CN109282852B

CN109282852B - Artificial intelligence external information acquisition device and use method thereof

Info

Publication number: CN109282852B
Application number: CN201811210035.2A
Authority: CN
Inventors: 嵇昱涵; 王丁
Original assignee: Nanjing Bulin Information Technology Co ltd
Current assignee: Nanjing Bulin Information Technology Co ltd
Priority date: 2018-10-17
Filing date: 2018-10-17
Publication date: 2021-01-26
Anticipated expiration: 2038-10-17
Also published as: CN109282852A

Abstract

The invention provides an artificial intelligent external information acquisition device and a use method thereof, the acquisition device comprises an acquisition device main body, a top seat, a base and an intelligent processing system, wherein the top and the bottom of the acquisition device main body are respectively provided with an annular convex slide block, the bottom of the top seat and the top of the base are respectively provided with an annular convex slide groove, the annular convex slide blocks at the top and the bottom of the acquisition device main body are respectively arranged in the annular convex slide grooves on the top seat and the base, one side of the acquisition device main body is provided with an air groove, a first cavity is arranged in the acquisition device main body, a wind power monitoring pipe is fixedly arranged at the position corresponding to the air groove on the inner side wall of the first cavity, a spring and a mandril are fixedly arranged on the inner side wall at one end of the wind power monitoring pipe, the artificial intelligent external information acquisition device and the use, wide adaptability and good waterproof performance.

Description

Artificial intelligence external information acquisition device and use method thereof

Technical Field

The invention discloses an artificial intelligence external information acquisition device and a using method thereof, belonging to the technical field of information acquisition equipment.

Background

In production and life, people often need to collect various kinds of external information and perform relevant processing on the information to make corresponding behaviors beneficial to production and life, the accuracy of the collection of the external information is crucial, the external information collection equipment on the market at present is various and the collected information is different, wherein the collection of wind speed and wind direction information can be beneficial to people to make corresponding measures on wind disasters and other conditions, the loss of the wind disasters is reduced, and safety accidents are avoided, which is of great significance, however, the wind speed and wind direction information collection equipment on the market at present often does not have a field alarm function, when the wind speed reaches a dangerous degree, corresponding warnings cannot be made, and the wind speed and wind direction information collection equipment on the market only has a single power supply mode, is low in adaptability and does not have environmental protection and economy, therefore, the invention provides an artificial intelligence external information acquisition device and a using method thereof.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an artificial intelligence external information acquisition device and a using method thereof, which are used for solving the problems in the background art.

In order to achieve the purpose, the invention is realized by the following technical scheme: an artificial intelligence external information acquisition device comprises an acquisition device main body, a top seat, a base and an intelligent processing system, wherein annular convex slide blocks are arranged at the top and the bottom of the acquisition device main body, rain-proof check rings are fixedly arranged at the outer sides of the bottom of the top seat and the bottom of the acquisition device main body, annular convex slide grooves are respectively arranged at the bottom of the top seat and the top of the base, the annular convex slide blocks at the top and the bottom of the acquisition device main body are respectively arranged in the annular convex slide grooves on the top seat and the base, an air groove is arranged at one side of the acquisition device main body, a first cavity is arranged in the acquisition device main body, a wind power monitoring pipe is fixedly arranged at the position corresponding to the air groove on the inner side wall of the first cavity, a spring and an ejector rod are fixedly arranged on the inner side wall at one end of the wind, one end of the ejector rod is provided with a first electrode plate, a second electrode plate is arranged at a position on the movable seat corresponding to the first electrode plate, a generator is arranged on the inner side wall of the front side of the cavity I through bolts, a stator winding and a rotor winding are arranged in the generator, a first fixing seat and a power line are fixedly arranged at the rear side of the acquisition device main body, through holes are respectively formed at positions on the first fixing seat and the rear side of the acquisition device main body corresponding to the first fixing seat, one end of a rotating rod penetrates through the through holes and is installed on an output shaft of the generator, an impeller is installed at the other end of the rotating rod, a storage battery is installed on the inner side wall of the bottom of the first cavity, a second cavity is arranged in the base, a motor is fixedly installed at the central position of the inner side wall of the bottom of the second cavity, a through hole is formed at, the intelligent processing system comprises a singlechip, a wind direction sensor, a noise sensor, an electric quantity sensor, a distance sensor, a high-definition camera, a GPS (global positioning system) positioner, a warning lamp, a wireless transceiver, a warning horn and a power switch, the single chip microcomputer, the GPS positioner and the wireless transceiver are all arranged on the inner side wall of the bottom of the cavity, the wind direction sensor is arranged at the top of the top seat, the noise sensor and the warning horn are both arranged at the front side of the acquisition device main body, the electric quantity sensor is arranged at the top of the storage battery and is electrically connected with the storage battery, the distance sensor is arranged at one side of the movable seat with the second electrode plate, the high definition digtal camera is installed at the opposite side of collection system main part, the bottom at the base is installed to the warning light.

As a preferred embodiment of the present invention, the power line and the storage battery are electrically connected to the single chip, the wind direction sensor, the noise sensor, the electric quantity sensor, the distance sensor, the high definition camera, the GPS locator, the first electrode plate and the wireless transceiver respectively through a power supply circuit, the power switch is connected in series to the power supply circuit, the second electrode plate is electrically connected to the warning light and the warning horn respectively, and the storage battery is electrically connected to the generator through a charging circuit.

In a preferred embodiment of the present invention, the annular convex slider is provided with a spherical groove, and a ball is provided in the spherical groove.

As a preferred embodiment of the present invention, the fixing device includes a second fixing seat and a U-shaped rod, the second fixing seat is provided with 2 through holes, two ends of the U-shaped rod respectively penetrate through the two through holes, and two ends of the U-shaped rod are both provided with nuts through matching of external threads and internal threads.

As a preferred embodiment of the present invention, the single chip microcomputer is electrically connected to the high definition camera, the GPS locator, the warning light, the wireless transceiver, the warning speaker, and the power switch through the command circuit.

As a preferred embodiment of the present invention, the single chip microcomputer is electrically connected to the wind direction sensor, the noise sensor, the electric quantity sensor and the distance sensor through the monitoring circuit.

The invention also provides a use method of the artificial intelligence external information acquisition device, which comprises the following steps:

the method comprises the following steps: equipment installation; the information acquisition device is arranged on a required telegraph pole through a fixing device, and a power line is connected to a proper external power supply;

step two: monitoring wind direction; after the power supply is switched on, the wind direction sensor monitors the wind direction and transmits wind direction information to the single chip microcomputer, and meanwhile, the noise sensor monitors noise and transmits noise information to the single chip microcomputer;

step three: correcting the direction; after the single chip microcomputer receives the wind direction information, the single chip microcomputer controls the motor to work, and the motor drives the collecting device main body to rotate for a certain angle so that the wind groove is aligned with the wind direction;

step four: monitoring wind power; the wind applies a force F to the movable seat in the wind force monitoring pipe, the movable seat moves in the wind force monitoring pipe and compresses the spring, the distance sensor monitors the deformation quantity delta x of the spring and transmits information to the single chip microcomputer, the deformation quantity delta x of the spring is in direct proportion to the elastic coefficient k of the spring and the wind force F, the F is k delta x, the single chip microcomputer calculates the wind force F and calculates the wind speed according to the wind force F;

step five: power supply adaptation; meanwhile, the wind power drives the impeller to rotate, so that a rotor winding of the generator rotates in a stator winding to do cutting magnetic induction line motion, electricity generated by the generator is stored in the storage battery, the electricity sensor monitors the electricity in the storage battery and transmits the electricity information to the single chip microcomputer, when the electricity in the storage battery is fully stored, the single chip microcomputer controls a power switch connected with a power line to be turned off and controls a power switch connected with the storage battery to be turned on, the storage battery supplies power instead, the condition that the capacity of the storage battery is lost too fast due to continuous charging is avoided, the service life of the storage battery is prolonged, energy is saved, in addition, when power is cut off, the electric energy required for continuously acquiring the information can be provided, after the electric energy in the storage battery is used up, the single chip microcomputer controls the external power supply to supply power again, when the wind power reaches a certain degree, the electrode plate I is in contact, singlechip control warning light and warning loudspeaker send out the police dispatch newspaper, and simultaneously, singlechip control GPS locator work and fix a position, and the singlechip sends wind speed, wind direction, noise, time and geographical position information to external terminal through wireless transceiver to at every interval, the singlechip also can send the information of gathering to external terminal through wireless transceiver.

The invention has the beneficial effects that: the invention relates to an artificial intelligence external information acquisition device and a using method thereof, and the device comprises an acquisition device main body, a top seat, a base, an annular convex sliding block, a spherical groove, a ball, an air groove, a cavity I, a wind power monitoring pipe, a spring, a top rod, an electrode plate I, a movable seat, an electrode plate II, a generator, a stator winding, a rotor winding, a fixing seat I, a rotating rod, an impeller, a storage battery, a cavity II, a motor, a fixing rod, a rotating shaft, a fixing device, a rainproof check ring, a fixing seat II, a U-shaped rod, a nut, a single chip microcomputer, a wind direction sensor, a noise sensor, an electric quantity sensor, a distance sensor, a high-definition camera, a GPS (global positioning system) positioner, a warning lamp, a wireless;

1. this external information collection system of artificial intelligence's wind-force monitoring pipe can the self-adaptation wind direction to can be more accurate detect out the wind speed, reach the certain degree when wind-force, electrode slice one and electrode slice two contact, form the route between warning light and warning loudspeaker and battery and the power cord, single chip microcomputer control warning light and warning loudspeaker send out the police dispatch newspaper, thereby remind people that wind-force is dangerous this moment, so that people do appropriate protection.

2. This external information collection system of artificial intelligence has adopted two kinds of power supply modes of wind power generation and external power supply, wind power generation's electric energy is stored in the battery, when the electric quantity storage in the battery is full, the switch that singlechip control power cord is connected closes, and the switch that control battery is connected opens, change into by the battery power supply, avoid charging always to make the battery capacity loss of battery too fast, improve its life, energy saving, and, when having a power failure, can provide and continue to carry out the required electric energy of information acquisition, after the electric energy uses up in the battery, change external power supply into again through singlechip control, adaptability is wide.

3. This external information collection system of artificial intelligence has set up can pivoted fixing device, can very big easy to assemble, and when wind-force monitoring pipe self-adaptation wind direction, only collection system main part rotated, and the footstock all keeps fixed with the base to improve its stability, rain-proof retaining ring can effectually prevent that the rainwater from getting into collection system main part.

Drawings

FIG. 1 is a schematic structural diagram of an artificial intelligence external information acquisition device according to the present invention;

FIG. 2 is a first schematic cross-sectional view of an artificial intelligence external information acquisition device according to the present invention;

FIG. 3 is a schematic cross-sectional view of an artificial intelligence external information acquisition device according to the present invention;

FIG. 4 is a schematic view of the connection between the main body of the collection device and the top seat of the artificial intelligence external information collection device according to the present invention;

FIG. 5 is a schematic structural diagram of a fixing device of an artificial intelligence external information acquisition device according to the present invention;

FIG. 6 is a schematic diagram of an intelligent processing system of an artificial intelligence external information acquisition device according to the present invention;

FIG. 7 is a flow chart of the use of an artificial intelligence external information collection device according to the present invention;

in the figure: 1-collection device body, 2-top seat, 3-base, 4-annular convex slide block, 5-spherical groove, 6-ball, 7-wind groove, 8-cavity I, 9-wind monitoring tube, 10-spring, 11-top rod, 12-electrode piece I, 13-movable seat, 14-electrode piece II, 15-generator, 16-stator winding, 17-rotor winding, 18-fixing seat I, 19-rotating rod, 20-impeller, 21-storage battery, 22-cavity II, 23-motor, 24-fixing rod, 25-rotating shaft, 26-fixing device, 27-rainproof check ring, 28-fixing seat II, 29-U-shaped rod, 30-nut, 31-singlechip, 32-wind direction sensor, wind direction sensor, 33-noise sensor, 34-electric quantity sensor, 35-distance sensor, 36-high-definition camera, 37-GPS locator, 38-warning lamp, 39-wireless transceiver, 40-warning horn, 41-power switch, 42-power line and 43-annular convex chute.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 to 7, the present invention provides a technical solution: an artificial intelligence external information acquisition device comprises an acquisition device main body 1, a top seat 2, a base 3 and an intelligent processing system, wherein annular convex sliding blocks 4 are arranged at the top and the bottom of the acquisition device main body 1, rain-proof check rings 27 are fixedly arranged at the outer sides of the bottom of the top seat 2 and the bottom of the acquisition device main body 1, annular convex sliding grooves 43 are respectively arranged at the bottom of the top seat 2 and the top of the base 3, the annular convex sliding blocks 4 at the top and the bottom of the acquisition device main body 1 are respectively arranged in the annular convex sliding grooves 43 on the top seat 2 and the base 3, an air groove 7 is arranged at one side of the acquisition device main body 1, a cavity I8 is arranged in the acquisition device main body 1, a wind power monitoring pipe 9 is fixedly arranged at a position corresponding to the air groove 7 on the inner side wall of the cavity I8, a spring 10 and an ejector rod 11 are fixedly arranged on the inner side wall, one end of the spring 10 is fixedly provided with a movable seat 13, one end of the ejector rod 11 is provided with a first electrode plate 12, a second electrode plate 14 is arranged at a position on the movable seat 13 corresponding to the first electrode plate 12, a generator 15 is arranged on the inner side wall of the front side of the first cavity 8 through a bolt, a stator winding 16 and a rotor winding 17 are arranged in the generator 15, a first fixing seat 18 and a power line 42 are fixedly arranged at the rear side of the acquisition device main body 1, through holes are formed in the positions of the first fixing seat 18 and the rear side of the acquisition device main body 1 corresponding to the first fixing seat 18, one end of a rotating rod 19 penetrates through the through holes and is arranged on an output shaft of the generator 15, an impeller 20 is arranged at the other end of the rotating rod 19, a storage battery 21 is arranged on the inner side wall of the bottom of the first cavity 8, a second cavity 22 is arranged, the central position department at base 3 top has seted up the through-hole, the output shaft of motor 23 passes the through-hole and forms fixed connection with the central position department of collection device main part 1 bottom, the equal fixedly connected with dead lever 24 of one side of footstock 2 and base 3, fixing device 26 is installed through axis of rotation 25 to the one end of dead lever 24, intelligent processing system includes singlechip 31, wind direction sensor 32, noise sensor 33, electric quantity sensor 34, distance sensor 35, high definition digtal camera 36, GPS locator 37, warning light 38, wireless transceiver 39, warning horn 40 and switch 41, singlechip 31, GPS locator 37 and wireless transceiver 39 all install on the inside wall of cavity 8 bottom, wind direction sensor 32 installs at the top of footstock 2, noise sensor 33 and warning horn 40 all install the front side of collection device main part 1, the electric quantity sensor 34 is installed at the top of the storage battery 21 and electrically connected with the storage battery 21, the distance sensor 35 is installed at one side of the movable seat 13 with the second electrode plate 14, the high-definition camera 36 is installed at the other side of the acquisition device main body 1, and the warning lamp 38 is installed at the bottom of the base 3.

As a preferred embodiment of the present invention, the power line 42 and the storage battery 21 are electrically connected to the single chip 31, the wind direction sensor 32, the noise sensor 33, the electric quantity sensor 34, the distance sensor 35, the high definition camera 36, the GPS locator 37, the first electrode piece 12 and the wireless transceiver 39 through a power supply circuit, the power switch 41 is connected in series to the power supply circuit, the second electrode piece 14 is electrically connected to the warning light 38 and the warning speaker 40, respectively, and the storage battery 21 is electrically connected to the generator 15 through a charging circuit.

In a preferred embodiment of the present invention, the annular convex slider 4 is provided with a spherical groove 5, and a ball 6 is provided in the spherical groove 5.

As a preferred embodiment of the present invention, the fixing device 26 includes a second fixing seat 28 and a U-shaped rod 29, wherein 2 through holes are formed in the second fixing seat 28, two ends of the U-shaped rod 29 respectively pass through the two through holes, and nuts 30 are respectively installed at two ends of the U-shaped rod 29 through matching between external threads and internal threads.

As a preferred embodiment of the present invention, the single chip microcomputer 31 is electrically connected to the high-definition camera 36, the GPS locator 37, the warning light 38, the wireless transceiver 39, the warning speaker 40, and the power switch 41 through a command circuit.

In a preferred embodiment of the present invention, the single chip 31 is electrically connected to the wind direction sensor 32, the noise sensor 33, the electric quantity sensor 34 and the distance sensor 35 through monitoring circuits.

the method comprises the following steps: equipment installation; the information collecting device of the present invention is mounted to a desired utility pole by the fixing device 26, and the power line 42 is connected to a suitable external power source;

step two: monitoring wind direction; after the power is switched on, the wind direction sensor 32 monitors the wind direction and transmits wind direction information to the single chip microcomputer 31, and meanwhile, the noise sensor 33 monitors noise and transmits noise information to the single chip microcomputer 31;

step three: correcting the direction; after receiving the wind direction information, the single chip microcomputer 31 controls the motor 23 to work, and the motor 23 drives the collecting device main body 1 to rotate by a certain angle, so that the wind groove 7 is aligned with the wind direction;

step four: monitoring wind power; the wind exerts a force F towards the interior of the wind force monitoring pipe 9 on the movable seat 13, the movable seat 13 moves towards the interior of the wind force monitoring pipe 9 and compresses the spring 10, the distance sensor 35 monitors the deformation quantity delta x of the spring 10 and transmits information to the single chip microcomputer 31, the deformation quantity delta x of the spring 10 is in direct proportion to the elastic coefficient k of the spring 10 and the wind force F, and the single chip microcomputer 31 calculates the wind force F and calculates the wind speed according to the wind force F;

step five: power supply adaptation; meanwhile, the wind power drives the impeller 20 to rotate, so that the rotor winding 17 of the generator 15 rotates in the stator winding 16 to do cutting magnetic induction line motion, electricity generated by the generator 15 is stored in the storage battery 21, the electricity sensor 34 monitors the electricity in the storage battery 21 and transmits the electricity information to the single chip microcomputer 31, when the electricity storage in the storage battery 21 is full, the single chip microcomputer 31 controls the power switch 41 connected with the power line 42 to be closed and controls the power switch 41 connected with the storage battery 21 to be opened, the storage battery 21 supplies power instead, the phenomenon that the battery capacity of the storage battery 21 is lost too fast due to constant charging is avoided, the service life of the storage battery is prolonged, energy is saved, when power is cut off, electric energy required for continuously acquiring information can be provided, after the electric energy in the storage battery 21 is used up, the single chip microcomputer 31 controls the external power supply to be changed into the wind power supply again, when the certain degree is reached, form the route between warning light 38 and warning loudspeaker 40 and battery 21 and power cord 42, singlechip 31 control warning light 38 and warning loudspeaker 40 send out the police dispatch newspaper, and simultaneously, singlechip 31 control GPS locator 37 work and fix a position, singlechip 31 sends wind speed, wind direction, noise, time and geographical position information to external terminal through wireless transceiver 39, and every interval, singlechip 31 also can send the information of gathering to external terminal through wireless transceiver 39.

The working principle is as follows: when the artificial intelligent external information acquisition device is used, the information acquisition device is installed on a required telegraph pole through the fixing device 26, the power cord 42 is connected to a proper external power supply, after the power supply is connected, the wind direction sensor 32 monitors the wind direction and transmits the wind direction information to the single chip microcomputer 31, meanwhile, the noise sensor 33 monitors noise and transmits the noise information to the single chip microcomputer 31, after the single chip microcomputer 31 receives the wind direction information, the single chip microcomputer 31 controls the motor 23 to work, the motor 23 drives the acquisition device main body 1 to rotate for a certain angle, the wind groove 7 is aligned to the wind direction, the wind applies a force F towards the interior of the wind force monitoring pipe 9 to the movable seat 13, the movable seat 13 moves towards the wind force monitoring pipe 9 and compresses the spring 10, the distance sensor 35 monitors the deformation quantity delta x of the spring 10 and transmits the information to the single chip microcomputer 31, the deformation quantity delta x of the spring 10 is in direct proportion to the elastic coefficient k of the spring, f is k delta x, the single chip microcomputer 31 calculates wind power F and calculates wind speed according to the wind power F, meanwhile, the wind power drives the impeller 20 to rotate, the rotor winding 17 of the generator 15 rotates in the stator winding 16 to do cutting magnetic induction line motion, electricity generated by the generator 15 is stored in the storage battery 21, the electricity sensor 34 monitors electricity in the storage battery 21 and transmits electricity information to the single chip microcomputer 31, when the electricity in the storage battery 21 is fully stored, the single chip microcomputer 31 controls the power switch 41 connected with the power line 42 to be closed and controls the power switch 41 connected with the storage battery 21 to be opened, power is supplied by the storage battery 21 instead, the phenomenon that the capacity of the storage battery 21 is lost too fast due to constant charging is avoided, the service life of the storage battery is prolonged, energy is saved, in addition, when power failure occurs, the electric energy required for continuously acquiring information can be provided, after the electric energy in the storage battery 21 is used up, the single chip microcomputer 31 controls the, when wind power reaches a certain degree, the first electrode plate 12 contacts the second electrode plate 14, a passage is formed between the warning lamp 38 and the warning horn 40, the storage battery 21 and the power line 42, the single chip microcomputer 31 controls the warning lamp 38 and the warning horn 40 to give an alarm, meanwhile, the single chip microcomputer 31 controls the GPS positioner 37 to work and position, the single chip microcomputer 31 transmits wind speed, wind direction, noise, time and geographical position information to an external terminal through the wireless transceiver 39, the single chip microcomputer 31 also transmits the acquired information to the external terminal through the wireless transceiver 39 at intervals, the high-definition camera 36 can be controlled to be turned on through the external terminal, the wireless transceiver 39 transmits the received signal to the single chip microcomputer 31, the single chip microcomputer 31 controls the high-definition camera 36 to be turned on for live-action shooting, and synchronously transmits video information back to the external terminal through the wireless transceiver 39, and the rotatable fixing device 26 can be installed conveniently, when wind-force monitoring pipe 9 self-adaptation wind direction, only collection system main part 1 rotates, and footstock 2 all keeps fixed with base 3 to improve its stability, rain-proof retaining ring 27 can effectually prevent that the rainwater from getting into collection system main part 1, this external information collection system of artificial intelligence and application method reasonable in design, convenient to use, adaptability is wide, and waterproof performance is good.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides an artificial intelligence external information collection system, includes collection system main part (1), footstock (2), base (3) and intelligent processing system, a serial communication port, the top and the bottom of collection system main part (1) all are provided with cyclic annular protruding type slider (4), the equal fixed mounting in outside side of footstock (2) and collection system main part (1) bottom has rain-proof retaining ring (27), cyclic annular protruding type spout (43) have all been seted up with the top of base (3) to the bottom of footstock (2), install respectively in cyclic annular protruding type spout (43) on footstock (2) and base (3) cyclic annular protruding type slider (4) of collection system main part (1) top and bottom, wind channel (7) have been seted up to one side of collection system main part (1), be provided with cavity (8) in collection system main part (1), the position department fixed mounting that corresponds with wind channel (7) on cavity (8) inside wall has wind-force to supervise and manages (9) The wind power monitoring device comprises a wind power monitoring pipe (9), a spring (10) and an ejector rod (11) are fixedly mounted on the inner side wall of one end of the wind power monitoring pipe (9), a movable seat (13) is fixedly mounted at one end of the spring (10), a first electrode plate (12) is mounted at one end of the ejector rod (11), a second electrode plate (14) is mounted at a position, corresponding to the first electrode plate (12), on the movable seat (13), a generator (15) is mounted on the inner side wall of the front side of a cavity I (8) through bolts, a stator winding (16) and a rotor winding (17) are arranged in the generator (15), a first fixing seat (18) and a power line (42) are fixedly mounted at the rear side of an acquisition device main body (1), through holes are formed in positions, corresponding to the first fixing seat (18), on the rear side of the first fixing seat (18) and the rear side of the acquisition device main body (, impeller (20) are installed to the other end of dwang (19), install battery (21) on the inside wall of cavity one (8) bottom, be provided with cavity two (22) in base (3), the central point of cavity two (22) bottom inside wall puts fixed mounting and has motor (23), the central point at base (3) top puts the department and has seted up the through-hole, the central point department that puts that the output shaft of motor (23) passed through-hole and collection device main part (1) bottom forms fixed connection, the equal fixedly connected with dead lever (24) in one side of footstock (2) and base (3), fixing device (26) are installed through axis of rotation (25) to the one end of dead lever (24), and intelligent processing system includes singlechip (31), wind direction sensor (32), noise transducer (33), electric quantity sensor (34), A distance sensor (35), a high-definition camera (36), a GPS locator (37), a warning light (38), a wireless transceiver (39), a warning horn (40) and a power switch (41), the single chip microcomputer (31), the GPS positioner (37) and the wireless transceiver (39) are all arranged on the inner side wall of the bottom of the first cavity (8), the wind direction sensor (32) is arranged at the top of the top seat (2), the noise sensor (33) and the warning horn (40) are both arranged at the front side of the acquisition device main body (1), the electric quantity sensor (34) is arranged on the top of the storage battery (21) and is electrically connected with the storage battery (21), the distance sensor (35) is arranged on one side of the movable seat (13) with the second electrode plate (14), high definition digtal camera (36) are installed at the opposite side of collection system main part (1), warning light (38) are installed in the bottom of base (3).

2. The artificial intelligence external information acquisition device according to claim 1, wherein: power cord (42) and battery (21) are respectively through supply circuit and singlechip (31), wind direction sensor (32), noise sensor (33), electric quantity sensor (34), distance sensor (35), high definition digtal camera (36), GPS locator (37), electrode slice (12) and wireless transceiver (39) electric connection, switch (41) establish ties on supply circuit, electrode slice two (14) respectively with warning light (38) and warning loudspeaker (40) electric connection, battery (21) are through charging circuit and generator (15) electric connection.

3. The artificial intelligence external information acquisition device according to claim 1, wherein: a spherical groove (5) is formed in the annular convex sliding block (4), and a ball (6) is arranged in the spherical groove (5).

4. The artificial intelligence external information acquisition device according to claim 1, wherein: fixing device (26) include fixing base two (28) and U type pole (29), 2 through-holes have been seted up on fixing base two (28), two are passed respectively at the both ends of U type pole (29) the through-hole, nut (30) are all installed through external screw thread and interior screw-thread fit at the both ends of U type pole (29).

5. The artificial intelligence external information acquisition device according to claim 1, wherein: the single chip microcomputer (31) is electrically connected with the high-definition camera (36), the GPS positioner (37), the warning lamp (38), the wireless transceiver (39), the warning horn (40) and the power switch (41) through the instruction circuit respectively.

6. The artificial intelligence external information acquisition device according to claim 1, wherein: the single chip microcomputer (31) is electrically connected with the wind direction sensor (32), the noise sensor (33), the electric quantity sensor (34) and the distance sensor (35) through the monitoring circuit respectively.

7. The use method of the artificial intelligence external information collection device according to any one of claims 1-6, characterized in that: the using method comprises the following steps:

the method comprises the following steps: equipment installation; the information acquisition device is arranged on a required telegraph pole through a fixing device (26), and a power line (42) is connected to a proper external power supply;

step two: monitoring wind direction; after the power supply is switched on, the wind direction sensor (32) monitors the wind direction and transmits wind direction information to the single chip microcomputer (31), and meanwhile, the noise sensor (33) monitors noise and transmits noise information to the single chip microcomputer (31);

step three: correcting the direction; after receiving the wind direction information, the single chip microcomputer (31) controls the motor (23) to work, and the motor (23) drives the collecting device main body (1) to rotate for a certain angle, so that the wind groove (7) is aligned to the wind direction;

step four: monitoring wind power; the wind exerts a force F towards the interior of the wind force monitoring pipe (9) on the movable seat (13), the movable seat (13) moves towards the interior of the wind force monitoring pipe (9) and compresses the spring (10), the deformation quantity delta x of the spring (10) is monitored by the distance sensor (35), information is transmitted to the single chip microcomputer (31), the deformation quantity delta x of the spring (10) is in direct proportion to the elastic coefficient k of the spring (10) and the wind force F, the F is k delta x, the single chip microcomputer (31) calculates the wind force F and calculates the wind speed according to the wind force F;

step five: power supply adaptation; meanwhile, the wind power drives the impeller (20) to rotate, so that a rotor winding (17) of the generator (15) rotates in a stator winding (16) to do cutting magnetic induction line motion, electricity generated by the generator (15) is stored in the storage battery (21), the electricity sensor (34) monitors the electricity in the storage battery (21) and transmits the electricity information to the single chip microcomputer (31), when the electricity in the storage battery (21) is fully stored, the single chip microcomputer (31) controls a power switch (41) connected with a power line (42) to be closed and controls a power switch (41) connected with the storage battery (21) to be opened, the storage battery (21) supplies electricity instead, the situation that the capacity of the storage battery (21) is lost too fast due to constant charging is avoided, the service life of the storage battery is prolonged, energy is saved, in addition, the electricity can be provided for continuously acquiring the information when power is cut off, after the electricity in the storage battery (21) is used up, control through singlechip (31) changes external power supply into again, reach the certain degree when wind-force, electrode slice one (12) and electrode slice two (14) contact, form the route between warning light (38) and warning loudspeaker (40) and battery (21) and power cord (42), singlechip (31) control warning light (38) and warning loudspeaker (40) send out the police dispatch newspaper, and simultaneously, singlechip (31) control GPS locator (37) work and fix a position, singlechip (31) are with wind speed, the wind direction, noise, time and geographical position information send to external terminal through wireless transceiver (39), and a period of time every, singlechip (31) also can send the information of gathering to external terminal through wireless transceiver (39).