JP2005302007A - Image forming device and image forming system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To simultaneously notify a device status of a printer and transinformation in response to a request from a personal computer. <P>SOLUTION: The printer 10 is structured of a status detecting part 104 for detecting and storing the device status of the printer 10, a transinformation storage part 102 for storing the transinformation notified to a user of the personal computer 11, and an information responding part 107 for generating device information from the device status and transinformation, and responding. The personal computer 11 is structured of an inquiring part 112 for inquiring the device information to the printer 10, and a display part 113 for displaying the device information received as a response to the inquiry by the inquiring part 112. When the personal computer 11 inquires the device information, the device information comprising the device status and transinformation is simultaneously transmitted to save trouble of separately requesting the device status and transinformation. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an image forming apparatus and an image forming system capable of transmitting information from an image forming apparatus to a user of an information processing apparatus.

  2. Description of the Related Art Conventionally, in a system in which a plurality of personal computers and printers are connected via a network, a configuration is known in which the personal computer can be notified of the printer status.

  As such a system, for example, in Japanese Patent Application Laid-Open No. 2001-239725, a personal computer issues a request for transmission of current apparatus information to a printer, and the printer acquires the apparatus status and sends it back to the personal computer. And the structure by which this apparatus information is displayed on the display part of a personal computer is disclosed.

On the other hand, notification information to be transmitted to a user who uses the printer, such as notification that maintenance is performed at a predetermined time or notice that the printer is busy at a specific time, is notified by a method such as e-mail. Yes.
JP 2001-239725 A

  However, as described above, the apparatus state and the transmission information are transmitted by different means, and thus there are the following inconveniences.

  In other words, the transmission information is notified by e-mail etc., but since the e-mail transmission is sent to each user individually by the maintenance staff etc., there is a possibility that omission of notification or forgetting notification may occur, and a reliable notification should be made There was something that could not be done. In this case, in order to reliably transmit the transmission information, a method of performing the number of times of e-mail transmission is conceivable. However, in this case, the same transmission information is transmitted many times, and the time for mail transmission processing increases. There is a problem that a heavy load is applied to the network, and the user may feel annoyed because the user receives the same mail many times.

  In addition, when notifying the schedule too much, the user may forget the notification contents, and when performing regular notification that the printer becomes busy only at a specific time every day. However, there is an inconvenience that a maintenance person or the like has to send an e-mail or the like each time.

  SUMMARY An advantage of some aspects of the invention is that it provides an image forming apparatus and an image forming system capable of appropriately notifying a user of an apparatus state and transmission information.

The present invention adopts the following configuration in order to solve the above points.
<Configuration 1> In an image forming apparatus connected to an information processing apparatus via a communication line, transmission information storage means for storing transmission information to be transmitted to the information processing apparatus in advance, and image formation information received from the information processing apparatus And a transmission unit that transmits the transmission information stored in the transmission information storage unit to the information processing apparatus when it is detected that the image formation information has been received by the detection unit.
<Description 1> That is, for example, when the user transmits image formation information to the image forming apparatus and forms an image, if there is transmission information to be notified to the user, the user separately notifies this information. Make it easier to request notification of transmission information.

<Configuration 2> A state detection unit that detects a device state of the image forming apparatus and a device state storage unit that stores the device state. When the transmission unit transmits the transmission information, the device state storage unit stores the state information. The stored device status is also transmitted.
<Explanation 2> That is, for example, when the user transmits image formation information to the image forming apparatus and forms an image, if there is transmission information to notify the user, the apparatus state is also notified together with this, It is possible to save the user from having to separately request transmission information and notification of apparatus status.

<Configuration 3> In an image forming system in which an information processing apparatus and an image forming apparatus are connected via a communication line, the information processing apparatus includes inquiry means for inquiring apparatus information to the image forming apparatus, and The image forming apparatus detects and stores the apparatus state of the image forming apparatus, the transmission information storing means for storing the transmission information notified to the information processing apparatus, and the device information from the information processing apparatus. An information response means is provided for generating and responding to the device information from the device state and the transmission information when there is an inquiry.
<Explanation 3> That is, the apparatus information of the image forming apparatus and the transmission information to be notified to the user are stored, and when the information processing apparatus makes an inquiry about the apparatus information, the apparatus information including the apparatus state and the transmission information is stored. Can be displayed on the information processing apparatus, so that the trouble of separately requesting the apparatus status and the transmission information can be saved.

<Configuration 4> The state detection storage unit stores a terminal ID of the information processing device and a notification flag indicating whether or not the information transmitted to the information processing device having the terminal ID is notified. Indicates that the transmission information has been notified, generates device information consisting only of the device state and responds.
<Explanation 4> That is, an information processing apparatus that has already been notified of transmission information is managed by a notification flag to prevent re-notification of the transmission information.

<Configuration 5> The image forming apparatus includes a clock unit for obtaining current time information, and the transmission information storage unit stores transmission information to be notified to the information processing apparatus and a notification start time to start notification of the transmission information. Then, the information response means determines the elapse of the notification start time from the time indicated by the clock means, and responds by outputting the apparatus information generated from the transmission information and the apparatus state after the notification start time elapses.
<Explanation 5> That is, the notification start time for starting the notification of the transmission information can be set, the notification of the transmission information is performed only when the notification start time has passed, and the notification is too early. Prevent inconveniences such as forgetting.

<Configuration 6> The image forming apparatus includes a clock unit for obtaining current time information, and the transmission information storage unit transmits transmission information to be notified to the information processing apparatus, notification start time at which notification of the transmission information is started, The notification end time for ending the notification of the transmission information is stored, and the information response means determines from the time indicated by the clock means that the current time has passed the notification start time and the notification end time, and the notification start time After the elapse of time and before the notification end time elapses, the device information generated from the transmission information and the device state is output and responded.
<Explanation 6> That is, it is possible to set a notification start time for starting notification of transmission information and a notification end time for ending notification, thereby preventing the inconvenience that the notification is too early and the user forgets the time. It is possible to prevent notification of transmission information whose meaning has been lost over time.

<Configuration 7> When the information response unit determines that the notification end time has elapsed from the time indicated by the clock unit, the transmission information is deleted.
<Explanation 7> That is, when it is determined that the notification end time has passed, the transmission information can be automatically deleted so that the erasure work by the maintenance staff or the like can be omitted.

  According to the image forming apparatus of the present invention, for example, when the user transmits image forming information to the image forming apparatus to form an image, if there is transmission information to notify the user, this is notified. Therefore, it is possible to save the trouble of separately notifying the user of the transmission information, and the convenience is improved.

  Further, according to the image forming system of the present invention, the apparatus state of the image forming apparatus and the transmission information to be notified to the user are stored, and when the apparatus information is inquired from the information processing apparatus, the apparatus state by these Since the device information including the transmission information is transmitted and can be displayed on the information processing device, it is possible to save the trouble of notifying the device status and the transmission information, and the convenience is improved.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following description, a printer is described as an example of the image forming apparatus, but the present invention is not limited to this, and may be, for example, a facsimile machine.

<Configuration of Example 1>
In the first embodiment, in response to a request from an information processing apparatus such as a personal computer from a user, apparatus information can be generated and transmitted from the apparatus state of the printer and predetermined transmission information. FIG. 1 is a diagram showing the configuration of such an image forming system. A printer 10 is connected via a network 14 and a personal computer (hereinafter abbreviated as PC) 11 is connected.

  As shown in FIG. 2, the printer 10 includes an input unit 101, a transmission information storage unit 102, a transmission information management unit 103, a state detection unit 104, a device state storage unit 105, a state detection control unit 106, an information response unit 107, a communication Part 108 and the like.

  The input unit 101 is a user interface that has input keys and performs transmission information input operations and deletion operations. Examples of the transmission information include maintenance advance notice information, advance notice information on busy hours, and information prompting an update to the latest version of the printer driver.

  The transmission information storage unit 102 stores the transmission information input from the input unit 101, and stores one or a plurality of transmission information. The transmission information management unit 103 manages an information flag indicating the presence / absence of transmission information. When the transmission information is input, the information flag is turned “ON”, and when the transmission information is deleted, the information flag is turned “OFF”.

  The state detection control unit 106 periodically outputs a state detection command to the state detection unit 104. This status detection command is a command for detecting the device status of the printer 10. Examples of the apparatus state include “printable state”, “out of paper state”, “toner / out of ink state”, “paper jam state”, and the like.

  The state detection unit 104 receives the state detection command and detects the device state, and the device state storage unit 105 stores the detected device state.

  As shown in FIG. 3, the information response unit 107 includes a determination unit 1071, an information generation unit 1072, and a response control unit 1073.

  The determination unit 1071 refers to the information flag in the transmission information management unit 103. When the information flag is “on”, the determination unit 1071 determines that “device information is generated based on the transmission information and the device state”, and “off”. At this time, it is determined that “apparatus information is generated only from the apparatus status”.

  The information generation unit 1072 reads the device state stored in the device state storage unit 105 and the transmission information stored in the transmission information storage unit 102, and generates device information according to the determination of the determination unit 1071.

  When receiving a device information inquiry request from the PC 11 via the communication unit 108, the response control unit 1073 acquires device information from the information generation unit 1072 and sends it to the communication unit 108.

  As shown in FIG. 4, the PC 11 is connected to the network 14 to send and receive various information to and from the printer 10, and sends a device information inquiry request to the printer 10 via the communication unit 111. In addition, an inquiry unit 112 that receives the response, a display unit 113 that displays device information acquired by the inquiry unit 112, and the like are provided.

<Operation of Example 1>
Next, the processing operation of such a configuration is divided into (1) transmission information input operation, (2) transmission information deletion operation, (3) device state detection operation, and (4) device information inquiry request operation. It explains separately. The apparatus state detection operation is periodically performed, and other operations are performed when a maintenance person or the like of the printer 10 operates the printer 10 or the PC 11.

  The transmission information input operation will be described with reference to the flowchart of FIG. First, when transmission information is input from the input unit 101 (step S101), the transmission information storage unit 102 stores it (step S102), and the transmission information management unit 103 sets the information flag to “ON” (step S102). S103). Thus, the transmission information input operation is completed.

  The transmission information may be transmitted from the PC 11 to the printer 10 via the network 14, and the transmission information may be stored in the transmission information storage unit 102 and the information flag may be turned “ON”. With such a configuration, for example, it is possible to convey information that a certain user performs printing in large quantities to other users, and a maintenance person of the printer 10 does not have to go to the location of the printer. Therefore, it becomes possible to input regular transmission information and the like, and convenience is improved.

  Next, the transmission information erasing operation will be described with reference to the flowchart shown in FIG. First, when the transmission information is erased from the input unit 101 (step S111), the transmission information management unit 103 sets the information flag to “off” (step S112). Thus, the transmission information erasing operation is completed.

  Next, the apparatus state detection operation will be described with reference to the flowchart shown in FIG. First, the state detection control unit 106 outputs a state detection command to the state detection unit 104 (step S121). Upon receiving this state detection command, the state detection unit 104 detects the current device state (step S122), and the device state storage unit 105 stores the detected device state (step S123). Thus, the apparatus state detection operation is completed.

  Next, an operation in which the PC 11 acquires apparatus information from the printer 10 will be described with reference to a flowchart shown in FIG. First, the inquiry unit 112 of the PC 11 makes a device information inquiry request to the printer 10 (step S131). This device information inquiry request is sent from the communication unit 111 to the communication unit 108 via the network 14, and the response control unit 1073 receives this device information inquiry request. Then, the response control unit 1073 makes a device information generation request to the information generation unit 1072 (step S132).

  Upon receiving the device information generation request, the information generation unit 1072 requests the determination unit 1071 to determine how to generate device information, and the determination unit 1071 refers to the information flag of the transmission information management unit 103 (step S133).

  If the information flag is “ON” at this time, the determination unit 1071 sends a determination “generate device information from the transmission information and the device state” to the information generation unit 1072, and the information generation unit 1072 receives the device state storage unit. The apparatus state is generated by reading the apparatus state stored in 105 and the transmission information stored in the transmission information storage unit 102 (step S134).

  On the other hand, when the information flag is “off”, the determination unit 1071 sends a determination “generate device information only with the device state” to the information generation unit 1072, and the information generation unit 1072 stores it in the device state storage unit 105. Device information is generated based on the device state being used and blank transmission information (step S135).

  This device information is sent to the response control unit 1073 and returned to the PC 11 as a response to the device information inquiry request (step S136). The inquiry unit 112 of the PC 11 receives the device information (step S137) and is displayed by the display unit 113 (step S138).

<Effect of Example 1>
As described above, since the transmission information and the device state are stored in advance and the device information including the device state and the transmission information is transmitted and displayed in response to the device information inquiry request from the PC 11, the user can transmit the transmission information. And the apparatus status can be acquired at the same time, and the transmission information to be transmitted in advance can be reliably transmitted to the user who uses the printer 10.

  In the above description, it has been described that the device information is transmitted when an inquiry about the device information is received from the PC 11, but the device information is modified to be transmitted when print data as image formation information is received from the PC 11. Also good. In this case, when the communication unit 108 receives print data from the PC 11, the response control unit 1073 included in the information response unit 107 detects this reception, and similarly, the information generation unit 1072 acquires device information as described above. To the communication unit 108.

  In the first embodiment, even when the user wants to know only the device status, the transmission information is notified. Therefore, when the device status is inquired many times in a short time, the same transmission information is notified each time. There is an inconvenience. Therefore, in the second embodiment, it is possible to prevent duplicate notification of transmission information.

<Configuration of Example 2>
FIG. 9 is a block diagram of such an image system, FIG. 10 is a block diagram of the printer 20, and FIG. 11 is a block diagram of an information response unit 201 in the printer 20. The basic configuration is the same as that of the first embodiment, except that a terminal information storage unit 202 is additionally provided in the printer 20 and a terminal management unit 2011 is additionally provided in the information response unit 201.

  The terminal information storage unit 202 stores the terminal ID of the PC 11 that has made a device information inquiry request and a notification flag for each terminal ID. Hereinafter, the terminal ID and the notification flag of the PC 11 are appropriately described as terminal information.

  This notification flag indicates whether or not the transmission information is notified to the PC 11, and is set to “on” when the transmission information is notified, and is set to “off” when it is not notified. This setting is performed by the terminal management unit 2011, and when the information flag is “off”, the notification flag is also set to “off”. That is, when there is no transmission information, there is no transmission information to be transmitted to each PC 11, so the notification flag is “off”.

  The determination unit 2012 refers to the information flag and the notification flag to determine what kind of device information should be generated. That is, when the information flag is “ON” and the notification flag is “ON”, since the transmission information has been notified to the PC 11 of the corresponding terminal ID, the device information = device state and the notification flag is “OFF” Device information = transmission information + device state. When the information flag is “off”, there is no transmission information to be notified, so that device information = device state regardless of the flag state of the notification flag.

  Therefore, the PC 11 that has been notified of the transmission information is not notified of the same transmission information, and the same user does not have to bother receiving the transmission information.

<Operation of Example 2>
Next, the processing operation of such a configuration is divided into (1) transmission information input operation, (2) transmission information deletion operation, (3) device state detection operation, and (4) device information inquiry request operation. It explains separately. Note that (3) the apparatus state detection operation is the same as that in the first embodiment, and is therefore omitted.

  The transmission information input operation will be described with reference to the flowchart of FIG. First, transmission information is input from the input unit 101 (step S201) and stored in the transmission information storage unit 102 (step S202). Then, the transmission information management unit 103 sets the information flag to “ON” (step S203). In addition, the terminal management unit 2011 sets all notification flags to “off” (step S204). That is, since new transmission information is input, all notification flags are reset. Thus, the transmission information input operation is completed.

  Next, the transmission information erasing operation will be described with reference to the flowchart shown in FIG. First, when the transmission information is deleted from the input unit 101 (step S211), the transmission information management unit 103 sets the information flag to “off” (step S212), and the terminal management unit 2011 sets all the notification flags to “off”. (Step S213). That is, since there is no transmission information to be notified, all notification flags are reset. Thus, the transmission information erasing operation is completed.

  Next, the operation in which the PC 11 acquires device information from the printer 20 will be described with reference to the flowchart shown in FIG. First, the inquiry unit 112 of the PC 11 makes a device information inquiry request to the printer 20 (step S221).

  The device information inquiry request is received by the response control unit 1073 via the communication unit 111, the network 14, and the communication unit 108, and the response control unit 1073 requests the device information from the information generation unit 1072 (step S222).

  The information generation unit 1072 requests the determination unit 2012 to determine how to generate device information, and the determination unit 2012 determines whether the information flag is “ON” (step S223). If the information flag is “OFF”, device information only for the device state is generated (step S228).

  On the other hand, when the information flag is “ON”, the terminal management unit 2011 acquires the terminal ID from the communication unit 108 and determines whether or not the notification flag of this terminal ID is “ON” (step S1). S224, step S225). If the notification flag is “on”, device information only for the device state is generated (step S228). If the notification flag is “off”, device information including device state + communication information is generated and The notification flag is set to “ON” (steps S226 and S227).

  The device information generated in this way is sent to the PC 11 that has requested the device information inquiry by the response control unit 1073, and the inquiry unit 112 receives it and displays it on the display unit 113 (steps S229 to S231).

  In the above description, the notification flag has only two values of “ON” and “OFF”. For example, if the same transmission information is notified about three times, the notification flag may not feel so troublesome. Therefore, the notification number may be stored in the notification flag, and the transmission information may be notified until the notification number is reached. With such a configuration, for example, when the transmission information is received for the first time, even if it is considered unnecessary and discarded, the transmission information can be acquired even when it is necessary after that, so convenience is improved. To do.

  Further, if the predetermined number of times can be set for each content of the transmission information, detailed notification such as increasing the number of important information becomes possible. In this case, the number of times is specified from the input unit 101 in principle, but may be specified by the user via the PC 11.

  Of course, the mode may be set by selecting a mode in which the number of times can be set and a mode in which the number of times cannot be set. Further, regarding the PC 11 or the like that is less frequently used by the printer, the terminal ID storage unit 202 may not manage the terminal ID. With such a configuration, there is an advantage that the storage capacity of the terminal information storage unit 202 can be suppressed.

<Effect of Example 2>
As described above, the device state and the transmission information are stored, and the device information including the device state and the transmission information is transmitted and displayed in response to the device information inquiry request from the PC 11. The device status can be acquired at the same time, and the transmission information can be reliably transmitted.

Also, by managing the notification flag, the same transmission information is not notified many times, and the user is not bothered.
When print data is received from the PC 11, this may be detected and the device information may be transmitted as described above, and the notification flag is managed in this case as well.

  Next, Example 3 will be described. When notifying a predetermined schedule, the user may forget if the transmission information is notified too far in advance. Therefore, in the third embodiment, the notification start time of the transmission information can be set to prevent such inconvenience.

<Configuration of Example 3>
15 is a diagram showing the configuration of the image system, FIG. 16 is a block diagram of the printer 30, and FIG. 17 is a block diagram of the information response unit 303 in the printer 30. Although the basic configuration is the same as that of the second embodiment, the main difference is that a clock unit 302 is additionally provided in the printer 30, and the transmission information storage unit 301 and the information response unit 303 are replaced with the transmission information storage unit 102 and the information response unit 201. This is the point.

  The transmission information storage unit 301 stores the transmission information input from the input unit 301 and the notification start date and time for notifying the transmission information. The clock unit 302 outputs date / time data.

  The determination unit 3031 of the information response unit 303 determines whether or not the current time of the clock unit 302 has reached the notification start date and time, and refers to the information flag and the notification flag when the notification start date and time has passed. Thus, it is determined what kind of device information should be generated.

  Therefore, before the notification start date and time, even if transmission information exists, it is not included in the device information. That is, when the information flag is “ON” and the notification flag is “ON” after the notification start date and time has passed, since the transmission information has been notified to the PC 11 of the corresponding terminal ID, the device information is set to the device state, and the notification flag Is “off”, device information = transmission information + device state. When the information flag is “off”, there is no transmission information to be notified, so that device information = device state regardless of the flag state of the notification flag. Therefore, it is possible to prevent the PC 11 notified of the transmission information from being notified of the transmission information having the same content. On the other hand, before the notification start date and time elapses, even if the information flag is “ON” and the notification flag is “OFF”, the device state = device information.

<Operation of Example 3>
Next, the processing operation of such a configuration is divided into (1) transmission information input operation, (2) transmission information deletion operation, (3) device state detection operation, and (4) device information inquiry request operation. It explains separately. Note that (2) the transmission information erasing operation and (4) device information inquiry requesting operation are the same as those in the second embodiment, and will be omitted.

  The transmission information input operation will be described with reference to the flowchart of FIG. First, when transmission information and a notification start date and time for starting notification of the transmission information are input from the input unit 101 (step S301), the transmission information and notification start date and time are stored in the transmission information storage unit 102 (step S301). S302). Further, the transmission information management unit 103 sets the information flag to “ON” (step S303), and the terminal management unit 2011 sets all notification flags to “OFF” (step S204). Thus, the transmission information input operation is completed.

  Next, the operation in which the PC 11 acquires device information from the printer 30 will be described with reference to the flowchart shown in FIG. First, the inquiry unit 112 of the PC 11 makes a device information inquiry request to the printer 30 (step S311). The device information inquiry request is received by the response control unit 1073 via the communication unit 111, the network 14, and the communication unit 108, and the response control unit 1073 requests device information from the information generation unit 1072 (step S312).

  The determination unit 3031 refers to the notification start date and time stored in the transmission information storage unit 301 and the current date and time of the clock unit 302 to determine whether the current time has passed the notification start date and time (step S313). .

  If the current time is before the notification start date and time, the information generation unit 1072 generates device information only for the device state (step S319).

  On the other hand, when the current time has passed the notification start date and time, the information generation unit 1072 requests the determination unit 3031 to determine how to generate the device information, and the determination unit 3031 displays the information flag. It is determined whether or not it is “ON” (step S314).

  If the information flag is “OFF”, device information only for the device state is generated (step S319). If the information flag is “ON”, the terminal management unit 2011 acquires the terminal ID from the communication unit 108 and determines whether or not the notification flag of this terminal ID is “ON” (step S316). . If the notification flag is “ON”, device information only for the device state is generated (step S319). If the notification flag is “OFF”, device information including device state + communication information is generated and the notification flag is generated. Is set to “ON” (step S317, step S318).

  The device information generated in this way is sent to the PC 11 that has requested the device information inquiry by the response control unit 1073, and the inquiry unit 112 receives this and displays it on the display unit 113 (steps S320 to S322).

<Effect of Example 3>
As described above, the device state and the transmission information are stored, and the device information including the device state and the transmission information is transmitted and displayed in response to the device information inquiry request from the PC 11. The device status can be acquired at the same time, and the transmission information can be reliably transmitted.

  Also, by managing the notification flag, the same transmission information is not notified many times, and the user is not bothered.

  Furthermore, since the notification start date and time of the transmission information is set and the notification of the transmission information is made after the notification start date and time, when the notification of the predetermined schedule is notified, the user has notified the transmission information from the front too. Inconveniences that can be forgotten can be prevented.

In addition, by entering the transmission information and the notification start date and time in advance, notification is automatically made at this date and time, and it is not necessary for maintenance personnel to operate at the date and time when notification is desired to start. improves.
As described above, print data may be detected instead of the device information inquiry request.

  Periodic transmission information such as “daily”, “10th of every month”, “every Monday”, etc., indicating that the printer is busy on the designated day, day of the week, etc. becomes useless information after that date. In such a case, the maintenance person or the like deletes the transmission information when the date and time elapses, but since it is periodic transmission information, it must be deleted periodically. Therefore, in the fourth embodiment, the transmission information can be automatically deleted at the date and time.

<Configuration of Example 4>
FIG. 20 is a diagram showing the configuration of the image system, FIG. 21 is a block diagram of the printer 40, and FIG. 22 is a block diagram of the information response unit 303 in the printer 40. Although the basic configuration is the same as that of the third embodiment, a transmission information management unit 403, a transmission information storage unit 401, and an information response unit 402 are provided instead of the transmission information management unit 103, the transmission information storage unit 301, and the information response unit 303. ing. Further, the determination unit 3031 of the information response unit 402 is replaced with the determination unit 4021.

  The transmission information storage unit 401 stores transmission information, notification start date / time, and notification end date / time. Further, the transmission information management unit 403 manages information flags and erasure flags. When the erasure flag is “ON”, the information flag is set to “OFF” when the current date and time has passed the notification end date and time. When the information flag is turned off, the device information is generated only by the device status, so it is possible to prevent unnecessary notifications such as notification of the busy time zone after the busy time zone of the printer has passed, and maintenance personnel It is possible to prevent the trouble of deletion by a person or the like.

  The determination unit 4021 of the information response unit 303 determines whether or not the current date and time of the clock unit 302 has reached the notification start date and time and the notification end date and time. And the notification flag, it is determined what kind of device information should be generated. Therefore, before the notification start date and time, even if transmission information exists, it is not included in the device information.

  That is, when the information flag is “on” and the notification flag is “on” after the notification start date and time and before the notification end date and time, since the transmission information has been notified to the PC 11 of the corresponding terminal ID, device information = device state If the notification flag is “off”, device information = transmitted information + device state. When the information flag is “off”, there is no transmission information to be notified, so that device information = device state regardless of the flag state of the notification flag.

<Operation of Example 4>
Next, the processing operation of such a configuration is divided into (1) transmission information input operation, (2) transmission information deletion operation, (3) device state detection operation, and (4) device information inquiry request operation. It explains separately. The (2) transmission information erasing operation and (4) device information inquiry requesting operation are the same as those in the third embodiment, and are therefore omitted.

  The transmission information input operation will be described with reference to the flowchart shown in FIG. First, transmission information, a notification start date and time for starting notification of this transmission information, and a notification end date and time for ending notification are input from the input unit 101 (step S401). The information response unit 402 compares the notification end date and time input from the input unit 101 and stored in the transmission information storage unit 401 with the current time obtained from the clock unit 302, and the current date and time passes the notification end date and time. If so, the stored transmission information corresponding to the notification end date is deleted.

  The transmission information storage unit 102 stores the transmission information input from the input unit 101, the notification start date and time, and the notification end date and time (step S402).

  Further, the transmission information management unit 403 sets the information flag to “ON” (step S403), and determines whether or not to automatically delete the transmission information (step S404). When automatic deletion is performed, that is, when the notification end date / time is input, the transmission information management unit 403 sets the deletion flag to “ON” (step S405). After that, the terminal management unit 2011 turns all notification flags “off” (step S406). Thus, the transmission information input operation is completed.

  Next, the operation in which the PC 11 acquires device information from the printer 40 will be described with reference to the flowchart shown in FIG. First, the inquiry unit 112 of the PC 11 makes a device information inquiry request to the printer 30 (step S411). The device information inquiry request is received by the response control unit 1073 via the communication unit 111, the network 14, and the communication unit 108, and the response control unit 1073 requests the device information from the information generation unit 1072 (step S412).

  The determination unit 4021 refers to the notification start date and time stored in the transmission information storage unit 401 and the current time of the clock unit 302, and determines whether the current time has passed the notification start date and time (step S413).

  If the current time is before the notification start date and time, the information generation unit 1072 generates device information only for the device state (step S422).

  On the other hand, when the current time has passed the notification start date and time, the information generation unit 1072 requests the determination unit 4021 to determine how to generate device information, and the determination unit 4021 determines that the information flag is set. It is determined whether or not it is “ON” (step S414).

  If the information flag is “OFF”, device information only for the device state is generated (step S422). If the information flag is “ON”, it is determined whether or not the notification end date has passed (step S415).

  If the notification end date has passed, it is determined whether or not the deletion flag is “ON”. If the deletion flag is “ON”, the information flag is set to “OFF”, and the device information of only the device status is obtained. Generate (step S422).

  On the other hand, when the notification start date has passed and before the notification end date, the terminal management unit 2011 acquires the terminal ID from the communication unit 108 and determines whether or not the notification flag of this terminal ID is “ON”. (Step S416, Step S417). If the notification flag is “ON”, device information only for the device state is generated (step S422). If the notification flag is “OFF”, device information including device state + communication information is generated and the notification flag is generated. Is set to “ON” (step S418, step S419).

  The device information generated in this way is sent to the PC 11 that has requested the device information inquiry by the response control unit 1073, and the inquiry unit 112 receives it and displays it on the display unit 113 (steps S423 to S425).

<Effect of Example 4>
As described above, the device state and the transmission information are stored, and the device information including the device state and the transmission information is transmitted and displayed in response to the device information inquiry request from the PC 11. The device status can be acquired at the same time, and the transmission information can be reliably transmitted.

  Also, by managing the notification flag, the same transmission information is not notified many times, and the user is not bothered.

  In addition, since the notification start date and time of the transmission information is set and the notification of the transmission information is made after the notification start date and time, when the notification of the predetermined schedule is notified, the user has notified the transmission information too much before. Inconveniences that can be forgotten can be prevented.

  In addition, by entering the transmission information and the notification start date and time in advance, notification is automatically made at this date and time, and it is not necessary for maintenance personnel to operate at the date and time when notification is desired to start. improves.

  Furthermore, by automatically deleting the transmission information, for example, after the busy date and time of the printer has passed, it is possible to prevent useless notifications such as notification of the busy date and time, and the troublesome deletion by maintenance personnel etc. Can be prevented.

In each of the embodiments described above, the transmission information is transmitted to the PC that has inquired the device information or has transmitted the image formation information (print data). Also good.
In advance, a standard notification destination PC is registered, and transmission information is transmitted to the registered PC. Here, the transmission information is transmitted again when there is an inquiry about the device information or the transmission of the image formation information from the PC where the transmission of the transmission information did not end normally.
In addition, the transmission information may be transmitted when there is an inquiry of device information or transmission of image formation information from a non-registered PC.

1 is a system diagram of an image forming system according to Embodiment 1. FIG. 1 is a configuration block diagram of an image forming apparatus according to Embodiment 1. FIG. It is a block diagram of the information response part concerning Example 1. FIG. 1 is a block diagram of an information processing apparatus according to a first embodiment. 3 is a flowchart illustrating an input operation of transmission information according to the first embodiment. 7 is a flowchart illustrating an operation for deleting transmission information according to the first embodiment. 3 is a flowchart illustrating an apparatus state detection operation according to the first embodiment; 3 is a flowchart illustrating an apparatus information acquisition operation according to the first embodiment; FIG. 3 is a system diagram of an image forming system according to a second embodiment. FIG. 6 is a configuration block diagram of an image forming apparatus according to a second embodiment. It is a block diagram of the information response part concerning Example 2. FIG. 10 is a flowchart illustrating an input operation of transmission information according to the second embodiment. 12 is a flowchart illustrating an operation of deleting transmission information according to the second embodiment. 12 is a flowchart illustrating an apparatus information acquisition operation according to the second embodiment. FIG. 10 is a system diagram of an image forming system according to a third embodiment. FIG. 9 is a configuration block diagram of an image forming apparatus according to a third embodiment. It is a block diagram of the information response part concerning Example 3. FIG. 12 is a flowchart illustrating an input operation of transmission information according to the third embodiment. 10 is a flowchart illustrating an apparatus information acquisition operation according to the third embodiment. FIG. 10 is a system diagram of an image forming system according to a fourth embodiment. FIG. 10 is a configuration block diagram of an image forming apparatus according to a fourth embodiment. FIG. 10 is a block diagram of an information response unit according to a fourth embodiment. 10 is a flowchart illustrating an input operation of transmission information according to the fourth embodiment. 10 is a flowchart illustrating an apparatus information acquisition operation according to the fourth embodiment.

Explanation of symbols

11 PC (information processing equipment)
14 Network 10-40 Printer (image forming device)
101 Input unit 102, 301, 401 Transmission information storage unit (state detection storage means)
103, 403 Transmission information management unit (transmission information storage means)
104 State detection unit (state detection storage means)
105 apparatus state storage unit (apparatus state storage means, state detection storage means)
106 State detection control unit (state detection storage means)
107, 201, 303, 402 Information response unit (detection means, information response means)
108,111 Communication unit (transmission means)
112 Inquiry Department (Inquiry means)
113 Display unit 202 Terminal information storage unit (state detection storage unit)
301 Input unit 302 Clock unit (clock unit)
4021, 3031, 2012, 1071 Judgment unit (information response means)
2011 terminal management unit (state detection storage means)
1073 Response control unit (information response means)
1072 Information generator (information response means)

Claims (7)

In an image forming apparatus connected to an information processing apparatus via a communication line,
Transmission information storage means for storing transmission information to be transmitted to the information processing apparatus in advance;
Detecting means for detecting that image formation information has been received from the information processing apparatus;
A transmission unit configured to transmit the transmission information stored in the transmission information storage unit to the information processing apparatus when the detection unit detects that the image formation information has been received. Image forming apparatus. State detecting means for detecting the state of the image forming apparatus;
The apparatus state storage means for storing the apparatus state, and when the transmission means transmits the transmission information, the apparatus state stored in the apparatus state storage section is also transmitted. The image forming apparatus according to 1. In an image forming system in which an information processing apparatus and an image forming apparatus are connected via a communication line,
The information processing apparatus comprises inquiry means for inquiring apparatus information to the image forming apparatus; and
The image forming apparatus detects and stores the apparatus state of the image forming apparatus, state detection storage means, transmission information storage means for storing transmission information notified to the information processing apparatus, and the information from the information processing apparatus An image forming system comprising: information response means for generating and responding to device information from the device state and the transmission information when device information is inquired. The state detection storage means stores a terminal ID of the information processing apparatus and a notification flag indicating whether the transmission information has been notified to the information processing apparatus having the terminal ID;
4. The image forming system according to claim 3, wherein the information response unit responds by generating device information including only the device state when the notification flag indicates that the transmission information has been notified. The image forming apparatus includes a clock unit for obtaining current time information,
The transmission information storage means stores the transmission information to be notified to the information processing apparatus and a notification start time to start notification of the transmission information,
The information response means determines the elapse of the notification start time from the time indicated by the clock means, and responds by outputting the device information generated from the transmission information and the device status after the notification start time elapses. The image forming system according to claim 3, wherein the image forming system is an image forming system. The image forming apparatus includes a clock unit for obtaining current time information,
The transmission information storage means stores the transmission information to be notified to the information processing apparatus, a notification start time for starting notification of the transmission information, and a notification end time for ending notification of the transmission information,
The information response means determines from the time indicated by the clock means that the current time has passed the notification start time and the notification end time, and is after the notification start time has elapsed and before the notification end time has elapsed. 5. The image forming system according to claim 3, wherein the apparatus information generated from the transmission information and the apparatus state is output and responded. 7. The image forming system according to claim 6, wherein when the information response means determines that the notification end time has elapsed from the time indicated by the clock means, the transmission information is erased.

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