KR101232722B1 - Apparatus for monitoring ignition circuit in multiple rocket launcher tube - Google Patents

Abstract

An ignition circuit monitoring apparatus for a multiple rocket launch tube according to the present invention is an apparatus for monitoring an ignition circuit installed in each tube of a multiple rocket launch tube, comprising: an ignition power supply unit for supplying ignition power to an rocket igniter; A firing unit electrically connected to the ignition power supply unit and determining a firing mode and an ignition current supply time of the rocket; And a circuit checking unit electrically connected to the launch unit and determining the health of the ignition circuit of the rocket.
According to the present invention, the firing function of the multiple rocket launch tube and the health of the leaf-spring type electrical contacts on the ignition circuit in the launch tube can be monitored at the same time during the continuous launch of the rocket, so that if the rocket is not fired, In other words, it is possible to quickly determine whether the cause of the rocket is an issue of the launcher circuit.

Description

Apparatus for monitoring ignition circuit in multiple rocket launcher tube}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ignition circuit monitoring apparatus of a multiple rocket launch tube, and in particular, a multiple rocket capable of simultaneously monitoring the firing function of the multiple rocket launch tube and the health of the plate-spring type electrical contacts on the ignition circuit in the launch tube during the continuous launch of the rocket. The present invention relates to a ignition circuit monitoring device of a launch tube.

In general, multiple rocket launchers are checked prior to testing for resistance of each ignition circuit, but equipment or inspection procedures for monitoring the status of the leaf-spring type electrical contacts on each ignition circuit of the multiple rocket launch tubes during continuous firing. Hard to find.

The leaf-spring electrical contacts are often used as electrical connectors between the launch tube and the rocket. The elastic force of these electrical contacts is gradually reduced by aging and corrosion. Elastic force reduction makes the electrical connection incomplete. Continuous firing vibrations in particular make the electrical connection of the plate-spring type electrical contacts even more incomplete.

In pre-test inspections, rockets in the ignition circuit of the ignition circuit that were normal were not fired, and rockets in the ignition circuit which were abnormal were also released. This is due to the launch vibration. Therefore, continuous monitoring equipment for the ignition circuit is required during the launch.

1 is a view schematically showing a circuit configuration of a conventional rocket launch tube launch system.

As shown in FIG. 1, a rotary switch mounted in a conventional multiple rocket launch tube serves as a safety device for distributing and supplying ignition power and simultaneously maintaining the ignition circuit of the launch standby rocket in an inoperative state. Monitoring of inoperative ignition circuits is not possible in any way. Therefore, there is a need for equipment capable of simultaneously monitoring the launching function and the health of the plate-spring type electrical contacts on the ignition circuit in the launch tube.

The present invention has been made in view of the above-mentioned matters, and it is possible to simultaneously monitor the firing function of the multiple rocket launch tube and the health of the plate-spring type electrical contacts on the ignition circuit in the launch tube during the continuous launch of the rocket. The purpose is to provide an ignition circuit monitoring device.

In order to achieve the above object, an ignition circuit monitoring apparatus of a multiple rocket launch tube according to the present invention is an apparatus for monitoring an ignition circuit installed in each tube of a multiple rocket launch tube.

Ignition power unit for supplying ignition power to the ignition of the rocket;

A firing unit electrically connected to the ignition power supply unit and determining a firing mode and an ignition current supply time of the rocket; And

It is characterized in that it includes a circuit checker that is electrically connected to the launch unit and determines the health of the ignition circuit of the rocket.

Here, the ignition power unit is composed of a power supply for supplying power to the igniter of the rocket, and a resistor for limiting the overcurrent that is instantaneously supplied from the power supply to the igniter of the rocket.

In addition, the launch unit is provided with a relay to control the power supplied from the ignition power supply to the rocket igniter, a PLC for transmitting a control command to the relay, the firing mode (continuous, single shot) of the rocket and the igniter of the rocket And a touch panel for setting the supply time of the ignition current, and a launch switch for applying a signal for commanding the launch of the rocket to the PLC.

In addition, the circuit inspection unit maintains the forward direction of the current supplied from the ignition power supply to the igniter of the rocket, and a pair of diodes of mutual parallel connection relationship to block the current flowing in the reverse direction from the rocket side to the ignition power supply side, It is connected in series with one of the diodes of the pair and judges the micro current power supply for supplying the micro current for the ignition circuit inspection of the rocket, the resistance limiting the current supplied from the micro current power supply, and the health of the ignition circuit of the rocket. To this end, it consists of a signal measuring instrument for measuring the voltage across the resistor.

According to the present invention, the firing function of the multiple rocket launch tube and the health of the leaf-spring type electrical contacts on the ignition circuit in the launch tube can be monitored at the same time during the continuous launch of the rocket, so that if the rocket is not fired, In other words, it is possible to quickly determine whether the cause of the rocket is an issue of the launcher circuit.

1 is a schematic view showing the circuit configuration of a launch system of a conventional multiple rocket launch tube.
2 is a view schematically showing the configuration of the ignition circuit monitoring device of the multiple rocket launch tube according to the present invention.
3 is a view showing the structure of a typical multiple rocket launch tube.

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

2 is a view schematically showing the configuration of the ignition circuit monitoring device of the multiple rocket launch tube according to the present invention.

Referring to FIG. 2, the ignition circuit monitoring apparatus of the multiple rocket launch tube according to the present invention is an apparatus for monitoring the ignition circuit installed in each tube 301 of the multiple rocket launch tube 300 as shown in FIG. 3. as,

An ignition power source 10 for supplying ignition power to the igniters 8 and 28 of the rocket, and an ignition power source 10 electrically connected to the ignition power source 10 and determining the launch mode and the ignition current supply time of the rocket. ; And a circuit checking unit 30 electrically connected to the launch unit 20 to determine the health (absence or absence) of the ignition circuit of the rocket.

Here, the ignition power source 10 is a power supply (1) for supplying power to the igniters (8, 28) of the rocket, and is instantaneously supplied from the power supply (1) to the igniters (8, 28) of the rocket It consists of a resistor 2 that limits overcurrent.

In addition, the firing unit 20 may provide relays 3 and 23 for controlling the power supplied from the ignition power supply unit 10 to the igniters 8 and 28 of the rocket and a relaying command to the relays 3 and 23. PLC 21 to transmit, the touch panel 22 which sets the firing mode (continuous, single shot) of the said rocket, and the supply time of the ignition current supplied to the igniters 8 and 28 of a rocket, and commands to launch a rocket. And a firing switch 24 for applying a signal to the PLC 21.

In addition, the circuit checking unit 30 maintains the forward direction of the current supplied from the ignition power supply unit 10 to the igniters 8 and 28 of the rocket, and blocks the current flowing in the reverse direction from the rocket side to the ignition power supply unit 10 side. A microcurrent power supply 12,32 which is connected in series to a pair of diodes in a parallel connection relationship, one of the diodes in series and supplies a microcurrent for ignition circuit inspection of the rocket, and a microcurrent power supply ( Resistor 13 for limiting the current supplied from 12, 32, and signal measuring instrument 60 for measuring the voltage across the resistor 13 to determine the integrity (absence) of the ignition circuit of the rocket. It consists of.

The operation of the ignition circuit monitoring apparatus of the multiple rocket launch tube according to the present invention having the above configuration will be briefly described.

The firing vibration of the rocket 40 with the micro current power supply 12,32 which is safe enough for the ignition current is supplied to the ignition circuit of the rocket. The state of the spring-shaped contacts 27 and 29 and other contact elements can be changed. This possibility is manifested by a change in the resistance 14, 34 of the ignition circuit of the rocket 40, 50. Changes in the resistances 14 and 34 of each ignition circuit affect the voltage across the signal lines 16 and 36.

While the ignition current is supplied from the power supply 1 to the ignition circuit of the rocket, voltage drops occur in all signal lines 16 and 36. The signal line voltage of the normally fired ignition circuit since the ignition current is supplied is zero, and the remaining signal line voltages vary depending on the state of the plate-spring type electrical contacts 7, 9, 27, 29 on the ignition circuit. Has a voltage.

Except for the moment when the ignition current is delivered, the voltage of the signal line of the normal ignition circuit is almost constant with respect to the firing vibration. For example, when the plate-spring type electrical contacts 27 and 29 on the ignition circuit of one side rocket 50 are abnormal, the signal line 36 of one side rocket 50 with respect to the firing vibration of the other side rocket 40. The voltage is constantly changing irregularly. From this, it is possible to know whether there is an abnormality in the ignition circuit of the rocket.

As described above, the ignition circuit monitoring apparatus of the multiple rocket launch tube according to the present invention can simultaneously monitor the firing function of the multiple rocket launch tube and the health of the plate-spring type electrical contacts on the ignition circuit in the launch tube during continuous launching of the rocket. Therefore, when a non-launch situation of the rocket occurs, there is an advantage that can quickly determine whether the cause is a problem of the rocket or the launch tube ignition circuit.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Accordingly, the true scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of the same should be construed as being included in the scope of the present invention.

1 ... power supply 2,13,14,34 ... resistor
3,23 ... relay 6,26 ... launcher tube
7,9,27,29 ... plate-spring electrical contacts
8 ... igniter 10 ... ignition power unit
12.Small current power supply 20.
30 ... Circuit check 40,50 ... rocket
60 ... Signal Instruments 21 ... PLC
22 Touch panel 24 ... Emission switch

Claims (4)

A device for monitoring an ignition circuit installed in each tube of a multiple rocket launch tube,
Ignition power unit for supplying ignition power to the ignition of the rocket;
A firing unit electrically connected to the ignition power supply unit and determining a firing mode and an ignition current supply time of the rocket; And
An ignition circuit monitoring device for a multiple rocket launch tube electrically connected to the launch unit and including a circuit checking unit for determining whether there is an abnormality in the ignition circuit of the rocket. The method of claim 1,
The ignition power unit,
A power supply for supplying power to the rocket igniter; And
The ignition circuit monitoring device of the multiple rocket launch tube, characterized in that consisting of a resistor for limiting the over-current instantaneously supplied from the power supply to the igniter of the rocket. The method of claim 1,
The launch unit,
A relay for controlling power supplied from the ignition power supply unit to the rocket igniter;
A PLC for transmitting an interruption command to the relay;
A touch panel configured to set a firing mode (continuous, single shot) of the rocket and a supply time of an ignition current supplied to the rocket igniter; And
An ignition circuit monitoring device for a multiple rocket launch tube, characterized in that the switch configured to give a signal for commanding the launch of the rocket to the PLC. The method of claim 1,
The circuit checking unit,
A pair of diodes connected in parallel to each other to maintain a forward direction of the current supplied from the ignition power supply to the igniter of the rocket and block a current flowing in a reverse direction from the rocket side to the ignition power supply;
A micro power supply connected in series to one of the pair of diodes and supplying a micro current for ignition circuit inspection of the rocket;
A resistor to limit the current supplied from the micro power supply; And
In order to determine the integrity of the ignition circuit of the rocket, the ignition circuit monitoring device of the multiple rocket launch tube, characterized in that it comprises a signal measuring instrument for measuring the voltage across the resistance.

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