KR19980041098U - High voltage, high current signal detection and display circuit - Google Patents

Abstract

The present invention relates to an operation checking device for a large shell fuse, and more specifically, a check capable of reacting to a high energy signal of a high voltage and a high current to check whether a high energy detonation signal such as a torpedo fuse is generated. For the device.

The present invention includes a rectifier circuit unit including a rectifier circuit formed of a rectifying diode in the form of a bridge to rectify the initiator signal pulse signal; A smoothing and voltage dividing unit including a capacitor and a bleeder resistor to smooth the pulse wave waveform rectified by the rectifying circuit unit, and voltage dividing resistors for converting the rectified DC voltage into a low voltage for subsequent signal processing; A signal transmission section for separating the circuit of the smoothing and distribution section and the time adjustment at the rear end and the circuit of the driving circuit section; A time adjusting and driving circuit section including a multivibrator integrated circuit having a time constant determined by a resistor and a capacitor for operating the display section for a predetermined time after application of the initiator signal from the fuse; According to the signal output from the time adjustment and the driving circuit unit provides a high voltage, high current signal detection and display circuit comprising a display unit including a display device for informing the user that the detonation signal is applied.

Description

High voltage, high current signal detection and display circuit

The present invention relates to an operation checking device for a large shell fuse, and more specifically, a check device capable of reacting to a high energy signal of a high voltage and a high current to check whether a high energy detonation signal such as a torpedo fuse is generated. It is about.

Explosive devices exist in military bombs such as missiles and torpedoes. Large shells require a lot of energy to operate the explosive device. In order to supply this energy with power, it is difficult to set up a large power supply in the missile or torpedo itself.

Thus, in conventional missiles and torpedoes, the explosive device was operated using a mechanical safety device in three general stages. That is, a small explosive force is generated in the first stage, a larger explosive force is generated in the second stage, and a large explosive force is applied to the detonator in the last three stages.

However, in the mechanical control as described above, if any one of the three stages of explosive power generation malfunctions, the explosive device does not operate in a timely manner, and expensive large shells are wasted, thereby preventing electric safety. The use of the device is preferred.

At this time, in the electric fuse device, the operation of the detonator requires a high current of several hundred amps or a few kilovolts of high current, so the structure of the device becomes large and complicated.

In the process of producing or assembling the electrical safety device described above, a large energy check circuit of high voltage and high current is particularly necessary for checking whether the detonator is normally operated.

At this time, when checking the normal operation of such high-energy current by using a manual equipment, there is a problem to be prepared for damage to the equipment by the leakage current according to the high pressure output from the fuse and electric shock accident by the leakage current.

The present invention has been devised to solve the above problems, and checks that can respond to high energy signals to check the normal operation of the detonator of the fuse of a large shell such as torpedoes operated by high voltage and high current and It is an object to provide a display circuit structure.

1 is a circuit diagram showing the configuration of a high voltage, high current signal detection and display circuit according to the present invention,

2 is a circuit diagram showing an example of the configuration of the time adjustment and drive circuit according to the present invention.

* Description of the symbols for the main parts of the drawings *

100: detection and rectification circuit unit 200: smoothing and voltage distribution circuit unit

300: signal transmission unit 400: time adjustment and driving circuit unit

500: display unit IC 1: multivibrator integrated circuit

R 1: Time constant resistor C 1: Time constant capacitor

In order to achieve the above object, the present invention, in the high voltage, high current signal detection and display circuit for checking the output of the high-energy detonation signal from the electric fuse of the large shell, rectification diode for rectifying the detonation signal pulse signal Rectification circuit unit including a rectifier circuit formed in the form of a bridge; A smoothing and voltage dividing unit including a capacitor and a bleeder resistor to smooth the pulse wave waveform rectified by the rectifying circuit unit, and voltage dividing resistors for converting the rectified DC voltage into a low voltage for subsequent signal processing; A signal transmission section for separating the circuit of the smoothing and distribution section and the time adjustment at the rear end and the circuit of the driving circuit section; A time adjusting and driving circuit section including a multivibrator integrated circuit having a time constant determined by a resistor and a capacitor for operating the display section for a predetermined time after application of the initiator signal from the fuse; According to the signal output from the time adjustment and the driving circuit unit provides a high voltage, high current signal detection and display circuit comprising a display unit including a display device for informing the user that the detonation signal is applied.

EXAMPLE

Referring to the accompanying drawings, a preferred embodiment of the present invention will be described.

1 is a circuit diagram showing the configuration of a high voltage, high current signal detection and display circuit according to the present invention.

The circuit of the present invention is largely configured to include a sensing and rectifying circuit unit 100, a smoothing and voltage distribution circuit unit 200, a signal transmitting unit 300, a time adjusting and driving circuit unit 400, and a display unit 500. do.

The circuit of the present invention operates in accordance with the detonation signal input of the high voltage and high current signals from the torpedo fuse. Such high voltages, high currents are exemplified by currents of 2 kV and several hundred A, for example.

The detonation signal is applied as a pulse waveform.

The detonation signal is input by the sensing and rectifying circuit unit 100 of the present invention and rectified by a diode having a high withstand voltage.

In one embodiment of the present invention, the rectifying diode is preferably configured to form a bridge shape. On the other hand, the withstand voltage of the diode preferably has a breakdown voltage of 1500V or more in order to prevent damage by the detonation signal from the fuse.

Reference numeral 200 denotes a smoothing and distribution unit, and capacitors and bleeder resistors for smoothing the pulse wave waveform rectified by the rectifying diode, and voltage distribution resistors for converting the rectified DC voltage into a low voltage for subsequent signal processing. It is configured to include.

One embodiment of the signal transmission unit 300 of the present invention is preferably configured to include a light emitting diode and a photodiode as a light receiving element for receiving light from the light emitting diode.

With the above-described configuration, the signal transmission unit 300 of the present invention performs the function of separating the ground of the circuit of the time adjustment and driving circuit unit 400 at the rear end and the smoothing and distribution unit 200 at the front end thereof.

Therefore, the function of preventing each circuit part of a rear end is influenced by the high voltage detonation signal from a fuse.

The time adjustment and driving circuit unit 400 of the present invention performs a time delay function to operate the display unit for a predetermined time after the application of the above-described detonation signal.

In this case, as a preferred embodiment of the time adjustment and driving circuit unit 400, it is also possible to use a multi-vibrator means.

2 is a circuit diagram showing an example of the configuration of the time adjustment and drive circuit according to the present invention.

IC 1 is a multivibrator integrated circuit.

This integrated circuit has a function of outputting a pulse waveform having a predetermined time interval in response to an input to an input terminal.

Accordingly, when an input signal from the signal transmission unit 300 is applied, a pulse signal is output for a predetermined time determined by the resistor R 1 and the capacitor C 1.

Thereafter, a driving circuit for driving the display unit 500 is connected according to the pulse signal. The driving circuit is responsible for controlling the power supply of the display device informing the user that the detonation signal has been applied and driving the device.

In this case, the driving circuit and the display unit 500 may include a circuit for controlling a current flowing through the coil of the relay using a transistor and intermittently contacting the relay.

At this time, when the contact point of the relay is interrupted, it is preferably configurable using a circuit for supplying current to a light emitting element such as a lamp connected to the contact point.

As described above, the high-voltage, current-signal detection and display circuit of the present invention provides a check circuit that can easily check the output of the high-energy signal output from the electric fuse, such as a large shell.

Although the present invention has been shown and described in connection with certain preferred embodiments, the present invention may be variously modified and changed without departing from the spirit or the field of the present invention provided by the following utility model registration claims. It will be readily apparent to one of ordinary skill in the art that it can be used.

Claims (2)

In the high voltage, high current signal detection and display circuit for checking the output of the high energy detonation signal from the electric fuse of the large shell, A rectifier circuit unit 100 including a rectifier circuit in which a rectifier diode is formed in a bridge shape to rectify the amplification signal pulse signal; Smoothing and voltage including a capacitor and a bleeder resistor to smooth the pulse wave waveform rectified by the rectifying circuit unit 100, and voltage divider resistors for converting the rectified DC voltage to a low voltage for the subsequent signal processing Distribution unit 200; A signal transmitting unit 300 for separating the ground of the circuit of the smoothing and distribution unit 200 and the time adjustment and the circuit of the driving circuit unit 400 at the rear end thereof; A time adjusting and driving circuit section including a multivibrator integrated circuit having a time constant determined by a resistor R 1 and a capacitor C 1 for operating the display unit 500 for a predetermined time after the application of the initiator signal from the fuse; 400; High voltage, high current signal detection and display circuit comprises a display unit 500 including a display device for informing the user that the detonation signal is applied according to the signal output from the time adjustment and driving circuit unit 400 . 2. The high voltage and high current signal sensing of claim 1, wherein the signal transmitter 300 is a signal transmitter 300 including a light emitting diode and a photodiode as a light receiving element for receiving light from the light emitting diode. And display circuits.