CN108669734A - A kind of control method of the Multifunctional travel suitcase based on artificial intelligence - Google Patents

Abstract

The present invention provides a kind of control method of the Multifunctional travel suitcase based on artificial intelligence comprising babinet, the multiple idler wheels being arranged in the bottom of the babinet further include in the pull rod that the back of the babinet is arranged：Clean energy resource electricity generation system, UAV system, authentication system, automatically controlled fixing device, automatically controlled trampoline power assisting device and master controller.Cleaning energy electricity generation system is conducive to improve energy utilization rate, more energy-saving low-carbon environmental protection.By configuring UAV system on the Intelligent luggage carrier, be conducive to meet the self-timer in user's travelling, take photo by plane, explore the way, check hazardous location, amusement a variety of demands；And the design of unmanned plane hangar, while meeting the demand that storage protection, efficiently charging, cleaning are carried out to unmanned plane.By designing automatically controlled fixing device for the Intelligent luggage carrier, it is advantageously implemented the reliable and stable fixation to the Intelligent luggage carrier.Automatically controlled trampoline power assisting device is conducive to save physical demands of the user in upper and lower staircase or step.

Description

Control method of multifunctional luggage case based on artificial intelligence

Technical Field

The invention relates to the technical field of intelligent hardware, in particular to a control method of a multifunctional luggage case based on artificial intelligence.

Background

Luggage cases have been increasingly used as carriers for holding articles on a person's daily trip. For example, on business trips, travels and on vacations, various types of luggage provide great convenience in helping people to rest necessary articles. The suitcase of big or small size is various in market, for example knapsack, pull rod formula suitcase, no pull rod formula suitcase etc. have richened the optional variety of case and bag when people go on a journey. Especially, the pull rod type luggage case with the rollers at the bottom of the case body is more popular, the luggage case depends on the automatic sliding of the rollers during advancing, the design of the pull rod frees both hands, and the inclined pulling and the like save labor.

However, the existing luggage cases have certain use limitations, on one hand, the existing luggage cases need to be pulled by manpower, on the other hand, the existing luggage cases are inconvenient to open, close, lock and unlock, and the theft prevention performance is poor. In addition, the function of traditional suitcase is also more single, and the function that only holds article basically can not satisfy user's many-sided demand far away. For example, users carry more electronic devices with them, which has a charging requirement; in addition, for women and children with poor physical strength, it becomes difficult to lift the suitcase up and down stairs or steps; from the theftproof angle, although there is the intelligent suitcase that can report to the police at present, when user's mobile communication terminal, intelligent wrist-watch or intelligent bracelet were closed or when the electric energy exhausts, the user can't obtain effectual warning to effectively prevent to steal or take the emergence of suitcase by mistake inefficiently.

Disclosure of Invention

The embodiment of the invention provides a control method of a multifunctional luggage case based on artificial intelligence, which is used for meeting the requirements of users in various aspects of mobile charging, burglary prevention, labor saving and the like.

To achieve the above object, in a first aspect, an embodiment of the present invention provides a control method for a multifunctional luggage case based on artificial intelligence, where the multifunctional luggage case includes a case body, a plurality of rollers disposed at a bottom of the case body, and a pull rod disposed at a back of the case body, and the control method further includes:

the clean energy power generation system comprises a wind power generation device and a solar power generation device; the wind power generation device comprises blades, a driving shaft, a permanent magnet generator and a graphene energy storage battery, wherein the blades are mechanically connected with the driving shaft, the driving shaft is mechanically connected with a rotating shaft of the permanent magnet generator, and the permanent magnet generator is electrically connected with the graphene energy storage battery; the box body is further provided with a first accommodating cavity for accommodating the wind power generation device, the bottom of the first accommodating cavity is provided with a telescopic device, the telescopic device comprises an electric push rod, a linear motor or a lead screw lifter, a first electric control cabin door is arranged at the opening part of the accommodating cavity, and after the first electric control cabin door is opened, the telescopic device is used for pushing the wind power generation device out of the first accommodating cavity to a preset working position for wind power generation or recovering the wind power generation device into the first accommodating cavity after the wind power generation is finished and triggering to close the first electric control cabin door; the solar power generation device comprises a cadmium telluride thin film solar cell which is arranged on at least one outer surface of the box body;

unmanned aerial vehicle system, it includes unmanned aerial vehicle and unmanned aerial vehicle hangar, this unmanned aerial vehicle hangar set up in second on the box holds the intracavity unmanned aerial vehicle has been put in the unmanned aerial vehicle hangar, the unmanned aerial vehicle hangar includes: the second electric control door is used for the unmanned aerial vehicle to come in and go out, the charging plate and/or the lithium battery charger are/is arranged at the bottom of the unmanned aerial vehicle hangar, and the ultrasonic dust removal device and the pneumatic dust blowing gun are arranged on the side wall of the unmanned aerial vehicle hangar; unmanned aerial vehicle's charging panel includes: the charging contact of the unmanned aerial vehicle is connected to a landing leg of the unmanned aerial vehicle through a lead, a gold-plated spring is arranged at the tail end of the lead, and when the unmanned aerial vehicle lands on the charging plate, the gold-plated spring is in contact with the gold-plated base to perform charging; the ultrasonic dust removal device is used for emitting ultrasonic waves to perform dust removal operation on the unmanned aerial vehicle, and the pneumatic dust blowing gun is used for emitting compressed air to remove dust and dirt on the unmanned aerial vehicle;

the identity authentication system is arranged on the box body and used for authenticating the identity of the user and judging whether the user belongs to a legal user; the identity verification system comprises at least one of the following: password verification equipment, palm print identification equipment, fingerprint identification equipment, voiceprint identification equipment, face identification equipment, iris identification equipment and signature identification equipment;

the electric control fixing device is used for fixing the position of the box body and comprises an electric vacuum chuck device and/or an electromagnetic chuck device; the electric vacuum chuck device includes: the vacuum generator comprises a vacuum sucker, a vacuum generator and a storage battery, wherein the storage battery supplies power to the vacuum generator, and the vacuum sucker is connected with the vacuum generator through a pipeline; the electromagnetic chuck device includes: the magnetic chuck comprises a sucker shell, an iron core arranged in the sucker shell and an electromagnetic coil wound on the iron core;

the electric control trampoline power assisting device is accommodated in a third accommodating cavity formed in the bottom of the box body, and a third electric control cabin door is arranged at an outlet of the third accommodating cavity; automatically controlled trampoline booster unit includes: trampoline body and trampoline controlling means, the trampoline body includes: the elastic rods are connected between the upper elastic net and the top of the third accommodating cavity, and the power springs are connected between the upper elastic net and the lower elastic net; the trampoline control apparatus includes: the electric control magnet is arranged at the top of the third accommodating cavity and comprises an iron core and a winding wound on the iron core, the electric control magnet is electrically connected with the control switch through a wire, and the electric control magnet generates magnetic force after being electrified to adsorb and recycle the trampoline body into the third accommodating cavity and trigger to close the third electric control cabin door; and the number of the first and second groups,

the main controller is arranged on the box body, is electrically connected with the clean energy power generation system, the unmanned aerial vehicle system, the identity verification system, the electronic control fixing device and the electronic control trampoline power assisting device, and is used for controlling the clean energy power generation system, the unmanned aerial vehicle system, the identity verification system, the electronic control fixing device and the electronic control trampoline power assisting device;

the control method comprises the following steps:

the identity authentication system judges whether the user to be authenticated belongs to a legal user or not;

when the user to be verified does not belong to a legal user, the main controller sends an alarm signal to the legal user of the multifunctional luggage case, and a human-computer interaction interface configured on the main controller is closed;

when the user to be verified belongs to a legal user, the main controller executes the following steps:

receiving a wind power generation instruction sent by a user, controlling the first electric control bin door to be opened, and controlling the telescopic device to push the wind power generation device in the first accommodating cavity out to a preset working position for wind power generation operation; or,

receiving an adsorption/desorption fixing instruction sent by a user, and controlling the electric vacuum chuck device to adsorb/desorb an object to be adsorbed; or,

receiving an adsorption fixing instruction sent by a user, controlling to electrify and start the electromagnetic adsorption device, receiving an adsorption fixing releasing instruction sent by the user, and controlling to power off and close the electromagnetic chuck device; or,

receiving a takeoff instruction sent by a user, controlling the second electronic control bin gate to be opened, and controlling the unmanned aerial vehicle to take off; or,

receiving an unmanned aerial vehicle maintenance instruction sent by a user, controlling to recover the unmanned aerial vehicle, controlling to close the second electric control cabin door, controlling a charging panel of the unmanned aerial vehicle to be connected with the graphene energy storage battery and the cadmium telluride thin-film solar battery so as to charge the unmanned aerial vehicle, disconnecting a power supply switch of the charging panel after charging is completed, then controlling to start the ultrasonic dust removal device to perform dust removal operation, and controlling to start the pneumatic dust blowing gun to further blow the unmanned aerial vehicle after the ultrasonic dust removal device finishes the dust removal operation; or,

receiving a lifting and carrying assisting instruction sent by a user, controlling the third electric control door to open to release the trampoline body, receiving a lifting and carrying stopping assisting instruction sent by the user, controlling the electric control magnet to be electrified, adsorbing and recycling the trampoline body into the third accommodating cavity, and then controlling the third electric control door to be closed;

the user command is sent through a mobile communication terminal of a user or sent through a human-computer interaction interface configured on the main controller.

Optionally, the vacuum generator is a single-stage or multi-stage vacuum generator, and the vacuum generator is provided with a supersonic laval nozzle; the electric vacuum chuck device further includes: the air conditioner comprises an air compressor, a vacuum filter, a switch unit, a vacuum pressure sensor and an alarm; the vacuum pressure sensor is provided with a preset safety pressure value, the suction force of the sucker at the safety pressure value is a safety suction force, and when the vacuum sucker is detected to reach the safety pressure value, a signal of successful adsorption is transmitted to the main controller; the master controller is further configured to: judging whether the display numerical value of the vacuum pressure sensor can reach the highest vacuum pressure value of the vacuum generator or not, if so, determining that the vacuum chuck is normal in laminating degree and good in pipeline sealing property, and if the vacuum pressure value is always lower than the highest vacuum pressure value of the vacuum generator, determining that the pipeline connection has leakage or the laminating degree of the vacuum chuck is abnormal; the switching unit includes: a common electromagnetic valve arranged at the front end of the vacuum generator, and a vacuum electromagnetic valve arranged in a vacuum pipeline; the alarm is used for receiving a vacuum pressure value in the vacuum sucker detected by the vacuum pressure sensor in real time and sending an alarm signal when the vacuum pressure value is lower than a set alarm threshold value; the vacuum filter is connected to a pipeline between the vacuum generator and the vacuum chuck; the air compressor is connected with the vacuum generator through a pipeline.

Optionally, an OLED flexible bendable touch display screen is further arranged on the box body and electrically connected with the graphene energy storage battery, the cadmium telluride thin-film solar cell and the main controller, and the OLED flexible bendable touch display screen is used as the human-computer interaction interface of the main controller; and the box body is also provided with a camera for face recognition and identity verification.

Optionally, a recorder is further arranged on the box body, and is used for recording video images in a circulating manner and provided with a built-in memory card; the recorder is used for being turned on or turned off according to the control signal of the main controller; when the recorder does not have a display screen, the recorder is electrically connected with the OLED flexible touch display screen, and the main controller is further used for controlling the OLED flexible touch display screen to display the video image recorded by the recorder after the user passes the verification of the identity verification system.

Optionally, a sewage draining outlet is further formed in the unmanned aerial vehicle hangar, and an impurity collecting chamber is connected to the sewage draining outlet; a speed increaser is also connected to a driving shaft between the blades and the permanent magnet generator; and the elastic rods are replaced by an elastic tube which is respectively connected with the top of the third accommodating cavity, the upper elastic net and the lower elastic net.

Optionally, an artificial intelligence sound box is further embedded in the box body, and the artificial intelligence sound box is electrically connected with the graphene energy storage battery, the cadmium telluride thin-film solar cell and the main controller.

Optionally, a strontium aluminate luminous coating layer and an electroluminescent coating layer are further arranged on the surface of the box body, the electroluminescent coating layer is electrically connected with the graphene energy storage battery, the cadmium telluride thin-film solar cell and the main controller, and the main controller is controlled by the main controller to be electrified and emit light.

Optionally, at least one of the following positioning modules is further disposed on the box body: the GPS positioning module, the Beidou positioning module, the Glonass GLONASS positioning module, the WIFI network positioning module and the Bluetooth positioning module; when the Bluetooth positioning module is adopted, a Bluetooth tag is implanted in the box body, an LED lamp, a buzzer and a rechargeable battery are arranged on the Bluetooth tag, a Bluetooth read-write module is arranged on a mobile communication terminal of a user and is communicated with the Bluetooth tag, and when the distance between the box body and the mobile communication terminal is larger than a preset safety distance, the Bluetooth tag and the mobile communication terminal both send out alarm signals.

Optionally, the multi-functional luggage further comprises: the safety lock is used for opening the multifunctional luggage case according to the control signal of the main controller after the user passes the identity authentication; and the plurality of charging interfaces are used for charging the external electronic terminal equipment.

Optionally, a network access module is configured in the multifunctional trunk, and the network access module includes a 3G wireless network card, a 4G wireless network card, a 5G wireless network card, a WIFI module, or a GSM module; the control method further comprises the following steps:

controlling the multifunctional luggage case according to a control instruction remotely sent by a handheld terminal of a legal user through the Internet, a mobile communication network or a wireless communication network; the control comprises at least one of the following:

remotely locking the trunk, or remotely adsorbing a floor, a wall, a vehicle body or a metal fixture, or remotely starting a recorder, controlling the recorder to record a sound or a field video, and controlling the recorder to send recorded image data to a user handheld intelligent terminal or a cloud database server through a mobile communication network; or remotely controlling an intelligent sound box or an alarm arranged in the intelligent trunk to send out sound, light and vibration alarm signals to the surrounding masses or the environment; or the unmanned aerial vehicle carried by the intelligent luggage case is remotely controlled to take off for reconnaissance operation.

The technical scheme has the following beneficial effects:

1. according to the technical scheme, the clean energy power generation system is arranged on the intelligent luggage case, so that the power generation by using clean energy in the natural world such as solar energy, wind energy and the like is facilitated, the intelligent luggage case is suitable for various climatic conditions, and can generate power to operate in daytime and night, so that the energy utilization rate can be improved, the energy is saved, the carbon is low, the environment is protected, the intelligent luggage case can be used as a mobile power supply with power supplied by various clean energy, and the charging requirements of various electronic devices of a user along with power supply are fully met; in addition, the first accommodating cavity is formed in the intelligent luggage case, and the wind power generation device is hidden in the intelligent luggage case, so that the wind power generation device is protected, physical damage is avoided, and the attractive market demand of the product appearance is considered; in addition, the graphene energy storage battery can obtain a higher charging speed to charge external electronic equipment, and multiple domestic experiments prove that electrons can flow more quickly on the surface of a graphene material due to the unique physical properties of graphene and can be combined with copper ions more quickly, in other words, the charging speed of the battery can be greatly improved, and research data shows that the charging and discharging speed of the battery manufactured by using graphene is 10 times that of a lithium ion storage battery.

2. According to the technical scheme of the invention, the unmanned aerial vehicle system is configured on the intelligent trunk, so that various requirements of self-shooting, aerial photography, route exploration, dangerous section inspection and entertainment in the travel of a user can be met; and the design of unmanned aerial vehicle hangar has satisfied the demand of storing the protection to unmanned aerial vehicle simultaneously, high-efficient charging, clean maintenance, can in time clear up the multiple solid-liquid state impurity that unmanned aerial vehicle carried after unmanned aerial vehicle returns, guarantee unmanned aerial vehicle's motor, optical element's such as high accuracy sensor and camera cleanness to through design unmanned aerial vehicle's metal charging panel, be favorable to realizing automatic high-efficient charging.

3. According to the technical scheme of the invention, the electronic control fixing device is designed for the intelligent luggage case, so that the reliable and stable fixing of the intelligent luggage case is favorably realized when a user takes power or a long-distance automobile, and even if the user does not sense an alarm signal of the intelligent luggage case, the occurrence of wrong taking or malicious stealing of a stranger can be still prevented; and if the vacuum sucker device is damaged by strong physics, the vacuum sucker device can be subjected to decompression to trigger the sending of an alarm signal, so that a user is reminded, and the safety of the intelligent luggage case is further guaranteed. Meanwhile, the application of the Bluetooth tag guarantees the detection capability of a user within a range of 30-50 meters away from the intelligent luggage case.

4. According to the technical scheme, the electric control trampoline power assisting device is designed, so that the upward rebounding power assisting effect can be provided for the intelligent luggage, the lifting direction is controlled by the good reaction elastic force of the trampoline device, and the physical consumption of a user when the user goes up and down the escalator or the steps can be effectively saved. Simultaneously, still designed trampoline controlling means, absorbed the recovery with this trampoline body based on the spring body of electro-magnetic adsorption metal material, can switch to the gyro wheel fast like this and drag the state, it is more convenient.

5. According to the technical scheme of the invention, by arranging the OLED flexible bendable touch display screen, on one hand, the shape following characteristic of the OLED flexible bendable touch display screen can be utilized, the volume of the intelligent luggage case is not influenced, and on the other hand, the OLED flexible bendable touch display screen is utilized to obtain better moving performance. The adoption of the noctilucent coating layer and the electroluminescent coating layer can ensure the personal safety of a user using the intelligent luggage case on a street at night; the embedded design of artificial intelligence audio amplifier is favorable to exerting this intelligent suitcase's entertainment function, increases more enjoyment for the travel.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of a state of an artificial intelligence based multi-functional luggage case according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of another state of the multifunctional luggage case based on artificial intelligence according to the embodiment of the present invention.

The reference numbers illustrate:

a clean energy power generation system-10, a wind power generation device-110 and a telescopic device-112;

unmanned aerial vehicle system-20, unmanned aerial vehicle hangar 210, unmanned aerial vehicle 220, charging panel 212, ultrasonic dust removal device 214, pneumatic dust blowing gun 216;

an authentication system-30;

an electrically controlled fixing device-40;

an electric control trampoline power assisting device-50, a trampoline body 510, a trampoline control device 520, an elastic rod 511, an upper elastic net 512, a power assisting spring 513 and a lower elastic net 514;

a main controller-60.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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 invention.

Referring to fig. 1, an embodiment of the present invention provides a control method for a multifunctional luggage case based on artificial intelligence, so as to meet the requirements of users in various aspects of mobile charging, theft prevention, labor saving, and the like. This multi-functional luggage case includes the box, a plurality of gyro wheels that the bottom of box set up the pull rod that the back of box set up still includes: clean energy power generation system 10, unmanned aerial vehicle system 20, authentication system 30, automatically controlled fixing device 40, automatically controlled trampoline booster unit 50 and main control unit 60.

A clean energy power generation system 10 including a wind power generation device 110 and a solar power generation device (not shown); the wind power generation device 110 comprises blades, a driving shaft, a permanent magnet generator and a graphene energy storage battery, wherein the blades are mechanically connected with the driving shaft, the driving shaft is mechanically connected with a rotating shaft of the permanent magnet generator, and the permanent magnet generator is electrically connected with the graphene energy storage battery; the box body is further provided with a first accommodating cavity for accommodating the wind power generation device, the bottom of the first accommodating cavity is provided with a telescopic device 112, the telescopic device 112 comprises an electric push rod, a linear motor or a lead screw lifter, a first electric control bin gate is arranged at the opening part of the accommodating cavity, and after the first electric control bin gate is opened, the telescopic device 112 is used for pushing the wind power generation device 110 out of the first accommodating cavity to a preset working position for wind power generation, or after the wind power generation is finished, the wind power generation device 110 is recovered into the first accommodating cavity and the first electric control bin gate is triggered to be closed; the solar power generation device comprises a cadmium telluride thin film solar cell which is arranged on at least one outer surface of the box body.

Unmanned aerial vehicle system 20, it includes unmanned aerial vehicle 220 and unmanned aerial vehicle hangar 210, this unmanned aerial vehicle hangar 210 set up in second on the box holds the intracavity unmanned aerial vehicle 220 has been stored in unmanned aerial vehicle hangar 210, unmanned aerial vehicle hangar 210 includes: a second electronic control door for the unmanned aerial vehicle 220 to enter and exit, a charging plate 212 and/or a lithium battery charger arranged at the bottom of the unmanned aerial vehicle hangar 210, and an ultrasonic dust removal device 214 and a pneumatic dust blowing gun 216 arranged on the side wall of the unmanned aerial vehicle hangar 210; the charging board 212 of the drone includes: the charging contact of the unmanned aerial vehicle is connected to a landing leg of the unmanned aerial vehicle through a lead, a gold-plated spring is arranged at the tail end of the lead, and when the unmanned aerial vehicle lands on the charging plate, the gold-plated spring is in contact with the gold-plated base to perform charging; the ultrasonic dust removal device 214 is used for emitting ultrasonic waves to carry out dust removal operation on the unmanned aerial vehicle, and the pneumatic dust blowing gun 216 is used for emitting compressed air to remove dust and dirt on the unmanned aerial vehicle. Adopt the ultrasonic wave dust removal mode can effectively clean the camera photosensitive element that unmanned aerial vehicle carried, through the super high speed vibration of tens of thousands of times per second, will adsorb the dust piece shake on the photoreceptor and fall, reach the effect of dust removal. The dust blowing gun is mainly used for dust removal work in factories and during installation and maintenance, and is suitable for cleaning work in narrow places, high places and air pipes which can not be touched by hands. Besides the dust and sand, the rainwater also has great influence on the motor and other electronic elements of the unmanned aerial vehicle. Blow dirt rifle and still be favorable to drying the water droplet on the unmanned aerial vehicle, form the air-dry effect. Furthermore, an isopropanol cleaning agent can be sprayed, the shell of the unmanned aerial vehicle can be smooth and clean as new, and various stubborn stains such as dirt, grass stains and blood can be removed by the cleaning agent.

The identity authentication system 30 is arranged on the box body and used for authenticating the identity of the user and judging whether the user belongs to a legal user; the identity verification system comprises at least one of the following: password verification equipment, palm print recognition equipment, fingerprint recognition equipment, voiceprint recognition equipment, face recognition equipment, iris recognition equipment and signature recognition equipment.

The electronic control fixing device 40 is used for fixing the position of the box body and comprises an electric vacuum chuck device and/or an electromagnetic chuck device; the electric vacuum chuck device includes: the vacuum generator comprises a vacuum sucker, a vacuum generator and a storage battery, wherein the storage battery supplies power to the vacuum generator, and the vacuum sucker is connected with the vacuum generator through a pipeline; the electromagnetic chuck device includes: the magnetic chuck comprises a chuck shell, an iron core arranged in the chuck shell and an electromagnetic coil wound on the iron core.

The electric control trampoline power assisting device 50 is accommodated in a third accommodating cavity formed in the bottom of the box body, and a third electric control cabin door is arranged at an outlet of the third accommodating cavity; the electrically controlled trampoline assist device 50 includes: a trampoline body 510 and a trampoline control apparatus 520, the trampoline body 510 including: a plurality of elastic bars 511, an upper elastic net 512, a plurality of power springs 513 and a lower elastic net 514, wherein the plurality of elastic bars 511 are connected between the upper elastic net 512 and the top of the third accommodating chamber, and the plurality of power springs 513 are connected between the upper elastic net 512 and the lower elastic net 514; the trampoline control apparatus 520 includes: the top in chamber is held to the third is set up automatically controlled magnet, automatically controlled magnet include the iron core and twine in winding on the iron core, automatically controlled magnet passes through the wire and is connected with control switch electricity, automatically controlled magnet produces magnetic force after the circular telegram will trampoline body adsorbs retrieves the third holds the intracavity to trigger and close the automatically controlled door of third. And the number of the first and second groups,

and the main controller 60 is arranged on the box body, is electrically connected with the clean energy power generation system 10, the unmanned aerial vehicle system 20, the identity verification system 30, the electronic control fixing device 40 and the electronic control trampoline power assisting device 50, and is used for controlling the clean energy power generation system 10, the unmanned aerial vehicle system 20, the identity verification system 30, the electronic control fixing device 40 and the electronic control trampoline power assisting device 50.

The control method comprises the following steps:

the authentication system 30 determines whether the user to be authenticated belongs to a valid user;

when the user to be verified does not belong to a legal user, the main controller 60 sends an alarm signal to the legal user of the multifunctional luggage case, and a human-computer interaction interface configured on the main controller 60 is closed;

when the user to be authenticated belongs to a valid user, the main controller 60 executes the following steps:

receiving a wind power generation instruction sent by a user, controlling the first electric control bin door to be opened, and controlling the telescopic device 112 to push the wind power generation device 110 in the first accommodating cavity out to a preset working position for wind power generation operation; or,

receiving an adsorption/desorption fixing instruction sent by a user, and controlling the electric vacuum chuck device to adsorb/desorb an object to be adsorbed; or,

receiving an adsorption fixing instruction sent by a user, controlling to electrify and start the electromagnetic adsorption device, receiving an adsorption fixing releasing instruction sent by the user, and controlling to power off and close the electromagnetic chuck device; or,

receiving a takeoff instruction sent by a user, controlling the second electronic control door to be opened, and controlling the unmanned aerial vehicle 220 to take off; in specific implementation, the main controller 60 may be integrated with a remote control device of the drone 220, the integrated remote control device forms a part of the main controller 60, and a legitimate user realizes the control of the drone through a virtual control key provided on a touch panel in a human-computer interaction interface of the main controller 60. Or, this remote control unit also can set up with main control unit 60 components of a whole that can function independently, with this main control unit 60 communication, receives this main control unit 60's control, and this main control unit 60 converts the flight control instruction that legal user's intelligent mobile terminal or wearable smart machine wireless send into the control signal that this remote control unit can discern and controls this unmanned aerial vehicle. Or,

receiving an unmanned aerial vehicle maintenance instruction sent by a user, controlling to recover the unmanned aerial vehicle 220, controlling to close the second electric control cabin door, controlling a charging plate 212 of the unmanned aerial vehicle to be connected with the graphene energy storage battery and the cadmium telluride thin-film solar battery so as to charge the unmanned aerial vehicle 220, disconnecting a power supply switch of the charging plate after charging is completed, then controlling to start the ultrasonic dust removal device 214 for dust removal operation, and controlling to start the pneumatic dust blowing gun 216 to further blow the unmanned aerial vehicle after the ultrasonic dust removal device finishes the dust removal operation; or,

receiving a lifting and carrying assisting instruction sent by a user, controlling the third electric control door to open to release the trampoline body 510, receiving a lifting and carrying stopping assisting instruction sent by the user, controlling the electric control magnet to be electrified, adsorbing and recycling the trampoline body 510 into the third accommodating cavity, and then controlling the third electric control door to close;

the user instruction is sent through a mobile communication terminal of a user, an intelligent watch, an intelligent wristwatch, an intelligent bracelet or other intelligent wearing equipment, or sent through a human-computer interaction interface configured on the main controller. In this embodiment, be provided with wireless communication module on this multi-functional suitcase, be connected with main control unit 60 for realize between this suitcase and user's the smart machine, and the wireless communication between this multi-functional suitcase and the unmanned aerial vehicle.

Optionally, the vacuum generator is a single-stage or multi-stage vacuum generator, and the vacuum generator is provided with a supersonic laval nozzle; the electric vacuum chuck device further includes: the air conditioner comprises an air compressor, a vacuum filter, a switch unit, a vacuum pressure sensor and an alarm; the vacuum pressure sensor is provided with a preset safety pressure value, the suction force of the sucker at the safety pressure value is a safety suction force, and when the vacuum sucker is detected to reach the safety pressure value, a signal of successful adsorption is transmitted to the main controller; the master controller is further configured to: judging whether the display numerical value of the vacuum pressure sensor can reach the highest vacuum pressure value of the vacuum generator or not, if so, determining that the vacuum chuck is normal in laminating degree and good in pipeline sealing property, and if the vacuum pressure value is always lower than the highest vacuum pressure value of the vacuum generator, determining that the pipeline connection has leakage or the laminating degree of the vacuum chuck is abnormal; the switching unit includes: a common electromagnetic valve arranged at the front end of the vacuum generator, and a vacuum electromagnetic valve arranged in a vacuum pipeline; the alarm is used for receiving a vacuum pressure value in the vacuum sucker detected by the vacuum pressure sensor in real time and sending an alarm signal when the vacuum pressure value is lower than a set alarm threshold value; the vacuum filter is connected to a pipeline between the vacuum generator and the vacuum chuck; the air compressor is connected with the vacuum generator through a pipeline. The multi-stage vacuum generator can obtain larger vacuum flow and save more compressed air. The vacuum filter is adopted in a multi-dust use environment, so that the service life of the vacuum generator can be ensured to the maximum extent. Furthermore, a silencer can be arranged at the exhaust port of the vacuum generator and the suction port (or exhaust port) of the vacuum valve, which not only reduces noise but also can play a role of filtering so as to improve the reliability of the operation of the vacuum system.

Optionally, an OLED flexible bendable touch display screen is further arranged on the box body and electrically connected with the graphene energy storage battery, the cadmium telluride thin-film solar cell and the main controller, and the OLED flexible bendable touch display screen is used as the human-computer interaction interface of the main controller; and the box body is also provided with a camera for face recognition and identity verification.

Optionally, a recorder is further arranged on the box body, and is used for recording video images in a circulating manner and provided with a built-in memory card; the recorder is used for being turned on or turned off according to the control signal of the main controller; when the recorder does not have a display screen, the recorder is electrically connected with the OLED flexible touch display screen, and the main controller is further used for controlling the OLED flexible touch display screen to display the video image recorded by the recorder after the user passes the verification of the identity verification system.

Optionally, a sewage draining outlet is further formed in the unmanned aerial vehicle hangar, and an impurity collecting chamber is connected to the sewage draining outlet; a speed increaser is also connected to a driving shaft between the blades and the permanent magnet generator; and the elastic rods are replaced by an elastic tube which is respectively connected with the top of the third accommodating cavity, the upper elastic net and the lower elastic net. The speed increaser is a power transmission mechanism, and is used for increasing the revolution number of a generator/motor to a required revolution number by using gears arranged on a plurality of gear shafts arranged in a gear box in order to realize speed increase. The speed increaser is generally composed of a housing, a driving gear, a driven gear, an output shaft, an input shaft, a rolling bearing and other mechanical parts. The adoption of the speed increaser is beneficial to wind power generation at low wind speed, and the application range of the wind power generation device is improved.

Optionally, an artificial intelligence sound box is further embedded in the box body, and the artificial intelligence sound box is electrically connected with the graphene energy storage battery, the cadmium telluride thin-film solar cell and the main controller.

Optionally, a strontium aluminate luminous coating layer and an electroluminescent coating layer are further arranged on the surface of the box body, the electroluminescent coating layer is electrically connected with the graphene energy storage battery, the cadmium telluride thin-film solar cell and the main controller, and the main controller is controlled by the main controller to be electrified and emit light. Therefore, the safety of walking on the road at night can be improved, and the vehicle and the pedestrian are warned.

Optionally, at least one of the following positioning modules is further disposed on the box body: the GPS positioning module, the Beidou positioning module, the Glonass GLONASS positioning module, the WIFI network positioning module and the Bluetooth positioning module; when the Bluetooth positioning module is adopted, a Bluetooth tag is implanted in the box body, an LED lamp, a buzzer and a rechargeable battery are arranged on the Bluetooth tag, a Bluetooth read-write module is arranged on a mobile communication terminal of a user and is communicated with the Bluetooth tag, and when the distance between the box body and the mobile communication terminal is larger than a preset safety distance, the Bluetooth tag and the mobile communication terminal both send out alarm signals. After a positioning system is configured on the luggage case, the time and the place (specific position information) of opening the intelligent luggage case at each time can be recorded, and the main controller sends/uploads the time and the place of opening the luggage case to a handheld terminal (including intelligent terminals such as a tablet personal computer, a mobile phone and an intelligent watch) or a cloud database server of a legal user in real time so as to facilitate tracking of the multifunctional luggage case.

Further, a network access module can be configured in the multifunctional luggage case, and the network access module comprises a 3G, 4G and 5G wireless network card, a WIFI module and a GSM (Global System for Mobile Communication) module, so that the network access function of the multifunctional luggage case is guaranteed. The handheld terminal of a legal user can remotely control the multifunctional luggage case through the internet, a mobile communication network and a wireless communication network, for example, remotely locking the luggage case, or remotely adsorbing a floor, a wall, a vehicle body or a metal fixture, or remotely starting a recorder, controlling the recorder to record a sound or a video, take a picture or record a field video, and controlling the recorder to send recorded image data to the handheld intelligent terminal of the user or a cloud database server through the mobile communication network GSM; or remotely controlling an intelligent sound box or an alarm arranged in the intelligent trunk to send out sound, light and vibration alarm signals to the surrounding masses or the environment; or the unmanned aerial vehicle carried by the intelligent luggage case is remotely controlled to take off for reconnaissance operation, and the farther peripheral area is patrolled.

Optionally, the method further comprises: the safety lock is used for opening the multifunctional luggage case according to the control signal of the main controller after the user passes the identity authentication; and the plurality of charging interfaces are used for charging the external electronic terminal equipment.

The technical scheme has the following beneficial effects:

according to the technical scheme, the clean energy power generation system is arranged on the intelligent luggage case, so that the power generation by using the clean energy in the natural world such as solar energy, wind energy and the like is facilitated, the intelligent luggage case is suitable for various climatic conditions, and can generate power to operate in daytime and night, the energy utilization rate can be improved, the energy is saved, the carbon is low, the environment is protected, the intelligent luggage case can be used as a mobile power supply with power supplied by various clean energy, and the charging requirements of various electronic devices of a user along with the power supply are fully met. In addition, through the first chamber that holds of this intelligence suitcase inner structure, hide this wind power generation set and design in this intelligence suitcase, be favorable to protecting this wind power generation set, avoid the physical damage, compromise the pleasing to the eye market demand of product appearance simultaneously. In addition, the graphene energy storage battery can obtain a higher charging speed to charge external electronic equipment, and multiple domestic experiments prove that electrons can flow more quickly on the surface of a graphene material due to the unique physical properties of graphene and can be combined with copper ions more quickly, in other words, the charging speed of the battery can be greatly improved, and research data shows that the charging and discharging speed of the battery manufactured by using graphene is 10 times that of a lithium ion storage battery.

According to the technical scheme of the invention, the unmanned aerial vehicle system is configured on the intelligent trunk, so that various requirements of self-shooting, aerial photography, route exploration, dangerous section inspection and entertainment in the travel of a user can be met; and the design of unmanned aerial vehicle hangar has satisfied the demand of storing the protection to unmanned aerial vehicle simultaneously, high-efficient charging, clean maintenance, can in time clear up the multiple solid-liquid state impurity that unmanned aerial vehicle carried after unmanned aerial vehicle returns, guarantee unmanned aerial vehicle's motor, optical element's such as high accuracy sensor and camera cleanness to through design unmanned aerial vehicle's metal charging panel, be favorable to realizing automatic high-efficient charging.

According to the technical scheme of the invention, the electronic control fixing device is designed for the intelligent luggage case, so that the reliable and stable fixing of the intelligent luggage case is favorably realized when a user takes power or a long-distance automobile, and even if the user does not sense an alarm signal of the intelligent luggage case, the occurrence of wrong taking or malicious stealing of a stranger can be still prevented; and if the vacuum sucker device is damaged by strong physics, the vacuum sucker device can be subjected to decompression to trigger the sending of an alarm signal, so that a user is reminded, and the safety of the intelligent luggage case is further guaranteed. Meanwhile, the application of the Bluetooth tag guarantees the detection capability of a user within a range of 30-50 meters away from the intelligent luggage case.

According to the technical scheme, the electric control trampoline power assisting device is designed, so that the upward rebounding power assisting effect can be provided for the intelligent luggage, the lifting direction is controlled by the good reaction elastic force of the trampoline device, and the physical consumption of a user when the user goes up and down the escalator or the steps can be effectively saved. Simultaneously, still designed trampoline controlling means, absorbed the recovery with this trampoline body based on the spring body of electro-magnetic adsorption metal material, can switch to the gyro wheel fast like this and drag the state, it is more convenient.

According to the technical scheme of the invention, by arranging the OLED flexible bendable touch display screen, on one hand, the shape following characteristic of the OLED flexible bendable touch display screen can be utilized, the volume of the intelligent luggage case is not influenced, and on the other hand, the OLED flexible bendable touch display screen is utilized to obtain better moving performance. The adoption of the noctilucent coating layer and the electroluminescent coating layer can ensure the personal safety of a user using the intelligent luggage case on a street at night; the embedded design of artificial intelligence audio amplifier is favorable to exerting this intelligent suitcase's entertainment function, increases more enjoyment for the travel.

The various illustrative logical blocks, or elements, described in connection with the embodiments disclosed herein may be implemented or performed with a general purpose processor, a digital signal processor, an Application Specific Integrated Circuit (ASIC), a field programmable gate array or other programmable logic device, discrete gate or transistor logic, discrete hardware components, or any combination thereof designed to perform the functions described herein. A general-purpose processor may be a microprocessor, but in the alternative, the processor may be any conventional processor, controller, microcontroller, or state machine. A processor may also be implemented as a combination of computing devices, e.g., a digital signal processor and a microprocessor, a plurality of microprocessors, one or more microprocessors in conjunction with a digital signal processor core, or any other similar configuration.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A control method of a multifunctional luggage case based on artificial intelligence is disclosed, the multifunctional luggage case comprises a case body, a plurality of rollers arranged at the bottom of the case body, and a pull rod arranged at the back of the case body, and the multifunctional luggage case is characterized by further comprising:

the clean energy power generation system comprises a wind power generation device and a solar power generation device; the wind power generation device comprises blades, a driving shaft, a permanent magnet generator and a graphene energy storage battery, wherein the blades are mechanically connected with the driving shaft, the driving shaft is mechanically connected with a rotating shaft of the permanent magnet generator, and the permanent magnet generator is electrically connected with the graphene energy storage battery; the box body is further provided with a first accommodating cavity for accommodating the wind power generation device, the bottom of the first accommodating cavity is provided with a telescopic device, the telescopic device comprises an electric push rod, a linear motor or a lead screw lifter, a first electric control cabin door is arranged at the opening part of the accommodating cavity, and after the first electric control cabin door is opened, the telescopic device is used for pushing the wind power generation device out of the first accommodating cavity to a preset working position for wind power generation or recovering the wind power generation device into the first accommodating cavity after the wind power generation is finished and triggering to close the first electric control cabin door; the solar power generation device comprises a cadmium telluride thin film solar cell which is arranged on at least one outer surface of the box body;

unmanned aerial vehicle system, it includes unmanned aerial vehicle and unmanned aerial vehicle hangar, this unmanned aerial vehicle hangar set up in second on the box holds the intracavity unmanned aerial vehicle has been put in the unmanned aerial vehicle hangar, the unmanned aerial vehicle hangar includes: the second electric control door is used for the unmanned aerial vehicle to come in and go out, the charging plate and/or the lithium battery charger are/is arranged at the bottom of the unmanned aerial vehicle hangar, and the ultrasonic dust removal device and the pneumatic dust blowing gun are arranged on the side wall of the unmanned aerial vehicle hangar; unmanned aerial vehicle's charging panel includes: the charging contact of the unmanned aerial vehicle is connected to a landing leg of the unmanned aerial vehicle through a lead, a gold-plated spring is arranged at the tail end of the lead, and when the unmanned aerial vehicle lands on the charging plate, the gold-plated spring is in contact with the gold-plated base to perform charging; the ultrasonic dust removal device is used for emitting ultrasonic waves to perform dust removal operation on the unmanned aerial vehicle, and the pneumatic dust blowing gun is used for emitting compressed air to remove dust and dirt on the unmanned aerial vehicle;

the identity authentication system is arranged on the box body and used for authenticating the identity of the user and judging whether the user belongs to a legal user; the identity verification system comprises at least one of the following: password verification equipment, palm print identification equipment, fingerprint identification equipment, voiceprint identification equipment, face identification equipment, iris identification equipment and signature identification equipment;

the electric control fixing device is used for fixing the position of the box body and comprises an electric vacuum chuck device and/or an electromagnetic chuck device; the electric vacuum chuck device includes: the vacuum generator comprises a vacuum sucker, a vacuum generator and a storage battery, wherein the storage battery supplies power to the vacuum generator, and the vacuum sucker is connected with the vacuum generator through a pipeline; the electromagnetic chuck device includes: the magnetic chuck comprises a sucker shell, an iron core arranged in the sucker shell and an electromagnetic coil wound on the iron core;

the electric control trampoline power assisting device is accommodated in a third accommodating cavity formed in the bottom of the box body, and a third electric control cabin door is arranged at an outlet of the third accommodating cavity; automatically controlled trampoline booster unit includes: trampoline body and trampoline controlling means, the trampoline body includes: the elastic rods are connected between the upper elastic net and the top of the third accommodating cavity, and the power springs are connected between the upper elastic net and the lower elastic net; the trampoline control apparatus includes: the electric control magnet is arranged at the top of the third accommodating cavity and comprises an iron core and a winding wound on the iron core, the electric control magnet is electrically connected with the control switch through a wire, and the electric control magnet generates magnetic force after being electrified to adsorb and recycle the trampoline body into the third accommodating cavity and trigger to close the third electric control cabin door; and the number of the first and second groups,

the main controller is arranged on the box body, is electrically connected with the clean energy power generation system, the unmanned aerial vehicle system, the identity verification system, the electronic control fixing device and the electronic control trampoline power assisting device, and is used for controlling the clean energy power generation system, the unmanned aerial vehicle system, the identity verification system, the electronic control fixing device and the electronic control trampoline power assisting device;

the control method comprises the following steps:

the identity authentication system judges whether the user to be authenticated belongs to a legal user or not;

when the user to be verified does not belong to a legal user, the main controller sends an alarm signal to the legal user of the multifunctional luggage case, and a human-computer interaction interface configured on the main controller is closed;

when the user to be verified belongs to a legal user, the main controller executes the following steps:

receiving a wind power generation instruction sent by a user, controlling the first electric control bin door to be opened, and controlling the telescopic device to push the wind power generation device in the first accommodating cavity out to a preset working position for wind power generation operation; or,

receiving an adsorption/desorption fixing instruction sent by a user, and controlling the electric vacuum chuck device to adsorb/desorb an object to be adsorbed; or,

receiving an adsorption fixing instruction sent by a user, controlling to electrify and start the electromagnetic adsorption device, receiving an adsorption fixing releasing instruction sent by the user, and controlling to power off and close the electromagnetic chuck device; or,

receiving a takeoff instruction sent by a user, controlling the second electronic control bin gate to be opened, and controlling the unmanned aerial vehicle to take off; or,

receiving an unmanned aerial vehicle maintenance instruction sent by a user, controlling to recover the unmanned aerial vehicle, controlling to close the second electric control cabin door, controlling a charging panel of the unmanned aerial vehicle to be connected with the graphene energy storage battery and the cadmium telluride thin-film solar battery so as to charge the unmanned aerial vehicle, disconnecting a power supply switch of the charging panel after charging is completed, then controlling to start the ultrasonic dust removal device to perform dust removal operation, and controlling to start the pneumatic dust blowing gun to further blow the unmanned aerial vehicle after the ultrasonic dust removal device finishes the dust removal operation; or,

receiving a lifting and carrying assisting instruction sent by a user, controlling the third electric control door to open to release the trampoline body, receiving a lifting and carrying stopping assisting instruction sent by the user, controlling the electric control magnet to be electrified, adsorbing and recycling the trampoline body into the third accommodating cavity, and then controlling the third electric control door to be closed;

the user command is sent through a mobile communication terminal of a user or sent through a human-computer interaction interface configured on the main controller.

2. The method of claim 1, wherein the vacuum generator is a single-stage or multi-stage vacuum generator having a supersonic laval nozzle; the electric vacuum chuck device further includes: the air conditioner comprises an air compressor, a vacuum filter, a switch unit, a vacuum pressure sensor and an alarm; the vacuum pressure sensor is provided with a preset safety pressure value, the suction force of the sucker at the safety pressure value is a safety suction force, and when the vacuum sucker is detected to reach the safety pressure value, a signal of successful adsorption is transmitted to the main controller; the master controller is further configured to: judging whether the display numerical value of the vacuum pressure sensor can reach the highest vacuum pressure value of the vacuum generator or not, if so, determining that the vacuum chuck is normal in laminating degree and good in pipeline sealing property, and if the vacuum pressure value is always lower than the highest vacuum pressure value of the vacuum generator, determining that the pipeline connection has leakage or the laminating degree of the vacuum chuck is abnormal; the switching unit includes: a common electromagnetic valve arranged at the front end of the vacuum generator, and a vacuum electromagnetic valve arranged in a vacuum pipeline; the alarm is used for receiving a vacuum pressure value in the vacuum sucker detected by the vacuum pressure sensor in real time and sending an alarm signal when the vacuum pressure value is lower than a set alarm threshold value; the vacuum filter is connected to a pipeline between the vacuum generator and the vacuum chuck; the air compressor is connected with the vacuum generator through a pipeline.

3. The control method of the multifunctional luggage case based on artificial intelligence is characterized in that an OLED flexible bendable touch display screen is further arranged on the case body and electrically connected with the graphene energy storage battery, the cadmium telluride thin-film solar battery and the main controller, and the OLED flexible bendable touch display screen is used as the human-computer interaction interface of the main controller; and the box body is also provided with a camera for face recognition and identity verification.

4. The control method of multifunctional luggage case based on artificial intelligence as claimed in claim 3, wherein a recorder for cyclically recording video images is further provided on the case body, and has a built-in memory card; the recorder is used for being turned on or turned off according to the control signal of the main controller; when the recorder does not have a display screen, the recorder is electrically connected with the OLED flexible touch display screen, and the main controller is further used for controlling the OLED flexible touch display screen to display the video image recorded by the recorder after the user passes the verification of the identity verification system.

5. The control method of the multifunctional luggage case based on artificial intelligence is characterized in that a sewage discharge outlet is further formed in the unmanned aerial vehicle hangar, and a foreign matter collecting chamber is connected to the sewage discharge outlet; a speed increaser is also connected to a driving shaft between the blades and the permanent magnet generator; and the elastic rods are replaced by an elastic tube which is respectively connected with the top of the third accommodating cavity, the upper elastic net and the lower elastic net.

6. The control method of the artificial intelligence based multifunctional luggage case as claimed in claim 1, wherein an artificial intelligence sound box is embedded in the case body, and the artificial intelligence sound box is electrically connected with the graphene energy storage battery, the cadmium telluride thin film solar battery and the main controller.

7. The control method of the artificial intelligence-based multifunctional luggage case as claimed in claim 1, wherein a strontium aluminate luminous coating layer and an electroluminescent coating layer are further arranged on the surface of the case body, the electroluminescent coating layer is electrically connected with the graphene energy storage battery, the cadmium telluride thin film solar cell and the main controller, and the main controller is controlled to be powered on for lighting.

8. The method for controlling an artificial intelligence based multifunctional luggage case according to claim 1, wherein at least one of the following positioning modules is further provided on the case body: the GPS positioning module, the Beidou positioning module, the Glonass GLONASS positioning module, the WIFI network positioning module and the Bluetooth positioning module; when the Bluetooth positioning module is adopted, a Bluetooth tag is implanted in the box body, an LED lamp, a buzzer and a rechargeable battery are arranged on the Bluetooth tag, a Bluetooth read-write module is arranged on a mobile communication terminal of a user and is communicated with the Bluetooth tag, and when the distance between the box body and the mobile communication terminal is larger than a preset safety distance, the Bluetooth tag and the mobile communication terminal both send out alarm signals.

9. The method of claim 1, wherein the multifunctional luggage further comprises: the safety lock is used for opening the multifunctional luggage case according to the control signal of the main controller after the user passes the identity authentication; and the plurality of charging interfaces are used for charging the external electronic terminal equipment.

10. The artificial intelligence based multifunctional luggage case controlling method according to claim 1,

a network access module is configured in the multifunctional trunk and comprises a 3G wireless network card, a 4G wireless network card, a 5G wireless network card, a WIFI module or a GSM module; the control method further comprises the following steps:

controlling the multifunctional luggage case according to a control instruction remotely sent by a handheld terminal of a legal user through the Internet, a mobile communication network or a wireless communication network; the control comprises at least one of the following:

remotely locking the trunk, or remotely adsorbing a floor, a wall, a vehicle body or a metal fixture, or remotely starting a recorder, controlling the recorder to record a sound or a field video, and controlling the recorder to send recorded image data to a user handheld intelligent terminal or a cloud database server through a mobile communication network; or remotely controlling an intelligent sound box or an alarm arranged in the intelligent trunk to send out sound, light and vibration alarm signals to the surrounding masses or the environment; or the unmanned aerial vehicle carried by the intelligent luggage case is remotely controlled to take off for reconnaissance operation.