JP2010174507A - Control device for working machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a control device for a working machine, which enables the easy writing of an updated program and/or updated data. <P>SOLUTION: A writing function 45 is equipped with a means for determining whether or not to perform writing of the updated program and/or the updated data, by collating an authentication code, input into an input/output portion 33, with a specific code. The writing function 45 is equipped with a means for writing the updated program and/or the updated data by permitting the reception of the updated program and/or the updated data into the input/output portion 33, when the means determines that the writing of the updated program and/or the updated data is performed. The writing function 45 is equipped with a means for outputting the updated program and/or the updated data from the input/output portion 33 by rejecting the input of the updated program and/or the updated data into a storage portion from the input/output portion 33, when the means determines that the writing of the updated program and/or the updated data is not performed. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a work machine control device provided in a backhoe or the like.

Conventionally, there are those disclosed in Patent Document 1 and Patent Document 2 as control devices for controlling a work machine such as a backhoe.
In Patent Document 1, a virtual control amount conversion map showing a relationship between an operation amount of an operation member and a virtual control amount virtually determined separately from an operation signal corresponding to the operation amount, and a virtual control amount A control device is disclosed that includes a control amount upper limit conversion map in which the upper limit value is divided into multiple levels and an actual control conversion map that converts a virtual control amount into an operation signal.
In Patent Literature 2, a display mode configuration unit that constructs a display screen for each region having different display items depending on a region where the work machine is located, and enables the selection and display of these display screens for each region; Current position determination means for determining the area where the work implement is located based on the radio wave output from the GPS satellite, and a display mode configuration means for displaying the display screen according to the area according to the area of the work equipment determined by the current position determination means There is disclosed a display control device having display control means for performing display control on a display device of a work machine on a display screen selected and adopted.

JP 2008-231696 A JP 2007-113229 A

Patent Literature 1 controls an actuator by outputting an operation signal corresponding to an operation amount of an operation member based on a virtual control amount conversion map, a control amount upper limit conversion map, and an actual control conversion map. In such a control device, when updating various conversion maps, that is, a control program and control data used for control, the control device is removed from the work machine, and the control device and the control data are written to the control device. The actual situation is that the program and data are updated by connecting to the loading device.
Patent Document 2 determines a region where a work machine is located based on radio waves output from GPS satellites, and controls languages such as characters on a display screen according to the region of the work machine. Even in such a display control device, when adding a language, the display control device is removed from the work machine, and the display control device is connected to the writing device to update the program and data. Is the actual situation.

In the control device shown in Patent Document 1 or Patent Document 2, since the control device that updates data is removed from the work machine every time the program or data is updated, the control device individually stores the program or data. It was a specification for updating.
Therefore, in a working machine in which a plurality of control devices can communicate with each other by CAN communication, it is actually difficult to update a program or data without removing the control device.
In view of the above problems, the present invention provides a work machine control apparatus that can be connected to a vehicle communication network, and that can easily write an update program and / or update data. It is for the purpose.

  The technical means of the present invention for solving this technical problem includes a control unit for controlling the operation of the work implement, and a storage unit for storing a program and / or data and a specific code for specifying the program and / or data. And an input / output unit capable of inputting / outputting both an update program and / or update data and an authentication code for updating the program and / or data and connectable to a vehicle communication network, and the control The unit includes a write function for writing the update program and / or update data, and the write function performs verification between the authentication code input to the input / output unit and the specific code, and the update program and And / or means for determining whether to write update data and the update program and / or update data is determined to be written Means for permitting acceptance of the update program and / or update data to the input / output unit and writing the update program and / or update data, and determining not to write the update program and / or update data In such a case, there is provided means for rejecting input of the update program and / or update data from the input / output unit into the storage unit and outputting the update program and / or update data from the input / output unit.

  Another technical means of the present invention includes a control unit for controlling the operation of the work machine, a storage unit for storing a program and / or data and a specific code for specifying the program, and / or the program and / or An update program for updating data and / or an input / output unit capable of inputting / outputting both the update data and the authentication code and connectable to a vehicle communication network, the control unit comprising the update program and And / or a write function for writing update data, wherein the write function collates the authentication code input to the input / output unit and the specific code of the storage unit to update program and / or update data Write standby mode for determining whether to perform writing, and the update program and / or update data input to the input / output unit A write mode for writing to the storage unit, and when the write standby mode determines that the update program and / or update data is to be written by collating the authentication code with a specific code, the write mode operation is performed. When it is determined that the update program and / or update data is not written by collating the authentication code with the specific code, the update program and / or update data is output from the input / output unit and the authentication code is It is in the point which is comprised so that it may output from the said input / output part.

In the writing mode, the authentication code input to the input / output unit is compared with the specific code, and when the verification is established, the update program and / or update data from the input / output unit is accepted and written to the storage unit. It is preferable that it is comprised.
The input / output unit receives both the first communication port for connecting to the vehicle communication network in the work implement, and the update program and / or update data and authentication code output from an external writing device. A second communication port, and the write standby mode is input to the second communication port when it is determined that the update program and / or update data is not written by collating the authentication code with the specific code The updated update program and / or update data is output from the first communication port and the authentication code is output from the first communication port, and the writing mode is verified with the authentication code and the specific code. Sometimes the update program and / or update data input to the second communication port is accepted and written to the storage unit Preferably it is configured to perform.

  According to the present invention, it is possible to easily write an update program and / or update data in a work machine control device connected to a vehicle communication network.

It is a whole block diagram at the time of writing a program in the control apparatus for work machines in a work machine. It is a flowchart which shows operation | movement of the write-in function in a main control apparatus. It is a flowchart which shows operation | movement of the write function in a sub control apparatus. It is the modification of the whole block diagram at the time of writing a program in the control apparatus for work machines in a work machine. It is a flowchart which shows operation | movement in the case of updating the control program of the main control apparatus in a modification. It is a flowchart which shows operation | movement in the case of updating the control program of the sub control apparatus in a modification. It is a detailed flowchart of the operation | movement of a program and / or data update of the working machine control apparatus in a writing mode. The whole side view of a working machine is shown.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 8 shows a working machine equipped with the working machine control device of the present invention. The working machine control device of the present invention is not limited to the working machine of this embodiment.
As shown in FIG. 8, the work machine (backhoe) 1 includes a lower traveling device 2 and an upper swing body 3.
The traveling device 2 includes a pair of left and right traveling bodies 4 each having a rubber cover, and a crawler traveling device in which both traveling bodies 4 are driven by a traveling motor M is employed. Further, a dozer 5 is provided at the front portion of the traveling device 2.

The swivel body 3 includes a swivel base 12 supported on the traveling device 2 via a swivel bearing 11 so as to be able to turn left and right around a swivel axis in the vertical direction, and a working device 13 ( Drilling device). On the swivel base 12, an engine, a radiator, a driver's seat 9, a fuel tank, a hydraulic oil tank, and the like are provided. A cabin 14 surrounding the driver's seat 9 is provided on the swivel base 12.
The working device 13 includes a swing bracket 17 supported on a support bracket 16 provided at the front portion of the swivel base 12 so as to be offset slightly to the right from the central portion in the left-right direction, and swingable to the left and right around the vertical axis. The boom 18 is pivotally attached to the swing bracket 17 so that the base side is pivotable about a left-right axis, and is supported so as to be swingable up and down, and on the distal end side of the boom 18 about the left-right axis. The arm 19 is pivotally mounted and supported so as to be able to swing back and forth, and a bucket 20 is provided on the distal end side of the arm 19 so as to be capable of squeezing and dumping.

The swing bracket 17 is swung by expansion and contraction of a swing cylinder provided in the swivel base 12, and the boom 18 is swung by expansion and contraction of a boom cylinder 22 interposed between the boom 18 and the swing bracket 17. The arm 19 is swung by the expansion and contraction of the arm cylinder 23 interposed between the arm 19 and the boom 18, and the bucket 20 is a bucket cylinder 21 interposed between the bucket 20 and the arm 19. Squeezing and dumping is performed by expanding and contracting
FIG. 1 shows an overall configuration diagram when a program is written in a work implement control device provided in the work implement.

The work machine 1 is provided with a plurality of work machine control devices (controllers) 25. The plurality of work machine control devices 25 can transmit and receive (input / output) information (data) through the vehicle communication network 26. Here, the vehicle communication network 26 is, for example, a Controller Area Network (CAN communication).
As shown in FIG. 1, the work machine control device 25 is an electronic device for operating the work machine 1. For example, in this embodiment, three work machine control devices 25 are provided in the work machine 1.

The first work machine control device 25A (sometimes referred to as a main control device) performs auto idle control (AI control) and flow rate control based on various input control signals and the like.
The main control device 25A includes an operation amount of an operation member (for example, an operation lever 15 or an operation switch) for operating various actuators such as a swing cylinder, a boom cylinder 22, an arm cylinder 23, and a bucket cylinder 21, and a governor angle (from a governor sensor). Various control signals such as the governor position), the operation amount (angle) of the accelerator lever, the ON / OFF signal of the idle switch (AI-SW), and the engine speed from the engine rotation sensor are input.

In the AI control, when an operation member for operating the arm 19 (arm cylinder 23), the boom 18 (boom cylinder 22), or the like is operated, the engine speed is increased or decreased in accordance with the operation amount of the accelerator lever. When is not operated, the engine speed is fixed to the idling state.
Specifically, in the AI control by the main controller 25A, when an idle switch ON signal is input with the operation lever 15 in the neutral position, an idle signal is output to the auto idle motor regardless of the operation amount of the accelerator lever. Then, the auto idle motor is driven to set the engine speed to the idle speed. In the AI control by the main controller 25A, when the operation lever 15 is swung back and forth or left and right and an idle switch OFF signal is input, an operation signal is output to the auto idle motor based on the accelerator position signal. Drive the motor. When the auto idle motor is driven, the governor lever is actuated and the engine speed becomes the speed corresponding to the accelerator lever.

In the flow rate control, the actuator is operated according to the operation amount of the operation member.
In the flow control by the main control device 25A, for example, when the operation lever 15 is swung to one side (left side) from the neutral position and the left operation amount is input, the solenoid of the electromagnetic proportional valve corresponding to the operated actuator has a predetermined value. Outputs current (actuation signal). Then, the electromagnetic proportional valve opens according to the current value, the pilot pressure of the control valve corresponding to the operated actuator is controlled, and the actuator operates in one direction. Note that when the operation lever 15 is swung from the neutral position to the opposite side to input the operation amount on the right side, the actuator is operated on the side opposite to the swinging side to the left side.

The above-described AI control and flow rate control are performed by the control unit 27 that is provided in the main control device 25A and is configured by a CPU and an MPU. Further, the main control device 25A includes a nonvolatile memory (storage unit 28) such as a flash ROM. As described above, the storage unit 28 stores a program (control program) for performing AI control and flow rate control and data (control data) for performing control. Various controls described above are performed by the control unit 27 operating according to the control program.
The second work machine control device 25B (sub-control device) performs boom height control and arm angle control based on various input control signals and the like. Specifically, various control signals such as an arm angle and a boom angle are input to the sub-control device 25B.

  In the boom height control, an upper limit value of the boom 18 (an upper limit value of the boom angle) is determined in advance by a switch or the like provided in a display control device 25C described later, and the height of the boom 18 is set to the upper limit value. When the angle becomes equal to or greater than the corresponding angle, the raising operation of the boom 18 is stopped regardless of the operation of the operation lever 15. Specifically, in the boom height control by the sub-control device 25B, when the boom 18 is raised by the operation lever 15, the boom angle is input to the sub-control device 25B. When the boom angle input to the sub-control device 25B reaches the upper limit value, the sub-control device 25B applies pilot pressure (pilot oil) to the control valve that supplies hydraulic oil to the boom cylinder 22. The raising operation of the boom 18 is stopped by demagnetizing the supplied solenoid proportional valve or the solenoid of the solenoid valve.

  The arm angle control is performed by setting a limit value (upper limit value or lower limit value) of the arm 19 in advance using a switch or the like provided in the display control device 25C, and operating the lever when the arm angle reaches the limit value. The scraping operation of the arm 19 is stopped regardless of the operation of 15. Specifically, in arm angle control by the sub control device 25B, when the arm 19 is scraped by the operation lever 15, the arm angle is input to the sub control device 25B. When the arm angle input to the sub-control device 25B reaches the limit value, the sub-control device 25B applies pilot pressure (pilot oil) to the control valve that supplies hydraulic oil to the arm cylinder 23. The scraping operation of the arm 23 is stopped by demagnetizing the supplied solenoid proportional valve or the solenoid of the solenoid valve.

The boom height control and the arm angle control as described above are performed by the control unit 29 provided in the sub-control device 25B and configured by a CPU and an MPU. The sub-control device 25B includes a nonvolatile memory (storage unit 30) such as a flash ROM. As described above, the storage unit 30 stores a program (control program) for performing boom height control and arm angle control, and data (control data) for performing control. Various controls described above are performed by the control unit 29 operating according to the control program.
The third work machine control device 25C (display control device) is disposed around the driver's seat 9, receives information (data) related to driving of the work machine 1, and displays the input information. It is like that. For example, information such as an ON / OFF signal of a key SW (ignition switch), the engine speed, the amount of fuel detected by the fuel sensor, and the water temperature detected by the water temperature sensor are input to the display control device 25C. The display control device 25C displays information such as on / off of the ignition switch, engine speed, fuel, water temperature, etc. on the display unit 31 such as a liquid crystal panel. The display of information as described above is performed by the control unit 32 provided in the display control device 25C and configured by a CPU and MPU. The display control device 25C includes a nonvolatile memory (storage unit 36) such as a flash ROM. The storage unit 30 stores a program for displaying the above-described information on the display unit 31 (also referred to as a control program) and data for display (control data). This control program is, for example, a program for controlling the display position, display color, display mode of control data [for example, display language (English, Japanese, German) data] and the like for various types of information. . The various controls described above are performed by the control unit 32 operating according to the control program.

Each work machine control device 25 of the main control device 25A, the sub control device 25B, and the display control device 25C includes an input / output unit 33 for inputting and outputting information. The input / output unit 33 of the main control device 25 </ b> A includes a first communication port 40 and a second communication port 41.
The first communication port 40 is for connecting to the CAN communication 26 in the work machine 1 and outputs data input to the main control device 25A to the sub-control device 25B and the display control device 25C. Or the data output from the sub-control device 25B or the display control device 25C is input to the main control device 25A.

  The second communication port 41 is for communicating with an external network 35 different from the CAN communication 26, and is for connecting to Recommended Standard 232, that is, RS-232C, for example. That is, the second communication port 41 transmits the update program and / or update data sent from the writing device (writer) 34 formed of a personal computer or the like through the RS-232C cable to the CAN communication 26 side (main This is to be taken into the control device 25A). The terminal portion of the second communication port 41 is installed around the driver's seat 9 (for example, around the seat of the driver's seat 9, the front side of the driver's seat 9), and without removing the main control device 25A from the work implement 1. RS-232C cables and the like can be easily connected.

The input / output unit 33B and the input / output unit 33C of the sub control device 25B and the display control device 25C are connected to the CAN communication 26 in the work machine 1 and input / output data between the control devices. .
The work machine control devices 25 such as the main control device 25A, the sub control device 25B, and the display control device 25C as described above must update the built-in (stored) control programs and control data to new programs. It may not be.
When the control program and control data stored in the work machine control device 25 are updated, the writing device 34 can be connected to the second communication port 41 of the main control device 25A. Specifically, one end of the RS-232C cable 42 is connected to the writing device 34, and the other end of the RS-232C cable 42 is connected to the second communication port 41 of the main control device 25A of the work machine 1. . Then, an authentication code corresponding to the work machine control device 25 that writes the update program and / or update data is transmitted from the writing device 34 to the main control device 25A.

  When writing the update program and / or update data to the main control device 25A, the writing device 34 transmits an authentication code corresponding to the main control device 25A. Further, when writing the update program and / or the update data to the sub control device 25B, the writing device 34 transmits an authentication code corresponding to the sub control device 25B. Further, when writing the update program and / or update data to the display control device 25C, the writing device 34 transmits an authentication code corresponding to the display control device 25C. After the authentication code is output from the writing device 34, the update program and / or update data is transmitted to the work machine control device 25.

The storage units 28, 30, and 36 of each work machine control device 25 correspond to the respective work machine control devices 25 so that they can be distinguished from the other work machine control devices 25. The specified code (for example, ID code) is stored.
The control units 27, 29, and 32 of each work machine control device 25 include a write function 45 for writing an update program and / or update data. The writing function 45 is configured by a writing program stored in the control units 27, 29, 32 or the storage units 28, 30, 36.

Hereinafter, the writing function provided in each work machine control device will be described.
FIG. 2 shows the operation of the write function in the main controller 25A.
As shown in FIG. 2, when an authentication code is input from the writing device 34 to the second communication port 41, the writing function 45A of the main control device 25A receives the authentication code and the specific code input to the input / output unit 33A. Are collated (S1). When the verification is established, that is, when the authentication code matches the specific code stored in the storage unit 28 of the main control device 25A (S1, yes), the main control device 25A writes the update program and / or update data. The update program and / or update data input to the second communication port 41 is permitted [accept] (S2). Then, the writing function 45A of the main control device 25A stores the update program and / or update data input to the second communication port 41 in the storage unit 28, and updates the existing program or the existing program (S3). ).

  On the other hand, the writing function 45A of the main control device 25A determines that the verification code does not match the specific code, that is, the authentication code matches the specific code stored in the storage unit 28 of the main control device 25A. If the authentication code corresponds to the sub control device 25B or the display control device 25C (S1, No), it is determined that the update program and / or update data is not written to the main control device 25A. The authentication code transmitted from the insertion device 34 is output to the first communication port 40 (S4). The write function 45A of the main control device 25A refuses to accept the update program and / or update data transmitted from the writing device 34 from the second communication port 41 into the storage unit 28 via the control unit 27. [Do not store] (S5). Then, the writing function 45A of the main control device 25A outputs the update program and / or update data from the first communication port 40 (S6).

  When the update function and / or update data is output from the first communication port 40 or the authentication code is output from the first communication port 40 by the writing function 45A of the main control device 25A, the control unit 27 2 The update program and / or update data and authentication code input to the communication port 41 are converted to correspond to the communication protocol of the CAN communication 26. Specifically, the control unit 27 uses the update program and / or update data and authentication code in the update program and / or update data and authentication code sent from the writing device 34 via the cable of RS-232C. Is replaced with a signal to be sent to the CAN communication 26. In other words, the control unit 27 converts a signal corresponding to the RS-232C standard into a signal corresponding to the CAN communication 26 standard.

Thereby, the update program and / or update data transmitted from the writing device 34 to the main control device 25A can be transferred to the sub-control device 25B and the display control device 25C.
FIG. 3 shows the operation of the write function in the sub-control device.
As shown in FIG. 3, when the authentication code is output from the first communication port 40 of the main control device 25A and input to the input / output unit 33B of the sub control device 25B, the writing function 45B of the sub control device 25B The authentication code and the specific code are collated (S10). The verification is established, that is, the authentication code matches the specific code stored in the storage unit 30 of the sub-control device 25B (S10, yes), and the update program and / or update data is written to the sub-control device 25B. When it is determined that the update program and / or the update data input to the input / output unit 33B are input to the storage unit 30 [Accept] (S11). Then, the writing function 45B of the sub-control device 25B stores the update program and / or update data input to the input / output unit 33B in the storage unit 30 and updates the existing program (S12).

  On the other hand, the writing function 45B of the sub control device 25B determines that the verification code and the specific code are not matched, that is, the authentication code matches the specific code stored in the storage unit 30 of the sub control device 25B. If the authentication code corresponds to the display control device 25C (S10, No), it is determined not to write the update program and / or update data to the sub-control device 25B, and the update program and / or Rejecting the update data from the input / output unit 33B to the storage unit 30 via the control unit 29 is rejected [no storage process] (S13). Then, the writing function 45B of the sub-control device 25B outputs an update program and / or update data from the input / output unit 33B (S14).

Note that the writing function 45C in the display control device 25C operates in the same manner as the sub-control device 25B shown in FIG. That is, the control unit 29, the storage unit 30, and the input / output unit 33B of the sub-control device 25B shown in FIG. 3 are replaced with the control unit 32, the storage unit 36, and the input / output unit 33C of the display control device 25C. The operation shown in FIG. 11 is the operation of the writing function 45C in the display control device 25C. Therefore, the description of the writing function 45C in the display control device 25C is omitted.
4 to 6 show modifications of the writing function of each work machine control device.

Hereinafter, changes in the writing function will be described.
As shown in FIG. 4, the writing function 45 of each work machine control device 25 has two modes of a writing standby mode 46 and a writing mode 47 as processing modes.
In the write standby mode 46, before the update program and / or update data is input (received) to the input / output unit 33, the authentication code input to the input / output unit 33 is compared with the specific code to check the update program and / or Alternatively, after determining whether or not to write update data, the writing process is shifted to the write mode 47.

The write mode 47 is also for writing the update program and / or update data input to the input / output unit 33 into the storage units 28, 30, 36 after the write standby mode 46.
In the write standby mode 46, after turning on the key switch and the ignition switch, the checking of the program and data stored in the storage unit 30 is completed, and the update program and / or update data is written by the display control device 25C or the like. When a command is given (for example, a switch), it is automatically entered.

In the write standby mode 46, after the key switch and the ignition switch are turned on, checking of the programs and data stored in the storage units 28, 30, and 36 is completed, and the writing device 34 and the main control device 25A. It is also possible to automatically enter when the connection to is detected by an electrical signal.
The write mode 47 is entered when the process in the write standby mode 46 ends or when the process shifts from the write standby mode 46 to the write mode 47.

FIG. 5 shows operations in the write standby mode and the write mode in the write function of the main controller.
As shown in FIG. 5, the write standby mode 46 </ b> A of the main control device 25 </ b> A specifies the authentication code input to the second communication port 41 when the authentication code is input from the writing device 34 to the second communication port 41. The code is collated (S20). In the write standby mode 46A of the main controller 25A, when the authentication code matches the specific code, it is determined that the update program and / or update data is written (S20, yes), and the mode shifts to the write mode 47 (S21). ).

On the other hand, the write standby mode 46A of the main control device 25A does not write the update program and / or update data if the verification code and the specific code input to the second communication port 41 are not verified. It judges (S20, No) and outputs the update program and / or update data which were input into the 2nd communication port 41 from the 1st communication port 40 (S22). Further, the write standby mode 46A of the main control device 25A outputs an authentication code from the first communication port 40 when the verification is not established (S23).
After shifting to the write mode 47A, the write mode 47A is used to collate the authentication code input to the second communication port 41 with the specific code (S24), and the verification is established (the authentication code and the specific code match). ) (S24, yes), the update program and / or update data from the second communication port 41 is accepted and written into the storage unit 28 (S25).

On the other hand, in the writing mode 47A, when the verification of the authentication code input to the second communication port 41 and the specific code is not established (the authentication code and the specific code do not match) (No in S24), the second communication The update program and / or update data input to the port 41 is output from the first communication port 40 (S26). Further, the write standby mode 46A of the main control device 25A outputs an authentication code from the first communication port 40 if the verification is not established (S27).
When the update program and / or update data is output from the first communication port 40 or the authentication code is output from the first communication port 40 in the write standby mode 46A or the write mode 47A of the main controller 25A, As described above, the control unit 27 converts the update program and / or update data and the authentication code input to the second communication port 41 so as to correspond to the communication protocol of the CAN communication 26.

Further, in the write standby mode 46A and the write mode 47A, command data other than updating the update program and / or update data immediately after the authentication between the authentication code and the specific code is established is the second communication of the main control device 25A. When it is input to the port 41, interrupt processing can be performed. For example, if the command data resets the main control device 25A, the main control device 25A can be reset and the program of the main control device 25A can be restarted.
FIG. 6 shows operations in the write standby mode and the write mode in the write function of the sub-control device.

As shown in FIG. 6, in the write standby mode 46B of the sub-control device 25B, when the authentication code is input from the writing device 34 to the input / output unit 33B, the authentication code and the specific code input to the input / output unit 33B Are collated (S30). When the authentication code matches the specific code, the write standby mode 46B of the sub-control device 25B determines that the update program and / or update data will be written (S30, yes), and shifts to the write mode 47B (S31). ).
On the other hand, the write standby mode 46B of the sub-control device 25B determines that the update program and / or update data is not written if the verification code and the specific code input to the input / output unit 33B are not verified. (S30, No), the update program and / or update data input to the input / output unit 33B is output from the input / output unit 33B (S32). Further, the write standby mode 46B of the sub-control device 25B outputs an authentication code from the input / output unit 33B if the verification is not established (S33).

After shifting to the writing mode 47B, the writing code 47B collates the authentication code input to the input / output unit 33A with the specific code (S34), and the verification is established (the authentication code and the specific code match). In the case of (S34, yes), the update program and / or update data from the input / output unit 33B is accepted and written into the storage unit 30 (S35).
On the other hand, in the writing mode 47B, when the verification between the authentication code input to the input / output unit 33B and the specific code is not established (the authentication code and the specific code do not match) (S34, No), the input / output unit 33B. The update program and / or update data input to is output from the input / output unit 33B (S36). Further, the write standby mode 46B of the sub-control device 25B outputs an authentication code from the input / output unit 33B if the verification is not established (S37).

In the write standby mode 46B and the write mode 47B, immediately after the authentication of the authentication code and the specific code is established, command data other than updating the update program and / or update data is sent to the input / output unit of the sub-control device 25B. When input to 33B, interrupt processing can be performed. For example, if the command data resets the sub control device 25B, the sub control device 25B can be reset and the program of the main control device 25B can be restarted.
The writing function 45C in the display control device 25C operates in the same manner as the sub control device 25B shown in FIG. That is, the control unit 29, the storage unit 30, the input / output unit 33B, the write standby mode 46B, and the write mode 47B of the sub control unit 25B shown in FIG. 6 are changed to the control unit 32, the storage unit 36, and the input / output unit of the display control unit 25C. By replacing the unit 33C with the write standby mode 46C and the write mode 47C, the operation shown in FIG. 6 becomes the operation of the write function 45C in the display control device 25C. Therefore, the description of the writing function 45C in the display control device 25C is omitted.

FIG. 7 illustrates in detail the operation of updating the program and / or data of the work machine control device in the writing mode. The operation shown in FIG. 7 is the same for all of the main control device 25A, the sub control device 25B, and the display control device 25C.
As shown in FIG. 7, in writing mode 47, when writing an update program and / or update data, first, the update program and / or update data is stored in the RAM area of the flash memory (storage units 28, 30, 36). The data is stored in a predetermined physical area (data writing area) (S40).

  Here, in the ROM area of the storage units 28, 30, and 36, checksum data (existing program) and existing data (existing program) and pre-updating data (existing data) are compared with existing programs and existing data. (Check data for checking whether or not the program and existing data are normally written) is set in advance. Specifically, an existing program or existing data is written in a predetermined physical area (application area), and a checksum data written when the existing program or existing data is written in this application area. An area (checksum area) is set.

Note that the checksum area in the application area may be detected by the control units 27, 29, and 32, or the checksum area may be designated from the writing device 34.
When writing the update program and / or update data, first, before writing the update program and / or update data into the application area, the checksum (checksum data) in the application area is erased in advance (S41). .
Further, after erasing the checksum area in the application area, the update program and / or update data is written in an area other than the checksum area in the application area (S42).

  Then, writing of the update program and / or update data proceeds, and data used for the checksum of the update program and / or update data (in order to check whether the update program and update data are normally written). Is transferred to the physical area (application area) and written (S43, Yes), the checksum area of the ROM area is used to checksum the data used for the checksum of the update program and / or update data. (S44). Confirm that writing of the checksum in the update program and / or update data has been completed, the data check of the update program and / or update data using the checksum has been completed, and the update program and / or update data has been written correctly When confirmed by the writing device 34 and / or the work machine control device 25 (writing program or the like) (S45, Yes), the writing of the update program and / or update data is terminated.

If the writing device 34 and / or the work machine control device 25 (such as a writing program) cannot confirm that the update program and / or update data has been written correctly, the writing operation is performed again (for example, as described above). The work is started again from S41).
In the writing function 45 of each work machine control device 25 shown in FIGS. 2 to 3, the authentication code input to the input / output unit 33 is compared with the specific code to write the update program and / or update data. Means for determining whether or not to perform is provided. In addition, the writing function 45 of each work machine control device 25 permits the acceptance of the update program and / or update data to the input / output unit 33 when it is determined to write the update program and / or update data. Means for writing an update program and / or update data is provided. Further, when it is determined that the update program and / or update data is not written, the writing function 45 of each work machine control device 25 receives the update program and / or update data input / output unit 33 from the storage units 28, 30, Means for rejecting the input to 36 and outputting the update program and / or update data from the input / output unit 33.

Therefore, each work machine control device 25 independently determines whether or not an update program and / or update data flowing in CAN communication or external communication is necessary, and if necessary, The update program and / or update data is stored in the storage units 28, 30, and 36, and if necessary, the update program and / or update data is output to the CAN communication and transferred to the other work machine control device 25. Can do.
Therefore, when the update program and / or the update data are updated, the work machine control devices 25 operate in common, and thus even the update program and / or the update data flow in the CAN communication in the work machine 1. If it carries out, an update program and / or update data can be easily written with respect to each control device 25 for work machines. In addition, the communication method (communication standard) outside the work machine 1 and the communication method (communication standard) in the work machine 1 are different or the same. An update program and / or update data can be easily written in the control device 25.

  4 to 7, the write function 45 is divided into a write standby mode 46 and a write mode 47, and the write standby mode 46 is divided into the write standby mode 46 and the write mode 47. If the writing permission is not given, the writing mode 47 for writing the update program and / or update data is not entered. In addition, in the write mode 47, when the verification code and the specific code are not verified, the update program and / or the update data are not written.

  For this reason, a plurality of update programs and / or update data are transmitted from the writing device 34 to the work machine 1 side, and the desired work machine control device 25 that is going to write the update program and / or update data is surely connected. An update program and / or update data can be written to the computer. In other words, a plurality of work machine control devices 25 can be simultaneously changed from the write standby mode 46 to the write mode 47, and the update program and / or the Alternatively, it is possible to determine whether or not update data is written and write the necessary update program and / or update data to the necessary work machine control device 25.

  In the work machine control device 25A, the input / output unit 33A includes a first communication port 40 for connection to the CAN 26 in the work machine 1, and an update program and / or update data output from the external writing device 34. A second communication port 41 that receives both the authentication code and the write standby mode 46 when it is determined not to write the update program and / or update data by collating the authentication code with the specific code. The update program and / or update data input to the second communication port 41 is output from the first communication port 40 and the authentication code is output from the first communication port 40. The write mode 47 is an authentication code. And the update program input to the second communication port 41 and / or It is configured to perform the write in the storage unit 28 receives the new data.

  Such a work machine control device 25A writes the update program and / or update data if they are for itself, otherwise writes the update program and / or update data in the CAN in the work machine 1. Can be used for communication. That is, the work machine control device 25A can distribute information and the like from the external communication (RS-232C) to the work machine control device 25 in the work machine 1, so that the external communication and the internal It operates as a gateway device that connects to other communications. Therefore, the work machine control device 25A can write the update program and / or update data to the work machine control device 25 in the work machine 1 without individually removing them from the work machine 1. Can be easily.

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.
In the above embodiment, the sub-control device 25B that performs AI control and flow rate control, the sub-control device 25B that performs boom height control and arm angle control, and the display control device 25C that displays various types of information on the work implement 1 These control devices may be any control device that controls the work machine 1. For example, the work machine control device 25 may be an engine computer unit (ECU) that controls the engine of the work machine 1. Further, the control devices that perform AI control, flow rate control, boom height control, and arm angle control may be individually independent units (devices). In the above embodiment, the backhoe working machine 1 is shown, but the working machine 1 may be a tractor or the like. The vehicle communication network may be “LIN”, “FlexRay”, or other than CAN.

  In the above embodiment, in order to determine whether the data used for the check for determining whether or not the existing program or existing data is normally written, or whether or not the update program or existing data is normally written. However, the data used for the check is not limited to this, but the data used for the check is “Cyclic Redundancy Check”, that is, even if the data is CRC, “Message Digest Algorithm 5”. That is, it may be MD5 data, and any data can be used as long as it detects a program error.

  In the above embodiment, the second communication port 41 is used for connection to the RS-232C as an example. For example, even if the LAN is connected, the second communication port 41 is a USB (Universal Serial Bus). Or other than that.

DESCRIPTION OF SYMBOLS 1 Work machine 25 Control device 27, 29, 32 Control unit 28, 30, 36 Storage part 33 Input / output part 45 Write function 46 Write standby mode 47 Write mode

Claims (4)

A control unit for controlling the operation of the work machine, a storage unit for storing a program and / or data and a specific code for specifying, an update program for updating the program and / or data, and / or Or an input / output unit capable of inputting / outputting both the update data and the authentication code and connected to the vehicle communication network,
The control unit has a write function for writing the update program and / or update data,
The writing function is
Means for collating the authentication code input to the input / output unit and the specific code to determine whether to write an update program and / or update data;
Means for permitting acceptance of the update program and / or update data to an input / output unit when the update program and / or update data is written, and writing the update program and / or update data;
When it is determined not to write the update program and / or update data, the update program and / or update data is rejected from the input / output unit into the storage unit and the update program and / or update data is input from the input / output unit. And a means for outputting the control device. A control unit for controlling the operation of the work machine, a storage unit for storing a program and / or data and a specific code for specifying, an update program for updating the program and / or data, and / or Or an input / output unit capable of inputting / outputting both the update data and the authentication code and connected to the vehicle communication network,
The control unit has a write function for writing the update program and / or update data,
The writing function is
Write standby mode for determining whether to write the update program and / or update data by collating the authentication code input to the input / output unit and the specific code of the storage unit;
A write mode for writing the update program and / or update data input to the input / output unit to the storage unit,
The write standby mode is
When it is determined to write the update program and / or update data by collating the authentication code and the specific code, the process proceeds to a write mode operation, and the update program and the specific code are collated. When the update data and / or update data is determined not to be written, the update program and / or update data is output from the input / output unit and the authentication code is output from the input / output unit. A control device for a working machine.   In the writing mode, the authentication code input to the input / output unit is compared with the specific code, and when the verification is established, the update program and / or update data from the input / output unit is accepted and written to the storage unit. 3. The work machine control device according to claim 2, wherein the work machine control device is configured as follows. The input / output unit receives both the first communication port for connecting to the vehicle communication network in the work implement, and the update program and / or update data and authentication code output from an external writing device. A second communication port,
In the write standby mode, when it is determined not to write the update program and / or update data by comparing the authentication code with the specific code, the update program and / or update data input to the second communication port is stored. It is configured to output from the first communication port and output the authentication code from the first communication port,
The write mode is configured to accept the update program and / or update data input to the second communication port and write to the storage unit when verification of the authentication code and the specific code is established. The work machine control device according to claim 2.

Images