CN209814280U - External airborne control system with independent power supply - Google Patents

Abstract

The application discloses external machine carries control system with independent power supply includes: the suspension device is detachably fixed outside the airplane to be adapted, an accommodating cavity is formed in the suspension device, and meanwhile, the suspension device is used for suspending a weapon to be carried and controlled to throw the weapon; the control management subsystem is arranged in the accommodating cavity of the suspension device and comprises control management equipment, and the control management equipment controls the suspension device to throw in the suspended weapon according to the received control instruction; and the power supply equipment is used for supplying power to the control management equipment and the suspension device. The application discloses external airborne control system with independent power supply is one set of external independent airborne control system to can with the original weapon fire control system concurrent operation of aircraft, can realize fast that different combat aircraft do not influence the normal work of original quick-witted system after installing additional to installing and user demand of novel weapon, and can effectual promotion aircraft combat ability.

Description

External airborne control system with independent power supply

Technical Field

The application belongs to the field of design and development of combat aircraft weapon fire control systems and aircraft and weapon refitting, and particularly relates to an external airborne control system with an independent power supply.

Background

The weapon attack capability of the battle airplane is mainly realized by the mutual and cooperative work of various airborne equipment (airborne weapon fire control system) arranged on the airplane, and the weapon attack capability is mostly required to be designed, developed and verified together with the airplane at the beginning of the development of the airplane or to be developed and realized by specially modifying the airborne system.

At present, the service life of a first-type combat aircraft is about 30 years or more, and with the continuous development and updating of airborne weapons, the timely increase of new weapon attack capability of an active aircraft becomes a conventional requirement; however, limited and restricted by the design of the initial system architecture of the operational aircraft, the addition of new weapon attack capability usually requires refitting, upgrading, integrating and verifying the original complex system (especially the control management subsystem) on the original aircraft, the development and verification process needs to be repeated once every weapon is added, and the design refitting person needs to be familiar with and master the original design state of the aircraft, and has the advantages of high cost, large workload, long time period, high implementation difficulty, high technical risk and small application range.

Accordingly, a technical solution is desired to overcome or at least alleviate at least one of the above-mentioned drawbacks of the prior art.

Disclosure of Invention

It is an object of the present application to provide an external onboard control system with an independent power source to solve at least one of the above problems

The application discloses external machine carries control system with independent power supply includes:

the suspension device is detachably fixed outside the airplane to be adapted, an accommodating cavity is formed in the suspension device, and meanwhile, the suspension device is used for suspending a weapon to be carried and throwing the weapon in a controlled manner;

a control management subsystem disposed within the containment cavity of the suspension device, wherein

The control management subsystem includes:

the control management equipment controls the suspension device to put the suspended weapon according to the received control instruction;

a power supply device for supplying power to the control management device and the suspension apparatus.

According to at least one embodiment of the application, the suspension device is detachably fixed at a hanging point location at the lower part of the aircraft to be fitted.

According to at least one embodiment of the application, the top structure of the suspension device is configured to be matched with a suspension interface of the primary suspension rack of the aircraft hanging point to be matched, and is fixedly suspended at the lower part of the primary suspension rack.

According to at least one embodiment of the application, the suspension device is a missile hanging rack or a launching rack, and the bottom of the suspension device is provided with a missile hanging hook matched with a hanging point of the weapon.

According to at least one embodiment of the present application, the control management subsystem includes:

the navigation equipment is connected with the control management equipment;

the satellite signal receiving antenna is respectively connected with the control management equipment and the navigation equipment; wherein

The control management device is configured to control the navigation device to enter an alignment state or a navigation state according to the received alignment instruction or navigation instruction;

the power supply equipment is connected with the navigation equipment and used for supplying power to the navigation equipment.

According to at least one embodiment of the present application, the navigation device is a combined inertial/satellite navigation device.

According to at least one embodiment of the present application, the control management apparatus includes:

and the weapon control unit is used for carrying out corresponding control operation on the weapon according to the received operation instruction.

According to at least one embodiment of the present application, the weapon control unit comprises:

and the power-on unit is used for controlling the power supply equipment to power on the weapon according to the received power-on instruction.

According to at least one embodiment of the present application, the weapon control unit comprises:

the preparation unit is used for controlling the weapon to carry out preparation operation before emission according to the received preparation instruction;

the parameter binding unit receives a weapon use scheme and a target data binding instruction sent by the control device through the communication device, and performs target data binding operation on the weapon according to the target data binding instruction;

and the launching calculation unit is used for finishing weapon attack envelope calculation and launching condition calculation, reporting a calculation result to the control equipment through the communication equipment, receiving a launching instruction sent by the control equipment, and controlling the suspension device to finish the launching operation of the weapon according to the launching instruction.

According to at least one embodiment of the present application, the control management apparatus includes:

and the state reporting unit is used for monitoring the state of the control management equipment and reporting the generated state information.

The application has at least the following beneficial technical effects:

the application discloses external airborne control system with independent power supply is one set of external independent airborne control system to can with the original weapon fire control system concurrent operation of aircraft, can realize fast that different combat aircraft do not influence the normal work of original quick-witted system after installing additional to installing and user demand of novel weapon, and can effectual promotion aircraft combat ability.

Drawings

FIG. 1 is a system block diagram of an external onboard control system with an independent power supply according to the present application.

Detailed Description

In order to make the implementation objects, technical solutions and advantages of the present application clearer, the technical solutions in the embodiments of the present application will be described in more detail below with reference to the drawings in the embodiments of the present application. In the drawings, the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The described embodiments are a subset of the embodiments in the present application and not all embodiments in the present application. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present application and should not be construed as limiting the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application. Embodiments of the present application will be described in detail below with reference to the accompanying drawings.

In the description of the present application, it is to be understood that the terms "center", "longitudinal", "lateral", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present application and for simplifying the description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore should not be construed as limiting the scope of the present application.

The external onboard control system with independent power supply of the present application is further described in detail with reference to fig. 1.

The application discloses an external airborne control system with an independent power supply, which can comprise a suspension device 1, a control management subsystem 3 and an operation device 4.

The suspension device 1 is detachably fixed outside the aircraft to be fitted, for example at the bottom of the aircraft body; meanwhile, the suspension device 1 is used to suspend a suspension to be carried, which may be, for example, a weapon 2, a pod, or the like.

The control management subsystem 3 is detachably fixed outside the airplane to be adapted; the control management subsystem 3 is configured to receive a control command sent by the corresponding control device 4, and perform corresponding control on the suspension according to control information included in the control command, for example, control the release and launch of the weapon 2, and control the release of the pod.

The control device 4 is used for controlled (e.g., manual control by the driver) transmission of a control command to the control management subsystem 3.

The application discloses external airborne control system with independent power supply is one set of external independent airborne control system to can with the original weapon fire control system concurrent operation of aircraft, can realize fast that different combat aircraft do not influence the normal work and the operational capability performance of original quick-witted system after installing additional to the additional installation and the user demand of suspender (novel weapon other suspenders).

In some alternative embodiments, the suspension device 1 is detachably fixed at a suspension point location at the lower part of the aircraft to be fitted. Further, the suspension device 1 is detachably fixed at the lower part of the primary suspension rack of the airplane to be adapted, wherein the top structure of the suspension device 1 can be configured to be adapted to the suspension interface of the primary suspension rack of the airplane to be adapted, so as to be fixedly suspended at the lower part of the primary suspension rack.

In some alternative embodiments, control management subsystem 3 may include communication device 31, control management device 32, and power supply device 33.

The communication device 31 may be used in cooperation with the above-described manipulation device 4 by using a known wired communication device or a wireless communication device, for example.

Preferably, the manipulation device 4 is a wireless controller, such as a tablet, a mobile phone, etc. in a portable wireless smart terminal, and correspondingly, the communication device 31 is a wireless communication device, such as a wireless router, a wireless communication antenna. In some optional embodiments, the portable wireless intelligent terminal integrates a miniaturized board card and a wireless antenna, the working frequency band and the signal intensity can be set and adjusted, 24 wireless controllers can work simultaneously in the same area, and a single wireless controller can control and manage 10 wireless communication terminals simultaneously; the touch display screen is anti-strong light reflection, supports day and night modes, and is visible in strong sunlight; the rechargeable battery is small and efficient, and can work for a long time, and the working time is not less than 4 hours. The multifunctional electronic weapon has the functions of realizing power switch, screen locking, weapon launching, emergency releasing and the like through physical keys. The portable type four-limb chair can be reliably fixed on four limbs of a person or a cabin equipment mounting rack through the modes of a binding band and the like, and has the characteristics of small size, portability, clear images, strong processing capability and the like.

The control management device 32 is mainly used for receiving the manipulation instruction sent by the manipulation device 4 through the communication device 31 and manipulating the weapon 2 according to the manipulation instruction.

In the external airborne control system with an independent power supply of the present application, the control management device 32 may be a weapon fire control computer device; the weapon fire control computer adopts a miniaturized high integration technology and mainly comprises a case, a computer module, a bus communication module, an acquisition and recording module, a radio frequency wireless module, a discrete interface module, a power supply and monitoring module, a bus bottom plate and the like, and software adopts an open architecture and a modular design and has strong expandability. The device functionality may be incorporated into the portable wireless controller and battery power supply as necessary.

The power supply device 33 may be connected with the control management device 32, the communication device 31 and the suspension apparatus 1 for supplying power to the control management device 32, the communication device 31 and the suspension apparatus 1. The power supply device 33 may employ any of a variety of suitable batteries or power supplies, preferably a battery power supply in this embodiment; the storage battery power supply mainly comprises a single battery pack, a shell structure, a jumper, an electric connector, a circuit breaker, a heat insulation layer, fasteners and the like, adopts a real-time monitoring and quick assembling and disassembling interface, and has the characteristics of long endurance time, wide temperature resistance, complex working environment, long maintenance period interval and the like.

In some alternative embodiments, the suspension device 1 is a missile hanger or a launcher; a hook adapted to the weapon suspension interface is arranged at the bottom of the suspension device 1.

Correspondingly, control management subsystem 3 may further include navigation device 34, satellite signal receiving antenna 35 (e.g., GPS antenna).

The number of the navigation devices 34 is one, and is connected to the control management device 32. Further, the navigation device 34 is preferably an inertial satellite integrated navigation device, which mainly comprises a chassis, an inertial sensitive component and an electronic component, has a pure inertial and GPS, beidou and other satellite integrated navigation modes, and is used for providing high-precision position, speed and attitude information.

The number of the satellite signal receiving antennas 35 is one, and the satellite signal receiving antennas are respectively connected with the control management device 32 and the navigation device 34; the satellite signal receiving antenna 35 (satellite antenna) is used for receiving and forwarding satellite signals to the inertial/satellite combined navigation device and control management device 32, and has GPS and Beidou satellite signal receiving capabilities.

Wherein the control management device 32 is configured to control the navigation device 34 to enter the alignment state or the navigation state according to the received alignment instruction or the navigation instruction. Accordingly, the control device 4 is used to send control information containing alignment instructions or navigation instructions to the control management device 32 in a controlled manner. Further, the power supply device 33 described above may also be connected to the navigation device 34 so as to supply power to the navigation device 34.

Further, the control management apparatus 32 may further include a weapon control unit. The weapon control unit receives control information containing a control command sent by the control device 4 through the communication device 31, and controls and operates the weapon according to the control command.

Specifically, the weapon control unit may further include a power-on unit, a preparation unit, a parameter binding unit, a transmission resolving unit, and a status reporting unit.

The power-on unit can receive a power-on instruction sent by the control device 4 through the communication device 31, and control the power supply device 33 to power on the weapon according to the power-on instruction; the control device 4 is further configured to send control information containing a power-on instruction to the control management device 32 in a controlled manner.

The preparation unit can receive the preparation instruction sent by the control device 4 through the communication device 31 and control the weapon to carry out the preparation operation before the emission according to the preparation instruction.

The parameter binding unit can receive the weapon use scheme and the target data binding instruction sent by the control device 4 through the communication device 31, and perform target data binding operation on the weapon according to the target data binding instruction.

The launching resolving unit completes weapon attack envelope and launching condition resolving, reports resolving results to the control device 4 through the communication device 31, receives launching instructions sent by the control device 4, and controls the suspension device 1 to complete weapon launching operation according to the launching instructions.

Further, the state reporting unit may be configured to monitor a state of the control management device 32 in response to the control information of the control device 4, generate state information, and feed back the state information to the control device 4 through the communication device 31.

In some alternative embodiments, the suspension device 1 is provided with an accommodating cavity inside, and each device in the control management subsystem 3 is fixedly arranged in the accommodating cavity of the suspension device 1; wherein, the quantity, size, the structure of holding the chamber can carry out suitable setting according to specific equipment of holding in advance. Particularly, when the suspension is a weapon 2, the suspension device 1 (i.e. the cartridge suspension) is a mounting and carrying platform for the weapon/suspension and system equipment, is used for docking with an aircraft suspension point interface and carrying and launching the weapon/suspension, and is used for mounting and carrying system energy sources (storage batteries), control management equipment (weapon fire control computer), sensors (inertial navigation/satellite combined navigation equipment) and other equipment. At the moment, the hanger structure needs to have enough strength, rigidity and shape space so as to meet the requirements of installing and arranging the bullet hooks, system equipment and hanging and carrying the shooting weapons/suspenders, the interfaces on the hanger need to have the universal interface capacity for butting with the primary hanger interfaces of different types of airplanes, and the bullet hooks adopt a single-hanging distance or composite-hanging distance (the hanging distance and the structural form can be selected) form so as to meet the butting and hanging and throwing requirements of different interface weapons/suspenders.

In summary, in some optional embodiments of the external airborne control system with an independent power supply of the present application, the control management device 32 (i.e., the weapon fire control computer) is a control core, has the satellite navigation information receiving and processing capabilities of GPS, beidou, and the like, is respectively linked with the storage battery power supply, the inertial navigation/satellite combined navigation device, the control device 4 (i.e., the portable wireless controller), and the like, and performs information interaction with the portable wireless controller, thereby completing logic control such as power supply, alignment, resolving, launching, weapon switching, hanging point switching, and the like, and reporting status display.

Further, the control device 4 (i.e., the portable wireless controller) has a long-term self-power supply capability, establishes wireless communication with the system weapon fire control computer through the antenna, provides important information display and solution such as a system state, a weapon state, an attack situation, an attack area and the like for a pilot/operator, and provides human-machine control interfaces such as weapon power supply, transfer alignment, weapon firing and emergency firing instructions.

Furthermore, the external airborne control system with the independent power supply can also comprise ground task management equipment; the ground task management equipment mainly comprises a portable computer, a switching cable, task management software and the like, and is used for planning and generating target data, weapon binding parameters and working frequency point information. The ground task management equipment can also be used for generating a weapon use scheme, attack parameters, an attack route, a weapon plan attack area and the like on the ground according to a plan of operation, and binding the results into the portable wireless controller and the weapon fire control computer to serve as a reference basis for actual flight and attack calculation.

The external airborne control system with the independent power supply is an external independent airborne control system, can work in parallel with an original weapon fire control system of an airplane, and can quickly meet the requirements of different combat airplanes on installation and use of suspenders (novel weapons/other suspenders); in addition, the aircraft is only mechanically connected with the aircraft, and the normal work and the fighting capacity exertion of the original aircraft system are not influenced after the aircraft is additionally arranged; furthermore, the system provides working power and realizes power supply, control, display and information interaction of weapons/suspenders, and does not need an airplane to provide power and control signal crosslinking; furthermore, the system is hung and installed under the primary hanging rack of the airplane hanging point through a universal mechanical interface, software and hardware change is not needed to be carried out on the airplane, the system can be adapted to various combat airplane platforms, the additional installation and use requirements of different combat airplanes on suspended objects (novel weapons/other suspended objects) can be met, and the combat capability can be formed rapidly.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present application should be covered within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. An external airborne control system having an independent power source, comprising:

the suspension device (1) is detachably fixed outside an airplane to be adapted, a containing cavity is formed in the suspension device (1), and meanwhile, the suspension device (1) is used for suspending a weapon (2) to be carried and controlled to throw the weapon (2);

a control management subsystem (3), the control management subsystem (3) being arranged in a receiving cavity of the suspension device (1), wherein

The control management subsystem (3) includes:

the control management device (32), the control management device (32) controls the suspension device (1) to throw the suspended weapon (2) according to the received control instruction;

a power supply device (33), the power supply device (33) being configured to supply power to the control and management device (32) and to the suspension arrangement (1).

2. The external onboard control system with independent power supply according to claim 1, characterized in that said suspension means (1) are removably fixed at the point of attachment of the lower part of the aircraft to be fitted.

3. The external airborne control system with independent power supply according to claim 2, characterized in that the top structure of the suspension device (1) is configured to be matched with the suspension interface of the primary suspension rack of the airplane suspension point to be matched, and is fixedly suspended at the lower part of the primary suspension rack.

4. The external airborne control system with independent power supply according to claim 3, characterized in that the suspension device (1) is a bullet hanging rack or a launching rack, and the bottom of the suspension device (1) is provided with a bullet hanging hook matched with the hanging point of the weapon (2).

5. The system according to claim 1, characterized in that said control management subsystem (3) comprises:

a navigation device (34), the navigation device (34) being connected with the control management device (32);

a satellite signal receiving antenna (35), wherein the satellite signal receiving antenna (35) is respectively connected with the control management device (32) and the navigation device (34); wherein

The control management device (32) is configured to control the navigation device (34) to enter an alignment state or a navigation state according to the received alignment instruction or navigation instruction;

the power supply device (33) is connected with the navigation device (34) and is used for supplying power to the navigation device (34).

6. The off-board control system with independent power supply of claim 5, wherein the navigation device (34) is a combined inertial/satellite navigation device.

7. The external onboard control system with independent power supply according to claim 1, characterized in that said control and management device (32) comprises:

the weapon control unit is used for carrying out corresponding control operation on the weapon (2) according to the received operation instruction.

8. The off-board, off-board control system with independent power supply of claim 7, wherein the weapon control unit comprises:

a power-on unit for controlling the power supply device (33) to power on the weapon (2) according to the received power-on instruction.

9. The off-board, off-board control system with independent power supply of claim 8, wherein the weapon control unit comprises:

a preparation unit for controlling the weapon (2) to perform a pre-firing preparation operation according to the received preparation instructions;

the parameter binding unit receives a weapon use scheme and a target data binding instruction and performs target data binding operation on the weapon according to the target data binding instruction;

and the launching resolving unit is used for completing weapon attack envelope and launching condition resolving, reporting a resolving result, receiving a launching instruction and controlling the suspension device (1) to complete launching operation of the weapon according to the launching instruction.

10. The external onboard control system with independent power supply according to claim 1, characterized in that said control and management device (32) comprises:

and the state reporting unit is used for reporting the state of the control management equipment (32).