JP6822189B2 - Printer - Google Patents

Description

The technology disclosed herein relates to a printer that receives print data from an external device and performs printing according to the received print data.

The printing system disclosed in Patent Document 1 includes a printer and a host computer. When the host computer is connected to the printer by the first connection means whose communication speed is less than a predetermined value, the first data format obtained by compressing the image data to be printed by the first compression means. When the image data having the above is transferred to the computer and connected to the printer by the second connection means having a communication speed of a predetermined value or more, the second compression means obtained by compressing the image data with the second compression means. Transfer the image data having the data format of to the printer. The data amount of the image data having the first data format is smaller than the data amount of the image data having the second data format. When the host computer is connected to the printer by the first connection means, the image data having the first data format with a small amount of data is transferred to the printer, so that the data transfer time is shortened and the printing speed is improved. I am trying to.

Japanese Unexamined Patent Publication No. 2013-92814

In the technique of Patent Document 1, the host computer needs to be provided with a special application program for changing the compression means according to the connection means with the printer.

The present specification provides a technique capable of shortening the time from the start of communication of print data from the external device to the printer to the start of printing on the printer even if the external device does not have a special application program.

The printer disclosed in the present specification includes a wireless interface, a wired interface having a communication speed faster than the wireless interface, a print execution unit, and a first external device via the wireless interface. When the first request receiving unit that receives the first request for inquiring about the decompressable compression format and the first request are received from the first external device via the wireless interface, the first request is received. A first response that transmits a first response, including first format information, indicating that the printer can decompress data having the first compressed format to the first external device via a wireless interface. First data that receives the first print data having the first compression format from the transmission unit and the first external device via the wireless interface after the first response is transmitted. When the receiving unit and the first print data are received, the first print data is decompressed to generate the first decompressed data, and printing according to the first decompressed data is performed. A second request from the first print control unit to be executed by the print execution unit and the second external device to inquire about the compression format that the printer can decompress via the wired interface. Despite the fact that the printer can decompress the data having the first compression format when the second request is received from the request receiving unit and the second external device via the wired interface. Instead, via the wired interface, the printer sends a second response to the second external device, including second format information indicating that the data having the first compression format cannot be decompressed. The second response transmission unit and the second print data having no first compression format from the second external device via the wired interface after the second response is transmitted. A second data receiving unit that receives the data, and a second print control unit that causes the print execution unit to execute printing according to the second print data when the second print data is received. And.

According to the above configuration, when the printer receives the first request from the first external device via the wireless interface, the printer transmits the first response including the first format information to the first external device. After that, the first print data having the first compression format is received from the first external device. Since the first print data has the first compression format, the communication time of the first print data can be relatively short even in wireless communication having a relatively slow communication speed (that is, communication via a wireless interface). The printer needs to decompress the first print data, but since the communication time of the first print data is short, the time from the start of communication of the first print data to the start of printing by the printer is shortened. Can be done. On the other hand, when the printer receives the second request from the second external device via the wired interface, the second format information indicating that the printer cannot decompress the data having the first compression format. A second response including the above is transmitted to the second external device, and then the second print data having no first compression format is received from the second external device. Since the second print data does not have the first compression format but is communicated by wired communication (that is, communication via a wired interface) having a relatively high communication speed, the communication times of the second print data are compared. It can be short. Since the communication time of the second print data is short and the printer does not have to perform decompression according to the first compression format, printing on the printer is started from the start of communication of the second print data. It can shorten the time to. Therefore, even if the first and second external devices do not have a special application program, the time from the start of communication of print data from the external device to the printer to the start of printing on the printer can be shortened.

The control method for realizing the above printer, the computer program, and the computer-readable recording medium for storing the computer program are also new and useful. In addition, a communication system including the above printer, a first external device, and a second external device is also new and useful.

The configuration of the printing system is shown. The flowchart of the printer processing executed by the printer is shown. The sequence diagram of the case A1 in which wireless printing is executed is shown. The sequence diagram of case A2 in which wired printing is executed is shown. The sequence diagram of the case B1 in which wireless printing is executed in the 2nd Example is shown. The sequence diagram of the case B2 in which wireless printing is executed in the 2nd Example is shown. The sequence diagram of the case C in which the wired printing is executed in the 3rd Example is shown.

(First Example)
(System configuration; Fig. 1)
As shown in FIG. 1, the printing system 2 includes a printer 10 and terminal devices 70 and 90. The printer 10 and the terminal device 70 can execute wired communication via a wired LAN (abbreviation of Local Area Network) 4. The printer 10 and the terminal device 90 can execute wireless communication according to the Wi-Fi method (hereinafter, may be referred to as "Wi-Fi communication").

(Configuration of printer 10)
The printer 10 is a peripheral device such as a PC (abbreviation of Personal Computer), and is a peripheral device capable of executing a printing function. The printer 10 includes an operation unit 12, a display unit 14, a wired interface 16, a wireless interface 18, a print execution unit 20, and a control unit 30. Each part 12 to 30 is connected to a bus line (reference numeral omitted). In the following, the interface may be referred to as "I / F".

The operation unit 12 includes a plurality of keys and accepts user operations. The display unit 14 is a display for displaying various information, and also functions as a so-called touch panel. That is, the display unit 14 also functions as an operation unit. In the following, where the operation unit of the printer 10 is described, the reference numerals 12 and 14 are omitted and simply referred to as the “operation unit”. The print execution unit 20 includes a printing mechanism such as an inkjet method or a laser method.

The wired I / F 16 is an I / F for executing wired communication via a wired LAN 4. The wired I / F 16 is connected to the LAN 4. The wireless I / F 18 is an I / F for executing wireless communication according to the Wi-Fi method. The Wi-Fi system is a wireless communication system that conforms to the standards established by the Wi-Fi Alliance. For example, the IEEE (Institute of Electrical and Electronics Engineers, Inc.) 802.11 standard and its equivalent standards. It is a wireless communication system based on (for example, 802.11a, 11b, 11g, 11n, etc.). The communication speed of the wired I / F16 is faster than the communication speed of the wireless I / F18. In other words, the amount of data transferred per unit time in the wired communication performed via the wired I / F16 is larger than the amount of data transferred per unit time in the Wi-Fi communication performed via the wireless I / F18.

The control unit 30 includes a CPU 32 and a memory 34. The memory 34 is composed of a ROM, a RAM, and the like, and stores the program 36 in advance even before the printer 10 is shipped. The CPU 32 executes various processes according to the program 36. The program 36 includes a decompression program for decompressing the data compressed in the gzip format and a decompression program for decompressing the data compressed in the gzip format. That is, the printer 10 can decompress the print data having the gzip format and the print data having the zip format, and execute printing according to the decompressed data. In the following, the fact that the print data having the gzip format can be decompressed and the fact that the print data having the zip format can be decompressed are referred to as "supporting the gzip format" and "supporting the zip format", respectively. There is. Further, a compression format that can be decompressed by the printer 10 may be referred to as a "compression format supported by the printer 10".

(Configuration of terminal device 70)
The terminal device 70 may be a stationary device such as a desktop PC, or a portable device such as a notebook PC, a tablet PC, or a smartphone. The terminal device 70 includes a wired I / F similar to the wired I / F 16 of the printer 10. The wired I / F of the terminal device 70 is connected to LAN4. The terminal device 70 can execute wired communication with the printer 10 via the wired I / F and the LAN 4.

(Configuration of terminal device 90)
The terminal device 90 is also a device similar to the terminal device 70. However, the terminal device 90 is provided with a wireless I / F similar to the wireless I / F 18 of the printer 10 instead of the wired I / F. The terminal device 90 can execute Wi-Fi communication with the printer 10 via the wireless I / F.

(Printer processing of CPU 32 of control unit 30; FIG. 2)
The printer processing executed by the CPU 32 of the control unit 30 of the printer 10 will be described with reference to FIG. When the power of the printer 10 is turned on, the CPU 32 starts the process of FIG.

In S10, the CPU 32 monitors the acquisition of Capability information from a specific terminal device (for example, the terminal device 70 or the terminal device 90). A user of a specific terminal device can input a predetermined print instruction for causing the printer 10 to perform printing in the operation unit of the specific terminal device. Here, the "print instruction" includes an operation of selecting data to be printed, an operation of selecting a printer 10 as a printer to execute printing from one or more pre-registered printers, and the like. When a print instruction is input to a specific terminal device, the specific terminal device transmits a Capability information request, which is a signal for requesting transmission of Capability information, to the printer 10. Here, the "Capability information" includes format information indicating a compression format of print data supported by the printer 10 (that is, decompressable) and print settings supported by the printer 10 (for example, the printer 10 supports the printing data). Includes setting information indicating paper size, resolution, color printing availability, etc.). The specific terminal device transmits a Capability information request to the printer 10 by using a communication means (that is, wired communication or Wi-Fi communication via LAN 4) designated in advance. In this case, the CPU 32 receives the Capability information request from the specific terminal device. When the CPU 32 receives the Capability information request from the specific terminal device, the CPU 32 determines YES in S10 and proceeds to S12.

In S12, the CPU 32 determines whether or not the received Capability information request (YES in S10) has been received via the wireless I / F18. Specifically, in S12, the CPU 32 determines whether or not the communication session formed with the specific terminal device is a Wi-Fi communication session via the wireless I / F18. As described above, the specific terminal device transmits a Capability information request to the printer 10 by using a communication means (that is, wired communication or Wi-Fi communication) designated in advance. When a specific terminal device transmits a Capability information request to the printer 10 using Wi-Fi communication, a Wi-Fi communication session is formed between the wireless I / F 18 of the printer 10 and the specific terminal device. Then, the CPU 32 receives a Capability information request from a specific terminal device via a Wi-Fi communication session (that is, via a wireless I / F18) (YES in S10). In this case, the CPU 32 determines YES in S12 and proceeds to S14. On the other hand, when a specific terminal device transmits a Capability information request to the printer 10 using wired communication, a wired communication session is formed between the wired I / F 16 of the printer 10 and the specific terminal device. Then, the CPU 32 receives the Capability information request from the specific terminal device via the wired communication session (that is, via the wired I / F16) (YES in S10). In this case, the CPU 32 determines NO in S12 and proceeds to S16.

In S14, the CPU 32 generates Capability information including format information indicating "gzip" and "zip" and setting information. Both "gzip" and "zip" indicate the data compression format. The gzip format has a higher compression ratio than the zip format. That is, the data size of the first compressed data generated by compressing the specific data according to the gzip format is larger than the data size of the second compressed data generated by compressing the same specific data according to the zip format. Is also small.

On the other hand, in S16, the CPU 32 generates Capability information including format information indicating "none" and setting information. The format information indicating "none" means that the printer 10 cannot decompress the compressed data having any data compression format (that is, it does not support any compression format). That is, in S16, the CPU 32 generates Capability information including format information indicating "none" even though the printer 10 supports the gzip format and the zip format.

In S18, the CPU 32 transmits the Capability information generated in S14 or S16 to a specific terminal device. At this time, the CPU 32 transmits the Capability information to the specific terminal device by using the communication session (that is, the Wi-Fi communication session or the wired communication session) formed with the specific terminal device. As described above, in this embodiment, the CPU 32 transmits Capability information including format information and setting information to a specific terminal device. Therefore, the specific terminal device can receive the format information as a part of the Capability information. The number of communications between the printer 10 and the specific terminal device can be reduced as compared with the case where the format information is transmitted separately from the Capability information.

Next, in S20, the CPU 32 monitors the reception of the print execution request from the specific terminal device. When the specific terminal device receives the Capability information from the printer 10, the display unit (not shown) displays the print setting selection screen according to the setting information included in the Capability information. The user of the specific terminal device selects a desired print setting from the settings supported by the printer 10 on the print setting selection screen. Then, the user selects a desired print setting and then inputs a predetermined execution instruction to a specific terminal device. When the execution instruction is input, the specific terminal device generates print data according to the format information included in the Capability information. When the format information indicates "gzip" and "zip" (S14), the specific terminal device generates print data compressed according to the gzip format (hereinafter referred to as "gzip format print data"). As mentioned above, the gzip format has a higher compression ratio than the zip format. Therefore, the specific terminal device generates the print data in the gzip format without generating the print data compressed according to the zip format (hereinafter referred to as "zip format print data"). In the modified example, when the specific terminal device does not support the gzip format and only the zip format is supported, the specific terminal device generates the print data in the zip format. As described above, in the present embodiment, since the format information includes information indicating all the compression formats supported by the printer 10, the specific terminal device selects the optimum compression format from the compression formats supported by its own device. You can select and generate print data. On the other hand, when the format information indicates "none" (S16), the specific terminal device generates print data that is not data-compressed (hereinafter referred to as "uncompressed print data"). The specific terminal device transmits a print execution request including the generated print data and selection setting information indicating the selected print setting to the printer 10. The print execution request is a signal for requesting the printer 10 to print print data according to the print settings indicated by the selection setting information. The specific terminal device transmits the print execution request to the printer 10 by using the same communication means (that is, wired communication or Wi-Fi communication) as the communication means when the Capability information request is transmitted. When the CPU 32 receives the print execution request from the specific terminal device, the CPU 32 determines YES in S20 and proceeds to S22.

In S22, the CPU 32 determines whether or not the print data included in the received print execution request is compressed data. When the print data included in the print execution request is gzip format print data (or zip format print data), the CPU 32 determines YES in S22 and proceeds to S24. On the other hand, when the print data included in the print execution request is uncompressed print data, the CPU 32 determines NO in S22, skips S24, and proceeds to S26.

In S24, the CPU 32 decompresses the compressed print data to generate the decompressed data.

In S25, the CPU 32 determines whether or not the print execution unit 20 is in a printable state at this point. The “printable state” means that the print execution unit 20 is in a state in which printing of print data received from a specific terminal device can be immediately executed. For example, if the print execution unit 20 is executing another print job at the time when the decompressed data is created (that is, when the processing of S24 is completed), an error (for example, when the print execution unit 20 is executed) occurs. When paper runs out, paper jams, toner runs out, etc.), it cannot be said that printing can be executed immediately (that is, it is not in a printable state). Such a state may be referred to as a "non-printable state" below. If the state of the print execution unit 20 at this time is the printable state, the CPU 32 determines YES in S25 and proceeds to S26. On the other hand, when the state of the print execution unit 20 at this time is the non-printable state (that is, NO in S25), the CPU 32 cancels the non-printable state and returns the state of the print execution unit 20 to the printable state. To monitor. In this case, when the state of the print execution unit 20 returns to the printable state, the CPU 32 determines YES in S25 and proceeds to S26.

In S26, the CPU 32 causes the print execution unit 20 to execute printing according to the uncompressed print data (NO in S22) or the decompressed data (S24). After finishing S26, the CPU 32 returns to S10 again and monitors that the Capability information request is received.

(Specific case; Fig. 3, Fig. 4)
Subsequently, specific cases A1 and A2 realized by the processing of FIG. 2 will be described with reference to FIGS. 3 and 4.

(Case A1; Fig. 3)
In case A1, an example in which the printer 10 receives print data from the terminal device 90 via Wi-Fi communication and executes printing will be described.

At T10, the user inputs a predetermined print instruction to the terminal device 90. At T20, the terminal device 90 establishes a Wi-Fi communication session with the printer 10, and uses the Wi-Fi communication session to transmit a Capability information request to the printer 10.

When the printer 10 receives the Capability information request of T20 from the terminal device 90 (YES in S10 of FIG. 2), at T22, the Capability information request is made via the wireless I / F18 (that is, using the Wi-Fi communication session). ) Judge that it was received (YES in S12). Next, at T26, the printer 10 generates Capability information including format information indicating "gzip" and "zip" and setting information (S14), and the generated Capability information is transmitted via the wireless I / F18. It is transmitted to the terminal device 90 (S18).

When the terminal device 90 receives the Capability information from the printer 10, the terminal device 90 causes the display unit to display the print setting selection screen according to the setting information included in the Capability information. At T30, the user selects a desired print setting on the print setting screen, and then inputs a predetermined execution instruction to the terminal device 90. In T32, the terminal device 90 generates print data in gzip format according to the format information (that is, "gzip" and "zip") included in the Capability information. In T40, the terminal device 90 establishes a Wi-Fi communication session with the printer 10, and uses the Wi-Fi communication session to request printing execution including gzip format print data and selection setting information. To the printer 10.

When the printer 10 receives the print execution request of T40 from the terminal device 90 (YES in S20 and YES in S22 in FIG. 2), in T42, the gzip format print data included in the print execution request is decompressed and the decompressed data is decompressed. Is generated (S24). Then, at T43, the printer 10 determines that the print execution unit 20 is in a printable state at this point (YES in S25). In the subsequent T44, the printer 10 causes the print execution unit 20 to execute printing according to the decompressed data (S26).

(Case A2; Fig. 4)
In case A1, an example in which the printer 10 receives print data from the terminal device 70 via wired communication and executes printing will be described.

At T50, the user inputs a predetermined print instruction to the terminal device 70. In T60, the terminal device 70 establishes a wired communication session with the printer 10, and uses the wired communication session to transmit a Capability information request to the printer 10.

When the printer 10 receives the Capability information request of the T60 from the terminal device 70 (YES in S10 of FIG. 2), the Capability information request is received via the wired I / F16 (that is, using the wired communication session) at the T62. It is determined that it has been done (NO in S12). Next, in T64, the printer 10 generates Capability information including format information indicating "none" and setting information (S16), and the generated Capability information is transmitted to the terminal device 70 via the wired I / F16. Transmit (S18).

When the terminal device 70 receives the Capability information from the printer 10, the terminal device 70 causes the display unit to display the print setting selection screen according to the setting information included in the Capability information. In T70, the user selects a desired print setting on the print setting screen, and then inputs a predetermined execution instruction to the terminal device 70. At T72, the terminal device 90 generates uncompressed print data according to the format information (that is, "none") included in the Capability information. In T80, the terminal device 70 establishes a wired communication session with the printer 10, and uses the wired communication session to send a print execution request including uncompressed print data and selection setting information to the printer 10. Send.

When the printer 10 receives the print execution request of T80 from the terminal device 70 (YES in S20 of FIG. 2 and NO in S22), the printer 10 determines in T83 that the print execution unit 20 is in a printable state at this point (S25). Yes). Then, in T84, the printer 10 causes the print execution unit 20 to execute printing according to the uncompressed print data (S26).

The configuration and operation of the printing system 2 of this embodiment have been described above. As shown in FIG. 3, when the printer 10 receives the Capability information request from the terminal device 90 via the wireless I / F18 (T20), the printer 10 outputs Capability information including format information indicating “gzip” and “zip”. It transmits to the terminal device 90 (T26), and then receives print data in gzip format from the terminal device 90 via the wireless I / F 18 (T40). Since the gzip format print data is compressed in the gzip format, the communication time of the gzip format print data is relatively relatively slow even in Wi-Fi communication (that is, communication via wireless I / F18), which has a relatively slow communication speed. It can be short. Therefore, although it is necessary for the printer 10 to decompress the print data in the gzip format, the time from the start of communication of the print data in the gzip format to the start of printing can be shortened. On the other hand, as shown in FIG. 4, when the printer 10 receives the Capability information request from the terminal device 70 via the wired I / F 16 (T60), the format information indicating “none” (that is, the “gzip” format). And Capability information including format information indicating that the "zip" format is not supported) is transmitted to the terminal device 70 (T64), and then uncompressed print data is received from the terminal device 70 (T80). Although uncompressed print data is not compressed, the communication time of uncompressed print data is relatively short because it is communicated by wired communication (that is, communication via wired I / F16), which has a relatively high communication speed. I'm done. Since the communication time of uncompressed print data is short and it is not necessary to perform decompression according to the gzip format, the time from the start of communication of uncompressed print data to the start of printing can be shortened. .. Therefore, according to the printer 10 of the present embodiment, even if the terminal devices 70 and 90 do not have a special application program for switching between compression and uncompression of print data, the terminal devices 70 and 90 are transferred to the printer 10. It is possible to shorten the time from the start of communication of the print data of the printer 10 to the start of printing by the printer 10.

(Correspondence)
The terminal devices 90 and 70 are examples of a "first external device" and a "second external device", respectively. The Capability information request of T20 in FIG. 3 and the Capability information request of T60 in FIG. 4 are examples of a "first request" and a "second request", respectively. The Capability information of T26 in FIG. 3 and the Capability information of T64 in FIG. 4 are examples of the "first response" and the "second response", respectively. The gzip format and the zip format are examples of the "first compression format" and the "second compression format", respectively. The print data in the gizp format of T40 in FIG. 3 and the uncompressed print data in T80 in FIG. 4 are examples of the “first print data” and the “second print data”, respectively.

(Second Example)
In this embodiment, a part of the contents of the printer processing (see FIG. 2) is different from that of the first embodiment. In this embodiment, when the CPU 32 determines YES in S12 of FIG. 2, the process proceeds to S13. In S13, the CPU 32 determines whether or not the print execution unit 20 is in the printable state when the Capability information is received from the specific terminal device. When the state of the print execution unit 20 at this time is the printable state, the CPU 32 determines YES in S13 and proceeds to S14. On the other hand, if the state of the print execution unit 20 at this time is the non-printable state, the CPU 32 determines NO in S13 and proceeds to S16.

(Specific case; Fig. 5, Fig. 6)
Subsequently, specific cases B1 and B2 realized by the printer processing (FIG. 2) of this embodiment will be described with reference to FIGS. 5 and 6. An example in which the printer 10 receives print data from the terminal device 70 via wired communication and executes printing is the same as in case A2 of FIG. 4, and thus the description thereof will be omitted.

(Case B1; Fig. 5)
In case B1, the printer 10 and the terminal device 90 are in the case where the print execution unit 20 is determined to be in a printable state when the printer 10 receives the Capability information request from the terminal device 90 via Wi-Fi communication. An example of the operation of is described.

Each process of T10 to T22 is the same as in FIG. In this case, in the subsequent T104, the printer 10 determines that the print execution unit 20 is in the printable state when the Capability information request of the T20 is received via the wireless I / F18 (YES in S13 of FIG. 2). ). Subsequent processing of T26 to T44 is the same as in FIG.

(Case B2; Fig. 6)
In case B2, when the printer 10 receives the Capability information request from the terminal device 90 via Wi-Fi communication, the printer 10 and the terminal device are in a case where the print execution unit 20 is determined to be in a non-printable state. An example of the operation of 90 will be described.

Each process of T10 to T22 is the same as in FIG. In this case, in the subsequent T105, the printer 10 determines that the print execution unit 20 is in a non-printable state when the Capability information request of the T20 is received via the wireless I / F18 (in S13 of FIG. 2). NO). In the following T126, although the printer 10 supports the gzip format and the zip format, the printer 10 generates Capability information including format information indicating "none" and setting information (S14), and the generated Capability. Information is transmitted to the terminal device 90 via the wireless I / F18 (S18).

When the terminal device 90 receives the Capability information from the printer 10, the terminal device 90 causes the display unit to display the print setting selection screen according to the setting information included in the Capability information. In T130, the user selects a desired print setting on the print setting screen, and then inputs a predetermined execution instruction to the terminal device 90. In T132, the terminal device 90 generates uncompressed print data according to the format information (that is, “none”) included in the Capability information. In T140, the terminal device 90 establishes a Wi-Fi communication session with the printer 10, and uses the Wi-Fi communication session to request printing execution including uncompressed print data and selection setting information. To the printer 10.

When the printer 10 receives the print execution request of the T140 from the terminal device 90 (YES in S20 and NO in S22 in FIG. 2), at this point in T143, the non-printable state of the print execution unit 20 is resolved and printing is possible. It is determined that the state has been restored (YES in S25). Then, in T144, the printer 10 causes the print execution unit 20 to execute printing according to the uncompressed print data (S26).

The configuration and operation of the printing system 2 of this embodiment have been described above. As shown in FIG. 5, the printer 10 receives a Capability information request from the terminal device 90 via the wireless I / F 18 (T20), and the print execution unit 20 is in a printable state (T104). , The Capability information including the format information indicating "gzip" and "zip" is transmitted to the terminal device 90 (T26), and then the print data in the gzip format is received from the terminal device 90 via the wireless I / F18 ( T40). In this case, the printer 10 can start printing immediately after receiving the print data in gzip format and decompressing it. By receiving the gzip format print data compressed in the gzip format, the printer 10 receives the gzip format print data even in Wi-Fi communication (that is, communication via wireless I / F18) whose communication speed is relatively slow. Communication time is relatively short. Then, the printer 10 can execute printing immediately after decompressing the print data in the gzip format. Therefore, the time from the start of communication of gzip format print data to the start of printing can be shortened. On the other hand, as shown in FIG. 6, the printer 10 receives a Capability information request from the terminal device 90 via the wireless I / F 18 (T20), and the print execution unit 20 is in a non-printable state. (T105), Capability information including format information indicating "none" is transmitted to the terminal device 90 (T126), and then uncompressed print data is received from the terminal device 90 via the wireless I / F18 (T140). ). In this case, since the print execution unit 20 is in a non-printable state, the printer 10 cannot start printing immediately even if the print data can be received from the terminal device 90 early. Therefore, in such a case, the printer 10 receives the uncompressed print data even if the communication time is slightly longer. Then, for example, if the unprintable state of the print execution unit 20 is resolved after the printer 10 receives the uncompressed print data, the printer 10 immediately prints according to the uncompressed print data without performing the decompression process. Can be executed. In this case as well, the time from the start of communication of uncompressed print data to the start of printing can be shortened. Therefore, according to the printer 10 of the present embodiment, when the Capability information request is received from the terminal device 90, the printer from the terminal device 90 regardless of whether the print execution unit 20 is in the printable state or the non-printable state. The time from the start of communication of print data to 10 to the start of printing on the printer 10 can be shortened.

(Correspondence)
The Capability information of T126 in FIG. 6 is an example of the “third response”. The uncompressed print data of T140 is an example of "third print data".

(Third Example)
Also in this embodiment, a part of the contents of the printer processing (see FIG. 2) is different from that of the first embodiment. In this embodiment, in S16, instead of generating the Capability information including the format information indicating "none" and the setting information, the CPU 32 includes the format information indicating "zip" and the Capability including the setting information. Generate information. That is, in this embodiment, in C16, the CPU 32 generates Capability information including format information indicating only "zip" and setting information, even though the printer 10 supports the gzip format.

(Specific case; Fig. 7)
Subsequently, a specific case C realized by the printer processing (FIG. 2) of this embodiment will be described with reference to FIG. 7. An example in which the printer 10 receives print data from the terminal device 90 via Wi-Fi communication and executes printing is the same as in case A1 of FIG. 3, and thus the description thereof will be omitted.

(Case C; Fig. 7)
In case C, an example in which the printer 10 receives print data from the terminal device 70 via wired communication and executes printing will be described.

Each process of T50 to T62 is the same as in FIG. In this case, in the subsequent T164, the printer 10 generates Capability information including the format information indicating "zip" and the setting information (S16), and the generated Capability information is transmitted to the terminal via the wired I / F16. It is transmitted to the device 70 (S18).

When the terminal device 70 receives the Capability information from the printer 10, the terminal device 70 causes the display unit to display the print setting selection screen according to the setting information included in the Capability information. In the T170, the user selects a desired print setting on the print setting screen, and then inputs a predetermined execution instruction to the terminal device 70. In T172, the terminal device 90 generates print data in zip format according to the format information (that is, "zip") included in the Capability information. In T180, the terminal device 70 establishes a wired communication session with the printer 10, and uses the wired communication session to send a print execution request including zip format print data and selection setting information to the printer 10. Send.

When the printer 10 receives the print execution request of T180 from the terminal device 70 (YES in S20 and YES in S22 of FIG. 2), in T182, the zip format print data included in the print execution request is decompressed and the decompressed data is decompressed. Is generated (S24). Then, at T183, the printer 10 determines that the print execution unit 20 is in a printable state at this point (YES in S25). In the subsequent T184, the printer 10 causes the print execution unit 20 to execute printing according to the decompressed data (S26).

In this embodiment, as shown in FIG. 7, when the printer 10 receives the Capability information request from the terminal device 70 via the wired I / F 16 (T60), the printer 10 outputs the Capability information including the format information indicating "zip". The data is transmitted to the terminal device 70 (T164), and then the print data in zip format is received from the terminal device 70 (T180). The zip format has a smaller compression ratio than the gzip format. However, in this embodiment, since the communication is performed by the wired communication (that is, the communication via the wired I / F16) having a relatively high communication speed, the communication time of the zip format print data can be short. In addition, the zip format requires less time to decompress than the gzip format. Therefore, the printer 10 can decompress the received zip-format print data in a short time and start printing. Also in this embodiment, the printer 10 can shorten the time from the start of communication of the zip format print data to the start of printing. The zip format of this embodiment is an example of "second compressed data".

(Modified example of the third embodiment)
In the third embodiment, as in the second embodiment, when the CPU 32 determines YES in S12 of FIG. 2, the process may proceed to S13. In S13, the CPU 32 may determine whether or not the print execution unit 20 is in the printable state when the Capability information is received from the specific terminal device. If the state of the print execution unit 20 at this time is the printable state, the CPU 32 may determine YES in S13 and proceed to S14. On the other hand, if the state of the print execution unit 20 at this time is the non-printable state, the CPU 32 may determine NO in S13 and proceed to S16. In this modification, a specific example in which the printer 10 receives print data from the terminal device 90 via Wi-Fi communication and executes printing is the same as in cases B1 and B2 of FIGS. 5 and 6. .. A specific example in which the printer 10 receives print data from the terminal device 70 via wired communication and executes printing is the same as in case C of FIG. 7.

Although specific examples of the techniques disclosed in the present specification have been described above, these are merely examples and do not limit the scope of claims. The techniques described in the claims include various modifications and modifications of the specific examples illustrated above. Modifications of the above embodiment are listed below.

(Modification 1) In each of the above embodiments, in S14 of FIG. 2, the CPU 32 has format information indicating “gzip” and “zip” (that is, format information indicating all compression formats supported by the printer 10). Capability information including setting information is generated. Not limited to this, in S14, the CPU 32 may generate Capability information including format information and setting information indicating only “gzip”. That is, the CPU 32 may generate Capability information including format information and setting information indicating the compression format having the highest compression rate among the compression formats supported by the printer 10.

(Modification 2) In each of the above embodiments, the CPU 32 generates Capability information including format information and setting information and transmits the Capability information to a specific terminal device (S14 to S18 in FIG. 2). Not limited to this, the CPU 32 may transmit the format information to a specific terminal device separately from the Capability information.

(Modification 3) In the first and second embodiments, in S14 of FIG. 2, the CPU 32 may generate Capability information including format information and setting information indicating only "gzip". After transmitting this Capability information (S18), the CPU 32 may receive print data in zip format from a specific terminal device, decompress it, and execute printing.

(Modification 4) In each of the above embodiments, the printer 10 can decompress (ie, support) two compression formats, a gzip format and a zip format. Not limited to this, the printer 10 may be able to decompress data having any other compression format (for example, rar format, lzh format, etc.).

(Modification 5) In each of the above embodiments, each process of FIG. 2 is realized by software (that is, a program), but even if at least one of these processes is realized by hardware such as a logic circuit. Good.

In addition, the technical elements described in the present specification or the drawings exhibit technical usefulness alone or in various combinations, and are not limited to the combinations described in the claims at the time of filing. In addition, the techniques illustrated in the present specification or drawings achieve a plurality of objectives at the same time, and achieving one of the objectives itself has technical usefulness.
The contents described in the claims at the time of this application are described below.
(Item 1)
It ’s a printer,
With wireless interface
A wired interface that has a faster communication speed than the wireless interface,
With the print execution department
A first request receiving unit that receives a first request for inquiring about a compression format that can be decompressed by the printer from the first external device via the wireless interface.
When the first request is received from the first external device via the wireless interface, the printer can decompress the data having the first compression format via the wireless interface. A first response transmission unit that transmits a first response including the first format information shown to the first external device, and a first response transmission unit.
After the first response is transmitted, a first data receiving unit that receives the first print data having the first compression format from the first external device via the wireless interface.
When the first print data is received, the first print data is decompressed to generate the first decompressed data, and printing according to the first decompressed data is sent to the print execution unit. The first print control unit to be executed and
A second request receiving unit that receives a second request for inquiring about a compression format that the printer can decompress from the second external device via the wired interface.
When the second request is received from the second external device via the wired interface, the wired interface is available even though the printer can decompress the data having the first compression format. A second response that transmits to the second external device a second response that includes a second format information indicating that the printer cannot decompress the data having the first compression format. With the transmitter
After the second response is transmitted, the second data receiving unit receives the second print data having no first compression format from the second external device via the wired interface. When,
When the second print data is received, the second print control unit causes the print execution unit to perform printing according to the second print data.
A printer.
(Item 2)
The second response transmission unit transmits the second response including the second format information indicating that the printer cannot decompress data having any compression format to the second external device. And
The second data receiving unit receives the uncompressed second print data from the second external device, and receives the second print data.
The printer according to item 1, wherein the second print control unit causes the print execution unit to perform printing according to the second print data without decompressing the second print data.
(Item 3)
The second response transmission unit is the second compression format in which the printer has a second compression format different from the first compression format and has a lower compression ratio than the first compression format. The second response including the second format information indicating the above is transmitted to the second external device.
The second data receiving unit receives the second print data having the second compression format from the second external device, and receives the second print data.
The second print control unit decompresses the second print data to generate a second decompressed data, and causes the print execution unit to perform printing according to the second decompressed data. , Item 1.
(Item 4)
The first response further includes setting information indicating the print settings supported by the printer.
The printer according to any one of items 1 to 3, wherein the second response further includes the setting information.
(Item 5)
In the first response transmission unit, the printer has a second compression format different from the first compression format and the first compression format, and has a lower compression rate than the first compression format. The first response including the first format information indicating both the second compression format and the first external device is transmitted to the first external device.
The first data receiving unit is
When the first external device is capable of decompressing data having the first compression format, the first external device having the first compression format from the first external device via the wireless interface. Receive the print data of
When the first external device cannot decompress the data having the first compression format and can decompress the data having the second compression format, the wireless device can be used from the first external device. The printer according to any one of items 1 to 4, which receives the first print data having the second compression format via an interface.
(Item 6)
The printer further
When the first request is received from the first external device via the wireless interface, it is determined whether or not the print execution unit can execute printing according to the first print data. Equipped with a judgment unit to
When it is determined that the print execution unit can perform printing according to the first print data, the first response transmission unit sends the first response including the first format information. Send to the first external device,
The printer further
When it is determined that the print execution unit cannot perform printing according to the first print data, the wireless device can decompress the data having the first compression format. Through the interface, a third response is transmitted to the first external device, including a third format information indicating that the printer cannot decompress the data having the first compression format. Response transmitter and
After the third response is transmitted, a third data receiving unit that receives the third print data that does not have the first compression format from the first external device via the wireless interface. When,
When the third print data is received, a third print control unit that causes the print execution unit to print according to the third print data, and a third print control unit.
The printer according to any one of items 1 to 5, wherein the printer comprises.
(Item 7)
A computer program for a printer
The printer
With wireless interface
A wired interface that has a faster communication speed than the wireless interface,
With the print execution department
Equipped with a computer
The computer program uses the computer,
A first request receiving unit that receives a first request from a first external device for inquiring about a compression format that the printer can decompress via the wireless interface.
When the first request is received from the first external device via the wireless interface, the printer can decompress the data having the first compression format via the wireless interface. A first response transmitter, which transmits a first response including the first format information shown to the first external device.
A first data receiving unit that receives the first print data having the first compression format from the first external device via the wireless interface after the first response is transmitted.
When the first print data is received, the first print data is decompressed to generate the first decompressed data, and printing according to the first decompressed data is sent to the print execution unit. The first print control unit to be executed,
A second request receiving unit that receives a second request for inquiring about a compression format that the printer can decompress from the second external device via the wired interface.
When the second request is received from the second external device via the wired interface, the wired interface is available even though the printer can decompress the data having the first compression format. A second response that transmits to the second external device a second response that includes a second format information indicating that the printer cannot decompress the data having the first compression format. Transmitter,
After the second response is transmitted, the second data receiving unit receives the second print data having no first compression format from the second external device via the wired interface. ,as well as,
When the second print data is received, the second print control unit, which causes the print execution unit to perform printing according to the second print data,
A computer program that acts as.

2: Printing system, 10: Printer, 12: Operation unit, 14: Display unit, 16: Wired I / F, 18: Wireless I / F, 20: Print execution unit, 30: Control unit, 32: CPU, 34: Memory, 36: Program, 70: Terminal device, 90: Terminal device

Claims (6)

It ’s a printer,
With wireless interface
A wired interface that has a faster communication speed than the wireless interface,
With the print execution department
A first request receiving unit that receives a first request for inquiring about a compression format that can be decompressed by the printer from the first external device via the wireless interface.
When the first request is received from the first external device via the wireless interface, it is determined whether or not the print execution unit can execute printing according to the first print data. Judgment department and
When it is determined that the print execution unit can perform printing according to the first print data, the printer can decompress the data having the first compression format via the wireless interface. A first response transmission unit that transmits a first response including a first format information indicating that to the first external device, and a first response transmission unit.
After the first response is transmitted, a first data receiving unit that receives the first print data having the first compression format from the first external device via the wireless interface.
When the first print data is received, the first print data is decompressed to generate the first decompressed data, and printing according to the first decompressed data is sent to the print execution unit. The first print control unit to be executed and
A second request receiving unit that receives a second request for inquiring about a compression format that the printer can decompress from the second external device via the wired interface.
When the second request is received from the second external device via the wired interface, the wired interface is available even though the printer can decompress the data having the first compression format. A second response that transmits to the second external device a second response that includes a second format information indicating that the printer cannot decompress the data having the first compression format. With the transmitter
After the second response is transmitted, the second data receiving unit receives the second print data having no first compression format from the second external device via the wired interface. When,
If the second print data is received, a second printing control unit for executing the printing according to the second print data to the print execution unit,
When it is determined that the print execution unit cannot perform printing according to the first print data, the wireless device can decompress the data having the first compression format. Through the interface, a third response is transmitted to the first external device, including a third format information indicating that the printer cannot decompress the data having the first compression format. Response transmitter and
After the third response is transmitted, a third data receiving unit that receives the third print data that does not have the first compression format from the first external device via the wireless interface. When,
When the third print data is received, a third print control unit that causes the print execution unit to print according to the third print data, and a third print control unit.
A printer. The second response transmission unit transmits the second response including the second format information indicating that the printer cannot decompress data having any compression format to the second external device. And
The second data receiving unit receives the uncompressed second print data from the second external device, and receives the second print data.
The printer according to claim 1, wherein the second print control unit causes the print execution unit to perform printing according to the second print data without decompressing the second print data. The second response transmission unit is the second compression format in which the printer has a second compression format different from the first compression format and has a lower compression ratio than the first compression format. The second response including the second format information indicating the above is transmitted to the second external device.
The second data receiving unit receives the second print data having the second compression format from the second external device, and receives the second print data.
The second print control unit decompresses the second print data to generate a second decompressed data, and causes the print execution unit to perform printing according to the second decompressed data. , The printer according to claim 1. The first response further includes setting information indicating the print settings supported by the printer.
The printer according to any one of claims 1 to 3, wherein the second response further includes the setting information. In the first response transmission unit, the printer has a second compression format different from the first compression format and the first compression format, and has a lower compression rate than the first compression format. The first response including the first format information indicating both the second compression format and the first external device is transmitted to the first external device.
The first data receiving unit is
When the first external device is capable of compressing data having the first compression format, the first external device having the first compression format from the first external device via the wireless interface. Receive the print data of
When the first external device cannot compress the data having the first compression format and can compress the data having the second compression format, the wireless device from the first external device can be used. The printer according to any one of claims 1 to 4, which receives the first print data having the second compression format via an interface. A computer program for a printer
The printer
With wireless interface
A wired interface that has a faster communication speed than the wireless interface,
With the print execution department
Equipped with a computer
The computer program uses the computer,
A first request receiving unit that receives a first request from a first external device for inquiring about a compression format that the printer can decompress via the wireless interface.
When the first request is received from the first external device via the wireless interface, it is determined whether or not the print execution unit can execute printing according to the first print data. Judgment department,
When it is determined that the print execution unit can perform printing according to the first print data, the printer can decompress the data having the first compression format via the wireless interface. A first response transmission unit that transmits a first response including a first format information indicating that to the first external device.
A first data receiving unit that receives the first print data having the first compression format from the first external device via the wireless interface after the first response is transmitted.
When the first print data is received, the first print data is decompressed to generate the first decompressed data, and printing according to the first decompressed data is sent to the print execution unit. The first print control unit to be executed,
A second request receiving unit that receives a second request for inquiring about a compression format that the printer can decompress from the second external device via the wired interface.
When the second request is received from the second external device via the wired interface, the wired interface is available even though the printer can decompress the data having the first compression format. A second response that transmits to the second external device a second response that includes a second format information indicating that the printer cannot decompress the data having the first compression format. Transmitter,
After the second response is transmitted, the second data receiving unit receives the second print data having no first compression format from the second external device via the wired interface. ,
If the previous SL second print data is received, the second printing control unit for executing the printing according to the second print data to the print execution unit,
When it is determined that the print execution unit cannot perform printing according to the first print data, the wireless device can decompress the data having the first compression format. Through the interface, a third response is transmitted to the first external device, including a third format information indicating that the printer cannot decompress the data having the first compression format. Response transmitter,
After the third response is transmitted, a third data receiving unit that receives the third print data that does not have the first compression format from the first external device via the wireless interface. ,as well as,
When the third print data is received, the third print control unit causes the print execution unit to perform printing according to the third print data.
A computer program that acts as.

Images