JPH0660911A - Battery device - Google Patents

Abstract

PURPOSE:To improve the display precision of the residual capacity of a battery with a simple structure. CONSTITUTION:The terminal voltage Vcc of a battery 2 is fed to display detectors 10-12 as the comparison voltage via a switch 13. When a check button is pushed to turn the switch 13 on at the time of no load, the display detectors 10-12 are set to the operational state, and the residual capacity judged with the terminal voltage Vcc is displayed by light emitting diodes 21-23. The output signal of a discharge detector 4 is fed to a timer circuit 25, and a signal kept at 'H' for the preset period from the time when a load is turned off is outputted from the timer circuit 25. When the switch 13 is turned on during this preset period, the diode 23 is blinked at the alarm blinking cycle. The diode 23 is blinked for warning at the alarm blinking cycle immediately after the load is turned off when the terminal voltage Vcc of the battery 2 is unstable, a user can recognize that the display of the residual capacity at this time may be possibly inaccurate, and the display precision of the residual capacity can be improved with a simple structure.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a battery device for detecting the terminal voltage of a battery and displaying the remaining capacity.

[0002]

2. Description of the Related Art Conventionally, various battery devices capable of displaying the remaining capacity of a battery have been proposed. In this case, as a method of determining the remaining capacity of the battery, there are a current integrating method of making a determination based on an integrated value of the discharge current of the battery and a voltage detecting method of making a determination based on a terminal voltage of the battery.

[0003]

According to the current integration method, the remaining capacity can be displayed with high accuracy at any time, but there is a problem that the circuit configuration becomes complicated. On the other hand, according to the voltage detection method, the circuit configuration can be made relatively simpler than that of the current integration method, but the voltage is considerably different immediately after the load is turned off and after a predetermined time, and the accuracy of the remaining capacity display is improved. There is a problem that it is hard to come out.

There is also a minimum hold system as a voltage detection system. That is, the terminal voltage of the battery when the load is off is held, and the remaining capacity is determined by the voltage. According to this method, the remaining capacity of the battery can be displayed accurately even immediately after the load is turned off, but a memory is required to hold the terminal voltage of the battery, and when the battery is a secondary battery, it must be recharged. There is a problem that a reset circuit for resetting the memory is required and the circuit becomes complicated.

Therefore, the present invention provides a battery device capable of improving the display accuracy of the remaining capacity of the battery with a simple structure.

[0006]

SUMMARY OF THE INVENTION The present invention relates to a battery device for detecting the terminal voltage of a battery and displaying the remaining capacity, and a load detecting means for detecting a change from a load state to a no load state, and a warning means. The warning unit warns the user for a predetermined time after the load detection unit detects that the load has changed to a non-loaded state.

[0007]

According to the present invention, since the warning means gives a warning immediately after the load is turned off when the terminal voltage of the battery becomes unstable, the user can recognize that the display of the remaining capacity at that time may be inaccurate. . As a result, it is possible to improve the display accuracy of the remaining capacity of the battery with a simple configuration in which the load detection means and the warning means are added.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIG.

In the figure, a series circuit of a battery 2 and a detection resistor 3 is connected between terminals 1a and 1b. The connection point between the battery 2 and the resistor 3 is grounded. The battery 2 is, for example, nickel cadmium (N
i-Cd) A storage battery. Between terminals 1a and 1b,
The load or charger is connected.

The terminal 1b is connected to the discharge detector 4 and the charge detector 5. When a load is connected between the terminals 1a and 1b and the battery 2 is in a discharged state, a positive voltage is obtained at the terminal 1b, so that the discharge detector 4 outputs a high level “H” signal. On the other hand, when the battery is charged by connecting the charger between the terminals 1a and 1b, a negative voltage is obtained at the terminal 1b, so that the charge detector 5 outputs a high level “H” signal. .

The output signal of the discharge detector 4 is supplied to the voltage corrector 8 via the resistor 6, and the output signal of the charge detector 5 is supplied to the voltage corrector 8 via the resistor 7. And
The voltage obtained at the terminal 1a, that is, the terminal voltage Vcc of the battery 2 is supplied to the voltage corrector 8. The terminal voltage Vcc of the battery 2 is lower during discharging and higher during charging than when left unattended.

At the time of discharging and charging, the voltage corrector 8 corrects the terminal voltage Vcc of the battery 2 to be equal to that at the time of leaving. The corrected voltage Vcc ^* output from the voltage corrector 8 during discharging and charging is the diode 9
Is supplied as a voltage to be compared to the display detectors 10 to 12 via. Further, the terminal voltage Vcc of the battery 2 is supplied to the display detectors 10 to 1 through the switch 13 and the diode 14.
2 is supplied as a compared voltage and is also supplied as an operation control signal.

Although FIG. 2 shows the battery 2 itself or a storage case for the battery 2, light emitting diodes 21 to 23 as display elements and a check button 24 are provided. The switch 13 described above is turned on by pressing the check button 24.

The terminal voltage Vcc of the battery 2 is supplied to the constant voltage circuit 18. The constant voltage output from the constant voltage circuit 18 is supplied to the display detectors 10 to 12 as a reference voltage.

The output signal of the charge detector 5 is supplied to the display detectors 10 to 12 as an operation control signal via the resistor 7. In addition, the voltage V output from the voltage corrector 8
cc ^* and the constant voltage output from the constant voltage circuit 18 are supplied to the comparator 15, which outputs a high level “H” signal when the voltage Vcc ^* is less than or equal to a predetermined voltage, for example, 5.9V or less. Is output. The output signal of the comparator 15 is supplied to one input terminal of the AND circuit 16, and the output signal of the discharge detector 4 is supplied to the other input terminal of the AND circuit 16 via the resistor 6. The output signal of 16 is supplied to the display detector 12 as an operation control signal.

The display detectors 10 to 12 are configured to operate when any one of the operation control signals becomes high level "H". That is, the display detectors 10 to 12 are in the operating state when the battery 2 is charged and the switch 13 is turned on (when the check button 24 is pressed). Further, the display detector 12 is configured to detect the voltage Vcc when the battery 2 is discharged.
^{When *} is 5.9V or less, it becomes the operating state.

The detection output of the display detector 10 controls the light emitting diode 21, the detection output of the display detector 11 controls the light emitting diode 22, and the detection output of the display detector 12 controls the light emitting diode 23 via the oscillator 17. Is controlled. That is, the display detectors 10 to 10
When the compared voltage (Vcc or Vcc ^* ) supplied to 12 is 5.9V or less, the light emitting diode 23 is made to blink, and when it is larger than 5.9V and smaller than 6.1V, the light emitting diodes 22 and 23 are Is made to glow,
When the voltage is 6.1 V or more, all the light emitting diodes 21 to 23 emit light. Battery 2
It is assumed that five Ni-Cd storage batteries (nominal voltage 1.2V) are connected in series.

The discharge detector 4, the charge detector 5, the display detectors 10 to 12, the comparator 15, the oscillator 17, and the light emitting diodes 21 to 23 have the terminal voltage of the battery 2 at Vcc.
Is supplied.

In the above configuration, the terminals 1a and 1b
When a charger is connected between them and the battery 2 is in a charging state, the display detectors 10 to 12 are in an operating state, and the light emitting diodes 21 to 12 are in accordance with the corrected voltage Vcc ^* output from the voltage corrector 8. Since the light emission control of 23 is performed, the charge state of the battery 2 can be known.

Further, when a load is connected between the terminals 1a and 1b and the battery 2 is in a discharged state, when the corrected voltage Vcc ^* output from the voltage corrector 8 becomes 5.9 V or less, the display detector. 12, the light emitting diode 23 blinks.

Further, when the switch 13 is turned on (pressing the check button 24) while the charger and the load are not connected between the terminals 1a and 1b, the display detectors 10 to 12 are activated and the terminals of the battery 2 are connected. Since the light emitting diodes 21 to 23 are controlled to emit light according to the voltage Vcc, the state of the battery 2 (charged state or discharged state) can be known.

Further, in this example, the output signal of the discharge detector 4 is supplied to the timer circuit 25. As described above, the discharge detector 4 outputs a high level “H” signal when the load is connected between the terminals 1a and 1b and the battery 2 is in the discharged state. From the timer circuit 25,
When the output signal of the discharge detector 4 changes from the high level "H" to the low level "L", that is, from the time when the load changes to the time when there is no load (the load is off), the high level "H" is maintained for a predetermined time. The signal is output. This predetermined time is set to be, for example, 30 minutes, which is sufficient for the terminal voltage Vcc of the battery 2 to stabilize after the load changes from no load.

The output signal of the timer circuit 25 is supplied to the display detector 12 and the oscillator 17 as a control signal. In this case, when the display detector 12 is in the operating state and the high level “H” signal is supplied from the timer circuit 25,
The oscillator 17 is set in an oscillating state and the light emitting diode 23 is controlled to blink. Then, in this case, the oscillation time constant of the oscillator 17 is changed. As described above, the light emitting diode 23 blinks even when the compared voltage (Vcc or Vcc ^* ) becomes 5.9 V or less at the time of discharging, charging, or turning on the switch 13, but a blinking cycle different from that blinking cycle ( Warning blinking period), and it is made clear that the warning is displayed.

In the above configuration, the timer circuit 25 outputs a high level "H" signal for a predetermined time from the time when the load changes to the time when the load is not applied (when the load is off). When the switch 13 is turned on (the check button 24 is pressed) during that time, the light emitting diode 23 blinks in the warning blinking cycle. Thus, the battery terminal voltage V
Immediately after the load is turned off, cc becomes unstable.
Blinks in the warning blinking cycle to give a warning, so that the user can recognize that the display of the remaining capacity at that time may be inaccurate. Therefore, the display accuracy of the remaining capacity of the battery 2 can be improved with a simple configuration.

In the above embodiment, the display detector 12 for displaying the state of the battery 2 and the oscillator 17 are provided.
Although the light emitting diode 23 and the light emitting diode 23 are also used for warning display, a display means for warning display may be separately provided. Further, in the above embodiment, the switch 13 (check button 24) is also used for displaying the warning, but a dedicated switch (check button) for displaying the warning may be provided.

Further, in the above-mentioned embodiment, the light emitting diode 23 is made to blink in the warning blinking cycle to give a warning display, but instead of this, the display detectors 10 to 12, the power sources of the light emitting diodes 21 to 23, etc. Can be turned off and a warning can be issued as a non-displayable state. Further, although the warning is visually displayed in the above-mentioned embodiment, the warning sound may be generated when the check button is pressed.

Further, in the above-mentioned embodiment, the example in which the battery 2 is the Ni-Cd storage battery is shown, but the present invention can be similarly applied to the battery 2 which is other secondary battery or primary battery. You can

[0028]

According to the present invention, the warning means warns the user immediately after the load is turned off when the terminal voltage of the battery becomes unstable, so that the user may be inaccurate in displaying the remaining capacity at that time. Can be recognized. As a result, it is possible to improve the display accuracy of the remaining capacity of the battery with a simple configuration in which the load detection means and the warning means are added.

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention.

FIG. 2 is a diagram showing an appearance of a battery body or a storage case thereof.

[Explanation of symbols]

 1a, 1b Terminal 2 Battery 3 Detection resistor 4 Discharge detector 5 Charge detector 8 Voltage corrector 10-12 Display detector 13 Switch 15 Comparator 16 AND circuit 17 Oscillator 18 Constant voltage circuit 21-23 Light emitting diode 24 Check Button 25 timer circuit

Claims (4)

[Claims] 1. A battery device for displaying a remaining capacity by detecting a terminal voltage of a battery, comprising: load detecting means for detecting a change from a load state to a no-load state; and a warning means. A battery device, wherein the warning means gives a warning for a predetermined time after a change from a load to a no load is detected. 2. The battery device according to claim 1, wherein a check button is provided and the warning means is activated when the check button is pressed. 3. The battery device according to claim 2, wherein the check button is also used as a check button for displaying the remaining capacity of the battery. 4. The warning means also serves as display means for displaying the remaining capacity of the battery, and at the time of warning display, the cycle of the oscillator for the blinking display is different from that at the time of remaining capacity display. The battery device according to claim 1, wherein: