JP3618854B2 - Image recording apparatus and image recording system - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to an image recording apparatus and an image recording system capable of recording an image on a recording medium by connecting a plurality of optional devices.
[0002]
[Prior art]
Conventionally, an image recording apparatus such as a laser printer using an electrophotographic process is configured as shown in FIG.
[0003]
FIG. 20 is a schematic block diagram for explaining a control configuration of a conventional image recording apparatus. A paper handling function (for example, a recording medium feeding function from a paper deck, a sheet is discharged from a basic image recording apparatus. This corresponds to the case where the recording medium sorting function) can be expanded.
[0004]
In the figure, reference numeral 1001 denotes an image recording apparatus main body, which has a video controller 1002 and an engine controller 1003 described later. The video controller 1002 mainly performs control related to image processing, and develops image information transmitted from an external device 1009 such as a personal computer through a general-purpose interface such as a Centronics interface into bit data.
[0005]
The engine controller 1003 mainly controls charging, exposure, development, transfer, fixing, paper conveyance and the like related to the electrophotographic process. Reference numeral 1004 denotes a video interface, which connects the video controller 1002 and the engine controller 1003 to enable mutual communication.
[0006]
A paper deck option 1005 stores a large amount of recording paper and feeds the recording paper to the image recording apparatus main body 1001 in accordance with an instruction from the engine controller 1003. A 1006 paper deck interface connects the engine controller 1003 and the paper deck option 1005 to enable mutual communication.
[0007]
Reference numeral 1007 denotes a sorter option, which has a plurality of stacking trays (provided with a plurality of unillustrated discharge bins), and records recorded paper discharged from the image recording apparatus main body 1001 according to a command from the engine controller 1003. Sorted into (by group, etc.) and loaded. Reference numeral 1008 denotes a sorter interface, which connects the engine controller 1003 and the sorter option to enable mutual communication.
[0008]
In the above configuration, when the video controller 1002 receives image information and a print command from an external device, the video controller 1002 sends a video signal obtained by converting the image information into bit data and a print command to the engine controller 1003 via the video interface 1004. At this time, the video controller 1002 also sends instructions regarding the use of the paper deck option 1005 and the use of the sorter option 1007 based on a user instruction from an external device or an operation panel (not shown) connected to the video controller 1002. To do.
[0009]
The engine controller 1003 controls members and devices related to the electrophotographic process built in the image recording apparatus main body 1001, that is, charging, exposure, development, transfer, fixing, paper conveyance, and the like, and an image based on the received video signal. Make a record.
[0010]
At the same time, based on the instruction of the video controller 1002, the paper deck option 1005 is controlled via the paper deck interface 1006 to instruct the feeding timing, and the sorter option is controlled via the sorter interface 1008. To instruct recording paper sorting.
[0011]
[Problems to be solved by the invention]
However, the conventional example has the following problems. That is, in the above conventional example, the engine controller 1003 and each option unit are connected in a one-to-one relationship, and the combination is fixed.
[0012]
Therefore, in order to increase the functionality of the optional unit, the engine controller 1003 that controls the optional unit also needs to be improved in its capacity.
[0013]
In recent years, the environment in which an electronic recording apparatus is used is diversified, and accordingly, it is desired to increase the functionality of optional units equipped and to use various optional units in any combination.
[0014]
However, in order to be able to control a wide variety of optional units with the conventional configuration, the number of control objects other than the electrophotographic process control of the engine controller itself has increased, increasing the cost of the engine controller. This has a problem such as a wasteful cost increase especially for a user who does not use the option unit.
[0015]
The present invention has been made to solve the above-described problems, and an object of the present invention is to connect a video controller via an option unit interface in a state where the general controller is connected via the general interface. Predetermined option information is obtained from each option device, the obtained option information and identification information allocated to the connected option device are stored, the designation of the option device is converted into identification information, and one unit By notifying the overall controller that controls and controls the above optional devices, it is possible to reduce the cost to be borne by the user when designing a system by freely combining various optional devices requested by the user. Option feeding / discharging unit is managed by ID without any difference, optional It is to provide an image recording apparatus and an image recording system capable of handling the delivery unit to the more generic ones.
[0016]
[Means for Solving the Problems]
According to a first aspect of the present invention, there is provided an engine controller that performs printing based on image data, and is connected to the engine controller via a video interface, and image data is transmitted to the engine controller based on code data sent from an external device. For connecting a video controller that transmits a video signal to one or more optional devices via an option unit interface, and to connect an overall controller that controls the one or more optional devices via the overall interface. The video controller includes: acquisition means for acquiring option information of the connected optional device via the overall controller; identification information allocated to the connected optional device; and the acquisition means. And optional information storage means for storing the option information acquired Ri, converts the specified option device identification information, characterized in that the converted identification information and a means for notifying the overall controller.
[0017]
According to a second aspect of the present invention, the video controller has means for notifying the engine controller of the designation of a built-in device.
[0018]
According to a third aspect of the present invention, a signal output from the engine controller and passing through the video controller is input to the general controller.
[0019]
According to a fourth aspect of the present invention, there is provided an engine controller that performs printing based on image data, and is connected to the engine controller via a video interface, and image data is transmitted to the engine controller based on code data sent from an external device. A video controller, one or more optional devices, and the one or more optional devices connected to each other via an option unit interface, and connected to the video controller via a general interface, and the one or more optional devices An overall controller that controls the device in an integrated manner, and the video controller obtains option information of the connected option device via the overall controller, and information assigned to the connected option device. Option information storage means for storing information and option information acquired by the acquisition means; and means for converting designation of an option device into identification information and notifying the integrated controller of the converted identification information. And
[0020]
According to a fifth aspect of the present invention, the video controller has means for notifying the engine controller of the designation of a built-in device.
[0021]
According to a sixth aspect of the present invention, a signal output from the engine controller and passing through the video controller is input to the general controller.
[0048]
【Example】
Embodiments of an image recording apparatus according to the present invention will be described below in detail with reference to the drawings.
[0049]
[First embodiment]
FIG. 1 is a block diagram for explaining the configuration of an image recording apparatus according to a first embodiment of the present invention, for example, a case of a laser beam printer. Needless to say, the image recording apparatus to which the present embodiment is applied is not limited to a laser beam printer, but may be a printer of another printing system such as an ink jet printer. In the following description and drawings, an example in which two optional units are connected will be described. However, more optional units can be connected. The configuration and operation will be described below.
[0050]
In FIG. 1, reference numeral 110 denotes an external device such as a host computer, which communicates with the image recording apparatus main body 101 to transfer print information (including control information such as code data based on a predetermined printer language, image data, and the like). In this embodiment, the image recording apparatus main body 101 is constituted by a laser beam printer engine. An engine controller 102 forms a latent image on a photosensitive drum by a known electrophotographic process based on image data (binary or multivalued data), transfers the image onto a sheet, fixes the image, and performs printing.
[0051]
A video controller 103 is connected to the engine controller 102 via the interface 28 and receives code data (ESC code) and various PDLs (Postscript, LIPSIII, IV, CaPSL, etc.) sent from an external device 110 such as a host computer. Then, page information composed of dot data is generated based on the code data, and image data is transmitted to the engine controller 102 through the interface 28.
[0052]
A panel controller 104 controls input / output with a panel unit (not shown) that interfaces with a user (operator). The user can instruct the laser beam printer 101 to perform a predetermined operation by operating a panel unit (not shown), and various set data are stored and managed in a non-volatile memory (NVRAM, EEPROM). The
[0053]
Reference numeral 105 denotes an overall controller, which is an overall controller that controls one or more option units in an integrated manner, and communicates with the option controllers provided in the various option devices to centrally control the various option devices.
[0054]
Reference numeral 107 denotes a four-stage cassette controller which controls a four-stage cassette option unit as an optional device described later. A paper deck controller 108 controls a paper deck option unit as an optional device described later. Reference numeral 109 denotes a sorter controller which controls a sorter option unit as an optional device described later.
[0055]
The overall controller 105 manages each option unit by a common option unit interface 70 described later, and communicates with the video controller 103 via the overall interface 106. This embodiment is characterized in that the video controller 103 controls the paper supply / discharge option unit via the overall controller 105.
[0056]
FIG. 2 is a schematic cross-sectional view for explaining the configuration of an image recording system according to the present invention and an image recording system including an option unit thereof.
[0057]
In FIG. 2, reference numeral 1 denotes a laser beam printer main body (hereinafter referred to as “main body”), and the recording paper S accommodated in the cassette 2 is supplied into the main body 1 by the paper feed roller 3. The optional paper feed roller 4 supplies the recording paper S fed from a paper feed option, the details of which will be described later, into the main body 1.
[0058]
A registration roller pair 5 that synchronously conveys the recording paper S is provided downstream of the paper supply roller 3 and the optional paper supply roller 4. Laser light emitted from the laser scanner unit 6 is provided downstream of the registration roller pair 5. Thus, an image recording unit 7 for forming a toner image on the recording paper S is provided.
[0059]
Further, a fixing device 8 for thermally fixing the toner image formed on the recording paper S is provided downstream of the image recording unit 7, and the paper conveyance state of the paper discharge unit is detected downstream of the fixing device 8. A paper discharge sensor 9, a transport roller 10 for transporting the recording paper S, a flapper 11 for switching the transport direction of the recording paper S for which recording has been completed, and the like are provided. By switching the flapper 11, the recording paper S passes the paper discharge roller 12 and is stacked on the stacking tray 13, or is conveyed to the optional paper discharge roller 14 to be conveyed to the paper discharge option.
[0060]
The laser scanner unit 6 also includes a laser unit 15 that emits a laser beam modulated based on an image signal (image signal VDO) sent from a video controller 103, which will be described later, and a laser beam from the laser unit 15 as a photosensitive drum. A polygon motor 16 that scans over 20, a beam detector 17 that detects a laser beam position in the scanning direction, an imaging lens group 18, a folding mirror 19, and the like.
[0061]
Further, the image recording unit 7 includes a photosensitive drum 20, a pre-exposure lamp 21, a primary charger 22, a developing device 23, a transfer charger 24, a cleaner 25, and the like necessary for a known electrophotographic process.
[0062]
The engine controller 102 controls the electrophotographic process by the laser scanner unit 6, the image recording unit 7, and the fixing unit 8, and controls the conveyance of the recording paper in the main body 1. In addition, the video controller 103 is connected to an external device (not shown) such as a personal computer via a general-purpose interface (Centronics, RS232C, etc.), expands image information sent via the general-purpose interface into bit data, and the bit Data is sent to the engine controller 102 as a signal VDO. A video interface 28 enables communication between the video controller 103 and the engine controller 102.
[0063]
Next, various option units detachably connected to the main body 1 will be described.
[0064]
Reference numeral 32 denotes an option control unit, which includes a control unit 105 that controls and controls various option units. The control unit 105 is connected to the video controller 103 via a control interface 106 connected by a connector 31. Also, a paper feed relay transport roller 33 and a paper feed relay transport path 34 that relay the recording paper transport from the paper feed system option unit, and a paper discharge relay transport roller 35 that relays the recording paper transport to the paper discharge system option. A paper discharge relay conveyance path 36 is provided.
[0065]
Reference numeral 65 denotes a four-stage cassette option unit that accommodates the recording paper S, and includes four stages of cassettes 69a, 69b, 69c, and 69d. Each of the designated cassettes is fed by a feed roller 67a, 67b, 67c, and 67d. A recording paper S of a predetermined size is fed. Also, the paper feed relay transport rollers 67a, 67b, 67c, 67d for relaying the recording paper transport from other paper feed system option units, the paper feed relay transport path 85, and the recording paper transport to the paper discharge system options are relayed. A paper discharge relay transport roller 66 and a paper discharge relay transport path 86 are provided. The 4-stage cassette option unit 65 is controlled by the 4-stage cassette controller 107.
[0066]
40 is a large-capacity paper deck option unit that accommodates the recording paper S, and includes a paper deck 41 that moves up and down. The recording paper S loaded on the paper deck 41 is fed into a paper deck paper feed roller group 42 as necessary. To feed paper. Also, a paper feed relay transport roller 43 and a paper feed relay transport path 44 that relay the recording paper transport from other paper feed system option units, and a paper discharge relay transport roller that relays the recording paper transport to the paper discharge system option. 45 and a paper discharge relay conveyance path 46. The paper deck option unit 40 is controlled by the paper deck controller 108.
[0067]
A sorter option unit 50 includes a first bin 51, a second bin 52, a third bin 53, and a fourth bin 54 as a plurality of discharge bins, and sorts and stacks the recorded recording sheets S. is there. The recording paper S is sorted into each bin by the first flapper 55, the second flapper 56, the third flapper 57, and the fourth flapper 58. Further, a paper feed relay transport roller 61 and a paper feed relay transport path 62 that relay the recording paper transport from the paper feed system option, and a paper discharge relay transport roller 60 that relays the recording paper transport to other paper discharge system options. And a paper discharge relay conveyance path 59. The sorter option unit 50 is controlled by the sorter controller 109.
[0068]
Further, in the main body 1, reference numeral 26 denotes an operation panel, which is composed of an LCD capable of displaying a bitmap, an LED for indicating a status, and an operation key. It is connected to the video controller 103 by an interface cable (not shown), and operates according to an instruction from the video controller 103.
[0069]
The general controller 105, the four-stage cassette controller 107, the paper deck controller 108, and the sorter controller 109 are connected by connectors 74a and 74b and an option unit interface 70 connected by 71a and 71b and connectors 72a and 72b. 74a, 71a, 72a, 73a are the same connectors, and 74b, 71b, 72b are also the same connectors. Therefore, the paper deck option unit 40 and the sorter option unit 50 can be connected to a position intended by the user by freely switching the upper and lower sides.
[0070]
FIG. 3 is a diagram for explaining an interface with each controller in the image recording system shown in FIG.
[0071]
As shown in this figure, the overall interface 106 is composed of a serial communication interface 80 and four hard signals of an OPTRDY signal 81, a POUTT signal 82, a PFEDT signal 83, and an SPCNG signal 84, which will be described in detail later.
[0072]
Commands such as paper feed designation to the paper deck option unit 40 and paper discharge bin designation to the sorter option unit 50 are transmitted from the video controller 103 via the serial communication interface 80, and the paper deck option unit 40 is in the paper presence / absence state. In addition, the overall controller 105 transmits a status such as a stacking state of each discharge bin of the sorter option unit 50. Note that the overall controller 105 and the video controller 103 can be directly connected by a CPU bus.
[0073]
The OPTRDY signal 81 functions as a signal indicating whether or not an option designated by the video controller 103 can be used. The POUTT signal 82 functions as a timing signal for the main body 1 to discharge the recording paper. The PFEDT signal 83 functions as a signal indicating the timing at which the main body 1 can accept recording paper from the option unit. The SPCNG signal 84 functions as a signal for reducing the speed of the recording paper S that has been transported at high speed in the option unit and matching it with the transport speed of the main body 1.
[0074]
Note that the three signals of the POUTT signal 82, the PFEDT signal 83, and the SPCNG signal 84 are output from the engine controller 102, passed through the video controller 103 via the video interface 28, and input to the overall controller 105.
[0075]
1 and 2, when the video controller 103 receives image information and a print command from an external device 110 such as a personal computer, the video controller 103 sends the print command and the image information to the engine controller 102 via the video interface 28. The received engine controller 102 controls each member related to the electrophotographic process to record an image on the recording sheet S based on the VDO signal, and outputs a POUTT signal, a PFEDT signal, and a SPCNG signal in accordance with the recording sheet conveyance. It occurs at the timing of
[0076]
On the other hand, the video controller 103 transmits a paper feed designation to the paper deck option unit 40, a paper discharge designation to the sorter option unit 50, a paper discharge bin designation, and the like to the overall controller 105 via the serial communication interface 80.
[0077]
In response to this, the overall controller 105 receives the instruction from the video controller 103 and the state of the hardware signal received via the overall interface 106, and via the option unit interface 70, the 4-stage cassette controller 107 and the paper deck controller 108. The sorter controller 109 is controlled to control the paper conveyance in each option unit.
[0078]
The option unit interface 70 performs command / status data communication serially in units of 8 bits in synchronization with a clock (not shown) from the overall controller 105. The connection is serial, and the option controller that determines that there is no option unit following itself loops back the serial data, and the data direction is always as shown in FIG.
[0079]
The overall controller 105 issues commands for options connected at a predetermined interval, acquires a status, and responds to normal state monitoring and instructions from the video controller 103. For data exceeding 8 bits, communication is performed by combining a plurality of predetermined commands / statuses.
[0087]
FIG. 4 is a block diagram illustrating a detailed configuration of the video controller 103 shown in FIG.
[0088]
In the figure, reference numeral 301 denotes a panel interface unit which receives various settings and instructions from the operator from the panel controller 104 by data communication with the panel controller 104. A host interface unit 302 functions as an input / output unit for signals with the external device 101 such as a host computer. Reference numeral 306 denotes an engine interface unit that functions as a signal input / output unit for the engine controller 102 and transmits data signals from an output buffer register (not shown) and controls communication with the printer engine.
[0089]
An image data generation unit 303 generates bitmap data for actual printing based on control code data sent from the external device 101. An image memory 305 stores image data. A CPU 309 controls the entire video controller 103. A ROM 304 stores a control code for the CPU 309. A RAM 307 temporarily stores data used by the CPU 309. Reference numeral 310 denotes an EEPROM which stores data set from the panel unit in a nonvolatile manner. A DMA control unit 308 transfers bitmap data in the image memory to the engine interface unit 306 in accordance with an instruction from the CPU 309.
[0090]
A system bus 311 includes an address bus and a data bus, and includes a panel interface unit 301, a host interface unit 302, an image data generation unit 303, a ROM 304, an image memory 305, an engine interface unit 306, a RAM 307, a DMA control unit 308, a CPU 309, Each of the EEPROMs 310 is connected to access all the functional units on the system bus 311.
[0091]
An option interface unit 312 performs communication with the overall controller 105 in accordance with an instruction from the CPU 309. Further, the POUTT signal 82, the PFEDT signal 83, and the SPCNG signal 84 are sent from the engine interface unit 306 to the overall interface 106 through.
[0092]
The control code for controlling the CPU 309 is composed of an OS that performs time-sharing control in units of load modules called tasks according to a system clock (not shown) and a plurality of load modules (tasks) that operate in units of functions. To do.
[0093]
FIG. 5 is a flowchart showing a first embodiment of the data processing method of the image recording system according to the present invention, and corresponds to the reset processing procedure of the video controller 103 shown in FIG. In addition, (1)-(6) shows each step.
[0094]
First, the CPU 309 performs a predetermined reset operation on each part of the video controller 103 and the engine controller 102 at the time of reset such as when the power is turned on (1), and then instructs the option interface unit 312 to perform a reset instruction. The number n of the optional paper supply / discharge units connected to is acquired (2). At this time, since it is stipulated that up to 5 IDs “0 to 4” are allocated in ascending order from the close connection with the general controller 105, the counter i is initialized to “0” (3 ), The paper supply / discharge capability of ID = 0 to n is acquired (4), the option status table area of the RAM 307 is updated (5), and the status table is updated until the value of the counter i exceeds the number n of connections. (6).
[0095]
FIG. 6 is a diagram for explaining a data exchange procedure between the video controller 103 and the overall controller 105 shown in FIG. 2. As an optional paper supply / discharge unit as in this embodiment, a paper deck (ID = 0) and a sorter ( When ID = 1) is connected, data that actually appears on the overall interface 106 between the video controller 103 and the overall controller 105 is exchanged as follows according to the flowchart shown in FIG.
[0096]
For example, when a “reset instruction” is issued from the video controller 103 and a “connection number request” is further sent, the overall controller 105 inquires the number of connected option units via the option unit interface 70, and further the video controller. The value is sent to 103. The video controller 103 requests capability information of the optional sheet feeding / discharging unit with ID = 0 to 1, and the overall controller 105 provides information for each request.
[0099]
FIG. 7 is a schematic diagram for explaining an option state table set on the RAM 307 shown in FIG.
[0100]
In the present embodiment, paper deck information and sorter information are stored after the flow shown in FIG. Each option table has the number of data as well as an ID and option type, and has a variable area, thereby increasing the versatility of the table and the control code stored in the ROM 304.
[0101]
The CPU 309 forms a menu for paper feed selection according to the option status table, and displays a menu for accepting designation of the connected optional paper feed / discharge unit when the panel controller 104 detects a predetermined operation. Receive instructions from the user.
[0102]
FIG. 8 is a block diagram for explaining the configuration of user input data from the operation panel 26 shown in FIG. 2, and the same components as those in FIG. 1 are denoted by the same reference numerals.
[0103]
As shown in this figure, “paper deck designation” from the panel controller 104 is converted into ID = 1 and an instruction command associated therewith by the video controller 103, and the general controller 105 is instructed to supply and discharge paper. Further, as well known, the “built-in cassette designation” is notified from the video controller 103 to the engine controller 102.
[0104]
By controlling in this way, it becomes possible to manage the optional paper feed / discharge unit by ID without distinguishing between the same and different, and to make the option paper feed / discharge unit more versatile. The ID allocation shown here is merely an example, and it is clear that the effect of the present invention does not change regardless of the ID value assigned in ascending order, descending order, random number, or the like.
[0105]
[Second Embodiment]
The second embodiment of the image recording apparatus according to the present invention will be described below. The second embodiment has substantially the same configuration as that shown in FIGS. 1 to 4 shown in the first embodiment, and the same reference numerals are given to the components and the detailed description thereof is omitted. . Further, in this embodiment, it is assumed that two four-stage cassette units are connected to the main body 1.
[0106]
FIG. 9 is a flowchart showing a second embodiment of the data processing method of the image recording system according to the present invention, and corresponds to the reset processing procedure of the video controller 103 shown in FIG. In addition, (1)-(7) and (7-1)-(7-3) show each step.
[0107]
First, after executing steps (1) to (6) of FIG. 9 (a) similar to the first embodiment, a composite unit table generation routine is executed (7).
[0108]
Specifically, as shown in FIG. 9B, when it is recognized that an optional paper supply / discharge unit of the same unit type is connected (7-1), generation of a “virtual composite unit”, that is, In this embodiment, a multistage unit is generated (7-2), a single stage unit is further generated (7-3), and the process is returned.
[0109]
In this embodiment, the “virtual composite unit” is a unit that does not physically exist in the video controller 103 so that a plurality of optional paper supply / discharge units can be logically combined and handled as one unit. .
[0110]
FIG. 10 is a schematic diagram for explaining another option state table set in the RAM 307 shown in FIG.
[0111]
In the present embodiment, after two pieces of 4-stage cassette information reflecting physical connections are stored, 1-stage cassette (single-stage cassette) information and 8-stage cassette information are stored. Hereinafter, the table generation procedure will be described with reference to FIG.
[0112]
FIG. 11 is a schematic diagram for explaining the configuration of the virtual composite unit in the image recording system according to the present invention, and corresponds to the construction state of the virtual composite unit using the multistage option and the single stage option.
[0113]
In the figure, 1 represents the printer main body shown in FIG. 2, and 65 represents a four-stage cassette unit. By the operation after the reset of the video controller 103 described above, as shown in FIG. 11A, ID = 00 and ID = 01 are registered as separate four-stage cassettes.
[0114]
Thereafter, as shown in FIG. 11B, it is assumed that the two four-stage cassettes have the same sheet size, and ID = 10 for handling from the outside as if it is a one-stage optional paper supply / discharge option. An option information table is generated there as an option type one-stage cassette. Of course, the first cassette can be designated by the user via a panel unit (not shown).
[0115]
Although not shown, the one-stage cassette information has a maximum number of stacked sheets as a virtual unit, and is b × 8 when the number of one-stage cassette unit is b. This is a single stage option.
[0116]
Further, as shown in FIG. 11 (c), ID = 11 for handling two 4-stage cassettes as one 8-stage cassette is generated, and an option information table is generated there as an option type 8-stage cassette.
[0117]
By controlling in this way, a “virtual composite unit” can be generated. Thus, for example, when two 4-stage cassette units are physically connected, the panel controller 104 that instructs the video controller 103 includes a 4-stage cassette unit × 2, a large-capacity 1-stage cassette unit or Any designation method of one 8-stage cassette unit is possible.
[0118]
Of course, it is possible to selectively specify these, and it is also possible to access as if there are four stages × 2 + 1 stages + 8 stages = 4 option units, that is, the number of stages can be set arbitrarily. .
[0123]
[Third embodiment]
The third embodiment of the image recording apparatus according to the present invention will be described below. The third embodiment has substantially the same configuration as that shown in FIGS. 1 to 4 shown in the first embodiment, and the same reference numerals are given to the components and the detailed description thereof is omitted. . Further, in this embodiment, it is assumed that the connection configuration of the option unit is the same as that of the first embodiment.
[0124]
FIG. 12 is a flowchart showing a third embodiment of the data processing method of the image recording system according to the present invention, and corresponds to the reset processing procedure of the video controller 103 shown in FIG. In addition, (1)-(7) shows each step.
[0125]
First, the CPU 309 performs a predetermined reset operation on each part of the video controller 103 and the engine controller 102 at the time of reset such as when the power is turned on (1), and then instructs the option interface unit 312 to perform a reset instruction. The number n of the optional paper supply / discharge units connected in the same manner is obtained (2). At this time, since it is stipulated that up to 5 IDs “0 to 4” are allocated in ascending order from the close connection with the general controller 105, the counter i is initialized to “0” (3 ), The paper supply / discharge capability with ID = 0 to n is acquired (4), and if there is a display character string held by the option unit, the character string is acquired (5), and the optional state of the RAM 307 is acquired. The table area is updated (6), and the state table is updated until the value of the counter i exceeds the number of connections n (7).
[0126]
The option state table provided in the RAM 307 is the same as that in the first embodiment. After the flow, 4-stage cassette information, paper deck information and sorter information are stored, and further end data is entered. In this embodiment, each information area includes character string information for display. Each option table has the number of data as well as an ID and option type, and has a variable area, thereby increasing the versatility of the table and the control code stored in the ROM 304.
[0127]
FIG. 13 is a block diagram for explaining a character string acquisition processing state from each option controller shown in FIG. 2, and the same components as those in FIG. 1 are denoted by the same reference numerals.
[0128]
In the figure, 1203, 1202, and 1201 are character string data transmitted on the option unit interface 70, and the character string data 1203 includes “4 dump cassette” “No. 1” “No. 2” “No. 3”. "No. 4" and the character string data 1202 represents the character string of "paper deck". The character string data 1201 represents five character strings “sorter”, “No. 1”, “No. 2”, “No. 3”, and “No. 4”.
[0129]
When the video controller 103 receives the character string data 1203, 1202, and 1201 via the overall controller 105 in step (5) of FIG. 12, the video controller 103 stores them in a table in the option status table.
[0130]
FIG. 14 is a schematic diagram for explaining a display example of the operation panel 26 shown in FIG. 2, and corresponds to a paper feed selection menu state.
[0131]
As shown in this figure, for example, when there is no display character string in the paper deck controller 108, as shown in the figure, the video controller 103 displays a character string “option 1” obtained by combining “option + ID”. When the paper deck controller 108 has a display character string, it is displayed as a character string “paper deck”.
[0132]
This control eliminates the need for the video controller 103 to hold display character string data used only for, for example, the paper deck unit in advance, reduces the memory cost, and does not select the option to be connected. It becomes possible to make a simple configuration.
[0133]
[Fourth embodiment]
The image recording apparatus according to the fourth embodiment of the present invention will be described below. The fourth embodiment has substantially the same configuration as the configuration shown in FIGS. 1 to 4 shown in the first embodiment, and the same reference numerals are given to the components, and the detailed description thereof is omitted. . Further, in this embodiment, it is assumed that the connection configuration of the option unit is the same as that of the first embodiment.
[0134]
FIG. 15 is a flowchart showing a fourth embodiment of the data processing method of the image recording system according to the present invention, and corresponds to the reset processing procedure of the video controller 103 shown in FIG. In addition, (1)-(7) shows each step.
[0135]
First, the CPU 309 performs a predetermined reset operation on each part of the video controller 103 and the engine controller 102 at the time of reset such as when the power is turned on (1), and then instructs the option interface unit 312 to perform a reset instruction. The number n of the optional paper supply / discharge units connected in the same manner is obtained (2). At this time, since it is stipulated that up to 5 IDs “0 to 4” are allocated in ascending order from the close connection with the general controller 105, the counter i is initialized to “0” (3 ), The paper supply / discharge capability of ID = 0 to n is acquired (4), and if there is a bitmap held by the option unit, the bitmap is acquired (5), and the option status table area of the RAM 307 (6), and the state table is updated until the value of the counter i exceeds the number of connections n (7).
[0136]
The option state table provided in the RAM 307 is the same as that in the first embodiment. After the flow, 4-stage cassette information, paper deck information and sorter information are stored, and further end data is entered. In this embodiment, each information area includes bitmap information for display. Each option table has the number of data as well as an ID and option type, and has a variable area, thereby increasing the versatility of the table and the control code stored in the ROM 304.
[0137]
FIG. 16 is a block diagram for explaining a bitmap acquisition processing state from each option controller shown in FIG. 2, and the same components as those in FIG. 1 are denoted by the same reference numerals.
[0138]
In the figure, reference numerals 1703, 1702, and 1701 denote bitmap data transmitted on the option unit interface 70. The bitmap data 1703 is a bitmap indicating the shape of the four-stage cassette unit, the bitmap 1702 is a bitmap indicating the shape of the paper deck unit, and the bitmap 1701 represents the bitmap of the sorter unit. .
[0139]
When the video controller 103 receives the bitmap data 1703, 1702, and 1701 via the overall controller 105, the video controller 103 stores them in a table in the option status table.
[0140]
The display unit (not shown) of the operation panel 26 in this embodiment has a well-known LCD display unit and is configured to be capable of bitmap display.
[0141]
By controlling in this way, for example, there is no need to store in advance the display bitmap specific to the paper deck unit in the video controller 103, and it becomes possible to make a more general-purpose configuration without selecting the option to be connected. .
[0142]
In this embodiment, the unit shape is displayed using a bitmap, but the shape data is exchanged or stored using outline data, and the video controller 103 develops the bitmap using a predetermined scaler. However, the effect of the present invention is not changed.
[0143]
[Fifth embodiment]
The image recording apparatus according to the fifth embodiment of the present invention will be described below. The fifth embodiment has substantially the same configuration as the configuration shown in FIGS. 1 to 4 shown in the first embodiment, and the same reference numerals are given to the components, and the detailed description thereof is omitted. .
[0144]
Further, in this embodiment, it is assumed that the connection configuration of the option unit is the same as that of the first embodiment. Further, in this embodiment, the display character string shown in the third embodiment and the bit map shown in the fourth embodiment are provided in each option unit. The image recording apparatus of the present embodiment is characterized in that it has a mode in which all information such as option connection status and capability and status of each option unit is printed on a paper as a printer status print and output. When the power is turned on, a bitmap is acquired as shown in the fourth embodiment. At this time, a bitmap for displaying an error location is also acquired.
[0147]
FIG. 17 is a flowchart showing a fifth embodiment of the data processing method of the image recording system according to the present invention. In addition, (1) to (4) indicate steps, and the video controller 103 corresponds to a process of executing printer status printing from the panel controller 104.
[0148]
First, the CPU 309 determines whether or not an option unit is connected (1). If it is not connected, the process proceeds to step (4). If it is determined that the option unit is connected, status information is obtained from each option. Confirm (2), and if an error has occurred, the error location is inquired and a bitmap indicating the corresponding error location previously acquired in the option information table is searched. Then, the information table is searched for a bitmap indicating the corresponding error location acquired in advance (3). Then, an information table is generated and printed (4). At this time, error information of the option unit is also described, but the error location is illustrated using the searched bitmap and a guidance is output.
[0149]
By controlling in this way, detailed option information can be provided to the user. In this embodiment, the printer status printing has been described. However, the character string, bitmap, and outline data held by the option unit are transferred from the video controller 103 to an external device such as a host computer, and the printer status is displayed on the operation panel. The same effect can be obtained by displaying the image on 26.
[0150]
[Sixth embodiment]
The image recording apparatus according to the sixth embodiment of the present invention will be described below. The sixth embodiment has substantially the same configuration as that shown in FIGS. 1 to 4 shown in the first embodiment, and the same reference numerals are given to the components, and the detailed description thereof is omitted. . Further, in this embodiment, it is assumed that the connection configuration of the option unit is the same as that of the first embodiment.
[0151]
FIG. 18 is a block diagram showing a detailed configuration of the four-stage cassette controller 107 shown in FIG.
[0152]
In FIG. 18, reference numeral 401 denotes a display unit having an LCD display function and LEDs. A CPU 402 controls an option controller. An interface unit 403 controls an option interface. Reference numeral 404 denotes a ROM that stores control codes for the CPU 402. A RAM 405 functions as a work memory for the CPU 402.
[0159]
FIG. 19 is a flowchart showing a sixth embodiment of the data processing method of the image recording system according to the present invention. In addition, (1)-(4) shows each step.
[0160]
The CPU 402 instructs information (designated paper size, designated cassette, paper name, job name, host ID, etc.) designated by the overall controller 105 during a predetermined initialization operation, and unit status (error status, number of stacked paper sheets, etc.). ) Is displayed on the display unit 401.
[0161]
After that, when the steady state is reached, the interface unit 403 is inquired as to whether the designation information from the general controller has been received. If it is determined that the designation information has been received (1), they are displayed on the display unit 401 (2). Furthermore, the state change of the unit is inquired, and when it is determined that the state has changed (3), they are displayed on the display unit 401 (4).
[0162]
Furthermore, in this embodiment, control is performed so that the LED of the display unit 401 blinks during output. In this embodiment, other units have a display function with the same configuration.
[0163]
By controlling in this way, for example, by displaying the user-set paper name on each unit, it is easy to identify colored paper and preprints, and check the user-set paper and the paper name currently set in the unit, Misuse can be avoided. Further, when a plurality of units are connected by blinking LEDs, the location of paper supply / discharge can be known at a glance, and it is possible to prevent paper from being accidentally removed from the unit that is outputting.
[0164]
The present invention may be applied to a system composed of a plurality of devices or an apparatus composed of a single device. Needless to say, the present invention can also be applied to a case where the present invention is achieved by supplying a program to a system or apparatus. In this case, by reading the storage medium storing the program represented by the software for achieving the present invention into the system or apparatus, the system or apparatus can enjoy the effects of the present invention. .
[0165]
Furthermore, by downloading and reading a program represented by software for achieving the present invention from a database on a network by a communication program, the system or apparatus can enjoy the effects of the present invention. .
[0166]
【The invention's effect】
As described above, according to the present invention, the video controller acquires predetermined option information from each option device connected via the option unit interface in a state where the overall controller is connected via the overall interface. The controller that stores the acquired option information and the identification information allocated to the connected option device, converts the designation of the option device into the identification information, and controls one or more option devices in an integrated manner. By notifying the system, it is possible to reduce the cost to be borne by the user when systematically combining various optional devices requested by the user, and the optional sheet feeding / discharging unit can be identified by ID regardless of the same or different. Manage and handle the optional paper supply / discharge unit more versatilely An effect that it becomes possible to something.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of an image recording apparatus according to a first embodiment of the present invention.
FIG. 2 is a schematic cross-sectional view illustrating the configuration of an image recording system according to the present invention and an image recording system including an option unit thereof.
FIG. 3 is a diagram illustrating an interface with each controller in the image recording system shown in FIG. 2;
4 is a block diagram illustrating a detailed configuration of the video controller shown in FIG. 1. FIG.
FIG. 5 is a flowchart showing a first embodiment of the data processing method of the image recording system according to the present invention.
6 is a diagram for explaining a data exchange procedure between the video controller and the overall controller shown in FIG. 2; FIG.
7 is a schematic diagram for explaining an option state table set on the RAM shown in FIG. 4; FIG.
FIG. 8 is a block diagram for explaining a configuration of user input data from the operation panel unit shown in FIG. 2;
FIG. 9 is a flowchart showing a second embodiment of the data processing method of the image recording system according to the present invention.
10 is a schematic diagram for explaining another option state table set in the RAM shown in FIG. 4; FIG.
FIG. 11 is a schematic diagram illustrating a configuration of a virtual composite unit in the image recording system according to the present invention.
FIG. 12 is a flowchart showing a third embodiment of the data processing method of the image recording system according to the present invention.
13 is a block diagram for explaining a character string acquisition processing state from each option controller shown in FIG. 2; FIG.
14 is a schematic diagram for explaining a display example of the operation panel shown in FIG. 2. FIG.
FIG. 15 is a flowchart showing a fourth embodiment of the data processing method of the image recording system according to the present invention.
16 is a block diagram illustrating a bitmap acquisition process state from each option controller shown in FIG. 2;
FIG. 17 is a flowchart showing a fifth embodiment of the data processing method of the image recording system according to the present invention.
18 is a block diagram showing a detailed configuration of the four-stage cassette controller shown in FIG. 2. FIG.
FIG. 19 is a flowchart showing a sixth embodiment of the data processing method of the image recording system according to the present invention.
FIG. 20 is a schematic block diagram illustrating a control configuration of a conventional image recording apparatus.
[Explanation of symbols]
101 Laser beam printer
102 Engine controller
103 Video controller
104 Panel controller
105 General controller
107 4-stage cassette controller
108 Paper deck controller
109 Sorter controller

Claims (6)

An engine controller that performs printing based on image data;
A video controller connected to the engine controller via a video interface and transmitting image data to the engine controller based on code data sent from an external device;
Are connected via one or more optional devices and optional unit interface, the general controller for generally controlling the one or more optional device comprising a connector for connecting via the video controller and supervising interface,
The video controller is
And acquisition means for acquiring the option information of the connected optional device via the general controller,
Option information storage means for storing identification information allocated to a connected option device and option information acquired by the acquisition means;
Means for converting the designation of the optional device into identification information, and notifying the integrated controller of the converted identification information ;
An image recording apparatus comprising: The video controller, an image recording apparatus according to claim 1, characterized in that have a means for notifying the designated internal device to the engine controller. 2. The image recording apparatus according to claim 1, wherein a signal output from the engine controller and passing through the video controller is input to the overall controller . An engine controller that performs printing based on image data;
A video controller connected to the engine controller via a video interface and transmitting image data to the engine controller based on code data sent from an external device;
One or more optional devices,
A general controller connected to the one or more option devices via an option unit interface, connected to the video controller via a general interface, and controlling the one or more option devices in an integrated manner;
The video controller is
And acquisition means for acquiring the option information of the connected optional device via the general controller,
Option information storage means for storing identification information allocated to a connected option device and option information acquired by the acquisition means;
An image recording system comprising: means for converting designation of an optional device into identification information and notifying the integrated controller of the converted identification information . The video controller, an image recording system according to claim 4, characterized in that have a means for notifying the designated internal device to the engine controller. 5. The image recording system according to claim 4, wherein a signal output from the engine controller and passing through the video controller is input to the overall controller .

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