JP2020104379A - Printer, information processing system and program - Google Patents

Abstract

To achieve a long life of a battery, in a printer comprising the rechargeable/dischargeable battery.SOLUTION: A printer, which issues a printing medium, comprises: a rechargeable/dischargeable battery that supplies power to the printer; an information acquisition part that acquires information on the planned issue number of the printing media in an operation period, before the operation period for operating the printer by discharge from the battery by is started; and a control part that determines whether or not the battery is charged before the operation period is started, on the basis of the current remaining charging amount of the battery and the information on the planned issue number.SELECTED DRAWING: Figure 6

Description

The present invention relates to a printer, an information processing system, and a program.

In recent years, a chargeable/dischargeable battery (also called a secondary battery) such as a lithium-ion battery has been used in a relatively small printer. It is known that the performance of such a battery deteriorates as the number of charge/discharge cycles (or a discharge cycle) increases. It is also known that 100% charge (full charge) every time the battery is charged reduces the life of the battery (reduces the capacity recovery rate).
Patent Document 1 describes a system for diagnosing a factor of performance deterioration of a chargeable/dischargeable battery.

JP, 2011-100691, A

Although it is inevitable that the performance of the battery will deteriorate due to repeated charging and discharging, it is required to prolong the life of the battery by delaying the performance deterioration of the battery.

Therefore, an object of the present invention is to achieve a long battery life in a printer equipped with a chargeable/dischargeable battery.

An aspect of the present invention is a printer that issues a print medium, wherein a chargeable/dischargeable battery that supplies power to the printer, and an operation period in which the printer is operated by discharging the battery are started before the start of the operation period. Before the start of the operation period, the information acquisition unit that acquires information about the planned number of print media to be issued during the operating period, the current remaining charge of the battery, and the information about the planned number of sheets to be issued before the operation period starts And a control unit that determines whether or not to charge the battery.

According to an aspect of the present invention, in a printer including a battery that can be charged and discharged, it is possible to achieve a long battery life.

It is a figure which shows schematic structure of the information processing system of embodiment. FIG. 3 is a perspective view of the printer of the embodiment with the cover open. FIG. 3 is a partial cross-sectional view for explaining a paper feeding route of the printer of the embodiment. It is a block diagram which shows the internal structure of each apparatus of the information processing system of embodiment. It is a figure which shows the data structural example of a delivery database. 3 is a sequence chart showing an operation example of the information processing system of the embodiment. It is a figure which shows an example of the charging/discharging battery of the battery contained in the printer of embodiment. It is a figure which shows an example of the charging/discharging cycle of the battery contained in the printer of embodiment. It is a figure which shows an example of the charging/discharging cycle of the battery contained in the printer of embodiment. It is a figure which shows an example of the charging/discharging cycle of the battery contained in the printer of embodiment. It is a figure which shows an example of the charging/discharging cycle of the battery contained in the printer of embodiment.

In the following description, the “remaining charge amount” has substantially the same meaning as, for example, the charging rate or SOC (State Of Charge), and is a value when the fully charged state is 100% and the fully discharged state is 0%. Is.

(1) Configuration of Information Processing System The information processing system 1 of this embodiment will be described below with reference to FIG. FIG. 1 is a diagram showing a schematic configuration of an information processing system 1 of this embodiment.
As shown in FIG. 1, the information processing system 1 of the present embodiment includes a printer 2, a handy terminal 3, and a server 5. The handy terminal 3 and the server 5 can communicate with each other via a network NW such as a LAN (Local Area Network), a WAN (Wide Area Network), or the Internet. The printer 2 and the handy terminal 3 can communicate with each other, for example, by wireless communication. That is, the information processing system 1 of the present embodiment is configured so that the printer 2 and the server 5 can communicate with each other through the handy terminal 3.

The printer 2 operates by, for example, a battery power source. The battery is a secondary battery such as a lithium ion battery, and supplies power to the printer 2.
The printer 2 is a small portable printer, for example, as shown in FIG. 1, a portable printer formed in a flat rectangular parallelepiped shape. The user can use the printer 2 horizontally, or can use the printer 2 while wearing it on a belt hook or shoulder belt (not shown).
In the following, as an example of the use of the printer 2, in the delivery business of a package, a case where a package delivery person who is a user prints out a form such as a receipt or an absence notification at the package delivery destination by the printer 2 and issues it, It is not limited to that.

The handy terminal 3 displays, for example, information received from the printer 2 or the server 5, transmits information to the printer 2 or the server 5, and executes a business application program for business by the user using the printer 2. I do. For example, in the example of the package delivery business described above, the business application program is a program for executing a print instruction of a form, and processing of data related to delivery such as slip data. When the print instruction of the form is executed, a signal indicating the print instruction is transmitted to the printer 2.

In general, when a user uses a portable printer, for example, there are many usage methods in which the portable printer is taken out during business hours, used outside the office, and charged outside the business hours.
In the example of the present embodiment, the user removes the printer 2 from the charger (not shown in FIG. 1) and carries it with the handy terminal 3 during the period in which the printer 2 is operated, and intermittently prints a form as a print medium. It is assumed that there is an operating period for issuing and a non-operating period when the user connects the printer 2 to the charger and does not issue a form. In the example of the package delivery business of this embodiment, the package deliverer who is the user comes to the distribution center to remove the printer 2 from the charger, carries the printer 2 and starts delivering the package. The period during which the delivery of the parcel is completed, the process returns to the delivery center, and the printer 2 is connected to the charger corresponds to the “operating period”. A period during which the printer 2 is connected to the charger, that is, a period other than the operating period corresponds to the "non-operating period". In this case, the battery of the printer 2 can be charged as needed during the non-operation period.
The operation period corresponds to, for example, a period in which the battery is discharged and the printer 2 is operated.

Conventionally, when a mobile printer is charged during a non-operation period, the battery of the printer is fully charged every time after the operation period regardless of the number of forms issued by the printer within the operation period. This leads to a shorter battery life (that is, promotes a lower capacity recovery rate). For example, a case where the discharging and charging are repeated between the battery charging rate of 70% and 100% (full charge) and a case where the discharging and charging are repeated between the battery charging rate of 55% and 85%. By comparison, it is also reported that in the latter case, the battery life is extended by about 30 to 40%.

In view of this point, in the information processing system 1 of the present embodiment, when charging the battery of the printer 2, whether or not to charge the battery, or the additional charge amount in the case of charging the battery, The printer 2 determines it.
More specifically, in the information processing system 1 according to the present embodiment, the printer 2 is in the first state by the time when a certain operating period (referred to as “first operating period”) ends and charging of the printer 2 starts. Information on the planned number of sheets to be issued in the second operation period, which is the operation period following the operation period, is acquired. The planned number of sheets to be issued in the second operation period is approximately proportional to the planned discharge amount of the printer 2 in the second operation period. Therefore, the printer 2 acquires the scheduled number of sheets to be issued in the second operating period after the first operating period and starts charging the printer 2, and determines whether to charge the battery based on the scheduled number of issued sheets, or , Determine the additional charge amount when charging the battery.

(2) Schematic Configuration of Printer of Embodiment Next, a schematic configuration of an exemplary printer 2 of the present embodiment will be described with reference to FIGS. 1 to 3. FIG. 1 also includes a perspective view of the printer 2 with the cover closed. FIG. 2 is a perspective view of the printer 2 with the cover opened. Note that FIG. 2 also illustrates the roll paper R accommodated in the printer 2. FIG. 3 is a partial cross-sectional view of the printer 2 for explaining the paper feed route of the printer 2.

The exemplary printer 2 shown in FIGS. 1 and 2 includes a main body case 201 and a cover 202. As shown in FIG. 2, one end of the cover 202 is pivotally supported by the main body case 201 by a hinge, and the one end of the cover 202 is swingable in a direction in which the cover 202 moves away from and approaches the main body case 201. Is configured. By pressing the button 204, the cover 202 is opened and the storage chamber SP is opened. The storage chamber SP is, for example, a space for storing the roll paper R shown in FIG.

The roll paper R is a strip-shaped continuous paper CP wound in a roll shape, and is accommodated (loaded) in the accommodation chamber SP by a drop-in method when the cover 202 of the printer 2 is in an open state. In the example of the present embodiment, the roll paper R has no core material, and the roll paper R is formed by winding the strip-shaped continuous paper CP so as to have a cylindrical hollow portion having a predetermined diameter.
On the continuous paper CP, forms are provided at predetermined intervals along the longitudinal direction. Adjacent forms on the continuous paper CP are separated by perforations.
On the printing surface of the continuous paper CP, a thermosensitive coloring layer that forms a specific color when reaching a predetermined temperature region is formed.
A position detection mark M indicating the print reference position of each form is formed on the back side of the printing surface of the continuous paper CP along the longitudinal direction. The position detection marks M are rectangular marks printed in black on the back surface of the printing surface of the continuous paper CP and are arranged at equal intervals.

A battery cover 203 is attached to one side surface of the main body case 201 in an openable and closable state. The battery cover 203 is a cover for opening or closing the battery housing in which the battery B (illustrated in FIG. 4) is housed.

A platen roller 25 is pivotally supported on the tip of the cover 202 in a state of being rotatable in the forward direction or the reverse direction. The platen roller 25 is a conveyance roller that conveys the continuous paper CP fed from the roll paper R, and is formed in a state of extending along the width direction of the continuous paper CP. The platen roller 25 is driven by a motor 24 (shown in FIG. 4) via a gear or the like.

As shown in FIG. 2, a sensor 205 is installed in a portion of the cover 202 in the vicinity of the platen roller 25 (more specifically, a surface facing the sheet passing route when the cover 202 is in the closed state). .. The sensor 205 is a sensor that detects the reference position of the form (that is, the position detection mark M of the continuous paper CP), and is composed of a reflective optical sensor.

In FIG. 3, the paper feed route in the case where the roll paper R is inserted into the storage chamber SP of the printer 2 while the continuous paper CP is wound in the counterclockwise direction is indicated by a thick line.
As shown in FIG. 3, when the cover 202 is in the closed state, a part of the cover 202 and a part of the transport guide portion 207 are arranged to face each other with a slight gap. This gap serves as a paper passage route for the continuous paper CP fed from the roll paper R from the storage chamber SP toward the platen roller 25. A sensor 205 provided on the cover 202 is arranged so as to face the paper passage route, and detects the position detection mark M of the continuous paper CP passing through the paper passage route.
The printer 2 prints on each form while sandwiching the continuous paper CP between the platen roller 25 and the thermal head 27. At this time, the printing on each form is performed while arranging the printing timing based on the position detection mark M detected by the sensor 205, for example.

(3) Internal Configuration of Each Device of Information Processing System of Embodiment Next, an internal configuration of each device of the information processing system 1 will be described with reference to FIGS. 4 and 5. FIG. 4 is a block diagram showing the internal configuration of each device of the information processing system 1. FIG. 5 is a diagram showing a data configuration example of the delivery database.

As shown in FIG. 4, the printer 2 includes, for example, a control unit 21, a storage 22, a drive circuit 23, a motor 24 mechanically connected to a platen roller 25, a head unit 26 that drives a thermal head 27, and a battery management unit. 28, a communication interface (I/F) 29, a sensor 205, and a battery B connectable to the charger BC. The communication interface 29 (an example of a receiving unit) includes a communication circuit for communicating with the handy terminal 3. The control unit 21 is an example of an information acquisition unit.
The battery management unit 28 may be integrated with the battery B.

The control unit 21 includes a microcomputer and a memory (RAM (Random Access Memory), ROM (Read Only Memory)), and controls the operation of the printer 2. The microcomputer reads and executes the firmware stored in the ROM when the printer 2 is started.

By executing the firmware, the control unit 21 functions as an information acquisition unit that acquires information regarding the planned number of sheets to be issued in the operating period before the operating period starts.
By executing the firmware, the control unit 21 determines, based on the current remaining charge amount of the battery B and the information regarding the planned number of issued sheets acquired by the information acquisition unit, before the operating period starts. Functions as a control unit that determines whether to charge the battery.

The storage 22 is a storage device such as an SSD (Solid State Drive). The storage 22 may store print data, which is data to be printed on each form, as well as print format information when printing information on each form.

The drive circuit 23 is a circuit that drives a motor 24 that controls the rotation of the platen roller 25 in response to a conveyance request from the control unit 21. The motor 24 is, for example, a stepping motor. The transfer request includes, for example, information on the transfer direction (forward or reverse direction) and the transfer amount (for example, the number of steps).

The head unit 26 includes a circuit that selectively supplies a current to each of the plurality of heating elements included in the thermal head 27 based on the line data which is the data of each line of the print data sent from the control unit 21. When the heating element heated by the current is pressed against the continuous paper CP conveyed by the platen roller 25, the portion of the continuous paper pressed by the heating element is colored to print information on the continuous paper CP.

The battery management unit 28 includes, for example, a voltage sensor, a current sensor, a temperature sensor, and a control circuit that processes detection signals of these sensors to calculate and record the state information of the battery B. The voltage sensor detects the terminal voltage of the battery B. The temperature sensor is attached to the battery B or arranged in the vicinity of the battery B and detects the temperature of the battery B. The current sensor is provided on a line connected to one end of the battery B, and detects the amount of current flowing through the line (that is, current flowing through the battery B).
The battery management unit 28 sends the state information of the battery B to the control unit 21 in response to an instruction from the control unit 21 or at a predetermined timing.

The status information of the battery B (battery status information) managed by the battery management unit 28 is, for example, the following information.
・Battery B charge count (rapid charge count and low speed charge count)
-Battery B temperature history-SOC (charging rate), SOP (State Of Power; chargeable/dischargeable power), SOH (State Of Health; health level; value indicating battery deterioration status), capacity recovery rate, Any estimated value of internal resistance, or a combination of two or more estimated values

The battery B can be charged by the user connecting both terminals of the battery B of the printer 2 to the charger BC. The charger BC is connected to, for example, a commercial power source (100 V AC power source or the like), and charges the battery B with the commercial power source.

The functions realized by executing the firmware in the control unit 21 include at least the following functions (i) to (iv).
(i) Acquiring battery B status information
(ii) Acquiring the planned number of cards to be issued in the next operation period (second operation period above)
(iii) Calculate the planned discharge amount in the next operation period based on the acquired planned number of issued cards.
(iv) To determine whether or not to charge the battery B when connected to the charger BC, or to determine the additional charge amount when charging the battery B.

As described above, the planned number of sheets to be issued (N _P ) is approximately proportional to the planned discharge amount. Here, if the average discharge amount (D _AVE ) per form is known, the planned discharge amount can be calculated as N _P ×D _AVE . In this calculation method, the average discharge amount is a constant.
The control unit 21 may calculate the average discharge amount per one form. For example, the control unit 21 counts the number (N) of the forms issued in a predetermined period of the operation period based on the detection result of the position detection mark M of the continuous paper CP by the sensor 205. The control unit 21 specifies the amount of decrease (ΔCR) in the charging rate of the battery B during the predetermined period. As a result, the control unit 21 can calculate the average discharge amount per form as ΔCR/N.

As shown in FIG. 4, the server 5 includes, for example, a control unit 51, a storage 52 (an example of a storage unit), and a communication interface 53. The communication interface (communication I/F) 53 (an example of a transmission unit) includes a communication circuit for performing communication with the printer 2.

The control unit 51 includes a microcomputer and memory (RAM, ROM) and controls the operation of the server 5. The microcomputer reads and executes the program stored in the ROM when the server 5 is started.
The storage 52 is a storage device such as an HDD (Hard Disk Drive). The storage 52 stores a delivery database, which is an example of information about the planned number of sheets to be issued.

An example of the data structure of the delivery database is shown in FIG.
Referring to FIG. 5, the delivery database is a database including records of delivery date, slip number, delivery destination name, delivery destination address, and delivery field. The slip number is an identification number for identifying one delivery content. In the example of the delivery database shown in FIG. 5, the delivery time zone when December 10, 2018 is the delivery date is an example of the first operation period, and the delivery time when December 11, 2018 is the delivery date. The time zone is an example of the second operation period.
In the delivery database, the number of records included in each delivery date corresponds to the planned number of forms to be issued. For example, in the delivery database of FIG. 5, when the printer 2 is charged after the delivery time period of December 10, 2018, the number of records included on December 10, 2018 in the delivery database is the next day. Corresponding to the planned number of issued
In the following description, a group of records corresponding to a specific delivery date in the delivery database will be referred to as “delivery data”.

The control unit 51 transmits the delivery data of the next day to the handy terminal 3 via the communication interface 53 at a predetermined timing, for example. For example, the delivery data of the second operation period is transmitted within the first operation period.

As shown in FIG. 4, the handy terminal 3 includes a control unit 31, a storage 32, a display unit 33, and a communication interface (communication I/F) 34.
The control unit 31 includes a microcomputer and memory (RAM, ROM) and controls the operation of the handy terminal 3. The microcomputer reads and executes the application program stored in the ROM when the handy terminal 3 is activated.

The storage 32 is a storage device such as an SSD. The storage 22 stores delivery data received from the server 5 through the communication interface 34, for example.

The display unit 33 includes a display panel such as an LCD (Liquid Crystal Panel) and a display drive circuit. A touch panel input device is preferably incorporated in the display panel. For example, at least a part of the functions of the application program is executed by an operation input on the touch panel input device. For example, the partial function is to transmit a signal indicating a print instruction of the form to the printer 2.
The communication interface 34 includes a communication circuit for communicating with the printer 2 and the server 5.

The functions realized by executing the application program in the control unit 31 include at least the following functions (i) to (iii). The slip data is data indicating a delivery record (for example, delivered, undelivered, absence of delivery destination, etc.) for each slip number on each delivery date.
(i) Obtain the delivery data from the server 5 and record it in the storage 32.
(ii) Instructing the printer 2 to print the form based on the delivery data
(iii) Creating slip data based on user input, recording it in the storage 32, and notifying the server 5

(4) Operation of Information Processing System Next, a processing flow of the information processing system 1 of the present embodiment will be described with reference to FIG. FIG. 6 is a sequence chart showing the flow of processing of the information processing system 1 of this embodiment. In FIG. 11, the processing by the printer 2 is executed mainly by the control unit 21.
In FIG. 6, the printer 2, the handy terminal 3 and the server in the non-operation period between the Nth operation period (hereinafter, “Nth operation period”) and the N+1th operation period (hereinafter, “N+1th operation period”). The processing of No. 5 is shown.

In FIG. 6, when the Nth operation period ends and a predetermined operation input is performed by the user, the handy terminal 3 transmits the slip data including the delivery record of the Nth operation period to the server 5 (step S10). In response to the receipt of the slip data, the server 5 transmits, for example, the delivery data of the operation period of the next delivery day, that is, the N+1th operation period to the handy terminal 3 (step S12), and the handy terminal 3 sends the delivery data. Is transmitted to the printer 2 (step S13). Instead of sending the delivery data, the handy terminal 3 specifies the planned issuance number of sheets (that is, the number of records in the delivery data) of the form for the (N+1)th operation period from the delivery data, and specifies the specified issuance number. Information may be transmitted to the printer 2.

Upon receiving the delivery data, the printer 2 first measures the current charge remaining amount (step S14). That is, the control unit 21 of the printer 2 acquires the latest SOC data from the battery management unit 28.
Next, the printer 2 specifies the planned number of sheets to be issued in the N+1th operation period based on the delivery data received in step S12, and calculates the planned discharge amount in the N+1th operation period based on the specified planned number of issuance (( Step S16).

Next, the printer 2 determines whether to charge the battery B and whether to charge the battery B based on the current remaining charge amount measured in step S14 and the planned discharge amount in the (N+1)th operation period calculated in step S16. The additional charge amount when performing is determined (step S18). When the printer 2 determines to charge the battery B, the printer 2 charges at least the additional charge amount determined in step S18 (step S20).

(5) Example of Charge/Discharge Cycle Next, an example of the charge/discharge cycle of the battery B of the printer 2 based on the presence/absence of charge execution and the additional charge amount determined in step S18 of the flowchart of FIG. 6 will be described with reference to FIGS. Will be described with reference to. 7 to 10 are diagrams each showing an example of the charge/discharge cycle of the battery B included in the printer 2 of the present embodiment.
More specifically, FIGS. 7 to 10 show the battery B of the printer 2 in the Nth operation period (an example of the first operation period), the non-operation period, and the N+1th operation period (an example of the second operation period), respectively. The change in charging rate of is shown. 7, 9, and 10 show changes in the charging rate of the battery B of the printer 2 during the Nth operation period, the non-operation period, and the (N+1)th operation period.

In a preferred example of this embodiment, the control unit 21 of the printer 2 determines the additional charge amount such that the remaining charge amount after charging the battery B is equal to or more than the first threshold value TH1 and less than the second threshold value TH2. To do. The first threshold value and the second threshold value are not limited, but are preferably set from the viewpoint of extending the life of the battery B. For example, the first threshold TH1 may be a value within the range of 40 to 60% and the second threshold TH2 may be a value of 70 to 90%.

(5-1) First example of charge/discharge cycle (FIGS. 7 and 8)
A first example of the charge/discharge cycle is shown in FIGS. 7 and 8.
Referring to FIG. 7, in the first example, in the non-operation period following the N-th operation period, charging is performed by the planned discharge amount calculated from the number of sheets to be issued in the N+1-th operation period. Specifically, in FIG. 7, it is assumed that the charging rate of the battery B is CE _N (TH1≦CE _N <TH2) at the end time TEN of the _Nth operation period. At this time, when the planned discharge amount in the (N+1)th operation period is calculated, the control unit 21 of the printer 2 sets the additional charge amount of the battery B to the same ΔC as the planned discharge amount. As a result, the charge amount of the battery B by the charge in the non-operational period is increased to _{CS N + 1 (= CE N} + ΔC). Since the predetermined discharge amount ΔC is discharged in the N+1th operation period, the charging rate CE _N+1 of the battery B at the end time TE _N+1 of the _N+ 1th operation period is the charging rate of the battery B at the end time TE _N of the _Nth operation period. It roughly agrees with CE _N.

Similar to FIG. 7, FIG. 8 shows an example in which the additional charge amount in the non-operation period of the battery B is made equal to the planned discharge amount in the next operation period of the non-operation period. FIG. 8 shows the charge rates in three non-operating periods and three operating periods following each non-operating period, but the planned discharge amount in each operating period is different. The charging rate at the start time of the first non-operation period is CE. In this example, the planned discharge amount is different in each operation period, but since the additional charge amount corresponding to the planned discharge amount is charged in the non-operation period before each operation period, the charging rate at the end time of each operation period Have the same CE.
In the first example, the charging is controlled to be performed by the minimum necessary amount during the non-operation period, so that the cumulative charging time is reduced, and the deterioration of the battery B is suppressed. That is, the life of the battery B is extended.

(5-2) Second example of charge/discharge cycle (FIG. 9)
In the first example shown in FIG. 7, the additional charge amount of the battery B in the non-operation period is set to be the same as the planned discharge amount in the next operation period of the non-operation period, but this is not the case.
The second example shown in FIG. 9 shows a control example in which the additional charge amount in the non-operation period of the battery B is made larger than the planned discharge amount in the next operation period of the non-operation period. 9, similarly to FIG. 7, at the start time TE _N of non-operational period charging rate of the battery B is _{CE N (TH1 ≦ CE N <} TH2), than ΔC 7 additional charging amount ΔC Making it big. As a result, the charging rate _{CE N + 1} of the battery B at the end time _{TE N + 1} (N + 1) th operation period is larger than the charging rate CE _N of the battery B at the end time TE _N of the N-th operation period. Even when the additional charge amount ΔC is increased from the example of FIG. 7, the deterioration of the battery B is suppressed by controlling the charge rate after the additional charge to be less than TH2 (that is, determining ΔC so that CSN ₊₁ <TH2). To be done.

(5-3) Third example of charge/discharge cycle (FIG. 10)
In the third example shown in FIG. 10, since there is a sufficiently high charging rate CE _N of the battery B at the start time TE _N of non-operation periods, an example of which is controlled so as not to perform charging in a non-operational period. That is, in the third example, the control unit 21 of the printer 2 estimates the remaining charge amount of the battery B at the end time TE _N+1 of the _N+ 1th operation period based on the information regarding the planned number of sheets to be issued, and the remaining charge amount is the first value. This is an example of the case where it is determined not to charge the battery B when the threshold value is equal to or higher than TH1. More specifically, in FIG. 10, when the charge rate (CE _{N+1 in} FIG. 10) when the planned discharge amount in the N+1th operation period is subtracted from the charge rate CE _{N at the} time TE _N is equal to or higher than the first threshold value TH1. Is controlled so that it is not charged during the non-operation period.
By controlling the charging not to be performed according to the charging rate of the battery B and the planned number of sheets to be issued, the cumulative number of times of charging is reduced and the deterioration of the battery B is suppressed.

(5-4) Fourth example of charge/discharge cycle (FIG. 11)
The fourth example shown in FIG. 11 shows a state in which the battery B is charged until the battery B is fully charged by additional charging during the non-operation period of the battery B. When the planned discharge amount in the operation period next to the non-operation period is very large, charging to the fully charged state may occur in the non-operation period.

As described above, in the information processing system 1 of the present embodiment, at the timing when the battery B can be charged, the current remaining charge amount of the battery B (that is, the charging rate) and the issuance of the next operation period are issued. Based on the information regarding the planned number of sheets, it is controlled to determine whether or not to charge the battery B, or to determine the additional charge amount when the battery B is to be charged. Therefore, it is possible to prevent the battery B from being excessively charged, such as being fully charged each time the battery is charged, and to extend the life of the battery B.

(6) Modified Example Since the performance of the battery B deteriorates as time passes, it is preferable to correct the additional charge amount according to the degree of deterioration of the battery B.
For example, if the planned number of sheets to be issued is 20, if the battery B is a new battery B, the discharge amount for issuing the sheets for 20 sheets is the planned discharge amount, and the planned discharge amount is the additional charge amount. Good. However, when the battery B is old, the battery capacity is lower than the initial value. Therefore, if the planned discharge amount for 20 sheets is set as the additional charge amount, the battery B after the 20 sheets are issued will be stored. The remaining charge may be too low. Therefore, as the battery B becomes old and its performance deteriorates, it is preferable to estimate the additional discharge amount more in order to compensate for the degree of deterioration.
For example, the control unit 21 of the printer 2 calculates the additional charge amount based on the planned number of sheets to be issued, and then corrects the calculated additional charge amount based on the capacity recovery rate of the battery B. The capacity recovery rate of the battery B is obtained from the battery management unit 28. As an example of the correction method, it is conceivable that the additional charge amount calculated based on the planned number of sheets to be issued is multiplied by the inverse of the capacity recovery rate as a coefficient. Alternatively, the additional charge amount is corrected by counting the number of times the battery B is charged and multiplying the additional charge amount calculated based on the planned number of sheets to be issued by a coefficient having a larger value as the count value increases. May be.

Although the embodiments of the present invention have been described above in detail, the scope of the present invention is not limited to the above embodiments. In addition, the above-described embodiment can be variously modified and changed without departing from the gist of the present invention.
For example, in the configuration of the information processing system 1 shown in FIG. 1, the printer 2 communicates with the server 5 via the handy terminal 3, but the present invention is not limited to this. The printer 2 and the server 5 may directly communicate with each other via the network NW without using the handy terminal 3.

DESCRIPTION OF SYMBOLS 1... Information processing system 2... Printer 21... Control part 22... Storage 23... Drive circuit 24... Motor 25... Platen roller 26... Head unit 27... Thermal head 28... Battery management part 29... Communication interface 201... Main body case 202... Cover 203... Battery cover 204... Button 205... Sensor 207... Conveyance guide section 5... Server 51... Control section 52... Storage 53... Communication interface B... Battery BC... Charger M... Position detection mark CP... Continuous paper R... Roll paper SP ...Accommodation room NW...Network

Claims (7)

A printer that issues a print medium,
A chargeable/dischargeable battery that supplies power to the printer,
An information acquisition unit that acquires information about the planned number of print media to be issued in the operating period before the operating period in which the printer is operated by discharging the battery is started;
A control unit that determines whether to charge the battery before the operation period starts, based on the current remaining charge amount of the battery and information about the expected number of sheets to be issued,
Equipped with a printer. The control unit estimates the remaining charge amount of the battery at the end of the operation period based on the remaining charge amount of the battery before the start of the operation period and information about the expected number of sheets to be issued, and If the remaining charge is greater than or equal to a predetermined threshold, it is determined not to charge the battery,
The printer according to claim 1. The control unit determines an additional charge amount when charging the battery, based on a current remaining charge amount of the battery and information about the expected number of sheets to be issued,
The printer according to claim 1. The control unit estimates a planned discharge amount of the battery in the operation period based on the information regarding the planned number of sheets to be issued, and sets the planned discharge amount as the additional charge amount,
The printer according to claim 3. The control unit corrects the additional charge amount based on the capacity recovery rate of the battery,
The printer according to claim 3 or 4. An information processing system including a server and a printer capable of communicating with the server and issuing a print medium,
The server is
A storage unit that stores information related to the number of print media to be issued by the printer during an operation period in which the printer is operated by discharging the battery;
A transmission unit that transmits information about the planned number of sheets to be issued to the printer before the operation period starts,
The printer is
A chargeable/dischargeable battery that supplies power to the printer,
A receiving unit for receiving information on the planned number of sheets to be issued from the server,
A control unit that determines whether to charge the battery before the operating period starts, based on the current remaining charge amount of the battery and the received information about the expected number of sheets to be issued,
Information processing system. In a printer that operates with a power supply supplied by a chargeable/dischargeable battery and issues a print medium, a program for controlling the battery,
Computer,
Information acquisition means for acquiring information about the planned number of print media to be issued during the operating period before the operating period for operating the printer is started by discharging the battery;
Control means for determining whether or not to charge the battery before the operation period starts, based on the current remaining charge amount of the battery and information about the expected number of sheets to be issued;
Program to function as.

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