KR101454237B1 - Integrated systems assembled combat uniform - Google Patents

Abstract

The present invention relates to an integrated combat uniform system including: an integrated helmet worn on a soldier having an observation function to see an object under magnification, and a display function to see the object; an intelligent combat uniform worn on a soldier′s body to communicate with the integrated helmet by a wire-wireless communication having a bulletproof function, an air purification function and a biosignal detecting function; a missile launch device provided on an arm part of the intelligent combat uniform capable of launching a missile by receiving information transmitted from the integrated helmet; and an external frame provided on a leg part of the intelligent combat uniform configured to assist a movement of the soldier and overcome combat weight.

Description

{INTEGRATED SYSTEMS ASSEMBLED COMBAT UNIFORM}

The present invention relates to an integrated combat suit integrating system which can be worn by soldiers.

Conventional soldiers used equipment consisting only of combat helmets and bulletproof vests. A rifle was used as a means of attacking the enemy. Since the combat helmet and bulletproof vest operated in the form of individual combinations, the integration function could not be exhibited properly.

Therefore, the equipment used by conventional soldiers in terms of dignity, maneuverability, command control, and survivability was not effective, and there was a problem that it was difficult to perform the precision striking function.

Major functions required for soldiers can be divided into dementia, survivability, mission continuity, maneuverability, and command control. In light of their durability, it is necessary to strike a precise strike of the moving target through a lightweight high capacity firearm with a light weight, and firearms with an increased range compared to conventional firearms are required. Also, precise surveillance and reconnaissance functions are required. In order to survive, basic bulletproof / CBR protection must be provided, and intelligent apparel requires environmental protection, self-treatment and temperature control. For mission continuity, it is necessary to be able to perform long-term mission through high-efficiency integrated power source, and to be able to produce power by oneself and expand mission time if necessary. Upper and lower muscle strength enhancement functions are required through the rudder overcome muscle strength enhancing exoskeleton equipment which can overcome the increased combat load in maneuverability. Finally, in command and control, mutual battlefield information sharing, peer identification, and voice / data communication functions are required among operational personnel.

Since most of the components expected to be possessed by future soldiers are newly added equipment that is not carried by conventional soldiers, the present invention is intended to realize a multi-function through effective interlocking thereof. The present invention proposes a new futuristic soldier combat uniform system which takes into consideration the functional definition of the new components required for the integrated combat uniform, the arrangement of the components, and the effective interlocking scheme.

One object of the present invention is to provide arrangement and interworking methods for components to satisfy various functions required for future soldiers.

Another object of the present invention is to effectively retain the functions that the existing individual soldiers do not have through the integrated combat uniforms system.

According to another aspect of the present invention, there is provided an integrated combat suit integrating system, which is disposed in the head of the soldier, includes a monitor function for magnifying and viewing an object, An intelligent combat uniform which is interlocked with the integrated helmet by wire and wirelessly and disposed in the body of the soldier and has a function of detecting a bulletproof function, an air purification function and a biological signal, A missile launching device disposed in an arm of the intelligent combat suit and capable of receiving information transmitted from the integrated helmet and capable of launching the intelligent combat suit, and a leg portion disposed at a leg portion of the intelligent combat suit to assist the movement of the soldier and to overcome the combat load And an exoskeletal portion formed.

According to an example of the present invention, the missile launch device is disposed inside the missile launch device, and after a predetermined distance is blown by an elastic member or a first stage propulsion system through a low impact ignition system, And may include a missile flying through the second stage propulsion toward the target.

Here, the integral helmet includes a target information acquiring device for acquiring information about a target, and the missile may be interlocked with the target acquiring device to receive information about the target before launching.

And wherein the target acquiring device may be configured to transmit the distance to the target, the position of the target, and the moving speed information of the target to the missile before launching the missile.

According to another embodiment of the present invention, the intelligent combat suit is made of a body armor containing a liquid, and the liquid can be solidified to protect the body of the soldier when a predetermined external force is applied.

Here, the body armor may measure a biological signal of a soldier worn, measure an external environment, analyze an EEG signal, and when the body of the soldier is out of a predetermined normal range based on the analysis, The therapeutic agent or drug may be injected.

Also, the airbag may include a thermoelectric element, and the micro-controller may be configured to increase the temperature of the airbag using the thermoelectric element to maintain the temperature of the soldier below a predetermined temperature And the temperature of the interior of the body armor can be lowered above a predetermined temperature.

Also, the airbag may include an air purifier, and the air purifier may receive and clean the contaminated air in the vicinity and supply the purified air to the integral helmet.

Also, the intelligent combat uniform may include an integrated power source electrically connected to the integral helmet, the missile launcher, and the exoskeleton unit, wherein the integrated power source is chargeable through a self power generation system, A piezoelectric element portion disposed in the outer skeleton portion and charged through a piezoelectric element; a joint charging portion disposed in a knee portion of the soldier, the joint charging portion being capable of being charged when the joint of the knee portion of the outer skeleton portion moves; .

According to another embodiment of the present invention, the integral helmet may include a communicator capable of communicating with an external system.

Here, the communicator may be configured to share information on the battlefield, identify peers, perform voice, data, and video communication.

In addition, the communicator may be configured to generate and transmit the thought of the soldier as a message through a detection device that detects the brain signal of the sold soldier.

According to at least one of the above-described embodiments of the present invention, a soldier wearing the integrated combat uniforms system can perform the mission regardless of the temperature of the surrounding environment or the pollution degree of the air.

In addition, according to at least one of the above-described embodiments of the present invention, the soldier can fire a missile capable of accurately hitting a target, thereby enhancing the accuracy of the missile against the target.

In addition, according to at least one of the above-described embodiments of the present invention, a soldier can transmit a message only by thought without needing to make a voice, thereby enabling quick exchange of opinions.

1 is a conceptual diagram illustrating the overall configuration of an integrated combat uniform according to an embodiment of the present invention;
FIG. 2 is a schematic view showing a front view of an integrated combat uniform according to an embodiment of the present invention; FIG.
FIG. 3 is a schematic view showing a rear view of the integral combat uniform shown in FIG. 2. FIG.
FIG. 4 is a conceptual diagram illustrating the configuration of an integral helmet, a functional combat suit, and a missile launch device of the integrated combat uniform shown in FIG. 1; FIG.
FIG. 5 is a conceptual diagram illustrating the configuration of the integral helmet and the functional type combat uniform of the integrated combat uniform shown in FIG. 1. FIG.
FIG. 6 is a conceptual view showing a configuration of a functional combat uniform of the integrated combat suit integration system shown in FIG. 1. FIG.
FIG. 7 is a schematic view showing a missile launcher of the integrated combat suit integration system shown in FIG. 2. FIG.
FIG. 8 is a schematic view showing an outer skeleton part of the integrated combat clothing integration system shown in FIG. 2; FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An integrated combat suit integrating system according to the present invention will be described in detail with reference to the drawings.

In the present specification, the same or similar reference numerals are given to different embodiments in the same or similar configurations. As used herein, the singular forms "a", "an" and "the" include plural referents unless the context clearly dictates otherwise.

The present invention relates to a new weapon system and non-weapon system equipment required for a future battlefield environment. The present invention relates to an integrated combat uniform system for future soldiers, and more particularly, to an integrated combat uniform system comprising an integrated helmet and an intelligent combat uniform, To a combat suit system to which a function is added. In the integrated system of combat combat uniforms, effective integration of existing functions and new configurations will maximize the durability, survivability, mission continuity, mobility and command control ability required for future soldiers, so that future NCW (Network Centric Warfare) It is possible to maximize the combat power of soldiers under the environment.

1 is a conceptual diagram showing the overall configuration of an integrated combat suit 100 according to an embodiment of the present invention.

Referring to the drawings, an integrated combat suit 100 integrated system that can be worn by a soldier according to an embodiment of the present invention includes an integrated helmet 10, a functional combat suit 20, a missile launch device 30 (personalizer) And an exoskeleton portion 40.

The integral helmet 10 is disposed at the head of the soldier wearing the integrated combat uniforms system 100. The soldier can wear the helmet 10. The helmet 10 may be equipped with a high-power, high-performance camera 16 that can magnify and view objects. In addition, the camera 16 may be equipped with an exhibition function (see-through type all-around period) and may include a non-invasive EEG device 14. In addition, the helmet 10 may include a communicator 13 capable of communicating with an external terminal, and may include a bulletproof function capable of defending against bullets. The integral helmet 10 may be interlocked with a functional battle suit 20, a missile launcher 30, and an exoskeleton unit 40 that surrounds the upper and lower legs to increase muscle strength.

In addition, the integral helmet 10 includes a communicator 13 capable of communicating with an external system. The communicator 13 can share the information of the battlefield where war is taking place, and can be configured to enable the peer identification 15, voice, data, and video communication. This communicator 13 can implement command control of the soldiers.

The functional type combat clothing 20 is interlocked with the integral helmet 10 by wire or wireless. The functional combat uniform 20 is disposed so as to surround the body of the soldier wearing the integrated combat uniform 100. The functional battle suit 20 senses the vital signs of a soldier wearing a bulletproof function 23 capable of defending against bullets, an air purifying function capable of purifying contaminated air, and an integrated combat uniforms system 100 And a biological signal detection function (26) capable of detecting the biological signal. In addition, a function of a data hub (DATA HUB) 21 capable of exchanging data with other configurations, a function hub 20 and a power hub 22 capable of supplying power to other configurations, A battery and power generation system 27 for storing or generating power to be supplied to the type battle 20 and other components, and an information input unit 28 capable of inputting information from the outside. The data hub 21 and the power hub 22 serve as a hub for data and power of the entire system.

To realize the survivability, the functional battle box 20 may be formed of a liquid bodyshell 20. Liquid bulletproofing allows flexible movement at all times, but if shock is applied, it hardens in a short time and can protect the soldier's body by direct charge or shrapnel.

The missile launch device 30 is disposed in the arm portion of the functional combat garment 20. And may be mounted between the elbows at the cuff of the right arm of the functional battle box 20. In addition, the missile 31 that is launched to protect the body of the soldier wearing the integrated combat uniforms system 100 may be configured as a shock-reducing flexible launch system with minimized rebound shock. That is, it is composed of a shock-reducing flexible launch system with minimized rebound shock to protect the soldier's body. The missile launching device 30 includes a missile 31 capable of receiving the information received from the integrated helmet 10. And a target transfer interface 32 for transferring information (target acquisition and tracking) received from the integral helmet 10 to the missile 31.

The missile 31 is constructed so that the future soldier to realize the durability maintains high accuracy even at a range increased by the micro-miniature guided weapon.

The exoskeleton part (40) is disposed on the arms and legs of the functional combat clothing (20). When the soldier wearing the integrated combat uniform 100 is moved, the behavior of the integrated combat uniform 100 can be limited by the weight of the integrated combat uniform 100. In order to cope with such a situation, it is formed to be able to support the movement of the soldier and to overcome the load of the combat suit. By providing the exoskeleton portion 40, the soldier can have high maneuverability.

2 is a schematic view showing a front view of an integrated combat uniform according to an embodiment of the present invention.

Referring to the drawings, the integrated combat suit integration system 100 includes an integral helmet 10, a functional combat suit 20, a missile launch device 30, and an exoskeleton 40, as described above. In addition, the integrated combat uniforms integration system 100 may include an information input / output unit 50 for inputting various information from outside or outputting inputted information. The information input / output unit 50 may be disposed in the arm portion of the integrated combat uniform 100. This is to allow a soldier wearing the integrated combat uniforms system 100 to easily input information using his or her hand and to easily recognize information displayed by bending the arm.

In addition, the functional combat clothing 20 may be formed of a body armor. As described above, the body armor may include a liquid therein. The liquid can be solidified in a short time to protect the body of the soldier when a predetermined external force is applied.

The integral helmet 10 may include a target information acquiring device 11 for acquiring information about a target. The target information obtaining apparatus 11 may function together with the high magnification, high performance camera 16 or the display function. In addition, the missile 31 may be interlocked with the target information obtaining apparatus 11 before being launched from the missile launching apparatus 30 to receive information on the target. Accordingly, the missile 31 is fired as a target based on the input information.

In addition, the integral helmet 10 may include a communicator 13 capable of communicating with an external system. Here, the communicator 13 is disposed inside the integral helmet 10. The communicator 13 may include an acoustical input unit and an acoustical output unit (not shown) so that the soldier wearing the integrated combat uniforms system 100 can recognize and transmit voice.

As described above, the communicator 13 can share the information of the battlefield, the peer identification 15, voice, data, and video communication. Further, the communicator 13 may be configured to generate and transmit the idea of the soldier through a detection device 14 that detects a brain signal of a soldier wearing the integrated combat uniforms system 100. Therefore, even if there is no voice message of the soldier, the message can be transmitted to the friend or the like. In addition, the function of the integrated combat uniforming system 100 operated by voice only by the thought of the soldier can be exercised.

3 is a schematic view showing a rear view of the integrated combat uniform shown in FIG.

Referring to the drawings, an air purifier 24 may be disposed on the rear surface of the functional battle box 20. The piezoelectric element portion 27c disposed in the exoskeleton portion 40 and filled through the piezoelectric element may be disposed at the foot portion of the functional combat suit 20. [ Also, the articulating portion 27e, which is disposed on the knee portion of the soldier and can be charged while the joint of the knee portion of the exoskeleton portion 40 moves, can be disposed at the knee joint portion.

Also, unlike the one shown in the drawings, the missile launcher 30 may be disposed on the rear side of the functional battle suit 20.

FIG. 4 is a conceptual diagram illustrating the configuration of the integrated helmet 10, the functional combat garment 20, and the missile launch device 30 of the integrated combat uniform 100 shown in FIG.

The missile launcher 30 includes a missile 31 therein. The missile 31 may fly a predetermined distance in a first stage propulsion manner through an elastic member or a low impact ignition system. This is to prevent a soldier wearing the integrated combat uniforms system 100 from being subjected to a large impact. The missile 31 may fly a predetermined distance in the first stage propulsion system and then fly toward the target in a second stage propulsion system through an ignition system.

As described above, the integral helmet 10 includes a target information acquiring device 11 for acquiring information about a target. The missile 31 is interlocked with the target information acquiring device 11 before launching, Information on the target can be input. The target information obtaining apparatus 11 can transmit the distance to the target, the position of the target, and the moving speed information of the target to the missile 31 before the missile 31 is launched.

Specifically, an image is received by the target acquisition / monitoring device 11 in the integral helmet 10. Then, the obtained image information is transmitted to the information processor 12 via the image processing apparatus 11a. The information processor 12 can acquire information such as a distance, a position, and a moving speed with respect to the target. In addition, information about the launching can be transmitted from the brain-wave measuring device 14 provided in the integral helmet 10 to the information processor 12.

The information processor 12 may transmit the information to the data hub 21 of the functional combat uniform 20. In addition, information can be transferred to the data hub 21 through an information input unit 28 disposed in the functional battle box 20. The input information may be information about the target.

The data hub 21 may transmit information such as a target, an attack mode, and a trigger command to the missile launcher 30. This information is transmitted to the micro missile 31 and fired against the target.

FIG. 5 is a conceptual diagram showing the configuration of the integral helmet 10 and the functional battle suit 20 of the integrated combat uniform 100 shown in FIG.

Referring to FIG. 1, a biological signal of a soldier wearing the integrated combat uniforms system 100 is measured by the brain-wave measuring apparatus of the integral helmet 10. The measured signal analyzes the biological signal in the information processor. In addition, data of the environment measured by the external environment measuring device and the bio-signal measuring device provided in the functional type combat clothing 20 can be transmitted to the data hub 21. When the body of the soldier wearing the integrated combat uniforms system 100 is out of a predetermined normal range based on the data gathered in the data hub 21, self-treatment may be performed so that the therapeutic agent or the drug is injected into the soldier have.

In addition, the functional type combat garment 20 (or a bodyshell garment) may include a microfluidic control unit 29 including a thermoelectric element. The microfluidic control unit (29) is configured to raise the temperature of the body armor using the thermoelectric element so as to maintain the temperature of the soldier below a predetermined temperature, and lower the temperature inside the body armor at a predetermined temperature or higher . This can enable operations in extreme areas.

The functional battle bat 20 (or a bodyshell) may include an air purifier 24. [ The air cleaner 24 can receive and clean the contaminated air in the surrounding area and provide it to the integral helmet 10. It is also possible to warn the soldiers in the CBR environment through external environmental monitoring.

FIG. 6 is a conceptual diagram showing the configuration of the functional combat uniform 20 of the integrated combat suit integration system 100 shown in FIG.

The functional type combat 20 may include an integrated power source (power hub 24) that is electrically connected to the integral helmet 10, the missile launch device 30, and the exoskeleton unit 40. In order to maintain mission continuity, a high efficiency integrated power source can be used.

The integrated power source is supplied with power from a battery and a power generation system 27 (a self power generation system). The self-power generation system (27) comprises a solar power generation system (27d) disposed in the functional battle box (20), a piezoelectric power generation system (27d) disposed in the exoskeleton (40) A knee joint generation system 27e disposed at the knee portion of the soldier and capable of being charged when the joint of the knee portion of the exoskeleton portion 40 moves.

The battery and power generation system 27 can check the capacity of the battery and charge the battery and the power generation system when the capacity of the battery is insufficient.

FIG. 7 is a schematic view showing the missile launch device 30 of the integrated combat uniform system 100 shown in FIG.

The missile launch device 30 may be disposed in the arm portion of the functional combat garment 20. As shown in the figure, the arm can be lifted after aiming the target by lifting the arm. The missile launcher 30 may be provided with a laser beam for emitting a red laser toward a target. The launcher has been proposed as a hawk mount type mounted on a soldier's arm, but can be configured to be mounted on a backpack as needed.

FIG. 8 is a schematic view showing a part of the exoskeleton 40 of the integrated combat clothing integration system 100 shown in FIG.

The integrated combat uniform 100 may feel a considerable load when the soldier wears it. Therefore, the integrated combat clothing integrating system 100 may include an exoskeleton unit 40 on the upper and lower legs, respectively, so as to bear such a load. The exoskeleton unit 40 can assist the soldier's movement immediately after measuring the movement of the soldier to overcome the combat load. In addition, the exoskeleton 40 can reduce the consumption of the physical strength even when the long-distance marching group is performed by increasing the muscle strength.

Through the exoskeleton 40, the soldier can increase maneuverability. Therefore, the task can be performed relatively easily through the exoskeleton unit 40 even in a hurricane. In addition, a piezoelectric element part 27c may be disposed inside the foot pad 27c1 of the exoskeleton part 40 to generate electric power through the piezoelectric power generation system.

The integrated combat uniform system described above is not limited to the configurations and methods of the embodiments described above, but may be applied to industrial fields, space suits, and various extreme environments in which various electronic equipment components other than the field of defense are carried, It is also possible to design safety clothing for personnel performing In addition, the embodiments may be configured by selectively combining all or some of the embodiments so that various modifications may be made.

Claims (12)

In an integrated combat suit integrated system that a soldier can wear,
An integral helmet disposed on the head of the soldier, a monitoring function capable of enlarging and viewing an object, and a display function capable of looking at the object;
An intelligent combat uniformly interlocked with the integrated helmet by wire and wireless, disposed in the body of the soldier, and having a function of detecting a bulletproof function, an air purification function, and a biological signal;
A missile launcher disposed at an arm of the intelligent combat uniform, the missile launcher being capable of receiving information received from the integrated helmet and launching the missile; And
And an exoskeleton part disposed at the arms and legs of the intelligent combat uniform and capable of supporting the movement of the soldier and capable of overcoming the combat load,
The missile launch device includes:
And a control unit, disposed inside the missile launching apparatus,
And a missile for flying toward a target in a second stage propulsion manner through an ignition system after flying a predetermined distance through an elastic member or a first stage propulsion system through a low impact ignition system. delete The method according to claim 1,
Wherein the integral helmet has a target information acquiring device for acquiring information about a target,
Wherein the missile is interlocked with the target acquiring device before launch to receive information about the target. The method of claim 3,
The target acquiring device includes:
The distance to the target, the position of the target, and the moving speed information of the target are transmitted to the missile before the launch of the missile. The method according to claim 1,
The intelligent combat suit,
And is made of a bulletproof material containing a liquid therein,
Wherein the liquid is solidified to protect the body of the soldier when a predetermined external force is applied thereto. 6. The method of claim 5,
[0027]
Measures the vital signs of sold soldiers, measures the external environment, analyzes EEG signals,
And if the body of the soldier deviates from a predetermined normal range based on the analysis, a therapeutic agent or a drug is injected into the soldier. 6. The method of claim 5,
[0027]
A microcontroller including a thermoelectric element,
The micro-
Wherein the temperature of the airbag is increased by using the thermoelectric element to maintain the body temperature of the soldier below a predetermined temperature,
And lowering the temperature of the interior of the body armor at a predetermined temperature or higher. 6. The method of claim 5,
Wherein the airbag comprises an air purifier,
Wherein the air cleaning device is adapted to receive and clean the contaminated air in the vicinity, and to supply the purified air to the integral helmet. 6. The method of claim 5,
The intelligent combat uniform includes an integrated helmet, an integrated power source electrically connected to the missile launcher and the exoskeleton,
The integrated power source can be charged through the self power generation system,
The self-
A solar battery plate disposed in the intelligent combat uniform;
A piezoelectric element disposed in the exoskeleton and filled through the piezoelectric element;
And an articulating part disposed at a knee part of the soldier and capable of being filled when the joint of the knee part of the exoskeleton part moves. The method according to claim 1,
Wherein the integrated helmet comprises a communicator capable of communicating with an external system. 11. The method of claim 10,
The communicator includes:
Wherein said communication means is configured to share information of the battlefield, to identify the peer, to voice, to data, and to video communication. 11. The method of claim 10,
The communicator includes:
Wherein the controller is configured to generate and transmit the thought of the soldier as a message through a detecting device for detecting a brain signal of the sold soldier.

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