JP2006304572A - Charging device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a charging device where charging time can be brought close to a request of a user, while suppressing the temperature rise at the time of charging. <P>SOLUTION: The device is provided with an external part connection terminal T6 receiving a battery temperature signal transmitted from a temperature detection part 22, a time setting reception part 12 receiving input of charging setting time, a charging control part 134 setting charging current, supplied from the charging current output part 11 to a secondary battery 21 to be close to the current value of a range, becoming within the setting temperature range which has been set previously, and time until the secondary battery 21 is fully charged to be close to setting time received by the time setting receiving part 12, a charging completion time calculating part 135 calculating charging completion time, when the secondary battery 21 is fully charged by charging current which the charging control part 134 sets and a display part 15 displaying charging completion time, which the charging completion time calculation part 135 has calculated. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a charging device for charging a secondary battery.

  Conventionally, a remaining capacity detection circuit that detects the remaining capacity of the secondary battery and a timer circuit that allows the user to arbitrarily set the charging time are set in the timer circuit based on the remaining capacity of the secondary battery. By calculating the current value that can fully charge the secondary battery in the charging time and charging the secondary battery with that current value, the secondary battery is fully charged in the time according to the user's request There is known a charging device that can perform such a process (see, for example, Patent Document 1).

Further, when charging the secondary battery, when the charging current increases, the temperature rise of the secondary battery increases. Further, it is known that the cycle life of the secondary battery is shortened when the temperature exceeds a predetermined temperature and becomes high.
No. 08-007793

  By the way, in the charging device configured as described above, since the charging current is determined based on the remaining capacity of the secondary battery and the charging time set in the timer circuit, the remaining capacity of the secondary battery is small. When the charging time is short, the charging current increases, and the temperature rise of the secondary battery increases. As a result, the secondary battery becomes hot and the cycle life may be shortened.

  The present invention has been made in view of such a problem, and an object of the present invention is to provide a charging device that can bring a charging time closer to a user's request while suppressing a temperature rise during charging.

  In order to achieve the above object, a charging device according to the present invention is a charging device for charging a secondary battery, the charging current output unit supplying a charging current to the secondary battery, and the secondary battery A battery temperature signal receiving unit for receiving a battery temperature signal indicating the temperature of the secondary battery sent from a temperature detecting unit for detecting the temperature of the battery, and a set time which is a time for charging the secondary battery A time setting reception unit that receives the input of the charging current, and a charging current supplied from the charging current output unit to the secondary battery is set in advance as a temperature suitable for charging the secondary battery. A charge control unit configured to set a time value until the secondary battery is fully charged within a set temperature range within a set temperature range so as to approach the set time received by the time setting receiving unit; The charge control A charge completion time calculation unit for calculating a charge completion time for the secondary battery to be fully charged with the charging current set by the display, and a display unit for displaying the charge completion time calculated by the charge completion time calculation unit; It is characterized by having.

  Further, in the above-described charging device, the remaining capacity detection unit that detects the remaining capacity of the secondary battery, and the time setting reception unit that receives the remaining capacity of the secondary battery detected by the remaining capacity detection unit. A charge current calculation unit for calculating a full charge current capable of fully charging the secondary battery in a set time, and a temperature rise of the secondary battery when the secondary battery is charged with the full charge current. A temperature rise calculation unit to be calculated, and a temperature indicated by the battery temperature signal received by the battery temperature signal reception unit and a temperature rise calculated by the temperature rise calculation unit are added to charge at the full charge current A temperature prediction unit that predicts the temperature of the secondary battery, and the charge control unit is configured so that the predicted temperature predicted by the temperature prediction unit is within the set temperature range. The full charge current calculated by the charging current calculation unit is set as the charging current of the secondary battery in the charging current output unit, and when the temperature exceeds the set temperature range, the temperature of the secondary battery is the set temperature range. Is set as the charging current of the secondary battery in the charging current output unit, and when the temperature is less than the temperature range, the temperature of the secondary battery becomes the lower limit of the set temperature range. The current value is set as the charging current of the secondary battery in the charging current output unit.

  Moreover, in the above-described charging device, the time setting reception unit sets, as the set time, a time obtained by subtracting a time set in advance as a cooling time after charging the secondary battery from the time indicated by the time setting instruction. It is characterized by accepting.

  In the charging device having such a configuration, the battery temperature signal receiving unit receives the battery temperature signal indicating the temperature of the battery sent from the temperature detection unit attached to the secondary battery. In addition, an input of a set time for charging the secondary battery is accepted by the time setting accepting unit, and the charging current supplied from the charging current output unit to the secondary battery by the charging control unit is the temperature of the secondary battery. The current value is within a set temperature range set in advance as a temperature suitable for charging, and the time until the secondary battery is fully charged is made closer to the set time accepted by the time setting accepting unit. Thus, the charging time can be brought close to the user's request while suppressing the temperature rise during charging within the set temperature range.

  Then, the charge completion time calculation unit calculates the charge completion time when the secondary battery is fully charged with the charging current set by the charge control unit, and the charge completion time is displayed on the display unit. Is different from the time set by the user, the user can know the charging completion time.

  Embodiments according to the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram illustrating an example of a configuration of a charging device 1 according to an embodiment of the present invention and a battery block 2 connected to the charging device 1. The battery block 2 shown in FIG. 1 includes a secondary battery 21 and a temperature detection unit 22. The charging device 1 shown in FIG. 1 includes external connection terminals T1, T2, T3, T4, T5, T6, a charging current output unit 11, a time setting reception unit 12, a control unit 13, and a remaining capacity detection unit 14. The display unit 15 and the power supply circuit 16 are provided.

  The battery block 2 is a so-called battery pack that supplies electric power in combination with various electric devices such as an electric tool, a notebook personal computer, a camera-integrated video recorder, a digital camera, an electric shaver, and an electric toothbrush. In addition, the charging device 1 may be a charging device that can be directly attached to the secondary battery 21 instead of the battery block 2 and charges the secondary battery 21. In this case, the temperature detection unit 22 is charged. It is good also as a structure with which the apparatus 1 side is equipped.

  As the secondary battery 21, for example, a nickel hydrogen secondary battery, a lithium ion secondary battery, a nickel cadmium secondary battery, or the like is used. The temperature detection unit 22 is a temperature sensor such as a thermistor or a thermocouple, and is disposed in the vicinity of the secondary battery 21. The temperature detection unit 22 detects the temperature of the secondary battery 21 and generates a battery temperature signal St indicating the detected temperature. And output to the control unit 13 via the external connection terminal T6 (battery temperature signal receiving unit) included in the charging device 1.

  For example, a commercial AC power supply AC is connected to the outside of the charging device 1 via external connection terminals T1 and T2, and a power supply voltage output from the commercial AC power supply AC is supplied to the charging current output unit 11 and the power supply circuit 16. Has been.

  The charging current output unit 11 is a constant current power supply circuit that supplies a charging current to the secondary battery 21, converts the AC voltage supplied from the commercial AC power supply AC to DC, and charges according to a control signal from the control unit 13. The current is supplied to the secondary battery 21 provided in the battery block 2 via the external connection terminals T4 and T5.

  The power supply circuit 16 is a constant voltage power supply circuit that supplies a power supply voltage for operation to the temperature detection unit 22, and converts the AC voltage supplied from the commercial AC power supply AC into a DC voltage, and the temperature detection unit via the external connection terminal T3. 22 is supplied. The remaining capacity detector 14 detects the remaining capacity of the secondary battery 21 and is connected to the secondary battery 21 via the external connection terminal T4. For example, the remaining capacity detector 14 is connected to the secondary battery 21 based on the output voltage of the secondary battery 21. The remaining capacity of the battery 21 is calculated, and a signal Sb indicating the remaining capacity is output to the control unit 13.

  The time setting reception unit 12 is an operation unit for the user to set and input the time for charging the secondary battery 21. For example, a numeric key switch or a multi-contact rotary switch is used, and the time input by the user A setting instruction is received and output to the control unit 13. The display unit 15 is a display device that displays a charging completion time, a message, and the like in accordance with a control signal output from the control unit 13. For example, a liquid crystal display or an LED (Light Emitting Diode) is used.

  The control unit 13 temporarily records data, for example, a CPU (Central Processing Unit) that executes predetermined arithmetic processing, a ROM (Read Only Memory) that is a nonvolatile storage element in which a predetermined control program is recorded, and data. RAM (Random Access Memory), which is a volatile storage element, a setting time storage unit 130 that stores the setting time received by the time setting receiving unit 12, and a charging current value and the secondary battery 21 based on the current value And a data table storage unit 137 that stores in advance a data table in which the temperature increase value is associated with the data table.

  Then, when the CPU executes a control program stored in the ROM, a charging current calculation unit 131, a temperature rise calculation unit 132, a temperature prediction unit 133, a charge control unit 134, a charge completion time calculation unit 135, and a timer unit 136 are obtained. Function. Note that the timer unit 136 is not limited to a software timer realized by the CPU executing the control program, and may be configured using a hardware timer circuit.

  Next, the operation of the charging device 1 configured as described above will be described. FIG. 2 is a flowchart showing the operation of the charging apparatus 1 shown in FIG. First, a time setting instruction for setting a time for charging the secondary battery 21 by the user, for example, when the user wants to use the battery block 2 after 5 hours, the secondary battery is charged by the charging device 1 in 5 hours. A time setting instruction for charging 21 is received by the time setting receiving unit 12, and the set time Xt is stored in the set time storage unit 130 (step S1).

  Next, the output voltage of the secondary battery 21 is detected by the remaining capacity detection unit 14, the remaining capacity Cr (unit: Ah) of the secondary battery 21 is calculated based on the output voltage, and a signal indicating the remaining capacity Sb is output to the control unit 13 (step S2). Then, based on the remaining capacity Cr of the secondary battery 21 detected by the remaining capacity detection unit 14 by the charging current calculation unit 131, the secondary battery 21 is fully charged at the set time Xt stored in the set time storage unit 130. The full charge current Ic1 that can be calculated is calculated by the following equation (1), for example (step S3).

Ic1 = (Cf−Cr) / Xt (1)
However, Cf is the full charge capacity (unit: Ah) of the secondary battery 21.

  Next, the temperature TB of the secondary battery 21 is detected by the temperature detection unit 22, and a battery temperature signal St indicating the temperature TB is output to the temperature increase calculation unit 132, and the temperature increase calculation unit 132 determines the temperature of the secondary battery 21. TB is acquired (step S4). Next, the temperature increase value DT of the secondary battery 21 when the secondary battery 21 is charged with the full charge current Ic1 is calculated by the temperature increase calculation unit 132 (step S5). Specifically, for example, by referring to a data table stored in the data table storage unit 137, that is, a data table in which the charging current value and the temperature rise value of the secondary battery 21 are associated, the full charging current Ic1 Is obtained (step S5).

  Then, the predicted temperature TC of the secondary battery 21 when the secondary battery 21 is charged with the full charge current Ic1 is predicted by the temperature prediction unit 133 based on the following equation (2) (step S6).

TC = TB + DT (2)
Next, the predicted temperature TC is equal to or higher than the lower limit temperature Tmin set in advance as the lower limit value of the temperature suitable for charging the secondary battery 21 by the charge control unit 134, and suitable for charging the secondary battery 21. It is determined whether or not a preset temperature range equal to or lower than an upper limit temperature Tmax set in advance as an upper limit value of the detected temperature (step S7), and if within the preset temperature range (YES in step S7), the charging completion time The calculation unit 135 determines that the secondary battery 21 is fully charged after the set time Xt has elapsed, and the display unit 15 displays that the charging of the secondary battery 21 is complete after the set time Xt has elapsed (step S8).

  Next, the charging control unit 134 sets the output current value of the charging current output unit 11 to the full charging current Ic1, and the secondary battery 21 is charged with the full charging current Ic1 (step S9). Then, the timer unit 136 counts the set time Xt, and charging of the secondary battery 21 is continued until the set time Xt elapses (NO in step S10), while when the set time Xt elapses (in step S10). YES), the charging control unit 134 sets the output current value of the charging current output unit 11 to zero, the charging of the secondary battery 21 is completed (step S11), and the charging process ends.

  On the other hand, in step S7, when it is determined by the charge control unit 134 that the predicted temperature TC is not in the set temperature range not lower than the lower limit temperature Tmin and lower than the upper limit temperature Tmax (NO in step S7), When the temperature TC exceeds the upper limit temperature Tmax (YES in step S12), the charging completion time calculation unit 135 causes the charging current Imax at which the temperature of the secondary battery 21 becomes the upper limit temperature Tmax to be, for example, the data table storage unit 137. Is calculated by referring to a data table in which the charging current value stored in the battery and the temperature rise value of the secondary battery 21 are associated with each other. Then, the charging completion time calculation unit 135 calculates the charging time Xmax until the secondary battery 21 is fully charged when the charging current Imax is charged based on, for example, the following equation (3).

Xmax = (Cf−Cr) / Imax (3)
Then, the charging time Xmax calculated by the charging completion time calculating unit 135 is displayed on the display unit 15 as the charging completion time (step S13).

  Next, the charging control unit 134 sets the output current value of the charging current output unit 11 to the charging current Imax, and the secondary battery 21 is charged with the charging current Imax (step S14). Then, the charging time Xmax is measured by the timer unit 136, and charging of the secondary battery 21 is continued until the charging time Xmax elapses (NO in step S15), while when the charging time Xmax elapses (in step S15). YES), the charging control unit 134 sets the output current value of the charging current output unit 11 to zero, the charging of the secondary battery 21 is completed (step S11), and the charging process ends.

  On the other hand, if the charge control unit 134 determines in step S12 that the predicted temperature TC does not exceed the upper limit temperature Tmax (NO in step S12), that is, if the predicted temperature TC is less than the lower limit temperature Tmin, charging is completed. The charging current Imin at which the temperature of the secondary battery 21 becomes the lower limit temperature Tmin is correlated with the charging current value stored in the data table storage unit 137 and the temperature increase value of the secondary battery 21 by the time calculation unit 135, for example. The charge time Xmin calculated by referring to the data table and until the secondary battery 21 is charged with the charging current Imin until the fully charged state is calculated based on the following formula (4), for example.

Xmin = (Cf−Cr) / Imin (4)
Then, the charging time Xmin calculated by the charging completion time calculating unit 135 is displayed on the display unit 15 as the charging completion time (step S16).

  Next, the charging control unit 134 sets the output current value of the charging current output unit 11 to the charging current Imin, and the secondary battery 21 is charged with the charging current Imin (step S17). Then, the charging time Xmin is measured by the timer unit 136, and charging of the secondary battery 21 is continued until the charging time Xmin elapses (NO in step S18), while when the charging time Xmin elapses (in step S18). YES), the charging control unit 134 sets the output current value of the charging current output unit 11 to zero, the charging of the secondary battery 21 is completed (step S11), and the charging process ends.

  As described above, when the predicted temperature TC predicted by the temperature predicting unit 133 is equal to or higher than the lower limit temperature Tmin and lower than or equal to the upper limit temperature Tmax by the processes of steps S1 to S18, the full charge current Ic1 The secondary battery 21 is charged. In this case, while the temperature of the secondary battery 21 at the time of charging is set to a temperature range suitable for charging, the secondary battery 21 is fully charged at the set time set by the user using the time setting receiving unit 12 and the charging is completed. be able to.

  When the predicted temperature TC exceeds the upper limit temperature Tmax, the secondary battery 21 is charged with the charging current Imax. When the predicted temperature TC is less than the lower limit temperature Tmin, the secondary battery 21 is charged with the charging current Imin. In this case, it is possible to bring the charging time closer to the set time set by the user using the time setting receiving unit 12 while suppressing the temperature rise during charging.

  Further, since the charging completion time is displayed on the display unit 15, the user can know the charging completion time even when the charging time is different from the user's request.

  The time setting receiving unit 12 subtracts a time set in advance as a cooling time after charging the secondary battery 21 from the time indicated by the time setting instruction input by the user, for example, about 2 to 3 hours. The charging current calculation unit 131 may receive the set time Xt and calculate the full charge current Ic1 that can fully charge the secondary battery 21 with the set time Xt obtained by subtracting the cooling time. Alternatively, the charging current calculation unit 131 subtracts the time set in advance as the cooling time after charging the secondary battery 21 from the time indicated by the time setting instruction input by the user using the time setting reception unit 12. Based on this, the full charge current Ic1 may be calculated.

  Accordingly, the charging is completed earlier than the time indicated by the time setting instruction input by the user, that is, the time when the user intends to use the secondary battery 21, and the secondary battery 21 is used before the user uses the secondary battery 21. Can be kept cool.

  The secondary battery 21 is at a high temperature within a range not exceeding the upper limit temperature Tmax immediately after the completion of charging. Therefore, when the user starts using the secondary battery 21 immediately after the completion of charging, the temperature of the secondary battery 21 exceeds the upper limit temperature Tmax due to the temperature rise due to the discharge current, and the cycle life of the secondary battery 21 is reached. May be shortened. Therefore, as described above, by cooling the secondary battery 21 before the user uses the secondary battery 21, the temperature of the secondary battery 21 rises to the upper limit temperature Tmax due to the temperature rise due to the discharge current of the secondary battery 21. It can reduce exceeding.

It is a block diagram which shows an example of a structure with the charging device which concerns on one Embodiment of this invention, and the battery block connected to the charging device. It is a flowchart which shows operation | movement of the charging device shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Charger 2 Battery block 11 Charging current output part 12 Time setting reception part 13 Control part 14 Remaining capacity detection part 15 Display part 16 Power supply circuit 21 Secondary battery 22 Temperature detection part 130 Setting time memory | storage part 131 Charging current calculation part 132 Temperature Rise calculation unit 133 Temperature prediction unit 134 Charging control unit 135 Charging completion time calculation unit 136 Timer unit 137 Data table storage unit T1, T2, T3, T4, T5, T6 External connection terminal

Claims (3)

A charging device for charging a secondary battery,
A charging current output unit for supplying a charging current to the secondary battery;
A battery temperature signal receiving unit for receiving a battery temperature signal indicating the temperature of the secondary battery sent from a temperature detection unit for detecting the temperature of the secondary battery;
A time setting reception unit that receives an input of a setting time that is a time for charging the secondary battery;
The charging current supplied from the charging current output unit to the secondary battery is a range in which the temperature of the secondary battery falls within a preset temperature range that is preset as a temperature suitable for charging the secondary battery. A charge control unit that is a current value and sets the time until the secondary battery is fully charged to be close to the set time received by the time setting receiving unit;
A charge completion time calculation unit for calculating a charge completion time for the secondary battery to be fully charged according to a charging current set by the charge control unit;
And a display unit that displays the charge completion time calculated by the charge completion time calculation unit. A remaining capacity detection unit for detecting a remaining capacity of the secondary battery;
Based on the remaining capacity of the secondary battery detected by the remaining capacity detection unit, a charging current for calculating a full charge current that can fully charge the secondary battery in the set time received by the time setting reception unit A calculation unit;
A temperature rise calculation unit for calculating a temperature rise of the secondary battery when the secondary battery is charged with the full charge current;
Predicting the temperature of the secondary battery during charging with the full charge current by adding the temperature indicated by the battery temperature signal received by the battery temperature signal receiving unit and the temperature increase calculated by the temperature increase calculating unit A temperature prediction unit that
The charge controller is
When the predicted temperature predicted by the temperature prediction unit is within the set temperature range, the full charge current calculated by the charging current calculation unit is set as the charging current of the secondary battery in the charging current output unit. When the temperature exceeds the set temperature range, a current value at which the temperature of the secondary battery becomes an upper limit value of the set temperature range is set as the charge current of the secondary battery in the charge current output unit, and the temperature range The current value at which the temperature of the secondary battery becomes the lower limit value of the set temperature range is set as the charging current of the secondary battery in the charging current output unit when the temperature is less than Charging device. The time setting accepting unit accepts, as the set time, a time obtained by subtracting a time set in advance as a cooling time after charging the secondary battery from the time indicated by the time setting instruction. The charging device according to 1 or 2.

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