JPH08191502A - Battery-residual-capacity display device of motor-driven vehicle - Google Patents

Abstract

PURPOSE: To provide a battery-residual-capacity display device whose convenience is enhanced by eliminating a waste of time by a method wherein, immediately after a main switch has been closed, a residual capacity is displayed in such a way that it is a quantity which must be charged even if a running operation can be performed. CONSTITUTION: A battery-residual-capacity display device 10 is provided with a main switch 12 which connects a battery B to a load L or which opens them, with a means 14 which detects the residual capacity Wb of the battery B and with a means 16 which displays the detected residual capacity Wb. The residual- capacity display means 16 displays a state that, immediately after the main switch 12 has been closed, the residual capacity Wb is a quantity which must be charged even if a running operation can be performed. Thereby, it is possible to avoid a situation that, immediately after a running operation has been started, a vehicle turns back so as to perform a charging operation, a waste of time can be eliminated, and the convenience of the battery-residual-capacity display device can be enhanced.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric vehicle such as an electric bicycle, an electric motorcycle, an electric vehicle, etc., which is driven by a motor driven by the electric power of a battery, to notify a driver of the remaining capacity of the battery The present invention relates to a remaining capacity display device.

[0002]

2. Description of the Related Art A conventional battery remaining capacity display device includes a main switch for connecting or disconnecting a battery and a load,
When the main switch is closed, the remaining capacity detecting means for detecting the remaining capacity of the battery and the remaining capacity displaying means for displaying the remaining capacity detected by the remaining capacity detecting means are provided.

The remaining capacity display means has the following functions.

Immediately after the main switch is closed, if the remaining capacity is such that the vehicle can run, the pilot lamp is lit for 3 seconds and then turned off (travel ready display). Immediately after the main switch is closed, if the remaining capacity is an amount that requires charging, the pilot lamp continues to be turned on (charging display before traveling). While the electric vehicle is running, when the remaining capacity decreases to the amount that requires charging, the pilot lamp continues to blink (charging display during running).

[0005]

However, the conventional battery remaining capacity display device has the following problems.

When the vehicle started to travel with peace of mind because it was a "runnable display," there was a case where the "in-running charge display" soon appeared, and the user had to turn back to charge the battery. When I tried to go out for an urgent business, the "charge display before traveling" appeared and sometimes I had to rush to charge. In these cases, time is wasted and it is inconvenient.

[0007]

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a battery remaining capacity calculation device for an electric vehicle, which has improved convenience by eliminating waste of time.

[0008]

According to another aspect of the present invention, there is provided a battery remaining capacity display device, which comprises a main switch for connecting or disconnecting a battery and a load, and a remaining capacity of the battery when the main switch is closed. It is provided with a remaining capacity detecting means for detecting and a remaining capacity displaying means for displaying the remaining capacity detected by the remaining capacity detecting means.
Further, immediately after the main switch is closed, the remaining capacity display means of the battery remaining capacity display device according to claim 1 indicates that the remaining capacity is an amount that requires charging even if the remaining capacity can run. Has the function of displaying. Further, the remaining capacity display means of the battery remaining capacity display device according to claim 2 has a function of displaying the remaining capacity according to the value thereof.

According to another aspect of the present invention, there is provided a battery remaining capacity display device, which comprises a main switch for connecting or disconnecting a battery and a load, and a remaining capacity detecting means for detecting the remaining capacity of the battery when the main switch is opened. The remaining capacity display means for displaying the remaining capacity detected by the remaining capacity detection means.

[0010]

The operation of the battery remaining capacity display device according to claim 1 is as follows. When the main switch is closed, the battery and the load are connected, the remaining capacity of the battery is detected by the remaining capacity detection means, and the remaining capacity is displayed by the remaining capacity display means. At this time, the remaining capacity display means displays, immediately after the main switch is closed, that the remaining capacity is an amount that needs to be charged even if the remaining capacity can be traveled.

The operation of the battery remaining capacity display device according to claim 2 is as follows. When the main switch is closed, the battery and the load are connected, the remaining capacity of the battery is detected by the remaining capacity detection means, and the remaining capacity is displayed by the remaining capacity display means. At this time, the remaining capacity display means displays the remaining capacity according to the value thereof after the main switch is closed (that is, during traveling).

The operation of the battery remaining capacity display device according to claim 3 is as follows. When the main switch is opened, the battery and the load are released, the remaining capacity of the battery is detected by the remaining capacity detection means, and the remaining capacity is displayed by the remaining capacity display means.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a circuit diagram showing an embodiment of a battery remaining capacity calculating apparatus according to the present invention. Hereinafter, description will be given with reference to this drawing.

The battery remaining capacity display device 10 includes a main switch 12 for connecting or disconnecting the battery B and the load L.
And a remaining capacity detecting means 14 for detecting the remaining capacity Wb of the battery B when the main switch 12 is closed or opened.
And a remaining capacity display means 16 for displaying the remaining capacity Wb detected by the remaining capacity detection means 14.
The remaining capacity display means 16 has the following functions. Immediately after the main switch 12 is closed, it is displayed that the remaining capacity Wb needs to be charged even though the remaining capacity Wb can run. After the main switch 12 is closed (that is, while traveling), the remaining capacity Wb is displayed according to the value. Immediately after the main switch 12 is opened, the remaining capacity Wb is displayed.

The remaining capacity detecting means 14 outputs the output current Iout.
Current detection coil 141 that generates a voltage corresponding to the voltage and an amplifier 142 that amplifies the output voltage of the current detection coil 141.
And A / which converts the analog value output from the amplifier 142 into a digital value and outputs the digital value to the microcomputer 20.
It is composed of the D converter 143 and a part of the functions of the microcomputer 20. The microcomputer 20 obtains the remaining capacity Wb by subtracting the value [Ah] obtained by integrating the output current Iout with time from the remaining capacity Wb ₀ when the battery B is charged.

The remaining capacity display means 16 includes a microcomputer 20, a delay circuit 22, a DC constant voltage power supply circuit 24,
It is composed of the display circuit 26 and the like.

The delay circuit 22 includes a main switch detecting section 30 for detecting a closed circuit or an open circuit of the main switch 12, a power supply circuit switch section 32 for applying the output voltage Vout of the battery B to the DC constant voltage power supply circuit 24, and a power supply. The circuit switch unit 32 includes a closed state holding unit 34 that holds the closed state of the circuit switch unit 32.

The main switch detection unit 30 has an NPN transistor 301 whose emitter is grounded, a resistor 302 connected to the base of the transistor 301, and a resistor 303 connected to the collector of the transistor 301.
And a resistor 304 connected between the base and emitter of the transistor 301. Resistor 302
Is connected between the main switch 12 and the load L, the resistor 303 is connected to the power supply voltage Vcc, and the transistor 30 is connected.
The collector of 1 is connected to the microcomputer 20. With this configuration, when the main switch 12 is closed, the transistor 301 is turned on, and an'L 'level signal is output to the microcomputer 20. On the contrary, when the main switch 12 is opened, the transistor 301 is turned off, and the'H 'level signal is output to the microcomputer 20.

The power circuit switch 32 is a PNP for connecting or disconnecting the DC constant voltage power circuit 24 and the battery B.
Type power transistor 321 and a resistor 322 connected between the base and emitter of the power transistor 321
And a resistor 323 connected to the base of the power transistor 321, and an NPN-type transistor 3 having a collector connected to the resistor 323 and an emitter grounded.
24, a resistor 325 connected between the base and the emitter of the transistor 324, a resistor 326 connected to the base of the transistor 324, and a backflow prevention resistor connected between the resistor 326 and the main switch 12. It is composed of a diode 327. With this configuration, when the main switch 12 is closed, the transistor 324 is turned on and the power transistor 321 is also turned on.
The DC constant voltage power supply circuit 24 and the battery B are connected.
On the contrary, when the main switch 12 is opened, the transistor 324 is turned off and the power transistor 321 is also turned off without considering the closed state holding unit 34, and the DC constant voltage power supply circuit 24 and the battery B are opened. It

The closed state holding unit 34 includes a PNP type transistor 341, a resistor 342 connected between the base and emitter of the transistor 341, and a transistor 341.
Resistor 343 connected to the base of
Backflow prevention diode 3 connected to the collector of 41
And 44. The power supply voltage Vcc is connected to the emitter of the transistor 341, the microcomputer 20 is connected to the resistor 343, and the diode 344 is connected.
A resistor 326 is connected to. With this configuration,
When the'L 'level signal is output from the microcomputer 20, the transistor 341 is turned on and the power supply voltage Vcc is applied to the base of the transistor 324, so the transistor 324 is turned on and the power transistor 3 is turned on.
21 is also turned on, and the DC constant voltage power supply circuit 24 and the battery B are connected. On the contrary, the microcomputer 20
When an'H 'level signal is output from the transistor 341, the transistor 341 is turned off and the power supply voltage Vcc changes to the transistor 32.
4 is no longer applied to the base, so main switch 12
If the above is not taken into consideration, the transistor 324 is turned off, the power transistor 321 is also turned off, and the DC constant voltage power supply circuit 24 and the battery B are opened.

Although not shown, the DC constant voltage power supply circuit 24 is a general one composed of a so-called three-terminal regulator IC and its external parts, and reduces the output voltage Vout of the battery B to reduce the power supply voltage Vcc. To get

The display circuit 26 is connected to a light emitting diode 261 as a pilot lamp, a transistor 262 for driving the light emitting diode, a current limiting resistor 263 connected to the light emitting diode 261, and a base of the transistor 262. And a resistor 264 for limiting current. The microcomputer 20 is connected to the resistor 264. With this configuration, when the'H 'level signal is output from the microcomputer 20,
The transistor 262 turns on and the light emitting diode 26
1 lights up. On the contrary, when the “L” level signal is output from the microcomputer 20, the transistor 26
2 is turned off, and the light emitting diode 261 is turned off.

The load L is a traveling motor, a motor drive circuit, another control device, or the like.

2 to 4 are time charts showing the operation of the remaining capacity display device 10, FIG. 2 is immediately after the main switch 12 is closed, and FIG. 3 is the main switch 1.
2 is closed (while running), and FIG. 4 is immediately after the main switch 12 is opened. Hereinafter, FIGS.
The operation of the battery remaining capacity display device 10 will be described based on FIG.

When the main switch 12 is closed (see FIG. 2)
(A)), the battery B and the load L are connected, and the remaining capacity display device 10 is turned on (see FIG. 2).
(B)), the remaining capacity Wb of the battery B is detected by the remaining capacity detection means 14, and the remaining capacity Wb is displayed as the remaining capacity display means 1
Displayed at 6. At this time, the microcomputer 20
Outputs four kinds of display signals to the display circuit 26 according to the value of the remaining capacity Wb by the built-in timer function.
That is, when the value of the remaining capacity Wb is large, the light emitting diode 261 is kept on for a long time t _{1 and then is} turned off (FIG. 2C, large remaining capacity display). When the value of the remaining capacity Wb is medium, then lit twice continue emitting diode 261 in a short time t _2, a long time t ₃ off, turned twice in succession once again a short time t ₂ (FIG. 2 (d) Indication of remaining capacity). When the value of the remaining capacity Wb is small, the light emitting diode 261 after the lights once in a short time t _2, a long time t ₄ off, turned once again with a short time t ₂ (FIG. 2 (e) the remaining capacity Small display). When the value of the remaining capacity Wb is extremely small, the light emitting diode 261 is kept on (Fig. 2 (f) charge required display).

Here, the "remaining capacity small display" means that the remaining capacity is an amount that requires charging even if the remaining capacity can be traveled. Therefore, if the "remaining capacity small display" is set, it is possible to avoid a situation in which the vehicle is charged back before starting to run and then immediately returned to charge.

Next, it is assumed that the "remaining capacity large display" or "remaining capacity medium display" is displayed immediately after the main switch 12 is closed. Therefore, when the electric vehicle starts traveling, the remaining capacity gradually decreases. At this time, the "remaining capacity small display" is displayed before the "charge required display" is not suddenly displayed.
That is, the "remaining capacity small display" is performed at the time ta shown in FIG. 3, and the "charge required display" is displayed at the time tb when the remaining capacity further decreases. Therefore, an appropriate measure can be taken by changing the schedule when the "remaining capacity small display" is displayed.

When the main switch 12 is opened (see FIG.
(A)) While the battery B and the load L are opened, a signal of'H 'level is output from the main switch detection unit 30 to the microcomputer 20. Then, the microcomputer 20 outputs an “H” level signal to the closed state holding unit 34 after the time t _{1 has} elapsed. As a result, the power supply circuit switch unit 32 opens the DC constant voltage power supply circuit 24 and the battery B. That is, the remaining capacity display device 10 remains on for a certain period of time t ₁ even after the main switch 12 is opened (FIG. 4B).
Therefore, at time t ₁ , the remaining capacity Wb of the battery B is detected by the remaining capacity detection means 14, and the remaining capacity Wb
Is displayed on the remaining capacity display means 16. At this time, the microcomputer 20 outputs four kinds of display signals to the display circuit 26 according to the value of the remaining capacity Wb. Figure 4 (C)
Large remaining capacity display, Fig. 4 (d) Medium capacity display, and Fig. 4
(E) The small display of the remaining capacity is the same as that in FIGS. When the value of the remaining capacity Wb is extremely small, the light emitting diode 261 is not turned on (charging required display in FIG. 4F).

Since the driver's attention is directed to the surroundings while the electric vehicle is traveling, the driver may overlook the display of the remaining capacity Wb. However, since the electric vehicle is completely stopped after the main switch 12 is opened, the driver's attention naturally goes to the display of the remaining capacity Wb. Therefore, it is possible to take appropriate measures such as charging in advance for the next run.

Needless to say, the present invention is not limited to the above embodiment. For example, the remaining capacity display unit 16 does not need to have all the functions of the above-mentioned, and may have any one or two of the above-mentioned functions.

[0031]

According to the battery remaining capacity display device of the first aspect, immediately after the main switch is closed, it is displayed that the remaining capacity is the amount that needs to be charged even though the remaining capacity can be traveled. Therefore, by charging the battery before traveling, it is possible to avoid a situation in which the vehicle starts traveling and then immediately returns to be charged. Therefore, it is possible to improve convenience by eliminating waste of time.

According to the battery remaining capacity display device of the second aspect, the remaining capacity is displayed according to the value while the electric vehicle is running. Therefore, it is necessary to take appropriate measures before charging becomes necessary. As a result, it is possible to avoid a situation in which the user suddenly needs to be charged and is confused. Therefore, it is possible to improve convenience by eliminating waste of time and troublesome labor.

According to the battery remaining capacity display device of the third aspect, the remaining capacity is displayed after the main switch is opened. It is possible to avoid the situation of charging at a busy time. Therefore, convenience can be improved by effectively using the time.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing an embodiment of a battery remaining capacity display device according to the present invention.

FIG. 2 is a time chart showing an operation of the battery remaining capacity display device of FIG.

FIG. 3 is a time chart showing the operation of the battery remaining capacity display device of FIG.

FIG. 4 is a time chart showing the operation of the battery remaining capacity display device of FIG.

[Explanation of symbols]

 10 Battery Remaining Capacity Display Device 12 Main Switch 14 Remaining Capacity Detection Means 16 Remaining Capacity Display Means B Battery L Load Wb Battery Remaining Capacity

Claims (3)

[Claims] 1. A main switch for connecting or disconnecting a battery and a load, and a remaining capacity detecting means for detecting a remaining capacity of the battery when the main switch is closed.
In a battery remaining capacity display device for an electric vehicle, which comprises a remaining capacity display means for displaying the remaining capacity detected by the remaining capacity detection means, wherein the remaining capacity display means is capable of running the remaining capacity. A battery remaining capacity display device for an electric vehicle, having a function of displaying that the amount required to be charged is displayed immediately after the main switch is closed. 2. A main switch for connecting or disconnecting a battery and a load, and a remaining capacity detecting means for detecting a remaining capacity of the battery when the main switch is closed.
In a battery remaining capacity display device for an electric vehicle, which comprises a remaining capacity display means for displaying the remaining capacity detected by the remaining capacity detection means, wherein the remaining capacity display means displays the remaining capacity according to its value. A battery remaining capacity display device for an electric vehicle having a function of: 3. A main switch for connecting or disconnecting a battery and a load, and a remaining capacity detecting means for detecting a remaining capacity of the battery when the main switch is opened.
A battery remaining capacity display device for an electric vehicle, comprising: a remaining capacity displaying means for displaying the remaining capacity detected by the remaining capacity detecting means.