft. The control mode for controlling the one or more electric motors includes a first mode in which the power supplied to the one or more electric motors is limited to a first upper limit value or less, and a second mode in which the limitation is removed. The aforementioned computer program, While the control of one or more electric motors in the second mode is being performed, the meter panel unit is to display information regarding the remaining time during which the control of one or more electric motors in the second mode is possible. A computer program that causes one or more computers to execute the aforementioned program. [Claim 20] An information display system for a work vehicle comprising a traveling device, a PTO (Power Take Off) shaft that supplies power to a work machine, and one or more electric motors that drive the traveling device and the PTO shaft, A meter panel unit that displays information related to the aforementioned work vehicle, A control device for controlling the meter panel unit, Equipped with, The control mode for controlling the one or more electric motors includes a first mode in which the power supplied to the one or more electric motors is limited to a first upper limit value or less, and a second mode in which the limitation is removed. After the control mode switches from the second mode to the first mode, control of one or more electric motors in the second mode is prohibited until a predetermined time has elapsed. The control device is an information display system that causes the meter panel unit to display information regarding the remaining time until the prohibition on the control of one or more electric motors in the second mode is released, after the control device has switched from the second mode to the first mode. [Claim 21] The information display system according to claim 20, wherein the control device causes the bar graph indicating the remaining time to be displayed on the meter panel unit. [Claim 22] The information display system according to claim 20 or 21, wherein the control device causes the meter panel unit to display text indicating the remaining time. [Claim 23] The work vehicle is equipped with a switch that accepts user operation to turn on the second mode, The information display system according to claim 20 or 21, wherein if the user operates the switch during a period in which the control of one or more electric motors in the second mode is prohibited, the control device causes the meter panel unit to display information that the control of one or more electric motors in the second mode cannot be performed. [Claim 24] The information display system according to claim 23, wherein if the user operates the switch during the period in which control of the one or more electric motors in the second mode is prohibited, the control device causes the meter panel unit to display text indicating that control of the one or more electric motors in the second mode is not possible. [Claim 25] The information display system according to claim 20 or 21, wherein the predetermined time is 3 seconds or more and 60 seconds or less. [Claim 26] The information display system according to claim 20 or 21, wherein the one or more electric motors include a first electric motor for driving the traveling device and a second electric motor for driving the PTO shaft. [Claim 27] The information display system according to claim 20 or 21, wherein the work vehicle is agricultural machinery. [Claim 28] A work vehicle equipped with the information display system according to claim 20 or 21. [Claim 29] An information display method that uses one or more computers to display information about a work vehicle on a meter panel unit, The aforementioned work vehicle comprises a traveling device, a PTO (Power Take Off) shaft that supplies power to the work machine, and one or more electric motors that drive the traveling device and the PTO shaft. The control mode for controlling the one or more electric motors includes a first mode in which the power supplied to the one or more electric motors is limited to a first upper limit value or less, and a second mode in which the limitation is removed. After the control mode switches from the second mode to the first mode, control of one or more electric motors in the second mode is prohibited until a predetermined time has elapsed. The aforementioned information display method is: After switching from the second mode to the first mode, the meter panel unit will display information regarding the remaining time until the prohibition on the control of one or more electric motors in the second mode is released. Information display methods, including those mentioned above. [Claim 30] A computer program that causes one or more computers to perform a process to display information about a work vehicle on a meter panel unit, The aforementioned work vehicle comprises a traveling device, a PTO (Power Take Off) shaft that supplies power to the work machine, and one or more electric motors that drive the traveling device and the PTO shaft. The control mode for controlling the one or more electric motors includes a first mode in which the power supplied to the one or more electric motors is limited to a first upper limit value or less, and a second mode in which the limitation is removed. After the control mode switches from the second mode to the first mode, control of one or more electric motors in the second mode is prohibited until a predetermined time has elapsed. The aforementioned computer program, After switching from the second mode to the first mode, the meter panel unit will display information regarding the remaining time until the prohibition on the control of one or more electric motors in the second mode is released. A computer program that causes one or more computers to execute the aforementioned program.

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