JP3859911B2 - Main unit module of information processing apparatus and recording medium on which program is recorded - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is preferably used in, for example, a control system, and operates the single information processing apparatus main body at a plurality of locations and can display a screen corresponding to the operation at each of the information processing apparatus main bodies. It is about modules.
[0002]
[Prior art]
For example, in a control system that controls a control target such as a belt conveyor, a graphic operation panel is provided in order to notify the operator of the state of the control target and receive a user instruction in the vicinity of the control target. In these graphic operation panels, for example, a liquid crystal display (LCD) and a touch panel are often used as an input and output unit. For example, an arithmetic processing unit arranged on the back surface of the LCD is connected to the touch panel. The display image on the LCD is controlled according to the operation.
[0003]
Here, in order to improve the convenience of the operator, it is desirable to be able to operate from a plurality of locations and display a screen corresponding to the operation at each location. However, in the vicinity of the controlled object, the place where it can be installed is often limited. In addition, if the graphic operation panel is arranged at each location and communicated with each arithmetic processing unit via a network such as Ethernet (registered trademark: Xerox Corporation), the manufacturing cost of the entire control system is reduced. Soaring.
[0004]
Accordingly, a graphic operation panel in which the input / output devices corresponding to the input and output units and the apparatus main body corresponding to the arithmetic processing unit are arranged in a distributed manner is being used. In this configuration, the apparatus main body shared by the entire graphic operation panel receives an operation from each input / output device, and creates and outputs an image signal to each input / output device. Thereby, by sharing the apparatus main body, the manufacturing cost of the entire control system can be suppressed, and since only the input / output devices need be arranged at the respective locations, the installable locations can be expanded.
[0005]
[Problems to be solved by the invention]
However, there is a problem that the manufacturing cost cannot be sufficiently reduced even with the graphic operation panels arranged in a distributed manner. Specifically, since the apparatus main body outputs the image signal to each input / output device, an image signal generation process and a generation circuit are separately required.
[0006]
In addition, when operators at a plurality of locations operate simultaneously, for example, if the apparatus body outputs a control instruction to the control target based on all the operations, each operation is complicated, and the control target is the operator's Both are controlled so as not to expect. In particular, in the control system, even if it is desired to operate from a plurality of places, the controlled object is often the same, and an undesired operation of the controlled object is directly connected to an accident.
[0007]
The present invention has been made in view of the above problems, and its purpose is to output at least a screen according to the intention of one of the operators even when operated by an operator at a plurality of locations. An object of the present invention is to realize a main body module of an information processing apparatus that can prevent erroneous operation of each operator.
[0008]
[Means for Solving the Problems]
  In order to solve the above problems, a main body module of an information processing apparatus according to a first aspect of the present invention includes a display unit that displays an image indicated by an image signal, an input unit that receives an operation, and a power that indicates power on / off. Operation identification means capable of receiving operations from a plurality of input / output modules each having a lamp and displaying the same image on each display means, and whether to accept input from each of the input / output modules An image signal output means for outputting an image signal indicating an image to be displayed on the plurality of input / output modules based on an input from the input / output module that is set upon receiving an input by the setting means; And a lighting control means for instructing the power lamp of each of the input / output modules to turn on according to the setting of the setting means.When the image signal output means accepts the input, the image signal output means outputs an image signal indicating the ID and name indicating the set input / output module.It is characterized by that. The lighting state may be different depending on the setting (valid / invalid), and examples thereof include lighting / flashing, a color at the time of lighting, or a flashing cycle.
[0009]
In the above configuration, the information processing apparatus is configured by the plurality of input / output modules and the main body module, and the setting unit of the main body module sets whether to accept (valid) or not (invalid) input from each input / output module. . Further, the image signal output means outputs a common image signal to each input / output module based on the input from the valid input / output module, even if the operation identification means receives an input from each input / output module.
[0010]
In the above configuration, since the same image is displayed on each input / output module, it is possible to realize an information processing apparatus that can be operated from a plurality of locations without adding an image signal generation circuit. In addition, since the validity / invalidity is managed not by the input / output module but by the main module, there is no need to change the input / output module according to the number of input / output modules and the validity / invalidity. Even when only output is required, the same input / output module can be diverted, and the labor of manufacturing and inventory management can be greatly reduced.
[0011]
Further, the on / off control means instructs the on / off state to each power lamp according to the setting of each input / output module. Therefore, the operator of each input / output module, for example, when the input / output module is diverted, whether or not it is formed integrally with the main body module or whether or not it is dedicated for output even if only the input / output module is viewed. Even if it cannot be distinguished, whether the input / output module is valid can be distinguished from the lighting state of the power lamp. As a result, if the image does not change even when the input / output module is operated, the operator can identify whether the input / output module is invalid, an input error, or a failure, and can prevent an erroneous operation due to a mistake in both.
[0012]
As the input means of the input / output module, any input means such as a keyboard and a mouse can be used as long as it can input an operation from the operator. However, in the above configuration, since it is possible to easily determine whether or not there is an input mistake, the effect is particularly great when using an input unit that is easily misunderstood as an input mistake, such as a touch panel or a remote controller.
[0013]
  On the other hand, a recording medium according to a second aspect of the present invention is a plurality of input / output modules each including display means for displaying an image indicated by an image signal, input means for accepting an operation, and a power lamp indicating power on / off. In order to solve the above-mentioned problem, it is set whether to accept input from each of the input / output modules. A program for operating a computer as a setting means, an operation identifying means for controlling the communication means to receive an operation from the input / output module, and based on an input from the input / output module set when receiving an input by the setting means Image signal output means for outputting a common image signal in the plurality of input / output modulesAn image signal output means for outputting an image signal indicating an ID and a name indicating a set input / output module upon receipt of an inputIn addition, according to the setting of the setting means, a program for operating the computer is recorded as the lighting control means for instructing the lighting state of each power lamp.
When the program having the above configuration is executed by a computer, the computer operates as a main module of the information processing apparatus according to claim 1. Thus, by combining a plurality of input / output modules and the main body module, it is possible to realize an information processing apparatus that can be operated from a plurality of locations without adding an image signal generation circuit. Further, since the validity / invalidity of each input / output module can be notified to each operator by the lighting state of the power lamp, an erroneous operation due to misunderstanding can be prevented.
[0014]
  In addition, the main body module of the information processing apparatus according to the invention of claim 3 further includes a privilege mode in which an operation right to preferentially operate the main body module can be acquired even when another input / output module is in use; When other I / O modules are in use, they cannot be input, and the operation right for the I / O module is released and only when the I / O module is in the free state. A panel setting unit that sets any one of the three modes of the invalid mode for each input / output module is provided.
According to a fourth aspect of the present invention, the main module of the information processing device sets the display state of the power lamp when the lighting control means is in the invalid mode to a state different from the privileged mode and the shared mode. It is characterized by having.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described below with reference to FIGS. That is, the information processing apparatus according to the present embodiment is suitably used, for example, as a graphic operation panel of a control system. For example, in the vicinity of a control target device such as a belt conveyor, the status of the control target is displayed to the operator. In addition to notifying, a control instruction can be output to each control target in accordance with an operation from the operator.
[0016]
Specifically, as shown in FIG. 1, the graphic operation panel 1 according to this embodiment includes a plurality of display modules (input / output modules) 2 provided for operator operation and display, and a single main body module. 3 is provided. As these modules 2 and 3, an integrated graphic operation panel module is used. In this embodiment, the driver unit 4 is mounted on the main body module 3, and the receiver unit 5 is mounted on each display module 2. At the same time, by connecting the units 4 and 5 with the collective cable 6, it is possible to operate the main body module 3 from the display modules 2 arranged at a plurality of locations and display the same image on each display module 2. A graphic operation panel 1 is realized.
[0017]
More specifically, as shown in FIGS. 2 and 3, the display module 2 and the main body module 3 are formed to be detachable from each other, and both modules 2 and 3 are connected by respective connectors C21 and C31. Thus, an integrated graphic operation panel is obtained. The connectors C21 and C31 have the same mechanical shape and electrical characteristics regardless of the model of the display module 2 and the model of the main body module 3, and the display module 2 is connected to the display module 2 via the connector C21. 2 is output to the connector C31 of the main body module 3, and an image signal indicating the display screen of the display module 2 is transmitted from the connector C31 to the connector C21. A power supply voltage is supplied from the main body module 3 to the display module 2 through the connectors C21 and C31.
[0018]
Here, since the connectors C21 and C31 are standardized, the display module 2 of any model and the main body module 3 of any model can be combined. Therefore, a model of the display module 2 is prepared in accordance with input / output specifications (for example, resolution and display area) required by the control system, and specifications of the main body module 3 (for example, required by the control system) The graphic operation panel 1 corresponding to the combination of both specifications can be provided simply by preparing the models of the main body module 3 in accordance with the processing speed and combining them. As a result, it is possible to simplify inventory management and the like as compared with the case where a graphic operation panel is integrally formed and a graphic operation panel of a model corresponding to a combination of both specifications is prepared.
[0019]
In particular, in the present embodiment, the graphic operation panel 1 including the plurality of display modules 2 and one main body module 3 is realized by using both modules 2 and 3 that can be mounted as an integrated graphic operation panel. Therefore, depending on the number of display screens, compared with the case of preparing a model of graphic operation panel or integrating different types of display screens and main units in a separate arrangement Thus, the number of models of the modules 2 and 3 can be reduced, and inventory management can be simplified.
[0020]
Further, as shown in FIGS. 2 and 3, the boundary between the modules 2 and 3 is arranged at a position where it does not protrude from the front surface of the display module 2, such as a surface parallel to the display screen D, for example. Therefore, in the state where the display module 2 is embedded in the wall surface or the like, the graphic operation panel has a protection function against intrusion of oil or water, for example, although both the modules 2 and 3 are detachably formed. It can be maintained in the same manner as when integrally formed. In addition, since the display module 2 can be formed thinner than the integrated graphic operation panel, the place where the display module 2 can be installed can be expanded.
[0021]
On the other hand, in this embodiment, a GVIF (Giga bit Video InterFace) signal and a USB (Universal Serial Bus) signal are adopted as the image signal and the operation signal transmitted by the collective cable 6. As shown in FIG. 4, a cable including both connectors C61 and C62 and a cable 61 is used. In the cable 61, the signal lines L6 and L7 for USB signal transmission are accommodated in the shield line L13 for USB signal, and the signal lines L1 and L2 for GVIF signal transmission are in the shield line L8 for GVIF signal. It is stored in. Further, as the other signal lines X, for example, signal lines L10, L4, L11, and L14 that transmit a type select signal indicating the model of the display module 2, or a signal line that is maintained at the ground level and 5 [V]. L9 and L3 are also provided.
[0022]
The type select signal is a signal indicating the model of the display module 2 and is output from the display module 2 to the main body module 3. On the other hand, the main body module 3 identifies the resolution of the display module 2 from the type select signal, outputs an image signal (LCD signal) corresponding to the display module 2, and driver circuits 41, 42, 52 on the transmission path The receiver circuit 51 (described later) transmits and receives the GVIF signal at a timing suitable for the LCD signal.
[0023]
Further, both the shield lines L8 and L13 and the signal line X are accommodated in an outer shield line L21. Thereby, although the collective cable 6 can transmit a USB signal and a GVIF signal, it can be managed as a single cable in appearance. Further, since the USB signal and the GVIF signal are individually transmitted through the shield lines L13 and L8 and all the signal lines are accommodated in the shield line L21, interference between the USB signal and the GVIF signal can be reduced. Noise from the outside can be prevented and signal transmission reliability can be improved. Hereinafter, signals transmitted through the collective cable 6 are collectively referred to as transmission signals.
[0024]
Further, as shown in FIG. 5, the driver unit 4 according to the present embodiment includes a connector C41 that can be connected to the connector C31 of the main body module 3, and cable connectors C42 and C43 that can be connected to the connector C61 of the collective cable 6. The driver circuits 41 and 42, the USB hub 43 that distributes and relays the USB signal, the LCD distributor 44 that distributes the LCD signal from the main body module 3, and the type select signal from each display module 2 as the main body module 3 is provided with a type selector 45 for transmitting to 3. The driver circuits 41 and 42 not only amplify the power of an input signal such as a USB signal but also convert the LCD signal supplied from the LCD distributor 44 into a GVIF signal for transmission through the collective cable 6. Of the driver circuits 41 and 42, the USB signal driver circuit can be substituted for the USB hub 43. Further, even when the USB signal is distributed, the USB hub 43 distributes and relays the USB signal in accordance with the USB standard so that the address data indicating the operation source is correctly transmitted to the main body module 3.
[0025]
Here, when the driver unit 4 or the receiver unit 5 branches the transmission signal, an image signal (LCD signal / GVIF signal) having a large amount of information and a large amount of processing required to generate the signal is included in the transmission signal. Operation signals (USB signals) that are simply branched and have a relatively small amount of information are relayed so that the operation source can be understood. Therefore, although the main body module 3 can be operated and the image can be displayed by the display modules 2 at a plurality of places, it is not necessary to add a display control unit 3b (described later) of the main body module 3. As a result, the configuration of the main body module 3 can be simplified compared with the case where the main body module 3 outputs an image signal for each display module 2, and the model of the main body module 3 is unified regardless of the number of display modules 2. it can.
[0026]
Furthermore, power is supplied to the driver unit 4 from the power supply circuit 31 of the main body module 3 via both connectors C31 and C41. The USB hub 43 and the LCD distributor 44 are connected to the USB-IF circuit (communication means) 32 or the LCD-IF circuit (communication means) 33 of the main body module 3 via connectors C41 and C31. In addition to these circuits 31 to 33, the main body module 3 is provided with a CPU 34 and a memory 35 for operating as a computer. The CPU 34 executes a program stored in the memory 35, and if necessary, By controlling each of the circuits 32 to 33, functional blocks 3a to 3h (described later) shown in FIG. 1 are realized. These functional blocks 3a to 3h can be realized by hardware that performs the same operation. However, when the functional blocks 3a to 3h are realized as the functional blocks, a recording medium on which the program is recorded is distributed or communicated. In other words, each functional block can be easily realized simply by installing a program on a computer.
[0027]
In the present embodiment, the driver unit 4 is provided with a USB port 46, and a USB device such as a keyboard can be connected to the USB hub 43 via the USB port 46. The cable connector C43 and its driver circuit 42 are mounted on an expansion board B42 different from the base board B41 on which the driver circuit 41 and the like are arranged. The driver unit 4 branches the transmission signal. If unnecessary, the expansion board B42 is not mounted, and connection is possible only when transmission signal branching is necessary. Thereby, the base board B41 can be shared regardless of whether or not the branch is necessary.
[0028]
Further, in the present embodiment, in order to connect to the main body module 3 that does not have the USB-IF circuit 32 but has only the RS232C-IF circuit 36, the connector C31 / C41 is also provided with a terminal for RS232C. The driver unit 4 includes an RS422 converter 47. Furthermore, the driver circuit 41 includes an RS422 driver circuit, and the RS422 signal can be sent to the collective cable 6 instead of the USB signal by switching the switch.
[0029]
On the other hand, as shown in FIG. 6, the receiver unit 5 according to this embodiment includes the connector C21 of the display module 2 and the connector C51 and the cable connector C52 that can be connected to the connector C62 of the collective cable 6. In order to branch the transmission signal at the receiver unit 5, a cable connector C53 that can be connected to the connector C61 of the collective cable 6 is provided. Further, a receiver circuit 51 for communicating with the driver circuit 41 (42) of the driver unit 4 via the collective cable 6 and a driver circuit 52 similar to the driver circuit 42 are provided. In the receiver unit 5 as well as the driver unit 4, the branch driver circuit 52 and the cable connector C53 are arranged on an expansion board B52 different from the base board B51 on which the receiver circuit 51 and the like are mounted. Regardless of the necessity of branching, the base board B51 can be shared.
[0030]
The receiver unit 5 includes a type selector 53 that sends a type select signal from the connector C5 and the driver circuit 52 to the receiver circuit 51, and an LCD that distributes the LCD signal from the receiver circuit 51 to the connector C51 and the driver circuit 52. A distributor 54 and a USB hub 55 that distributes and relays the USB signal from the receiver circuit 51 to the connector C51 and the driver circuit 52 are provided.
[0031]
Here, the display module 2 and the receiver unit 5 shown in FIG. 6 include, as will be described later, an RS232C signal transmission terminal and an IrDA (Infrared Data Association) signal transmission terminal of both connectors C21 and C51. An operation signal from the display module 2 is transmitted via the display module 2. Therefore, in the receiver unit 5 according to the present embodiment, between the USB hub 55 and the connector C51, the RS-USB control circuit 56 that mutually converts the USB signal and the RS232C signal, and the USB signal and the IrDA signal are mutually converted. An IrDA-USB control circuit 57 for conversion is provided.
[0032]
The receiver unit 5 includes a power supply circuit 58 and can supply power to the display module 2 via the connectors C51 and C21. As described above, the driver unit 4 according to the present embodiment can transmit the RS422 signal instead of the USB signal during the one-to-one communication. In preparation for this case, in the receiver unit 5, an RS422 converter 59 is provided between the receiver circuit 51 and the RS-USB control circuit 56.
[0033]
Here, in addition to the above-described standardized connector C21, the display module 2 shown in FIG. 6 includes an LCD 21 that displays an image indicated by an LCD signal as a display unit, and a touch panel as an input unit. 22, and an RS232C port 23 and an IrDA port 24 are provided to communicate with the keyboard 7 and the remote controller 8 as other input means. Further, in the display module 2, input from the touch panel 22 or the keyboard 7 is transmitted via a terminal for RS232C signal transmission in the connector C21, and the RS232C port 23 and the touch panel 22 are RS232C-IF circuits. 25 is connected to the connector C21. In the present embodiment, the remote controller 8 and the IrDA port 24 can wirelessly communicate with infrared rays in accordance with, for example, the IrDA standard.
[0034]
Furthermore, the display module 2 includes a power lamp 26 that indicates whether or not power is turned on, and a lamp control circuit 27 that controls the display state of the power lamp 26. When the lamp control circuit 27 receives an instruction from the main body module 3 via the RS232C-IF circuit 25 / connector C21, the lamp control circuit 27 can control a display state such as lighting / flashing according to the instruction. It should be noted that the display state of the power lamp 26 is not limited to lighting / flashing switching as long as it can be identified by the operator, and may be, for example, the color when lighting or the cycle when flashing.
[0035]
Here, in this embodiment, as shown in FIG. 1, the operation on each display module 2 is transmitted to the main body module 3 by the USB signal transmitted by the collective cable 6. Since the USB signal includes address data indicating the operation source, the operation identification unit (operation identification unit) 3a of the main body module 3 refers to the address data, and the operation source (FIG. 6, etc.) can be identified.
[0036]
However, in the main body module 3 according to the present embodiment, the display control unit (image signal output means) 3b displays the same image on each display module 2, so that the operation identification unit 3a receives from each display module 2. When the operation is accepted at the same time and the control unit 3c instructs the display control unit 3b to change the image in response to all the operations, the operations from the respective operators are complicated, and any operator correctly installs the main body module 3. It becomes impossible to operate.
[0037]
Therefore, the main body module 3 according to the present embodiment has an exclusive control unit 3d for transmitting only an operation from a device having an operation right to the control unit 3c among the devices for which the operation identifying unit 3a has accepted the operation, and an operation right. An operation right determination unit 3e for specifying a certain device, and a panel setting unit (setting unit) 3f for instructing the operation right determination unit 3e on a method for specifying the operation right are provided. Thereby, for example, even if the operation identifying unit 3a receives operations from the devices such as the touch panel 22, the keyboard 7 or the remote controller 8 shown in FIG. 6 almost simultaneously, the operation right determining unit 3e is included in the control unit 3c. Only the operation from the identified device is transmitted, and the control unit 3c instructs the display control unit 3b to display only according to the operation from the device. As a result, while a main module 3 can be operated from the display modules 2 arranged in a plurality of places, an operation from another display module 2 can be excluded while a certain display module 2 is operating. Incorrect operation due to simultaneous operation can be prevented.
[0038]
More specifically, as shown in FIG. 7, the panel setting unit 3 f according to the present embodiment can set three modes, that is, a privilege mode, a shared mode, and an invalid mode for each display module 2. As will be described later, in this embodiment, the touch panel 22 and the remote controller 8 can be set separately for the same display module 2.
[0039]
The privileged mode is a mode in which an operation right can be preferentially acquired even when another display module 2 is in use, and the operation right determination unit 3e is configured when a certain display module 2 is set to the privileged mode. Even if the other display module 2 has the operation right, the operation right is transferred to the display module 2 in the privilege mode, and the exclusive control unit 3d transmits the operation from the display module 2 to the control unit 3c. Thereby, an operator (such as an administrator) of the display module 2 can operate the main body module 3 with priority over operators of other display modules 2. Further, for example, the operation right determination is performed so that the operation right is given to a specific display module 2 by instructing the display of the panel selector as shown in FIG. 8 to the control unit 3c and selecting the display module 2 with the selector. It is possible to instruct unit 3e.
[0040]
On the other hand, the sharing mode is a mode in which an operation right cannot be input when another display module 2 is in use, and the operation right can be acquired only when the operation right of the display module 2 is released and becomes free. Then, the operation right determination unit 3e gives an operation right to the display module 2 in accordance with an operation from the display module 2 when no display module 2 has acquired the operation right. On the contrary, even if the operation identifying unit 3a accepts an operation from the display module 2 in the sharing mode in a state where any one of the display modules 2 has the operation right, the operation right determining unit 3e The operation right is not transferred to the display module 2, and the operation from the display module 2 is ignored by the exclusive control unit 3d.
[0041]
In the transition to the free state, when an operation indicating abandonment of the operation right is received from the display module 2 that has acquired the operation right, for example, a pressing operation of the release button displayed in the area A1 of FIG. Alternatively, it is performed when there is no operation from the display module 2 for a predetermined period (timeout time). In this case, the operation right determination unit 3e removes the operation right from the display module 2, and the display control unit 3b displays, for example, in a free state in the area A2 shown in FIG. When any of the display modules 2 has the operation right, the display control unit 3b displays an ID and a name indicating the display module 2 in the area A2, for example, as illustrated in FIG. . Thereby, the operator of each display module 2 can confirm the transition of the operation right on each display screen.
[0042]
The invalid mode is a mode in which the operation right cannot be acquired. Even when the operation identification unit 3a receives an operation from the display module 2 in the invalid mode, the operation right determination unit 3e sends the operation right to the display module 2. The operation from the display module 2 is always ignored by the exclusive control unit 3d.
[0043]
Here, the panel setting unit 3f sets each display module 2 in accordance with, for example, an operation from an input device directly connected to the main body module 3 or an operation from the display module 2 set in the privilege mode in advance. To change. Specifically, when setting is instructed, the panel setting unit 3f instructs the display control unit 3b to display a dialog for changing parameters, for example, as shown in FIG. In the dialog, for example, a tab indicating the ID of the display module 2 is selected, a check box indicating validity / invalidity for each of the touch operation and the remote controller operation, and a radio box for selecting a privileged mode and a shared mode. Each mode can be set individually by operating. Further, for example, the timeout time can be set by an operation such as selecting a “time” tab and inputting the timeout time. In order to prevent undesired setting changes, it is desirable to permit display of settings and change of settings only when, for example, authentication such as password entry for an administrator is successful.
[0044]
As shown in FIG. 6, the display module 2 according to the present embodiment includes an IrDA port 24, can communicate with the remote controller 8, and as shown in FIG. 1, the panel setting unit 3f includes a touch panel. The mode of the input means connected to the 22 display modules 2 and the mode of the input means connected as required like the remote controller 8 can be set separately. Here, the remote controller 8 can be held by a specific person such as an administrator, for example, and the number of users can be limited. On the other hand, since the touch panel 22 is fixed to the installation place of the display module 2, the place of use can be limited. Therefore, by setting both modes separately, the operation right of the display module 2 can be set according to both the user and the installation location.
[0045]
The remote controller 8 may include a number of operation buttons and the like, and may be directly operable in the same manner as the display module 2 or may be capable of instructing only the operation requesting the operation right to the display module 2. In the latter case, when the operation right determination unit 3e receives the operation of the remote controller 8, the operation right of the display module 2 communicated with the remote controller 8 according to the mode set for the combination of the remote controller 8 and the display module 2. Determine. Thereby, in any case, a user (administrator or the like) instructed by the remote controller 8 can operate the display module 2 (or the remote controller 8) in a mode different from the touch panel 22. 7 and 11, the case where the panel setting unit 3f sets the mode for the combination of the remote controller 8 and the display module 2 has been described as an example, but the mode is set in the remote controller 8 itself. May be. In this case, for example, if the remote controller 8 outputs an ID for identifying itself, the remote controller 8 can be specified. In any case, the same effect can be obtained if a mode different from the touch panel 22 of the display module 2 can be set in the remote controller 8.
[0046]
By the way, in the graphic operation panel 1 according to the present embodiment, as described above, the display module 2 is shared with the integrated graphic operation panel, and even when integrated, it is between the modules 2 and 3. The boundary is formed so as not to be seen from the screen side of the display module 2. As a result, in a state where the display module 2 is installed, the operator of the display module 2 forms an integrated graphic operation panel as shown in FIG. 3, or as shown in FIG. In addition, it is impossible to determine whether the same main body module 3 is connected together with other display modules 2.
[0047]
On the other hand, when the display module 2 is set to the sharing mode or the invalid mode, unlike the case of the integrated graphic operation panel, the display module 2 is operating normally although the display module 2 is operating normally. May be ignored by exclusive control and may not be reflected in the operation of the control unit 3c.
[0048]
In this case, the operator may misunderstand that the input to the display module 2 has failed and may repeat the same operation or misunderstand that the display module 2 is out of order. Here, in many cases, the control system includes a touch panel 22 as an input unit of the display module 2 in order to improve durability against dust, water, oil, or the like. Compared to the above, it is easy to make an erroneous input, so the misunderstanding is likely to occur.
[0049]
Therefore, the main body module 3 according to the present embodiment is provided with the lamp control unit (lighting control means) 3g. In the invalid mode, the lamp control unit 3g is connected to the display module 2 via the connector C31 or the like. The lamp control circuit 27 is instructed to blink the power lamp 26, and the display state of the power lamp 26 is set to a state different from that in the privileged mode or the shared mode. The power lamp 26 of each display module 2 is specified by the transmission destination address when the lamp control unit 3g sends the USB signal, and the lamp control circuit 27 of each display module 2 has the transmission destination address of the display module of its own device. 2 is controlled, the display state of the power lamp 26 is controlled. Thereby, since the display module 2 can alert | report each operator whether it is an invalid mode, it can prevent an operator's misunderstanding.
[0050]
Furthermore, the main body module 3 according to the present embodiment includes a release request display instruction unit 3h, and the operation identification unit 3a displays other sharing modes while the sharing mode display module 2 has the operation right. When an instruction from the module 2 is received, the display control unit 3b is instructed to display the name of the display module 2 for which a release request has been made in the area A3 shown in FIG. As a result, the operator of the display module 2 who has the operation right can grasp that the other operator wants the operation, and for example, by pressing the release button described above, the operation right is released early. Can be delegated more appropriately. Note that, for example, when an important operation is performed, if the operator does not instruct the abandonment of the operation right, the display module 2 has a higher priority than the own device such as the display module 2 in the priority mode. As long as the display module 2 is not operated, the operation right can be kept.
[0051]
Further, since the release request is displayed on the display screen of each display module 2, the operator (in this case, the operator of the production line B) who instructed the operation that is the source of the release request has received the operation. Can be identified. Therefore, the operator can wait for the transfer of the operation right without misunderstanding that the input is incorrect.
[0052]
In the above description, whether or not each display module 2 is in the invalid mode is notified according to the display state of each power lamp 26, but whether or not each display module 2 is in the invalid mode is determined by the image displayed on each display module 2. Can also be notified. However, since it is important only for the operator of the display module 2 whether or not it is in the invalid mode, it is preferable to notify each display module 2 individually. Further, the power lamp 26 is provided in many display modules 2. Therefore, if notification is made in the display state of the power lamp 26 as in the present embodiment, notification can be made individually without providing a member for notification.
[0053]
Further, when it is determined whether or not the operator of the display module 2 having the operation right releases, it is possible to more accurately determine the determination in consideration of the request source. Therefore, it is desirable to display the request source at least in the display module 2. In this case, since the number of devices that can be a request source differs depending on each graphic operation panel 1, the image signal (LCD signal) of the display control unit 3b is controlled rather than providing each display module 2 with a member for request source display. Thus, the number of members can be reduced by displaying on the screen of the display module 2. In this case, since it is displayed on all the display modules 2, it is more preferable that the operator who issued the request can grasp that the operation has been accepted by the main body module 3. Although the presence / absence of the sharing mode can be notified depending on the display state of the power lamp 26, when the release request is displayed on the screen, the operator of each display module 2 grasps the sharing mode by the release request. Therefore, it is not necessary to notify the power lamp 26.
[0054]
In the present embodiment, when the transmission signal is branched, the driver unit 4 or the receiver unit 5 branches the signal into two. However, the main body module 3 can identify the operation source, and an image signal having the same content is sent to each display module 2. As long as transmission is possible, the same effect can be obtained even if it is distributed to an arbitrary number at an arbitrary place. However, when branching is performed at a place other than the driver unit 4 or the receiver unit 5, a branching circuit is required separately from the units 4 and 5. Therefore, as shown in the present embodiment, it is preferable to branch to either of the units 4 and 5.
[0055]
In the above description, the case where the image signal is a GVIF signal has been described as an example. However, the same effect can be obtained by transmitting another image signal. Further, the operation signal is not limited to the USB signal. If the main body module 3 can reliably receive the operation from each display module 2 and can identify the operation source, for example, another signal such as an IEEE 1394 signal is transmitted. Widely applicable to cases.
[0056]
【The invention's effect】
  As described above, the main module of the information processing apparatus according to the first aspect of the invention is set to accept input from the setting means for setting whether to accept input from each input / output module and the setting means. Image signal output means for outputting an image signal indicating an image to be displayed on the plurality of input / output modules based on input from the input / output modules, and power of each input / output module according to the setting of the setting means A lighting control means for instructing the lamp to indicate the lighting status.When the image signal output means accepts the input, the image signal output means outputs an image signal indicating the ID and name indicating the set input / output module.It is a configuration.
[0057]
With the above configuration, since the same image is displayed on each input / output module, there is an effect that it is possible to realize an information processing apparatus that can be operated from a plurality of locations without adding an image signal generation circuit. Furthermore, the lighting control means instructs the power lamps to indicate the lighting status according to the setting of each input / output module. Even if it is not possible to distinguish whether or not it is dedicated to output or not, it is possible to distinguish whether or not the input / output module is valid from the lighting state of the power lamp. As a result, if the image does not change even if the operator operates the input / output module, the operator can identify whether the input / output module is invalid, an input error, or a malfunction, and can prevent an erroneous operation due to a mistake in both. Combines effects.
[0058]
  As described above, the recording medium according to the invention of claim 2 is configured such that a program for operating a computer is recorded as the operation identifying means, setting means, image signal output means, and lighting control means according to claim 1. It is.
When the program having the above configuration is executed by a computer, the computer operates as a main module of the information processing apparatus according to claim 1. Therefore, by combining a plurality of input / output modules and the main body module, it is possible to realize an information processing apparatus that can be operated from a plurality of locations without adding an image signal generation circuit. Furthermore, since the validity / invalidity of each input / output module can be notified to each operator depending on the lighting state of the power lamp, there is also an effect that an erroneous operation due to misunderstanding can be prevented.
[0059]
  In addition, the main body module of the information processing apparatus according to the invention of claim 3 further includes a privilege mode in which an operation right to preferentially operate the main body module can be acquired even when another input / output module is in use; When other I / O modules are in use, they cannot be input, and the operation right for the I / O module is released and only when the I / O module is in the free state. This is a configuration provided with a panel setting unit for setting each of the three modes of the invalid mode for each input / output module.
According to a fourth aspect of the present invention, the main module of the information processing device sets the display state of the power lamp when the lighting control means is in the invalid mode to a state different from the privileged mode and the shared mode. It is the composition which is.
[Brief description of the drawings]
FIG. 1, showing an embodiment of the present invention, is a block diagram showing a main configuration of a graphic operation panel.
FIG. 2 is a perspective view showing a module constituting the graphic operation panel and showing a state in which a display module and a main body module are separated from each other.
FIG. 3 is a perspective view showing a module constituting the graphic operation panel, showing a state in which a display module and a main body module are mounted.
FIG. 4 is an electrical connection diagram illustrating a configuration of a collective cable used in the graphic operation panel.
FIG. 5 is a block diagram showing a main configuration of a main body module and a driver unit in the graphic operation panel.
FIG. 6 is a block diagram showing a main configuration of a display module and a receiver unit in the graphic operation panel.
FIG. 7 is a diagram illustrating an operation of the graphic operation panel, and is an explanatory diagram illustrating a display screen when a mode of each display module is set.
FIG. 8 is a diagram illustrating an operation of the graphic operation panel and is an explanatory diagram illustrating a display screen in a state where a panel selector is displayed in the privileged mode.
FIG. 9 is a diagram illustrating an operation of the graphic operation panel, and is an explanatory diagram illustrating a display screen in a state in which a display module acquires an operation right in a sharing mode.
FIG. 10 is a diagram illustrating an operation of the graphic operation panel, and is an explanatory diagram illustrating a display screen in a state where no display module has acquired an operation right in the sharing mode.
FIG. 11 is a diagram illustrating the operation of the graphic operation panel and is an explanatory diagram illustrating another display screen when a mode of each display module is set.
FIG. 12 is a diagram illustrating an operation of the graphic operation panel, and is an explanatory diagram illustrating a display screen in a state where a display module outputs a release request in the sharing mode.
[Explanation of symbols]
1 Graphic operation panel (information processing equipment)
2 Display module (input / output module)
3 Main module
3a Operation identification unit (operation identification means)
3b Display control unit (image signal output means)
3f Panel setting part (setting means)
3g Lamp control unit (lighting control means)
21 LCD (display means)
22 Touch panel (input means)
23 RS232C port (input means)
24 IrDA port (input means)
26 Power lamp
32 USB-IF circuit (communication means)
33 LCD-IF circuit (communication means)

Claims (2)

A plurality of input / output modules each having display means for displaying an image indicated by an image signal, input means for accepting an operation, and a power lamp indicating power on / off, and displaying the same image on each display means An operation identification means capable of receiving an operation from
Setting means for setting whether to accept input from each of the input / output modules;
An image signal output means for outputting an image signal indicating an image to be displayed on the plurality of input / output modules based on an input from the input / output module set upon receiving an input by the setting means;
A main body module of an information processing apparatus comprising a lighting control means for instructing a lighting state to a power lamp of each of the input / output modules according to the setting of the setting means ,
The image signal output means outputs an image signal indicating the ID and the name indicating the input and output modules are set to accept an input,
Said setting means, be a different output module is busy, a privileged mode capable of obtaining the operation right to be accepted preferentially input by said body module operating the main body module, the other input and output modules Is in use, the input is not accepted, and the operation right of the other input / output module is released, and only when the input / output module is in a free state, the input can be accepted by the main module and the operation right can be acquired. One of the three modes, the sharing mode and the invalid mode in which input cannot be received by the main module and the operation right cannot be acquired, is set for each input / output module.
The information processing apparatus characterized in that the lighting control means sets the display state of the power lamp in a state different from the privileged mode and the shared mode when the invalidation mode is set by the setting means. Body module. Information processing apparatus provided with a display unit that displays an image indicated by an image signal, an input unit that receives an operation, and a communication unit that can communicate with a plurality of input / output modules each having a power lamp that indicates power on / off A recording medium on which a computer-readable program for operating the main body module is recorded,
A program for operating a computer as a setting means for setting whether to accept input from each of the input / output modules;
An operation identifying means for controlling the communication means to receive an operation from the input / output module, and common to the plurality of input / output modules based on the input from the input / output module set when the input is received by the setting means. an image signal output means for outputting the image signal, the image signal output means for outputting an image signal indicating the ID and the name indicating the input and output modules are set to accept an input, as well as, setting of the setting means And a lighting control means for instructing the lighting state of each of the power lamps, wherein the display state of the power lamp in the invalid mode is set to a state different from the privileged mode and the shared mode. As a lighting control means, a program for operating a computer is recorded,
Program for operating the computer as the setting means may be another output module is busy, the privileged mode can be acquired by accepted preferentially input by said body module operation right to operate the main module , when other input and output modules is in use, not accepted the input, the operation right of the other input and output modules is opened, only when it is free state, and accept the input by the body module a sharing mode which can obtain the operation right, one of three modes for the disabled mode can not be obtained the operation right does not accept the input by the body module, characterized that you set for each input and output module recoding media.

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