KR860000952Y1 - Charging apparatus - Google Patents

Abstract

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Description

Battery safety connection

1 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

SCR: Thyristor R: Resistance

C: capacitor D: diode

TR: transistor PC 2/2: light emitting element

PC 1/2: water pipe element ZD: Zena diode

According to the present invention, a SCR is inserted between an input side and an output side of a charging circuit of a battery, and an input and an output side are separated, and the battery can be charged as long as the SCR is not conducting. If the terminal of the battery is incorrectly connected to the input of the charging power by inserting the light emitting element in the forward direction, the light emitting element does not emit light, and if the battery is properly connected without the power being applied to the input side due to the high resistance value of the light receiving element, As the light emitting device emits light by the residual current, the light receiving device receives and operates it, and the firing circuits of the transistor and the SCR operate sequentially so that the charging power can be supplied correctly to the battery, thereby increasing the safety of the battery charging circuit. To safety contacts for battery charging Will.

In the conventional charging circuit of the battery, by connecting the SCR and its firing circuit, if the terminals of the battery are connected incorrectly, the firing of the SCR is prevented from happening. Because it does not use power, it is not fundamentally not supplied with power, so there is a flaw such as spark discharge when battery is connected incorrectly.

The present invention inserts an SCR between the input side and the output side of the charging circuit in order to correct such a weak point, and separates the input side and the output side, and then supplies it to the stabilizer of the known charging circuit which is supplied and charged only by the operation of the SCR. The light emitting device does not emit light when the terminals of the battery are connected incorrectly by connecting the light emitting device that can emit light in the forward connection between the transfer lines on the output side and the light receiving device on the input circuit of the SCR ₁ . If SCR ₁ is not fired and power is not supplied properly and the battery is connected correctly, simultaneous light-receiving device that emits light as the current power of battery is operated by receiving light. Function and the two flashes In order to increase the safety of the charging circuit by the light receiving device in a double it will be described in detail by the drawings as follows.

Transistor, a firing circuit connected between capacitor (C ₂ ) and resistor (R _{2, 3, 4} ) by connecting SCR ₁ with resistor (R ₉ ) between the input terminal (IN) and the output terminal (OUT) of the charging circuit of the battery Connect the gate line of SCR _{1 to} the emitter side of (TR ₂ ) together with diode (D ₁ ) so that the battery connected to the output terminal (OUT) can be powered and charged only when SCR ₁ is conducting. side of the capacitor (C ₁₎ and a resistor (R ₁₎ is connected to the roll call signal Jeong Ji-yong transistor (TR ₁₎ the transistor roll call signal transmission operation of the roll call after the transistor (TR ₂₎ the SCR ₁ by connection able to control (TR ₂₎ first the added safety circuit that is, (+) of the output terminal (OUT) shown by a dotted line in ⅱ according to a known one allows to stop charge safety circuit-light emitting device with a resistance between the two sides conductors (R ₈₎ () Connect the terminal of the battery to the output terminal by connecting (PC 2/2) correctly. The optical device (PC 1/2) are presented to the input (IN) to gwagwang this light by inserting a light-receiving device (PC 1/2) side of the base of the transistor (TR ₁₎ only when the light emission of the light emitting device of side emission SCR ₁ It is possible to supply the operating current of the transistor TR ₁ , which makes the firing operation of, to ultimately supply the charging power, and to the side of the SCR ₁ , SCR ₂ for stopping the charging operation through the resistor C ₃ . Connect the gate line of SCR ₂ together with diode D ₂ to the emitter side of transistor TR ₃ , which is a firing circuit with resistance R ₅ , connected in common with _1, and the base side of transistor TR ₃ is full. When fully charged by connecting the voltage sensing resistor (R ₇ ) and the Zena diode (ZD), the operation of the transistor (TR ₃ ) by firing SCR ₂ to stop the operation of SCR ₁ by the charging pressure of the capacitor (C ₃ ) Low voltage between one conductor line of capacitor (C ₃ ) By connecting the terminal (R ₆ ) and the diode (D ₃ ) it is possible to prevent the spark discharge during the incorrect connection of the battery.

According to the present invention, even when a telephone line is connected to the positive (+)-conducting line on the input terminal (IN) side, power is not supplied to the output terminal (OUT) side unless the SCR ₁ is conductive. If the electrode terminal of the battery to be charged is not properly connected to the (+) (-) transfer line of the output terminal (OUT), the light emitting device (PC 2/2) does not emit light, so the operating conditions of the SCR ₁ are not achieved. This prevents accidents due to incorrect connection of the battery.

However, if the electrode terminal of the battery is correctly connected to the (+) (-) lead of the output terminal (OUT), the light emitting element (PC 2/2) is emitted by the battery current even though SCR ₁ is not conducting. Light is transmitted to the element PC 1/2.

Until the light receiving element PC 1/2 on the input side receives light, the operation of the transistor TR ₂ is not started due to the infinite resistance value, but when the light emitting element PC 2/2 emits light, As a result, the resistance value of the light receiving element PC 1/2 is lowered and current is conducted so that the capacitor C ₁ (C ₂ ) connected between the positive (-) transfer lines on the input terminal IN side starts charging. Wherein each of the base current of the resistor (R ₁₎ (R ₂₎ because of the capacitor (C ₂₎ of the transistor (TR ₂₎ the charging time is first roll call circuit than the other capacitor doemeuro shorter than that (C ₁₎ the transistor (TR ₁₎ of the the same time the current is supplied that the conduction between the copper collector and the emitter to be applied to the gate of the SCR ₁ through a diode (D ₁₎ causes the SCR conduction _1.

As SCR ₁ is turned on, power is supplied to the storage battery connected to the output terminal OUT, and charging starts.

If SCR ₁ has one conduction to continue conducting even when the gate current is interrupted maintaining the charging operation, but the transistor (TR ₂₎ the operation to continue the operation of FIG SCR ₁ by for example an SCR ₂ operations during which transmits a firing signal of the SCR ₁ Since it is impossible to stop the operation, it is necessary to stop the operation of the transistor TR _{2 which} has been finished firing of SCR ₁ .

This is because the transistor TR ₁ operates as the capacitor C ₁ is fully charged with the time difference from the capacitor C ₂ , and current flows between the collector and the emitter, so that the base current of the transistor TR ₂ operates. As it falls below the point, the firing operation is automatically stopped. However, SCR ₁ continues to be charged by supplying power as long as there is no abnormality until charging is completed.

When the battery is fully charged, the Zener diode (ZD) through the resistor (R ₇ ) detects the voltage of the battery. At this time, the voltage at the input terminal (IN) and the output terminal (OUT) is the same, and thus through the Zena diode (ZD). An operating current is applied to the base side of the transistor TR ₃ to operate. As current flows between the corrector and the base, a part of the current is applied as the gate current of the SCR ₂ through the diode D ₂ .

Capacitor as SCR ₂ into the conduction (C _3), the charging is initiated and the capacitor (C ₃₎ when charging is completed, the capacitor (C ₃₎ a negative electrode side input terminal (IN) voltage of the SCR ₁ gongjeop to the other end axis The operation of the SCR ₁ is stopped and the charging current stops, and the charging is completed. In the well-known charging safety circuit including the SCR ₁ , the light emitting diode is connected to the output terminal to emit light only when the battery is connected correctly. as the light reception only when connected to the light emitting diode emits light to only the side of light-receiving elements because the configuration makes it possible conduction of SCR ₁ in order to be able to prevent the operation of the SCR ₁ and basically at the time of erroneous connection of the battery is simply the opposite polarity of the SCR ₁ Compared to the protection operation by the safety, the safety is higher, and when the battery is fully charged, the firing transistor is detected by the detection of the Zena diode. Firing the SCR ₂ sikieo operating the emitter and can be more active and safe automatically block the power to the fully charged because it makes it possible to stop the operation of the SCR ₁ by charging the capacitor by the conduction of the SCR ₂ in the safety device of the conventional storage battery Compared to the safer use.

Claims (1)

A safety circuit in which an SCR ₁ having a firing control circuit of transistors TR ₁ and TR ₂ is inserted into a conducting wire between an input terminal IN and an output terminal OUT of a charging circuit of a storage battery, Connect the light-emitting diode (PC 2/2) for correct connection detection of the battery between the (-) transfer lines and the light-emitting diode (PC 1/2) on the base side of the transistor (TR ₁ ) of the input terminal (IN). Part 2 of 2), and connection can be receiving the light, a transistor (TR _3), the SCR ₂ with the firing circuit on the base side of the SCR ₁ and a capacitor (in connection with byeongyeol through C ₃₎ transistor (TR ₃₎ of A safety connector for charging batteries, which is made by connecting a zener diode (ZD) and a resistor (R ₇ ) for detecting a charge voltage.