JPS59136024A - Overdischarge preventng device - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an overdischarge prevention device that detects the discharge state of a rechargeable battery and protects the battery from overdischarge.

Conventionally, as shown in FIG. 1, the terminal voltage of the battery 1 decreases,
When the voltage divided by the resistors 2a and 2b becomes lower than the reference voltage created by the resistor 2c and the constant voltage diode 6, the output of the comparator 6 becomes low, current flows to the light emitting diode 8 via the resistor 2d, and the light emitting diode 8
was lit, indicating that the terminal voltage of battery 1 had decreased.

However, no matter how much the light emitting diode 8 lights up, when the switch 3 is turned on, current flows to the load 4, so the battery 1
will cause overdischarge. In particular, when a lead battery is used as the battery 1, repeated over-discharge will shorten the life of the battery 1.

The present invention solves the above-mentioned conventional problems.

The figure shows a circuit used in a bath foamer that generates bubbles in a liquid by immersing the device in a bath and driving a pump. In FIG. 2, in parallel with battery 9,
A series circuit of resistor 10, voltage regulator diode 11, and resistor 1
2, 13.14 series circuit and relay contact 15. The series circuits of the motors 16 are connected respectively. The cathode of a diode 17 is connected to the positive side of the battery 9, the anode of the diode 17 is connected to the collector of a transistor 18, and a relay coil 19 is connected in parallel with the diode 17. Further, one side of a series circuit of a switch 20° and a resistor 21 is connected to the glass terminal of the battery 9, the other side is connected to the base of a transistor 18, and the emitter of the transistor 18 is connected to the negative terminal of the battery 9.

The connecting point of resistors 12 and 13 is connected to the positive input of comparator 26, and the connecting point of resistors 13 and 14 is connected to the positive input of comparator 25, respectively. and constant voltage diode 11
0 cathode is connected to the negative input of comparator 25,26. A resistor 23 is connected to the output of the comparator 25, the other end of the resistor 23 is connected to a light emitting diode 240 cand, and the anode of the light emitting diode 24 is connected to the positive terminal of the battery 9. At this time, the light emitting diode 24 and the resistor 23 may be replaced.

Further, the output of the comparator 26 is connected to the base of the transistor 18. Note that the motor 16 is a load, the comparator 25 is a first detection section, and the light emitting diode 24.
The resistor 23 is a first control section, the comparator 26 is a second detection section, the transistor 18, the relay coil 19. Relay contact 15 constitutes a second control section.

The operation of a practical example of the present invention will be described below. When the terminal voltage of the battery 9 is high, the voltage of the comparator 25926 divided by the resistors 12, 13 and 14 (the comparator 25 whose positive input voltage is generated by the voltage regulator diode 11,
26, the outputs of comparators 25 and 26 are in an open state. Therefore,
When the switch 20 is closed, current flows through the resistor 21 to the base of the transistor 18, turning the transistor 18 ON.
I, current flows through relay coil 19 and relay contact 16
is closed, current flows through the motor 16, and the motor 16 starts rotating. When the terminal voltage of the battery 9 decreases, the positive input voltage of the comparator 26 becomes lower than the negative input voltage, so the output of the comparator 26 decreases and current flows to the light emitting diode 24 via the resistor 23. As a result, the light emitting diode 24 lights up, informing the user that the terminal voltage of the battery 9 has decreased, and prompting the user to charge it.

If the user ignores the lighting of the light emitting diode 240 and uses it further, the terminal voltage of the battery 9 will further decrease, the positive input voltage of the comparator 26 will become lower than the negative input voltage, and the output of the comparator 26 will become lower. To bypass the base current of transistor 18, transistor 1
8 is O'FF. This opens the series relay contact 15,
Current no longer flows to the motor 16. Therefore, no matter how much the switch 20 is closed, the motor 16 will not rotate and the battery 9 will not be over-discharged. Furthermore, when the terminal voltage of the battery 9 is low, even if the switch 20 is closed, the motor 16 will not rotate at all, so the user may mistake it for a malfunction, but since the light emitting diode 24 is not used in this circuit, Since the light emitting diode 24 is always lit when the voltage is low, the user can understand that the battery 9 does not operate because the terminal voltage is low.

Furthermore, the lighting level of the light emitting diode and the load cutoff level are determined by three resistors connected in series, so even if there are variations in parts, the lighting level and load cutoff level will be interchanged. There isn't.

Further, the terminal voltage of the battery 9 changes as shown in FIG.

Therefore, if the voltage for cutting off the load is set to A, the usage time will vary significantly due to variations in the batteries, etc., so it is appropriate to set the set voltage to B.

As described above, the overdischarge prevention device of the present invention can reliably prevent overdischarge of a battery by a simple means.
The effect is extremely large.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram of a conventional example, FIG. 2 is a circuit diagram showing an embodiment of the present invention, and FIG. 3 is a characteristic diagram showing discharge characteristics of a lead-acid battery. 9... Battery, 11... Constant voltage diode, 12-14... Resistor, 15... Relay contact, 16. Old... Motor, 18. ...Transistor, 19...Relay coil, 24...
...Light emitting diode, 25.26...Song/Comparator. Name of agent: Patent attorney Toshio Nakao and 1 other person No. 1
Figure 2 Figure 3 Time

Claims (1)

[Claims] The battery voltage is detected by connecting three resistors in series in parallel with the battery. An overdischarge prevention device characterized in that one connection point is used for controlling a display means, and the other connection point is used as a detection voltage for cutting off a load.