JPS59104572A - Quality discriminating device of storage battery - Google Patents

Abstract

PURPOSE:To enable quality discrimination of a storage battery correctly by detecting the presence or absence of output of a charging power source, and performing switching of a voltage measuring circuit of a storage battery and a charging current measuring circuit automatically by a relay or an electronic switching circuit. CONSTITUTION:Normally, the circuit between contacts 10a, 10b is closed, and a voltage measuring circuit consisting of closed circuit of a storage battery 1, a resistance 3 and a meter 4 is formed. When a charging power source 7 is in action, a relay 10 operates and relay contacts 10a, 10b are opened and a charging current measuring circuit consisting of a resistance 9, a current detecting resistance 8 and the meter 4 is formed. Accordingly, in this invention, when the storage battery 1 is connected to connecting terminals (a), (b), the open circuit voltage is immediately measured and displayed, and when a load change-over switch 6 is set to 6b side, the closing voltage is measured. The charging current is displayed automatically by operating the charging power source 7.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a device for determining the quality of a storage battery by detecting the open-circuit voltage, the closed-circuit voltage, and the charging current of the storage battery as an object to be inspected. The structure and problems thereof A conventional pass/fail determining device of this type will be explained with reference to FIG. A storage battery 1, which is an object to be inspected, has a connection terminal a1, a changeover switch 2 between a voltage measurement circuit and a charging current measurement circuit, and a resistor 3.
, meter 4, and connection terminals. A load resistor 5 for measuring closed circuit voltage is connected between the connection terminals a and b via a load changeover switch 6. Furthermore, one end of the charging power source section 7 is connected to the closing contact 6N of the load changeover switch 6, and the other end is connected to the connection terminal via a current detection resistor 8, and is connected to the resistor 3 via a resistor 9. O connected to the midpoint between and meter 4
In such a configuration, when electrically determining the quality of the storage battery 1, the storage battery 1 is connected to the connection terminals a and b. When measuring the open circuit voltage, the switch 2 is switched to the contact 2a. In this case, the power supply 7 is not operated. Furthermore, when measuring the closed circuit voltage of the storage battery 1, the switch 2 is switched to the contact 2b, and the switch 6 is switched to the contact 6b. In this case as well, the power supply 7 is not operated.Furthermore, when measuring the charging current, the charging power supply section 7 is operated and the switch 2 is switched to the contact 2b.

In this way, in the conventional example, depending on the measurement item, the
This method has the disadvantage that it is necessary to operate two switches, making it difficult to handle the device when identifying storage batteries.

Purpose of the Invention The present invention aims to improve these complications and to switch between a voltage measurement circuit and a charging current measurement circuit using a switching circuit that is linked to the presence or absence of an output from a charging power supply section. It is.

Structure of the Invention In order to achieve the above object, the present invention provides a storage battery as an object to be inspected, a voltage measuring circuit for the storage battery, a charging power supply section, a charging current 61 constant circuit, and an output of the charging power supply section. This device is characterized by comprising a switching circuit that detects the presence or absence of the storage battery and switches between a voltage measurement circuit and a charging current measurement circuit of the storage battery.

Description of examples Next, a first embodiment of the present invention will be explained with reference to FIG.

A storage battery 1, which is an object to be inspected, has a closing contact 10b-IC1 of a connection terminal ζ relay 10, a resistor 3. Meter 4. Connected to a circuit consisting of connecting terminals. Further, the relay 10 is connected to both ends of the charging power source 70, and one end thereof is connected to the closing contact 6B of the load changeover switch 6 via a diode 11.

Note that the other parts have the same configuration as the conventional example shown in FIG.

In such a configuration, the relay contacts 10a and 10b are normally closed, and a voltage constant circuit consisting of the storage battery 1, the resistor 3, and the meter 4 is formed as a closed circuit. When the charging power supply unit 7 is still operating, the relay 1o
operates, the relay contacts 101L and 10b open, and a charging current measuring circuit including the resistor 9, current detection resistor 8, and meter 4 is formed. Therefore, according to the present invention, when the storage battery 1 is connected to the connection terminals a and b, the open circuit voltage is immediately displayed as 4111 constant. The closed circuit voltage is still measured by switching the load changeover switch 6 to the 6b side. Furthermore, the charging current is automatically displayed by operating the charging power supply section 7. Note that the diode 11 prevents the relay 10 from being operated by the storage battery 1. According to such a device of the present invention, it is possible to improve the complexity of handling as in the conventional example.

Next, a second embodiment of the present invention will be explained with reference to FIG.

The storage battery 1 is connected to a closed circuit consisting of a connection terminal a1, a source and a drain of a field effect transistor 12, a resistor 3, a meter 4, and a connection terminal. The connection terminal a,
A circuit consisting of a resistor 13 and the collector and emitter of a transistor 14 is connected between the terminals b. Further, the gate of the field effect transistor 12 is connected to the transistor 14.
connected to the collector. Further, the transistor 1
The base of 4 is connected to one end of a charging power source 7 via a resistor 15. Further, one end of the charging power source 7 is connected to a closing contact 6a of a load changeover switch 6 via a diode 11. The other parts have the same structure as the conventional one. With this configuration, when the charging power source 7 is not operating, the field effect transistor 12 is in a conductive state, and a voltage measuring circuit consisting of the resistor 3 and meter 4 is formed. When the charging power source 7 is still operating, the transistor 14 is in a conductive state, and the field effect transistor 12 is in a non-conducting state, which is the opposite of the transistor 14, so that the resistor 9, the current detection resistor, and the relay are in a non-conducting state. A charging current measuring circuit consisting of four components is formed, and the same effect as the first embodiment described above can be obtained.

Effect of the invention

Claims (3)

[Claims] (1) A storage battery that is an object to be inspected, a voltage measurement circuit for this storage battery, a charging power supply unit, a charging current measurement circuit, and a charging power supply unit that detects the presence or absence of an output from the storage battery and the voltage measurement circuit for the storage battery and charges the storage battery. A storage battery quality determination device comprising a current measurement circuit and a switching circuit that switches between the current measurement circuit and the switching circuit. (2) The storage battery quality determination device according to claim 1, wherein the switching circuit includes a relay and its contacts. (3) The storage battery quality determining device according to claim 1, wherein the switching circuit includes a transistor and a field effect transistor connected to the transistor so as to perform an inverting operation.