CN207866116U - Individual soldier's Portable unmanned machine breaks through device - Google Patents

Abstract

The utility model is related to a kind of individual soldier's Portable unmanned machines to break through device comprising module and supply unit occur for counter device ontology, gun sight, transmitting antenna, radiofrequency signal；The counter device ontology uses gun shaped structure, is provided with the gun sight at the gun barrel rear upper position of the gun shaped structure, the gun barrel front end of the gun shaped structure is provided with the transmitting antenna；The gun barrel lower part of the gun shaped structure is provided with the radiofrequency signal, module and supply unit occurs, the radiofrequency signal occurs module and connect with the transmitting antenna, and module occurs for the radiofrequency signal by the means of power.The utility model is easy to operate, and related personnel can operate after simple training, light portable, and effective power is high, and interference distance is big, may interfere with all types of unmanned planes within 1 2km.

Description

Individual soldier's Portable unmanned machine breaks through device

Technical field

The utility model is related to a kind of unmanned planes to break through device, and device is broken through especially with regard to a kind of individual soldier's Portable unmanned machine.

Background technology

It is predicted according to consumer electronics association of the U.S., 2017, global civil micro unmanned plane sale reaches 2,000,000,000 dollars, pin Amount will break through 1,000,000 framves, formal to be spread unchecked period into application, and outburst is also presented in the event that invasion destruction is carried out using unmanned plane Formula increases.Miniature drone is cheap, operation threshold is low, volume is small, maneuverability, can pass through circumference easily, cause Personnel are panic, destroy critical facility.It is entrusted and is planned according to China national blank pipe, strive realizing very high 1000 meters in several years below low Empty and 300 meters or less extreme low-altitude openings are promoted to the whole nation, and civil micro unmanned plane will further be spread unchecked at that time, and protection requirements are compeled The eyebrows and eyelashes.

Unmanned plane greatest problem is " black to fly ", and " pilot " is not eligible for demonstrate,proving.2015《China Civil Aviation driver develops year Degree report》It just points out, last year China's unmanned plane driver quality certification sum is only 2142.In fact, China's unmanned plane has two More than ten thousand framves, for flight operation personnel number considerably beyond 2142, " black to fly " phenomenon is serious, exists and causes the huge wind of safety accident Danger, civil aviation authority started to put forth effort to hit the black winged problem of unmanned plane in 2016, but as unmanned plane more and more enters common family Front yard market, effect, which is not yet received, effectively to be shown.

Therefore, in view of the above-mentioned problems, being mainly the following counter defensive measure currently on the market：1, interference blocks class. Emit the high-power interference radio frequency of orientation to UAV targets, the communication between unmanned plane and remote controler is cut off, to force nothing It is man-machine voluntarily to land or make a return voyage.2, class is directly destroyed.Directly UAV targets are shot down, including use laser weapon, nobody Machine breaks through the mode of unmanned plane, is mainly used for military field.3, detection control class.The transmission generation used by unmanned plane is stopped Code, and then unmanned plane is controlled, or even it is guided to make a return voyage.

Based on the first and the third counter defensive measure, main product on the market has：

1, unmanned plane breaks through rifle.If individual soldier low latitude unmanned plane breaks through system, this unmanned plane counter system will not smash or Person damages unmanned plane, and main operational principle is that interference blocks the flight control system of unmanned plane, signal transmission system, keeps unmanned plane real Existing vertical landing is maked a return voyage automatically.But unmanned plane counter rifle there is a problem of following：Have centainly to the shooting skill of operating personnel It is required that；It needs to use in opening, building is damaged when unmanned plane being avoided to land or accidentally injures pedestrian, limit using model It encloses；Due to only block unmanned plane flight control system and signal transmission system, so can not determine the landing place of unmanned plane with And the owner of unmanned plane.

2, unmanned plane grabber.It is similar with unmanned plane counter rifle, but capture unmanned plane, the hair of net by getting big net It send device to can be rifle, can also be unmanned plane.There is also some problems for unmanned plane grabber on the market at present：It is confidential when to capture Ask high, it is desirable that unmanned plane flies low, and the height at operating personnel station greatly limits use scope in this way；2 need in open environment Middle use；The success rate of capture is not especially high.

3, unmanned plane Auto-Sensing defends percussion system.This equipment is more advanced compared with unmanned plane counter rifle.Radio is detectd It surveys direction finding subsystem and search automatically, discovery, identification and direction finding is carried out to illegal invasion unmanned plane, while starting photoelectric detection tracking Subsystem carries out optics confirmation, positioning and locking tracking to target, finally starts radio interference subsystem to UAV TT ＆ C Forceful electric power interference is carried out with navigation signal to block, and unmanned plane is forced to land or make a return voyage.But unmanned plane Auto-Sensing defends percussion system Using having the following problems：Cost is excessively high to cause use scope smaller；Due to needing uninterrupted radar of opening to monitor, may make At electromagnetic pollution；Maintenance cost is high.Therefore the system can not largely be pushed into market.

Invention content

In view of the above-mentioned problems, the purpose of this utility model is to provide a kind of individual soldier's Portable unmanned machine counter device, operation Simply, easy to carry, and maintenance cost is relatively low.

To achieve the above object, the utility model takes following technical scheme：A kind of individual soldier's Portable unmanned machine counter device, It is characterized in that：It includes counter device ontology, gun sight, transmitting antenna, radiofrequency signal generation module and supply unit；It is described anti- Device ontology processed uses gun shaped structure, and the gun sight, position are provided at the gun barrel rear upper position of the gun shaped structure The gun barrel front end of the gun shaped structure is provided with the transmitting antenna；Positioned at the setting of the gun barrel lower part of the gun shaped structure It states radiofrequency signal and module and supply unit occurs, the radiofrequency signal occurs module and connect with the transmitting antenna, and described penetrates Frequency signal generating module is by the means of power.

Further, it is provided with night lamp in the gun sight, is provided on the gun sight and connect with the night lamp Night vision lamp switch, the gun sight rear portion are provided with gun sight apart from adjustable side.

Further, it includes shell that module and supply unit, which occur, for the radiofrequency signal, and is arranged in the shell 1575MHz radio-frequency transmissions module, 5800MHz radio-frequency transmissions module, 2400MHz radio-frequency transmissions module and battery；Positioned at the shell External side is provided with the 1575MHz module single switch being connect with the 1575MHz radio-frequency transmissions module, is penetrated with the 5800MHz The 5800MHz module single switch of frequency emitting mould train connection, the 2400MHz modules being connect with the 2400MHz radio-frequency transmissions module Single switch, and the power charging interface that is connect with the battery, the battery and the 1575MHz radio-frequency transmissions module, 5800MHz radio-frequency transmissions module, 2400MHz radio-frequency transmissions modules are connected with night lamp；It is provided with positioned at the case inside wall The electricity display screen being connect with the battery；It is provided with and the 1575MHz radio-frequency transmissions module positioned at the hull outside wall The 1575MHz transmitting antenna interface ends of connection, the 5800MHz transmitting antennas being connect with the 5800MHz radio-frequency transmissions module connect Mouthful end, and the 2400MHz transmitting antenna interface ends that are connect with the 2400MHz radio-frequency transmissions module.

Further, the transmitting antenna includes the first external Yagi spark gap directional aerial, the second external Yagi spark gap directional aerial With an integrated Yagi spark gap directional aerial；The first external Yagi spark gap directional aerial and the second external Yagi spark gap directional aerial are flat Row setting, is located at counter device ontology both sides；The first external Yagi spark gap directional aerial is emitted by cable and 1575MHz Antennal interface end is connect with the 1575MHz radio-frequency transmissions module；The integrated Yagi spark gap directional aerial by cable and 5800MHz transmitting antennas interface end is connect with the 5800MHz radio-frequency transmissions module；The second external Yagi spark gap directional aerial It is connect with the 2400MHz radio-frequency transmissions module by cable and 2400MHz transmitting antennas interface end.

Further, it is set as battery main switch at the trigger of the gun shaped structure.

Further, the battery main switch and the battery and 1575MHz radio-frequency transmissions module, 5800MHz radio-frequency transmissions Module, the connection of 2400MHz radio-frequency transmissions modules.

Further, it includes FBGA digital control that module and the particular circuit configurations of supply unit, which occur, for the radiofrequency signal Device, 5800MHz interference signal generators, GPS signal generator, WiFi signal generator, signal processor, the amplification of radio frequency level-one Device, radio frequency two-stage amplifier and radio frequency third stage amplifier；The FBGA digitial controllers and each signal generator are by the electricity Pond powers；The FBGA digitial controllers are for controlling each signal generator, signal processor and amplifier operation；The FBGA Digitial controller is used to generate the digital signal of different frequency and waveform, and different digital signals is sent to each letter respectively In number generator；In each signal generator, the corresponding digital signal received is converted into analog signal, and then generate corresponding Frequency band signals, and via the signal processor, radio frequency first stage amplifier, radio frequency two-stage amplifier and radio frequency third stage amplifier It is sent out after processing.

Further, the radiofrequency signal that the frequency of the 5800MHz interference signal generators output is 5800MHz, through described After signal processor processes, carried out successively through the radio frequency first stage amplifier, radio frequency two-stage amplifier and radio frequency third stage amplifier After three-level amplification, the radiofrequency signal is sent out by the integrated Yagi spark gap directional aerial, and then influences the normal work of unmanned plane.

Further, the radiofrequency signal that the frequency of the GPS signal generator output is 1575MHz, through the signal processing After device processing, three-level amplification is carried out through the radio frequency first stage amplifier, radio frequency two-stage amplifier and radio frequency third stage amplifier successively Afterwards, the radiofrequency signal is sent out by the first external Yagi spark gap directional aerial, and then interferes unmanned plane positioning.

Further, the radiofrequency signal that the frequency of the WiFi signal generator output is 2.4GHz, through the signal processing After device processing, three-level amplification is carried out through the radio frequency first stage amplifier, radio frequency two-stage amplifier and radio frequency third stage amplifier successively Afterwards, it is sent out by the second external Yagi spark gap directional aerial, for interfering remote control of the unmanned operators to unmanned plane.

The utility model has the following advantages due to taking above technical scheme：1, the utility model is easy to operate, phase Pass personnel can operate after simple training.2, the utility model is light portable, and effective power is high, interference distance Greatly, all types of unmanned planes within 1-2km be may interfere with.3, the utility model is provided with internal battery, and cruise duration is long, sustainable Work 90 minutes.4, the utility model has the function of a degree of rain and snow, can be in the severe ring such as outdoor rain, snow, strong wind It is used under border.5, the utility model maintenance is at low cost, can mass production and for specific region unmanned plane protect.

Description of the drawings

Fig. 1 is the structural schematic diagram of the utility model.

Fig. 2 is the radiofrequency signal occurring principle schematic diagram of the utility model.

Specific implementation mode

In the description of the present invention, it should be understood that the orientation of the instructions such as term "upper", "lower" "inner", "outside" Or position relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description the utility model and simplification is retouched It states, does not indicate or imply the indicated device or element must have a particular orientation, with specific azimuth configuration and operation； " first ", " second " etc. are not offered as erection sequence or significance level, are merely for convenience of description the utility model and simplification is retouched It states, therefore should not be understood as limiting the present invention.The utility model is carried out with reference to the accompanying drawings and examples detailed Description.

As shown in Figure 1, the utility model provides a kind of individual soldier's Portable unmanned machine counter device comprising counter device ontology 1, Module 4 and supply unit 5 occur for gun sight 2, transmitting antenna 3, radiofrequency signal.It breaks through device ontology 1 and uses gun shaped structure, be located at rifle It is provided with gun sight 2 at the gun barrel rear upper position of type structure, the gun barrel front end of gun shaped structure is provided with transmitting antenna 3.The gun barrel lower part of gun shaped structure is provided with radiofrequency signal, module 4 and supply unit 5 occurs, module 4 occurs for radiofrequency signal It is connect with transmitting antenna 3, and radiofrequency signal occurs module 4 and powered by supply unit 5.

In above-described embodiment, it is provided with night lamp (not shown) in gun sight 2, is provided on gun sight 2 and night Depending on the night vision lamp switch 6 of lamp connection, and gun sight is provided with apart from adjustable side 7 at 2 rear portion of gun sight.In use, gun sight 2 is logical With optics lens imaging, target image and sight line are overlapped on the same focussing plane, even if eyes of user is slightly offset It will not influence aiming point.UAV targets can be more accurately positioned in this way.Meanwhile not according to UAV targets' distance Together, adjusting that can be by gun sight apart from adjustable side, it is right in the case of different distance to realize using different multiples The precision strike of UAV targets.It uses under difficult environmental conditions for convenience, night vision can be opened by night vision lamp switch 6 Function can make gun sight 2 still have sighting ability in the case of low-light condition and night in this way.

In the various embodiments described above, module 4 occurs for radiofrequency signal and supply unit 5 includes shell 8, and is arranged in shell 8 Interior 1575MHz radio-frequency transmissions module 9,5800MHz radio-frequency transmissions module 10,2400MHz radio-frequency transmissions module 11 and battery 12. 8 outside of shell is provided with the 1575MHz modules single switch 13 being connect with 1575MHz radio-frequency transmissions module 9, with 5800MHz The 5800MHz modules single switch 14 that radio-frequency transmissions module 10 connects, the 2400MHz being connect with 2400MHz radio-frequency transmissions module 11 Module single switch 15, and the power charging interface 16 that is connect with battery 12, battery 12 and 1575MHz radio-frequency transmissions module 9, 5800MHz radio-frequency transmissions module 10,2400MHz radio-frequency transmissions module 11 are connected with night lamp, are powered；Wherein, 1575MHz The signal generation of radio-frequency transmissions module 9 can be by 13 independent control of 1575MHz modules single switch, and 5800MHz modules single switch 14 can With the generation of the signal of independent control 5800MHz radio-frequency transmissions module 10,2400MHz radio-frequency transmissions module 11 is by 2400MHz moulds Group 15 independent control of single switch.It is additionally provided with and battery 12 (i.e. close to the small of the stock side of gun shaped structure) positioned at 8 madial wall of shell The electricity display screen 17 of connection, can allow user intuitively to see remaining electricity, can be by outer when 12 electricity of battery exhausts The charging unit set is charged by power charging interface 16 for battery 12.Positioned at 8 lateral wall of shell (i.e. close to transmitting antenna 3 one Side) it is provided with the 1575MHz transmitting antennas interface end 18 being connect with 1575MHz radio-frequency transmissions module 9, it is sent out with 5800MHz radio frequencies The 5800MHz transmitting antennas interface end 19 of the connection of module 10 is penetrated, and connect with 2400MHz radio-frequency transmissions module 11 2400MHz transmitting antennas interface end 20.

In the various embodiments described above, transmitting antenna 3 is fixed including the first external Yagi spark gap directional aerial 21, the second external Yagi spark gap The Yagi spark gap directional aerial 22 integrated to antenna and one；The first external Yagi spark gap directional aerial 21 and the second external Yagi spark gap orientation Antenna parallel is arranged, and is located at counter device ontology both sides.The first external Yagi spark gap directional aerial 21 is emitted by cable and 1575MHz Antennal interface end 18 is connect with 1575MHz radio-frequency transmissions module 9；1575MHz radio-frequency transmissions module 9 generate frequency be The radiofrequency signal of 1575MHz passes through the cable transmission that is connect with 1575MHz transmitting antennas interface end 18 to the first external Yagi spark gap Directional aerial 21 is emitted, and then interferes the positioning of unmanned plane.Integrated Yagi spark gap directional aerial 22 passes through cable and 5800MHz Transmitting antenna interface end 19 is connect with 5800MHz radio-frequency transmissions module 10；5800MHz radio-frequency transmissions module 10 can generate frequency For the radiofrequency signal of 5800MHz, and launched by integrated Yagi spark gap directional aerial 22, to block regarding for UAV targets It keeps pouring in defeated, interferes the normal work of unmanned plane.The second external Yagi spark gap directional aerial is connect by cable and 2400MHz transmitting antennas Mouth end 20 is connect with 2400MHz radio-frequency transmissions module 11；It is 2.4GHz's that 2400MHz radio-frequency transmissions module 11, which can generate frequency, WiFi signal, the WiFi signal generated by 2400MHz radio-frequency transmissions module 11 can be by the second external Yagi spark gap directional aerials Transmitting, the remote signal of jamming target unmanned plane.

In the various embodiments described above, battery main switch 23, battery main switch 23 and battery are set as at the trigger of gun shaped structure 12 and 1575MHz radio-frequency transmissions module 9,5800MHz radio-frequency transmissions module 10,2400MHz radio-frequency transmissions module 11 connect, and are used for Control battery 12 powers to three radio-frequency transmissions modules.In use, pressing battery main switch 23, battery 12 starts to power, at this time The corresponding single switch for pressing radio-frequency transmissions module, can generate corresponding radiofrequency signal.If being not turned on battery main switch 23, electricity Pond 12 does not power, and the single switch of radio-frequency transmissions module can also fail at this time.

In the various embodiments described above, as shown in Fig. 2, the particular circuit configurations packet of module 4 and supply unit 5 occurs for radiofrequency signal Include FBGA digitial controllers, 5800MHz interference signal generators, GPS signal generator, WiFi signal generator, signal processing Device, radio frequency first stage amplifier, radio frequency two-stage amplifier and radio frequency third stage amplifier；FBGA digitial controllers and each signal generator It is powered by battery 12.FBGA digitial controllers are played for controlling each signal generator, signal processor and amplifier operation Master control acts on.FBGA digitial controllers are used to generate the digital signal of different frequency and waveform, and respectively believe different numbers It number is sent in each signal generator；In each signal generator, the corresponding digital signal received is converted into simulation letter Number, and then corresponding frequency band signals are generated, and via signal processor, radio frequency first stage amplifier, radio frequency two-stage amplifier and penetrate It is sent out after the processing of frequency third stage amplifier.

The radiofrequency signal that the frequency of 5800MHz interference signal generators output is 5800MHz, through signal processor processes Afterwards, successively after radio frequency first stage amplifier, radio frequency two-stage amplifier and radio frequency third stage amplifier carry out three-level amplification, by what is integrated Yagi spark gap directional aerial 22 sends out the radiofrequency signal；The frequency of 5800MHz is the image transmitting frequency of unmanned plane, thus the radio frequency Signal can interfere the image transmitting of unmanned plane, and then influence the normal work of unmanned plane.The frequency of GPS signal generator output For the radiofrequency signal of 1575MHz, after signal processor processes, successively through radio frequency first stage amplifier, radio frequency two-stage amplifier and After radio frequency third stage amplifier carries out three-level amplification, the radiofrequency signal is sent out by the first external Yagi spark gap directional aerial 21, in turn Interfere unmanned plane positioning.The radiofrequency signal that the frequency of WiFi signal generator output is 2.4GHz, after signal processor processes, Successively after radio frequency first stage amplifier, radio frequency two-stage amplifier and radio frequency third stage amplifier carry out three-level amplification, by external the Two Yagi spark gap directional aerials are sent out, for interfering remote control of the unmanned operators to unmanned plane.

In conclusion when the utility model is used, the 1575MHz radio-frequency transmissions modules in module 4 occur for radiofrequency signal 9,5800MHz radio-frequency transmissions module 10 and 2400MHz radio-frequency transmissions module 11 can be combined work, by all radio-frequency transmissions The single switch of module is opened, and then shoots down UAV targets.It opens 2400MHz modules single switch 15 and 5800MHz module lists is opened 14 are closed, tranmitting frequency is the signal of the signal and 5800MHz of 2400MHz (WiFi), interferes the remote signal of unmanned plane, forces nothing It is man-machine to make a return voyage.If only tranmitting frequency is 5800MHz interference signals, the image transmitting of unmanned plane can be blocked；If only opening 1575MHz modules single switch 13 then only emits GPS interference signals, the real-time positioning of unmanned plane can be influenced, to force unmanned plane Land in original place.

The various embodiments described above are merely to illustrate the utility model, wherein the structure of each component, connection type and manufacture craft Etc. may be changed, every equivalents carried out on the basis of technical solutions of the utility model and improvement, It should not exclude except the scope of protection of the utility model.

Claims (10)

1. a kind of individual soldier's Portable unmanned machine breaks through device, it is characterised in that：It include counter device ontology, gun sight, transmitting antenna, Module and supply unit occur for radiofrequency signal；The counter device ontology uses gun shaped structure, is located at the gun barrel of the gun shaped structure It is provided with the gun sight at rear upper position, the gun barrel front end of the gun shaped structure is provided with the transmitting antenna； The gun barrel lower part of the gun shaped structure is provided with the radiofrequency signal, module and supply unit, the radiofrequency signal hair occurs Raw module is connect with the transmitting antenna, and module occurs for the radiofrequency signal by the means of power.

2. individual soldier's Portable unmanned machine as described in claim 1 breaks through device, it is characterised in that：It is provided with night in the gun sight Depending on lamp, the night vision lamp switch being connect with the night lamp is provided on the gun sight, the gun sight rear portion is provided with aiming Mirror is apart from adjustable side.

3. individual soldier's Portable unmanned machine as described in claim 1 breaks through device, it is characterised in that：Module occurs for the radiofrequency signal Include shell with supply unit, and be arranged in the shell 1575MHz radio-frequency transmissions module, 5800MHz radio-frequency transmissions Module, 2400MHz radio-frequency transmissions module and battery；It is provided with and the 1575MHz radio-frequency transmissions mould positioned at the hull outside The 1575MHz module single switch of group connection, the 5800MHz module single switch being connect with the 5800MHz radio-frequency transmissions module, with The 2400MHz module single switch of the 2400MHz radio-frequency transmissions module connection, and the power source charges being connect with the battery connect Mouthful, the battery and the 1575MHz radio-frequency transmissions module, 5800MHz radio-frequency transmissions module, 2400MHz radio-frequency transmissions modules It is connected with night lamp；The electricity display screen being connect with the battery is provided with positioned at the case inside wall；Positioned at the shell Lateral wall is provided with the 1575MHz transmitting antenna interface ends being connect with the 1575MHz radio-frequency transmissions module, and described 5800MHz radio-frequency transmissions modules connection 5800MHz transmitting antenna interface ends, and with the 2400MHz radio-frequency transmissions module The 2400MHz transmitting antenna interface ends of connection.

4. individual soldier's Portable unmanned machine as claimed in claim 3 breaks through device, it is characterised in that：The transmitting antenna includes external The first Yagi spark gap directional aerial, the second external Yagi spark gap directional aerial and an integrated Yagi spark gap directional aerial；It is described external First Yagi spark gap directional aerial and the second external Yagi spark gap directional aerial are arranged in parallel, and are located at counter device ontology both sides；It is described The first external Yagi spark gap directional aerial passes through cable and 1575MHz transmitting antennas interface end and the 1575MHz radio-frequency transmissions mould Group connection；The integrated Yagi spark gap directional aerial passes through cable and 5800MHz transmitting antennas interface end and the 5800MHz radio frequencies Emitting mould train connects；The second external Yagi spark gap directional aerial by cable and 2400MHz transmitting antennas interface end with it is described 2400MHz radio-frequency transmissions modules connect.

5. individual soldier's Portable unmanned machine as described in claim 3 or 4 breaks through device, it is characterised in that：The gun shaped structure is pulled Battery main switch is set as at machine.

6. individual soldier's Portable unmanned machine as claimed in claim 5 breaks through device, it is characterised in that：The battery main switch with it is described Battery is connected with 1575MHz radio-frequency transmissions module, 5800MHz radio-frequency transmissions module, 2400MHz radio-frequency transmissions modules.

7. individual soldier's Portable unmanned machine as described in claim 3 or 4 breaks through device, it is characterised in that：The radiofrequency signal occurs Module and the particular circuit configurations of supply unit include FBGA digitial controllers, 5800MHz interference signal generators, GPS signal Generator, WiFi signal generator, signal processor, radio frequency first stage amplifier, radio frequency two-stage amplifier and the amplification of radio frequency three-level Device；The FBGA digitial controllers and each signal generator are by the battery powered；The FBGA digitial controllers are for controlling Make each signal generator, signal processor and amplifier operation；The FBGA digitial controllers are for generating different frequency and wave The digital signal of shape, and different digital signals is sent in each signal generator respectively；It, will in each signal generator The corresponding digital signal received is converted to analog signal, and then generates corresponding frequency band signals, and via the signal processing It is sent out after device, radio frequency first stage amplifier, radio frequency two-stage amplifier and the processing of radio frequency third stage amplifier.

8. individual soldier's Portable unmanned machine as claimed in claim 7 breaks through device, it is characterised in that：The 5800MHz interference signals The radiofrequency signal that the frequency of generator output is 5800MHz, after the signal processor processes, successively through the radio frequency level-one After amplifier, radio frequency two-stage amplifier and radio frequency third stage amplifier carry out three-level amplification, by the integrated Yagi spark gap directional aerial The radiofrequency signal is sent out, and then influences the normal work of unmanned plane.

9. individual soldier's Portable unmanned machine as claimed in claim 7 breaks through device, it is characterised in that：The GPS signal generator is defeated The frequency gone out be 1575MHz radiofrequency signal, after the signal processor processes, successively through the radio frequency first stage amplifier, It, should by the first external Yagi spark gap directional aerial after radio frequency two-stage amplifier and radio frequency third stage amplifier carry out three-level amplification Radiofrequency signal is sent out, and then interferes unmanned plane positioning.

10. individual soldier's Portable unmanned machine as claimed in claim 7 breaks through device, it is characterised in that：The WiFi signal generator The frequency of output be 2.4GHz radiofrequency signal, after the signal processor processes, successively through the radio frequency first stage amplifier, After radio frequency two-stage amplifier and radio frequency third stage amplifier carry out three-level amplification, sent out by the second external Yagi spark gap directional aerial Go out, for interfering remote control of the unmanned operators to unmanned plane.