CN110111543A - Safety monitoring device based on artificial intelligence - Google Patents

Abstract

The invention discloses the safety monitoring devices based on artificial intelligence, are related to safety monitoring device technical field, and device includes monitor component, communication component, high-speed computation control assembly, host computer and classifying alarm component with AI supercomputer processing function；Monitor component includes the second monitoring part, second monitoring part is three-dimensional space tracking and positioning device, including transmitter and receiver, transmitter is set to the weak part of high-supported formwork, receiver is fixed on building, three-dimensional space tracking and positioning device is used to detect the second security parameter of high-supported formwork and exports to high speed operation control component, and high-speed computation control assembly will be transmitted to the host computer with AI supercomputer processing function after the second security parameter preliminary treatment；Host computer with AI supercomputer processing function is bi-directionally connected with high-speed computation control assembly, for calculating the second security parameter information to obtain the three-dimensional coordinate information of high-supported formwork, and it is transmitted to high-speed computation control assembly, high-speed computation control assembly carries out classification processing according to the change information of three-dimensional coordinate information.Safety monitoring device provided by the invention based on artificial intelligence can effectively monitor the safe condition of high-supported formwork, and the disaster that two- level optimization may occur in time, be conducive to the security of the lives and property.

Description

Safety monitoring device based on artificial intelligence

Technical field

The present invention relates to safety monitoring device technical fields, fill in particular to the security monitoring based on artificial intelligence It sets.

Background technique

With the high speed development of building trade, the skyscraper of large space is also more and more, and the application of high-supported formwork is increasingly Extensively, crucial effect is played in building trade.And in high-formwork construction operation process, high fall accident frequency occurs and gets over Come higher, causes the injures and deaths of personnel, more seriously in the construction process, if formwork system collapses, will cause The dead group's wound of the group of operating personnel above, leads to larger, even great construction safety accident.Therefore, the security monitoring of high-supported formwork With great security implications and value.The detection parameters of the monitoring device of the prior art are less, cannot carry out to high-supported formwork complete It effectively detects in face.

Summary of the invention

The purpose of the present invention is to provide a kind of safety monitoring devices based on artificial intelligence, can effectively monitor height The safe condition of formwork forecasts the disaster that may occur in time, is conducive to the security of the lives and property.

The present invention provides a kind of technical solution about the safety monitoring device based on artificial intelligence: one kind is based on artificial intelligence The safety monitoring device of energy is used for high-supported formwork, and the safety monitoring device based on artificial intelligence includes monitor component, high-speed computation control Component processed and host computer with AI supercomputer processing function.

Specifically, the monitor component includes the second monitoring part, and the second monitoring part is specially that three-dimensional space tracking is fixed Position device, the three-dimensional space tracking and positioning device include transmitter and receiver, and the transmitter is set to the weakness of the high-supported formwork Position, the receiver are fixed on building, and the three-dimensional space tracking and positioning device is for detecting the second of the high-supported formwork Security parameter is simultaneously exported to the host computer high-speed computation control assembly with AI supercomputer processing function, high-speed computation control group Second security parameter is transmitted to the host computer with AI supercomputer processing function by part.

Specifically, the host computer with AI supercomputer processing function is bi-directionally connected with the high-speed computation control assembly, The host computer with AI supercomputer processing function be equipped with cloud artificial intelligence chip, for calculate the second security parameter information with The three-dimensional coordinate information of high-supported formwork is obtained, and is transmitted to high-speed computation control assembly, high-speed computation control assembly is sat according to three-dimensional Mark running parameter carries out classification processing.

Specifically, weak part includes the biggish girder of span, the biggish two-way bridge plate of span, bracket anchoring point, span Biggish arch bridge and arch springing and other maximum positions of important component bearing load.

Specifically, safety monitoring device further includes the first monitoring part, and the first monitoring part includes at least one pressure sensor, Pressure sensor is set to the weak part of high-supported formwork, and pressure sensor is used to detect the pressure data of high-supported formwork in real time, and will Pressure data is as the first security parameter and is transmitted to high-speed computation control assembly.

Specifically, safety monitoring device further includes third monitoring part, and it includes at least one tension sensor that third, which monitors part, Tension sensor is set to the weak part of high-supported formwork, and tension sensor is used to detect the pulling force data of high-supported formwork in real time, and will Pulling force data is as third security parameter and is transmitted to high-speed computation control assembly.

Specifically, safety monitoring device further includes classifying alarm component, classifying alarm component inputs and high-speed computation control Component connection processed, classifying alarm component includes LED light and/or buzzer.

Specifically, safety monitoring device further includes communication component, and communication component includes the first communication unit, the second communication unit Member and third communication unit, first monitoring part output end is connect with the first communication unit, high-speed computation control assembly input terminal and The connection of first communication unit；Second monitoring part output end is connect with the second communication unit, high-speed computation control assembly input terminal and The connection of second communication unit；Third monitoring part output end connect with third communication unit, high-speed computation control assembly input terminal and The connection of third communication unit piece.

Specifically, the first communication unit is that ZigBee communication unit, 433 communication units, GPS communication unit or serial ports are logical Believe unit.

Specifically, the second communication unit is that ZigBee communication unit, 433 communication units, GPS communication unit or serial ports are logical Believe unit.

Specifically, third communication unit is that ZigBee communication unit, 433 communication units, GPS communication unit or serial ports are logical Believe unit.

Specifically, communication component further includes relay communication unit, the first communication unit output end, the output of the second communication unit End and the relayed communication unit of third communication unit output end and high-speed computation control assembly communicate to connect.

Compared with prior art, the beneficial effect of the safety monitoring device provided by the invention based on artificial intelligence is:

The present invention detects the state parameter of high-supported formwork by monitor component, which is transmitted to high speed by communication component Operation control component, high-speed computation control assembly by the second security parameter be transmitted to the host computer with AI supercomputer processing function into Row processing obtains the three-dimensional coordinate information of high-supported formwork and exports to high speed operation control component, high-speed computation control assembly according to First security parameter, third security parameter and high-supported formwork three-dimensional coordinate running parameter carry out classification processing, control classifying alarm group Part alarm.Further, the first monitoring part, the second monitoring part and third monitoring part respectively obtain high-supported formwork mutually different the respectively One security parameter, the second security parameter and third security parameter, under the action of communication component, above-mentioned first security parameter, Two security parameters and third security parameter are transmitted to high-speed computation control assembly.At least through mutually different three ginsengs of high-supported formwork Number is to monitor the working condition of high-supported formwork, to ensure the validity and accuracy of monitoring.In the processing of high-speed computation control assembly The first security parameter, the second security parameter and third security parameter are stated, and obtains the working condition of monitored high-supported formwork.In height When formwork is in unsafe working condition, high-speed computation control assembly generates the alarm command of different stage, so that classification is reported Alert component is opened according to alarm command.The present invention can effectively monitor the safe condition of high-supported formwork, and forecast may occur in time Disaster, be conducive to the security of the lives and property.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to needed in the embodiment attached Figure is briefly described.It should be appreciated that the following drawings illustrates only certain embodiments of the present invention, therefore it is not construed as pair The restriction of range.It for those of ordinary skill in the art, without creative efforts, can also be according to this A little attached drawings obtain other relevant attached drawings.

Fig. 1 is the structural schematic block diagram for the safety monitoring device based on artificial intelligence that the embodiment of the present invention provides；

Fig. 2 is the structural schematic block diagram for the monitor component that the embodiment of the present invention provides；

Fig. 3 is the structural schematic block diagram for the communication component that the embodiment of the present invention provides；

Icon: safety monitoring device of the 10- based on artificial intelligence, 100- monitor component, 110- first monitor part, 120- the Two monitoring parts, 130- third monitoring part, 200- communication component, the first communication unit of 210-, the second communication unit of 220-, 230- the Three communication units, 300- high-speed computation control assembly, 400- classifying alarm component, 500- have the upper of AI supercomputer processing function Machine

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described.Obviously, described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.The present invention being usually described and illustrated herein in the accompanying drawings is implemented The component of example can be arranged and be designed with a variety of different configurations.

Therefore, the detailed description of the embodiment of the present invention provided in the accompanying drawings is not intended to limit below claimed The scope of the present invention, but be merely representative of selected embodiment of the invention.Based on the embodiments of the present invention, this field is common Technical staff's every other embodiment obtained without creative efforts belongs to the model that the present invention protects It encloses.

It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.

In the description of the present invention, it is to be understood that, term " on ", "lower", "inner", "outside", "left", "right" etc. indicate Orientation or positional relationship be based on the orientation or positional relationship shown in the drawings or the invention product using when usually put Orientation or positional relationship or the orientation or positional relationship that usually understands of those skilled in the art, be merely for convenience of retouching It states the present invention and simplifies description, rather than the equipment of indication or suggestion meaning or element must have a particular orientation, with specific Orientation construction and operation, therefore be not considered as limiting the invention.

In addition, term " first ", " second " etc. are only used for distinguishing description, it is not understood to indicate or imply relatively important Property.

In the description of the present invention, it is also necessary to which explanation is unless specifically defined or limited otherwise, " setting ", " even Connect " etc. terms shall be understood in a broad sense, for example, " connection " may be a fixed connection, may be a detachable connection, or integrally connect It connects；It can be mechanical connection, be also possible to be electrically connected；It can be and be directly connected to, can also be indirectly connected with by intermediary, it can To be the connection inside two elements.For the ordinary skill in the art, can understand as the case may be above-mentioned The concrete meaning of term in the present invention.

With reference to the accompanying drawing, detailed description of the preferred embodiments.

First embodiment

Referring to Fig. 1, present embodiments providing a kind of safety monitoring device based on artificial intelligence, can effectively supervise The safe condition for controlling high-supported formwork, forecasts the disaster that may occur in time, is conducive to the security of the lives and property.

It should be noted that the safety monitoring device provided in this embodiment based on artificial intelligence can be used for high-supported formwork Working condition detected, forecast the disaster that may occur in time, be conducive to the security of the lives and property.

Safety monitoring device provided in this embodiment based on artificial intelligence include monitor component 100, communication component 200, Classifying alarm component 400, high-speed computation control assembly 300 and the host computer 500 with AI supercomputer processing function, monitor component 100 for detecting the security parameter of high-supported formwork, and communication component 200 is used to the parameter information being transmitted to high-speed computation control assembly 300, the second security parameter information is transmitted to the host computer with AI supercomputer processing function by high-speed computation control assembly, has AI The host computer 500 of supercomputer processing function is bi-directionally connected with high-speed computation control assembly through fourth communication unit, described super with AI The host computer for calculating processing function is equipped with cloud artificial intelligence chip BM1682, for calculating the second security parameter information to obtain height The three-dimensional coordinate information of formwork, and it is transmitted to high-speed computation control assembly 300, high-speed computation control assembly 300 is sat according to three-dimensional It is high with returning after the processing of host computer 500 of the AI supercomputer processing function partial parameters information that mark running parameter carries out classification processing Fast operation control component 300, high-speed computation control assembly 300 carry out classification processing, control point according to the parameter information of high-supported formwork Grade alarm assemblies 400 work.Further, high-speed computation control assembly 300 receives the first monitoring assembly 110 and third monitoring group The first security parameter and third security parameter that part 130 is sent, carry out at classification in conjunction with the three-dimensional coordinate running parameter of high-supported formwork Reason, control classifying alarm component 400 work.Specifically, high-speed computation control assembly includes but is not limited to single-chip microcontroller STM32 series Chip.

Referring to Fig. 2, further, monitor component 100 includes that the first monitoring part 110, second monitors part 120 and third prison Control 130, the first monitoring part 110 are set to high-supported formwork weak part and the first security parameter for detecting high-supported formwork, the second prison Control 120 is set to weak part high-supported formwork and the second security parameter for detecting high-supported formwork, and third monitors part 130 and is set to weakness Position high-supported formwork and the third security parameter for being used to detect high-supported formwork, and the first security parameter, the second security parameter and third peace The parameter value of population parameter is different；First monitoring part 110, second monitors part 120 and third monitoring 130 output end of part through communicating Component 200 and high-speed computation control assembly 300 communicate to connect, respectively by the first security parameter, the second security parameter and third Security parameter is transmitted to high-speed computation control assembly 300.Wherein, weak part includes that the biggish girder of span, span are biggish Two-way bridge plate, bracket anchoring point, the biggish arch bridge of span and arch springing and other maximum positions of important component bearing load.

Specifically, 400 input terminal of classifying alarm component is connect with high-speed computation control assembly 300, for being referred to according to alarm Order sounds an alarm.

It is understood that the safety monitoring device provided in this embodiment based on artificial intelligence: passing through monitor component 100 The state parameter for detecting high-supported formwork is exported through communication component 200 to high speed operation control component 300, high-speed computation control assembly The state parameter of the 300 part high-supported formworks that will test is transmitted to the host computer 500 with AI supercomputer processing function, high-speed computation Control assembly 300 and 500 processing status parameter of host computer with AI supercomputer processing function, and dangerous shape is in high-supported formwork When state, classifying alarm is carried out by the control work of classifying alarm component 400.Further, the first monitoring part 110, second monitors Part 120 and mutually different first security parameter of each high-supported formwork of acquisition respectively of third monitoring part 130, the second security parameter and third Security parameter, under the action of communication component 200, above-mentioned first security parameter, the second security parameter and third security parameter are passed Transport to high-speed computation control assembly 300.

Simultaneously, it should be noted that by the first security parameter of the first monitoring acquisition of part 110, pass through the second monitoring part 120 obtain the second security parameters and by third monitor part 130 obtain third security parameter it is different, i.e., in this implementation In example, the working condition of high-supported formwork is monitored at least through mutually different three parameters of high-supported formwork, to ensure having for monitoring Effect property and accuracy.

Referring to Fig. 3, optionally, communication component 200 includes the first communication unit 210, the second communication unit 220 and third Communication unit 230, the first monitoring 110 output end of part is through the first communication unit 210 and 300 communication link of high-speed computation control assembly It connects, the second monitoring 120 output end of part is communicated to connect through the second communication unit 220 with high-speed computation control assembly 300, the second monitoring Part 120 is communicated to connect through the second communication unit 220 with high-speed computation control assembly 300.

Further, the first communication unit 210 can be ZigBee communication unit, 433 communication units, GPS communication unit Or serial communication unit.

Further, the second communication unit 220 can be ZigBee communication unit, 433 communication units, GPS communication unit Or serial communication unit.

Further, third communication unit 230 can be ZigBee communication unit, 433 communication units, GPS communication unit Or serial communication unit.

Further, third communication unit is ZigBee communication unit.

Optionally, communication component 200 can also include relay communication unit, the first communication unit 210, the second communication unit 220 and third communication unit 230 communicated to connect by relay communication unit and high-speed computation control assembly 300.

It should be noted that relay communication unit can relay wireless signal, to guarantee the intensity of signal transmission And validity.

Optionally, in the present embodiment, the first monitoring part 110 is specially pressure sensor, and pressure sensor is set to high branch Mould weak part, pressure data of the pressure sensor for detection high-supported formwork in real time, and using pressure data as the first safety Parameters for transmission is to high speed operation control component 300, if the first security parameter is greater than the first threshold of pressure data, high-speed computation Control assembly exports first level warning message to alarm unit, controls alarm unit and starts to work；It is high if more than second threshold Fast operation control component exports the one or two rank warning message to alarm unit, controls alarm unit and starts to work.

Optionally, in the present embodiment, second monitoring part 120 be specially three-dimensional space tracking and positioning device, three-dimensional space with Track locator is set to high-supported formwork weak part, and three-dimensional space tracking and positioning device for detecting the deformation of high-supported formwork weak part in real time Information, i.e. the sedimentation information and inclination information of high-supported formwork, and this information as the second security parameter and is transmitted to high-speed computation Control assembly 300.Specifically, three-dimensional space tracking and positioning implement body is ultrasonic sensor, including transmitter and receiver, Transmitter is set to the weak part of high-supported formwork, and receiver is fixed on building.Transmitter includes three mutually orthogonal ultrasounds Loudspeaker, receiver include three orthogonal microphones, and microphone receives transmitter and periodically issues ultrasonic wave, high-speed computation control After component gets the second security parameter information that transmitter and receiver sent and received ultrasonic wave, which is transmitted to tool There is the host computer 500 of AI supercomputer processing function to be further processed, the host computer with AI supercomputer processing function is according to ultrasound The spread speed of wave, the direction of transmitting ultrasonic wave and reception ultrasonic wave and location information, it is opposite with receiver to calculate transmitter Direction and position, the i.e. three-dimensional coordinate information of high-supported formwork, and it is transmitted to high-speed computation control assembly.Further, high-speed computation Control assembly is stored using the relative position of first time transmitter and receiver, directional information as master sample information, when When measurement obtains position, directional information of the receiver relative to transmitter again, this information and master sample information are compared Compared with if to obtain receiver inconsistent relative to the position of transmitter, directional information and master sample information for measurement again, and error Information is more than first threshold, and high-speed computation control assembly exports first level warning message to alarm unit, controls alarm unit It starts to work；If control information is greater than second threshold, high-speed computation control assembly exports the one or two rank warning message to alarm Unit, control alarm unit are started to work.Further, ultrasonic type can be arranged in multiple weak parts on high-supported formwork to sense The transmitter of device, the deformation information for monitoring multiple weak parts improve monitoring accuracy.

As an option, three-dimensional space tracking and positioning device can also be low-frequency electrical magnetic-type sensor, including transmitter with connect Device is received, the transmitter is set to the weak part of the high-supported formwork, and the receiver is fixed on building.The low-frequency electrical magnetic-type passes The transmitter of sensor is equipped with three mutually orthogonal coils and uses time division emission for generating three-dimensional magnetic field, three coils, produce Raw mutually independent magnetic field, sets on receiver to be used to receive there are three mutually orthogonal coil and generates on three coils of transmitter Magnetic induction intensity component, high-speed computation control assembly gets transmitter and receiver sends and receive the second peace of Magnetic Field After population parameter information, which is transmitted to the host computer 500 with AI supercomputer processing function and is further processed, there is AI The host computer of supercomputer processing function according to the magnetic-field component calculate receiver relative to Transmitter side to and location information, i.e., it is high The three-dimensional coordinate information of formwork, and it is transmitted to high-speed computation control assembly.Further, high-speed computation control assembly will measure The relative position of first time transmitter and receiver, directional information are stored as master sample information, when measuring again When position, directional information to receiver relative to transmitter, it is compared with master sample information, if measuring again It is inconsistent relative to the position of transmitter, directional information and master sample information to receiver, and error is more than first threshold, it is high Fast operation control component exports first level warning message to alarm unit, controls alarm unit and starts to work；If control information Greater than second threshold, high-speed computation control assembly exports the one or two rank warning message to alarm unit, controls alarm unit and opens Beginning work.Further, it can be monitored more in the transmitter of multiple weak parts setting low-frequency electrical magnetic-type sensor on high-supported formwork The deformation information of a weak part improves monitoring accuracy.

Optionally, in the present embodiment, third monitoring part 130 is tension sensor, and it is thin that tension sensor is set to high-supported formwork Weak position, pulling force data of the tension sensor for detection high-supported formwork in real time, and using pulling force data as third security parameter And it is transmitted to high-speed computation control assembly 300, if third security parameter is greater than the first threshold of pulling force data, high-speed computation control Component exports first level warning message to alarm unit, controls alarm unit and starts to work；If more than second threshold, high speed is transported It calculates control assembly and exports the one or two rank warning message to alarm unit, control alarm unit and start to work.

Further, high-supported formwork pressure data information, three-dimensional that high-speed computation control assembly is detected according to pressure sensor The pulling force data for the high-supported formwork that the three-dimensional coordinate change information of the high-supported formwork of space tracking and positioning device detection, tension sensor detect Information carries out classification processing further, if pressure data information, three-dimensional coordinate change information, in pulling force data information three The first threshold for all having been over setting of the two, then high-speed computation control assembly output second level warning message is extremely reported Alert unit, control alarm unit are started to work；If pressure data information, three-dimensional coordinate change information, pulling force data information three In both have been over the second threshold of setting, then high-speed computation control assembly output third level warning message is to reporting Alert unit, control alarm unit are started to work, and guarantee the life safety of personnel with this.

As an option, classifying alarm component 400 is specially LED light, 400 output end of high-speed computation control assembly and LED Lamp connects and is used to control the working condition of LED light；High-speed computation control assembly 300 is used to send to classifying alarm component 400 Alarm command controls the running parameter of LED light.

It should be noted that the quantity of LED light can be multiple, and can be set at obvious place or multiple obvious places, In order to staff's observation.High-speed computation control assembly 300 controls the working condition of LED light, which can be bright Degree, color, the frequency of flashing and time etc..

As an option, classifying alarm component 400 can be buzzer, realize range alarm.

As an option, LED light flashing can be used as first level police instruction, and buzzer interruption, which issues, to pipe and can make For second level police instruction, buzzer yowl can be used as third level police instruction.

Optionally, high-speed computation control assembly 300 can be control of intelligent terminal, which has display Device, keyboard and software module, software module is for handling data etc..Certainly, keyboard can also merge with display and be set as touching Touch screen.

Safety monitoring device provided in this embodiment based on artificial intelligence the utility model has the advantages that pass through monitor component detection high The state parameter is transmitted to high-speed computation control assembly by the state parameter of formwork, communication component, and high-speed computation control assembly will Second security parameter is transmitted to the host computer with AI supercomputer processing function and is handled, and obtains the three-dimensional coordinate information of high-supported formwork And export to high speed operation control component, high-speed computation control assembly is according to the first security parameter, third security parameter and Gao Zhi Mould three-dimensional coordinate running parameter carries out classification processing, control classifying alarm component alarm.Further, the first monitoring part, second It monitors part and third monitoring part respectively obtains mutually different first security parameter of high-supported formwork, the second security parameter and third peace respectively Population parameter, under the action of communication component, above-mentioned first security parameter, the second security parameter and the transmission of third security parameter are supreme Fast operation control component.The working condition of high-supported formwork is monitored at least through mutually different three parameters of high-supported formwork, to protect Hinder the validity and accuracy of monitoring.Above-mentioned first security parameter of high-speed computation control assembly processing, the second security parameter and the Three security parameters, and obtain the working condition of monitored high-supported formwork.When high-supported formwork is in unsafe working condition, high speed Operation control component generates the alarm command of different stage, so that classifying alarm component is opened according to alarm command.The present invention is real The safety monitoring device based on artificial intelligence for applying example offer can effectively monitor the safe condition of high-supported formwork, and real-time monitoring is high The various deformation datas of formwork, including pressure information, sedimentation information, inclination information, pulling force information, can forecast possibility in time Disaster, be conducive to the security of the lives and property.

These are only the preferred embodiment of the present invention, is not intended to restrict the invention, for those skilled in the art For member, the invention may be variously modified and varied.All within the spirits and principles of the present invention, it is made it is any modification, Equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (10)

1. the safety monitoring device based on artificial intelligence is used for high-supported formwork, which is characterized in that the safety based on artificial intelligence Monitoring device includes monitor component (100), high-speed computation control assembly (300) and the host computer with AI supercomputer processing function (500)；

The monitor component (100) includes the second monitoring part (120), second monitoring part (120) be specially three-dimensional space with Track locator, the three-dimensional space tracking and positioning device include transmitter and receiver, and the transmitter is set to the high-supported formwork Weak part, the receiver are fixed on building, and the three-dimensional space tracking and positioning device is for detecting the high-supported formwork Second security parameter is simultaneously exported to the high-speed computation control assembly (300), and high-speed computation control assembly (300) is safe by second Parameter is transmitted to the host computer (500) with AI supercomputer processing function；

The host computer (500) with AI supercomputer processing function is bi-directionally connected with the high-speed computation control assembly, the tool There is the host computer of AI supercomputer processing function to be equipped with cloud artificial intelligence chip, for calculating the second security parameter information to obtain height The three-dimensional coordinate information of formwork, and it is transmitted to high-speed computation control assembly, high-speed computation control assembly changes according to three-dimensional coordinate Parameter carries out classification processing.

2. the safety monitoring device according to claim 1 based on artificial intelligence, which is characterized in that the weak part packet It includes the biggish two-way bridge plate of the biggish girder of span, span, bracket anchoring point, the biggish arch bridge of span and arch springing and other is important The maximum position of component bearing load.

3. the safety monitoring device according to claim 1 based on artificial intelligence, which is characterized in that the security monitoring dress Setting (10) further includes the first monitoring part (110), and first monitoring part (110) includes at least one pressure sensor, the pressure Force snesor is set to the weak part of the high-supported formwork, and the pressure sensor is used to detect the pressure of the high-supported formwork in real time Data, and the pressure data as first security parameter and is transmitted to the high-speed computation control assembly (300).

4. the safety monitoring device according to claim 1 based on artificial intelligence, which is characterized in that the security monitoring dress Setting (10) further includes third monitoring part (130), and third monitoring part (130) includes at least one tension sensor, the drawing Force snesor is set to the weak part of the high-supported formwork, and the tension sensor is used to detect the pulling force of the high-supported formwork in real time Data, and the pulling force data as the third security parameter and is transmitted to the high-speed computation control assembly (300).

5. the safety monitoring device according to claim 1 based on artificial intelligence, which is characterized in that the security monitoring Device (10) further includes classifying alarm component (400), and classifying alarm component (400) input terminal and the high-speed computation control Component (300) connection, the classifying alarm component (400) includes LED light and/or buzzer.

6. the safety monitoring device according to claim 1 based on artificial intelligence, which is characterized in that the security monitoring dress Setting (10) further includes communication component (200), and the communication component (200) includes the first communication unit (210), the second communication unit (220) connect with third communication unit (230), first monitoring part (110) output end and first communication unit (210) It connects, high-speed computation control assembly (300) input terminal is connect with first communication unit (210)；The second monitoring part (120) output end is connect with second communication unit (220), high-speed computation control assembly (300) input terminal with it is described Second communication unit (220) connection；Third monitoring part (130) output end is connect with the third communication unit (230), institute High-speed computation control assembly (300) input terminal is stated to connect with the third communication unit (230).

7. the safety monitoring device according to claim 6 based on artificial intelligence, which is characterized in that first communication unit First (210) are ZigBee communication unit, 433 communication units, GPS communication unit or serial communication unit.

8. the safety monitoring device according to claim 6 based on artificial intelligence, which is characterized in that second communication unit First (220) are ZigBee communication unit, 433 communication units, GPS communication unit or serial communication unit.

9. the safety monitoring device according to claim 6 based on artificial intelligence, which is characterized in that the third communication list First (230) are ZigBee communication unit, 433 communication units, GPS communication unit or serial communication unit.

10. the safety monitoring device based on artificial intelligence according to any one of claim 6-9, which is characterized in that The communication component (200) further includes relay communication unit, the first communication unit (210) output end, second communication Unit (220) output end and the third communication unit (230) output end are transported through the relay communication unit and the high speed Calculate control assembly (300) communication connection.