KR20010091599A - Charge/discharge circuit - Google Patents

Abstract

PURPOSE: A charge/discharge circuit is provided to increase the stability of a system, to discharge an electric charge left in a capacitor when an explosive is mounted in a system, and to adjust the time of charging according to the system. CONSTITUTION: The charge/discharge circuit consists of an electric power supply part(101), an initial discharge circuit part(102), a charge circuit part(103), and an electric current adjustment part. The electric power supply part supplies electric power to a charge/discharge system when the system is separated from a projectile for an explosive(106). The initial discharge circuit part is needed to discharge an electric charge left in a charge circuit during the installation of the explosive. The charge circuit part serves to charge the system by receiving electric current from a battery(101a). The electric current adjustment part is capable of adjusting the amount of the electric current and the time of charging.

Description

Charge / discharge circuit {Charge / discharge circuit}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a charge / discharge circuit, and more particularly, to a charge / discharge circuit that can secure safety of a system and a user when driving explosives through rapid charging and discharging of current.

Many electronic components apply the charge and discharge characteristics of capacitors. The driving of explosives using the charging and discharging characteristics of the capacitor mentioned in the present invention is also an example of such an application. That is, the explosives are exploded by instantaneously applying a certain amount of current to the explosives. Therefore, above all, safety is required in such a system. In view of this demand, a discharge means for discharging the initially charged voltage is essentially required because the voltage is charged in the circuit during assembly or transportation of the system.

The present invention has been made in view of the above-mentioned matters, and a system equipped with explosives does not operate only on an initial driving signal, but charges / discharges to increase stability by rapidly charging current from the moment of separation from a projectile. The purpose is to provide a circuit.

Another object is to provide a charge / discharge circuit that can discharge the amount of charge remaining in the capacitor when the explosive is initially mounted in the system.

Furthermore, it is another object to provide a charge / discharge circuit that can adjust the current charge time according to the system if a rapid charge of the current is required after the launch of the explosive.

1 is a configuration diagram of a charge / discharge circuit according to the present invention.

<Explanation of symbols for the main parts of the drawings>

101 Power supply unit 102 Initial discharge circuit unit

103.Charging circuit section 104 ... Variable resistor

105.Sensor 106 ... Explosives

101a ... battery 101b ... DC / DC converter

102a ... discharge resistance 103a ... first relay

103b ... 2nd relay S / W 1, S / W 2 ... switch

In order to achieve the above object, the charge / discharge circuit according to the present invention,

A power supply for supplying power to the system when the charge / discharge system is separated from the explosive projectile;

An initial discharge circuit unit for discharging the charge remaining in the charging circuit when the explosives are mounted in the system assembly process;

A charging circuit unit receiving a current from a battery to charge a system; And

It is characterized in that it comprises a current adjuster for adjusting the amount of charge and the amount of current charged from the battery to the charging circuit portion.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of a charge / discharge circuit according to the present invention.

Referring to FIG. 1, the charge / discharge circuit according to the present invention includes a power supply 101 for supplying power to a system when the charge / discharge system is separated from an explosive projectile, and when the explosive is mounted in a system assembly process. The initial discharge circuit section 102 for discharging the remaining charge in the circuit, the charging circuit section 103 for receiving current from the battery and charging the system, and the amount and charging time of the current charged from the battery to the charging circuit section 103. It consists of a variable resistor 104 as a current adjusting section for adjusting the voltage.

Here, the power supply 101 includes a battery 101a, a DC / DC converter 101b for receiving a DC voltage of a predetermined magnitude from the battery 101a, converting the DC voltage of a different magnitude, and outputting the DC voltage. And a switch (for example, a lanyard switch) S / W 1 for supplying power from the 101a to the DC / DC converter 101b. The initial discharge circuit unit 102 includes a capacitor C for charging and discharging a voltage, a resistor 102a for preventing a sudden discharge of current from the capacitor C, and a capacitor (if necessary). And a switch S / W 2 for rapidly discharging and discharging the current from C), and a diode D1 for preventing the reverse flow of the current. In addition, the charging circuit unit 103 receives the output from the capacitor C for charging and discharging and the DC / DC converter 101b of the power supply unit 101 and is switched on to drive the battery 101a. The first relay 103a to allow the output current from the C / C to be charged in the charging / discharging capacitor C, and a switch-on driving when a predetermined predetermined voltage is input through the sensor 105. As a result, the second relay 103b for applying the voltage charged to the capacitor C to the explosive 106 instantaneously to explode the explosive 106, and the capacitor C at the initial discharge of the capacitor C. And a diode (D2) for preventing the output current from?) From flowing into the first relay 103a.

Then, the operation of the charge / discharge circuit according to the present invention having the above configuration will be described.

Prior to assembling the charge / discharge circuit according to the present invention, the discharge switch S / W 2 of the initial discharge circuit unit 102 is first turned on to discharge the electric charge remaining in the circuit. Then, the charge / discharge circuit of the present invention is assembled to an explosive or the like to form one complete system.

As soon as the system thus constructed is separated from the projectile, the switch S / W 1 of the power supply 101 is turned on (the switch can be turned on by manual operation), and thus from the battery 101a. Power is supplied to the DC / DC converter 101b. Then, the DC / DC converter 101b converts the DC voltage of a predetermined magnitude input from the battery 101a into a DC voltage of another magnitude and outputs it. The output voltage is supplied to the first relay 103a so that the first relay 103a is switched on and driven so that the output current from the battery 101a changes the variable resistor 104, the first relay 103a and the diode ( The charging / discharging capacitor C is charged via D2). At this time, if the capacity of the capacitor (C) changes or if the voltage is to be charged in the capacitor (C) to change the charging time, by adjusting the variable resistor 104 by changing the magnitude of the current flowing into the capacitor (C) The amount of charging current or the amount of current charged in the capacitor C can be changed.

On the other hand, in the state in which the voltage from the battery 101a is charged in the capacitor C, when the preset reference signal is input to the second relay 103b through the sensor 105, the second relay 103b is input. The switch is driven on. Then, at the same time, the voltage charged in the capacitor C is instantaneously applied to the explosives 106 to explode the explosives 106.

As described above, the charge / discharge circuit according to the present invention is provided with discharging means capable of discharging the charge remaining in the circuit at the initial stage of driving the system, and is configured to operate from the moment when the explosive is separated from the projectile. Overall stability can be improved further. In addition, when the amount of current required for the operation of the explosive is variable, there is an advantage that can be easily responded by adjusting the variable resistance without modification of the circuit.

Claims (4)

A power supply for supplying power to the system when the charge / discharge system is separated from the explosive projectile; An initial discharge circuit unit for discharging the charge remaining in the charging circuit when the explosives are mounted in the system assembly process; A charging circuit unit receiving a current from a battery to charge a system; And A charge / discharge circuit, characterized in that it comprises a current adjusting unit for adjusting the amount of charge and the charge time of the current from the battery to the charging circuit portion. The method of claim 1, The power supply unit includes a battery, a DC / DC converter that receives a DC voltage of a predetermined magnitude from the battery, converts the DC voltage into another DC voltage, and outputs the DC voltage. The switch supplies power from the battery to the DC / DC converter. Charge / discharge circuit, characterized in that consisting of. The method of claim 1, The initial discharge circuit part includes a capacitor for charging and discharging a voltage, a resistance for preventing sudden discharge of current from the capacitor, a switch for sudden discharge and discharge of current from the capacitor, if necessary, A charge / discharge circuit, characterized by comprising a diode for preventing backflow. The method of claim 1, The charging circuit unit receives the output from the DC / DC converter and switches ON to drive the first current to allow the output current from the battery to be charged to the capacitor, and a predetermined voltage is input. In this case, a second relay is applied to the explosive by applying a voltage charged in the capacitor to the explosive, and an output current from the capacitor flows into the first relay during the initial discharge of the capacitor. Charge / discharge circuit, characterized in that consisting of a diode for preventing.