JP4277263B2 - Electronic equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic device to which a peripheral device can be connected.
[0002]
[Prior art]
In electronic devices, it is well known to connect peripheral devices to the main body of the electronic device in order to expand its functions. The electronic device body may not have data corresponding to the peripheral device when the peripheral device to be connected is a new peripheral device. When the electronic device main body does not have a control program for the peripheral device, it is known to send the control program from the peripheral device to the electronic device main body (see Patent Document 1 and Patent Document 2).
[0003]
[Patent Document 1]
JP-A-7-264361 [Patent Document 2]
Japanese Patent Laid-Open No. 8-69224
[Problems to be solved by the invention]
However, if information related to the peripheral device is displayed on the electronic device main body side, the electronic device main body holds all display data related to the peripheral device, and a large-capacity memory is required in the electronic device main body. May be. In particular, when the display data related to the peripheral device is image data, the amount of display data to be retained is much larger than the amount of display data and the amount of control program data when displaying characters (text). May increase.
[0005]
An object of the present invention is to provide an electronic device capable of solving the above-described conventional problems and easily displaying information related to peripheral devices.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the present invention is characterized by comprising an electronic device body and at least one peripheral device connected to the electronic device body, the electronic device body being attached to the electronic device body. A receiving unit that receives data related to the connected peripheral device from the peripheral device, a received data storage unit that stores data received by the receiving unit, and an image based on the data received by the receiving unit are displayed. Display means, and the peripheral device is associated with the peripheral device to be displayed by the display means when a predetermined abnormal event occurs after the receiving means can receive data from the peripheral device. image data, and storage means for storing data including a control data associated with said peripheral device, a part of the image data which the memory means stores said receiving means the Transmitted to the electronic apparatus main body when it becomes capable of receiving data from the edge devices, when a predetermined abnormal event occurs, the display unit to be displayed, the remaining image data not yet transmitted to the electronic device main body together with the control data and a transmitting means for transmitting to the electronic apparatus main body, said electronic device body further said receiving means predetermined and received image data when it becomes capable of receiving data from said peripheral device Image combining means for combining an image according to received control data using image data received at the time of occurrence of an abnormal event, and the display means includes a predetermined abnormality for the image combined by the image combining means There is an electronic device that displays when an event occurs. Therefore, the electronic device main body can receive information related to the connected peripheral device from the peripheral device when a predetermined abnormal event occurs after the operation of the peripheral device starts, so there is a possibility of being connected. It is not necessary to hold information required when a predetermined abnormal event occurs after the operation of all peripheral devices starts, and the capacity of the memory provided in the electronic device main body can be suppressed.
[0011]
Preferably, the transmission means transmits image data and control data to be transmitted when a predetermined abnormal event occurs in a different manner.
[0012]
The transmission means includes a correspondence table that is included in the control data stored in the storage means and associates the image data with the control data when the reception means can receive data from the peripheral device or is determined in advance. It is preferably transmitted when an abnormal event occurs, and the display means displays based on the correspondence table.
[0013]
The electronic apparatus main body includes at least an image forming apparatus main body having an image carrier.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described with reference to the drawings.
An electronic device according to an embodiment of the present invention includes an electronic device to which a peripheral device can be connected, and includes, for example, an image forming apparatus, a PC (personal computer), and the like.
Hereinafter, in order to make the description concrete, an image forming apparatus will be described as an example of an electronic apparatus according to an embodiment of the present invention.
FIG. 1 shows an outline of an image forming apparatus 10 according to an embodiment of the present invention. The image forming apparatus 10 includes an image forming apparatus main body 12, an image reading apparatus 14, an external sheet supply apparatus 16, and a post-processing apparatus 18.
[0015]
The image forming apparatus main body 12 includes, for example, three-stage sheet supply trays 20, and a supply head 22 is provided in each of the sheet supply trays 20. When one of the sheet supply trays 20 is selected, a sheet is supplied from the selected sheet supply tray 20 to the print engine 26 via the sheet supply path 24 by operating the supply head 22.
[0016]
The print engine 26 is composed of, for example, xerography, and includes a photoconductor 28, a charging roll 30 for uniformly charging the surface of the photoconductor 28, a laser writing device 32 for writing a latent image on the photoconductor 28, and a developing device for developing. 34, a transfer roll 36 for transferring the developed toner image to the sheet, a cleaner 38 for removing residual toner, and a fixing device 40 for fixing the toner image on the sheet. The surface of the photosensitive member 28 is uniformly charged by the charging roll 30, a latent image is formed by the laser writing device 32, this latent image is developed by the developing device 34, transferred to the sheet by the transfer roll 36, and the fixing device 40. And is discharged from the sheet discharge path 42 to the sheet discharge trays 44a and 44b via the post-processing device 18.
[0017]
However, when duplex printing is set, the sheet having one surface fixed by the fixing device 40 is sent from the sheet discharge path 42 to the reversing device 46, reversed by the reversing device 46, and sent to the sheet reversing path 48. Then, the sheet is returned to the sheet supply path 24 and sent to the print engine 26 for printing on the other side.
[0018]
The image reading device 14 includes an automatic document feeder 50 such as an ADF, and a scanner 52 that reads and scans an image sent by the automatic document feeder 50. The automatic document feeder 50 feeds the sheet to the platen 54, and the scanner 52 reads the sheet image on the platen 54. When copying is set by the image forming apparatus 10, the image read by the image reading apparatus 14 is printed and copied by the image forming apparatus main body 12.
[0019]
The input / display (UI) unit 56 includes, for example, a touch panel, and is provided on the upper part of the image forming apparatus main body 12. Processing contents of the image forming apparatus main body 12, the image reading device 14, the external sheet supply device 16, and the post-processing device 18. Is selected and displayed.
[0020]
The external sheet supply device 16 includes, for example, two-stage option trays 58a and 58b. Each of the option trays 58a and 58b is provided with a supply head 22 in the same manner as the sheet supply tray 20. When one of the option trays 58a and 58b is selected, the sheet is supplied to the print engine 26 via the sheet supply path 24 from one of the selected option trays 58a and 58b by operating the supply head 22. It has become.
[0021]
The post-processing device 18 includes a stapler 60 and the like, and is selectively used according to the selection of the UI unit 56. If the stapler 60 is not selected, the stapler 60 is discharged as it is to the sheet discharge trays 44a and 44b.
[0022]
2, the configurations of the image forming apparatus main body 12, the image reading apparatus 14, the external sheet supply apparatus 16, and the post-processing apparatus 18 are shown. The electronic device main body 12 includes a CPU 62, a ROM 64, a RAM 66, a print engine 26, an input / display (UI) unit 56, a communication interface unit (communication I / F) 68, and the like. Can be input and output.
[0023]
The CPU 62 transmits and receives signals to and from each part constituting the image forming apparatus main body 12 via the system bus 70 and controls each part constituting the image forming apparatus main body 12. The ROM 64 stores data such as a control program for controlling the image forming apparatus main body 12, and outputs the stored data to the CPU 62 and the like via the system bus 70 when accessed from the CPU 62. Note that the ROM 64 may be a non-volatile memory such as a flash ROM in order to retain data received by the image forming apparatus main body 12 described later even when the power is turned off. The RAM 66 stores data for the CPU 62 to control the image forming apparatus main body 12, data received from the image reading apparatus 14, the external sheet supply apparatus 16, and the post-processing apparatus 18 via the communication I / F 68. The print engine 26 forms an image as described above based on the control of the CPU 62.
[0024]
The UI unit 56 receives input from the operator, selects processing contents of the image forming apparatus main body 12, the image reading apparatus 14, the external sheet supply apparatus 16, and the post-processing apparatus 18 and displays them. The UI unit 56 can perform display based on data received from the image reading device 14, the external sheet supply device 16, and the post-processing device 18 via the communication I / F 68. The communication I / F 68 transmits / receives signals to / from the image reading device 14, the external sheet supply device 16, and the post-processing device 18 via the serial bus 88 and parallel bus 90, and the CPU 62, RAM 66, and UI via the system bus 70. Signals are transmitted to and received from the unit 56 and the like.
[0025]
The serial bus 88 transmits control data with a small amount of data. The parallel bus 90 may be a high-speed serial bus that transmits image data having a large amount of data and can transmit data faster than the serial bus 88. That is, each of the serial bus 88 and the parallel bus 90 is used according to the type of data.
[0026]
The image reading device 14 includes a CPU 76, a ROM 78 a, a RAM 80, an image reading device control unit 82, a communication interface unit (communication I / F) 84, and the like that can input and output signals to and from each other via a system bus 86. It is configured to be able to. The CPU 76 sends and receives signals to and from each part constituting the image reading apparatus 14 via the system bus 86 and controls each part constituting the image reading apparatus 14. The ROM 78a stores a control program for controlling the image reading device 14, image data related to the image reading device 14, control data, a correspondence table for associating the image data with the control data, and the like. The RAM 80 temporarily stores data for the CPU 76 to control the image reading device 14. The image reading device control unit 82 controls the automatic document feeder 50 and the scanner 52 based on the control of the CPU 76. The communication I / F 84 transmits and receives signals to and from the image forming apparatus main body 12 via the serial bus 88 and the parallel bus 90, and transmits and receives signals to and from the CPU 76 and the ROM 78 a via the system bus 86.
[0027]
The external sheet supply device 16 includes a CPU 76, a ROM 78b, a RAM 80, an external sheet supply device control unit 92, a communication I / F 84, and the like, and these are configured to be able to input and output signals via the system bus 86. Has been.
In addition, in each part which comprises the external sheet supply apparatus 16, the same code | symbol is attached | subjected to the substantially same part as each part which comprises the image reading apparatus 14. FIG.
The ROM 78b stores a control program for controlling the external sheet supply apparatus 16, image data related to the external sheet supply apparatus 16, control data, a correspondence table for associating the image data with the control data, and the like. The external sheet supply device control unit 92 controls the supply heads 22 and the like of the option trays 58a and 58b based on the control of the CPU 76.
[0028]
The post-processing device 18 includes a CPU 76, a ROM 78c, a RAM 80, a post-processing device control unit 94, a communication I / F 84, and the like, and these are configured to be able to input and output signals to and from each other via the system bus 86. Yes.
In addition, in each part which comprises the post-processing apparatus 18, the same code | symbol is attached | subjected to the substantially same part as each part which comprises the image reading apparatus 14. FIG.
The ROM 78c stores a control program for controlling the post-processing device 18, image data related to the post-processing device 18, control data, a correspondence table for associating image data and control data, and the like. The post-processing device control unit 94 controls the stapler 60 and the like based on the control of the CPU 76.
Hereinafter, when any one of the image reading device 14, the external sheet supply device 16, and the post-processing device 18 is described without being specified, it may be simply abbreviated as a peripheral device.
[0029]
Next, display data related to the peripheral device will be described in detail.
In FIG. 3, a “tray selection screen” is shown as an example in which information related to the external sheet supply device 16 is displayed on the UI unit 56 of the image forming apparatus main body 12.
When the operator selects, for example, the “tray selection screen” via the UI unit 56, the image forming apparatus main body 12 receives display data related to the external sheet supply apparatus 16 from the ROM 78 b of the external sheet supply apparatus 16. And displayed on the UI unit 56. For example, when the external sheet supply device 16 connected to the image forming apparatus main body 12 is changed from one having only the optional tray 58a to one having the optional trays 58a and 58b, the image displayed on the UI unit 56 is also connected. It varies depending on the type of the external sheet supply device 16 to be used. In addition, when a plurality of trays are displayed on the “tray selection screen”, it is possible to indicate which tray is to be used by displaying a single used tray in white. Good.
[0030]
When the post-processing device 18 selects a sheet discharge destination from one of the sheet discharge trays 44a and 44b, display data related to the post-processing device 18 is transferred from the ROM 78c of the post-processing device 18 to the image forming apparatus. The main body 12 may receive the information and display it on the UI unit 56 so that the operator can select one of the sheet discharge trays 44a and 44b.
[0031]
FIG. 4 shows an example in which an abnormality related to the peripheral device is displayed on the UI unit 56. For example, when an abnormality occurs in the post-processing device 18, the display data related to the abnormality of the post-processing device 18 is received by the image forming apparatus body 12 from the ROM 78 c of the post-processing device 18, and an “abnormality notification screen” indicating an abnormal part or the like is displayed. Is displayed. Further, in the post-processing device 18, when the pins of the stapler 60 run out, a screen showing the pin replacement procedure may be displayed.
[0032]
Next, timing for transmitting display data to be displayed on the UI unit 56 from the peripheral device to the image forming apparatus main body 12 will be described. FIG. 5 is a diagram illustrating two timings when the peripheral device transmits display data to be displayed on the UI unit 56. FIG. 5A shows the timing for transmitting display data from the peripheral device when the UI unit 56 needs to display based on the display data. When it is necessary for the UI unit 56 to display based on the display data (a display event occurs), the display data is transmitted from the peripheral device to the UI unit 56 via the CPU 62 and the RAM 66 of the image forming apparatus main body 12. A display based on the data transmitted at time T1 and stored in the ROMs 78a to 78c is displayed by the UI unit 56.
[0033]
On the other hand, FIG. 5B shows the timing of transmitting display data from the peripheral device when the peripheral device is enabled. The peripheral device becomes effective when, for example, the power is turned on or when the peripheral device is connected while the power is on. When the peripheral device is enabled, the display data is transmitted to the RAM 66 or the like at the transmission time T1 ′ via the CPU 62 of the image forming apparatus main body 12 regardless of whether or not display data is required in the UI unit 56. The display data is temporarily held in the RAM 66, for example, until the power is turned off. Therefore, when a display event occurs, the UI unit 56 can access the RAM 66 at the access time T2 and display based on the data stored in the ROMs 78a to 78c.
[0034]
As described above, if display data is transmitted when a display event occurs, the RAM 66 of the image forming apparatus main body 12 can be used efficiently, and an unnecessary load is applied to the CPU 62 and the CPU 76 of the peripheral device. Can be prevented. On the other hand, if the display data is transmitted when the peripheral device is enabled, the display response to the display event can be accelerated. Therefore, data that needs a faster display response may be sent when the peripheral device is enabled, and data that may take longer to display may be sent when a display event occurs. . For example, the display that may take time includes an initial screen and a standby screen, and the display that requires quick response includes occurrence of a sheet jam, a cause, and a removal procedure. Further, the transmission of display data when a display event occurs and the transmission of display data when a peripheral device is enabled may be divided according to the frequency of use of the screen to be displayed. . For example, a screen with high use frequency includes replacement of peripheral devices and display of operating procedures, and a screen with low use frequency includes display of procedures corresponding to failures.
[0035]
Next, the display configuration of the UI unit 56 related to the peripheral device will be described. FIG. 6 shows a display configuration of the UI unit 56 related to the peripheral device. For example, when a sheet jam occurs in the post-processing device 18, the image forming apparatus body 12 receives display data related to the sheet removal procedure for the sheet jam of the post-processing device 18 from the ROM 78 c of the post-processing device 18. The sheet removal procedure ”is displayed on the UI unit 56. The screen indicating “sheet removal procedure when sheet jam occurs” includes data of “screen frame”, “procedure display image”, and “message”, and each data is stored in the correspondence table shown in FIG. Based on this, it is synthesized and displayed on the UI unit 56. For example, the “sheet removal procedure at the time of sheet jamming” shown in FIG. 6 shows an example in which the “procedure code” in the correspondence table shown in FIG. 7 is J1. That is, the correspondence table associates the “procedure code” with the data to be synthesized. When the “procedure code” is J1, the “screen frame” is FR1 and the “procedure display image” is PR1. , "Message" is MSG1, and the sheet removal procedure when a sheet is jammed is sequentially guided.
In the image forming apparatus 10, “screen frame” and “procedure display image” are handled as image data, and “procedure code” is handled as control data.
Also, general-purpose “screen frames” etc. may be sent from the peripheral device when the peripheral device is enabled, and individual “messages” etc. may be sent from the peripheral device when display needs to occur. Good.
[0036]
Next, processing for displaying information related to the peripheral device on the UI unit 56 will be described. FIG. 8 is a flowchart (S10) showing a process for causing the UI unit 56 to display information related to the peripheral device. As shown in FIG. 8, in step 100 (S100), the peripheral device provides the image forming apparatus main body 12 with a correspondence table related to the peripheral device, and “screen frame” and “procedure display” included in the correspondence table. Data of “image” and “message” are transmitted. The reception data received by the image forming apparatus main body 12 is stored in the RAM 66, for example.
[0037]
In step 102 (S102), if an abnormality such as a sheet jam described above (display event) occurs in the peripheral device, the process proceeds to S104.
[0038]
In step 104 (S 104), the peripheral device transmits a “procedure code” corresponding to the display event to the image forming apparatus main body 12 via the serial bus 88.
[0039]
In step 106 (S106), the CPU 62 of the image forming apparatus main body 12 refers to the correspondence table stored in the RAM 66, and “screen frame”, “procedure display image” and “procedure display image” corresponding to the “procedure code” received in S104. The “message” is synthesized and displayed on the UI unit 56.
[0040]
Next, the operation of the above embodiment will be described.
In the image forming apparatus 10, for example, when the image reading apparatus 14, the external sheet feeding apparatus 16, and the post-processing apparatus 18 are connected to the image forming apparatus main body 12, data that needs to be displayed quickly is The image is transmitted from the peripheral device to the image forming apparatus main body 12. When the operator makes settings such as processing to the peripheral device and the image forming apparatus main body 12 via the UI unit 56, the sheet is sent out from either the sheet supply tray 20 or the option trays 58 a and 58 b by the supply head 22. Then, the sheet is guided to the sheet supply path 24. Then, the toner image is transferred to the sheet by the transfer roller 36, fixed by the fixing device 40, and discharged from the sheet discharge path 42 to the sheet discharge trays 44 a and 44 b of the post-processing device 18. However, when duplex printing is set, the sheet is sent from the sheet discharge path 42 to the reversing device 46, reversed by the reversing device 46, sent to the sheet reversing path 48, and returned to the sheet supply path 24 again. Then, it is sent to the print engine 26 for printing on the other side.
[0041]
As described above, the electronic apparatus main body such as the image forming apparatus main body 12 is stored in memories such as the ROMs 78 a to 78 c provided in peripheral devices such as the image reading device 14, the external sheet supply device 16, and the post-processing device 18. The display unit receives the display data and causes the UI unit 56 to display information related to the peripheral device, so that the electronic device body can easily display information related to the peripheral device while suppressing the memory capacity of the electronic device body. Can do.
In addition, a memory such as a ROM provided in the peripheral device stores display data, control data, a control program for controlling the peripheral device, and the peripheral device is connected to the electronic device main body. By transmitting data related to the peripheral device, it is possible to eliminate the need for the operator to exchange software in accordance with the change of the peripheral device.
Display data received by the electronic device main body may be erased, for example, when the power is turned off or the peripheral device is removed, and corresponds only to the connected peripheral device. The electronic device main body may hold display data or the like.
The RAM 66 or ROM 64 (such as a flash ROM) of the image forming apparatus main body 12 stores data indicating the history of data received from the peripheral device, and the CPU 62 displays display data when a display without a reception history is required. You may make it perform reception.
[0042]
In addition, since software corresponding to the type of the peripheral device is stored in the peripheral device, software management can be facilitated. The peripheral device may not include a CPU as long as the peripheral device includes a memory for storing display data such as a ROM.
Further, during the development of the electronic device main body, the electronic device main body and the peripheral device can be connected without preparing display data related to the peripheral device, and the respective development times can be made independent.
When the electronic apparatus main body is the image forming apparatus main body 12 or the like, a coin unit or the like that manages charging may be connected as a peripheral device.
[0043]
【The invention's effect】
As described above, according to the present invention, since the peripheral device has display data, information related to the peripheral device can be easily displayed.
[Brief description of the drawings]
FIG. 1 is a side view of an image forming apparatus according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a configuration of an image forming apparatus according to an embodiment of the present invention.
FIG. 3 is a diagram illustrating an example in which information related to an external sheet supply apparatus is displayed on a UI unit of the image forming apparatus main body.
FIG. 4 is a diagram illustrating an example in which an abnormality related to a peripheral device is displayed on a UI unit.
FIG. 5 is a diagram illustrating two timings when a peripheral device transmits display data to be displayed on a UI unit.
FIG. 6 is a diagram illustrating a display configuration of a UI unit related to a peripheral device.
FIG. 7 is a diagram illustrating an example of a correspondence table of the post-processing device.
FIG. 8 is a flowchart illustrating processing for displaying information related to a peripheral device on a UI unit.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Image forming apparatus 12 Image forming apparatus main body 14 Image reading apparatus 16 External sheet supply apparatus 18 Post-processing apparatus 44a, 44b Sheet discharge tray 56 Input / display (UI) part 58a, 58b Option tray 60 Staplers 62, 76 CPU
64, 78a-78c ROM
66,80 RAM
68,84 Communication interface (communication I / F)
88 Serial bus 90 Parallel bus

Claims (4)

An electronic device body;
And at least one peripheral device connected to the electronic device body,
The electronic device body is
Receiving means for receiving data related to the peripheral device connected to the electronic device main body from the peripheral device;
Received data storage means for storing data received by the receiving means;
Display means for displaying an image based on the data received by the receiving means,
The peripheral device is:
Image data related to the peripheral device to be displayed by the display means when a predetermined abnormal event occurs after the receiving means can receive data from the peripheral device, and control data related to the peripheral device Storage means for storing data including:
A part of the image data stored in the storage means is transmitted to the electronic device main body when the receiving means can receive data from the peripheral device, and the display means displays when a predetermined abnormal event occurs. And transmitting means for transmitting the remaining image data that has not been transmitted to the electronic apparatus main body to the electronic apparatus main body together with control data,
The electronic device body further includes:
An image that synthesizes an image in accordance with the received control data using the image data received when the receiving means can receive data from the peripheral device and the image data received when a predetermined abnormal event occurs. Having a synthesis means,
The display means includes
An electronic apparatus characterized by displaying an image synthesized by the image synthesizing means when a predetermined abnormal event occurs. 2. The electronic apparatus according to claim 1, wherein the transmission means transmits image data and control data to be transmitted when a predetermined abnormal event occurs in a different manner. The transmission means includes a correspondence table that is included in the control data stored in the storage means and associates the image data with the control data when the reception means can receive data from the peripheral device or is determined in advance. 3. The electronic apparatus according to claim 1, wherein the electronic apparatus transmits the abnormal event and displays the display based on the correspondence table.   4. The electronic apparatus according to claim 1, wherein the electronic apparatus main body is an image forming apparatus main body having at least an image carrier.

Images