JP2004122586A - Image storage device, printing device, printing control method, program, and storage medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To automatically register printing devices without depending on manual operation, and to simply and surely execute printing in a printing control system in which a plurality of printing devices are connected to a network, and a printing job is carried out by any one of the printing devices. <P>SOLUTION: A digital camera 501 transmits the printing job to a first printing device (502), and the printing job is carried out by the first printing job. In the case where the execution of the printing job cannot be completed, another printing device (503) which can execute the printing job is searched. The printing job is sent again to the detected second printing device by establishing connection to the second printing device. The printing job is carried out by the second printing device. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image storage device, a printing device, a print control method, a program, and a storage medium, and more particularly to an image storage device connectable to a plurality of printing devices, a printing device connected to the image storage device, and the image storage device The present invention relates to a print control method applied to a computer, a program for causing a computer to execute the print control method, and a storage medium storing the program.
[0002]
[Prior art]
In recent years, opportunities for handling various information in the form of digital data have been increasing. For example, in a digital camera, a light image of a subject is converted into an electric analog image signal, and the analog image signal is converted into a digital signal, and the memory in the digital camera body, a removable memory card, a floppy (registered (Trademark) disk or the like.
[0003]
In order to output the image data stored in the storage medium to the printing apparatus, the image data stored in the storage medium is output to the printing apparatus via a personal computer (hereinafter, referred to as “PC”) or a digital camera. In general, image data is output to a printing apparatus by directly connecting the printer to a printing apparatus.
[0004]
By the way, in an environment where there is only one printing device, if the printing device has a problem with the remaining number of sheets, the type of paper, the remaining amount of ink, etc., the requested print job cannot be executed. Sometimes. As a solution to such a drawback, a PC is connected to a network, and a plurality of printing apparatuses compatible with the network are connected to the network, and the image data stored in the storage medium is transferred to the network via the PC. There is a print control system that transfers a print job to one of the printing apparatuses to execute the print job.
[0005]
A selection is made one by one from a plurality of printing devices to which the print data can be transferred, and it is determined whether or not the printing data can be printed by the selected printing device. When possible, the print data is processed for the selected printing device and transferred to the selected printing device (for example, see Patent Document 1).
[0006]
[Patent Document 1]
JP-A-10-283130
[0007]
[Problems to be solved by the invention]
However, in a conventional print control system in which a plurality of printing devices are connected to the above network and any one of the printing devices executes a print job, it is possible to cause any of the plurality of printing devices to execute a print job. Therefore, it is necessary to perform registration (installation) work on each printing apparatus in advance. For example, an unregistered printing device newly connected to the network cannot execute the above-described print job, so that it is necessary to perform a complicated manual registration operation so that the print job can be executed.
[0008]
In recent years, digital devices have been miniaturized, many devices with excellent portability have appeared, and with the innovation of wireless communication technology, portable image input devices have been wirelessly connected to a network and printed with any printing device. The demand for doing is increasing. For this reason, even in a print control system in which a plurality of printing apparatuses are connected to a wireless network and one of the printing apparatuses executes a print job, a complicated manual operation of registering (installing) the printing apparatuses occurs. However, there is a problem that printing cannot be performed easily and reliably.
[0009]
SUMMARY OF THE INVENTION The present invention has been made in view of such a problem, and in a print control system in which a plurality of printing apparatuses are connected to a network and one of the printing apparatuses executes a print job, the registration of the printing apparatuses is performed. And an image storage device, a printing device, a print control method, a program, and a storage medium that automatically perform the printing without manual operation and enable easy and reliable printing.
[0010]
[Means for Solving the Problems]
To achieve the above object, according to the first aspect of the present invention, in an image storage device connectable to a plurality of printing devices, a first connection unit for connecting to a first printing device; A first execution control unit that transmits a print job to one printing apparatus and causes the first printing apparatus to execute the printing job; and a first execution control unit configured to execute the printing job in the first printing apparatus. Searching means for searching for another printing apparatus capable of executing the print job; second connecting means for connecting to the second printing apparatus detected by the searching means; An image storage device comprising: a second execution control unit that retransmits the print job and causes the second printing device to execute the print job.
[0011]
According to the invention described in claim 5, in the printing device connected to the image storage device, a print job from the image storage device and unexecuted print job information indicating a portion of the print job that has not been executed are stored. Receiving means for receiving, extracting means for extracting an unexecuted print job from the print jobs received by the receiving means based on the unexecuted print job information received by the receiving means; An execution unit for executing an execution print job.
[0012]
According to the invention described in claim 6, in the image storage device that can be connected to a plurality of printing devices, a first connection unit that connects to the first printing device, and a print job is sent to the first printing device. First execution control means for transmitting and causing the first printing device to execute the print job; and, when the execution of the print job cannot be completed in the first printing device, the execution of the print job is continued until a predetermined time elapses. Second execution control means for causing the first printing device to repeatedly execute the print job; and, when the execution of the print job cannot be completed in the first printing device even after the predetermined time has elapsed, the print job Searching means for searching for another printing apparatus capable of executing the processing, second connecting means for connecting to the second printing apparatus detected by the searching means, and the print job to the second printing apparatus. Resend Image storage device is provided, characterized in that it comprises a third execution control unit to execute the print job to the second printing device.
[0013]
According to the eighth aspect of the present invention, in an image storage device connectable to a plurality of printing devices, a first connection unit for connecting to a first printing device, and a print job transmitted to the first printing device. A first execution control unit for transmitting and causing the first printing device to execute the print job; and enabling execution of the print job when the execution of the print job cannot be completed in the first printing device. Searching means for searching for another printing apparatus; second connecting means for connecting to the n-th (n = 2, 3,...) Printing apparatus detected by the searching means; Second execution control means for resending the print job to a printing device and causing the nth printing device to execute the print job; and executing the print job in the nth printing device when the execution of the print job cannot be completed. Searching means, the second connecting means, and The repetition execution means for repetitively executing the second execution control means a predetermined number of times, and the repetition execution means causing the retrieving means, the second connection means, and the second execution control means to execute the predetermined number of times. An image storage device is provided that includes an alarm generation unit that generates an alarm when the execution of the print job cannot be completed.
[0014]
According to the tenth aspect of the present invention, in the print control method applied to an image storage device connectable to a plurality of printing devices, a first connection step for connecting to a first printing device; A first execution control step of transmitting a print job to the first printing device and causing the first printing device to execute the print job; and a step of executing the print job in the first printing device when the execution of the print job cannot be completed. A search step for searching for another printing apparatus capable of executing the print job, a second connection step for connecting to the second printing apparatus detected by the searching step, and the second printing apparatus And a second execution control step of causing the second printing device to execute the print job again by resending the print job.
[0015]
According to the eleventh aspect, in a print control method applied to a plurality of printing devices and an image storage device connectable to the plurality of printing devices, the image storage device may include a first printing device and a first printing device. A first execution control step of transmitting a print job to the first printing apparatus, and causing the first printing apparatus to execute the print job; and When the execution of the print job cannot be completed in the first printing device, the image storage device searches for another printing device capable of executing the print job, and the image storage device comprises: A second connection step for making a connection with the second printing device detected by the search step; and a print job transmitted to the first printing device by the first execution control means. And the unexecuted print job information indicating a part of the print job transmitted by the first execution control unit to the first printing device that could not be executed by the first printing device. A second execution control step of resending to the printing apparatus, a receiving step of receiving the print job and the unexecuted print job information by the second printing apparatus; and An extracting step of extracting an unexecuted print job from the received print jobs based on the received unexecuted print job information, and the second printing apparatus executes the unexecuted print job extracted by the extracting step And a print control method.
[0016]
According to a twelfth aspect of the present invention, in the print control method applied to an image storage device connectable to a plurality of printing devices, a first connection step for connecting to a first printing device; A first execution control step of transmitting a print job to the first printing apparatus and causing the first printing apparatus to execute the printing job; and a predetermined execution control step when the execution of the printing job cannot be completed in the first printing apparatus. A second execution control step of causing the first printing device to repeatedly execute the print job until time elapses, and completing the execution of the print job in the first printing device even after the predetermined time elapses If not, a search step for searching for another printing apparatus capable of executing the print job, and a second connection step for connecting to the second printing apparatus detected by the search step. And a third execution control step of resending the print job to the second printing device and causing the second printing device to execute the print job. .
[0017]
According to a thirteenth aspect of the present invention, in the print control method applied to an image storage device connectable to a plurality of printing devices, a first connection step for connecting to a first printing device; Transmitting a print job to the first printing device and causing the first printing device to execute the print job; and executing the print job in the first printing device when the execution of the print job cannot be completed. A search step of searching for another printing apparatus capable of executing a print job, and a second connection for connecting to the n-th (n = 2, 3,...) Printing apparatus detected by the search step Re-sending the print job to the n-th printing device, causing the n-th printing device to execute the print job, and executing the print job in the n-th printing device. Can be completed The retrieving step, the second connecting step, and a repetitive execution step of repeatedly executing the second execution control step a predetermined number of times; and the retrieving step, the second connecting step, And a warning generation step of generating a warning when the execution of the print job cannot be completed even after the second execution control step is performed the predetermined number of times.
[0018]
Further, a program for causing a computer to execute the print control method, and a computer-readable storage medium storing the print control method as a program are provided.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0020]
In the following, the hardware configuration used in the first to seventh embodiments of the present invention will be described first, and thereafter, the hardware configuration according to the first to seventh embodiments executed in this hardware configuration will be described. The software configuration will be described for each embodiment.
[0021]
(Hardware Configuration in First to Seventh Embodiments)
FIG. 1 is a configuration diagram illustrating a hardware configuration according to the first to seventh embodiments.
[0022]
In the figure, reference numeral 501 denotes a digital camera that functions as an image storage device in the present invention, and 502 to 504 denote a plurality of small printers (1, 2,..., N) that function as printing devices. The small printers 502 to 504 are wirelessly connected to each other by a short-range wireless communication interface BlueTooth 505.
[0023]
When a print job is sent from the digital camera 501 to, for example, the small printer (1) 502 and the image is printed, if the small printer (1) 502 cannot execute the print job to the end, another small printer (2) is newly added. ,..., N) 503 to 504, and resends the print job to the small printer detected as a result, thereby completing the execution of the print job.
[0024]
2A and 2B are schematic views showing the configuration of the digital camera 501, wherein FIG. 2A is a front external view of the digital camera 501, and FIG.
[0025]
In the figure, reference numeral 301 denotes a shutter button, 302 denotes an affirmative (YES) command, 303 denotes a strobe, 304 denotes a lens, 305 denotes a liquid crystal display (LCD), 306 denotes a frame forward button for a photographed image, 307 denotes a frame return button, and 308 denotes a print. Button.
[0026]
FIG. 3 is a functional block diagram illustrating a configuration of a control portion related to print image transfer in the digital camera 501.
[0027]
In the figure, 101 is a control device, 102 is a memory unit for storing print data and the like, 103 is a connection unit for wirelessly connecting the digital camera 501 to an external device (small printer), and 104 is a connection unit 103 A transmission / reception unit 105 for transmitting / receiving digital data to / from the external device, a search unit 105 for searching for a printing device (small printer) wirelessly connectable by the connection unit 103, and a search unit 119 for detection If the printing device (small printer 1) cannot execute a print job, the search unit 105 operates to search for another wirelessly connectable printing device (small printer 2, small printer 3, ..., or small printer N) again. The re-search unit 106 for causing the digital camera 501 to detect the printing device (small printer) detected by the re-search unit 119 , Or the small printer 3,... Or the small printer N), the reconnecting unit 107 for operating the connecting unit 103 to connect to the printing device (small printer 2, small printer 3,. , Or a resending unit 108 for resending the print job to the small printer N), and sends to the resending unit 107 all other original print jobs including the portion already printed by the printing device (small printer 1). The retransmission unit 109 for retransmitting the printing device (small printer 2, small printer 3,..., Or small printer N) to the retransmission unit 107 prints the remaining print jobs that cannot be executed by the printing device (small printer 1). That is, the retransmission unit 110 for retransmitting the unexecuted print job to another printing device (small printer 2, small printer 3,... Or small printer N) is the retransmission unit 1 7, information on a print job remaining unexecutable in the printing apparatus (small printer 1), that is, unexecuted print job information and the original print job, are stored in another printing apparatus (small printer 2, small printer 3,...). , Or the small printer N), the memory 111 transmits the unexecuted print job to another printing apparatus (small printer 2, small printer 3,..., Or small printer N). A non-executed print job information acquisition unit 112 for acquiring information on an unexecuted print job is a time measuring unit that measures an elapsed time from a point in time when the printing apparatus (small printer 1) cannot execute the print job. , 113 are marks to be executed in the printing device (small printer 1) when the time measured by the time measuring unit 112 exceeds a predetermined time. The print job is resent to another printing device (small printer 2, small printer 3,..., Or small printer N). The retransmission time setting unit 114 for setting the predetermined time is provided by the printing device (small printer 1). When the execution of the print job cannot be completed, the retransmission unit 115 that causes the retransmission unit 107 to execute retransmission to another printing device (small printer 2, small printer 3,... Or small printer N) up to N times A retransmission count setting unit that sets the number of retransmissions N to be executed by the retransmission unit 114, 116 is a print button, 117 is a power switch, 118 is a display unit corresponding to a liquid crystal display (LCD) 305, and 120 is connected by the connection unit 103. A printing device capability acquisition unit 121 that acquires information about the capability from the printing device that has been executed is acquired by the unexecuted print job information acquisition unit 111. Was based on the unexecuted print job information is unexecuted print job extractor for extracting unexecuted print job from the original print job.
[0028]
The present invention is realized by each unit shown as 106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 119 and 121.
[0029]
FIG. 4 is an external view showing one configuration of the small printers (1 to N) 502 to 504. The small printers (1 to N) 502 to 504 have the same configuration.
[0030]
In the figure, reference numeral 401 denotes a recording medium (printing paper) removably mounted on the small printer, 402 denotes a recorded recording medium recorded by the small printer, and 404 denotes an outlet of the recorded recording medium 402. , 405 are power switches. Although not shown, the small printer is provided with a loading port, into which the recording medium 401 is loaded.
[0031]
FIG. 5 is a block diagram showing one functional configuration of the small printers (1-N) 502-504. The small printers (1 to N) 502 to 504 have the same functional configuration.
[0032]
In the figure, 201 is a control device, 202 is a memory unit that stores image digital information and the like, 203 is a printer unit that outputs image digital information to a recording medium as a viewable image, that is, a printer unit that prints on printing paper, and 204 is a printer unit. A printer control unit 205 for controlling the operation of the printer unit 203; an image processing unit 205 for converting image digital information into a viewable image; and 206, an unexecuted print job information acquired by the unexecuted print job information acquisition unit 111. 207 is a power switch, 208 is a wireless connection unit for wirelessly connecting to an external device (digital camera 501), and 209 is a wireless connection unit for extracting an unexecuted print job from the original print job. And a receiving unit that receives digital information transmitted from an external device connected by the wireless connection unit 208. The unexecuted print job extraction unit 206 is a part related to the present invention.
[0033]
Next, the software configuration of the digital camera 501 (image storage device) and the small printers 502 to 504 (printing device) in each of the first to seventh embodiments will be described.
[0034]
(Software Configuration in First Embodiment)
FIGS. 6 and 7 are flowcharts illustrating a procedure of a printing apparatus control process performed by the digital camera 501 according to the first embodiment.
[0035]
In step S1, it is determined whether or not the power switch 117 is ON. If "yes" (YES), the process proceeds to step S2, and if "no" (NO), the process stands by.
[0036]
In step S2, it is determined whether or not the digital camera 501 is set to the print mode. If "yes" (YES), the process proceeds to step S3, and if "no" (NO), the process stands by.
[0037]
In step S3, the search unit 105 searches for a connectable small printer using the wireless communication interface BlueTooth, and detects all applicable small printers. When step S3 is executed after step S16, the re-search unit 119 causes the search unit 105 to execute such a search.
[0038]
In step S4, it is determined whether one or more small printers have been detected in step S3. If "yes" (YES), the process proceeds to step S5, and if "no" (NO), an error message is displayed on the display unit 118 (the liquid crystal display 305), and the process returns to step S2.
[0039]
In step S5, the small printers detected in step S4 are listed and displayed on the display unit 118 (the liquid crystal display 305).
[0040]
In step S6, it is determined whether or not a small printer to be printed is selected by the operator from the small printer list displayed in step S5. If "yes" (YES), the process proceeds to step S7, and if "no" (NO), the process stands by.
[0041]
In step S7, it is determined whether or not the small printer selected in step S6 is capable of printing (whether or not an imaging profile is supported). If "yes" (YES), the process proceeds to step S8, and if "negative (NO)", an error message is displayed on the display unit 118 (the liquid crystal display 305), and the process returns to step S5.
[0042]
In step S8, the name of the small printer selected in step S6 is stored in the memory unit 102.
[0043]
In step S9, the digital camera 501 is wirelessly connected (BlueTooth interface) to the small printer in which the name is stored in step S8 by the connection unit 103. When step S9 is performed after step S16, reconnecting section 106 causes connecting section 103 to execute the wireless connection.
[0044]
In step S10, the printing device capability acquiring unit 120 acquires information on the capability from the small printer connected in step S9.
[0045]
In step S11, images to be printed are selected, and it is determined whether the number of copies of each image and, if necessary, a data type, a title, and a frame number have been designated. If "yes" (YES), the process proceeds to step S12, and if "no" (NO), the process stands by.
[0046]
In step S12, printing of the image determined to be selected in step S11 is started.
[0047]
In step S13, it is determined whether or not the digital camera 501 is connected to the small printer whose name is stored in step S8. If "yes" (YES), the process proceeds to step S14, and if "no" (NO), the process stands by.
[0048]
In step S14, it is determined whether or not there has been a request to obtain a DPOF (Digital Print Order Format) image from the small printer in which the name has been stored in step S9. If "yes" (YES), the process proceeds to step S15, and if "no" (NO), the process stands by. The DPOF image is an image in which specification information such as a frame to be printed and the number of prints is recorded in a predetermined format.
[0049]
In step S15, the transmitting / receiving unit 104 transmits the i-th partial image of the j-th DPOF image via the connection unit 103 to the small printer in which the name is stored in step S8. Here, there are M (1 ≦ j ≦ M) DPOF images, and each DPOF image is divided into N (1 ≦ i ≦ N) and transmitted. i and j are respectively set to 1 when step S16 is executed for the first time, and are incremented for each execution from the next execution until i reaches N, and when i reaches N, j is incremented and similarly. The increment of i is performed every time step S16 is performed, and is performed until j reaches M.
[0050]
When step S15 is executed after a negative (NO) determination in step S16, the retransmission units 107 and 108 transmit the print job. At this time, the print job retransmitted by the retransmitting unit 108 is all the original print jobs including those already printed by the small printer whose name is stored first in step S8.
[0051]
In step S16, it is determined whether or not the small printer having the name stored in step S8 can print the print job (partial image) transmitted in step S15. If "yes" (YES), the process proceeds to step S17, and if "no" (NO), the process returns to step S3.
[0052]
In step S17, it is determined whether or not there has been a connection disconnection request from the small printer in which the name is stored in step S8. If "yes" (YES), the process proceeds to step S18, and if "no" (NO), the process proceeds to step S14.
[0053]
In step S18, the connection between the digital camera 501 and the small printer whose name is stored in step S8 is disconnected.
[0054]
As described above, the registration of the printing apparatus can be automatically performed without manual operation, and the image printing can be performed easily and reliably.
[0055]
(Software Configuration in Second Embodiment)
FIGS. 8 and 9 are flowcharts illustrating a procedure of a printing apparatus control process executed by the digital camera 501 according to the second embodiment.
[0056]
Since the printing apparatus control processing according to the second embodiment is basically the same as the printing apparatus control processing according to the first embodiment, the same steps will be denoted by the same step numbers and description thereof will be omitted. In the second embodiment, steps S21 and S22 are newly inserted between step S16 and step S3.
[0057]
In step S21, the non-executed print job information acquisition unit 111 acquires the print job determined to be unprintable in step S16, that is, information on the unexecuted print job, and stores it in the memory unit 102.
[0058]
In step S22, based on the unexecuted print job information stored in the memory unit 102 in step S21, the unexecuted print job extraction unit 121 extracts the print job to be processed by the small printer whose name is stored in step S8. An unexecuted print job excluding the already printed job portion is extracted and stored in the memory unit 102.
[0059]
When step S16 is executed after steps 21 and S22 are executed, the retransmission units 107 and 109 transmit the print job. At this time, the print job resent by the resending unit 109 is an unexecuted print job stored in the memory unit 102 in step S22.
[0060]
As described above, in the second embodiment, only an unexecuted print job is transferred to another small printer to perform printing, so that useless transfer and printing of the same image twice can be prevented. , And efficient printing can be performed.
[0061]
(Software Configuration in Third Embodiment)
FIGS. 10 and 11 are flowcharts illustrating a procedure of a printing apparatus control process executed by the digital camera 501 according to the third embodiment.
[0062]
Since the printing apparatus control processing according to the third embodiment is basically the same as the printing apparatus control processing according to the first embodiment, the same steps will be denoted by the same step numbers and description thereof will be omitted. In the third embodiment, step S31 is newly inserted between step S16 and step S3.
[0063]
In step S31, the unexecuted print job information acquisition unit 111 acquires the print job determined to be unprintable in step S16, that is, information on the unexecuted print job, and stores it in the memory unit 102.
[0064]
When step S15 is performed after step S31 is performed, the retransmission units 107 and 110 transmit a print job. At this time, the print job resent by the resending unit 110 includes the unexecuted print job information stored in the memory unit 102 in step S31 and the print job already printed by the small printer whose name is first stored in step S8. The original print job, including the original print job.
[0065]
The printing process executed by the small printer that receives the unexecuted print job information and the original print job will be described below.
[0066]
FIG. 12 and FIG. 13 are flowcharts illustrating a procedure of a printing process executed by the small printer according to the third embodiment.
[0067]
In step S41, it is determined whether or not the power switch 207 is ON. If "yes" (YES), the process proceeds to step S42, and if "no" (NO), the process stands by.
[0068]
In step S42, it is determined whether or not the small printer is set to the wireless (BlueTooth) communication mode. If "yes" (YES), the process proceeds to step S43, and if "no" (NO), the process stands by.
[0069]
In step S43, it is determined whether there is an inquiry from the printing device capability acquisition unit 120 of the digital camera 501 for information on the capability of the small printer. If “yes” (YES), the process proceeds to step S44, and if “no” (NO), the process stands by.
[0070]
In step S44, information about the capability of the small printer is notified to the digital camera 501.
[0071]
In step S45, it is determined whether or not there is a printing start request from the digital camera 501. If "yes" (YES), the process proceeds to step S46, and if "no" (NO), the process stands by.
[0072]
In step S46, the small printer is connected to the digital camera 501 wirelessly (BlueTooth).
[0073]
In step S47, the receiving unit 209 receives the i-th partial image from the j-th image of the DPOF image transmitted from the digital camera 501.
[0074]
In step S48, it is determined whether the reception of the i-th partial image of the j-th DPOF image from the digital camera 501 has been completed. If "yes" (YES), the process proceeds to step S49, and if "no" (NO), the process returns to step S47.
[0075]
In step S49, the non-executed print job information acquiring unit 111 of the digital camera 501 determines whether the receiving unit 209 has received the executed print job information transmitted to the small printer. If "yes" (YES), the process proceeds to step S50, and if "no" (NO), the process stands by.
[0076]
In step S50, the unexecuted print job extracting unit 206 extracts an unexecuted print job from the print job received in step S47 based on the unexecuted print job information determined to have been received in step S49.
[0077]
In step S51, the image processing unit 205, the printer unit 203, and the printer control unit 204 execute printing based on the unexecuted print job extracted in step S50.
[0078]
In the step S52, it is determined whether or not the printing is completed. If "yes" (YES), the process proceeds to step S53, and if "no" (NO), the process returns to step S51.
[0079]
In step S53, the wireless (BlueTooth) connection between the small printer and the digital camera 501 is disconnected.
[0080]
In step S54, it is determined whether there has been a wireless (BlueTooth) disconnection request from the digital camera 501. If "affirmative (YES)", the printing process is terminated, and if "negative (NO)", the process stands by.
[0081]
(Software Configuration in Fourth Embodiment)
FIGS. 14 and 15 are flowcharts illustrating a procedure of a printing apparatus control process performed by the digital camera 501 according to the fourth embodiment.
[0082]
Since the printing apparatus control processing according to the fourth embodiment is basically the same as the printing apparatus control processing according to the first embodiment, the same steps will be denoted by the same step numbers and description thereof will be omitted. In the fourth embodiment, step S61 is newly inserted between step S16 and step S3.
[0083]
In step S61, the time measuring unit 112 measures the elapsed time from the time when it is determined that printing is impossible in step S16, and determines whether the elapsed time exceeds a predetermined time. If "yes" (YES), the process proceeds to step S3, and if "no" (NO), the process returns to step S16.
[0084]
When step S15 is executed after the determination of affirmative (YES) in step S61, the retransmitting units 107 and 108 transmit the print job. At this time, the print job retransmitted by the retransmitting unit 108 is all the original print jobs.
[0085]
As described above, in the fourth embodiment, when the print job transmitted from the digital camera 501 is printed by the small printer (small printer 1), the small printer (small printer 1) executes the print job. Is not completed, the inquiry about whether or not the small printer (small printer 1) can perform printing is repeated for a predetermined time. When printing is not possible, another small printer (small printer 2, small printer 3,..., And small printer N) is searched for, and the small printers (small printer 2, small printer 3,. , Or by resending the print job to the small printer N), the execution of the print job is completed.
[0086]
Thus, in the fourth embodiment, when a printing device that has temporarily become unable to print (for example, a paper shortage) returns (for example, replenishes paper) within a predetermined time, the printing device continuously prints. Output can be obtained.
[0087]
(Software Configuration in Fifth Embodiment)
In the fifth embodiment, the same processing as the printing apparatus control processing in the fourth embodiment is executed. However, the predetermined time used in the printing apparatus control processing can be set arbitrarily. In the following, description of the printing apparatus control processing will be omitted, and only the processing for setting the predetermined time will be described.
[0088]
FIG. 16 is a flowchart illustrating a procedure of a predetermined time setting process executed by the digital camera 501 in the fifth embodiment.
[0089]
In the step S71, it is determined whether or not the power switch 117 is ON. If "yes" (YES), the process proceeds to step S72, and if "no" (NO), the process stands by.
[0090]
In step S72, it is determined whether the digital camera 501 is set to the setting mode. If "yes" (YES), the process proceeds to step S74, and if "no" (NO), the process proceeds to step S73.
[0091]
In step S73, an operation according to a mode other than the setting mode (for example, a shooting mode, a reproduction mode, a print mode, etc.) is performed.
[0092]
In step S74, it is determined whether the mode is the retransmission time setting mode. If "yes" (YES), the process proceeds to step S76, and if "no" (NO), the process proceeds to step S75.
[0093]
In step S75, an operation according to another setting mode (for example, a maximum retransmission number setting mode or the like) is performed.
[0094]
In step S76, it is determined whether or not the operator has input a predetermined time to retransmission time setting section 113. If "yes" (YES), the process proceeds to step S77, and if "no" (NO), the process stands by.
[0095]
In step S77, the retransmission time setting unit 113 stores the predetermined time determined to have been input in step S76 in the memory unit 102.
[0096]
Accordingly, in the fifth embodiment, the predetermined time is arbitrarily set by the operator, so that retransmission can be set according to the operator's preference, and stress due to unintentional printing wait, printing error termination, and the like can be obtained. Can be eliminated.
[0097]
(Software Configuration in Sixth Embodiment)
FIGS. 17 and 18 are flowcharts illustrating a procedure of a printing apparatus control process performed by the digital camera 501 according to the sixth embodiment.
[0098]
Since the printing apparatus control processing according to the sixth embodiment is basically the same as the printing apparatus control processing according to the first embodiment, the same steps will be denoted by the same step numbers and description thereof will be omitted. In the sixth embodiment, steps S81 to S83 are newly inserted between steps S2 and S4.
[0099]
In step S2, it is determined that the print mode is set, and the process proceeds to step S81. In step S81, the number of retransmissions of resending the print job to another small printer (small printer 2, small printer 3,. Then, the number of retransmissions is stored in the memory unit 102.
[0100]
In step S82, it is determined whether or not the number of retransmissions stored in step S81 is equal to or less than the maximum number of retransmissions XMAX. If “yes” (YES), the process proceeds to step S3, and if “no” (NO), the process proceeds to step S83.
[0101]
In step S83, the fact that the print job cannot be printed is displayed on the display unit 118 (the liquid crystal display 305), and the printing apparatus control ends.
[0102]
When step S15 is executed after a negative (NO) determination in step S16, the retransmission units 107 and 108 transmit the print job. At this time, the print job retransmitted by the retransmitting unit 108 is all the original print jobs.
[0103]
As described above, in the sixth embodiment, when the print job sent from the digital camera 501 is printed by the small printer (small printer 1), the small printer (small printer 1) executes the print job. If the printer cannot be completed, another printer (small printer 2, small printer 3,..., Small printer N) is newly searched, and the small printer (small printer 2, small printer 3,. ), The print job is retransmitted up to the maximum retransmission count XMAX. As a result of re-sending the data to the XMAX small printers, if any of the small printers cannot print, the printing operation is determined to be impossible and the printing operation ends. In other words, the search and retransmission are repeated up to XMAX times until another printable small printer (small printer 2, small printer 3,..., Small printer N) is detected.
[0104]
As described above, in the sixth embodiment, when the execution of a print job cannot be completed in a certain printing apparatus, the maximum number of retransmissions XMAX for resending the print job to another printing apparatus is provided. Re-sending to a printing device.
[0105]
(Software Configuration in Seventh Embodiment)
In the seventh embodiment, the same processing as the printing apparatus control processing in the sixth embodiment is executed. However, the maximum number of retransmissions XMAX used in the printing apparatus control process can be set arbitrarily. In the following, description of the printing apparatus control processing will be omitted, and only the processing for setting the maximum number of retransmissions will be described.
[0106]
FIG. 19 is a flowchart illustrating a procedure of a setting process of the maximum number of retransmissions executed by the digital camera 501 in the seventh embodiment.
[0107]
In the step S91, it is determined whether or not the power switch 117 is ON. If "yes" (YES), the process proceeds to step S92, and if "no" (NO), the process stands by.
[0108]
In step S92, it is determined whether or not the digital camera 501 has been set to the setting mode. If "yes" (YES), the process proceeds to step S94, and if "no" (NO), the process proceeds to step S93.
[0109]
In step S93, an operation according to a mode other than the setting mode (for example, a shooting mode, a reproduction mode, a print mode, etc.) is performed.
[0110]
In step S94, it is determined whether or not the mode is the maximum retransmission number setting mode. If "yes" (YES), the process proceeds to step S96, and if "no" (NO), the process proceeds to step S95.
[0111]
In step S95, an operation according to another setting mode (for example, a retransmission time setting mode or the like) is performed.
[0112]
In step S96, it is determined whether or not the operator has input the maximum number of retransmissions to retransmission number setting section 115. If "yes" (YES), the process proceeds to step S97, and if "no" (NO), the process stands by.
[0113]
In step S97, the retransmission number setting unit 115 stores the maximum number of retransmissions determined to have been input in step S96 in the memory unit 102.
[0114]
As described above, in the seventh embodiment, since the maximum number of retransmissions XMAX is arbitrarily set by the operator, retransmission can be set according to the operator's preference, and unintended printing wait or printing error end Stress due to the above can be eliminated.
[0115]
(Other embodiments)
In the above fourth to seventh embodiments, retransmitting section 108 operates retransmitting section 107, but retransmitting section 109 or retransmitting section 110 may operate retransmitting section 107. That is, the print job resent by the resending unit 107 may be an unexecuted print job or an original print job accompanied by unexecuted print job information.
[0116]
Further, the image storage device according to the first to seventh embodiments is not limited to a digital camera, but may be a PC, a PDA (Personal Digital Assistants), or the like as long as the device has a means for storing an image. Similarly, the printing apparatus is not limited to a small printer, and may be an ink jet printer, a laser printer, or the like as long as the apparatus has means for recording on recording paper. Similarly, the wireless connection interface is not limited to BlueTooth, but may be another wireless connection method such as an infrared method or a wireless LAN.
[0117]
Further, the image storage device and the plurality of printing devices in the first to seventh embodiments are wirelessly connected. Instead, the image storage device and the plurality of printing devices are connected by wire. It may be.
[0118]
Further, the program code itself of software for realizing the functions of the above-described embodiments may constitute the present invention, and a storage medium storing the program code may constitute the present invention.
[0119]
In this case, the program code itself read from the storage medium implements the functions of the above-described embodiments, and the storage medium storing the program code constitutes the present invention.
[0120]
As a storage medium for supplying the program code, for example, a floppy (registered trademark) disk, hard disk, optical disk, magneto-optical disk, CD-ROM, CD-R, magnetic tape, nonvolatile memory card, ROM, or the like is used. Can be.
[0121]
When the computer executes the readout program code, not only the functions of the above-described embodiments are realized, but also the OS or the like running on the computer is actually executed based on the instructions of the program code. It goes without saying that the present invention includes a case where some or all of the processing is performed and the functions of the above-described embodiments are realized by the processing.
[0122]
Further, after the program code read from the storage medium is written into a memory provided on a function expansion board inserted into the computer or a function expansion unit connected to the computer, the function expansion is performed based on the instruction of the program code. It is needless to say that the present invention includes a case where a CPU or the like provided in the board or the function expansion unit performs part or all of the actual processing, and the processing realizes the functions of the above-described embodiments.
[0123]
【The invention's effect】
According to the first, second, tenth, fourteenth, and eighteenth aspects of the present invention, as described in detail above, a printing device connected to an image storage device transmits the image data from the image storage device. If the execution of the print job cannot be completed, the image storage device searches for another new print device, and resends the original print job itself to the newly detected printing device, thereby reliably completing the print job. Is possible. As a result, the operator himself / herself can automatically register the printing apparatus without manual operation, and can easily and surely perform image printing.
[0124]
According to the third aspect of the present invention, an unexecuted print job is extracted from an original print job, and only the unexecuted print job is retransmitted to another printing apparatus, so that only the unexecuted print job is reduced to another small size. Since the data is transferred to the printer for printing, useless transfer and printing of the same image twice can be prevented, and efficient printing processing can be performed.
[0125]
Also, according to the invention described in claim 6, claim 12, or claim 20, the printing apparatus remains in a state where the execution of the print job cannot be completed in the printing apparatus until a predetermined time elapses. To continue the execution of the print job. Accordingly, when the printing device that has temporarily become unable to print (for example, a shortage of paper) recovers (for example, replenishes paper) within a predetermined time, the printing device can perform print output.
[0126]
According to the eighth, thirteenth, seventeenth, or twenty-first aspect of the present invention, when the execution of the print job cannot be completed in the printing device, the printing job is sequentially sent to the other plurality of printing devices a predetermined number of times. Resend to execute the print job. As a result, it is possible to prevent the print job from being resent to another printing apparatus without limit.
[0127]
Furthermore, according to the invention described in claim 7 or claim 9, the operator arbitrarily sets the predetermined time or the predetermined number of times. As a result, retransmission can be set according to the operator's preference, and stress due to unintentional printing wait or end of printing error can be eliminated.
[Brief description of the drawings]
FIG. 1 is a configuration diagram illustrating a hardware configuration according to first to seventh embodiments.
FIGS. 2A and 2B are schematic views showing the configuration of a digital camera, wherein FIG. 2A is a front external view of the digital camera, and FIG.
FIG. 3 is a functional block diagram illustrating a configuration of a control section related to print image transfer in the digital camera.
FIG. 4 is an external view showing one configuration of the small printers (1 to N).
FIG. 5 is a block diagram showing one functional configuration of the small printers (1 to N).
FIG. 6 is a flowchart (1/2) illustrating a procedure of a printing device control process executed by the digital camera according to the first embodiment.
FIG. 7 is a flowchart (2/2) illustrating a procedure of a printing apparatus control process executed by the digital camera according to the first embodiment.
FIG. 8 is a flowchart (1/2) illustrating a procedure of a printing apparatus control process executed by the digital camera according to the second embodiment.
FIG. 9 is a flowchart (2/2) illustrating a procedure of a printing apparatus control process executed by the digital camera according to the second embodiment.
FIG. 10 is a flowchart (1/2) illustrating a procedure of a printing apparatus control process executed by the digital camera according to the third embodiment.
FIG. 11 is a flowchart (2/2) illustrating a procedure of a printing apparatus control process executed by the digital camera according to the third embodiment.
FIG. 12 is a flowchart (1/2) illustrating a procedure of a printing process executed by the small printer according to the third embodiment.
FIG. 13 is a flowchart (2/2) showing a procedure of a printing process executed by the small printer according to the third embodiment.
FIG. 14 is a flowchart (1/2) illustrating a procedure of a printing apparatus control process executed by the digital camera according to the fourth embodiment.
FIG. 15 is a flowchart (2/2) illustrating a procedure of a printing apparatus control process executed by the digital camera according to the fourth embodiment.
FIG. 16 is a flowchart illustrating a procedure of a predetermined time setting process executed by the digital camera in the fifth embodiment.
FIG. 17 is a flowchart (1/2) illustrating a procedure of a printing apparatus control process executed by the digital camera according to the sixth embodiment.
FIG. 18 is a flowchart (2/2) illustrating a procedure of a printing apparatus control process executed by the digital camera according to the sixth embodiment.
FIG. 19 is a flowchart illustrating a procedure of a setting process of a maximum number of retransmissions executed by the digital camera in the seventh embodiment.
[Explanation of symbols]
101 control device (first execution control means)
102 Memory section
103 connecting part (first connecting means)
104 transceiver
105 Search Unit
106 reconnection unit (second connection means)
107-110 retransmission unit (second execution control means)
111 Unexecuted print job information acquisition unit
112 Time measurement unit
113 Retransmission time setting section
114 retransmission section
115 Retransmission count setting unit
116 Print button
117 Power switch
118 Display
119 Re-search part (search means)
120 Printer Acquisition Unit
121 Unexecuted print job extraction unit
201 Control device
202 Memory section
203 Printer section
204 Printer control unit
205 Image processing unit
206 Unexecuted print job extraction unit
207 Power switch
208 wireless connection
209 Receiver
305 Liquid crystal display (LCD)
308 Print button
401, 402 Recording medium (printing paper)
501 Digital camera (image storage device)
502-504 Small printers (1, 2, ..., N) (plural printing devices)
505 Wireless Communication Interface BlueTooth

Claims (21)

In an image storage device connectable to a plurality of printing devices,
First connection means for connecting to the first printing device;
First execution control means for transmitting a print job to the first printing device and causing the first printing device to execute the print job;
Searching means for searching for another printing device capable of executing the print job when the execution of the print job cannot be completed in the first printing device;
Second connection means for connecting to the second printing device detected by the search means;
An image storage device, comprising: second execution control means for resending the print job to the second printing device and causing the second printing device to execute the print job. 2. The apparatus according to claim 1, wherein the second execution control unit retransmits all the print jobs transmitted to the first printing device by the first execution control unit to the second printing device. 3. An image storage device according to claim 1. The second execution control unit may execute an unexecuted print job that is a part of the print job transmitted to the first printing device by the first execution control unit and that cannot be executed by the first printing device. 2. The image storage device according to claim 1, wherein the image data is resent to the second printing device. The second execution control unit is configured to transmit all of the print jobs transmitted to the first printing device by the first execution control unit, and to transmit the print job to the first printing device by the first execution control unit. 2. The image storage device according to claim 1, wherein unexecuted print job information indicating a portion of the print job that cannot be executed by the first printing device is resent to the second printing device. 3. In a printing device connected to the image storage device,
Receiving means for receiving a print job from the image storage device and unexecuted print job information indicating a portion of the print job that has not been executed,
Extracting means for extracting an unexecuted print job from the print jobs received by the receiving means based on the unexecuted print job information received by the receiving means;
An execution unit that executes the unexecuted print job extracted by the extraction unit. In an image storage device connectable to a plurality of printing devices,
First connection means for connecting to the first printing device;
First execution control means for transmitting a print job to the first printing device and causing the first printing device to execute the print job;
A second execution control means for causing the first printing device to repeatedly execute the print job until a predetermined time elapses, when the execution of the print job cannot be completed in the first printing device;
A search unit configured to search for another printing device capable of executing the print job when the execution of the print job cannot be completed in the first printing device even after the lapse of the predetermined time;
Second connection means for connecting to the second printing device detected by the search means;
An image storage device, comprising: third execution control means for resending the print job to the second printing device and causing the second printing device to execute the print job. The image storage device according to claim 6, wherein the predetermined time can be set by an operator. In an image storage device connectable to a plurality of printing devices,
First connection means for connecting to the first printing device;
First execution control means for transmitting a print job to the first printing device and causing the first printing device to execute the print job;
Searching means for searching for another printing device capable of executing the print job when the execution of the print job cannot be completed in the first printing device;
Second connection means for connecting to the n-th (n = 2, 3,...) Printing apparatus detected by the search means;
Second execution control means for resending the print job to the nth printing device and causing the nth printing device to execute the print job;
When the execution of the print job cannot be completed in the n-th printing device, a repetition execution unit that executes the search unit, the second connection unit, and the second execution control unit repeatedly a predetermined number of times;
An alarm generating unit that generates an alarm when the execution of the print job cannot be completed even after the repetition execution unit executes the search unit, the second connection unit, and the second execution control unit for the predetermined number of times. An image storage device comprising: 9. The image storage device according to claim 8, wherein the predetermined number of times can be set by an operator. In a print control method applied to an image storage device connectable to a plurality of printing devices,
A first connection step of connecting to a first printing device;
A first execution control step of transmitting a print job to the first printing device and causing the first printing device to execute the print job;
A search step for searching for another printing device capable of executing the print job when the execution of the print job cannot be completed in the first printing device;
A second connection step for connecting to a second printing device detected by the search step;
Re-transmitting the print job to the second printing device, and causing the second printing device to execute the print job. In a print control method applied to a plurality of printing devices and an image storage device connectable to the plurality of printing devices,
A first connection step in which the image storage device makes a connection with a first printing device; and the image storage device transmits a print job to the first printing device, and the first printing device sends the print job to the first printing device. A first execution control step for executing a print job;
When the execution of the print job cannot be completed in the first printing device, the image storage device searches for another printing device capable of executing the print job;
A second connection step in which the image storage device connects to a second printing device detected in the search step;
The image storage device stores all of the print jobs transmitted to the first printing device by the first execution control unit and the print jobs transmitted to the first printing device by the first execution control unit. A second execution control step of retransmitting, to the second printing apparatus, unexecuted print job information indicating a part that could not be executed by the first printing apparatus;
A receiving step in which the second printing device receives the print job and the unexecuted print job information;
An extracting step in which the second printing device extracts an unexecuted print job from the received print jobs based on the received unexecuted print job information;
An execution step of executing the unexecuted print job extracted in the extraction step by the second printing apparatus. In a print control method applied to an image storage device connectable to a plurality of printing devices,
A first connection step of connecting to a first printing device;
A first execution control step of transmitting a print job to the first printing device and causing the first printing device to execute the print job;
A second execution control step of causing the first printing device to repeatedly execute the print job until a predetermined time has elapsed when the execution of the print job cannot be completed in the first printing device;
A search step for searching for another printing device capable of executing the print job when the execution of the print job cannot be completed in the first printing device even after the predetermined time has elapsed;
A second connection step for connecting to a second printing device detected by the search step;
A third execution control step of resending the print job to the second printing device and causing the second printing device to execute the print job. In a print control method applied to an image storage device connectable to a plurality of printing devices,
A first connection step of connecting to a first printing device;
A first execution control step of transmitting a print job to the first printing device and causing the first printing device to execute the print job;
A search step for searching for another printing device capable of executing the print job when the execution of the print job cannot be completed in the first printing device;
A second connection step of connecting to an n-th (n = 2, 3,...) Printing apparatus detected by the search step;
Re-sending the print job to the n-th printing device and causing the n-th printing device to execute the print job;
When the execution of the print job cannot be completed in the n-th printing apparatus, a repetition execution step of repeatedly executing the search step, the second connection step, and the second execution control step a predetermined number of times;
An alarm generating step of generating an alarm when the execution of the print job cannot be completed even after the search step, the second connection step, and the second execution control step are executed the predetermined number of times by the repetitive execution step And a print control method. A program for causing a computer to execute a print control method applied to an image storage device connectable to a plurality of printing devices,
The print control method,
A first connection step of connecting to a first printing device;
A first execution control step of transmitting a print job to the first printing device and causing the first printing device to execute the print job;
A search step for searching for another printing device capable of executing the print job when the execution of the print job cannot be completed in the first printing device;
A second connection step for connecting to a second printing device detected by the search step;
A second execution control step of retransmitting the print job to the second printing device and causing the second printing device to execute the print job. A program for causing a computer to execute a print control method applied to a plurality of printing apparatuses and an image storage device connectable to the plurality of printing apparatuses,
The print control method,
A first connection step in which the image storage device makes a connection with a first printing device; and the image storage device transmits a print job to the first printing device, and the first printing device sends the print job to the first printing device. A first execution control step for executing a print job;
When the execution of the print job cannot be completed in the first printing device, the image storage device searches for another printing device capable of executing the print job;
A second connection step in which the image storage device connects to a second printing device detected in the search step;
The image storage device stores all of the print jobs transmitted to the first printing device by the first execution control unit and the print jobs transmitted to the first printing device by the first execution control unit. A second execution control step of retransmitting, to the second printing apparatus, unexecuted print job information indicating a part that could not be executed by the first printing apparatus;
A receiving step in which the second printing device receives the print job and the unexecuted print job information;
An extracting step in which the second printing device extracts an unexecuted print job from the received print jobs based on the received unexecuted print job information;
An execution step of executing the unexecuted print job extracted by the extraction step by the second printing device. A program for causing a computer to execute a print control method applied to an image storage device connectable to a plurality of printing devices,
The print control method,
A first connection step of connecting to a first printing device;
A first execution control step of transmitting a print job to the first printing device and causing the first printing device to execute the print job;
A second execution control step of causing the first printing device to repeatedly execute the print job until a predetermined time has elapsed when the execution of the print job cannot be completed in the first printing device;
A search step for searching for another printing device capable of executing the print job when the execution of the print job cannot be completed in the first printing device even after the predetermined time has elapsed;
A second connection step for connecting to a second printing device detected by the search step;
Resending the print job to the second printing device and causing the second printing device to execute the print job. A program for causing a computer to execute a print control method applied to an image storage device connectable to a plurality of printing devices,
The print control method,
A first connection step of connecting to a first printing device;
A first execution control step of transmitting a print job to the first printing device and causing the first printing device to execute the print job;
A search step for searching for another printing device capable of executing the print job when the execution of the print job cannot be completed in the first printing device;
A second connection step of connecting to an n-th (n = 2, 3,...) Printing apparatus detected by the search step;
Re-sending the print job to the n-th printing device and causing the n-th printing device to execute the print job;
When the execution of the print job cannot be completed in the n-th printing apparatus, a repetition execution step of repeatedly executing the search step, the second connection step, and the second execution control step a predetermined number of times;
An alarm generating step of generating an alarm when the execution of the print job cannot be completed even after the search step, the second connection step, and the second execution control step are executed the predetermined number of times by the repetitive execution step And a program comprising: A computer-readable storage medium storing a print control method applied to an image storage device connectable to a plurality of printing devices as a program,
The print control method,
A first connection step of connecting to a first printing device;
A first execution control step of transmitting a print job to the first printing device and causing the first printing device to execute the print job;
A search step for searching for another printing device capable of executing the print job when the execution of the print job cannot be completed in the first printing device;
A second connection step for connecting to a second printing device detected by the search step;
Resending the print job to the second printing device and causing the second printing device to execute the print job. A computer-readable storage medium storing a printing control method applied to a plurality of printing devices and an image storage device connectable to the plurality of printing devices as a program,
The print control method,
A first connection step in which the image storage device makes a connection with a first printing device; and the image storage device transmits a print job to the first printing device, and the first printing device sends the print job to the first printing device. A first execution control step for executing a print job;
When the execution of the print job cannot be completed in the first printing device, the image storage device searches for another printing device capable of executing the print job;
A second connection step in which the image storage device connects to a second printing device detected in the search step;
The image storage device stores all of the print jobs transmitted to the first printing device by the first execution control unit and the print jobs transmitted to the first printing device by the first execution control unit. A second execution control step of retransmitting, to the second printing apparatus, unexecuted print job information indicating a part that could not be executed by the first printing apparatus;
A receiving step in which the second printing device receives the print job and the unexecuted print job information;
An extracting step in which the second printing device extracts an unexecuted print job from the received print jobs based on the received unexecuted print job information;
An execution step of executing the unexecuted print job extracted by the extraction step, wherein the second printing device executes the unexecuted print job. A computer-readable storage medium storing a print control method applied to an image storage device connectable to a plurality of printing devices as a program,
The print control method,
A first connection step of connecting to a first printing device;
A first execution control step of transmitting a print job to the first printing device and causing the first printing device to execute the print job;
A second execution control step of causing the first printing device to repeatedly execute the print job until a predetermined time has elapsed when the execution of the print job cannot be completed in the first printing device;
A search step for searching for another printing device capable of executing the print job when the execution of the print job cannot be completed in the first printing device even after the predetermined time has elapsed;
A second connection step for connecting to a second printing device detected by the search step;
A third execution control step of resending the print job to the second printing device and causing the second printing device to execute the print job. A computer-readable storage medium storing a print control method applied to an image storage device connectable to a plurality of printing devices as a program,
The print control method,
A first connection step of connecting to a first printing device;
A first execution control step of transmitting a print job to the first printing device and causing the first printing device to execute the print job;
A search step for searching for another printing device capable of executing the print job when the execution of the print job cannot be completed in the first printing device;
A second connection step of connecting to an n-th (n = 2, 3,...) Printing apparatus detected by the search step;
Re-sending the print job to the n-th printing device and causing the n-th printing device to execute the print job;
When the execution of the print job cannot be completed in the n-th printing apparatus, a repetition execution step of repeatedly executing the search step, the second connection step, and the second execution control step a predetermined number of times;
An alarm generating step of generating an alarm when the execution of the print job cannot be completed even after the search step, the second connection step, and the second execution control step are executed the predetermined number of times by the repetitive execution step And a storage medium comprising:

Images