CN113783888B - Network threat early warning monitoring system based on artificial intelligence - Google Patents

Abstract

The invention relates to a network threat early warning monitoring system based on artificial intelligence, which comprises a network switching working machine, a firewall and antivirus software, a data exchange device and an external network device through an external network switch, and a monitoring and blocking function, wherein the network switching working machine is used for data switching, is used for monitoring and blocking external network threat input and internal network data from being read or output by external network threat; the monitoring machine is used for monitoring the network switching working machine and monitoring the downloaded data and the output data of the external network; when the data downloaded by the external network contains a set data segment, the data uploaded by the internal network contains set data, and when the data amount downloaded or uploaded is greater than a set amount or a set rule is violated, the power supply of the network switching working machine is forcibly cut off by the monitoring machine; the invention has reasonable design, compact structure and convenient use.

Description

Network threat early warning monitoring system based on artificial intelligence

Technical Field

The invention relates to a network threat early warning and monitoring system based on artificial intelligence.

Background

The artificial intelligence early warning system is a real-time, accurate and efficient comprehensive intelligent early warning system which is established by effectively integrating an advanced information technology, a data communication transmission technology, an electronic sensing technology, an electronic control technology, an AI computer early warning processing technology, an AI artificial intelligence early warning operation technology, a risk factor acquisition technology, a risk factor identification technology, a big data analysis technology, a cloud computing technology, a cloud storage technology, a cloud database technology, an intelligent unmanned device, an Internet + distributed early warning kiosk and the like into the whole artificial intelligence early warning system and plays a role in a large range and an all-around way. CN201811616752.5 an artificial intelligence early warning system, CN201810532842.X an artificial intelligence based network threat early warning monitoring system, CN202011513303.5 an Internet threat intelligence based sharing system, although three different early warning schemes are provided, they are all based on software and algorithm control, but when the control program is tampered or invaded by physical network, it can not be effectively controlled.

Disclosure of Invention

The invention aims to solve the technical problem of providing a network threat early warning monitoring system based on artificial intelligence.

In order to solve the problems, the technical scheme adopted by the invention is as follows:

an artificial intelligence based network threat early warning and monitoring system comprises

The network switching working machine is used for data network switching, is provided with a firewall and antivirus software, exchanges data with the external network equipment through an external network switch, and is used for monitoring and blocking external network threat input and internal network data read or output by the external network threat;

the monitoring machine is used for monitoring the network switching working machine and monitoring the downloaded data and the output data of the external network; when the external network downloaded data comprises a set data segment, the internal network uploaded data comprises set data, and when the downloaded or uploaded data volume is greater than a set volume or violates a set rule, the monitor forcibly switches the power supply of the network switching working machine off;

the intranet working machine is in data transmission with the intranet switch and the network switching working machine; the interface of the internal network working machine is connected with an intermediate interface, and the intermediate interface is electrically connected with an external memory in a pluggable manner;

the memories are used for periodically backing up the working logs and data of the intranet working machine.

A network threat early warning monitoring system based on artificial intelligence comprises a docking device, a monitoring device and a monitoring module, wherein the docking device is used for connecting a pluggable intermediate interface electrically connected with an intranet working machine with a memory;

the input device is prestored with a memory to be sent into the docking device for data storage;

the output device outputs the output from the docking device;

and the replacing device is used for conveying the memory from the input device to the docking device and/or conveying the memory from the docking device to the output device.

As a further improvement of the above technical solution:

the butt joint device comprises a butt joint rack; a butt joint linear rail is arranged on the butt joint rack, and a butt joint position and a first transfer station are respectively arranged at two ends of the butt joint linear rail;

a butt joint bottom hollow carrier driven by a linear driving mechanism travels on the straight line track at the butt joint part, and the butt joint bottom hollow carrier is used for bearing a storage;

carrier side clamping spring pieces used for elastically contacting the corresponding outer side walls of the memory are respectively arranged on the inner side walls of the carriers with the hollow bottoms; the carrier tail part with the hollowed-out bottom is provided with a carrier tail part lower opening clamping groove.

A pressing eccentric part is arranged above the first transfer station and used for pressing an input memory into the bottom hollow carrier for positioning;

at least, a plurality of terminal L-shaped clamping seats are arranged at the tail part of the first transfer station and used for clamping the side part of the carrier with the hollowed-out bottom.

An auxiliary dismounting assembly is arranged below the first transfer station; the device comprises a swinging double-head U-shaped poking arm driven by a motor to swing; a first U-shaped shifting fork and a second U-shaped shifting fork are respectively arranged at two end parts of the swinging double-head U-shaped shifting arm;

a guide pin at the lower part of the upper ejector push rod which vertically ascends and descends is hinged in the first U-shaped shifting fork;

a guide pin at the lower part of a lower sucker push rod which vertically ascends and descends is hinged in the second U-shaped shifting fork;

the upper end of a lower reset spring is correspondingly arranged at the bottom of the upper ejector push rod and/or the lower sucker push rod, and the lower end of the lower reset spring is connected to the butting rack;

a terminal floating elastic roller is arranged at the stroke terminal of the linear track at the butt joint position so as to assist in supporting the lower bottom of the carrier with a hollowed bottom; a terminal pressing inclined plate is arranged at the terminal of the butt joint position so as to press and support the upper part of the hollow-out bottom carrier;

a butt joint positioning component is arranged below the butt joint position; the device comprises a terminal positioning driving push rod which horizontally and longitudinally extends; the movable end of the terminal positioning driving push rod is hinged with the lower end part of a positioning linkage rod, and the upper end of the positioning linkage rod is hinged with the upper end of a positioning driven hinged arm; the lower end of the positioning driven articulated arm is hinged on the docking rack; a positioning process chuck is obliquely arranged at the upper end of the positioning driven articulated arm;

the lower end of the positioning driven articulated arm is hinged on the docking rack; a positioning process chuck is obliquely arranged at the upper end of the positioning driven articulated arm;

the terminal positioning driving push rod drives the positioning driven articulated arm to swing through the positioning linkage rod, so that the positioning process chuck pushes the bottom hollow carrier towards the middle interface to enter the lower opening clamping groove at the tail part of the carrier and/or drives the bottom hollow carrier to leave the middle interface to be separated from the lower opening clamping groove at the tail part of the carrier in motion;

the lower opening slot at the tail part of the carrier is provided with an elastic tongue plate.

The input device comprises an input storage rack, the bottom of which is provided with an input lower opening groove and the lower part of which is provided with an input upper guide groove; a memory is arranged in the middle layer of the input storage rack; the starting end of the input upper guide rail is arranged below the input storage rack;

a falling manipulator assembly is arranged on one side of the input storage rack and comprises a linkage double-fork-head swing arm driven by a motor;

the upper end and the lower end of the linkage double-fork-head swing arm are respectively provided with a fork head, and the fork head at the upper end is hinged with a tail hinged rod which is inserted into the wedge rod; a tail hinged rod inserted into the wedge rod is hinged to the lower end fork head;

the upper inserting wedge rod and the lower inserting wedge rod alternately enter and exit the corresponding input upper guide groove and the corresponding input lower opening groove respectively;

the upper insertion wedge rod enters the storage device for lifting the second layer and leaves the storage device so that the storage device of the second layer falls onto the lower insertion wedge rod;

inserting a wedge rod into the memory for lifting the lowest layer, and enabling the memory at the lowest layer to fall to the initial end of the input upper guide rail after the wedge rod leaves;

and the output device comprises an output lower guide rail and a memory for outputting the stored data.

The replacing device comprises a transfer support; the root parts of a transfer first swing arm and a transfer second swing arm are respectively hinged on the transfer support; the end part of the transfer first swing arm is hinged with the middle part of a transfer linkage arm; the end part of the transfer second swing arm is hinged with a hinged end of a transfer linkage arm; a transfer hollow sucker frame is arranged at the other end of the transfer linkage arm;

when the transferring hollow suction cup frame is located at the first transferring station downwards, the transferring first swing arm and the transferring second swing arm are arranged in a crossed mode;

when the transferring hollow sucker frame is arranged upwards, the transferring hollow sucker frame is positioned at the second transferring station; the second transfer station is positioned obliquely above the first transfer station; the transfer first swing arm, the transfer second swing arm, the transfer support and the transfer linkage arm are arranged in a quadrilateral structure.

A second transfer station is provided with a second guide rail; a rotary upper shifting fork and a rotary lower shifting fork are correspondingly arranged above and below the rotary upper shifting fork and the rotary lower shifting fork respectively;

a direction-changing inclined guide rail is hinged to the root of the second guide rail, is connected with the input upper guide rail when swinging upwards, and is connected with the output lower guide rail when swinging downwards;

a turning upper guide cross rod is transversely arranged at the swinging end of the turning inclined guide rail; one end of a direction-changing swinging U-shaped shifting fork is hinged on the direction-changing upper guide cross rod; the other end of the direction-changing swinging U-shaped shifting fork is hinged with a direction-changing driving part; and a reset traction spring is connected to the direction-changing swinging U-shaped shifting fork.

According to the network threat early warning monitoring method based on artificial intelligence, by means of a network threat early warning monitoring system and according to set permission, firstly, an internal network working machine carries out data transmission with an external network switch through a network switching working machine, wherein a monitoring machine monitors downloaded data and output data of an external network; when the external network downloaded data comprises a set data segment, the internal network uploaded data comprises set data, and when the downloaded or uploaded data volume is greater than a set volume or violates a set rule, the monitor forcibly switches the power supply of the network switching working machine off; then, the memory is electrically connected with the intranet work machine in a pluggable mode through the intermediate interface, and the memory regularly backs up work logs and data of the intranet work machine.

As a further improvement of the above technical solution:

the method is characterized in that an outer edge is arranged on the outer side wall of the memory, and the following steps are executed in the step of transmitting data between the memory and the intermediate interface;

s1, firstly, pre-storing a memory into an input storage rack; then, the double-fork-head swing arm is linked to swing, so that the upper insertion wedge rod leaves the upper input guide groove and the lower insertion wedge rod enters the lower input opening groove, and the storage device falls one layer; secondly, the double-fork swinging arm is linked to swing, so that an upper insertion wedge rod enters an upper input guide groove and a lower insertion wedge rod leaves a lower input opening groove, the storage device falls by one layer, the upper insertion wedge rod is inserted into a free space below the outer edge of the storage device on the second layer, and meanwhile, the storage device on the bottommost layer falls to the initial end of an upper input guide rail;

s2, firstly, under the action of the rotary upper shifting fork and the rotary lower shifting fork, the memory slides to a second transfer station of a second guide rail through the direction-changing inclined guide rail; then, the turning driving part drives the turning upper guide cross rod through the turning swinging U-shaped shifting fork, so that the turning inclined guide rail swings downwards and is connected with the output lower guide rail;

s3, firstly, the transferring hollow chuck frame is upwards positioned at a second transferring station, and the negative pressure of the transferring hollow chuck frame adsorbs the bottom surface of the memory; under the linkage driving action of the transferring first swing arm and the transferring second swing arm, the transferring hollow suction cup frame faces downwards, and the storage is placed in a hollow carrier at the bottom of the first transferring station;

s4, firstly, pressing down the eccentric part to press down the input memory into the bottom hollow carrier for positioning, and separating after the lower sucker push rod sucks down for auxiliary positioning; then, the straight line rail at the butt joint sends the carrier with the hollowed bottom to the butt joint position; secondly, in a butt joint position, auxiliary supporting is carried out on the lower bottom of the bottom hollow carrier through a terminal floating elastic roller pair, and meanwhile, a terminal downward pressing inclined plate supports the upper portion of the bottom hollow carrier downward; thirdly, the terminal positioning driving push rod drives the positioning driven articulated arm to swing through the positioning linkage rod, so that the positioning process chuck enters a lower opening clamping groove at the tail of the carrier, and the memory is plugged with the middle interface; then, the terminal positioning driving push rod drives the bottom hollow carrier to leave the middle interface, and the positioning process chuck is separated from the lower opening clamping groove at the tail of the carrier in motion;

s5, firstly, returning the bottom hollow carrier to a first transfer station, and clamping the side part of the bottom hollow carrier by a terminal L-shaped clamping seat; then, the upper ejection push rod ejects the memory from the butt joint bottom hollow carrier; secondly, the memory returns to the second transfer station;

and S6, outputting by a memory.

The invention can realize the physical plug-in of the automatic storage disk and timely replace the backup data disk, thereby avoiding the risk of being read and stored due to long-term access, and avoiding the output of large-capacity data when the monitoring data flow is abnormal and the physical power is cut off, thereby being safer. The invention has the advantages of reasonable design, low cost, firmness, durability, safety, reliability, simple operation, time and labor saving, capital saving, compact structure and convenient use.

Drawings

Fig. 1 is a schematic diagram of a monitoring network structure of the present invention.

Fig. 2 is a schematic diagram of the overall structure of the monitoring and early warning system of the invention.

Fig. 3 is a schematic view of a carrier structure according to the present invention.

Fig. 4 is a schematic view of the structure of the push rod of the lower suction cup of the present invention.

Fig. 5 is a schematic structural diagram of the docking device of the present invention.

Fig. 6 is a schematic structural view of the transfer device of the present invention.

Fig. 7 is a schematic structural diagram of an output device of the present invention.

Wherein: 1. an extranet switch; 2. a net transfer working machine; 3. an intranet switch; 4. a monitoring machine; 5. an intranet work machine; 6. an intermediate interface; 7. a memory; 8. a docking device; 9. replacing the device; 10. an input device; 11. an output device; 12. butting the machine frames; 13. a docking position; 14. a straight track at the butt joint; 15. butting a bottom hollow carrier; 16. the spring piece is clamped at the side of the carrier; 17. a clamping groove is formed in the lower portion of the tail of the carrier; 18. pressing down the eccentric part; 19. a terminal L-shaped card seat; 20. swinging the double-end U-shaped poking arm; 21. a first U-shaped shifting fork; 22. a second U-shaped shifting fork; 23. pushing the push rod upwards; 24. a lower return spring; 25. a lower sucker push rod; 26. a terminal floating elastic roller; 27. the terminal presses the inclined plate downwards; 28. a terminal positioning driving push rod; 29. positioning the linkage rod; 30. positioning the driven articulated arm; 31. positioning a process chuck; 32. a first transfer station; 33. a second transfer station; 34. a transfer support; 35. transferring the first swing arm; 36. transferring the second swing arm; 37. a transfer linkage arm; 38. a transfer hollow suction disc frame; 39. inputting a storage rack; 40. an input upper guide groove; 41. inputting the lower opening groove; 42. a linkage double-prong oscillating arm; 43. inserting a wedge rod downwards; 44. the inclined wedge rod is inserted upwards; 45. inputting an upper guide rail; 46. outputting the lower guide rail; 47. rotating the upper shifting fork; 48. rotating the lower shifting fork; 49. a direction-changing inclined guide rail; 50. a U-shaped shifting fork capable of swinging in a turning way; 51. a direction-changing upper guide cross bar; 52. a direction-changing driving part; 53. the pulling spring is reset.

Detailed Description

As shown in fig. 1 to 7, the artificial intelligence based network threat early warning and monitoring system of the present embodiment includes a network switching working machine 2 serving as a data network switching relay, having a firewall and antivirus software, performing data exchange with an external network device through an external network switch 1, and configured to monitor and block external network threat input and internal network data read or output by the external network threat;

the monitoring machine 4 is used for monitoring the network switching working machine 2 and monitoring the downloaded data and the output data of the external network; when the data downloaded by the external network comprises a set data segment, the data uploaded by the internal network comprises set data, and when the data amount downloaded or uploaded is greater than a set amount or violates a set rule, the monitor 4 forces the power supply of the network switching working machine 2 to be cut off;

the intranet working machine 5 is in data transmission with the intranet switch 3 and the network switching working machine 2; the interface of the intranet work machine 5 is connected with an intermediate interface 6, and the intermediate interface 6 is electrically connected with an external memory 7 in a pluggable manner;

the memories 7 are used for periodically backing up work logs and data of the intranet work machine 5. By arranging the monitoring machine, rules can be set, sensitive data can be monitored, a set time period and instantaneous data flow can be monitored, the range of the external machine traversing the internal network machine is limited, and the like, so that control is realized.

As shown in fig. 1-7, as a modification alone or based on the above embodiment, the artificial intelligence based cyber threat early warning and monitoring system of the present embodiment includes a docking device 8 for connecting a memory 7 with an intermediate interface 6 electrically connected to an intranet working machine 5 in a pluggable manner; different contents can be stored in different memories, and regular backup through different storage disks is realized, so that physical design is realized, and all materials are prevented from being read or tampered. An input device 10, in which a memory 7 is prestored, to be sent to the docking device 8 for data storage; an output device 11 for outputting from the docking device 8; it can be connected with the storage cabinet or circulated with the input device, and different strategies can be set according to different requirements.

A changing device 9 for transferring the memory 7 from the input device 10 to the docking device 8 and/or for transferring the memory 7 from the docking device 8 to the output device 11. The connection of each component can be realized, and the space is saved.

The docking device 8 comprises a docking rack 12; a butt joint linear rail 14 is arranged on the butt joint rack 12, and a butt joint position 13 and a first transfer station 32 are respectively arranged at two ends of the butt joint linear rail 14; in order to clearly express the core components and avoid the outflow of the production drawing of the equipment, parts such as a fixing frame body, a mechanical arm, a bolt, a bearing, a push rod with conventional action and the like are omitted or simplified.

A butt joint bottom hollow carrier 15 driven by a linear driving mechanism travels on the butt joint linear rail 14, and the butt joint bottom hollow carrier 15 is used for bearing the memory 7; thereby avoiding the abrasion of the memory and facilitating the entry and exit of the manipulator through the hollow bottom.

Carrier side clamping spring pieces 16 for elastically contacting the corresponding outer side walls of the memory 7 are respectively arranged on the inner side walls of the carrier 15 with the hollow bottom, so that elastic positioning is realized; the tail part of the carrier 15 with a hollowed-out bottom is provided with a carrier tail part lower opening clamping groove 17, so that components such as a mechanical arm can be conveniently hooked and pulled.

As a manipulator aid, a pressing eccentric part 18 is arranged above the first transfer station 32 and used for pressing the input memory 7 into the bottom hollow carrier 15 for positioning; thereby realizing the pressing and fixing;

preferably, at least the tail of the first transfer station 32 is provided with a plurality of terminal L-shaped clamping seats 19 for clamping the side parts of the hollow-bottom carrier 15, so as to realize the fixation when positioning and taking out the memory.

Preferably, an auxiliary dismounting assembly is arranged below the first transfer station 32; the device comprises a swinging double-head U-shaped poking arm 20 driven by a motor to swing; a first U-shaped shifting fork 21 and a second U-shaped shifting fork 22 are respectively arranged at two end parts of the swinging double-head U-shaped shifting arm 20;

a guide pin at the lower part of an upper push rod 23 which vertically ascends and descends is hinged in the first U-shaped shifting fork 21;

a guide pin at the lower part of a lower sucker push rod 25 which vertically ascends and descends is hinged in the second U-shaped shifting fork 22; and by means of linkage design, downward suction positioning and upward top separation are realized, or the adsorption is not performed and the upward top is not performed.

The upper end of a lower return spring 24 is correspondingly arranged at the bottom of the upper ejector rod 23 and/or the lower sucker push rod 25, and the lower end of the lower return spring 24 is connected to the docking rack 12; realize buffering, realize simultaneously that the action is accurate. A terminal floating elastic roller 26 is arranged at the stroke end of the linear track 14 at the butt joint position 13 so as to assist in supporting the lower bottom of the hollow-bottom carrier 15; a terminal pressing inclined plate 27 is arranged at the terminal of the butt joint position 13 so as to press and support the upper part of the hollow bottom carrier 15; therefore, the fixing is realized by utilizing the inclined plane, and the vibration reduction of the storage disk during the operation is realized by the elastic wheel.

Preferably, the bottom space is skillfully utilized, and a butt joint positioning component is arranged below the butt joint position 13; it comprises a horizontal and longitudinal telescopic terminal positioning driving push rod 28; the lower end part of a positioning linkage rod 29 is hinged at the moving end of the terminal positioning driving push rod 28, and the upper end of a positioning driven hinged arm 30 is hinged at the upper end of the positioning linkage rod 29; the lower end of the positioning driven articulated arm 30 is articulated on the docking frame 12; a positioning process chuck 31 is obliquely arranged at the upper end of the positioning driven articulated arm 30;

the lower end of the positioning driven articulated arm 30 is hinged on the docking frame 12; a positioning process chuck 31 is obliquely arranged at the upper end of the positioning driven articulated arm 30;

the terminal positioning driving push rod 28 drives the positioning driven hinged arm 30 to swing through the positioning linkage rod 29, so that the positioning process chuck 31 pushes the bottom hollow carrier 15 to the middle interface 6 to enter the carrier tail lower opening clamping groove 17 and/or drives the bottom hollow carrier 15 to leave the middle interface 6 to be separated from the carrier tail lower opening clamping groove 17 in motion;

the lower open slot 17 at the tail of the carrier is provided with an elastic tongue plate, so that the process chuck 31 can be conveniently positioned to enter, push and output.

Preferably, the input device 10 includes an input storage rack 39 having an input lower opening groove 41 at the bottom and an input upper guide groove 40 at the lower part; a memory 7 is placed in the middle of the input storage rack 39; a start end of an input upper rail 45 is provided below the input storage rack 39; it is generally required that after the memory 7 is layered, both sides have an intervening gap.

On one side of the input storage rack 39 is a drop robot assembly, preferably comprising a motor driven linked double wishbone swing arm 42;

the upper end and the lower end of the linkage double-fork-head swing arm 42 are respectively provided with a fork head, and the upper fork head is hinged with a tail hinged rod which is inserted into the inclined wedge rod 44; the lower end fork head is hinged with a tail hinged rod inserted into the wedge rod 43;

the upper insertion wedge rod 44 and the lower insertion wedge rod 43 alternately enter and exit the corresponding input upper guide groove 40 and the input lower opening groove 41 respectively;

the upper insertion cam 44 enters the magazine 7 for lifting the second level, leaves so that the magazine 7 of the second level falls onto the lower insertion cam 43;

the lower insertion cam 43 enters the reservoir 7 for lifting the lowest level, leaves so that the reservoir 7 of the lowest level falls to the beginning of the input upper guide 45;

the output device 11 comprises an output lower guide 46 for outputting the memory 7 for storing data.

The exchanging device 9 includes a transfer support 34; the root parts of a transfer first swing arm 35 and a transfer second swing arm 36 are respectively hinged on the transfer support 34; the end part of the transfer first swing arm 35 is hinged with the middle part of a transfer linkage arm 37; the end part of the transfer second swing arm 36 is hinged with a hinged end of a transfer linkage arm 37; a transfer hollow suction disc frame 38 is arranged at the other end of the transfer linkage arm 37; therefore, input and output are met, and space is saved.

When the transferring hollow suction cup frame 38 is located at the first transferring station 32 downwards, the transferring first swing arm 35 and the transferring second swing arm 36 are arranged in a crossed manner;

when the transit hollow suction cup holder 38 is disposed upward, it is located at the second transit station 33; the second relay station 33 is located obliquely above the first relay station 32; the transfer first swing arm 35, the transfer second swing arm 36, the transfer support 34 and the transfer linkage arm 37 are arranged in a quadrilateral structure. The storage is nondestructively and flexibly adsorbed through the sucker, and the structure is reasonable and ingenious.

A second guide rail is arranged at the second transfer station 33 and is not marked; a rotary upper shifting fork 47 and a rotary lower shifting fork 48 are correspondingly arranged above and below the rotary upper shifting fork and the rotary lower shifting fork respectively;

a direction-changing inclined guide rail 49 is hinged to the root of the second guide rail, the direction-changing inclined guide rail 49 is connected with the input upper guide rail 45 when swinging upwards, and the direction-changing inclined guide rail 49 is connected with the output lower guide rail 46 when swinging downwards;

a direction-changing upper guide cross rod 51 is transversely arranged at the swinging end of the direction-changing inclined guide rail 49; one end of a direction-changing swinging U-shaped shifting fork 50 is hinged on the direction-changing upper guide cross rod 51; a direction-changing driving part 52 is hinged at the other end of the direction-changing swinging U-shaped shifting fork 50; the direction-changing swinging U-shaped shifting fork 50 is connected with a return traction spring 53. Therefore, input and output are met, and space is saved.

The invention realizes network communication through an external network switch, a network switching working machine, an internal network switch, a monitor and an internal network working machine, and realizes monitoring of data flow; the intermediate interface realizes the plugging and unplugging of the memory and can adopt conventional structural modes such as a serial port, a parallel port, a USB and the like; the butt joint device realizes automatic plugging and unplugging of a memory (such as a U disk, a mobile hard disk and other media), avoids manual operation, has accurate action and can be arranged by a linear mechanism or other push-pull devices; the replacing device realizes the putting in or taking out of the memory, and the transfer is convenient; the input device realizes automatic falling output; the output device realizes the hand thickness; the butt joint of the machine frame is summarized; the straight line rail at the butt joint part realizes straight line guiding; butting the carriers with the hollow bottoms to realize bearing of the memory; the spring piece is clamped at the side of the carrier to realize self-positioning; the lower opening of the carrier tail is provided with a clamping groove, as shown in the figure, a downward tongue plate is arranged at the inlet, so that the manipulator hooks or pulls or pushes the tongue plate; the eccentric part is pressed down to realize pressing down positioning; positioning the L-shaped card seat of the terminal; the swinging double-head U-shaped poking arm realizes swinging; the first U-shaped shifting fork and the second U-shaped shifting fork realize shifting, and the shaft can be hinged with the sleeve and the long groove; the upward pushing push rod realizes upward pushing; the lower return spring realizes traction to ensure accurate action; the lower sucker push rod pushes the storage device upwards to leave; the elastic roller wheel floating at the terminal realizes the functions of vibration reduction and guiding; the terminal presses the inclined plate to realize pressing; as an improvement on the existing baffle and manipulator, as an optimization, the terminal positioning drives the push rod; positioning the linkage rod; positioning the slave articulated arm; positioning the process chuck to drive the carrier to move, wherein the characteristic is a test state; by pivoting the first swing arm; transferring the second swing arm; the transfer linkage arm drives the transfer hollow sucker frame to turn over, and the transfer hollow sucker frame is simple in structure and accurate in action; as an input structure, the input storage rack is provided with an input upper guide groove; inputting the lower opening groove; a linkage double-prong oscillating arm; inserting a wedge rod downwards; the upper part is inserted with a wedge rod to realize that the storages fall down one by one; inputting an upper guide rail; outputting the lower guide rail; rotating the upper shifting fork; rotating the lower shifting fork; a direction-changing inclined guide rail; a U-shaped shifting fork capable of swinging in a turning way; a direction-changing upper guide cross bar; a direction-changing driving part; and the traction spring is reset, so that the transmission of different positions of the memory is realized.

According to the artificial intelligence-based network threat early warning and monitoring method, by means of a network threat early warning and monitoring system and according to a set authority, firstly, an internal network working machine 5 performs data transmission with an external network switch 1 through a network switching working machine 2, wherein a monitor machine 4 monitors download data and output data of an external network; when the data downloaded by the external network comprises a set data segment, the data uploaded by the internal network comprises set data, and when the data amount downloaded or uploaded is greater than a set amount or violates a set rule, the monitor 4 forces the power supply of the network switching working machine 2 to be cut off; then, the memory 7 is electrically connected to the intranet work machine 5 through the intermediate interface 6 in a pluggable manner, and the memory 7 periodically backs up the work logs and data of the intranet work machine 5.

The premise is that the outer side wall of the memory 7 is provided with an outer edge, and the following steps are executed in the step of transmitting data between the memory 7 and the intermediate interface 6;

s1, firstly, prestoring a memory 7 into an input storage rack 39; then, the link double-pronged swing arm 42 swings so that the upper insert cam lever 44 leaves the input upper guide groove 40 and the lower insert cam lever 43 enters the input lower opening groove 41, so that the reservoir 7 falls one floor; secondly, the linkage double-fork swinging arm 42 swings, so that the upper insertion wedge rod 44 enters the input upper guide groove 40 and the lower insertion wedge rod 43 leaves the input lower opening groove 41, the storage 7 falls by one layer, the upper insertion wedge rod 44 is inserted into a free space below the outer edge of the storage 7 of the second layer, and meanwhile, the storage 7 at the bottommost layer falls to the initial end of the input upper guide rail 45;

s2, firstly, under the action of the rotary upper shifting fork 47 and the rotary lower shifting fork 48, the memory 7 slides to a second transfer station 33 of a second guide rail through a direction-changing inclined guide rail 49; then, the direction-changing driving part 52 drives the direction-changing upper guide cross rod 51 through the direction-changing swinging U-shaped shifting fork 50, so that the direction-changing inclined guide rail 49 swings downwards and is connected with the output lower guide rail 46;

s3, firstly, the transferring hollow suction cup frame 38 is upwards positioned at the second transferring station 33, and the negative pressure thereof adsorbs the bottom surface of the storage 7; under the action of linkage driving of the transferring first swing arm 35 and the transferring second swing arm 36, the transferring hollow suction cup frame 38 faces downwards to place the storage 7 into the hollow-bottom carrier 15 of the first transferring station 32;

s4, firstly, the input memory 7 is pressed down into the bottom hollow carrier 15 by pressing down the eccentric part 18 for positioning, and the lower sucker push rod 25 sucks down for auxiliary positioning and then separates; then, the straight-line rail 14 at the butt joint part sends the hollow-bottom carrier 15 to the butt joint position 13; secondly, at the butt joint position 13, the lower bottom of the hollow-out bottom carrier 15 is supported in an auxiliary mode through a terminal floating elastic roller 26, and meanwhile, a terminal downward pressing inclined plate 27 supports the upper portion of the hollow-out bottom carrier 15 in a downward pressing mode; thirdly, the terminal positioning driving push rod 28 drives the positioning driven articulated arm 30 to swing through the positioning linkage rod 29, so that the positioning process chuck 31 enters the lower opening clamping groove 17 at the tail of the carrier, and the memory 7 is plugged with the middle interface 6; then, the terminal positioning driving push rod 28 drives the bottom hollow carrier 15 to leave the middle interface 6, and the positioning process chuck 31 is separated from the carrier tail lower opening clamping groove 17 in motion;

s5, firstly, returning the bottom hollow carrier 15 to the first transfer station 32, and clamping the side part of the bottom hollow carrier 15 by the terminal L-shaped clamping seat 19; then, the top push rod 23 pushes the memory 7 up to leave the butt joint bottom hollow carrier 15; next, the storage 7 returns to the second transfer station 33;

and S6, outputting by the memory 7.

The present invention has been described in sufficient detail for clarity of disclosure and is not exhaustive of the prior art.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; it is obvious as a person skilled in the art to combine several technical solutions of the present invention. And such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (2)

1. The utility model provides a network threat early warning monitoring system based on artificial intelligence which characterized in that: comprises that

The network switching working machine (2) is used for data network switching, is provided with a firewall and antivirus software, exchanges data with external network equipment through the external network switch (1), and is used for monitoring and blocking external network threat input and internal network data read or output by the external network threat;

the monitoring machine (4) is used for monitoring the network switching working machine (2) and monitoring the downloaded data and the output data of the external network; when the data downloaded by the external network comprises a set data segment, the data uploaded by the internal network comprises set data, and when the data amount downloaded or uploaded is greater than a set amount or violates a set rule, the monitor (4) forces the power supply of the network switching working machine (2) to be cut off;

the intranet working machine (5) is in data transmission with the intranet switch (3) and the network switching working machine (2); the interface of the intranet work machine (5) is connected with an intermediate interface (6), and the intermediate interface (6) is electrically connected with an external memory (7) in a pluggable manner;

the memories (7) are used for periodically backing up the working logs and data of the intranet working machine (5);

the network threat early warning monitoring system also comprises

The docking device (8) is used for connecting the memory (7) with an intermediate interface (6) which is connected with the intranet working machine (5) in a pluggable manner;

an input device (10) pre-stored with a memory (7) to be sent to the docking device (8) for data storage;

the output device (11) outputs the output from the docking device (8);

a changing device (9) for transferring the memory (7) from the input device (10) to the docking device (8) and/or for transferring the memory (7) from the docking device (8) to the output device (11);

wherein the docking device (8) comprises a docking rack (12); a butt joint linear rail (14) is arranged on the butt joint rack (12), and a butt joint position (13) and a first transfer station (32) are respectively arranged at two ends of the butt joint linear rail (14);

a butt joint bottom hollow carrier (15) driven by a linear driving mechanism travels on the butt joint linear track (14), and the butt joint bottom hollow carrier (15) is used for bearing a memory (7);

carrier side clamping spring pieces (16) used for elastically contacting the corresponding outer side walls of the memory (7) are respectively arranged on the inner side walls of the carrier (15) with the hollow bottom; a clamping groove (17) with a lower opening at the tail part of the carrier is arranged at the tail part of the carrier (15) with a hollow bottom;

a pressing eccentric part (18) is arranged above the first transfer station (32) and used for pressing an input memory (7) into the bottom hollow carrier (15) for positioning;

at least the tail part of the first transfer station (32) is provided with a plurality of terminal L-shaped clamping seats (19) for clamping the side parts of the bottom hollow carriers (15);

an auxiliary dismounting assembly is arranged below the first transfer station (32); the device comprises a swinging double-head U-shaped poking arm (20) driven by a motor to swing; a first U-shaped shifting fork (21) and a second U-shaped shifting fork (22) are respectively arranged at two ends of the swinging double-head U-shaped shifting arm (20);

a guide pin at the lower part of an upper push rod (23) which vertically ascends and descends is hinged in the first U-shaped shifting fork (21);

a guide pin at the lower part of a lower sucker push rod (25) which vertically ascends and descends is hinged in the second U-shaped shifting fork (22);

the upper end of a lower return spring (24) is correspondingly arranged at the bottom of the upper ejector rod (23) and/or the lower sucker push rod (25), and the lower end of the lower return spring (24) is connected to the butting rack (12);

a terminal floating elastic roller (26) is arranged at the stroke end of the linear track (14) at the butt joint position (13) to assist in supporting the lower bottom of the bottom hollow carrier (15); a terminal pressing inclined plate (27) is arranged at the terminal of the butt joint position (13) to press and support the upper part of the bottom hollow carrier (15);

a butt joint positioning component is arranged below the butt joint position (13); it comprises a horizontal and longitudinal telescopic terminal positioning driving push rod (28); the lower end part of a positioning linkage rod (29) is hinged to the moving end of the terminal positioning driving push rod (28), and the upper end of the positioning linkage rod (29) is hinged to the upper end of a positioning driven hinged arm (30); the lower end of the positioning driven articulated arm (30) is articulated on the docking rack (12); a positioning process chuck (31) is obliquely arranged at the upper end of the positioning driven articulated arm (30);

the lower end of the positioning driven articulated arm (30) is hinged on the docking frame (12); a positioning process chuck (31) is obliquely arranged at the upper end of the positioning driven articulated arm (30);

a terminal positioning driving push rod (28) drives a positioning driven articulated arm (30) to swing through a positioning linkage rod (29), so that a positioning process chuck (31) pushes a bottom hollow carrier (15) towards a middle interface (6) to enter a carrier tail lower opening clamping groove (17) and/or drives the bottom hollow carrier (15) to leave the middle interface (6) to be separated from the carrier tail lower opening clamping groove (17) in motion;

the lower opening clamping groove (17) at the tail part of the carrier is provided with an elastic tongue plate;

the input device (10) comprises an input storage rack (39) with an input lower opening groove (41) at the bottom and an input upper guide groove (40) at the lower part; a memory (7) is arranged in the middle layer of the input storage rack (39); the starting end of an input upper guide rail (45) is arranged below the input storage rack (39);

a drop robot assembly is arranged on one side of the input storage rack (39) and comprises a linkage double-fork head swinging arm (42) driven by a motor;

the upper end and the lower end of the linkage double-fork-head swing arm (42) are respectively provided with a fork head, and the fork head at the upper end is hinged with a tail hinged rod which is inserted into the inclined wedge rod (44); the lower end fork head is hinged with a tail hinged rod inserted into the inclined wedge rod (43) downwards;

the upper inserting wedge rod (44) and the lower inserting wedge rod (43) alternately enter and exit the corresponding input upper guide groove (40) and the input lower opening groove (41) respectively;

the upper insertion wedge bar (44) enters the storage (7) for lifting the second layer, and leaves so that the storage (7) of the second layer falls onto the lower insertion wedge bar (43);

a lower insertion wedge rod (43) enters the storage device (7) used for lifting the lowest layer and leaves the storage device (7) so that the lowest layer falls to the initial end of the input upper guide rail (45);

an output device (11) comprising an output lower rail (46) for outputting a memory (7) for storing data;

the replacing device (9) comprises a transfer support (34); the root parts of a transfer first swing arm (35) and a transfer second swing arm (36) are respectively hinged on the transfer support (34); the end part of the transfer first swing arm (35) is hinged with the middle part of a transfer linkage arm (37); the end part of the transfer second swing arm (36) is hinged with a hinged end of a transfer linkage arm (37); a transfer hollow suction disc frame (38) is arranged at the other end of the transfer linkage arm (37);

when the transferring hollow suction disc frame (38) is located at the first transferring station (32) downwards, the transferring first swing arm (35) and the transferring second swing arm (36) are arranged in a crossed mode;

when the transferring hollow suction disc frame (38) is arranged upwards, the transferring hollow suction disc frame is positioned at the second transferring station (33); the second transfer station (33) is positioned obliquely above the first transfer station (32); the transfer first swing arm (35), the transfer second swing arm (36), the transfer support (34) and the transfer linkage arm (37) are arranged in a quadrilateral structure;

a second guide rail is arranged at the second transfer station (33); a rotary upper shifting fork (47) and a rotary lower shifting fork (48) are correspondingly arranged above and below the rotary upper shifting fork and the rotary lower shifting fork respectively;

a direction-changing inclined guide rail (49) is hinged to the root of the second guide rail, the direction-changing inclined guide rail (49) is connected with the input upper guide rail (45) when swinging upwards, and is connected with the output lower guide rail (46) when swinging downwards;

a direction-changing upper guide cross rod (51) is transversely arranged at the swinging end of the direction-changing inclined guide rail (49); one end of a direction-changing swinging U-shaped shifting fork (50) is hinged on the direction-changing upper guide cross rod (51); the other end of the direction-changing swinging U-shaped shifting fork (50) is hinged with a direction-changing driving part (52); a return drawing spring (53) is connected to the direction-changing swinging U-shaped shifting fork (50).

2. A network threat early warning monitoring method based on artificial intelligence is characterized in that: with the help of the network threat early warning monitoring system of claim 1, according to the set authority, firstly, the intranet work machine (5) performs data transmission with the extranet exchanger (1) through the network switching work machine (2), wherein the monitor (4) monitors the download data and the output data of the extranet; when the external network downloaded data comprises a set data segment, the internal network uploaded data comprises set data, and when the downloaded or uploaded data volume is greater than a set volume or violates a set rule, the monitor (4) forces the power supply of the network switching working machine (2) to be cut off; then, the memory (7) is electrically connected with the intranet working machine (5) in a pluggable mode through the intermediate interface (6), and the memory (7) regularly backs up the working logs and data of the intranet working machine (5);

the method is characterized in that an outer edge is arranged on the outer side wall of the memory (7), and the following steps are executed in the step of transmitting data between the memory (7) and the intermediate interface (6);

s1, firstly, prestoring a memory (7) into an input storage rack (39); then, the linkage double-fork swinging arm (42) swings, so that the upper insertion wedge rod (44) leaves the input upper guide groove (40) and the lower insertion wedge rod (43) enters the input lower opening groove (41), and the storer (7) falls one layer; secondly, the linkage double-fork-head swing arm (42) swings, so that an upper insertion wedge rod (44) enters an input upper guide groove (40) and a lower insertion wedge rod (43) leaves an input lower opening groove (41), the storers (7) fall one layer, the upper insertion wedge rod (44) is inserted into a free space below the outer edge of the storer (7) on the second layer, and meanwhile, the storer (7) on the bottommost layer falls to the initial end of an input upper guide rail (45);

s2, firstly, under the action of a rotary upper shifting fork (47) and a rotary lower shifting fork (48), a memory (7) slides down to a second transfer station (33) of a second guide rail through a turning inclined guide rail (49); then, the direction-changing driving part (52) drives the direction-changing upper guide cross rod (51) through the direction-changing swinging U-shaped shifting fork (50) so that the direction-changing inclined guide rail (49) swings downwards to be connected with the output lower guide rail (46);

s3, firstly, the transferring hollow suction disc frame (38) is upwards positioned at a second transferring station (33), and the negative pressure of the transferring hollow suction disc frame adsorbs the bottom surface of the storage (7); under the linkage driving action of a transfer first swing arm (35) and a transfer second swing arm (36), a transfer hollow suction disc frame (38) downwards places a storage (7) into a hollow carrier (15) at the bottom of a first transfer station (32);

s4, firstly, the eccentric part (18) is pressed downwards to press the input memory (7) into the bottom hollow carrier (15) for positioning, and the lower sucker push rod (25) sucks downwards to assist positioning and then separates; then, the straight track (14) at the butt joint part sends the hollow-out bottom carrier (15) to a butt joint position (13); secondly, in the butt joint position (13), the lower bottom of the hollow-out bottom carrier (15) is supported in an auxiliary mode through a terminal floating elastic roller (26), and meanwhile, the terminal downward pressing inclined plate (27) supports the upper portion of the hollow-out bottom carrier (15) in a downward pressing mode; thirdly, a terminal positioning driving push rod (28) drives a positioning driven articulated arm (30) to swing through a positioning linkage rod (29), so that a positioning process chuck (31) enters a lower opening clamping groove (17) at the tail part of the carrier, and a memory (7) is spliced with the middle interface (6); then, a terminal positioning driving push rod (28) drives the bottom hollow carrier (15) to leave the middle interface (6), and a positioning process chuck (31) is separated from a lower opening clamping groove (17) at the tail part of the carrier in motion;

s5, firstly, returning the bottom hollow carrier (15) to the first transfer station (32), and clamping the side part of the bottom hollow carrier (15) by the terminal L-shaped clamping seat (19); then, the upper ejection push rod (23) ejects the memory (7) upwards to leave the butt joint bottom hollow carrier (15); secondly, the memory (7) returns to the second transfer station (33);

and S6, outputting by a memory (7).

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