JPH04937A - Assembled type data transmitter system - Google Patents

Abstract

PURPOSE:To easily cope with the addition of a new device to be controlled by transmitting self-diagnostic checking item data peculiar to this device to a controller at the time of adding this device. CONSTITUTION:In the case of confirming the addition of a new device 20-2 to be controlled which has a different device identifier ID, the control part 12 of a controller 10 transmits a GetID command from a control signal transmission/reception part 11 to a control signal transmission/reception part 21-2. This transmission/reception part 11 transmits the command to the control signal transmission/reception part 21-2. In the case of receiving this command, a control part 22-2 transmits self-diagnostic checking item data information from a self-diagnostic checking item data information storage part 24-2 to the control signal transmission/reception part 11 by the control signal transmission/reception part 21-2. The control part 12 stores received information in a self-diagnostic checking item data storage area 14. Thus, this system easily copes with the addition of a terminal machine having new self-diagnostic checking item data.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a collective data transmission system comprising collective terminal equipment equipped with a control device for controlling self-diagnosis check item data.

[Conventional technology]

A collective data transmission device system equipped with this type of control device has self-diagnosis check item data corresponding to the original controlled device that constituted the system. In such a collective data transmission device system, the control device can perform self-diagnosis on each controlled device.

[Problem to be solved by the invention]

The conventional collective data transmission device system described above only supports the original controlled device that configured the system, so when a new controlled device is developed and added to the system, the control device must be replaced with a new one. The disadvantage is that the software must be developed separately or the software must be upgraded.

An object of the present invention is to provide a collective data transmission system that can eliminate such drawbacks and easily cope with the addition of terminal equipment having new self-diagnosis check item data to the system. Our goal is to provide the following.

[Means for Solving the Problems] The present invention provides a collective data transmission system in which a control device causes a controlled device to perform self-diagnosis, in which the controlled device has self-diagnosis check item data information unique to itself and The control device includes a holding means for holding identification information, and a transmitting/receiving means for transmitting and receiving information from the holding means, and a main transmitting/receiving means for transmitting and receiving information from the transmitting/receiving means of the controlled device, and the main transmitting/receiving means. When the received identification information is new, the control device is characterized by having a storage means for storing this identification information and unique self-diagnosis check item data information sent from a new controlled device following this identification information. .

In the present invention described above, it is preferable that the identification information held by the holding means of the controlled device is a device identification ID that is unique to each model.

[Example] Next, an example of the present invention will be described with reference to the drawings.

FIG. 1 is a configuration diagram showing an embodiment of the present invention. 1st
The collective data transmission device system shown in the figure includes a control device 1
0, and the controlled device 20-1.20-2. ...20-N
It is equipped with

The control device 10 includes a control signal transmitting/receiving section 11 and a control section 12.
and device identification 10 (Identification)
It includes a storage area 13, a self-diagnosis check item data storage area 14, and a self-diagnosis check item data common table 15.

Controlled device 20-1.20-2. ..., 20-N are control signal transmitting/receiving sections 21-1, 21-2. ..., 2
1-N, and the control unit 22-1°22-2. ..., 22
-N, device identification ID storage section 23-1, 23-2゜...
., 23-N, and self-diagnosis check item data storage section 24-1.24-2. ..., 24-N, respectively.

In such a collective data transmission device system, the control device f10 controls a plurality of controlled devices 20-1 and 20-2.
．． ..., connected to 20-N.

The control signal transmitting/receiving section 11 of the control device 10 includes the control signal transmitting/receiving section 21-1, 21-2. ..., 2
Exchanges commands and responses with 1-N.

The device identification ID storage area 13 is for each controlled device 20-1.
゜20-2. . . , is an area for storing the device identification 10 called from 20-N, and is connected to the control signal transmitting/receiving section 11 via the control section 12.

The self-diagnosis check item data storage area 14 is stored in each controlled device 20-1, 20-2. . . , 20-N is an area for storing only the self-diagnosis check item data for different device identifications 10, and is connected to the control signal transmitting/receiving section 11 via the control section 12.

The self-diagnosis check item data common table 15 is an area in which self-diagnosis check item data shared by each controlled device is stored in advance, and is connected to the control signal transmitting/receiving section 11 via the control section 12. An example of the contents stored in the self-diagnosis check item data sharing table 15 is shown in FIG.

Each controlled device 20-1.20-2. ..., 20-N
Device identification ID storage unit 23-L 23-2. ...,
23-N is a memory that stores a different device identification ID for each model of its own controlled device;
．． 22-2. ..., 22-N via the control signal transmitting/receiving section 21-1.21-2. ..., connected to 21-N.

Self-diagnosis check item data storage section 24-1.24-2
. . , 24-N is a memory that stores unique self-diagnosis check item data information of the controlled device, and the control unit 22-L 22-2. ..., 22
-N via the control signal transmitting/receiving unit 21-1.21-2.・
..., connected to 21-N. FIG. 2(a) is an example of data stored in the controlled device 2o-1, and FIG. 2(b) is an example of data stored in the controlled device 20-2.

Next, this collective data transmission bag! Explain how the system works.

In this collective data transmission device, for example, the controlled device 20-1 has already exchanged control signals with the control word W10, and the device identification code of the controlled device 20-1 is stored in the device identification ID storage area 13 of the control device 10. are stored in the self-diagnosis check item data storage area 14, and the controlled device 20
-1-specific self-diagnosis check item data is stored. Here, the operation when the controlled device 20-2 is newly added to the system is shown in FIGS. 5 and 6.

FIG. 5 shows a case where the controlled device 20-2 is the same model as the controlled device 20-1. First, the control device 100 control section 12
When confirming that the controlled device 20-2 has been added, the control signal transmitting/receiving unit 11 sends a Get 10 command a5 to the control signal transmitting/receiving unit 21-2.

Upon receiving this command, the control unit 22-2 controls the device identification I.
The control signal transmitting/receiving section 21-2 sends the device identification ID from the D storage section 23-2 to the control signal transmitting/receiving section 11 as a Get ID response. The control unit 12 determines whether the received device identification ID is already stored in the device identification ID storage area 13. In this case, it has already been stored, so the received device ffi ID is device! Identification I
No new data is stored in the D storage area 13.

Next, in FIG. 6, the controlled device 20-2 is connected to the controlled device 20-2.
1 and the device identification ID are different. First, control bag 2
When the control unit 100 control unit 12 confirms that the controlled device 20-2 has been added, it causes the control signal transmission and reception unit 11 to send a Get ID command a6 to the control signal transmission and reception unit 21-2. Upon receiving this command, the control section 22-2 inputs the device identification TD from the device identification ID storage section 23-2.
t10 The control signal transmitting/receiving section 21-2 sends it to the control signal transmitting/receiving section 11 as a response b6. Control unit 12
Since the received device identification 10 has not yet been stored in the device identification ID storage area 13, it is newly stored.

Further, the control signal transmitting/receiving section 11 sends Upload 5elfcheck 1t to the control signal transmitting/receiving section 21-2.
Send e-command c6. Upon receiving this command, the control unit 22-2 updates the self-diagnosis check item data information from the self-diagnosis check item data storage unit 24-2.
control signal transmitter/receiver 2 to control signal transmitter/receiver 11 as loadselfcheck 1teII response d.
It is sent from 1-2.

The control unit 12 stores the received information in the self-diagnosis item data storage area 14. The self-diagnosis check item data storage area 14 now includes the controlled device 20
-1.20-2 self-diagnosis check item information is stored. An example is shown in FIG.

Next, when the control unit 12 wants to perform self-diagnosis on each controlled unit, as shown in FIG.
Send heck command a7. Upon receiving this command, each control section sends a check item number to the control signal transmitting/receiving section 11 via each control signal transmitting/receiving section as a 5elfcheck result response.

For example, as a response to the 5elfcheck result, the control unit 22-1 selects the check item N as shown in FIG.
If O"000" is sent to the control signal transmitting/receiving section 11, the control section 12 will check the received check item NO.
000'' with the self-diagnosis check item data common table 15 in FIG. 3, and as a result, the controlled device 20-
1 5elfcheck can be recognized as OK.

In addition, as a response to the 5elfcheck result, the control unit 22-2 selects the check item No. as shown in FIG.
If “006” is sent to the control signal transmitting/receiving unit 11, the control unit 12 receives the check item No.
"006" is compared with the self-diagnosis check item data common table 15 shown in FIG. Since there is no data corresponding to the received check item No., the control unit 12 next compares it with the self-diagnosis check item data storage area 14 shown in FIG. ” allows you to recognize that an error has occurred.

In this way, the present embodiment includes a transmitting/receiving section for data communication, a device identification 10 storage section that stores the identification ID of its own device, and a device ID 10 storage section that stores the data of check items for self-diagnosis. A controlled device having a diagnostic check item data storage section, a control section for managing and controlling these, a transmitting/receiving section for performing data communication, and a device identification 10 storage area for storing different identifications 10 called from the controlled device. , a self-diagnosis check item data common table that stores data on self-diagnosis check items shared by each controlled device, and a self-diagnosis check item data unique to each controlled device with a different device identification ID. It is characterized by comprising a control device having a self-diagnosis check item data storage area for storing therein, and a control unit for managing and controlling the self-diagnosis check item data.

This makes it possible to add a new controlled device.

[Effects of the Invention] As explained above, the present invention configures a system by sending the unique self-diagnosis check item data information of the controlled device to the control device when a new controlled device is added. Even if a new controlled device unique to the original controlled device is added, it can be handled without developing a new control device or upgrading the software.

[Brief explanation of drawings]

FIG. 1 is a configuration diagram showing one embodiment of the present invention, and FIG.
A diagram showing an example of the configuration of data stored in the self-diagnosis check item data storage section, FIG. 3 is a diagram showing an example of the configuration of data stored in the self-diagnosis check item data common table, and FIG. Figures 5 and 6 show examples of the structure of data stored in the check item data storage area.
This figure shows an example of a control operation when a controlled device is added to the system, and FIGS. 7 and 8 are diagrams showing an example of a self-check operation. 10. . . . Control unit 2I arrangement 1...
Control signal transmitting/receiving unit 12...Control unit 13...Device identification ID storage area 14...
Self-diagnosis check item data storage area 15...Self-diagnosis check item data common table 20-1.20-2. ..., 20-N... Controlled device 21-1.21-2. ..., 21-N... Control signal transmission/reception 22-1.22-2. ..., 22-N
...Control unit 23-1.23-2. ..., 23-N
...Device identification ID storage area 24-L 24-2. ..., 24-N...Self-diagnosis check item data storage unit Self-diagnosis check item data storage unit 24-1(a) Self-diagnosis check item data storage unit 24-2(b) FIG.

Claims (2)

[Claims] (1) In a collective data transmission device system in which a control device performs self-diagnosis on a controlled device, the controlled device has a holding means for holding its own self-diagnosis check item data information and identification information; The control device includes: a main transmitting/receiving means that transmits and receives information from the transmitting/receiving means of the controlled device; , a storage means for storing this identification information and unique self-diagnosis check item data information sent from a new controlled device following this identification information. (2) The collective data transmission device system according to claim 1, wherein the identification information held by the holding means of the controlled device is a device identification ID that differs for each model.