JPS62196026A - Over discharge protective device for lead storage battery - 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 [Field of Industrial Application] The present invention relates to an overdischarge prevention device for a lead storage battery used, for example, in a hand cleaner.

[Prior Art] FIG. 2 shows a general discharge circuit with a low voltage indicator of a spear capacitor used in a conventional hand cleaner. In Fig. 2, (1) is a capacitor, (2) is a motor as a load, (3) is a power switch, (4) is a low voltage display LED (hereinafter abbreviated as LED), (5)
is the resistor for limiting the power supply of the LED (4), (6) is the Zener diode, (7) is the resistor that allows current to flow through the Zener diode (6), (8) is the transistor, and (9) is the base resistor of the transistor (8). It is.

The motor (2) is connected to the lead capacitor (1) via the power switch (3), and the Zener diode (6) and resistor (7) connected in series are connected to both ends of the motor (2). ing.

In addition, the series-connected ED (4), resistor (5), and transistor (8) are connected to both ends of the capacitor (1),
The base resistor (9) of the transistor (8) is connected to the connection path between the Zener diode (6) and the resistor (7).

Note that since the present invention relates to overdischarge prevention of the lead capacitor (1), the charging circuit for the lead capacitor (1) is omitted in FIG.

Next, the motion 11[ will be explained. It is assumed that the capacitor (1) is charged, and when the power switch (3) is turned on, the motor (2) is supplied with power and rotates. Since the voltage of the early lead foil electric appliance (1) is higher than the Zener voltage of the Zener diode (6), the base current flows to the transistor (8), which is ONL and LED (4).
) lights up to indicate that the voltage is sufficient.

Next, if this usage continues, the voltage of the lead foil electrical appliance (1) will be consumed and drop, and that voltage will be transferred to the Zener diode (6).
), the base current stops flowing to the transistor (8) and the transistor becomes 0FFL.
, LED (4) goes out. This extinguishing of the light indicates that the voltage of the lead foil electric appliance (1) has decreased.

[Problems to be solved by the invention] Since the conventional discharge circuit is configured as described above, even if a low voltage is displayed, if the power switch is left on, the lead foil appliance will continue to be powered. There was a problem in that over-discharging could occur, which could cause malfunctions.

This invention was made to solve the above problems, and when the voltage of lead foil electric appliances drops below the specified value,
The object of the present invention is to obtain an overdischarge prevention device for lead foil electric appliances that prevents overdischarge by stopping power supply from the lead foil electric appliances to a load.

[Means for Solving the Problems 1] The overdischarge prevention device for lead foil electrical appliances according to the present invention connects the lead foil electrical appliances and a load via a transistor, and prevents the voltage of the lead foil electrical appliances from falling below a specified value. A low voltage detection circuit is provided at the base of the transistor, which makes the transistor non-conductive when the voltage drops.

Function 1 The lead foil electric appliance of this invention is connected to the load through a transistor, so when the voltage becomes low, the transistor becomes non-conductive and the power supply to the load is stopped, preventing over-discharge and reducing the cause of failure. do.

[Embodiment of the Invention] Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In Fig. 1, in which the same parts as in Fig. 2 are given the same reference numerals,
(10) is a Zener diode, (11) is a resistor that allows current to flow through the Zener diode (10), (12) is a transistor, and (13) is a base resistance of the transistor (12).

Then, the Zener diode (1
0) and the resistor (11) constitute a low voltage detection circuit, which is connected to the lead foil electric appliance (11) via the power switch (3). Also, the transistor (12) connects the motor (2) and the lead foil Connected between the negative terminals of the electric appliance (1) and its base resistance (
13) is the Zener diode (10) and the resistor (11).
) is connected to the connecting path.

Next, the operation will be explained. It is assumed that the lead foil electric appliance (1) is charged, and the power switch (3) is turned on. At this time, the voltage of the lead foil electric device (1) at the first 1tll is higher than the Zener voltage of the Zener diodes (6) and (10), and base current flows to the transistors (8) and (12), turning both transistors ON. Therefore, the LED (4) will light up to indicate that the voltage is sufficient and the motor (2) will be powered and rotate.

Next, as this usage continues, the voltage of the capacitor (1) decreases, and that voltage is transferred to the Zener diodes (6) and (10).
When the voltage is below, the base current stops flowing through the transistors (8) and (12), and both transistors become non-conductive.

Therefore, the LED (4) goes out to indicate that the voltage of the lead foil electric appliance (1) has decreased, and the motor (2) is no longer supplied with power and stops. Therefore, from now on, the power switch (3
) will prevent over-discharge of the lead foil electrical appliance (1).

[Effects of the Invention] As described above, according to the present invention, when the voltage of a lead-foil electric appliance drops below a specified value, the power supply to the load is automatically stopped even if the power switch is left on. Discharge is prevented and the cause of failure is removed. Therefore, it is particularly effective when a sliding type power switch that is easily left unattended is used as the power switch.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram showing an overdischarge prevention device for a lead capacitor according to an embodiment of the present invention, and FIG. 2 is a discharge circuit diagram of a conventional lead capacitor. In the figure, (1) is a capacitor, (2) is a load (motor), (12) is a transistor, and (10) and (11) are low voltage detection circuits (Zener diode, resistor). In addition, in the figures, the same reference numerals indicate the same or corresponding parts. Agent Patent attorney Masuo Oiwa (and 2 others) Figure 1 1: Suzu 11! Device 2: Motor 10: Zener diode 11: Resistor 12: Transistor

Claims (1)

[Claims] a transistor connected between a lead capacitor and a load; and a transistor connected to the base of the transistor, and when the voltage of the lead capacitor is above a specified value, the transistor is made conductive to supply power to the load, and the voltage of the lead capacitor is set to the specified value. An overdischarge prevention device for a lead accumulator, comprising a low voltage detection circuit that turns off the transistor and stops power supply to the load when the voltage falls below a certain value.