JP2017144596A - Printer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a printer capable of analyzing whether or not maintenance processing has succeeded or failed.SOLUTION: A printer includes: a consumable supply attachment unit 21 to/from which a consumable supply 300 can be attached/detached, to which the consumable supply can be loaded, and which is attached with the consumable supply 300 having a storage device 352; a communication processing unit 110 which communicates with the storage device 352; and a control unit 120. The storage device 352 has a decision information storage area for storing execution decision information of maintenance processing consuming a consumable member 360, and a result information storage area for storing execution result information of the maintenance processing. The control unit 120 instructs the communication processing unit 110 to update the execution decision information in the decision information storage area of the storage device 352 at the execution decision of the maintenance processing, and instructs the communication processing unit 110 to update the execution result information in the result information storage area of the storage device 352 on the basis of the execution result of the maintenance processing.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a printing apparatus.

  An inkjet printing apparatus, which is an example of a printing apparatus, performs a maintenance process such as a cleaning process for a head provided on a carriage, an initial filling of ink from an ink cartridge to the head when the printing apparatus is used for the first time. There is something. For example, an ink jet recording apparatus disclosed in Patent Document 1 is known as a printing apparatus that performs maintenance processing. In the ink jet recording apparatus of Patent Document 1, a storage unit is provided in an ink cartridge, and data relating to an operation history of the cleaning unit that recovers the ink droplet ejection capability of the head is stored in the storage unit.

JP 2000-198220 A

  The maintenance process is performed by consuming ink, but if the maintenance process fails during the process, an amount of ink different from the planned ink consumption may be consumed. In other words, when the maintenance process fails, the remaining ink level after the maintenance process estimated in advance by the printing apparatus may deviate from the actual remaining ink level in the ink cartridge. In this case, the printing apparatus may run out of ink, or may determine that there is no ink even though ink remains.

  The manufacturer collects the used ink cartridge and analyzes the data stored in the storage device of the ink cartridge, so that the ink remaining amount estimated by the printing device and the actual ink remaining amount are different. However, the above-described ink jet recording apparatus of Patent Document 1 only stores data relating to the operation history of the cleaning unit in the storage unit, and does not store whether the operation of the cleaning unit has succeeded or failed. Therefore, in the ink jet recording apparatus of Patent Document 1, it is impossible to analyze that the maintenance process has failed even if the used ink cartridge is collected.

  According to some aspects of the present invention, it is possible to provide a printing apparatus that can analyze whether a maintenance process has succeeded or failed.

  One aspect of the present invention is a printing apparatus in which a consumable item can be detachably mounted, the consumable item mounting unit to which the consumable item having a storage device is mounted, and the storage device of the consumable item to perform communication processing. A control unit that controls the communication processing unit, and the storage unit for the consumable supplies is determined by the control unit to perform a maintenance process that consumes the consumable consumable member. A determination information storage area for storing the execution determination information indicating that the maintenance process is performed; and a result information storage area for storing the execution result information indicating the execution result of the maintenance process. When determined, the communication processing unit is instructed to update the execution determination information in the determination information storage area of the storage device, and based on the execution result of the maintenance process, the Relative signal processing unit, related to the printing apparatus indicating the updating of the execution result information in the result information storage region of the storage device.

  In one aspect of the present invention, when the execution of the maintenance process is determined, the control unit instructs the communication processing unit to update the execution determination information in the determination information storage area of the storage device. Then, the control unit instructs the communication processing unit to update the execution result information in the result information storage area of the storage device based on the execution result of the maintenance process. Thereby, execution determination information of the maintenance process is stored in the determination information storage area of the storage device, and execution result information of the maintenance process is stored in the result information storage area of the storage device. Therefore, it is possible to analyze whether the maintenance process has succeeded or failed.

  In the aspect of the invention, the execution determination information is information indicating the number of execution determinations of the maintenance process, and the control unit counts up in the determination information storage area with respect to the communication processing unit. It may be instructed to update the number of execution decisions made.

  Accordingly, it becomes possible for the analyst to know how many times the execution of the maintenance process has been determined at the time of analyzing the data stored in the storage device.

  In the aspect of the invention, the execution result information may be information indicating the number of times the maintenance process has failed.

  This enables the analyst to know how many times the maintenance process has failed when analyzing the data stored in the storage device.

  In one aspect of the present invention, the control unit instructs the communication processing unit to update the number of failures counted up in the result information storage area before executing the maintenance process. When it is determined that the maintenance process is successful, the communication processing unit may be instructed to update the number of failures in which the number of failures is counted down in the result information storage area.

  This makes it possible to match the number of failures written in the result information storage area of the storage device with the number of actual maintenance processing failures.

  In the aspect of the invention, the area size of the result information storage area may be smaller than the area size of the determination information storage area.

  This makes it possible to reduce the amount of memory consumed in the consumable storage device.

  In one embodiment of the present invention, the maintenance process is a cleaning process, and the storage device includes a plurality of determination information storage areas corresponding to a plurality of types of cleaning processes and a plurality of result information storage areas. The plurality of types of cleaning processes include at least a first cleaning process and a second cleaning process different in type from the first cleaning process, and the control unit includes the first cleaning process. When the execution of the first cleaning process is determined, the communication processing unit is instructed to update the execution determination information in the first determination information storage area of the storage device, and based on the execution result of the first cleaning process And instructing the communication processing unit to update the execution result information in the first result information storage area of the storage device. When the execution of the second cleaning process is determined, the communication processing unit is instructed to update the execution determination information in the second determination information storage area of the storage device, and the execution result of the second cleaning process is determined. The communication processing unit may be instructed to update the execution result information in the second result information storage area of the storage device.

  This makes it possible to acquire execution determination information and execution result information for each type of cleaning process when analyzing data stored in the storage device.

  In one embodiment of the present invention, the maintenance process is a cleaning process, and the storage device includes a plurality of determination information storage areas corresponding to a plurality of types of cleaning processes and a plurality of result information storage areas. The plurality of determination information storage areas may include at least two determination information storage areas having different area sizes, and the plurality of result information storage areas may include at least two result information storage areas having different area sizes. .

  Thereby, each storage area of the storage device can be used efficiently, and the memory consumption can be further suppressed.

  In one aspect of the present invention, the storage device includes a consumption information storage area that stores consumption information indicating an amount of consumption of the consumable member from the consumable item, and the control unit executes the maintenance process. May be instructed to write the consumption information in the maintenance process to the consumption information storage area of the storage device.

  This makes it possible to prevent the estimated ink consumption from becoming smaller than the actual ink consumption by adding the ink usage amount in the maintenance process regardless of whether the maintenance process is successful. Become.

  In the aspect of the invention, the printing apparatus may be an ink jet printer, and the consumable may be an ink cartridge.

  Accordingly, it is possible to analyze whether or not the maintenance process has failed by analyzing the ink cartridge.

  In one embodiment of the present invention, the consumable having the storage device may be included.

  As a result, it is possible to perform printing using the consumables and store various information in the storage device for the consumables.

The system configuration example of this embodiment. Explanatory drawing of the storage device of consumables. FIG. 3 is a perspective view illustrating a main part of the printing apparatus according to the present embodiment. FIG. 3 is a perspective view illustrating a main part of the ink cartridge. 2 is a detailed configuration example of a printing apparatus according to the present embodiment. The flowchart explaining the flow of a process of this embodiment. Explanatory drawing of the kind of cleaning process, and ink consumption. Explanatory drawing of a determination information storage area and a result information storage area. Another explanatory view of a decision information storage area and a result information storage area.

  Hereinafter, this embodiment will be described. In addition, this embodiment demonstrated below does not unduly limit the content of this invention described in the claim. In addition, all the configurations described in the present embodiment are not necessarily essential configuration requirements of the present invention.

  For example, in the following, an ink cartridge that stores ink and a printing apparatus that discharges ink will be described as an example. However, the present embodiment is not limited to this, and a liquid storage container that stores various liquids and discharge (eject) the liquid. It is applicable to a liquid consuming apparatus. The liquid is not limited as long as it can be discharged by the liquid consuming device, and includes, for example, a solution, a solvent, a sol, a gel, and various substances or fine particles dissolved therein.

1. Outline FIG. 1 shows a system configuration example of a printing apparatus 200 according to the present embodiment. As shown in FIG. 1, the printing apparatus 200 according to the present embodiment is a printing apparatus in which a consumable item 300 can be detachably mounted. The consumable item mounting unit 21, a communication processing unit 110, a control unit 120, including. The printing apparatus 200 is, for example, an ink jet printer as shown in FIG. 5 described later. Hereinafter, a case where the printing apparatus 200 is an ink jet printer will be described as an example. However, the printing apparatus 200 of the present embodiment is not limited thereto, and may be a laser printer or a copying machine (not shown), for example.

  The consumable item 300 is mounted on the consumable item mounting unit 21. The consumable part mounting unit 21 is a holder 21 provided in a carriage 20 as shown in FIG. Further, the consumable 300 contains a consumable member 360. Specifically, for example, when the printing apparatus is an ink jet printer, the consumable 300 is an ink cartridge, and the consumable member 360 is ink. For example, when the printing apparatus is a laser printer or a copying machine, the consumable 300 is a toner cartridge, and the consumable member 360 is toner. However, the consumable 300 and the consumable member 360 are not limited to these.

  Further, the consumable 300 has a storage device 352. As illustrated in FIG. 2, the storage device 352 includes a determination information storage area DIM that stores execution determination information indicating that the execution of the maintenance process that consumes the consumable member 360 of the consumable 300 is determined by the control unit 120; And a result information storage area RIM for storing execution result information indicating the execution result of the maintenance process.

  Here, the maintenance process is a process in which the consumable member 360 of the consumable 300 is consumed and the printing apparatus 200 is maintained. A specific example of the maintenance process will be described later with reference to FIG.

  The execution decision information is information indicating that the control unit 120 has decided to execute the maintenance process, for example, information indicating the number of execution decisions of the maintenance process. The maintenance process execution decision number is the number of times the control unit 120 has decided to execute the maintenance process.

  The execution result information is information indicating whether the maintenance process is successful, for example, information indicating the number of failure times of the maintenance process. However, the execution result information is not limited to the number of failures, and may be information indicating the number of successful maintenance processes.

  The communication processing unit 110 performs communication processing with the storage device 352 of the consumable 300. The control unit 120 controls the communication processing unit 110. The functions of the communication processing unit 110 and the control unit 120 are realized by the processor 100, for example.

  When the control unit 120 determines to execute the maintenance process, the control unit 120 instructs the communication processing unit 110 to update the execution determination information in the determination information storage area DIM of the storage device 352 illustrated in FIG.

  Here, the update of the execution decision information is to write the counted number of execution decisions, for example, in the decision information storage area DIM. That is, the control unit 120 instructs the communication processing unit 110 to update the counted number of execution decisions in the decision information storage area DIM of the storage device 352.

  Furthermore, the control unit 120 instructs the communication processing unit 110 to update the execution result information in the result information storage area RIM of the storage device 352 illustrated in FIG. 2 based on the execution result of the maintenance process. For example, when the maintenance process fails, the control unit 120 instructs the communication processing unit 110 to update the number of maintenance process failures in the result information storage area RIM of the storage device 352. Note that the number of execution decisions and the number of failures may be counted up by the control unit 120, or may be counted up by the storage device 352.

  Therefore, based on the information stored in the storage device 352 of the consumable 300, it is possible to analyze whether the maintenance process has succeeded or failed. For example, after the consumable product 300 is used, the manufacturer can collect the consumable product 300, read data from the storage device 352, and analyze it.

  As a result, if there is a difference between the ink remaining amount estimated by the printing apparatus 200 and the actual ink remaining amount of the consumable 300, it is possible to analyze whether or not the cause is a failure in the maintenance process. become able to do. In addition, it is possible to reduce the number of man-hours required for analyzing the malfunction of the printing apparatus 200.

  Then, as described above, the number of maintenance processing execution decisions is stored in the storage device 352 as execution decision information, so that the number of times maintenance processing execution has been determined during the analysis of the data stored in the storage device 352. Analysts can know.

  Further, as described above, the number of maintenance processing failures is stored in the storage device 352 as the execution result information, so that it is possible to determine how many times the maintenance processing has failed when analyzing the data stored in the storage device 352. Will be able to know.

  As described above, the determination information storage area stores the maintenance process execution determination count, and the result information storage area stores the maintenance process failure count. If processing is performed normally, the number of failures is less than the number of execution decisions. Therefore, in this embodiment, the area size of the result information storage area is smaller than the area size of the decision information storage area.

  For example, in the example of FIG. 8A described later, the number of bits in the result information storage area for storing the number of execution decisions for each maintenance is set to 8 bits, and the number of bits in the decision information storage area for storing the number of maintenance failures is set to 4 bits. doing.

  As a result, it is possible to reduce the amount of memory consumed by the storage device 352 of the consumable 300. As in the example of FIG. 8A described later, when it is necessary to store a plurality of execution counts and a plurality of failure counts for each maintenance process, the memory consumption saving effect is further enhanced.

  Further, the printing apparatus 200 may include a consumable 300 having a storage device 352.

  As a result, it is possible to perform printing using the consumable 300 and store the various information described above in the storage device 352.

2. Inkjet Printer and Ink Cartridge Next, the configuration when the printing apparatus is an inkjet printer will be specifically described with reference to FIGS. FIG. 3 is a perspective view showing a main part (printing unit) of the printing apparatus (inkjet printer) in the present embodiment. FIG. 3 shows X, Y, and Z directions orthogonal to each other. In the normal use posture of the printing apparatus, the front direction of the printing apparatus is the X direction, and the vertical direction is the Z direction. For example, taking the X direction as an example, the direction of the arrow is called the + X direction (or simply the X direction), and the opposite direction is called the -X direction.

  The printing apparatus of FIG. 3 includes ink cartridges IC1 to IC4 (consumables 300), a carriage 20 including a holder 21 (consumables mounting unit) that detachably accommodates ink cartridges IC1 to IC4, a cable 30, and a paper feed. A motor 40, a carriage motor 50, and a carriage drive belt 55 are included. The holder 21 and the carriage 20 may be formed as an integral member, or may be formed as a separate member and the holder 21 may be assembled to the carriage 20.

  Each of the ink cartridges IC1 to IC4 contains one color of ink. Ink cartridges IC <b> 1 to IC <b> 4 are detachably attached to the holder 21. A head is provided on the surface of the carriage 20 in the −Z direction. The ink supplied from the ink cartridges IC1 to IC4 is ejected from the head toward the recording medium. The recording medium is, for example, printing paper. The carriage 20 is connected to the communication processing unit 110 via a cable 30, and discharge control is performed by the control unit 120 via the communication processing unit 110 and the cable 30. The paper feed motor 40 rotationally drives a paper feed roller 45 (described in FIG. 5) to feed printing paper in the X direction shown in FIG. The carriage motor 50 drives the carriage drive belt 55 to move the carriage 20 in the ± Y direction. A printing operation is performed by the control unit 120 controlling these ejection, paper feeding, and movement of the carriage 20. Hereinafter, the ± Y direction in which the carriage 20 is moved is referred to as “main scanning direction”, and the X direction in which printing paper is fed is referred to as “sub-scanning direction”.

  Next, FIG. 4 will be described. FIG. 4 is a perspective view showing a main part of the ink cartridge IC. The ink cartridge IC shown in FIG. 4 corresponds to each of the ink cartridges IC1 to IC4 shown in FIG.

  As shown in FIG. 4, the ink cartridge IC includes a rectangular parallelepiped (including a substantially rectangular parallelepiped) ink container 305, a circuit board 350, and a lever 340 for attaching and detaching the ink cartridge IC to the holder 21. And an ink supply port 330 for supplying ink to the head. A storage device 352 that stores information about the ink cartridge IC is mounted on the back surface of the circuit board 350. A plurality of terminals 354 that are electrically connected to the storage device 352 are arranged on the surface of the circuit board 350. The plurality of terminals 354 are electrically connected to the communication processing unit 110 (or the control unit 120) on the main body side via the plurality of main body side terminals provided on the holder 21 when the ink cartridge IC is mounted on the holder 21. Connected. As the storage device 352, for example, a nonvolatile memory such as an EEPROM can be used.

  Next, FIG. 5 shows a detailed configuration example of the entire printing apparatus according to the present embodiment. In FIG. 5, the first direction D1 is the main scanning direction, and the second direction D2 orthogonal to the first direction D1 is the sub-scanning direction.

  5 includes an ink cartridge IC1 to IC4, a carriage 20 including a holder 21 (not shown in FIG. 5) that detachably holds the ink cartridges IC1 to IC4, a paper feed motor 40, a paper feed Roller 45, carriage motor 50, carriage drive belt 55, communication processing unit 110, control unit 120, storage unit 190 (memory), display unit 210 (monitor), interface unit (I / F unit) 220. In addition, the same code | symbol is attached | subjected about the component same as the component demonstrated in FIG.1 and FIG.3, and description is abbreviate | omitted suitably. In addition, the printing apparatus 200 is not limited to the configuration shown in FIG. 5, and various modifications such as omitting some of these components or adding other components are possible.

  The communication processing unit 110 and the control unit 120 are realized by a processor 100 such as a CPU and a program that operates on the processor 100. For example, a program stored in the ROM is expanded in the storage unit 190, and the processor 100 executes the program, whereby the processing of each unit of the control unit 120 is executed. The communication processing unit 110 or the control unit 120 can be realized by a dedicated ASIC or the like.

  The control unit 120 controls the drive unit of the printing apparatus 200. Specifically, the control unit 120 controls the carriage motor 50 that is a driving unit to move the carriage 20. As a result, the carriage motor 50 performs driving for moving the holder 21 and the head 22 provided in the carriage 20.

  In addition to the above, the control unit 120 performs an estimation process of the cumulative ink consumption of the ink cartridge. For example, the consumption amount of ink used for printing is estimated based on the dot count value of the number of ink ejections used for printing from the head 22. Specifically, the number of ink droplets ejected from the head 22 is counted, and the ink consumption (usage amount) is calculated by integrating the counted number of ink droplets and the mass per ink droplet. The cumulative amount of ink consumed for printing and the amount of ink consumed for cleaning the head (cleaning process) are added to calculate the cumulative amount of ink consumed by the ink cartridge. The accumulated ink consumption is stored in the storage unit 190, and is written and stored in the storage device 352 for each ink cartridge IC in FIG. 4 at a predetermined timing. Then, when the printing apparatus 200 is started up or the ink cartridge is replaced, the ink consumption amount, the determination information, and the result information are read out from the storage device 352 of the ink cartridge IC and acquired, and stored in the storage unit 190. While the power is on, the ink consumption, determination information, and result information in the storage unit 190 are updated as printing is performed and the head 22 is cleaned. Furthermore, the updated estimated ink consumption amount is stored in the ink cartridge IC every time the printing apparatus 200 is turned off, the ink cartridge IC is replaced, or each time a predetermined amount of ink is consumed or maintenance processing is executed. The data is written back to the storage device 352.

3. Details of Processing Next, the processing flow of the present embodiment will be described with reference to the flowchart of FIG.

  First, the control unit 120 determines whether or not to perform maintenance processing (S101). If the control unit 120 determines that the maintenance process is to be executed, the control unit 120 counts up the number of times that the maintenance process has been determined (S102). Specifically, the control unit 120 counts up the determination information in the storage unit 190 and then updates the information in the determination information storage area DIM based on the determination information stored in the storage unit 190. The storage device 352 is instructed to write via the unit 110.

  Next, the control unit 120 counts up the number of failures stored in the storage unit 190 before executing the maintenance process (S103). Then, for example, the control unit 120 instructs the communication processing unit 110 to update the number of execution decisions in the decision information storage area DIM shown in FIG. 2 and updates the number of failures in the result information storage area RIM in FIG. To do. Next, the communication processing unit 110 instructs the storage device 352 of the ink cartridge (consumable product 300) to write the number of times that the maintenance process is determined and the number of failures.

  Thereafter, the control unit 120 outputs instruction information related to the maintenance process to each unit in order to execute the maintenance process (S104). Then, the control unit 120 determines whether or not the maintenance process has been normally completed (S105). When the control unit 120 determines that the maintenance process has been successful (completed normally), the result of the storage device 352 is obtained. An instruction to write the number of failed countdowns to the information storage area RIM is given.

  On the other hand, when it is determined that the maintenance process has failed, the control unit 120 performs an error process (S107). In this case, the number of failures is kept counted up, the number of failures written in the storage device 352 is not updated, and the process ends. If it is determined in step S101 that the maintenance process is not to be executed, the process is immediately terminated.

  As described above, in this embodiment, before the maintenance process is executed, the number of failures counted up is written in the result information storage area of the storage device 352, and the failure count counted down is stored in the storage device 352 only when the maintenance process is successful. Overwrite the result information storage area. This makes it possible to match the number of failures written in the result information storage area of the storage device 352 with the number of actual maintenance processing failures.

  Also, before the maintenance process is executed, the failure count is not written in the result information storage area of the storage device 352, but only when the maintenance process fails, the failure count is counted up and stored in the result information storage area of the storage device 352. A writing method is also conceivable. In this embodiment, such a method may be adopted.

  On the other hand, as described above, in the method of counting up the number of failures before executing the maintenance process and counting down the number of failures when the maintenance process is successful, the control unit 120 has executed the maintenance process. Only the final execution result needs to be confirmed. On the other hand, when counting up the number of failures after execution of the maintenance process, there are a plurality of failure factors in the execution process of one maintenance process, so it is necessary to check all of them. In the latter case, the control unit 120 does not count up the number of failures for each of those factors, but counts the number of failures as one when one maintenance process finally fails. Must be configured. Therefore, the control unit 120 can be configured more simply by the above-described method of counting up and counting down.

  Next, a specific example of the maintenance process will be described with reference to FIG. Maintenance processing includes cleaning processing and initial filling. The cleaning process is a process for sucking ink from a nozzle provided on the head 22 of the carriage 20 and forcibly discharging the ink, for example. The cleaning process includes a plurality of types of processes as shown in FIG. Specifically, in the example of FIG. 7, the cleaning process includes weak cleaning, medium cleaning, strong cleaning, and cartridge replacement cleaning. The cartridge replacement cleaning is cleaning performed for the purpose of removing bubbles or the like that may be mixed in the ink when the ink cartridge is replaced from the ink flow path.

  The initial filling is an ink suction operation performed for the purpose of filling the ink flow path between the ink cartridge and the nozzles of the head 22 when the printing apparatus 200 is used for the first time.

  As shown in the table of FIG. 7, the ink consumption amounts are different in these maintenance processes. Specifically, the ink consumptions of the weak cleaning, medium cleaning, strong cleaning, cartridge replacement cleaning, and initial filling are Q1, Q2, Q3, Q4, and Q5, respectively, and the magnitude relationship of the ink consumption is Q1 <Q2 <Q3 <Q4 <Q5.

  Thus, since the ink consumption varies depending on the type of maintenance processing, it is desirable to store the number of execution decisions and the number of failures for each type of cleaning processing. This is because, for example, the ink consumption to be used differs greatly between the failure of weak cleaning and the failure of initial filling. For this reason, when analyzing data stored in the storage device 352, it is desirable that the analyst can determine which type of cleaning process has failed.

  As shown in FIG. 8A or 8B, the storage device 352 of the present embodiment includes a plurality of decision information storage areas and a plurality of result information storage areas corresponding to a plurality of types of maintenance processes. The plurality of types of cleaning processes include at least a first cleaning process and a second cleaning process different in type from the first cleaning process.

  For example, in the example of FIG. 8A, in the storage device 352, a first determination information storage area DIM1 to an nth determination information storage area DIMn (n is an integer of 2 or more) are provided as a plurality of determination information storage areas. . In addition, a first result information storage area RIM1 to an nth result information storage area RIMn are provided as a plurality of result information storage areas. Each area of the plurality of determination information storage areas (DIM1 to DIMn) is configured by 8 bits, and each area of the plurality of result information storage areas (RIM1 to RIMn) is configured by 4 bits. However, the size of each determination information storage area and each result information storage area of the present embodiment is not limited to these.

  When the control unit 120 determines to execute the first cleaning process, the control unit 120 instructs the communication processing unit 110 to update the execution determination information in the first determination information storage area DIM1 of the storage device 352. Further, the control unit 120 instructs the communication processing unit 110 to update the execution result information in the first result information storage area RIM1 of the storage device 352 based on the execution result of the first cleaning process. Similarly, when the control unit 120 determines to execute the second cleaning process, the control unit 120 instructs the communication processing unit 110 to update the execution determination information in the second determination information storage area DIM2 of the storage device 352. To do. Then, the control unit 120 instructs the communication processing unit 110 to update the execution result information in the second result information storage area RIM2 of the storage device 352 based on the execution result of the second cleaning process.

  That is, information related to the first cleaning process is written in DIM1 and RIM1, and information related to the second cleaning process is written in DIM2 and DIM2. The same applies to the third and subsequent cleaning processes.

  This makes it possible to acquire execution determination information and execution result information for each type of cleaning process when analyzing data stored in the storage device 352. As a result, the data analyst of the storage device 352 can specify the number of maintenance processing failures for each maintenance type.

  Further, the frequency of execution of the cleaning process as shown in FIG. For example, the execution frequency of the strong cleaning is lower than the execution frequency of the intermediate cleaning, and the execution frequency of the intermediate cleaning is lower than the execution frequency of the weak cleaning. The cartridge replacement cleaning is performed only when the cartridge is replaced, and the initial filling is performed only when the printing apparatus 200 is used for the first time. That is, the number of execution decisions for each cleaning process varies depending on the type of cleaning process. For cleaning processes that are assumed to have a small number of execution decisions, such as cartridge replacement cleaning and initial filling, there is no problem even if the decision information storage area is made smaller than a cleaning process that is assumed to have a large number of execution decisions. . The same applies to the result information storage area.

  Accordingly, as shown in FIG. 8B, the plurality of decision information storage areas may include at least two decision information storage areas having different area sizes. Further, the plurality of result information storage areas may include at least two result information storage areas having different area sizes.

  Specifically, in the example of FIG. 8B, the number of bits of the first decision information storage area DIM1 is 8 bits, and the number of bits of the second decision information storage area DIM2 and the third decision information storage area DIM3 is 4 bits, respectively. is there. Similarly, in the example of FIG. 8B, the number of bits of the first result information storage area RIM1 is 4 bits, and the number of bits of the second result information storage area RIM2 and the third result information storage area RIM3 is 2 bits, respectively. is there. As described above, the plurality of determination information storage areas (DIM1 to DIMn) may include at least two determination information storage areas having different area sizes depending on the type of the corresponding cleaning process. Further, the plurality of result information storage areas (RIM1 to RMn) may include at least two result information storage areas having different area sizes depending on the type of the corresponding cleaning process.

  Thereby, each storage area of the storage device 352 can be used efficiently.

  Further, in step S101 in FIG. 6, the control unit 120 desirably calculates in advance the ink consumption amount in the maintenance process and determines whether or not to execute the maintenance process. This is to prevent ink from being emptied in the maintenance process. For example, if the amount of ink consumed in the scheduled maintenance process is greater than the remaining amount of ink in the ink cartridge, it is determined that the maintenance process is not performed because the ink will run out. At this time, a message indicating that the maintenance process cannot be executed because the ink remaining amount is insufficient is displayed on the display unit 210.

  That is, in the present embodiment, as described above, the storage device 352 includes a consumption information storage area (not shown) that stores consumption information indicating the amount of consumption member 360 consumed from the consumable 300. The consumption information is a cumulative ink consumption amount of the ink cartridge. When the control unit 120 determines to execute the maintenance process, the cumulative ink consumption amount obtained by adding the ink consumption amount used in the maintenance process is added to the consumption information storage area of the storage device 352 simultaneously with the update of the determination information. Instruct to write. Accordingly, it is possible to prevent the estimated ink consumption from becoming smaller than the actual ink consumption by adding the ink usage amount in the maintenance process regardless of whether the maintenance process is successful. In other words, it is possible to prevent the estimated ink remaining amount from becoming larger than the actual ink remaining amount, and to prevent ink from being emptied.

4). Modification First, in the above-described example, as illustrated in FIG. 5, the storage unit 190 of the printing apparatus 200 is used as a temporary storage area. The control unit 120 reads out the maintenance process execution decision count and the maintenance process failure count stored in the storage device 352 of the ink cartridge 300, and temporarily stores them in the storage unit 190. Then, the control unit 120 reads the maintenance process execution decision count and the maintenance process failure count from the storage unit 190, counts up or down, and stores the count in the storage unit 190 again. Furthermore, the control unit 120 instructs the communication processing unit 110 to write the number of execution decisions after the count-up and the number of failures after the count-up or count-down to the decision information storage area DIM of the storage device 352. The storage device 352 writes the notified number of execution decisions after count-up and the number of failures after count-up or count-down to the decision information storage area.

  However, the present embodiment is not limited to this, and the following modifications may be employed. For example, in this modified example, the storage device 352 of the ink cartridge 300 performs a process of counting up the execution decision number or the number of failures and writing it in each storage area. In this case, the control unit 130 of the printing apparatus 200 causes the communication processing unit 110 to notify data indicating that the execution of the maintenance process has been determined or data indicating that the maintenance process has been successful. When the storage device 352 receives data indicating that the execution of the maintenance process is determined, the storage device 352 counts up the maintenance process execution determination number, writes the number in the determination information storage area DIM, and the maintenance process failure number Is counted up and written to the result information storage area. Furthermore, when the storage device 352 receives data indicating that the maintenance process has been successful, the storage device 352 counts down the number of maintenance process failures and writes the count in the determination information storage area DIM.

  Further, the printing apparatus or the like according to the present embodiment may realize part or most of the processing by a program. In this case, the printing apparatus according to the present embodiment is realized by a processor such as a CPU executing a program.

  The printing apparatus according to the present embodiment may include a processor and a memory. The processor here may be, for example, a CPU (Central Processing Unit). However, the processor is not limited to the CPU, and various processors such as a GPU (Graphics Processing Unit) or a DSP (Digital Signal Processor) can be used. The processor may be a hardware circuit based on ASIC (Application Specific Integrated Circuit). The memory stores instructions that can be read by a computer. When the instructions are executed by the processor, each unit of the printing apparatus according to the present embodiment is realized. The memory here may be a semiconductor memory such as an SRAM (Static Random Access Memory) or a DRAM (Dynamic Random Access Memory), or may be a register or a hard disk. In addition, the instruction here may be an instruction of an instruction set constituting the program, or an instruction for instructing an operation to the hardware circuit of the processor.

  Although the present embodiment has been described in detail as described above, it will be easily understood by those skilled in the art that many modifications can be made without departing from the novel matters and effects of the present invention. Accordingly, all such modifications are intended to be included in the scope of the present invention. For example, a term described at least once together with a different term having a broader meaning or the same meaning in the specification or the drawings can be replaced with the different term in any part of the specification or the drawings. Further, the configuration and operation of the printing apparatus are not limited to those described in the present embodiment, and various modifications can be made.

20 ... Carriage, 21 ... Consumable mounting part (holder), 22 ... Head, 30 ... Cable,
40 ... paper feed motor, 45 ... paper feed roller, 50 ... carriage motor,
55 ... Carriage drive belt, 100 ... Processor, 110 ... Communication processing unit,
120 ... Control unit, 190 ... Storage unit, 200 ... Printing device, 210 ... Display unit,
220 ... I / F unit, 300 ... consumable, 305 ... ink storage unit, 310 ... bottom surface,
330 ... Ink supply port, 340 ... Lever, 350 ... Circuit board, 352 ... Storage device,
354 ... a plurality of terminals, 360 ... a consumable member

Claims (10)

A printing device capable of detachably mounting consumables,
A consumable part mounting unit on which the consumable part having a storage device is mounted;
A communication processing unit that performs communication processing with the storage device of the consumables;
A control unit for controlling the communication processing unit;
Including
The storage device for the consumables is:
A determination information storage area for storing execution determination information indicating that execution of maintenance processing for consuming a consumable member of the consumable is determined by the control unit, and execution result information indicating the execution result of the maintenance processing are stored. And a result information storage area
The controller is
When the execution of the maintenance process is determined, the communication processing unit is instructed to update the execution determination information in the determination information storage area of the storage device,
A printing apparatus that instructs the communication processing unit to update the execution result information in the result information storage area of the storage device based on the execution result of the maintenance process. In claim 1,
The execution decision information is
Information indicating the number of execution decisions of the maintenance process;
The controller is
A printing apparatus that instructs the communication processing unit to update the number of execution decisions counted up in the decision information storage area. In claim 1 or 2,
The execution result information is
The printing apparatus is information indicating the number of failures of the maintenance process. In claim 3,
The controller is
Before executing the maintenance process, instruct the communication processing unit to update the counted number of failures in the result information storage area,
When it is determined that the maintenance process has been successful, the printing apparatus is configured to instruct the communication processing unit to update the number of failures counted down in the result information storage area. In any one of Claims 1 thru | or 4,
The area size of the result information storage area is
A printing apparatus having a size smaller than an area size of the determination information storage area. In any one of Claims 1 thru | or 5,
The maintenance process includes
Cleaning process,
The storage device
A plurality of decision information storage areas corresponding to a plurality of types of cleaning processes, and a plurality of result information storage areas;
The plurality of types of cleaning processes include:
Including at least a first cleaning process and a second cleaning process different in type from the first cleaning process,
The controller is
When the execution of the first cleaning process is determined, the communication processing unit is instructed to update the execution determination information in the first determination information storage area of the storage device,
Instructing the communication processing unit to update the execution result information in the first result information storage area of the storage device based on the execution result of the first cleaning process,
When the execution of the second cleaning process is determined, the communication processing unit is instructed to update the execution determination information in the second determination information storage area of the storage device,
A printing apparatus that instructs the communication processing unit to update the execution result information in a second result information storage area of the storage device based on the execution result of the second cleaning process. . In any one of Claims 1 thru | or 5,
The maintenance process includes
Cleaning process,
The storage device
A plurality of decision information storage areas corresponding to a plurality of types of cleaning processes, and a plurality of result information storage areas;
The plurality of decision information storage areas are:
Including at least two decision information storage areas having different area sizes;
The plurality of result information storage areas are:
A printing apparatus comprising: at least two result information storage areas having different area sizes. In any one of Claims 1 thru | or 7,
The storage device
A consumption information storage area for storing consumption information indicating an amount of consumption of the consumable member from the consumable,
The controller is
When the execution of the maintenance process is determined, the printing apparatus is configured to instruct the communication processing unit to write the consumption information in the maintenance process in the consumption information storage area of the storage apparatus. . In any one of Claims 1 thru | or 8.
The printing apparatus includes:
An inkjet printer,
The consumables are
A printing apparatus comprising an ink cartridge. In any one of Claims 1 thru | or 9,
A printing apparatus comprising the consumable having the storage device.

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