JP2016175374A - Printer, control method of the same and charging system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently perform control of a battery provided in a printer.SOLUTION: A printer 2 comprises: a battery 21 which is charged by a charger 3; a printing part 23 which is supplied with power from the battery 21 and executes printing; and an SOC 211 which controls the printing part 23. The SOC 211 stops charging of the battery 21 when the temperature of the battery 21 is equal to or greater than the preset charging control temperature and resumes charging to the battery 21 with the charger 3 by transmitting a CHG-ON signal to the charger 3 when a charging resumption condition for resuming charging is established.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a printing apparatus, a printing apparatus control method, and a charging system.

  Conventionally, a printing apparatus including a rechargeable secondary battery is known (for example, see Patent Document 1). When charging a secondary battery, it is necessary to keep the temperature of the battery appropriate. For example, the printing apparatus of Patent Document 1 controls the temperature of the secondary battery to a temperature at which charging can be performed by the temperature control element.

JP 2001-157375 A

By the way, in a configuration in which a charger is connected to a printing apparatus equipped with a battery and the charger supplies power for charging to the printing apparatus, the charger controls charging according to the state of the battery. Therefore, it is difficult to perform control that takes into account the operation of the printing apparatus.
The present invention has been made in view of the above-described circumstances, and an object thereof is to efficiently perform control related to charging of a battery included in a printing apparatus.

In order to achieve the above object, the present invention includes a battery charged by a charger, a printing unit that is supplied with power from the battery and executes printing, and a control unit that controls the printing unit, When the temperature of the battery is equal to or higher than a preset charge control temperature, the control unit controls the charger when the charge restart condition for stopping the charge of the battery and resuming the charge is satisfied. A signal is transmitted, and charging of the battery by the charger is resumed.
Thereby, the operation of charging the battery of the printing apparatus with the charger can be efficiently controlled by the control unit of the printing apparatus.

Further, in the present invention, the control unit is configured to control the result of the battery temperature acquired by the charger by transmitting the control signal to the charger when the charging resumption condition is satisfied. But you can.
Thereby, the charging of the battery by the charger can be resumed by transmitting the control signal.

The control unit may transmit the control signal to the charger so that the temperature of the battery does not reach the charge control temperature when the charge resumption condition is satisfied. It may be configured to charge the battery.
Thereby, after resuming charging, the charger can be controlled so that charging to the battery does not stop.

  Further, in the present invention, a switch for switching supply of power from the charger to the battery is provided, and the control unit is configured to supply power to the battery by the switch when the temperature of the battery is the charge control temperature. The supply of power to the battery may be resumed by the switch when the charging restart condition is satisfied.

  In the present invention, the control unit may be configured to detect a state of charge of the battery and switch power supply to the battery by the switch in accordance with the state of charge of the battery.

  In the present invention, the battery may include a thermistor, and the control unit may acquire the temperature of the battery based on a voltage output from the thermistor.

Further, according to the present invention, the charge resumption condition is that the temperature of the battery is higher than a low temperature set temperature set lower than the charge control temperature, and a period during which charging of the battery is stopped is The configuration may include at least one of elapse of a preset period.
Thereby, since charging is restarted when the charging restart condition is satisfied, insufficient charging of the battery can be suppressed.

In order to achieve the above object, the present invention provides a printing apparatus comprising: a battery charged by a charger; a printing unit that receives power from the battery to execute printing; and a control unit that controls the printing unit. And when the temperature of the battery is equal to or higher than a preset charge control temperature, the charging restart condition, which is a condition for stopping the charging of the battery and restarting the charging, is satisfied. A control signal is transmitted to the charger, and charging of the battery by the charger is resumed.
Thereby, the operation of charging the battery of the printing apparatus with the charger can be efficiently controlled by the control unit of the printing apparatus.

In order to achieve the above object, a charging system of the present invention controls a charger, a battery charged by the charger, a printing unit that receives power from the battery and executes printing, and controls the printing unit. A control unit, and the charger includes a charge control unit that controls charging of the battery, and the control unit is configured so that the temperature of the battery is equal to or higher than a charge control temperature. , When charging resumption conditions that are conditions for stopping charging and resuming charging are satisfied, a control signal is transmitted to the charger, and charging of the battery by the charger is resumed. It is characterized by.
Thereby, the operation of charging the battery of the printing apparatus with the charger can be efficiently controlled by the control unit of the printing apparatus.

The figure which shows the structure of the charging system which concerns on this embodiment. The chart for demonstrating operation | movement of a charging system. The chart for demonstrating operation | movement of a charging system. The flowchart which shows operation | movement of a charging system.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram illustrating a configuration of the charging system 1. The charging system 1 includes a printer 2 (printing apparatus) and a charger 3.
The printer 2 is a device that prints characters, images, and the like on a recording medium based on data input from a PC (host computer) 4. The printer 2 is a so-called mobile printer that is small and portable. For example, the printer 2 is mounted on a body such as a user's waist and is provided at a predetermined position such as a cashier counter in a store. The printer 2 includes a battery 21 (battery), which will be described later, and operates with power supplied from the battery 21. The printer 2 stores thermal roll paper (not shown) as a recording medium in the main body, and prints characters, images, and the like by applying heat to the recording surface of the thermal roll paper, which will be described later, equipped with a heating element. To do.

  The charger 3 supplies power for charging to the battery 21 of the printer 2 based on the power supplied from the AC adapter 6 connected to the commercial AC power source 5. For example, the AC adapter 6 rectifies, smoothes, and converts the voltage of a commercial AC power supply 5 having an AC voltage of 100 volts, and supplies DC power of 24 volts to the charger 3 via a cable. The AC adapter 6 is configured to be detachable from the charger 3 via a cable.

  In the charging system 1, when the printer 2 is connected to the charger 3, the charger 3 supplies power for charging the battery 21 to the printer 2, and charging control of the battery 21 is performed by the printer 2.

As shown in FIG. 1, the printer 2 includes a battery 21, a main circuit 22, and a printing unit 23.
The battery 21 is a rechargeable secondary battery, and is composed of, for example, a lithium ion battery. The battery 21 includes a thermistor 21a and a thermistor 21b. The thermistor 21 a and the thermistor 21 b detect the temperature of the battery 21 and output a voltage corresponding to the temperature of the battery 21. The thermistor 21a and the thermistor 21b output a voltage having a lower voltage value as the temperature of the battery 21 is higher, and output a voltage having a higher voltage value as the temperature of the battery 21 is lower. The thermistor 21a outputs a voltage (temperature result) indicating the temperature of the battery 21 to the charger 3, and the thermistor 21b is an A / D provided in an SOC (System-on-a-chip) 211 (control unit). Output to the terminal 211a.

The main circuit 22 includes an SOC 211, a switch 212, a communication unit 213, an operation unit 214, and a driver 215.
The SOC 211 is an integrated circuit that controls each unit of the printer 2. The SOC 211 includes a CPU or the like as an operation execution unit (not shown). A ROM (not shown) is connected to the SOC 211, and the ROM stores a control program executable by the CPU, data related to the control program, and the like in a nonvolatile manner. The ROM stores voltage values such as a voltage value Vt and a voltage value Vts corresponding to the temperature of the battery 21 for controlling the charging of the battery 21. For example, Vt is a voltage value indicating 47 ° C., and Vts is a voltage value indicating 45 ° C. The SOC 211 executes a control program stored in the ROM, thereby controlling a printing operation by the printing unit 23 to be described later and controlling each unit of the printer 2.

Further, the SOC 211 detects the state of charge of the battery 21 such as full charge based on the voltage of the battery 21.
The SOC 211 includes an A / D terminal 211a, an I / O terminal 211b, and an I / O terminal 211c. A voltage indicating the temperature of the battery 21 output from the thermistor 21b is input to the A / D terminal 211a. The I / O terminal 211b outputs a CHG-EN signal for operating the switch 212 according to the control of the SOC 211. The I / O terminal 211b outputs a CHG-ON signal (control signal) for controlling a charge control IC (Integrated Circuit) 31 (charge control unit) described later. When the CHG-ON signal is output from the I / O terminal 211b, the CHG-ON signal is input to two terminals, a TH terminal 31a and a CE terminal 31b of the charge control IC 31 described later.
The SOC 211 includes a timer 211d. The timer 211d measures the period during which charging of the battery 21 is stopped and the period during which the CHG-ON signal is output from the I / O terminal 211c.

The switch 212 is configured by, for example, an FET or the like, and switches the supply of charging power in accordance with the CHG-EN signal output from the I / O terminal 211b of the SOC 211. For example, when the “Low” level CHG-EN signal is output from the I / O terminal 211 b of the SOC 211, the switch 212 is turned on and the charging power from the charger 3 is supplied to the battery 21. On the other hand, when the “High” level CHG-EN signal is output from the I / O terminal 211b of the SOC 211, the switch 212 is turned off, and the supply of the charging power from the charger 3 to the battery 21 is stopped. Is done.
The switch 212 is controlled by the SOC 211 according to the temperature of the battery 21 and the state of charge of the battery 21. For example, when the SOC 211 detects that the state of the battery 21 is fully charged, the switch 212 is turned off, and the supply of power for charging to the battery 21 is stopped.

  The communication unit 213 performs data communication with the PC 4 in accordance with a predetermined standard such as Wi-Fi (registered trademark) or Bluetooth (registered trademark).

  When an operation panel 24 disposed on the main body of the printer 2 is connected to the operation unit 214 and an operation on an operation element (not shown) of the operation panel 24 is detected, an operation signal corresponding to the operation element is output to the SOC 211.

  The driver 215 is a circuit for controlling and driving a print head 231 and a conveyance motor 232 described later.

The printing unit 23 includes a print head 231, a transport motor 232, and a sensor 233.
The print head 231 is connected to the driver 215 and prints on a print medium under the control of the driver 215. The print head 231 includes a large number of heating elements arranged in a direction orthogonal to the conveyance direction of the thermal roll paper. The print head 231 prints characters, images, and the like by energizing the heating elements and applying heat to the printing surface of the thermal roll paper.
The transport motor 232 is connected to the driver 215 and rotates a transport roller (not shown) under the control of the driver 215 to transport the thermal roll paper.
The sensor 233 is connected to the SOC 211 and detects the presence or absence of the thermal roll paper on the conveyance path of the thermal roll paper according to the control of the SOC 211. The detection value is output to the SOC 211, and the SOC 211 detects out of paper or paper jam based on the detection value.

  The driver 215 outputs a driving current and a driving pulse to the transport motor 232 according to the control of the SOC 211 to transport the thermal roll paper by a necessary amount. Then, the driver 215 drives the print head 231 to energize the heating elements, prints characters, images, and the like on the thermal roll paper, and cuts the thermal roll paper on a cut unit (not shown).

As shown in FIG. 1, the charger 3 includes a charge control IC 31.
The charging control IC 31 is an integrated circuit that controls each part of the charger 3. The charging control IC 31 includes a CPU or the like as a calculation execution unit (not shown). A ROM (not shown) is connected to the charging control IC 31, and the ROM stores a control program executable by the CPU, data related to the control program, and the like in a nonvolatile manner. Further, the ROM stores a voltage value corresponding to the temperature of the battery 21 for controlling the charging of the battery 21, similarly to the SOC 211. The charging control IC 31 controls the supply of charging power to the printer 2 by executing a control program stored in the ROM.

The charge control IC 31 includes a TH terminal 31a and a CE terminal 31b.
A voltage indicating the temperature of the battery 21 is input from the thermistor 21a through the CR circuit 33 to the TH terminal 31a. A voltage indicating the temperature of the battery 21 controlled by the CHG-ON signal is input to the TH terminal 31a via the CR circuit 33. When the CHG-ON signal is a “Low” level signal, a voltage indicating the actual temperature of the battery 21 is input to the TH terminal 31a. Here, the CR circuit is a circuit composed of a capacitor and a resistor, and suppresses a sudden voltage change.
The output signal of the comparator 32 is input to the CE terminal 31b. The comparator 32 includes an operational amplifier, and outputs a “High” level signal or a “Low” level signal to the CE terminal 31b in accordance with the voltage value input to the inverting input terminal (−). A CHG-ON signal is input to the inverting input terminal (−) from the I / O terminal 211 c of the SOC 211 via the CR circuit 34.

The battery 21 has a temperature range suitable for charging in terms of specifications. Therefore, the SOC 211 and the charge control IC 31 control the charging of the battery 21 according to the temperature of the battery 21 based on the voltage output from the thermistor.
More specifically, when the SOC 211 and the charge control IC 31 obtain a voltage indicating the temperature of the battery 21 that is equal to or higher than a preset charge control temperature for stopping charging, the SOC 211 and the charging control IC 31 stop charging the battery 21. In the present embodiment, the charging control temperature is 47 ° C. When the temperature of the battery 21 reaches the charge control temperature ° C., the SOC 211 outputs a “High” level CHG-EN signal to the switch 212 from the I / O terminal 211b, and stops supplying power for charging to the battery 21. To do. In addition, when the temperature of the battery 21 reaches the charging control temperature, the charging control IC 31 stops supplying the charging power to the printer 2.
As described above, when the temperature of the battery 21 is equal to or higher than the charging control temperature, the charging of the battery 21 is stopped by stopping the supply of power for charging on the printer 2 side and the charger 3 side. Therefore, even when there is a malfunction in either one, the charging of the battery 21 can be stopped when the temperature of the battery 21 is equal to or higher than the charging control temperature.

  The SOC 211 and the charge control IC 31 resume the charging of the battery 21 when the temperature of the battery 21 becomes equal to or lower than the low temperature set temperature that is set lower than the charge control temperature. In the present embodiment, the low temperature set temperature is 45 ° C. That is, the SOC 211 and the charge control IC continue to stop charging until the temperature of the battery 21 falls from the charge control temperature (47 ° C.) to the low temperature setting temperature (45 ° C.). When the temperature of the battery 21 falls to the low temperature setting temperature, the SOC 211 outputs a “Low” level CHG-EN signal from the I / O terminal 211 b to the switch 212, and resumes supply of charging power to the battery 21. . In addition, the charging control IC 31 resumes supplying charging power to the printer 2. Thereby, charging of the battery 21 is resumed.

When the printer 2 performs a printing operation in a period during which charging is stopped, that is, a period until the temperature of the battery 21 drops from the charging control temperature to the low temperature setting temperature, the printing operation is performed based on the supply of power from the battery 21. Therefore, the charging of the battery 21 is reduced. Further, the supply of electric power for the printing operation makes it difficult for the temperature of the battery 21 to decrease, and the period during which charging stops is extended.
The battery 21 does not become insufficiently charged when the power supplied for the printing operation is lower than the charged power during the period when the charging is stopped. However, depending on the printing operation, the period for stopping charging is extended, and the power supplied for the printing operation may exceed the charged power. In this case, since the electric power is supplied from the battery 21 while the charging is stopped, the printer 2 is insufficiently charged.

  Here, as a method of suppressing insufficient charging of the battery 21, there is a method of resetting the state of the charge control IC 31 to the initial state by the SOC 211.

  FIG. 2 is a chart for explaining the operation of the charging system 1, and more specifically, a chart for explaining the operation related to the reset of the charging control IC 31. In FIG. 2, the vertical axis represents voltage and the horizontal axis represents time. 2A is a chart of signals output from the I / O terminal 211c, FIG. 2B is a chart of voltage values input to the TH terminal 31a, and FIG. FIG. 2D is a chart of signals input to the inverting input terminal of the comparator 32, and FIG. 2D is a chart of signals output from the comparator 32 to the CE terminal 31b.

When the voltage value acquired from the thermistor 21b indicates Vt or less, the printer 2 determines that the temperature of the battery 21 is equal to or higher than the charging control temperature (47 ° C.). Then, the printer 2 outputs a “High” level CHG-ON signal from the I / O terminal 211 c of the SOC 211 at the timing t1. As described above, the printer 2 outputs the “High” level CHG-ON signal from the I / O terminal 211c to the two terminals of the TH terminal 31a and the CE terminal 31b. The printer 2 outputs a CHG-ON signal and also outputs a “Low” level CHG-EN signal to turn on the switch 212.
When the “High” level CHG-ON signal is output, as shown in FIG. 2B, a signal of a voltage whose sudden change is suppressed by the CR circuit 33 is input to the TH terminal 31a. That is, the voltage indicating that the temperature of the battery 21 has decreased is input to the TH terminal 31a after the timing t1 by being controlled by the CHG-ON signal.
When a “High” level CHG-ON signal is output, as shown in FIG. 2C, the comparator 32 receives a signal of a voltage whose sudden change is suppressed by the CR circuit 34. The

At a timing t2, a voltage indicating a voltage value Vbt or higher at which the temperature of the battery 21 is low and charging is stopped is input to the TH terminal 31a. Further, a voltage signal indicating a voltage value Vr or more indicating execution of resetting of the charging control IC 31 is input to the CE terminal 31b.
When a voltage exceeding the voltage value Vbt is input to the TH terminal 31a, the charging control IC 31 detects that the temperature of the battery 21 is lower than the temperature indicated by the voltage value Vbt, and restarts the supply of power for charging. do not do. That is, the charging control IC 31 continues to stop charging the battery 21.

  When a signal having a voltage exceeding the voltage value Vr is input to the comparator 32, the comparator 32 outputs a “Low” signal to the CE terminal 31b as shown in FIG. Then, the charging control IC 31 performs a reset by inputting a “Low” level signal to the CE terminal 31b. When reset, the charging control IC 31 is in a state where the supply of charging power can be resumed.

At timing t3, a “Low” level CHG-ON signal is output from the I / O terminal 211c. Then, a voltage indicating the temperature of the battery 21 controlled by the CHG-ON signal is input to the TH terminal 31a. The comparator 32 receives a signal for decreasing the voltage.
At timing t4, a voltage lower than the voltage value Vbt is input to the TH terminal 31a. That is, since the CHG-ON signal is a “Low” level signal, a voltage based on the actual temperature of the battery 21 is input to the TH terminal 31a. Further, a signal having a voltage lower than the voltage value Vr is input to the comparator 32. When a voltage signal indicating the voltage value Vr or less is input to the comparator 32, the comparator 32 outputs a “High” level signal to the CE terminal 31b.

  By the way, when the reset is performed, the charging control IC 31 does not resume the supply of electric power for charging unless the temperature of the battery 21 is lower than the low temperature setting temperature (45 ° C.) (43 ° C. or lower). In this case, after timing t4, even if the temperature of the battery 21 indicated by the voltage input from the thermistor 21a is 45 ° C., the charging control IC 31 does not resume the supply of charging power.

  As described above, depending on the printing operation, the period for stopping charging is extended, and the battery 21 becomes insufficiently charged. Moreover, the method of suppressing the shortage of the charging of the battery 21 due to the reset of the charging control IC 31 is that the charging control IC 31 detects that the temperature of the battery 21 is lower than the temperature indicated by the voltage value Vbt during the CHG-ON signal output. Thus, charging of the battery 21 cannot be resumed. When the reset is performed, the resuming temperature of charging is lowered by 2 ° C., so that the charging control IC 31 does not resume charging of the battery 21 even if the temperature of the battery 21 is detected to be 45 ° C.

Therefore, the SOC 211 outputs a CHG-ON signal that is chopper-controlled so as to include a predetermined frequency and duty ratio when a charging resumption condition for resuming charging is satisfied.
FIG. 3 is a chart for explaining the operation of the charging system 1 according to the present embodiment. In FIG. 3, the vertical axis represents voltage, and the horizontal axis represents time. 3A is a chart of the CHG-ON signal, FIG. 3B is a chart of voltage values input to the TH terminal 31a, and FIG. 3C is an inverting input of the comparator 32. FIG. 3D is a chart of signals output from the comparator 32 to the CE terminal 31b.

  When the SOC 211 detects that the temperature of the battery 21 is equal to or higher than the charging control temperature based on the voltage acquired from the thermistor 21b, the SOC 211 stops charging the battery 21. Then, the SOC 211 turns on the switch 212 when the charge resumption condition is satisfied. The SOC 211 turns on the switch 212 and outputs the CHG-ON signal controlled by the chopper from the I / O terminal 221c at the timing ta as shown in FIG. The charge resumption condition will be described later.

When the CHG-ON signal is output, after the timing ta, as shown in FIG. 3 (B), the TH terminal 31a has a voltage value Vbt that is equal to or higher than the voltage value Vts suppressed by the CR circuit 33. Lower voltage is input. That is, a voltage indicating a temperature range in which charging can be resumed by inputting a chopper-controlled CHG-ON signal is input to the TH terminal 31a. Thereby, even when the CHG-ON signal is output, the voltage indicating the temperature of the battery 21 does not exceed the voltage value Vbt, so that the charging control IC 31 does not continue to stop charging. That is, the charging control IC 31 can start supplying charging power. Further, since the temperature of the battery 21 does not become the voltage value Vt or less, the supply of the charging power is not stopped again after the supply of the charging power is resumed.
When a chopper-controlled CHG-ON signal is output, as shown in FIG. 3 (C), the comparator 32 has a voltage lower than the voltage value Vr while a sudden voltage change is suppressed by the CR circuit 34. A signal is input. Therefore, after timing ta, the voltage signal input to the comparator 32 does not exceed the voltage value Vr, and the charging control IC 31 does not reset. That is, the temperature for resuming charging of the battery 21 does not drop to 43 ° C., and the charging control IC 31 can resume charging of the battery 21 even when the battery 21 is 45 ° C.

The SOC 211 outputs a CHG-ON signal that is chopper-controlled when the charge resumption condition is satisfied. The charge resumption condition is a condition including at least one of the temperature of the battery 21 exceeding the low temperature setting temperature and the period during which the charging of the battery 21 is stopped passes a preset period. It is.
As described above, if the printing operation is performed while the charging of the battery 21 is stopped, the supply of electric power from the battery 21 makes it difficult for the temperature to fall below the low temperature set temperature, and the period for stopping the charging is extended. That is, the establishment of the resumption condition for charging suggests that the battery 21 becomes insufficiently charged due to the printing operation.
Therefore, when the charging resumption condition is satisfied, the SOC 211 can suppress the battery 21 from being insufficiently charged by outputting the CHG-ON signal and restarting the charging of the battery 21.

  The period during which charging of the battery 21 is stopped is counted by a timer 211d provided in the SOC 211. For example, when the SOC 211 determines that the temperature of the battery 21 is the charge limit temperature, the SOC 211 starts measuring the timer 211d. Then, the SOC 211 determines whether or not the period measured by the timer 211d has passed a preset period.

Here, the case where this charge resumption condition is satisfied is exemplified by the fact that the period during which the temperature of the battery 21 exceeds 45 ° C. passes a preset period.
When the SOC 211 determines that the temperature output from the thermistor 21a is the charge limit temperature, the SOC 211 stops charging the battery 21 and starts measuring the timer 211d. The SOC 211 measures the timer 211d while detecting the temperature of the battery 21 based on the voltage output from the thermistor 21a. Here, the preset period is 30 minutes. The SOC 211 determines that the charging resumption condition is satisfied when the period in which the temperature of the battery 21 exceeds the low temperature setting temperature has passed 30 minutes. Then, the SOC 211 outputs a chopper-controlled CHG-ON signal and resumes charging.
As described above, when the period in which the temperature of the battery 21 exceeds the low temperature setting temperature has elapsed in advance, charging of the battery 21 is resumed. Therefore, even if the temperature of the battery 21 does not fall to the low temperature setting temperature, the charging can be started and the period for stopping the charging can be shortened.

FIG. 4 is a flowchart showing the operation of the charging system 1. FIG. 4A is a flowchart illustrating the operation of the printer 2, and FIG. 4B is a flowchart illustrating the operation of the charger 3.
In the operation of the charging system 1 in FIG. 4, it is assumed that the charging state of the battery 21 is not fully charged, and a printing operation is performed based on data received from the PC 4.

  The SOC 211 of the printer 2 determines whether or not the temperature of the battery 21 is equal to or higher than the charging limit temperature based on the voltage from the thermistor 21b input to the A / D terminal 211a (step SA1). If it is determined that the temperature of the battery 21 is equal to or higher than the charging limit temperature (step SA1: YES), the SOC 211 outputs a “High” level CHG-EN signal from the I / O terminal 211b and turns off the switch 212 ( Step SA2). That is, the SOC 211 stops supplying the charging power to the battery 21.

  4B, the charge control IC 31 of the charger 3 determines whether or not the temperature of the battery 21 is equal to or higher than the charge limit temperature based on the voltage from the thermistor 21a input to the TH terminal 31a. SB1). If it is determined that the temperature of the battery 21 is equal to or higher than the charging limit temperature (step SB2: YES), the charging control IC 31 stops supplying charging power to the printer 2 (step SB2).

  In FIG. 4A, when the SOC 211 turns off the switch 212 and stops charging the battery 21, whether or not the temperature of the battery 21 is higher than the low temperature set temperature is determined based on the voltage output from the thermistor 21b. Discriminate (step SA3). When it is determined that the temperature of the battery 21 is equal to or lower than the low temperature setting temperature (step SA3: NO), the SOC 211 outputs a “Low” level CHG-EN signal from the I / O terminal 211b and turns on the switch 212. (Step SA4). On the other hand, when the SOC 211 determines that the temperature of the battery 21 is higher than the low temperature setting temperature (step SA3: YES), the SOC 211 determines whether or not a charging resumption condition is satisfied (step SA5).

  When the SOC 211 determines that the charge resumption condition is not satisfied (step SA5: NO), the SOC 211 returns the process to step SA5. On the other hand, when it is determined that the charging resumption condition is satisfied (step SA5: YES), the SOC 211 outputs a “Low” level CHG-EN signal and turns on the switch 212 (step SA6). Next, the SOC 211 outputs a chopper-controlled CHG-ON signal (step SA7). The output of the CHG-ON signal is performed for a predetermined period set in the timer 211d.

4A, when the supply of charging power is stopped, the charging control IC 31 acquires a signal indicating the temperature of the battery 21 from the thermistor 21a (step SB3). Next, when the acquired signal is a voltage at which the temperature of the battery 21 is equal to or lower than the low temperature set temperature (step SB4: YES), the charge control IC 31 restarts the supply of power for charging.
For example, the signal acquired by the charging control IC 31 in step SB3 is a signal after the timing ta shown in FIG. 3A when the SOC 211 determines that the charging resumption condition is satisfied. That is, since the voltage acquired by the TH terminal 31a is equal to or higher than the voltage value Vts, the charging control IC 31 determines that the temperature is 45 ° C. or lower in Step SB4 and restarts the supply of charging power.

  Thus, the charging system 1 stops the charging of the battery 21 when the temperature of the battery 21 is equal to or higher than the charging limit temperature by the SOC 211 and the charging control IC 31. When the charging resumption condition is satisfied by the SOC 211, the charging system 1 turns on the switch 212 and transmits a chopper-controlled CHG-ON signal. The voltage from the thermistor 21a controlled by the CHG-ON signal is a voltage that is not less than the voltage value Vts and less than the voltage value Vbt. Therefore, the charging control IC 31 can resume the supply of charging power. Further, as described above, the establishment of the charge resumption condition suggests that the battery 21 becomes insufficiently charged due to the printing operation. Thereby, the charging system 1 can control the charging in consideration of the printing operation. Therefore, the charging system 1 can efficiently control the charging of the battery 21 by the charger 3 by the SOC 211 provided in the printer 2.

As described above, the printer 2 according to the present embodiment controls the battery 21 (battery) charged by the charger 3, the printing unit 23 that receives power from the battery 21 and executes printing, and the printing unit 23. SOC 211 (control unit). The SOC 211 stops the charging of the battery 21 when the temperature of the battery 21 is equal to or higher than a preset charging control temperature, and when the charging restart condition for restarting charging is satisfied, An ON signal (control signal) is transmitted, and charging of the battery 21 by the charger 3 is resumed.
The SOC 211 stops the charging of the battery 21 when the temperature of the battery 21 is 47 ° C. or higher, and transmits a CHG-ON signal that causes the charger 3 to resume the charging of the battery 21 when the charging resumption condition is satisfied. Then, charging by the charger 3 is resumed. That is, the SOC 211 can control the charging of the battery 21 by the charger 3 in consideration of the printing operation. Therefore, the charging of the battery 21 by the charger 3 can be efficiently controlled by the SOC 211.

Further, the SOC 211 of the present embodiment controls the voltage indicating the temperature of the battery 21 acquired by the charger 3 by transmitting a CHG-ON signal to the charger 3 when the charging resumption condition is satisfied.
Thereby, a CHG-ON signal is output and the voltage is controlled as a result of the temperature acquired by the charging control IC 31 of the charger 3. Therefore, even when the temperature of the battery 21 does not drop to 45 ° C., for example, the charge control IC 31 can acquire the voltage indicating 45 ° C. or lower and can resume the charging of the battery 21.

Further, the SOC 211 of the present embodiment charges the charger 3 so that the temperature of the battery 21 does not reach the charging control temperature by transmitting a CHG-ON signal to the charger 3 when the charging resumption condition is satisfied. To do.
Thereby, since the temperature of the battery 21 acquired by the charging control IC 31 can be controlled to be lower than the charging control temperature, the charger 3 can be controlled so as not to stop the charging even when the charging of the battery 21 is resumed. it can.

In addition, the printer 2 of the present embodiment includes a switch 212 that switches supply of power from the charger 3 to the battery 21. The SOC 211 stops the supply of power to the battery 21 by the switch 212 when the temperature of the battery 21 is the charge control temperature, and supplies the power to the battery 21 by the switch 212 when the charging resumption condition is satisfied. Resume.
The SOC 211 detects the state of charge of the battery 21 and switches the supply of power to the battery 21 by the switch 212 according to the state of charge of the battery 21.
Thereby, even if the charger 3 malfunctions, the charging of the battery 21 can be controlled by controlling the switch 212. Further, since the charging state of the battery 21 is detected and the switch 212 is controlled, for example, appropriate charging such as stopping the supply of charging power to the battery 21 at the time of full charging can be performed.

In the present embodiment, the charge resumption condition is that the temperature of the battery 21 is higher than a low temperature set temperature set lower than the charge control temperature, and a period for stopping charging of the battery is set in advance. The condition includes at least one of elapse of a set period.
Thereby, it is possible to prevent the battery 21 from being insufficiently charged by providing the temperature of the battery 21 and the period during which the charging of the battery 21 is stopped as conditions for resuming the charging.

  The above-described embodiments merely show one aspect of the present invention, and can be arbitrarily modified and applied within the scope of the present invention.

  For example, in the above-described embodiment, the temperature at which charging is stopped is 47 ° C., and the temperature at which charging is restarted is 45. However, the embodiment is not limited to this. The temperature at which charging is stopped and the temperature at which charging is resumed may vary depending on the specifications of the battery 21. In this case, the SOC 211 and the charge control IC 31 perform charge control based on the temperature corresponding to the specification of the battery 21.

  Further, for example, the frequency and duty ratio of the chopper-controlled CHG-ON signal output from the SOC 211 from the I / O terminal 211c indicate a temperature range in which the signal input to the TH terminal 31a can charge the battery 21; As long as the signal is lower than the voltage value Vr so as not to be reset, it can be arbitrarily changed.

  Further, for example, in the above-described embodiment, the hardware configurations of the printer 2 and the charger 3 illustrated in FIG. 1 are merely examples, and the present invention is not limited to this. For example, hardware corresponding to each configuration of the printer 2 and the charger 3 does not need to be individually mounted, the SOC 211 may include each portion of the main circuit 22, and the charging control IC 31 may replace each portion of the charger 3. It may be a configuration that includes it. Moreover, you may implement | achieve a part of function implement | achieved by the hardware in embodiment mentioned above by software. In addition, specific detailed configurations of the other components of the printer 2 and the charger 3 can be arbitrarily changed without departing from the gist of the present invention.

  For example, in the above-described embodiment, the printing apparatus is exemplified as a thermal printer, but the present invention is not limited to this. For example, the present invention can be applied to other printers such as an ink jet printer, a dot impact printer, and a laser printer.

  DESCRIPTION OF SYMBOLS 1 ... Charging system, 2 ... Printer (printing apparatus), 3 ... Charger, 23 ... Printing part, 21 ... Battery (battery), 21a ... Thermistor, 21b ... Thermistor, 31 ... Charge control IC (charge control part) 211 ... SOC (control part), 212 ... switch.

Claims (9)

A battery charged by a charger;
A printing unit that receives power from the battery and executes printing;
A control unit for controlling the printing unit,
The controller is
When the temperature of the battery is equal to or higher than a preset charging control temperature, the charging of the battery is stopped,
When a charging resumption condition for resuming charging is satisfied, a control signal is transmitted to the charger, and charging of the battery by the charger is resumed.
A printing apparatus characterized by the above. The controller is
When the charge resumption condition is satisfied, the battery temperature acquired by the charger is controlled by transmitting the control signal to the charger.
The printing apparatus according to claim 1. The controller is
When the resumption condition is satisfied, the charger is charged so that the temperature of the battery does not reach the charge control temperature by transmitting the control signal to the charger.
The printing apparatus according to claim 2. A switch for switching power supply from the charger to the battery;
When the temperature of the battery is the charge control temperature, the control unit stops supplying power to the battery by the switch, and when the charge resumption condition is satisfied, Restart the supply of power,
The printing apparatus according to any one of claims 1 to 3. The controller is
Detecting the state of charge of the battery and switching the supply of power to the battery by the switch according to the state of charge of the battery;
The printing apparatus according to claim 4. The battery includes a thermistor,
The control unit acquires the temperature of the battery based on a voltage output from the thermistor.
The printing apparatus according to claim 1. The charge resumption condition is that the temperature of the battery is higher than a low temperature set temperature set lower than the charge control temperature, and a period during which charging of the battery is stopped is set in advance. Including at least one of elapses,
The printing apparatus according to claim 1. A control method for a printing apparatus comprising: a battery charged by a charger; a printing unit that receives power from the battery and executes printing; and a control unit that controls the printing unit,
If the temperature of the battery is a preset charging control temperature, stop charging the battery,
When a charging resumption condition that is a condition for resuming charging is satisfied, a control signal is transmitted to the charger, and charging of the battery by the charger is resumed;
A control method for a printing apparatus. A charger,
A printing apparatus comprising: a battery charged by the charger; a printing unit that receives power from the battery and executes printing; and a control unit that controls the printing unit;
The charger includes a charge control unit that controls charging of the battery,
When the temperature of the battery is the first temperature, the control unit stops charging the battery, and when a charge restart condition that is a condition for restarting charging is satisfied, a control signal is sent to the charger. Resuming charging of the battery by the charger,
Charging system characterized by

Images