DE4131529C2 - Device for releasing the coolant supply in a missile - Google Patents

Description

Technical field

The invention relates to a device for releasing the supply of coolant to a cooler for the detector of an optical viewfinder in a missile, which is arranged in a starting device attached to an aircraft.
whereby captive means for capturing the movable viewfinder optics are provided, which can be unlocked for target tracking prior to the use of the missile via a control line guided from the cockpit of the aircraft to the starting device.

Underlying state of the art

Target-seeking missiles are known. Such missiles contain an optical viewfinder that captures and targets Control signals through which the missile to the Goal is led. The optical viewfinder sits in the general on a gyro rotor and is this way decoupled from the movements of the missile. Of the Gyro rotor is gimbal mounted and so far movable relative to the missile cell so that it  can be aimed at a goal. An example for DE-C-36 23 343 shows such an optical viewfinder.

The missiles are usually in a launch device (launcher) held. The starting device sits on an airplane, usually under the carrier surfaces.

It is known to seek such seekers before the launch of the Missile and the preceding tracking to be tied to a fixed starting point. This bondage is via a control line from the cockpit of the aircraft from resolved when the missile for tracking and the shot should be made ready.

Such seekers generally speak in infrared Radiation emitted by the target. The seeker contains a response to infrared radiation Detector. The sensitivity of such detectors depends strongly depend on their temperature. It is known detectors for optical viewfinders to cool to sensitivity increase and decrease noise.

It is known that cooling by Peltier elements to make. The cooling effect of such Peltier elements is however limited. They are therefore coolers for these purposes known, taking advantage of the Joule-Thomson effect work with the expansion of compressed gas. An example for such a cooler is in DE-A-36 11 206 described.

It is necessary to have the To release supply of coolant to the radiator. This can via another control line through which a Valve for the coolant is opened. Such  second control line requires additional effort. In many cases where starters for older Models of missiles without Joule-Thomson cooling of the Detector is one such second Control line not available at all.

Disclosure of the invention

The invention has for its object a device to release the coolant supply to a cooler for the Detector of an optical viewfinder in a missile that arranged in a starting device on an aircraft is to train so that an additional control line for this release can be omitted.

Specifically, the invention has for its object to older Starting devices that do not have a separate control line included for cooling the detector, for use to make it suitable with missiles where cooling of the detector by means of a Joule-Thomson cooler.

According to the invention this object is achieved in that

• a) A bistable on the missile side of the control line Circuit is provided, which by a Release signal for the tether on the said control line in an activated state is settable and remains in this state, and
• b) by this bistable circuit in its activated Condition on the coolant supply to the radiator controlling valve can be opened.

This way, a signal line that is anyway is present for the release of the coolant supply too  exploited the cooler. The invention is based on the Realizing that the seeker's bondage to the target Conception and persecution only to be solved needs when the detector is sufficiently cooled. Before the detector is too insensitive anyway. Consequently the coolant supply is definitely before loosening the Bondage released. The control line for the bondage can therefore be used to send a short signal Transfer of coolant supply transfer. The one with it associated short-term release of the bondage has none adverse consequences. This short signal sets the bistable circuit. This opens the valve. At this state changes through further signals on the Control line nothing.

An embodiment of the invention is as follows with reference to the accompanying drawings explained.

Brief description of the drawings

Fig. 1 shows schematically an aircraft cockpit with a starter, a missile and the connecting lines, the steering and control part with the detector and the coolant tank and the valve for the coolant is drawn out enlarged.

Fig. 2 shows the control of the fettering means by which the viewfinder optics can be tied to a central position.

Fig. 3 shows in detail the bistable circuit for opening the valve for the coolant.

Preferred embodiment of the invention

In Fig. 1, a cockpit of an aircraft 12 is indicated at 10. A starting device 14 is attached to the aircraft. The launcher 14 includes a missile 16 . The missile 16 is provided with a viewfinder 18 . The viewfinder 18 includes a detector 20 . The detector is cooled by a cooler 22 in the form of a Joule-Thomson cooler. The cooler 22 receives a coolant from a coolant tank 24 via a controllable valve 26 and a line 28 .

A control line 30 emerges from the cockpit 10 of the aircraft 12 , through which the missile can be launched. A control line 32 goes from an actuator 34 arranged in the cockpit 10 to the starting device 14 .

As can be seen from FIG. 2, a relay 36 is arranged in the starting device 14 . The relay 36 has a normally closed contact 38 . Two lines 40 and 42 are connected to one another via this normally closed contact 38 . The lines 40 and 42 form part of a captive circuit with a current source 44 and captive means 46 . When the normally closed contact 38 is closed, the two lines 40 and 42 are at the same potential at one terminal of the current source 44 . The captive circle is then closed and the captive means 46 hold the finder optics in a fixed starting position. The relay 36 is excited by a signal on the control line 32 . Contact 38 opens. This releases the viewfinder optics. The potential of line 42 changes . The line 42 is now connected to the other terminal of the power source via the restraining means 46 and is separated from the line 40 .

The line 42 is connected to a plug 48 which establishes a connection to the seeker head 18 of the missile 16 . The plug 48 contains a bistable circuit 50 . This circuit 50 is shown in Fig. 3 in detail Darge.

The circuit 50 is a flip-flop with two N-channel MOSFET transistors 52 and 54 . The drain of the N-channel MOSFET transistor 52 is connected via a resistor 56 to a supply voltage of 25 volts, which is supplied via a line 58 . The source of the N-channel MOSFET transistor 52 is connected to the line 42 via a diode 60 . The drain of the N-channel MOSFET transistor 54 is connected in series via two resistors 62 and 64 to line 58 and thus to the supply voltage. The source of the N-channel MOSFET transistor 54 is grounded. The drain of the N-channel MOSFET transistor 52 is also connected via a resistor 66 to the gate of the N-channel MOSFET transistor 54 . Furthermore, the gate of the N-channel MOSFET transistor 54 is connected to ground via a resistor 68 and a capacitor 70 connected in parallel therewith. The drain of the N-channel MOSFET transistor 54 is connected to the gate of the N-channel MOSFET transistor 52 via a resistor 72 . The gate of the N-channel MOSFET transistor 52 is also connected to ground via a zener diode 74 .

The connection point between resistors 62 and 64 is connected to the gate of a P-channel MOSFET transistor 76 . The source of the P-channel MOSFET transistor 76 is connected to line 58 and is thus connected to the supply voltage. The drain of the N-channel MOSFET transistor 76 is connected to ground via a diode 78 . In addition, the drain of the N-channel MOSFET transistor 76 is connected to a control line 82 via a diode 80 .

As can be seen from FIG. 1, the control line 82 is led to the valve 26 designed as a solenoid valve.

The arrangement described works as follows:

In the idle state, ie before activation of the cooling or the viewfinder, the relay 36 has dropped out, the contact 38 is closed. Line 42 is at the potential of line 40 .

In this case, the bistable circuit is in a first switching state in which the P-channel MOSFET transistor 76 is blocked. No signal then appears on the control line 82 . The valve 26 is closed.

If the missile is to be prepared for launch, then the relay 36 is briefly energized by actuating the actuator 34 via the control line 32 . As a result, the normally closed contact 38 opens. The potential of line 42 changes accordingly briefly. With this change, the bistable circuit 50 is set to its other switching state. The P-channel MOSFET transistor 76 becomes conductive. This connects control line 82 to line 58 and sets it to 25 volts. The valve 26 is opened via the control line 82 . Coolant, usually compressed air, flows to the cooler 22 . The cooler cools the detector 20 to the required low temperature. This reduces the noise and increases the sensitivity of the detector. The pilot recognizes this by the decreasing noise in the "Missile Audio" signal.

Then the relay 36 can be continuously excited by continuous actuation of the actuating member 34 . As a result, the normally closed contact 38 also opens continuously and releases the capturing of the finder optics by switching off the capturing means 46 . However, this switchover no longer has any influence on the switching state of the bistable circuit 50 . Accordingly, the valve 26 for the coolant remains open.

A single control line 32 is thus used for two circuits, namely the release of the coolant supply to the cooler 22 and the switching on and off of the restraint means 46 for the viewfinder optics. As a result, missiles with Joule-Thomson cooling of the detector can also be used with launch devices that do not have a separate control line for releasing the coolant.

Claims (1)

Device for releasing the coolant supply to a cooler ( 22 ) for the detector ( 20 ) of an optical viewfinder ( 18 ) in a missile, which is arranged in a launching device ( 14 ) attached to an aircraft ( 12 ),
whereby captive means ( 46 ) are provided for capturing the movable finder optics of the finder, which can be unlocked for target tracking prior to use of the missile via a control line ( 32 ) led from the cockpit ( 10 ) of the aircraft ( 12 ) to the starter device ( 14 ), thereby characterized in that

• a) on the missile side of the control line ( 32 ) there is a bistable circuit ( 50 ) which can be set into an activated state and remains in this state by an unlocking signal for the captive means ( 46 ) on said control line ( 32 ), and
• b) by means of this bistable circuit ( 50 ), in its activated state, a valve ( 26 ) controlling the coolant supply to the cooler ( 22 ) can be activated.