CN210520345U - A tactics knapsack for unmanned aerial vehicle counter-braking equipment - Google Patents

Abstract

The application belongs to the technical field of anti-system unmanned aerial vehicle, in particular to a tactical knapsack for unmanned aerial vehicle anti-system equipment, include: the backpack comprises a backpack body, a backpack body and a radiating terminal, wherein the backpack body is internally provided with an accommodating cavity, the outer side of the backpack body is provided with an opening part, and the material and the thickness of the backpack body are configured to enable electromagnetic waves of an antenna to pass through the backpack body at the side opposite to the radiating terminal of the antenna; the straps are arranged on the outer side of the backpack body; the functional area reserves the portion, sets up on the knapsack body, with unmanned aerial vehicle counter-measures the appearance and the position phase-match in equipment functional area on the equipment to supply the operator not to take out under the prerequisite of unmanned aerial vehicle counter-measures equipment, observe and/or control equipment functional area from the outside. The utility model provides a tactics knapsack for unmanned aerial vehicle counter-measure equipment, the unmanned aerial vehicle counter-measure equipment of being convenient for is hidden, is carried and is removed, in addition, under normal carrying condition, the operator can be under the prerequisite of the anti-unmanned aerial vehicle equipment in not taking out the knapsack, conveniently from the outside to unmanned aerial vehicle counter-measure equipment is controlled to realize the operation that the limit was moved in the counter-measure smoothly.

Description

A tactics knapsack for unmanned aerial vehicle counter-braking equipment

Technical Field

The application belongs to the technical field of anti-braking unmanned aerial vehicles, and particularly relates to a tactical backpack for anti-braking equipment of an unmanned aerial vehicle.

Background

Along with the development of unmanned aerial vehicle technology and the improvement of people to unmanned aerial vehicle user demand, small-size remote control unmanned aerial vehicle has become a very popular consumer product because the size is little, the noise is little, convenient to carry, the manipulation is simple and convenient. However, with the large-area outbreak of commercial unmanned aerial vehicle users, many users without the experience of using the unmanned aerial vehicle or the wrong use mode easily bring great troubles and potential safety hazards to the commercial unmanned aerial vehicle.

Therefore, the unmanned aerial vehicle counter-control equipment is produced at the same time, and mainly utilizes various electromagnetic interference principles to interfere the remote control signal, the navigation signal, the image or the data transmission signal of the unmanned aerial vehicle, so as to achieve the purpose of counter-control. And, along with the continuous development of science and technology and service environment's special desirability, unmanned aerial vehicle counter-system equips and is more and more inclined to high portability and high disguise, for example, the flat unmanned aerial vehicle counter-system of integration equipment (mainly with electrical power generating system, communication system, equipment such as interfering signal generator and interfering antenna sets up in same flat-plate casing, and set up corresponding equipment functional area on the casing, mainly including control, show, external, function such as charge), the individual soldier hand-held type of integration, the device is reversed to integration backpack, the device is reversed to integration draw the case formula etc..

However, the above known reaction equipment for unmanned aerial vehicles still has at least the following disadvantages and shortcomings in the actual operation process:

1) in most environments, the appearance of the unmanned aerial vehicle to be interfered is random and unpredictable, and the hidden unmanned aerial vehicle counter-braking equipment is placed in heavy mobile storage equipment such as a backpack box body or a mobile equipment box and the like in a standby state; in the existing reverse control equipment, an operator needs to go through the operation processes of taking out the equipment, aiming, and interfering from the target finding to the reverse control; because the unmanned aerial vehicle has the characteristics of small size and high maneuverability, an operator is likely to miss the best interference opportunity when taking the equipment;

2) at present, most unmanned aerial vehicles have a safety protection function, and can hover in situ and slowly descend when being interfered; when hovering, once the interference is interrupted, the communication connection is continuously established, so that the controlled flight or the automatic flight is realized; therefore, in the countering operation, when the unmanned aerial vehicle does not completely land, the unmanned aerial vehicle needs to be aimed all the time through the countering device and continuously interfere with the unmanned aerial vehicle, and meanwhile, the operator needs to continuously move towards the falling position of the unmanned aerial vehicle so as to obtain evidence at the first time (namely, the operation of paying the countering unmanned aerial vehicle, taking pictures and obtaining evidence and the like); the existing countermeasure equipment is large in appearance (such as a flat plate type) or heavy in weight, and when the equipment is used, two hands must hold the equipment to aim at the unmanned aerial vehicle and perform related interference operation, so that especially in some environments with complex terrains and noisy personnel, great challenges are brought to movement, obstacle avoidance and crossing of operators;

3) at present, most of the carrying devices for the unmanned aerial vehicle counter-braking equipment belong to closed types; during the execution of the interference task of the unmanned aerial vehicle, the anti-braking equipment of the unmanned aerial vehicle is always in a standby state, when the task is completed, an operator easily forgets to close the main switch to store the equipment, and the condition of the equipment cannot be visually observed from the outside of the bearing device, so that the electric quantity of the equipment is consumed unintentionally, and the next normal use is indirectly influenced;

in addition, most of current unmanned aerial vehicle counter-braking devices adopt rechargeable batteries for power supply, and the closed bearing device enables an operator to be unable to conveniently and visually observe the residual electric quantity of the device, so that the charging opportunity is delayed, and the next normal use is also indirectly influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve at least one of the above technical problems, the present application provides a tactical backpack for unmanned aerial vehicle countering equipment.

The application discloses a tactics knapsack for unmanned aerial vehicle counteraction equipment includes:

the backpack comprises a backpack body, wherein an accommodating cavity matched with the shape of the unmanned aerial vehicle control device is formed in the backpack body, an openable opening part is formed in the outer side of the backpack body to allow the unmanned aerial vehicle control device to enter and exit the accommodating cavity, and the material and the thickness of the backpack body are configured to enable electromagnetic waves of an antenna to pass through the backpack body and on the side opposite to an antenna transmitting end of the unmanned aerial vehicle control device in the accommodating cavity;

a harness disposed outside the backpack body such that an operator can carry the backpack body through the harness;

functional area reservation portion, functional area reservation portion sets up on the knapsack body, its shape and position, with hold the intracavity unmanned aerial vehicle reverses the appearance and the position phase-match of equipment functional area on the equipment to supply the operator not taking out under the prerequisite of unmanned aerial vehicle reverse equipment, observe and/or control the equipment functional area from the outside.

According to at least one embodiment of the application, the function reservation part is defined by the backpack body, and is located in an identification area which is matched with the appearance and the position of the equipment function area and is positioned at the outer side of the backpack body, and the material thickness of the backpack body at the identification area is smaller than that of the rest parts; or

The function reservation part is a function reservation hole which is arranged on the backpack body and is matched with the shape and the position of the equipment function area; or

The function reservation part comprises a through hole which is formed in the backpack body and is matched with the appearance and the position of the equipment function area, and a flexible material layer which is arranged on the through hole in a matching manner.

According to at least one embodiment of this application, functional area reservation portion includes interference signal trigger switch reservation portion, with interference signal trigger switch looks adaptation on the unmanned aerial vehicle counteraction equipment for supply the operator under the prerequisite of not taking out unmanned aerial vehicle counteraction equipment, carry out the interference signal switching from the outside and control.

According to at least one embodiment of this application, the flat unmanned aerial vehicle of unmanned aerial vehicle reaction equipment of integration just includes two interference signal trigger switch, wherein, set up two looks adaptations on the knapsack body the interference signal trigger switch reserves.

According to at least one embodiment of this application, the reservation of functional zone is including control demonstration reservation, control demonstration reservation is the function preformed hole, or through-hole and transparent flexible material layer, control demonstration reservation with control demonstration district looks adaptation on the unmanned aerial vehicle reverse system equipment for supply the operator under the prerequisite of not taking out unmanned aerial vehicle reverse system equipment, carry out equipment state observation and total power switching from the outside and control.

According to at least one embodiment of this application, the control shows reservation portion and reserves the hole for the function, a tactical knapsack for unmanned aerial vehicle counteraction equipment still includes:

and the transparent cover is arranged on the control display reserved part in a sealing manner.

According to at least one embodiment of this application, functional area reservation portion shows the functional reservation hole including charging, with the display area looks adaptation that charges on the unmanned aerial vehicle counteracts equipment for supply the operator under the prerequisite that does not take out unmanned aerial vehicle counteracts equipment, carry out the electric quantity from the outside and observe and charge and control.

According to at least one embodiment of this application, functional area reservation portion includes network deployment port function reservation hole, with network deployment port looks adaptation on the unmanned aerial vehicle counteraction equipment for supply the operator under the prerequisite of not taking out unmanned aerial vehicle counteraction equipment, from the outside network deployment control.

According to at least one embodiment of this application, functional area reservation portion includes battery compartment function preformed hole, with battery compartment looks adaptation on the unmanned aerial vehicle counteraction equipment for supply the operator under the prerequisite of not taking out unmanned aerial vehicle counteraction equipment, carry out the battery from the outside and change and control.

According to at least one embodiment of this application, the tactical knapsack for unmanned aerial vehicle counteraction equipment still include:

the radiation protection backplate, the radiation protection backplate sets up inside the knapsack body, and be located dorsad one side of the antenna emission end of unmanned aerial vehicle reverse system equipment, set up on the radiation protection backplate with the shape of functional area reservation portion with set up position assorted through-hole.

According to at least one embodiment of the present application, the harness includes:

the two ends of the single-shoulder strap are connected to the hanging rings on the two sides of the backpack body through hooks respectively; and/or

And one end of each shoulder strap is connected to the top of the back surface of the backpack body through a buckle assembly, and the other end of each shoulder strap is connected to the bottom of the back surface of the backpack body through a buckle assembly.

According to at least one embodiment of this application, the tactical knapsack for unmanned aerial vehicle counteraction equipment still include:

the first magic tape is arranged in the middle of the top of the front side of the backpack body;

the second magic subsides, the setting of second magic subsides is in the positive top of knapsack body is close to operator right hand position department.

The application has at least the following beneficial technical effects:

the utility model provides a tactics knapsack for unmanned aerial vehicle counter-measure equipment, the one hand is the unmanned aerial vehicle counter-measure equipment of being convenient for is hidden, is carried and is removed, in addition, under the normal carrying condition, the operator can carry out corresponding observation and/control to unmanned aerial vehicle counter-measure equipment from the outside conveniently through function reservation portion under the prerequisite of the anti-unmanned aerial vehicle equipment in not taking out the knapsack to realize the operation that the limit was moved in counter-measure smoothly.

Drawings

Fig. 1 is a front view of a drone countermeasure device of one embodiment adapted to a tactical backpack of the present application for a drone countermeasure device;

FIG. 2 is a left side view of the drone reaction device of the embodiment of FIG. 1;

FIG. 3 is a right side view of the drone reaction device of the embodiment of FIG. 1;

fig. 4 is a schematic front view of an embodiment of the tactical backpack of the present application for a drone countermeasure device;

fig. 5 is a schematic view of the back face of the tactical backpack for the drone countermeasure device of the embodiment of fig. 4;

fig. 6 is a right side schematic view of the tactical backpack for the drone countermeasure device of the embodiment of fig. 4;

fig. 7 is a schematic structural diagram of a drone countermeasure device of another embodiment adapted to the tactical backpack of the present application for a drone countermeasure device;

fig. 8 is a perspective view of another embodiment of the tactical backpack of the present application for drone countermeasure equipment adapted to the embodiment of fig. 7.

Wherein,

11-a front shell; 12-a rear shell; 13-interference signal trigger switch; 14-control the display area; 15-charging the display area; 16-networking port; 17-a battery compartment;

2-a backpack body; 21-an opening part; 22-a harness; 23-an interference signal trigger switch reservation part; 24-control display reservation; 25-a transparent cover; 26-a first magic tape; 27-a second magic tape; 28-a handle; 29-Standby pack.

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 "front", "back", "left", "right", "top", "side", "inner", "outer", etc. 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 simplicity in description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the scope of the present application.

The tactical backpack for the unmanned aerial vehicle counter-acting device of the present application is further described in detail below with reference to fig. 1-8.

The application discloses a tactics knapsack for unmanned aerial vehicle counteraction equipment, wherein, unmanned aerial vehicle counteraction equipment can be the current known multiple integral type unmanned aerial vehicle that is fit for counteraction equipment, for example, the flat unmanned aerial vehicle of integration counteraction equipment, the integration individual soldier hand-held type, the device is reversed to the integration backpack etc.. The following description will be made for an embodiment of an integrated flat-type unmanned aerial vehicle reaction device and an integrated individual handheld two backpack structure.

Example 1

As shown in fig. 1-3, in this embodiment, the housing of the unmanned aerial vehicle anti-jamming device is a flat plate, and the inside of the housing includes devices and systems capable of completely implementing various functions of the unmanned aerial vehicle anti-jamming device, such as a power control system, an information acquisition and networking communication system, an interference signal generator, and an interference antenna (e.g., a multi-band flat plate). Wherein, the housing may include a front shell 11 made of wave-transparent material and a rear shell 12 made of wave-opaque material, and the electromagnetic wave emitting direction of the interference antenna is toward the front shell 11 to achieve smooth transmission of the electromagnetic wave.

In addition, an equipment function area is arranged at a corresponding position on the shell of the rear shell 12, and has corresponding functions of control, display, connection and the like; in this embodiment, the preferred device function area at least includes a control display area, a charging display area, two interference signal trigger switches, a networking port, and a battery compartment. The control display area comprises state display equipment and a main power switch; the charging display area comprises electric quantity display equipment, an electric quantity display button and a charging interface; the networking port is used for externally connecting a network; the battery compartment is used for replacing the battery. It should be noted that the integrated flat plate type unmanned aerial vehicle reaction equipment adapted to the tactical backpack is not limited to the above described structural types, and other similar structures can be still applicable, and are not described in detail herein.

Further, the tactical backpack for unmanned aerial vehicle counter-acting equipment of this application specifically can include knapsack body 2, braces 22 and functional area reservation portion.

The backpack body 2 may take any of a variety of suitable known structural shapes; in this embodiment, as shown in fig. 4 to 6, a rectangular parallelepiped flat plate-shaped structure substantially similar to the integrated flat plate type unmanned aerial vehicle reaction device is preferred, so that the volume can be reduced as much as possible, and the carrying is convenient. An accommodating cavity is formed in the backpack body 2, and the shape of the accommodating cavity is matched with the shape of the unmanned aerial vehicle control device so as to accommodate the unmanned aerial vehicle control device; in addition, be provided with open closed opening 21 on knapsack body 2, be used for supplying the unmanned aerial vehicle to turn back the system equipment business turn over when opening and hold the chamber, it is spacing to seal the unmanned aerial vehicle that holds the intracavity to turn back the system equipment when closing. In this embodiment, the zipper is preferably adopted, so that the opening and closing of the opening 21 are more convenient, faster, firmer and waterproof and airtight.

Further, in the backpack body 2 structure, preferably on the side (i.e. front) opposite to the front shell 11 of the drone reaction device inside thereof (i.e. directly opposite to the antenna emitting end), the material and thickness thereof are configured to enable the electromagnetic waves of the interfering antenna to pass through. The material and thickness of the other parts of backpack body 2 can be selected as required, in other embodiments of the present application, preferably on a side (i.e. the back side, the side close to the operator during normal use) of backpack body 2 opposite to front shell 11 of the unmanned aerial vehicle inside thereof, the material (e.g. copper-nickel alloy) and thickness thereof are configured to block the electromagnetic wave of the interfering antenna from passing through, thereby preventing or alleviating the influence of the electromagnetic wave of the interfering antenna on the human body.

The straps 22 are provided outside the backpack body 2 so that an operator can carry the backpack body 2 by the straps 22; the straps 22 can be arranged at any suitable position outside the backpack body 2, and can be in a fixed form or a detachable form similar to a buckle; furthermore, the shoulder belt 22 may be configured to be a single shoulder, a double shoulder, or the like, so that the operator can easily perform operations such as carrying on the shoulder or back. Furthermore, the specific positions of the straps 22 are also required to ensure that when the operator normally carries or backs the backpack body 2 (back-carrying or chest-carrying), one side surface of the backpack body 2 corresponding to the front shell 11 (i.e. the front surface of the backpack) always faces away from the operator (i.e. the back surface of the backpack always faces the operator); the benefit of this kind of structure is, when the operator is knapsack body 2 in the front, can support knapsack body 2 (and inside unmanned aerial vehicle reverse system) through the health, unmanned aerial vehicle reverse system's preceding shell 11 can be towards unmanned aerial vehicle all the time this moment, the primary function of both hands is according to the unmanned aerial vehicle position adjust reverse system angle (realize through the positive orientation of adjustment knapsack body 2) and carry out the reverse system operation, the operator both can bear knapsack body 2 like this and carry out convenient removal and do not influence the reverse system operation again.

As shown in fig. 5-6, in the present embodiment, preferably, the shoulder straps 22 include two types, one type is a single shoulder strap (i.e., a single shoulder strap), two ends of the single shoulder strap are provided with hooks, two sides of the backpack body 2 are provided with hanging rings, and two ends of the single shoulder strap are respectively connected to the hanging rings at two sides of the backpack body 2 through the hooks and are close to the opening 21, so that an operator can conveniently carry the backpack body 2 by one shoulder, and the rapid transfer is facilitated. The other kind is two shoulder straps (two braces promptly), and the one end of two braces is connected to the top of knapsack body 2 towards one side of operator (the back promptly) through buckle subassembly respectively, and the other end of two braces is connected to the bottom of knapsack body 2 with one side (the back promptly) through buckle subassembly respectively to make things convenient for the operator to bear (bear before the chest, bear the back) knapsack body 2 through the both shoulders, be convenient for move the limit and carry out the reverse system operation.

The functional area reservation portion is seted up on knapsack body 2, and its shape and setting position hold appearance and the position phase-match of equipment functional area on the unmanned aerial vehicle anti-system equipment of intracavity with knapsack body 2 to supply the operator under the prerequisite of not taking out unmanned aerial vehicle anti-system equipment, observe and/or control the equipment functional area from the outside. Such structure makes the operator can more directly perceivedly understand the various states of the interior unmanned aerial vehicle of knapsack body 2 equipment of countering on the one hand, in addition, can further improve the accuracy and the convenience of operation when removing.

Further, the function reservation part can have a plurality of suitable structural forms, and can be suitably selected according to the use requirement. For example, the function reservation part is defined by the backpack body 2 itself, and is located in an identification area which is matched with the shape and the position of the equipment function area and is positioned at the outer side of the backpack body 2, and the material thickness of the backpack body 2 at the identification area is smaller than that of the rest parts; that is to say that the identification area is integrative with knapsack body 2, and only thickness is different, and the operator can realize controlling the equipment function area of the inside unmanned aerial vehicle of knapsack body 2 anti-system equipment through pressing this identification area.

For example again, function reservation portion can be set up on knapsack body 2 with the appearance and the position assorted function reservation hole in equipment function district, the through-hole promptly for the operator sees through the equipment function district of this through-hole to inside unmanned aerial vehicle reverse equipment and observes, or direct and inside equipment function district contact control to unmanned aerial vehicle reverse equipment.

For another example, the function reserving portion may include a through hole formed in the backpack body 2 and matching with the shape and position of the device function area, and a flexible material layer that is fixedly (e.g., bonded, sewn, etc.) fitted on the through hole. Further, the flexible material layer can be divided into two types, namely transparent (such as a flexible colorless plastic layer) and non-transparent (such as a flexible cloth layer); when the flexible material layer is transparent, an operator can observe and/or control the equipment functional area of the unmanned aerial vehicle reverse control equipment through the flexible material layer; when opaque, the operator can press the inside equipment functional area to unmanned aerial vehicle reaction equipment through this flexible material layer and control.

Further, as shown in fig. 1, in this embodiment, it is preferable that, in the corresponding unmanned aerial vehicle countermeasure equipment, the equipment function area may include an interference signal trigger switch 13; correspondingly, the functional area reservation portion includes interference signal trigger switch reservation portion 23 for supply the operator under the prerequisite of not taking out unmanned aerial vehicle reverse system equipment, carry out the interference signal switching from the outside and control, in order to realize unmanned aerial vehicle's reverse system operation. The interference signal trigger switch reservation part 23 may be selected as needed, for example, in at least one of the above-mentioned identification area form, function reservation hole form, and the like.

It should be noted that the number and the positions of the interference signal trigger switches 13 may be determined according to the structure of the corresponding unmanned aerial vehicle reaction equipment, and in this embodiment, as shown in fig. 1, it is further preferable that the corresponding unmanned aerial vehicle reaction equipment has an equipment function area including two interference signal trigger switches 13, so as to further facilitate the reaction operation. Specifically, one of the disturbing signal trigger switches 13 is disposed at the back of the housing of the rear case 12 at a position close to the right hand of the operator, and the other is disposed at the right side of the edge of the outer contour of the housing of the rear case 12. Two interference signal trigger switch reservation portions 23 (only one of which is shown in fig. 5, and the other is located at the top in the view direction shown in fig. 5) are provided on the backpack body 2 at positions corresponding to the two interference signal trigger switches 13.

Further, as shown in fig. 1, in the present embodiment, it is preferable that, in the corresponding unmanned aerial vehicle countering device, the device function area may include a control display area 14; correspondingly, as shown in fig. 5, the functional area reservation portion includes a control display reservation portion 24 for the operator to observe the state of the device and control the switching of the main power supply from the outside on the premise of not taking out the unmanned aerial vehicle reverse braking device. Wherein the control display reserve 24 is preferably in the form of a functional reserve hole for easy viewing and control.

In addition, in the present embodiment, it is preferable that the control display area 14 is located at the top position of the housing of the rear case 12 to further facilitate the operation. Because the last display of control display area 14, main switch receives the influence of rainwater, sand and dust for example easily, especially when setting up in casing top position, is influenced more easily, for this reason, as shown in fig. 5, the tactical knapsack for unmanned aerial vehicle anti-reverse equipment of this application can also include transparent cover 25, its sealed lid is established on the control display reservation portion 24 at knapsack body 2 top (the top here refers to the top when knapsack body 2 user state, the left side border position of knapsack body 2 corresponding to the shown processing state of placing of fig. 5), thereby neither influence from the outside to the equipment state observation and the total power switching of carrying on of control display area 14 and control, can play waterproof dustproof effect again.

Further, as shown in fig. 1, in this embodiment, it is preferable that, in the corresponding unmanned aerial vehicle opposing device, the device function area may include a charging display area 15; correspondingly, the functional area reserves portion including the demonstration function of charging and reserves portion, and it is preferably the function preformed hole form, also charge and show the function preformed hole (be located the bottom surface position of the view direction that fig. 5 shows, not shown in the figure) for supply the operator under the prerequisite of not taking out unmanned aerial vehicle counter-braking equipment, carry out the electric quantity from the outside and observe and charge and control.

Further, as shown in fig. 1, in this embodiment, it is preferable that, in the corresponding unmanned aerial vehicle countermeasure device, the device functional area may include a networking port 16; correspondingly, the functional area reservation portion includes networking port function reservation portion, and it is preferably the function preformed hole form, also is networking port function preformed hole (not shown in the figure) for supply the operator under the prerequisite of not taking out unmanned aerial vehicle counter-braking equipment, from outside network deployment control.

Further, as shown in fig. 1, in the present embodiment, it is preferable that in the corresponding unmanned aerial vehicle opposing device, the device function area may include a battery compartment 17; correspondingly, the functional area reserves portion including battery compartment function reserves portion, and it is preferably the function preformed hole form, also battery compartment function preformed hole (not shown in the figure) for supply the operator under the prerequisite of not taking out unmanned aerial vehicle counter-braking equipment, carry out the battery from the outside and change and control.

Further, the tactical backpack for the unmanned aerial vehicle counter-braking device can further comprise an anti-radiation back plate; the radiation-proof back plate is arranged in the backpack body 2 and is positioned on one side surface (namely the back surface of the backpack and the side close to an operator) opposite to the front shell 11 of the unmanned aerial vehicle reaction equipment in the backpack body, so that the influence of electromagnetic waves interfering with an antenna on a human body is further prevented or reduced, and the safety performance is provided; in addition, in order not to influence the function of the reserved part of the functional area on the backpack body 2, a through hole matched with the shape and the arrangement position of the reserved part of the functional area can be arranged on the radiation-proof back plate.

Further, in the tactical knapsack for unmanned aerial vehicle reaction equipment of this application, can also include first magic subsides 26, second magic subsides 27.

As shown in fig. 4, the first magic tape 26 is disposed at the top middle position of the front face of the backpack body 2; the second magic tape 27 is disposed at the top of the back surface of the backpack body 2 near the right hand position of the operator. The magic tape can be used for conveniently pasting the corresponding warning board, and the position is more striking.

Further, the tactical backpack for the unmanned aerial vehicle counter-braking device can further comprise a handle 28 and a spare bag 29; as shown in fig. 4-6, the handle 28 is fixedly disposed on the top of the backpack body 2, so that the backpack body 2 can be carried by an operator with one hand to move, thereby further improving portability. Wherein the spare bag 29 is fixedly or detachably disposed on the carrying strap 22, it can take various shapes, thereby facilitating the carrying of more items, such as electromagnetic, charging wires or other warrior equipment.

Example 2

As shown in fig. 7, in this embodiment, the unmanned aerial vehicle countering device is an integrated individual soldier hand-held type, its shell is as shown in fig. 7, it is nearly rifle-shaped, the bottom has the grip handle, interference signal trigger switch 13 (transmission button) etc., the shell top is provided with control display area 14, outside rear portion is provided with charging display area 15, the shell side is provided with the battery compartment, network deployment port etc. (not shown in the figure), its shell is inside including the device and the system that can completely realize each item function of unmanned aerial vehicle countering device equally, for example, power control system, information acquisition and network deployment communication system, interference signal generator and interference antenna. The front part of the shell is an antenna transmitting end and is made of wave-transparent materials so as to smoothly transmit electromagnetic waves, and other parts of the shell can be made of wave-opaque materials.

As shown in fig. 8, in the present embodiment, the tactical backpack for the drone countermeasure device may also include a backpack body 2, straps 22, and a functional zone reservation.

Different from the above embodiment 1, the backpack body 2 is preferably a rectangular parallelepiped tubular structure substantially similar to the integrated individual hand-held unmanned aerial vehicle countermeasure equipment. Its inside chamber that holds is configured into with this unmanned aerial vehicle reaction equipment appearance looks adaptation equally to hold unmanned aerial vehicle reaction equipment, and, cuboid shaped tubular structure also possesses the effect of high disguise nature equally. In addition, an openable and closable opening 21 similar to that in embodiment 1 is also provided in the backpack body 2, so that the unmanned aerial vehicle control device can enter and exit the accommodation chamber and perform closing and limiting. Further, based on the structure of unmanned aerial vehicle reverse system equipment, preferred braces 22 adopt the single shoulder braces in this embodiment, with the help of single shoulder inclined band knapsack body 2 for the operator (do not take out in the knapsack reverse unmanned aerial vehicle equipment under the prerequisite) just can be stabilized through the one hand and hold knapsack body 2 and inside unmanned aerial vehicle reverse system equipment, and realize one-hand operation (transmission, adjustment position etc.), thereby be convenient for remove the limit while reverse system.

Further, in the backpack body 2 structure, preferably on the side opposite to the antenna emitting end of the unmanned aerial vehicle reaction device inside, the material and thickness thereof are configured to enable the electromagnetic wave of the interference antenna to pass through; the material and thickness of other parts of the backpack body 2 may be selected as required, for example, configured to block the electromagnetic waves of the interfering antenna from passing through, thereby preventing or reducing the influence of the electromagnetic waves of the interfering antenna on the human body.

Further, in this embodiment, because the interference signal trigger switch 13, the control display area 14, and the charging display area 15 of the unmanned aerial vehicle reverse control device are set in position relationship, the corresponding positions of the interference signal trigger switch reserved portion 23, the control display reserved portion 24 (and the corresponding transparent cover 25), the charging display reserved hole, and the like on the backpack body 2 are slightly different from those in embodiment 1 in setting position and shape, but the realized functions and the achieved technical effects are the same; for example, the interference signal trigger switch reservation 23 in this embodiment is disposed at the middle position of the bottom of the backpack body 2, and in order to facilitate the operation of the interference signal trigger switch 13 (the launch button), the interference signal trigger switch reservation 23 is preferably in an open form or a flexible material layer form, and both the open area and the flexible material layer area are large; however, even in this case, the concealment of the backpack body 2 is not affected as a whole. Other adaptation structures such as with network deployment port, battery compartment etc. and like structures such as magic subsides, handle, the knapsack body 2 of this embodiment still can set up in corresponding position department (not shown), and the repeated description is no longer given here.

To sum up, the tactics knapsack that is used for unmanned aerial vehicle to react equipment of this application, the unmanned aerial vehicle of being convenient for reacts equipment on the one hand and conceals, carry and remove, in addition, under normal carrying condition, the operator can carry out corresponding observation and/control to unmanned aerial vehicle to react equipment from the outside conveniently under the prerequisite of the anti-unmanned aerial vehicle equipment in not taking out the knapsack to realize the operation that the limit is reacted and is removed smoothly.

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 (11)

1. A tactical backpack for unmanned aerial vehicle countering devices, comprising:

the anti-jamming backpack comprises a backpack body (2), wherein an accommodating cavity matched with the shape of the anti-jamming device of the unmanned aerial vehicle is formed in the backpack body (2), an opening part (21) capable of being opened and closed is formed in the outer side of the backpack body (2) so that the anti-jamming device of the unmanned aerial vehicle can enter and exit the accommodating cavity, one side of the backpack body (2) is opposite to an antenna transmitting end of the anti-jamming device of the unmanned aerial vehicle in the accommodating cavity, and the material and the thickness of the backpack body are configured to enable electromagnetic waves of an antenna to pass through;

a harness (22), said harness (22) being provided outside said backpack body (2) such that an operator can carry said backpack body (2) by said harness (22);

function reservation portion, function reservation portion is located on knapsack body (2), its shape and position, with hold the intracavity unmanned aerial vehicle reverses the appearance and the position phase-match of equipment functional area on the equipment to supply the operator not taking out under the prerequisite of unmanned aerial vehicle reverses the equipment, observe and/or control the equipment functional area from the outside.

2. The tactical backpack for unmanned aerial vehicle countering equipment according to claim 1, characterized in that the function reservation is defined by the backpack body (2) itself, an identification area matching the shape and position of the equipment function area is located outside the backpack body (2), and the material thickness of the backpack body (2) at the identification area is less than the material thickness of the rest parts; or

The function reservation part is a function reservation hole which is arranged on the backpack body (2) and is matched with the appearance and the position of the equipment function area; or

The function reservation part comprises a through hole which is formed in the backpack body (2) and is matched with the appearance and the position of the equipment function area, and a flexible material layer which is arranged on the through hole in a matching manner.

3. The tactical backpack for the unmanned aerial vehicle opposing device according to claim 2, wherein the functional zone reservation portion comprises an interference signal trigger switch reservation portion (23) adapted to an interference signal trigger switch (13) on the unmanned aerial vehicle opposing device, for an operator to perform an interference signal switching operation from outside without taking out the unmanned aerial vehicle opposing device.

4. The tactical backpack for drone countermeasure equipment according to claim 3, wherein the drone countermeasure equipment is an integrated flat drone countermeasure equipment and comprises two jamming signal trigger switches (13), wherein two adapted jamming signal trigger switch reservations (23) are provided on the backpack body (2).

5. The tactical backpack for unmanned aerial vehicle opposing equipment according to claim 1, wherein the functional zone reservation comprises a control display reservation (24), the control display reservation (24) is a functional reservation hole, and is adapted to a control display zone (14) on the unmanned aerial vehicle opposing equipment, so that an operator can observe the state of the equipment and control the on/off of a main power supply from the outside without taking out the unmanned aerial vehicle opposing equipment.

6. The tactical backpack for drone countermeasure equipment of claim 5, further comprising:

and the transparent cover (25), and the transparent cover (25) is arranged on the control display reserved part (24) in a sealing manner.

7. The tactical backpack for unmanned aerial vehicle opposing equipment according to claim 2, wherein the functional zone reservation portion comprises a charging display function reservation hole adapted to a charging display zone (15) on the unmanned aerial vehicle opposing equipment, and is used for an operator to observe electric quantity and charge and control without taking out the unmanned aerial vehicle opposing equipment.

8. The tactical backpack for unmanned aerial vehicle opposing equipment according to claim 2, wherein the functional zone reservation comprises a networking port functional reservation hole adapted to a networking port (16) on the unmanned aerial vehicle opposing equipment, for an operator to perform networking control from outside without taking out the unmanned aerial vehicle opposing equipment.

9. The tactical backpack for unmanned aerial vehicle countering equipment according to claim 2, wherein the functional zone reservation comprises a battery compartment functional reservation hole, which is adapted to a battery compartment (17) on the unmanned aerial vehicle countering equipment, for an operator to perform battery replacement operation from outside without taking out the unmanned aerial vehicle countering equipment.

10. The tactical backpack for drone countermeasure equipment of claim 1, further comprising:

the radiation protection backplate, the radiation protection backplate sets up inside knapsack body (2), and be located dorsad one side of the antenna emission end of unmanned aerial vehicle reverse system equipment, set up on the radiation protection backplate with the shape of functional area reservation portion with set up position assorted through-hole.

11. The tactical backpack for drone countermeasure equipment according to claim 1, wherein the harness (22) comprises:

two ends of the single-shoulder strap are connected to the hanging rings on two sides of the backpack body (2) through hooks respectively; and/or

One end of each shoulder strap is connected to the top of the back face of the backpack body (2) through a buckle assembly, and the other end of each shoulder strap is connected to the bottom of the back face of the backpack body (2) through a buckle assembly.

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