JP4399856B2 - Control data providing method for internal combustion engine control device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an ECU control data providing method for providing control data to an engine control device (hereinafter referred to as “ECU”) that controls an internal combustion engine (hereinafter referred to as “engine”). .
[0002]
[Prior art]
Conventionally, an engine is equipped with an ECU that comprehensively controls the fuel injection timing, the air-fuel ratio, the fuel supply amount, and the like in accordance with the operating state of the engine. In particular, in recent years, in order to reduce harmful substances contained in exhaust gas from the engine, it is necessary to precisely control the engine by the ECU.
On the other hand, the engine is equipped with components such as a fuel injection device (hereinafter referred to as “injector”). Since these components have different characteristics for each component, it is necessary to change the setting of the ECU in accordance with the characteristics of each component in order to precisely control the engine.
For example, it is possible to input data for each injector to the ECU by attaching a barcode or the like converted into characteristics to the injector and reading the attached barcode.
[0003]
[Problems to be solved by the invention]
When the engine is repaired at a repair shop and, for example, the injector is replaced, it is necessary to replace the injector data recorded in the ECU with new injector data. At this time, new control data for controlling the engine by the ECU is created from the control data for controlling the entire engine and the characteristic data in which the characteristics of a specific part such as an injector to be exchanged are converted into data. The Therefore, when exchanging engine components, it is necessary to create new control data corresponding to the components to be replaced, and to update ECU control data simultaneously with the replacement of the components.
In order to update the control data recorded in the ECU, for example, a reading device that reads the characteristic data represented as a barcode attached to the injector or a writing device that records the read characteristic data in the ECU is required. It becomes.
[0004]
However, these reading devices or writing devices are installed mainly in large-scale repair factories, and in relatively small repair factories where the above-mentioned reading devices and writing devices are not installed, control data of the ECU There is a problem that updating is not easy.
[0005]
SUMMARY OF THE INVENTION An object of the present invention is to provide a method for providing control data of an ECU that is easy and quick to update control data.
Another object of the present invention is to provide a control data providing method for an ECU that requires no special equipment and can be easily updated.
[0006]
[Means for Solving the Problems]
According to the ECU control data providing method of the first aspect of the present invention, the control data and the characteristic data of the component to be exchanged are sent from the user to the service provider. The service provider creates new control data from the control data and characteristic data sent using the service computer and the characteristic data of the new component part to be exchanged. The created new control data is recorded on a recording medium and sent from the service provider to the user. Therefore, the user is updated to new control data by exchanging the component to be replaced with a new component and mounting the recording medium on which the new control data is recorded on the control unit. Therefore, the user can easily update the control data recorded in the recording unit to new control data.
[0007]
According to the control data providing method of the ECU according to claim 2 or 7 of the present invention, either or both of the control data and the characteristic data are encoded and sent in the information code image. The information image code is, for example, a barcode or a two-dimensional code. Using the information code image eliminates the need for a written document that describes the specifications or characteristic data of the component to be replaced, prevents data damage, and allows easy and simple exchange of control data and characteristic data. it can.
[0008]
According to the ECU control data providing method of the present invention, the information code image is optically scanned and input as digital data. Therefore, deterioration of information or input mistakes can be prevented, and control data or characteristic data can be input reliably.
[0009]
According to the control data providing method of the ECU according to claim 5 or 9 of the present invention, the new control data created by the service provider is encoded into the information code image and sent to the user. For example, the user can read the sent information code image and decode the read information code image to obtain new control data. By inputting the decoded new control data to the ECU, the control data can be easily updated.
[0010]
According to the ECU control data providing method of the sixth aspect of the present invention, the user computer owned by the user and the service computer owned by the service agent are connected via a telecommunication line to the service agent from the user. Control data and characteristic data can be easily transmitted. On the other hand, new control data transmitted from the service provider to the user can also be easily transmitted via the telecommunication line. Therefore, data can be exchanged easily and quickly between the user and the service provider.
[0011]
According to the ECU control data providing method of the tenth aspect of the present invention, the ECU of the engine handled by the user and the service computer of the service provider are directly connected via the telecommunication line. Therefore, if the engine is provided with a general-purpose interface that can be connected to a user computer, the user can exchange control data quickly and easily without providing equipment such as a recording medium reader.
[0012]
According to the ECU control data providing method of the eleventh aspect of the present invention, the characteristic data is input as an information code image. By using the information code image, it is not necessary to manually input data by operating the input means such as a keyboard while looking at the specifications of the component to be replaced or the document describing the characteristic data. Incorrect input is prevented.
[0013]
According to the ECU control data providing method of the twelfth aspect of the present invention, when the user computer of the user and the service computer of the service provider are connected, the first software is transmitted from the service computer to the user computer. The software is downloaded to the user computer. Then, the control data is input to the service computer by the processing of the downloaded first software. Therefore, there is no need for equipment for inputting the control data recorded in the recording unit to the service computer, and the control data can be easily transmitted from the user to the service provider.
[0014]
According to the ECU control data providing method of the thirteenth aspect of the present invention, when the user computer of the user and the service computer of the service provider are connected, the second software is transmitted from the service computer to the user computer. The software is downloaded to the user computer. Then, the new control data is downloaded from the service computer to the user computer by the processing of the downloaded second software. The new control data downloaded to the user computer is input to the ECU by the processing of the second software. Therefore, there is no need for equipment for inputting new control data to the ECU, and control data can be updated easily.
[0015]
According to the ECU control data providing method of the fourteenth aspect of the present invention, the service computer encodes the new control data into the information code image data and transmits it to the user computer. This information code image data can be sent to the service computer when the components are replaced again. By using information code image data, for example, manual keyboard operation is not required at the next engine repair, enabling quick and error-free data entry, and falsification is difficult, improving data confidentiality. be able to.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a plurality of examples showing embodiments of the present invention will be described with reference to the drawings.
(First embodiment)
A control data providing system for realizing the control data providing method of the ECU according to the first embodiment of the present invention is shown in FIG.
The control data providing system includes a user 1 and a service provider 2. The user 1 is a handler of the engine 10, for example, a maintenance shop or an engine owner. The service provider 2 is a supplier of the engine 10, for example, an engine manufacturer or an engine component manufacturer.
[0017]
The engine 10 handled by the user 1 is controlled by the ECU 11. The ECU 11 has a recording unit 111, a memory card 112 as a recording medium, and a processing unit 113 as shown in FIG. The recording unit 111 includes a recording device such as a RAM (Random Access Memory) and a ROM (Read Only Memory) (not shown). The memory card 112 is a non-volatile recording medium such as a flash memory. The processing unit 113 has a CPU (Central Processing Unit) (not shown), and executes control of the engine 10 based on an engine control program and control data recorded in the RAM or ROM. The processing unit 113 is provided with a socket unit 113a to which the memory card 112 can be attached and detached. When the memory card 112 is mounted in the socket unit 113a, the processing unit 113 reads various data including control data recorded in the memory card 112 as necessary, or the memory card 112 of these various data. Can be written to. The memory card 112 is detachable from the processing unit 113, and is exchanged between the user 1 and the service provider 2.
[0018]
The engine 10 includes various components such as electrical components such as an injector and a spark plug. In the present embodiment, replacement of an injector will be described as an example. In this embodiment, the engine 10 has four cylinders, and one injector 121, 122, 123, 124 is provided for each cylinder.
The control data recorded in the recording unit 111 and the memory card 112 of the ECU 11 is data for comprehensively controlling the engine 10 according to the characteristics of each component arranged in the engine 10.
[0019]
Two-dimensional codes 121a, 122a, 123a, and 124a as information code images are affixed to the injectors 121 to 124 at locations where the user can easily recognize them. In the two-dimensional codes 121a to 124a, characteristics unique to each injector such as fuel injection characteristics are recorded. That is, the two-dimensional codes 121a to 124a attached to the injectors 121 to 124 have characteristic data of each injector.
[0020]
The provision of control data is performed by the following procedure.
(1) The two-dimensional code affixed to the injector that the user 1 desires to exchange is photographed with a digital still camera (hereinafter, the digital still camera is referred to as “digital camera”) 3. In the case of the present embodiment, the injector 122 of the second cylinder of the engine 10 is replaced. Therefore, the user 1 photographs the two-dimensional code 122 a attached to the injector 122 with the digital camera 3. By photographing the two-dimensional code 122 a with the digital camera 3, the user 1 obtains characteristic data of the injector 122. That is, the two-dimensional code is optically scanned by the digital camera 3.
[0021]
(2) The two-dimensional code 122a of the injector to be replaced, that is, the injector 122 of the second cylinder is pasted on the application form 4 as shown in FIG. The two-dimensional code 122a to be attached is obtained by printing an image photographed by the digital camera 3 in the procedure (1). The user 1 attaches the printed two-dimensional code 122a at a position corresponding to the cylinder of the injector to be replaced in the application form 4 shown in FIG.
[0022]
(3) The application form 4 to which the two-dimensional code 122a is attached in the procedure (2) is sent to the service provider 2. The user 1 sends the application form 4 with the two-dimensional code 122a attached thereto to the service provider 2 from the facsimile 5 via the telecommunication line 7 or by e-mail.
Further, the user 1 sends the memory card 112 attached to the ECU 11 to the service provider 2. The memory card 112 has an injector that is desired to be replaced. 122 Is recorded in a state where is mounted on the engine 10. Injector 122 Replace the injector before replacement. 122 Therefore, when the injector is replaced, the control data for comprehensively controlling the engine 10 needs to be updated. This memory card 112 is , Replaced injector 122 At the same time, it is sent to the service provider 2 by a home delivery company or the like.
[0023]
(4) The service provider 2 creates new control data from the application form 4 and the memory card 112 sent from the user 1. The two-dimensional code 122a attached to the sent application form 4 is read by optical scanning, and is decoded from the read two-dimensional code 122a into characteristic data of the injector 122 exchanged. Further, the service provider 2 reads the control data of the ECU 11 recorded on the sent memory card 112. The read characteristic data of the injector 122 and control data of the ECU 11 are input as digital data to the service computer 20 owned by the service provider 2. The service computer 20 is a computer owned by the service provider 2 and is, for example, a personal computer or a server computer. The service computer 20 is provided with a card reader 21 for reading data recorded on the memory card 112 or writing data to the memory card 112. When the application form 4 is sent by electronic mail, the characteristic data of the injector 122 is directly input from the application form 4 to the service computer 20.
[0024]
The service computer 20 creates new control data based on the inputted characteristic data of the injector 122 before replacement, control data before replacement, and new characteristic data of the injector newly disposed in the engine 10 by replacement. The new control data is update control data for the ECU 11 that is created based on a difference in characteristics before and after replacement of the injector to be replaced.
[0025]
(5) When new control data is created in the procedure (4), the service provider 2 writes and records the new control data in the memory card 112. This memory card 112 may be either a memory card sent from the user or a new memory card. Further, an information code image in which the new control data is encoded is created from the created new control data. The created information code image is printed as an image and attached to the memory card 112.
[0026]
(6) The memory card 112 on which the new control data is recorded and the information code image is attached is sent from the service provider 2 to the user 1 together with the injector newly disposed in the engine 10. The new injector and memory card 112 are sent by the delivery company 6 or the like. A new injector is affixed with a two-dimensional code that records the characteristics of the injector.
[0027]
(7) The user 1 replaces the injector by attaching the sent new injector to the engine 10. Further, by attaching the sent memory card 112 to the socket unit 113 a of the processing unit 113, the processing unit 113 can read new control data recorded on the memory card 112. As a result, the control data is updated to that corresponding to the new injector.
[0028]
As described above, in the first embodiment of the present invention, new control data corresponding to the injector newly disposed in the engine 10 is created by the service provider 2 and sent to the user 1. Therefore, the user 1 can update the control data of the ECU 11 to new control data together with the replacement of the injector.
Further, the user 1 can update the control data simply by mounting the memory card 112 sent from the service provider 2 to the processing unit 113 of the ECU 11. Therefore, the user 1 does not need special equipment for updating the control data.
Further, by sending the application form 4 and the memory card 112 when ordering the injector 122 to be exchanged to the service provider 2, the memory card 112 in which new control data is recorded is obtained together with the delivery of the new injector. be able to. Therefore, the control data can be updated quickly.
[0029]
In the above procedure (1), when a two-dimensional code is described in a manual attached to the injector, the characteristic data of the injector can be obtained by copying the two-dimensional code described. .
Moreover, in said procedure (5) and procedure (6), when the user 1 has the terminal device which can write control data in the recording part 111 of ECU11, new control data is sent from the service provider 2 to the user 1. It is also possible to send the new control data to the recording unit 111 of the ECU 11 as electronic data. Alternatively, the service provider 2 can send the new control data to the user 1 by the facsimile 5 and the user 1 can input the new control data to the recording unit 111 of the ECU 11 from the terminal device.
Further, in the above procedure (7), the user may read the information code image attached to the memory card 112 and input new control data decoded from the read information code image to the ECU 11.
[0030]
(Second embodiment)
FIG. 4 shows a control data providing system for realizing the control data providing method of the ECU according to the second embodiment of the present invention. Components that are substantially the same as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
In the second embodiment, the user 1 owns a personal computer (hereinafter referred to as “personal computer”) 13 as a user computer. That is, the first embodiment is different from the first embodiment in that the user 1 owns the personal computer 13.
Connected to the personal computer 13 is a card reader 14 capable of writing data to the memory card 112 and reading data recorded on the memory card 112. Further, a printer 15 capable of printing an image based on the image data is connected to the personal computer 13. The personal computer 13 owned by the user 1 and the service computer 20 owned by the service provider 2 are connected by a network (electric communication line) 7 such as the Internet.
[0031]
The provision of control data according to the second embodiment will be described. The provision of control data is performed by the following procedure.
(1) The two-dimensional code attached to the injector that the user 1 desires to exchange is photographed with the digital camera 3. In the case of the second embodiment, the injector 122 of the second cylinder of the engine 10 is replaced as in the first embodiment. Therefore, the user 1 photographs the two-dimensional code 122 a attached to the injector 122 with the digital camera 3. By photographing the two-dimensional code 122 a with the digital camera 3, the user 1 obtains characteristic data of the injector 122. That is, the two-dimensional code is optically scanned by the digital camera 3.
[0032]
(2) The two-dimensional code 122a photographed by the digital camera 3 is stored as an image data file in a hard disk drive (not shown) of the personal computer 13 (hereinafter, the hard disk drive is referred to as “HDD”). The user 1 photographs the two-dimensional code 122 a of the injector 122 with the digital camera 3, removes the memory card 112 from the ECU 11, and connects it to the card reader 14. Then, the control data recorded on the memory card 112 is read from the memory card 112 and stored in the HDD as a control data file before update.
[0033]
(3) When the two-dimensional code 122a of the injector 122 to be exchanged, that is, the characteristic data of the injector and the control data before update are obtained in the procedure (2), the user 1 sends the above-described image data file and the pre-update Is transmitted from the personal computer 13 to the service computer 20 of the service provider 2 via the network 7. At this time, the characteristic data of the injector 122 includes position information of the injector 122, that is, information on which cylinder of the engine 10 the injector 122 is disposed.
[0034]
(4) The service provider 2 creates new control data from the image data file attached to the e-mail transmitted from the user 1 and the control data file before update. The service provider 2 reads the two-dimensional code 122a from the image data file attached to the transmitted e-mail, decodes the read two-dimensional code 122a, and obtains characteristic data of the injector 122 to be exchanged. Further, the service provider 2 reads the control data before update attached to the transmitted e-mail. The read characteristic data of the injector 122 and the control data before update are recorded in the service computer 20 owned by the service provider 2.
[0035]
The service computer 20 creates new control data based on the characteristic data of the injector 122, the control data before update, and the new characteristic data of the injector newly disposed in the engine 10 by replacement. The new control data is update control data for the ECU 11 that is created based on the difference in characteristics before and after the replacement of the injector.
[0036]
(5) The service provider 2 creates new control data and creates an information code image obtained by encoding the new control data into image data. The information code image is a code image such as a two-dimensional code. An image data file is created from the created information code image.
[0037]
(6) The service provider 2 attaches the new control data and the above-described image data file to the e-mail and transmits them to the user 1.
[0038]
(7) The user 1 writes new control data attached to the e-mail received from the service provider 2 in the memory card 112. Further, the user 1 prints the information code image 112 a using the printer 15 from the image data file attached to the e-mail received from the service provider 2. The printed information code image 112a is affixed to the memory card 112 in which new control data is recorded.
[0039]
(8) The user 1 attaches the memory card 112 on which the new control data is recorded and the information code image 112a is pasted to the socket 113a of the processing unit 113. By attaching the memory card 112 to the socket unit 113a, the processing unit 113 reads new control data recorded on the memory card 112. The new injector to be exchanged is sent from the service provider 2 to the user 1 by a home delivery company, for example, with a two-dimensional code encoded with characteristic data. The user 1 replaces the injector by attaching the sent injector to the engine 10. Through the above operation, the injector is replaced, and the control data is updated to correspond to the new injector.
[0040]
In the second embodiment, the service provider 2 attaches the control data before update and the characteristic data of the injector 122 to the e-mail by the user 1 reading the control data before update recorded in the memory card 112. What Can be sent. Therefore, it is not necessary to send the memory card 112 from the user 1 to the service provider 2, and the time required for sending the memory card 112 can be shortened.
[0041]
In the second embodiment described above, the control data is not transmitted from the service provider 2 to the user 1 using e-mail in the above procedure (6), but is transmitted using a facsimile. 1 may be configured to write control data transmitted to the memory card 112 or the like.
[0042]
(Third embodiment)
FIG. 5 shows a control data providing system for realizing the control data providing method of the ECU according to the third embodiment of the present invention. Components that are substantially the same as those in the first and second embodiments are denoted by the same reference numerals, and the description thereof is omitted.
In the third embodiment, the ECU 11 is not equipped with a memory card. That is, it differs from the first embodiment in that the control data recorded in the ECU 11 cannot be exchanged using a memory card as a medium.
The ECU 11 of the engine 10 is provided with an interface 11a for connecting to a personal computer 13 owned by the user 1. The interface 11a is a general-purpose interface such as RS232C. The interface 11a of the ECU 11 and the personal computer 13 are connected by a connection cable 16 so that data can be exchanged. Further, a printer 15 capable of printing an image based on the image data is connected to the personal computer 13. The personal computer 13 owned by the user 1 and the service computer 20 owned by the service provider 2 are connected by a network (electric communication line) 7 such as the Internet.
[0043]
The provision of control data according to the third embodiment will be described. The provision of control data is performed by the following procedure.
(1) The two-dimensional code attached to the injector that the user 1 desires to exchange is photographed with the digital camera 3. In the case of the second embodiment, the injector 122 of the second cylinder of the engine 10 is replaced as in the first embodiment. Therefore, the user 1 photographs the two-dimensional code 122 a attached to the injector 122 with the digital camera 3. By photographing the two-dimensional code 122 a with the digital camera 3, the user 1 obtains characteristic data of the injector 122. That is, the user 1 inputs characteristic data by photographing a two-dimensional code with the digital camera 3.
[0044]
(2) The position where the injector 122 to be replaced, that is, the cylinder number, and the data related to the injector 122 to be replaced such as the two-dimensional code 122a photographed in the procedure (1) are input to the personal computer 13.
(3) The personal computer 13 and the ECU 11 are connected by the connection cable 16.
(4) The personal computer 13 and the service computer 20 owned by the service provider 2 are connected via the network 7 such as the Internet.
[0045]
(5) When the personal computer 13 and the service computer 20 are connected via the network 7, the personal computer 13 stores the first software and the second software recorded in a recording device such as an HDD (not shown) of the service computer 20. Download ECU operation software. The downloaded ECU operation software is recorded in an HDD (not shown) of the personal computer 13 or the like. The ECU operation software can execute processing related to data exchange between the personal computer 13 and the ECU 11.
[0046]
(6) The user 1 reads the pre-update control data recorded in the recording unit 111 of the ECU 11 using the downloaded ECU operation software.
(7) When reading of the control data before update recorded in the recording unit 111 is completed, the user 1 reads the control data read via the network 7 and the characteristic data of the injector 122 input in the above procedure (2). Are transmitted to the service computer 20 of the service provider 2. At this time, the control data and characteristic data before update from the user 1 to the service provider 2 are sent by processing of the ECU operation software, or the control data and characteristic data before update obtained by the user 1 are sent to an e-mail or the like. It can be attached and sent.
[0047]
(8) The service computer 20 creates new control data based on the pre-update control data and characteristic data transmitted from the personal computer 13 of the user 1 and the new characteristic data of the new injector to be exchanged.
(9) The service computer 20 creates new control data in the above procedure (8), and creates an information code image such as a two-dimensional code from the created new control data. This information code image is obtained by encoding new control data into an image.
[0048]
(10) When the new control data and the information code image are created, the service computer 20 transmits the new control data and the information code image to the personal computer 13 via the network 7.
(11) The user 1 records the new control data received in the personal computer 13 in the recording unit 111 of the ECU 11 using the ECU operation software downloaded in step (5). The user 1 prints the received information code image with the printer 15 and stores it as a repair record of the engine 10.
[0049]
(12) When the new control data recording and the printing of the information code image are completed, the connection between the personal computer 13 and the service computer 20 and the connection between the personal computer 13 and the ECU 11 are released. The new injector to be exchanged is affixed with a two-dimensional code in which characteristic data is encoded, and is sent from the service provider 2 to the user 1 by, for example, a delivery company. The user 1 replaces the injector by attaching the sent injector to the engine 10. Through the above operation, the injector is replaced, and the control data is updated to correspond to the new injector.
[0050]
In the third embodiment, new control data is transmitted from the service computer 20 to the personal computer 13, and the new control data transmitted to the personal computer 13 is recorded in the ECU 11. Therefore, a medium such as a memory card is unnecessary, and the control data can be updated easily and quickly even in the case of the ECU 11 that is not equipped with a removable memory card. Further, since only the personal computer 13 and the ECU 11 are connected, no special equipment or the like is required.
[0051]
As described above, in the third embodiment, when the user 1 has already connected the personal computer 13 and the service computer 20 and has already obtained the ECU operation software, the procedure (5) can be omitted.
Also, ECU operation software can be recorded in advance in the processing unit 113 of the ECU 11. In this case, the above procedure (5) can be omitted.
[0052]
In the third embodiment, ECU operation software in which they are integrally configured is used as software corresponding to the first software and the second software described in the claims. However, the software corresponding to the first software and the second software can be configured separately.
[0053]
In the plurality of embodiments described above, an example in which an injector is used as a component part of an engine to be replaced has been described. However, the present invention is not limited to the injector and can be similarly applied to other engine components.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing a control data providing system for realizing a control data providing method for an ECU according to a first embodiment of the present invention.
FIG. 2 is a schematic block diagram showing an ECU according to the first embodiment of the present invention.
FIG. 3 is a schematic diagram showing an application form used in the control data providing method of the ECU according to the first embodiment of the present invention.
FIG. 4 is a schematic diagram showing a control data providing system for realizing a control data providing method for an ECU according to a second embodiment of the present invention.
FIG. 5 is a schematic diagram showing a control data providing system for realizing a control data providing method for an ECU according to a third embodiment of the present invention.
[Explanation of symbols]
1 user
2 service providers
7 Network (Telecommunication line)
10 engine
11 ECU
13 Personal computer (user computer)
20 Service computer
111 Recording unit
112 Memory card (recording medium)
113 processor
121, 122, 123, 124 Injectors (components)

Claims (14)

A recording unit on which control data for controlling the internal combustion engine is recorded in accordance with characteristics of components constituting the internal combustion engine, a recording medium capable of exchanging the control data with the recording unit, and the recording An internal combustion engine control device comprising a control unit capable of controlling the internal combustion engine based on the control data recorded in the recording unit, wherein a medium is detachable, and any one of the components is replaced with a new component In this case, it is a method of creating new control data for use in the control unit, and providing the created new control data to a user who handles the internal combustion engine from a service provider that creates the new control data,
Exchange data sending stage for sending data recorded in the recording unit from the user to the service provider;
Receiving and recording the sent data with a service computer owned by the service provider, and recording the new control data on a recording medium; and
A new data sending step of sending a recording medium on which the new control data is recorded from the service provider to the user ,
In the exchange data sending stage, the control data recorded in the recording unit and the characteristic data of the component parts to be exchanged are sent,
In the recording step, the control data for the internal combustion engine controller is provided by the service computer, wherein the service computer creates the new control data based on the new characteristic data of the new component, the control data, and the characteristic data. Method. An information code image encoding either one or both of the control data and the characteristic data is sent from the user to the service provider, and the service computer decodes the control data or the characteristic data from the information code image, 2. The control data providing method for an internal combustion engine controller according to claim 1, wherein the new control data is created. 3. The method of providing control data for an internal combustion engine controller according to claim 2, wherein the information code image is optically scanned by the service provider and input to the service computer as digital data. 3. The method according to claim 2, wherein the information code image is optically scanned by the user and input to the service computer as digital data. 5. The new control data is converted into an information code image and printed in the recording step, and the printed information code image is sent to the user in the new control data sending step. A control data providing method for an internal combustion engine control device according to any one of the preceding claims. A recording unit on which control data for controlling the internal combustion engine is recorded in accordance with characteristics of components constituting the internal combustion engine, a recording medium capable of exchanging the control data with the recording unit, and the recording An internal combustion engine control device comprising a control unit capable of controlling the internal combustion engine based on the control data recorded in the recording unit, wherein a medium is detachable, and any one of the components is replaced with a new component In this case, it is a method of creating new control data for use in the control unit, and providing the created new control data to a user who handles the internal combustion engine from a service provider that creates the new control data,
A connection step of connecting a user computer owned by the user and connectable to the recording medium and a service computer owned by the service provider via a telecommunication line;
Exchange data transmission step of transmitting data recorded on the recording medium from the user to the service provider;
The transmitted data and records received by the service computer, the new control data, and the new control data transmission step of transmitting to the user computer via an electric communication line,
Recording the new control data transmitted to the user computer on the recording medium ,
In the exchange data transmission step, as the data, the control data and the characteristic data of the component to be exchanged are transmitted,
In the new control data transmission step, the service computer creates the new control data based on the new characteristic data of the new component, the control data, and the characteristic data . How to provide control data. An information code image in which one or both of the control data and the characteristic data are encoded is transmitted from the user to the service provider, and the service computer decodes the received information code image to create the new control data The control data providing method of the internal combustion engine control device according to claim 6. 8. The method of providing control data for an internal combustion engine controller according to claim 7, wherein the information code image is optically scanned by the user and input to the service computer as digital data. The new control data transmission step includes a conversion step of encoding the new control data into information code image data, and the encoded information code image data is transmitted to the user computer together with the new control data. 9. A control data providing method for an internal combustion engine control device according to claim 6, 7 or 8. A recording unit that records control data for controlling the internal combustion engine according to the characteristics of the components constituting the internal combustion engine, and the internal combustion engine can be controlled based on the control data recorded in the recording unit In an internal combustion engine control apparatus comprising a control unit, when replacing any of the components with a new component, create new control data for use in the control unit, the created new control data, A method of providing the user who handles the internal combustion engine from a service provider who creates the new control data,
A connection step of connecting the user computer owned by the user and the internal combustion engine control device;
A communication line connection step for connecting the user computer and a service computer owned by the service provider via an electric communication line;
A characteristic data input step of inputting characteristic data of the component to be replaced into the user computer;
A control data input step for inputting the control data recorded in the recording unit to the user computer;
A transmission step of transmitting data from the user computer to the service computer via a telecommunication line;
The new control data, and the new control data transmission step of transmitting to the user computer via an electric communication line,
A new control data input step for inputting the new control data received by the user computer to the recording unit ,
In the transmission step, the characteristic data and the control data are transmitted as the data,
In the new control data transmission step, the service computer creates the new control data based on the new characteristic data of the new component, the control data, and the characteristic data . How to provide control data. 11. The method of providing control data for an internal combustion engine controller according to claim 10, wherein in the characteristic data input step, the characteristic data is input as an information code image. In the control data input step, the user computer and the service computer are connected via an electric communication line, and the service computer transmits first software capable of processing the control data to the user computer and is transmitted. 12. The method of providing control data for an internal combustion engine controller according to claim 10, wherein the control data is input to the user computer by the processing of the first software. In the new control data input step, the user computer and the service computer are connected via an electric communication line, and the service computer transmits second software capable of processing the new control data to the user computer, 13. The method for providing control data of an internal combustion engine control device according to claim 10, 11 or 12, wherein the new control data is input to the internal combustion engine control device by the transmitted second software. In the new control data transmission step, the service computer encodes the new control data into information code image data, and the encoded information code image data is transmitted to the user computer together with the new control data. The method for providing control data of the internal combustion engine control device according to any one of claims 10 to 13.

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