KR102557480B1 - Air-to-air guided missile simulation launch system and method therefor - Google Patents

Abstract

An air-to-air guided missile simulation launch system is initiated. A mock launch system for an air-to-air guided missile according to an embodiment includes a launcher adapter mounted on a launcher of an aircraft in place of the missile generating an operation signal, an interface box for transmitting and receiving electrical signals between the launcher adapter and the missile, and the A monitoring device connected to an interface box, wherein the interface box receives a first signal from the launcher adapter, transmits the received first signal to the missile, and the missile receiving the first signal The transmitted second signal may be received, and the received second signal may be corrected into a third signal and transmitted to the launcher adapter. In addition to this, various embodiments may be possible.

Description

Air-to-air guided missile simulation launch system and method therefor {AIR-TO-AIR GUIDED MISSILE SIMULATION LAUNCH SYSTEM AND METHOD THEREFOR}

The following disclosure relates to a simulated firing system for an air-to-air guided missile and a method therefor.

Air-to-air missiles are launched by transmitting data to or receiving data from the aircraft while mounted on the aircraft prior to launch. However, it is impossible to monitor signals transmitted and received in relation to the target and the searcher in detail while the missile tracks the target by linking the air-to-air missile with the actual aircraft in real time. In addition, it is very difficult to monitor and verify all signals during the launch process in a real aircraft equipped with a real guided missile. Accordingly, in order to develop an air-to-air missile, there is a demand for a system that verifies whether the launch procedure proceeds normally by monitoring interlocking signals with an aircraft in detail and simulating the process of launching a missile without actually launching the missile.

For example, Korean Patent Registration No. 1 0-2421094 discloses a “guided missile launch system and method”.

The above background art is possessed or acquired by the inventor in the process of deriving the disclosure of the present application, and cannot necessarily be said to be known art disclosed to the general public prior to the present application.

An object according to an embodiment is to provide an air-to-air missile mock launch system capable of monitoring all signals transmitted and received in an environment in which an aircraft and a missile are interlocked.

An object according to an embodiment is to provide an air-to-air missile simulation system capable of simulating a firing state of a missile without actually launching the missile.

An object according to an embodiment is to provide a method for simulating an air-to-air missile launch by monitoring signals transmitted and received in real time in an environment in which an aircraft and a missile are interlocked, and simulating a firing state of the missile.

A mock launch system for an air-to-air guided missile according to an embodiment includes a launcher adapter mounted on a launcher of an aircraft in place of the missile generating an operation signal, an interface box for transmitting and receiving electrical signals between the launcher adapter and the missile, and the A monitoring device connected to an interface box, wherein the interface box receives a first signal from the launcher adapter, transmits the received first signal to the missile, and the missile receiving the first signal The transmitted second signal may be received, and the received second signal may be corrected into a third signal and transmitted to the launcher adapter. In an embodiment, when at least a part of the launcher adapter has a shape corresponding to that of the missile, and the launcher adapter is mounted on the launcher, it may be recognized that the missile is mounted on the launcher.

In one embodiment, the launcher adapter includes a first front connector fixed to the launcher, a first center connector fixed to the launcher, and a first motor fire that operates by receiving a firing signal, and the guided missile includes: A second front connector corresponding to the first front connector, a second central connector corresponding to the first central connector, and a second motor fire corresponding to the first motor fire may be included.

In one embodiment, the interface box may include a first connector for transmitting and receiving signals to and from the first front connector of the launcher adapter, a second connector for transmitting and receiving signals to and from the first central connector of the launcher adapter, and a first connector of the launcher adapter. A third connector for transmitting and receiving signals to and from the motor fire, a fourth connector for transmitting and receiving signals to and from the second front connector of the missile, a fifth connector for transmitting and receiving signals to and from the second central connector of the missile, and a second connector of the guided missile A sixth connector for transmitting and receiving signals to and from the motor fire and a seventh connector for transmitting and receiving signals to and from the monitoring device may be included.

In one embodiment, the interface box further includes an eighth connector for transmitting and receiving signals to and from an integrated test environment (SIL) of an aircraft for the operation of the guided missile, and the interface box comprises the eighth connector through the eighth connector. Discrete signals, analog signals, and serial communication signals can be received according to the integrated test environment.

In one embodiment, the interface box may transmit the first signal received from the launcher adapter to the monitoring device, and the monitoring device may display and store the first signal received from the interface box in real time.

In one embodiment, when the launcher adapter is mounted on the launcher, the launcher adapter transmits the first signal to the interface box, and when the third signal is transmitted to the launcher adapter, the guided missile transmits the launcher It can be recognized as being installed in the .

The air-to-air missile mock launch system according to an embodiment may further include a measurement unit electrically connected to the interface box and measuring the first signal, the second signal, and the third signal.

A simulated launch method of an air-to-air guided missile according to an embodiment includes providing a launcher adapter mounted on a launcher in place of the missile, and transmitting a mounting signal of the launcher adapter to the launcher to an interface box from the launcher adapter. transmitting the mounting signal from the interface box to the missile; transmitting a launch signal generated from the missile to the interface box; transmitting the launch signal from the interface box to the launcher adapter; Transmitting a separation signal of the launcher adapter for the launcher generated in response to the launch signal from the launcher adapter to the interface box, transmitting the separation signal from the interface box to the guided missile, according to the separation signal transmitting a mounting state signal from the missile to the interface box, correcting the mounting state signal to a missile detachment state signal, and transmitting the missile detachment state signal from the interface box to the launcher adapter; and and monitoring the mounting signal, the separation signal, the mounting state signal, and the guided missile separation state signal transmitted to a monitoring device.

The simulated launch method of an air-to-air missile according to an embodiment further includes transmitting the mounting signal from the interface box to the monitoring device, wherein the monitoring device receives the mounting signal and the separation signal from the interface box. , The mounting state signal and the guided missile separation state signal may be displayed and stored in real time.

An air-to-air missile mock launch system according to an embodiment may monitor signals transmitted and received between an aircraft and a missile.

The air-to-air missile simulation launch system according to an embodiment may simulate a launch state of the missile by correcting signals transmitted and received between the aircraft and the missile.

In the simulated launch method of an air-to-air missile according to an embodiment, signals transmitted and received between an aircraft and a missile may be displayed and stored in real time.

Effects of the air-to-air guided missile mock launching system and the air-to-air guided missile mock launching method according to an embodiment are not limited to those mentioned above, and other effects not mentioned may be clearly understood by those skilled in the art from the description below. There will be.

1 is a block diagram of a simulated launch system for an air-to-air guided missile according to an embodiment.
2A is a perspective view of a launcher adapter according to an embodiment.
2B is a plan view of a launcher adapter according to an embodiment.
2C is a front view of a launcher adapter according to one embodiment.
3A is a diagram schematically illustrating a simulated firing system for an air-to-air guided missile according to an exemplary embodiment.
FIG. 3B is an enlarged view of area A of FIG. 3A.
FIG. 3C is an enlarged view of region B of FIG. 3A.
FIG. 3D is an enlarged view of area C of FIG. 3A.
FIG. 3E is an enlarged view of area D of FIG. 3A.
4 is a flowchart of a method for mock launching an air-to-air missile according to an embodiment.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. However, since various changes can be made to the embodiments, the scope of rights of the patent application is not limited or limited by these embodiments. It should be understood that all changes, equivalents or substitutes to the embodiments are included within the scope of rights.

Terms used in the examples are used for descriptive purposes only and should not be construed as limiting. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, terms such as "include" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the embodiment belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the present application, they should not be interpreted in an ideal or excessively formal meaning. don't

In addition, in the description with reference to the accompanying drawings, the same reference numerals are given to the same components regardless of reference numerals, and overlapping descriptions thereof will be omitted. In describing the embodiment, if it is determined that a detailed description of a related known technology may unnecessarily obscure the subject matter of the embodiment, the detailed description will be omitted.

Also, terms such as first, second, A, B, (a), and (b) may be used in describing the components of the embodiment. These terms are only used to distinguish the component from other components, and the nature, order, or order of the corresponding component is not limited by the term. When an element is described as being “connected,” “coupled to,” or “connected” to another element, that element may be directly connected or connected to the other element, but there may be another element between the elements. It should be understood that may be "connected", "coupled" or "connected".

Components included in one embodiment and components having common functions will be described using the same names in other embodiments. Unless stated to the contrary, descriptions described in one embodiment may be applied to other embodiments, and detailed descriptions will be omitted to the extent of overlap.

1 is a block diagram of a simulated launch system for an air-to-air guided missile according to an embodiment.

The air-to-air guided missile mock launch system 1 (hereinafter, referred to as 'simulated launch system') according to an embodiment can monitor the firing procedure of the air-to-air missile without actually launching the air-to-air missile. In one embodiment, the simulated launch system 1 may provide an environment similar to actually launching an air-to-air guided missile. For example, the simulated launch system 1 may provide an environment in which an aircraft and a missile are interlocked through a launcher adapter to be described later. The mock launch system 1 provides a system electrically connected to the aircraft and the missile, so that signals transmitted and received between the aircraft and the missile can be transmitted and received. In one embodiment, the mock launch system 1 may monitor signals transmitted and received between the aircraft and the missile, and may measure and analyze the signals. In one embodiment, the simulation launch system 1 may simulate a launching process of a guided missile. The mock launch system 1 may obtain data for the final launch of the missile by sequentially applying signals transmitted and received between the aircraft and the missile according to the missile launch process.

Referring to FIG. 1 , a mock launch system 1 according to an embodiment replaces a guided missile 10 that generates an operation signal and includes a launcher adapter 12 and a launcher adapter 12 mounted on a launcher 11 of an aircraft. and an interface box 13 for transmitting and receiving electrical signals between the missiles 10, a monitoring device 14 connected to the interface box 13 and monitoring signals transmitted and received through the interface box 13, and a measurement unit 15. can do.

In one embodiment, the missile 10 may transmit an activation signal to the interface box 13 or receive an activation signal from the interface box 13 .

In one embodiment, the launcher 11 may be installed in an aircraft. In one embodiment, a guided missile may be mounted on the launcher 11 . For example, in order to launch a guided missile through an aircraft, a launcher 11 is required to mount the missile and launch the mounted missile. For example, the launcher 11 may include a mounting space (not shown) for mounting a guided missile.

In one embodiment, the launcher adapter 12 may be connected to the launcher 11 of the aircraft. In one embodiment, the launcher adapter 12 replaces the missile and is connected to the launcher 11, and may operate in response to the missile during the simulated launch of the missile. In one embodiment, at least a part of the launcher adapter 12 may have a shape corresponding to a guided missile, and may include a configuration corresponding to a guided missile. For example, as will be described later, the launcher adapter 12 includes one or more connectors formed on the guided missile 10 and corresponding connectors (eg, the first front connector 121 of FIG. 2A, the first center connector 122, etc.) ), and may be electrically connected to the launcher 11 through the connector. In one embodiment, the launcher adapter 12 may receive a signal from the aircraft by being connected to the launcher 11, and the simulated launch system 1 may transmit a signal to the aircraft through the launcher adapter 12 .

In one embodiment, the interface box 13 may connect the launcher adapter 12 and the missile 10. For example, the interface box 13 may include one or more connectors for connecting to the launcher adapter 12 and the missile 10, respectively, and may be connected to the launcher adapter 12 and the missile 10 through the connector. there is. In one embodiment, the interface box 13 may perform a function of connecting the missile 10 and the launcher adapter 12 connected to the launcher 11 of the aircraft. In one embodiment, the interface box 13 may calibrate and/or transmit and receive signals so that signals may be transmitted to and from aircraft and missiles. In one embodiment, the interface box 13 may transmit signals transmitted and received between the aircraft and the missile 10 to the monitoring device 14 and the measurement unit 15 .

In one embodiment, the monitoring device 14 may be electrically connected to the interface box 13 . In one embodiment, the monitoring device 14 may receive signals from the interface box 13 . In one embodiment, the monitoring device 14 may display and store the received signal. The monitoring device 14 may be a computer device, but the computer device is just one example, and the monitoring device 14 may refer to any device having a signal display and/or signal storage function.

In one embodiment, the measuring unit 15 may be electrically connected to the interface box 13 . In one embodiment, signals transmitted and received to the aircraft and the missile 10 through the interface box 13 may be diverged by the interface box 13 and transmitted to the measurement unit 15 . In one embodiment, the measurement unit 15 may measure the signal received from the interface box (13). For example, the measuring unit 15 may be a multimeter or an oscilloscope for measuring signals. However, this is only one example, and it can be understood that the measurement unit 15 means any device having a signal measurement function.

2A is a perspective view of a launcher adapter according to an embodiment, FIG. 2B is a plan view of the launcher adapter according to an embodiment, and FIG. 2C is a front view of the launcher adapter according to an embodiment.

Referring to FIGS. 2A to 2C , the launcher adapter 12 may be mounted on the launcher 11 instead of the guided missile 10 . In one embodiment, at least a part of the launcher adapter 12 may have a shape corresponding to that of the guided missile 10 . For example, at least a portion of the launcher adapter 12 may have substantially the same shape as the guided missile 10 (eg, a fan shape) based on a direction facing the ground (eg, a +Z direction). The launcher adapter 12 may be formed along a longitudinal direction (eg, an X-axis direction) corresponding to the guided missile 10 . In one embodiment, the launcher adapter 12 receives a launch signal from the first front connector 121, the first central connector 122 and the aircraft to be connected to the launcher 11 of the aircraft to the interface box 13 It may include a first motor fire 123 for transmitting.

In one embodiment, the missile 10 includes a second front connector 101 for connecting to the launcher 11, a second central connector 102, and a second motor fire 103 operating by receiving a launch signal from the aircraft. can be formed. In this case, the first front connector 121, the first center connector 122, and the first motor fire 123 of the launcher adapter 12 are the second front connector 101 of the missile 10, the second center connector 102 and the second motor fire 103, respectively, are connected in the same way to the launcher 11 and can function in the same way.

In one embodiment, the first front connector 121 and the first central connector 122 may fix the launcher adapter 12 to the launcher 11 . In one embodiment, the first motor fire 123 may operate by receiving a firing signal.

In one embodiment, the first front connector 121, the first central connector 122, and the first motor fire 123 of the launcher adapter 12 may be connected to corresponding connection devices of the launcher 11. In one embodiment, when the launcher adapter 12 is mounted on the launcher 11 through the first front connector 121, the first central connector 122, and the first motor fire 123, the missile mounting signal is transmitted to the launcher. By being transmitted to the launcher 11 through the adapter 12, it is possible to simulate that the missile is mounted on the aircraft.

3A is a diagram schematically illustrating an air-to-air missile mock launch system according to an embodiment, FIG. 3B is an enlarged view of area A of FIG. 3A, and FIG. 3C is an enlarged view of area B of FIG. 3A 3D is an enlarged view of area C of FIG. 3A, and FIG. 3E is an enlarged view of area D of FIG. 3A.

3A to 3E, the interface box 13 is connected to the launcher adapter 12 and the missile 10, and transmits/receives signals of each component of the launcher adapter 12 and the missile 10 individually. can For example, the interface box 13 may include a plurality of connectors individually connected to each connector of the launcher adapter 12 and each connector of the guided missile 10 . For example, the interface box 13 includes a first connector C1 for transmitting and receiving signals to and from the first front connector 121 of the launcher adapter 12, and a first central connector 122 of the launcher adapter 12 and signals. A second connector (C2) for transmitting and receiving a signal, a third connector (C3) for transmitting and receiving a signal to and from the first motor fire 123 of the launcher adapter 12, and a signal with the second front connector 101 of the missile 10 A fourth connector (C4) for transmitting and receiving a signal, a fifth connector (C5) for transmitting and receiving a signal with the second central connector 102 of the missile 10, and a signal for transmitting and receiving a signal with the second motor fire 103 of the missile 10 It may include a sixth connector (C6) to. In one embodiment, the interface box 13 is electrically connected to the launcher adapter 12 through first connectors C1 to third connectors C3, and fourth connectors C4 to sixth connectors C6. It can be electrically connected to the guided missile 10 through.

The interface box 13 according to an embodiment includes a plurality of connectors, so that the missile 10 electrically connected to the interface box 13, the launcher adapter 12, the monitoring device 14, the measurement unit 15, and Signals received from the integrated test environment (SIL) can be individually received. The interface box 13 may individually monitor signals generated from each component by individually receiving signals generated from each component of the mock launching system 1 .

In one embodiment, the interface box 13 may transmit signals transmitted and received between the launcher adapter 12 and the missile 10 to the launcher adapter 12 and the missile 10 . For example, the interface box 13 may receive a first signal from the launcher adapter 12 and transmit the received first signal to the guided missile 10 . For example, when the launcher adapter 12 is mounted on the launcher 11 of the aircraft, the launcher adapter 12 may transmit a first signal (eg, a missile loading signal) to the interface box 13 . In one embodiment, the guided missile 10 receiving the first signal may transmit the second signal to the interface box 13 . In one embodiment, the interface box 13 may correct the second signal received from the missile 10 into a third signal (eg, a corrected missile mounting signal). In one embodiment, the interface box 13 may transmit a third signal to the launcher adapter 12 . In one embodiment, the launcher adapter 12 receiving the third signal may transmit a fourth signal (eg, a separate signal of the launcher adapter 12 to the launcher 11 ) to the interface box 13 . In one embodiment, when the interface box 13 receives the final launch signal from the aircraft, the interface box 13 may transmit the final launch signal to the missile 10, receive it from the missile 10, and launch the launcher ( The launch state of the guided missile 10 may be simulated by correcting the third signal transmitted to 11). In one embodiment, when the firing state of the missile 10 is simulated, it can be confirmed that the firing process of the missile 10 has ended through the missile 10 being shown in an unmounted state in the aircraft.

In one embodiment, the interface box 13 may be electrically connected to the monitoring device 14 . The interface box 13 may include a seventh connector C7 for transmitting and receiving signals to and from the monitoring device 14 . In one embodiment, the interface box 13 may transmit signals (eg, first to fourth signals) transmitted and received through the interface box 13 to the monitoring device 14 . The monitoring device 14 may display and store signals received from the interface box 13 .

In one embodiment, the interface box 13 may be electrically connected to the system integration laboratory (SIL) of the aircraft. The aircraft integrated test environment may refer to an environment configured with the same equipment as the actual aircraft and capable of performing the integrated test of the aircraft. The interface box 13 may include an eighth connector C8 for transmitting and receiving signals to and from the integrated test environment of the aircraft. In one embodiment, the interface box 13 receives a discrete signal, an analog signal, or a serial communication signal (eg, MIL-STD-1553) according to an integrated test environment through an eighth connector (C8). signal) may be received from the integrated test environment and sent to the launcher adapter 12 . In one embodiment, through the function of transmitting and distributing signals between the interface box 13 and the integrated test environment, the simulated launch system 1 is capable of distributing signals transmitted and received between the actual aircraft and the guided missile, without the need for a pylon to transmit and receive signals between the aircraft and the launcher 11. can provide an environment in which integrated tests can be performed in conjunction with each other.

In one embodiment, the interface box 13 may be electrically connected to the measurement unit 15 . In one embodiment, the interface box 13 may transmit signals (eg, first to fourth signals) transmitted and received through the interface box 13 to the measurement unit 15 . The measuring unit 15 may measure and/or analyze a signal received from the interface box 13 .

Hereinafter, a method for simulated launching of an air-to-air guided missile according to an embodiment (hereinafter, referred to as 'simulated launch method') will be described. In describing the simulated firing method, description overlapping with the above-mentioned description will be omitted. In addition, unless otherwise specified, the same terms as the above-mentioned terms can be understood as meaning the same configuration.

4 is a flowchart of a method for mock launching an air-to-air missile according to an embodiment.

In one embodiment, the mock firing method may be performed by a processor. The simulated firing method may be automatically performed according to setting conditions input to the processor. In one embodiment, each step of the simulated firing method is not necessarily performed in the order shown in the drawing, but may be performed simultaneously. In one embodiment, at least one step of the mock firing method may be omitted, and at least one step may be repeatedly performed.

Referring to FIG. 4 , the simulated launch method according to an embodiment may be used to simulate launch of an air-to-air missile. In one embodiment, the mock launching method may be performed by a mock launching system.

In the simulated launch method of an air-to-air guided missile according to an embodiment, in step 401, a launcher adapter mounted on a launcher is provided in place of the guided missile, and a mounting signal of the launcher adapter for the launcher is transmitted from the launcher adapter to an interface box. Transmitting (402), the mounting signal being transmitted from the interface box to the monitoring device (403), transmitting the mounting signal from the interface box to the guided missile (404), the firing signal generated from the guided missile is transmitted from the missile to the interface box (405), the launch signal is transmitted from the interface box to the launcher adapter (406), separation of the launcher adapter for the launcher generated in response to the launch signal A signal is transmitted from the launcher adapter to the interface box (407), the separation signal is transmitted from the interface box to the missile (408), and the mounting status signal according to the separation signal is transmitted from the missile to the interface box (409), the mounting status signal is corrected with a missile disengagement status signal, and the missile disengagement status signal is transmitted from the interface box to the launcher adapter (410), and the missile disengagement status signal is transmitted to the interface box A step 411 of monitoring the mounting signal, the separation signal, the mounting status signal, and the missile separation status signal by a monitoring device may be included.

In step 401, a launcher adapter (eg, the launcher adapter 12 of FIG. 1) having at least a part of the same shape as the guided missile may be provided. The launcher adapter may be mounted on a launcher (eg, the launcher 11 of FIG. 1 ) in place of the guided missile. When the launcher adapter is mounted on the launcher, it may be recognized that the guided missile is mounted on the launcher. For example, the launcher adapter may include a first front connector (eg, first front connector 121 in FIG. 2A ), a first center connector (eg, first center connector 122 in FIG. 2A ), and a first motor fire (eg, first center connector 122 in FIG. 2A ). Example: It can be mounted on the launcher through the first motor fire 123 of FIG. 2A.

In step 402, in a state where the launcher adapter is mounted on the launcher of the aircraft, a mounting signal of the launcher adapter may be transmitted from the launcher adapter to an interface box (eg, the interface box 13 of FIG. 1). For example, the interface box and the launcher adapter may be electrically connected through one or more connectors, and a mounting signal (eg, Interlock) of the launcher adapter may be transmitted to the interface box. The interface box transmits a signal (e.g., Interlock signal) identifying whether the first central connector of the launcher adapter is fastened to the guided missile, and transmits a signal (e.g., Interlock RTN) identifying whether the launcher adapter is mounted or not, received from the missile, to the launcher adapter. 1 It is transmitted through the central connector, and a signal (eg, OO Present signal, OO L/M ID) identifying whether or not the missile is equipped can be transmitted to the first front connector of the launcher adapter. The interface box simulates the digital operation of the missile when the signal identifying whether the first central connector is fastened is confirmed, and simulates the analog operation of the missile when the signal is not confirmed, thereby distinguishing the operating state of the missile.

In step 403, a mounting signal may be transmitted from the interface box to a monitoring device (eg, monitoring device 14 of FIG. 1). The interface box and monitoring device may be electrically connected. The monitoring device may display and store the mounting signal received from the interface box in real time. The monitoring device may receive all signals from the interface box transmitted and received between the aircraft and the missile (eg, the missile 10 of FIG. 1 ) as well as the mounted signal. The mock launch system (eg, the mock launch system 1 of FIG. 1 ) may monitor all signals transmitted and received in real time in an environment in which an aircraft and a missile are interlocked through a monitoring device.

In step 404, it may be determined whether or not the launch procedure has started based on the signal received from the launcher adapter. For example, the interface box can determine whether to start the firing process of a guided missile by checking the Release Consent signal when digital operation of a guided missile is simulated and by checking the Missile Active signal when analog operation of a guided missile is simulated. there is.

Also, a mounting signal received from the launcher adapter may be transmitted from the interface box to the guided missile. The missile may transmit the received mounting signal back to the interface box so that the aircraft can confirm that the missile is mounted. The interface box and missile may be electrically connected through one or more connectors.

In step 405, a firing signal generated from the missile may be transmitted from the missile to the interface box according to the mounting signal transmitted from the interface box to the missile. The guided missile may transmit a launch signal to the interface box in a state in which launch preparation is completed.

In step 406, when the interface box receives a launch signal (eg, Missile Launch) from the guided missile, the launch signal may be transmitted from the interface box to the launcher adapter.

In step 407, a launcher separation signal generated in response to the launch signal may be transmitted from the launcher adapter to the interface box.

In step 408, when the interface box receives a separation signal (eg, a motor fire signal) from the launcher adapter, the separation signal may be transmitted from the interface box to the missile.

In step 409, when the interface box receives the separation signal from the launcher adapter, the mounting status signal received from the missile is output by the interface box to the missile separation status signal (eg, OO Present signal open, OO L/M ID signal open, and Interlock signal). open RTN signal).

In one embodiment, the missile disengagement status signal may be transmitted from the interface box to the launcher adapter. In one embodiment, the final firing state of the missile may be simulated by the launcher adapter receiving the missile separation state signal from the interface box. As such, the mock launch system according to an embodiment may simulate a final firing state of the missile by correcting the mounting signal transmitted from the missile and providing the corrected signal to the launcher adapter.

In step 410, the mounting signal, the separation signal, the mounting status signal, and the missile separation status signal transmitted to the interface box may be transmitted to the monitoring device, and the monitoring device may monitor the signals received from the interface box. The monitoring device may display and store signals received from the interface box in real time.

As described above, the simulated launch method of the air-to-air missile may provide an environment in which all signals transmitted and received by the aircraft and the missile are monitored, stored, and analyzed in real time in a simulated state in which the missile is mounted on the launcher of the aircraft.

As described above, although the embodiments have been described with limited drawings, those skilled in the art can apply various technical modifications and variations based on the above. For example, the described techniques may be performed in an order different from the method described, and/or components of the described system, structure, device, circuit, etc. may be combined or combined in a different form than the method described, or other components may be used. Or even if it is replaced or substituted by equivalents, appropriate results can be achieved.

Therefore, other implementations, other embodiments, and equivalents of the claims are within the scope of the following claims.

1: Mock Launch System
10: guided missile
11: Launcher
12: launcher adapter
13: interface box
14: monitoring device
15: measurement unit

Claims (10)

In the simulated launch system of an air-to-air guided missile,
a launcher adapter mounted on a launcher of an aircraft to replace the guided missile generating an operation signal;
an interface box for transmitting and receiving electrical signals between the launcher adapter and the guided missile; and
Including a monitoring device connected to the interface box,
The interface box,
Receiving a first signal from the launcher adapter and transmitting the received first signal to the guided missile;
and receiving a second signal transmitted by the guided missile that has received the first signal, correcting the received second signal into a third signal, and transmitting the corrected signal to the launcher adapter.
According to claim 1,
At least a part of the launcher adapter has a shape corresponding to the missile,
When the launcher adapter is mounted on the launcher, the missile is recognized as being mounted on the launcher.
According to claim 1,
The launcher adapter,
a first front connector fixed to the launcher;
a first central connector fixed to the launcher; and
Including a first motor fire that operates by receiving a firing signal,
The guided missile,
a second front connector corresponding to the first front connector;
a second central connector corresponding to the first central connector; and
A mock launch system for an air-to-air guided missile comprising a second motor fire corresponding to the first motor fire.
According to claim 3,
The interface box,
a first connector for transmitting and receiving signals to and from the first front connector of the launcher adapter;
a second connector for transmitting and receiving signals to and from the first central connector of the launcher adapter;
a third connector for transmitting and receiving signals to and from the first motor fire of the launcher adapter;
a fourth connector for transmitting and receiving signals to and from the second front connector of the guided missile;
a fifth connector for transmitting and receiving signals to and from the second central connector of the guided missile;
a sixth connector for transmitting and receiving a signal to and from the second motor fire of the guided missile; and
A simulated launch system for an air-to-air guided missile comprising a seventh connector for transmitting and receiving signals to and from the monitoring device.
According to claim 4,
The interface box,
Further comprising an eighth connector for transmitting and receiving signals to and from an integrated test environment (SIL) of the aircraft for the operation of the missile,
wherein the interface box receives discrete signals, analog signals, and serial communication signals according to the integrated test environment through the eighth connector.
According to claim 1,
The interface box transmits the first signal received from the launcher adapter to the monitoring device,
wherein the monitoring device displays and stores the first signal received from the interface box in real time.
According to claim 1,
When the launcher adapter is mounted on the launcher, the launcher adapter transmits the first signal to the interface box;
When the third signal is transmitted to the launcher adapter, recognizing that the guided missile is mounted on the launcher, the air-to-air missile mock launch system.
According to claim 1,
and a measurement unit electrically connected to the interface box and measuring the first signal, the second signal, and the third signal.
In the simulated launch method of the air-to-air guided missile,
providing a launcher adapter mounted on the launcher to replace the guided missile;
transmitting a mounting signal of the launcher adapter to the launcher from the launcher adapter to an interface box;
transmitting the mounting signal from the interface box to the guided missile;
transmitting a firing signal generated from the missile to the interface box;
transmitting the launch signal from the interface box to the launcher adapter;
transmitting a separation signal of the launcher adapter for the launcher generated in response to the launch signal from the launcher adapter to the interface box;
transmitting the separation signal from the interface box to the missile;
transmitting an installation state signal according to the separation signal from the guided missile to the interface box;
correcting the mounting state signal into a missile separation state signal, and transmitting the missile separation state signal from the interface box to the launcher adapter; and
and monitoring the mounting signal, the separation signal, the mounting status signal, and the missile separation status signal transmitted to the interface box by a monitoring device.
According to claim 9,
Further comprising the step of transmitting the mounting signal from the interface box to the monitoring device,
The monitoring device
wherein the mounting signal, the separation signal, the mounting state signal, and the guided missile separation state signal received from the interface box are displayed and stored in real time.

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