JP2018191532A - Implement - Google Patents

Abstract

To execute control simply based on control data.SOLUTION: In an implement including a first control device having a first storage part for storing first control data, and a second control device having a second storage part for storing second control data, the first control device executes control based on first control data stored in the first storage part, when the first control data stored in the first storage part agrees with second control data stored in the second storage part.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a work machine capable of performing control based on control data, for example.

  Conventionally, documents shown in Patent Documents 1 and 2 are known as techniques for controlling the tractor when the tractor reaches the headland. In the technique disclosed in Patent Document 1, the steering operation force is assisted when it is detected that the traveling machine body has reached the headland. Further, in the technique disclosed in Patent Document 2, when the headland (saddle) is sensed by the detection means, the working machine at the rear of the vehicle body is raised and the vehicle body is moved backward by a predetermined distance or a predetermined time.

  Moreover, the literature shown in patent document 3 is known as what sets a work travel sequence in performing control of a tractor. The system of Patent Literature 3 includes a display, a recording unit that records control data as a work travel sequence in the order of execution processing, and a work travel sequence screen that converts control data for each execution processing unit into icons and displays the icons in the order of execution processing. Is displayed on the display.

JP-A-6-219291 JP 2002-45007 A Japanese Unexamined Patent Publication No. 2016-34238

  As described above, in Patent Documents 1 and 2, when the tractor or the like approaches the headland, it is the actual situation that assists the steering or assists the lifting and lowering of the working machine. Thus, it is the actual situation that a work traveling sequence of traveling such as a headland tractor can be set and reproduced. Here, the actual situation is that more advanced technology is required for the control of the tractor during traveling such as turning.

  In view of the above problems, an object of the present invention is to provide a work machine capable of performing control with highly reliable control data.

The technical means of the present invention for solving this technical problem is characterized by the following points.
The work machine is a work machine including a first control device having a first storage unit that stores first control data and a second control device having a second storage unit that stores second control data. The first control unit, when the first control data stored in the first storage unit coincides with the second control data stored in the second storage unit, Control is performed based on the first control data stored in.

The first control device includes a first acquisition unit that acquires travel data at the time of travel, the travel data acquired by the first acquisition unit is set as the first control data, and the set first control data is the A data setting unit to be written in the first storage unit.
If the first control data is already stored in the first storage unit before the first control data is written in the first storage unit, the data setting unit stores the first control data already stored. Erase.

After the setting of the first control data, the data setting unit transmits the set first control data to the second control device, and the second control device uses the received first control data as the second control data. Store in the second storage unit.
A command unit that commands turning is provided, and the first acquisition unit acquires travel data commanded by the command unit.

The first storage unit can store the plurality of first control data, the second storage unit can store the plurality of second control data, and the second control device can store the plurality of second control data. Of the first control data, when predetermined first control data is not stored in the first storage unit, data for transferring second control data corresponding to the predetermined first control data to the first control device The first control device stores the second control data transferred by the data transfer unit in the first storage unit as the first control data.

The second control device is provided in a display device, and the display device displays second control data stored in the second storage unit.
The first storage unit can store the plurality of first control data, the second storage unit can store the plurality of second control data, and the display device includes the second storage unit. Among the plurality of second control data stored in the first control data, the second control data matching the plurality of first control data stored in the first storage unit is displayed.

  The second storage unit can store the plurality of second control data, and the second control device is provided in a display device, and the frequency of use of the first control data corresponding to the second control data is determined. The display device has a frequency calculation unit for calculating, and the display device displays an order of displaying information related to the second control data based on the use frequency among the second control data stored in the second storage unit. change.

  A connection unit that connects the work devices, a first acquisition unit that acquires travel data during travel, a second acquisition unit that acquires device information related to the work devices connected to the connection unit, and the first acquisition unit. A data setting unit that sets the acquired travel data and the device information acquired by the second acquisition unit in the first control data and writes the set first control data in the first storage unit.

The second control device includes a third acquisition unit that acquires the first control data, a data transmission unit that transmits the first control data acquired by the third acquisition unit to the first control device, and the data transmission unit. And a parameter check unit that checks the parameter of the first control data when transmitting the first control data.
After the setting of the first control data, the data setting unit transmits the set first control data to the second control device, and the second control device uses the received first control data as the second control data. Before storing in the second storage unit, the parameter of the received first control data is checked.

  According to the present invention, control can be performed with highly reliable control data. That is, the first control data is stored in the first storage unit of the first control device, and the second control data is stored in the second storage unit of the second control device. When the first control data stored in the storage unit matches the second control data stored in the second storage unit, control is performed using the first control data stored in the first storage unit. Control can be performed with reliable first control data.

It is a control block diagram of a tractor. It is a figure which shows the control data memorize | stored in the 1st memory | storage part and the 2nd memory | storage part. It is a figure which shows the case where the storage area of a 1st memory | storage part is vacant. It is a figure which shows the case where the storage area of a 1st memory | storage part is not vacant. It is a figure which shows the procedure which displays the 2nd control data in a display apparatus. It is a figure which shows the mode of the setting of the control data at the time of driving | running | working of a tractor. It is a figure which shows an example of the data display screen M1 shown on the display apparatus. It is a figure which shows the relationship between the usage frequency of 1st control data, and the determination frequency of 2nd control data. It is a figure which shows the modification of a 1st control apparatus. It is a figure which shows the modification of a 2nd control apparatus. It is a figure which shows an example of the data confirmation screen M2 shown on the display apparatus. It is a figure which shows the modification of a 2nd control apparatus. It is a figure which shows the relationship between a control pattern and a control parameter. It is a figure which shows the modification of a 2nd control apparatus. It is a general view of a tractor.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
The work machine is an agricultural machine such as a tractor, a combine machine or a rice transplanter. A tractor 1 that is one of the agricultural machines will be described as an example.
As shown in FIG. 13, the tractor 1 includes a vehicle (vehicle body) 3 having a traveling device 7, a prime mover 4, and a transmission 5. The traveling device 7 is a device having a front wheel and a rear wheel. The traveling device 7 may be a crawler type device. The prime mover 4 is a diesel engine, an electric motor, or the like, and in this embodiment is constituted by a diesel engine. The transmission 5 can switch the propulsive force of the traveling device 7 by shifting, and can also switch the traveling device 7 forward and backward.

  The transmission 5 has a PTO clutch capable of transmitting power from the prime mover 4 and a PTO shaft capable of transmitting power from the PTO clutch. The PTO clutch can be switched between a connected state in which the power from the prime mover 4 is transmitted to the PTO shaft and a disconnected state in which the power from the prime mover 4 is not transmitted to the PTO shaft. The traveling clutch is a hydraulic clutch that is switched between a connected state and a disconnected state by pressure oil or the like from a solenoid valve. That is, when the PTO clutch is constituted by a hydraulic clutch, an electric signal (control signal) such as a current is output from the first control device 20 described later to the electromagnetic valve to switch the electromagnetic valve to at least two positions. The PTO clutch switches between a connected state and a disconnected state. The PTO clutch may be an electromagnetic clutch that is switched between a connected state and a disconnected state by an electrical signal.

  Further, a connecting portion 8 constituted by a three-point link mechanism or the like is provided at the rear portion of the vehicle body 3. The working device 2 can be attached to and detached from the connecting portion 8. By connecting the working device 2 to the connecting portion 8, the working device 2 can be pulled by the vehicle body 3. The working device 2 includes a tilling device for plowing, a fertilizer spraying device for spraying fertilizer, a pesticide spraying device for spraying agricultural chemicals, a harvesting device for harvesting, a harvesting device for cutting grass, a diffusion device for spreading grass, A grass collecting device for collecting grass and the like, and a molding device for forming grass and the like. In addition, in FIG. 13, the example which attached the tillage apparatus as the working apparatus 2 is shown.

The tractor 1 includes a driver's seat 10 provided on the vehicle body 3 and a control device 11. The driver's seat 10 and the control device 11 are disposed in a cabin 12 provided in the vehicle body 3. The steering device 11 is configured by, for example, steering, and the traveling direction of the tractor 1 can be changed by steering the steering device 11.
As shown in FIG. 1, the tractor 1 includes a first control device 20. The first control device 20 is a device that performs control related to the tractor 1. The first control device 20 controls the work system of the tractor 1 and controls the traveling system of the tractor 1.

  The first control device 20 includes, for example, a sensor 21a for detecting a crank position, a sensor 21b for detecting a cam position, a sensor 21c for detecting the rotational speed (engine rotational speed) of the prime mover 4, and a sensor for detecting a set value of an accelerator. 21d is connected. The control device 21 outputs a control signal obtained based on signals such as a crank position, a cam position, and an engine speed detected by the sensors 21a to 21c to an injector, a common rail, a supply pump, etc. The engine 4 is controlled. In the control of the injector, a control signal indicating the fuel injection amount, the injection timing, and the fuel injection rate is output to the injector. In the control of the supply pump and common rail, a signal indicating the fuel injection pressure and the like is output to the supply pump and common rail. The first control device 20 controls the engine speed based on the set value detected by the sensor 21d. The control of the prime mover 4 by the first control device 20 is an example and is not limited.

The first control device 20 is connected to, for example, an elevating operation member 40 that is provided in the vicinity of the driver's seat 10 and operates elevating and a hydraulic control valve 41. When the lifting / lowering operation member 40 is operated to the ascending side, the first control device 20 outputs a control signal to the hydraulic control valve 41 to set the opening degree of the hydraulic control valve 41 and is operated by the hydraulic control valve 41. The hydraulic cylinder 42 to be extended is extended and the connecting portion 8 is raised. On the other hand, the first control device 20 outputs a control signal to the hydraulic control valve 41 to set the opening of the hydraulic control valve 41 when the elevating operation member 40 is operated to the lowering side. The hydraulic cylinder 42 actuated by is contracted and the connecting portion 8 is lowered. That is, the first control device 20 can control the lifting / lowering operation of the connecting portion 8 and can arbitrarily set the lifting / lowering amount of the connecting portion 8 (the extent of extension of the hydraulic cylinder 42). According to the above, the 1st control apparatus 20 can perform control regarding the motor | power_engine 4, and can control raising / lowering of the connection part 8. FIG.

  Now, the 1st control apparatus 20 can control the tractor 1 also by the control data stored beforehand. The control data is data for controlling the tractor 1, and is data for controlling various devices mounted on the tractor 1, for example. Control data for controlling the engine 4 includes a crank position, a cam position, an engine speed, an accelerator set value, and the like. The control data for controlling the raising / lowering of the connecting portion 8 is a control signal (current) output to the hydraulic control valve 41. The control data for controlling the traveling device 7 is a gear position in the transmission 5 and the like. When controlling the PTO system, the control signal (current) output to the solenoid valve for switching the PTO clutch, the state of the PTO clutch, and the like. The control data includes a sequence indicating the order in which the devices of the tractor 1 are controlled. Note that the control data is not limited to that described above, and may be any data.

The first control device 20 has a first storage unit 22. The first storage unit 22 is a non-volatile memory or the like.
The control data stored in the first storage unit 22 is managed by the first control device 20 or the like in a file format or the like. As shown in FIG. 2A, for example, the plurality of control data stored in the first storage unit 22 are managed in association with the plurality of files A1 to A4, respectively. The first control device 20 reads at least one control data (file) out of a plurality of control data (control data corresponding to the files A1 to A4) stored in the first storage unit 22, and uses the read control data as the read control data. Based on this, the raising and lowering of the engine 4 and the connecting portion 8 are controlled. Hereinafter, for convenience of explanation, the control data associated with the files A1 to A4 are referred to as control data A1, A2, A3, and A4.

  As shown in FIG. 1, the tractor 1 includes a second control device 30 separately from the first control device 20. The second control device 30 is a device that controls the tractor 1 separately from the first control device 20. For example, the second control device 30 controls the display device 31 included in the tractor 1. The display device 31 is a device that can display various information regarding the tractor 1, and is provided in the vicinity of the driver's seat 10. In this embodiment, the second control device 30 is provided in the display device 31. Note that the second control device 30 may be separate from the display device 31.

  The second control device 30 is connected to the first control device 20 and can transmit and receive data to and from each other. The second control device 30 includes a second storage unit 32 that stores control data. The second storage unit 32 is a non-volatile memory or the like. As shown in FIG. 2A, the control data stored in the second storage unit 32 is also managed by the second control device 30 or the like according to the file format, for example, a plurality of controls stored in the second storage unit 32. Data is managed in association with a plurality of files A1 to A7, respectively. The second control device 30 reads at least one control data among a plurality of control data (control data corresponding to the files A1 to A7) stored in the second storage unit 32, and based on the read control data, Controls the raising and lowering of the engine 4 and the connecting portion 8. Hereinafter, for convenience of explanation, the control data associated with the files A1 to A7 are referred to as control data A1, A2, A3, A4, A5, A6, and A7.

As shown in FIG. 2A, the storage capacity of the control data stored in the second storage section 32 is larger than the storage capacity of the control data stored in the first storage section 22, and the control data stored in the second storage section 32 The storage area is set larger than the storage area of the control data in the first storage unit 22.
The control data stored in the second storage unit 32 is control data acquired by the first control device 20. The relationship between the acquisition of control data in the first control device 20 and the control data stored in the second storage unit 32 will be described. For convenience of explanation, the control data stored in the first storage unit 22 of the first control device 20 is referred to as “first control data”, and the second control device 30
The control data stored in the storage unit 32 may be referred to as “second control data”.

As shown in FIG. 1, the first control device 20 includes a first acquisition unit 24 and a data setting unit 25A. The first acquisition unit 24 and the data setting unit 25A are configured by electric / electronic components provided in the first control device 20, programs installed in the first control device 20 and the like.
The first acquisition unit 24 acquires travel data when the tractor 1 is traveling. The data setting unit 25 </ b> A sets the travel data acquired by the first acquisition unit 24 as control data and writes the set control data to the first storage unit 22. Specifically, the first control device 20 is provided with a command unit 33 in the vicinity of the driver's seat. The command unit 33 is a switch or the like that can be switched ON / OFF, and can be operated by an operator or the like while the tractor 1 is traveling. When the command unit 33 is switched from OFF to ON while the tractor 1 is traveling, the first acquisition unit 24 detects the engine speed, the control signal to the hydraulic control valve 41, and the transmission 5 The holding of the running data such as the gear position and the state of the PTO clutch is started. In addition, when the command unit 33 is switched from ON to OFF while the tractor 1 is traveling, the first acquisition unit 24 ends the retention of traveling data when the command unit 33 is turned OFF. The first acquisition unit 24 acquires travel data for a section in which the command unit 33 is turned on.

  After the switching unit 33 is switched from ON to OFF, the data setting unit 25A uses the travel data held by the first acquisition unit 24 (the travel data acquired by the first acquisition unit 24) as control data, as a first storage unit. 22 and write control data to the first storage unit 22. Note that one piece of control data acquired by the command unit 33 between ON and OFF is managed as one file format.

  As illustrated in FIG. 2B, when the storage area for writing control data in the first storage unit 22 is free (blank BK1), the data setting unit 25A writes the control data in the first storage unit 22 in the blank BK1. On the other hand, as shown in FIG. 2C, when the storage area for writing the control data in the first storage unit 22 is not empty (there is no blank BK1), the data setting unit 25A For example, after deleting the oldest one control data, the new control data acquired by the first acquisition unit 24 is written.

The data setting unit 25 </ b> A transmits the set control data to the second control device 30 after setting the travel data as the control data. The second control device 30 writes the control data transmitted from the data setting unit 25A in the second storage unit 32.
Thus, since the control data acquired by the first acquisition unit 24 of the first control device 20 is written in the second control device 30, the control data is stored in the first control device 20 and the second control device 30. It is possible to improve the reliability of the control data.

  FIG. 4 shows how the control data is set when the tractor 1 is traveling. As shown in FIG. 4, when the tractor 1 makes a turn in the field F1, after the operator turns the command unit 33 from OFF to ON at the position P1, the lifting operation member 40 is operated to the up side and the down side is operated. When a steering operation or the like is performed, the first acquisition unit 24 can acquire travel data during turning such as ascent of the work device 2, lowering of the work device 2, steering angle, and engine speed. When the operator turns the command unit 33 from ON to OFF at the position P2 when the tractor 1 finishes turning, the acquisition of travel data during turning is finished. The running data at the time of turning is stored in the first storage unit 22 of the first control device 20 and also stored in the second storage unit 32 of the second control device 30 as control data at the time of turning, as in the method described above. Is done. As described above, by operating the first acquisition unit 24, the data setting unit 25A, the lifting operation member 40, and the like, it is possible to acquire the control data at the time of turning operated by the operator.

The display device 31 can display information (data information) related to the second control data. The data information is identification information (name, file name) for identifying the second control data, a numerical value (engine speed) indicating the second control data, and the like. As shown in FIG. 5, when the operator operates the display device 31, a data display screen M <b> 1 is displayed on the display device 31. A list of identification information of the second control data stored in the second storage unit 32 is displayed on the data display screen M1. When predetermined identification information is selected from the identification information displayed on the data display screen M1, the name, file name, and the like, which are the selected identification information, can be arbitrarily changed. Note that when the predetermined identification information is selected from the identification information displayed on the data display screen M1, the second control data corresponding to the selected identification information can be deleted.

  As shown in FIG. 3, when displaying the data information, the display device 31 first requests the first control device 20 to transmit the first control data stored in the first storage unit 22 ( S1). The first control device 20 transmits the first control data stored in the first storage unit 22 to the display device 31 (S2). The display device 31 performs collation between the first control data transmitted from the first control device 20 and the second control data stored in the second storage unit 22 (S3). As a result of the comparison between the first control data and the second control data, only the name (identification information) corresponding to the second control data in which the first control data and the second control data match is displayed on the data display screen M1. (S4). That is, the display device 31 relates to second control data that matches the plurality of first control data stored in the first storage unit 22 among the plurality of second control data stored in the second storage unit 32. Display data information. As shown in FIG. 2A, the first storage unit 22 stores three pieces of first control data (file format data) A1 to A4, while the second storage unit 32 stores seven second pieces of data. When the control data (file format data) A1 to A7 is stored, the display device 31 displays the names (identification information) of the second control data A1 to A4 that match the first control data A1 to A4.

The data display screen M1 displays a selection unit 34 corresponding to the name (identification information) displayed on the data display screen M1. The selection unit 34 is a part for setting whether or not to select a name (identification information) displayed on the data display screen M1. When the selection unit 34 corresponding to a predetermined name is selected, the name is selected. become.
The first control device 20 employs the first control data corresponding to the second control data of the identification information selected by the selection unit 34 as data for controlling. That is, when the second control data set on the data display screen M1 matches the first control data, the first control device 20 travels the tractor 1 using the first control data.

  Specifically, as shown in FIG. 1, an operation tool 37 is connected to the first control device 20. The operation tool 37 is provided in the vicinity of the driver's seat and can be operated by the operator. The operation tool 37 is a switch that can be switched ON / OFF. When the switch 37 is turned on, a control command based on the first control data is output. When the operation tool 37 is turned on when the operator approaches a headland or the like, the first control device 20 controls the device mounted on the tractor 1 based on the first control data when the operation tool 37 is turned on. Etc., the tractor 1 is turned in the same manner as when the first control data is set. When the operation tool 37 is turned off, the first control device 20 does not perform control based on the first control data.

As shown in FIG. 5, the identification information of the second control data A1 to A4 is displayed on the data display screen M1, and when the identification information of the second control data A3 is selected by the selection unit 34, the first information is displayed. The control device 20 executes control of the tractor 1 using the first control data A3 corresponding to the second control data A3.
As described above, the display device 31 includes the first control stored in the first storage unit 22 of the first control device 20 among the second control data stored in the second storage unit 32 of the second control device 30. Only the identification information related to the second control data that matches the data is displayed. Further, in the display device 31, only the identification information of the second control data that matches the first control data can be selected by the selection unit 34. In other words, the first control device 20 performs the first storage when the first control data stored in the first storage unit 22 and the second control data stored in the second storage unit 32 match. Control can be performed based on the first control data stored in the unit 22. That is, the tractor 1 can be controlled by the highly reliable first control data stored on the first control device 20 side that controls the tractor 1.

Further, since the display device 31 has the second control data corresponding to the first control data, the first control data stored in the first storage unit 22 can be displayed based on the second control data. .
As shown in FIG. 1, the second control device 30 may include a frequency calculation unit 35. The frequency calculation unit 35 includes an electric / electronic component provided in the second control device 30, a program incorporated in the second control device 30, and the like.

The frequency calculation unit 35 calculates the use frequency of the first control data corresponding to the second control data stored in the second storage unit 32.
As illustrated in FIG. 6, it is assumed that the first storage unit 22 stores first control data A1 to A4, and the second storage unit 32 stores second control data A1 to A4. In such a case, the frequency calculating unit 35 increases the use frequency (number of times of use) of the first control data A1 every time the first control data A1 is used, and the second control data A1 corresponds to the first control data A1. The number of determinations of the control data A1 is increased. Similarly, the frequency calculation unit 35 increases the frequency of use (number of times of use) of each of the first control data A2, A3, A4 each time the first control data A2, A3, A4 is used, and The number of times of determination of the second control data A2, A3, A4, A5 corresponding to the first control data A2, A3, A4 is increased.

  The display device 31 changes the order in which information (identification information) related to the second control data is displayed based on the usage frequency among the second control data stored in the second storage unit 32. For example, as shown in FIG. 6, when the number of times of determination of the second control data is A2> A1> A3> A4, the display device 31 displays the second control data A2, the second control data A1, the second control data on the data display screen M1. Identification information is displayed in the order of 2 control data A3 and 2nd control data A4. That is, the display device 31 changes the display order of the second control data based on the usage frequency of the first control data. In the above-described embodiment, the display device 31 sorts the information (identification information) of the second control data from the larger one to the smaller one based on the usage frequency of the first control data. Alternatively, the second control data information may be displayed by other methods.

According to this, the display apparatus 31 can display the 1st control data used comparatively well in order using the 2nd control data.
FIG. 7 shows a modification of the first control device 20. As shown in FIG. 7, the first control device 20 includes a first acquisition unit 24, a second acquisition unit 26, and a data setting unit 25B. The second acquisition unit 26 and the data setting unit 25B are configured by electric / electronic components provided in the first control device 20, programs installed in the first control device 20 and the like. The 1st acquisition part 24 is the same as that of embodiment mentioned above.

  The second acquisition unit 26 acquires device information related to the work device 2. The device information is information that can identify the work device 2, such as the model and model of the work device 2. For example, when the work device 2 is mounted on the connecting unit 8, the second acquisition unit 26 acquires device information transmitted from the work device 2. Alternatively, the second acquisition unit 26 acquires device information input by the operator to the display device 31 from the display device 31.

  The data setting unit 25B sets the travel data acquired by the first acquisition unit 24 and the device information acquired by the second acquisition unit 26 as first control data. Further, the data setting unit 25B writes the set first control data in the first storage unit 22. The data setting unit 25 sets the travel data held by the first acquisition unit 24 by the ON / OFF switching of the command unit 33 as the first control data, and then the second acquisition unit 26 sets the first control data after the setting. The acquired model information is stored in the first storage unit 22.

If the second acquisition unit 26 does not acquire the model information from the display device 31, the data setting unit 25B transmits the model information together with the first control data to the second control device 30 (display device 31). . The second control device 30 stores the first control data and model information transmitted from the data setting unit 25 </ b> B in the second storage unit 32.
On the other hand, when the second acquisition unit 26 acquires the model information from the display device 31, the data setting unit 25B transmits the first control data to the second control device 30 (display device 31). The second control device 30 stores the first control data transmitted from the data setting unit 25 </ b> B and the model information input to the display device 31 in the second storage unit 32 in association with each other. The identification information and model information in the second control information stored in the second storage unit 32 are displayed on the data display screen M1.

Thereby, the operator can grasp | ascertain which work apparatus 2 the 1st control data (2nd control data) respond | corresponds, and the selection at the time of using 1st control data (2nd control data) is carried out. It can be done easily.
FIG. 8 shows a modification of the second control device 30. The second control device 30 has a data transfer unit 36. The data transfer unit 36 includes an electric / electronic component provided in the second control device 30, a program incorporated in the second control device 30 and the like. When the predetermined first control data is not stored in the first storage unit 22 among the plurality of first control data, the data transfer unit 36 receives the second control data corresponding to the predetermined first control data as the first control data. Transfer to the control device 20.

As shown in FIG. 9, for example, when the operator operates the display device 31 or the like, the display device 31 is stored in the second storage unit 32 in a data confirmation screen M2 different from the data display screen M1. The identification information of all the second control data is displayed as a list. On the data confirmation screen M2, identification information (name) of the second control data can be selected.
When the identification information (name) of the predetermined second control data is selected, the display device 31 requests the first control device 20 to transmit the first control data stored in the first storage unit 22. . The first control device 20 transmits the first control data stored in the first storage unit 22 to the display device 31. The data transfer unit 36 includes the first control corresponding to the second control data (selection control data) of the identification information selected on the data confirmation screen M2 among all the first control data transmitted from the first control device 20. Determine whether the information is included. That is, the data transfer unit 36 determines whether at least one of the first control data transmitted from the first control device 20 matches the selection control data and the first control data. If the first control data that matches the selection control data does not exist in the first control data, the data transfer unit 36 transfers the selection control data to the first control device 20. The first control device 20 stores the second control data transferred by the data transfer unit 36 in the first storage unit 22 as the first control data.

According to this, the second control data stored in the second storage unit 32 of the second control device 30 can be easily transferred to the first storage unit 22 of the first control device 20 by the data transfer unit 36.
FIG. 10 shows a modification of the second control device 30. The second control device 30 includes a third acquisition unit 45, a data transmission unit 46, and a parameter check unit 47A. The third acquisition unit 45 is a device for connecting an external device 48 such as a USB memory or an SD card electronic recording medium. When the external device 48 is connected, the third acquisition unit 45 acquires data stored in the external device 48. For example, when first control data such as engine speed and sequence is set by a personal computer (PC) or the like, and the set first control data is stored in the external device 48, the third acquisition unit 45 stores the external device 48. Via, the first control data can be acquired. When the external device 48 is a communication device, the third acquisition unit 45 is also a communication device capable of communicating with the external device 48, and can acquire the first control data by wireless communication or the like.

The data transmission unit 46 and the parameter check unit 47A are configured by electric / electronic components provided in the second control device 30, programs installed in the second control device 30 and the like. The data transmission unit 46 executes a process of transmitting the acquired first control data to the first control device 20 after the third acquisition unit 45 acquires the first control data.
The parameter check unit 47A checks the parameter of the first control data when the data transmission unit 46 transmits the first control data. Control parameters (items) necessary for control are stored in the second storage unit 32 of the second control device 30 for each control pattern. For example, as shown in FIG. 11, in the case of the control pattern A, the second control unit 32 needs to set the crank position, cam position, engine speed, and accelerator (crank position, cam position, engine speed, and It is stored that an accelerator setting parameter is necessary). Further, in the case of the control pattern B, the second control unit 32 stores that the engine speed, the gear position, and a control signal (electromagnetic control signal) to be output to the electromagnetic valve are necessary. Is stored, it is necessary to operate the elevating / lowering operation member 40 and to perform operations such as steering. In addition, the control pattern shown in FIG. 11 is an example, and is not limited. In the first control data, necessary parameters can be set by operating the display device 31 or operating a PC or the like.

  For example, when the data transmission unit 46 transmits the first control data corresponding to the control pattern A to the first control device 20, the parameter check unit 47A refers to the control parameter included in the first control data, and first It is checked whether or not the control data corresponding to the control pattern A is insufficient in the control data. The parameter check unit 47A does not permit the transmission of the first control data by the data transmission unit 46 when the control parameter is insufficient, and the first control by the data transmission unit 46 when the control parameter is not insufficient. Allow data transmission. The data transmission unit 46 transmits the first control data to the first control device 20 when transmission of the first control data is permitted by the parameter check unit 47A. Note that when transmitting the first control data to the first control device 20, an operator or the like uses the display device 31 to determine which control pattern the first control data to be transmitted corresponds to. Setting is possible.

As described above, when the second control device 30 transmits the first control data acquired from the outside to the first control device 20, it is determined whether or not the parameters necessary for control are insufficient in the first control data. Therefore, the reliability in the control of the first control data can be improved.
FIG. 12 shows a modification of the second control device 30. The second control device 30 checks the parameters of the first control data before storing the first control data as the second control data in the second storage unit 32. Specifically, the second control device 30 includes a parameter check unit 47B. The parameter check unit 47B includes an electric / electronic component provided in the second control device 30, a program incorporated in the second control device 30 and the like.

  The parameter check unit 47B sets the parameter of the first control data when transmitting the first control data from the first control device 20 to the second control device 30 after setting the first control data in the first control device 20. To check. First, before the first control data is set by the data setting unit 25A, that is, before the travel data is acquired by the first acquisition unit 24, for example, the display device 31 displays a list of travel patterns (control patterns). The operator selects a predetermined control pattern from the displayed control patterns. After the control pattern is set, when the command unit 33 is turned on, the first acquisition unit 24 acquires travel data. The data setting unit 25A sets the travel data acquired by the first acquisition unit 24 as first control data and writes the set first control data to the first storage unit 22. The data setting unit 25 </ b> A transmits the first control data to the second control device 30. Here, the parameter check unit 47B refers to the control parameter of the first control data transmitted from the data setting unit 25A (first control device 20). Then, the parameter check unit 47B checks whether or not the control parameters indicated by the control pattern selected by the display device 31 are present in the first control data. When the control parameter is insufficient, the parameter check unit 47B does not store the first control data transmitted from the first control device 20 as the second control data in the second storage unit 32, and the control parameter is insufficient. If not, the first control data is stored in the second storage unit 32 as the second control data.

  Note that the lack of control parameters may be displayed on the display device 31 to notify the operator. In the above-described embodiment, the list of control parameters is displayed on the display device 31 before the travel data is acquired. Instead, after the travel data is acquired, the data setting unit 25A performs the first control data. Is set, the control device list may be displayed on the display device 31, and the operator may select a predetermined control pattern from the displayed control patterns.

As described above, when acquiring the first control data from the first control device 20, the second control device 30 checks whether or not the parameters necessary for the control are insufficient in the first control data. Therefore, the reliability in the control of the first control data can be improved. Note that both the parameter check unit 47A and the parameter check unit 47B may be provided in the second control device 30.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

1 Work implement (tractor)
3 Vehicle (body)
DESCRIPTION OF SYMBOLS 4 Motor | power_engine 5 Transmission 7 Traveling apparatus 8 Connection part 10 Driver's seat 11 Control apparatus 12 Cabin 20 1st control apparatus 21a Sensor 21b Sensor 21c Sensor 21d Sensor 22 1st memory | storage part 24 1st acquisition part 25A Data setting part 25B Data setting part 26 Second acquisition unit 26
DESCRIPTION OF SYMBOLS 30 2nd control apparatus 31 Display apparatus 32 2nd memory | storage part 33 Command part 34 Selection part 35 Frequency calculation part 36 Data transfer part 40 Elevating operation member 41 Hydraulic control valve 42 Hydraulic cylinder 45 3rd acquisition part 46 Data transmission part 47A Parameter check Section 47B Parameter check section 48 External equipment

Claims (12)

A first control device having a first storage unit for storing first control data;
A second control device having a second storage unit for storing second control data;
A working machine equipped with
When the first control data stored in the first storage unit matches the second control data stored in the second storage unit, the first control device stores the first control data in the first storage unit. A work machine that performs control based on stored first control data. The first control device includes:
A first acquisition unit for acquiring travel data during travel;
A data setting unit that sets the travel data acquired by the first acquisition unit to the first control data and writes the set first control data to the first storage unit;
The working machine according to claim 1, comprising:   If the first control data is already stored in the first storage unit before the first control data is written in the first storage unit, the data setting unit stores the first control data already stored. The working machine according to claim 2, wherein the work machine is erased.   After the setting of the first control data, the data setting unit transmits the set first control data to the second control device, and the second control device uses the received first control data as the second control data. The work machine according to claim 2 or 3, wherein the work machine is stored in the second storage unit. A command unit that commands turning,
The work machine according to any one of claims 2 to 4, wherein the first acquisition unit acquires travel data commanded by the command unit. The first storage unit can store the plurality of first control data,
The second storage unit can store the plurality of second control data,
When the predetermined first control data is not stored in the first storage unit among the plurality of first control data, the second control device corresponds to the second control data corresponding to the predetermined first control data. A data transfer unit for transferring the data to the first control device,
The work machine according to claim 1, wherein the first control device stores the second control data transferred by the data transfer unit in the first storage unit as the first control data. The second control device is provided in a display device,
The work machine according to claim 1, wherein the display device displays second control data stored in the second storage unit. The first storage unit can store the plurality of first control data,
The second storage unit can store the plurality of second control data,
The display device displays second control data that matches the plurality of first control data stored in the first storage unit among the plurality of second control data stored in the second storage unit. The work machine according to any one of claims 1 to 7. The second storage unit can store the plurality of second control data,
The second control device includes a frequency calculation unit that is provided in the display device and calculates the use frequency of the first control data corresponding to the second control data.
The said display apparatus changes the order which displays the information regarding the said 2nd control data based on the said usage frequency among the 2nd control data memorize | stored in the said 2nd memory | storage part. The working machine described. A connecting portion for connecting the working devices;
A first acquisition unit for acquiring travel data during travel;
A second acquisition unit for acquiring device information related to the work device connected to the connection unit;
A data setting unit that sets the travel data acquired by the first acquisition unit and the device information acquired by the second acquisition unit in the first control data and writes the set first control data in the first storage unit; ,
The working machine according to any one of claims 1 to 9. The second control device includes:
A third acquisition unit for acquiring the first control data from outside;
A data transmission unit for transmitting the first control data acquired by the third acquisition unit to the first control device;
A parameter check unit that checks a parameter of the first control data when transmitting the first control data by the data transmission unit;
The working machine according to claim 1, comprising:   After the setting of the first control data, the data setting unit transmits the set first control data to the second control device, and the second control device uses the received first control data as the second control data. The work machine according to any one of claims 1 to 11, wherein a parameter of the received first control data is checked before storing in the second storage unit.

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