CN117315883A - Construction safety early warning method, system, server and storage medium - Google Patents

Abstract

The application relates to the field of intelligent construction sites, in particular to a construction safety early warning method, a construction safety early warning system, a construction safety early warning server and a construction safety early warning storage medium. The method comprises the following steps: acquiring scene monitoring information in real time, wherein the scene monitoring information is used for confirming whether a preset dangerous source exists in a construction scene, and the preset dangerous source is a preset dangerous source which possibly damages workers; the scene monitoring information is sent to a server; if the scene monitoring information contains a preset dangerous source, receiving a projection picture generated by the server according to the scene monitoring information, wherein the projection picture contains construction safety early warning information correspondingly generated according to the preset dangerous source; the projection screen is shown on a solid surface, helping to reduce the damage to workers in a construction scene.

Description

Construction safety early warning method, system, server and storage medium

Technical Field

The application relates to the field of intelligent construction sites, in particular to a construction safety early warning method, a construction safety early warning system, a construction safety early warning server and a construction safety early warning storage medium.

Background

The safety helmet is a cap which plays a role in protecting the head of a person from injury caused by falling objects and other factors, and is often worn on the head of personnel on an engineering construction site.

In engineering construction, on-site personnel need to avoid risks possibly existing in a construction scene, such as avoiding nails on the ground, avoiding possible high-altitude falling objects, and keeping away from a crane boom, according to own working experience. Therefore, a worker needs to secure the acuity in a construction scene to reduce the possibility of damage, for which it is necessary to wear a helmet in the construction scene.

However, since it is difficult for a worker to constantly maintain a high concentration of spirit in a construction scene, there often occurs a situation in which the worker steps on nails, stumbles over foreign matters, is hit by falling foreign matters, or the like, thereby causing personal injury.

Disclosure of Invention

In order to help reduce damage to workers in construction scenes, the application provides a construction safety early warning method, a construction safety early warning system, a construction safety server and a construction safety storage medium.

In a first aspect, the present application provides a construction safety early warning method, which adopts the following technical scheme:

the construction safety early warning method is applied to an intelligent safety helmet, and comprises the following steps:

acquiring scene monitoring information in real time, wherein the scene monitoring information is used for confirming whether a preset dangerous source exists in a construction scene, and the preset dangerous source is a preset dangerous source which possibly damages workers;

the scene monitoring information is sent to a server;

if the preset dangerous source exists in the scene monitoring information, receiving a projection picture generated by the server according to the scene monitoring information, wherein the projection picture comprises construction safety early warning information correspondingly generated according to the preset dangerous source;

the projected picture is shown on a physical surface.

By adopting the technical scheme, in the process of early warning a construction scene, firstly, the intelligent safety helmet acquires scene monitoring information in real time, and then, the scene monitoring information is sent to the server. And if a dangerous source which possibly damages a worker exists in the scene monitoring information, the projection picture generated by the server can be projected to the entity surface for displaying. The worker can confirm the dangerous source through the projection picture, so that the dangerous source is avoided, and the damage of the worker in a construction scene is reduced.

Optionally, the construction safety early warning method further comprises the following steps:

acquiring scene illumination intensity information in real time;

transmitting the scene illumination intensity information to the server;

if the scene illumination intensity information exceeds the maximum brightness threshold value which can be projected by the projection picture, the projection picture is not received any more, and first early warning control information is received;

and sending out a dangerous source early warning signal based on the first early warning control information.

By adopting the technical scheme, when the construction is performed, the intensity of external light can influence the projection picture, and when the illumination intensity information exceeds the maximum brightness threshold value which can be projected by the projection picture, a worker is difficult to see the projection picture clearly. At this moment, intelligent safety helmet can remind the workman through sending the dangerous source early warning signal to the workman obtains the place of dangerous source when can be better, and then can further help reducing the workman and receive the damage in the construction scene.

Optionally, the construction safety early warning method further comprises the following steps:

acquiring scene temperature information in real time;

transmitting the scene temperature information to the server;

when the scene temperature information is higher than a first set threshold value or lower than a second set threshold value, receiving second early warning control information generated by the server according to the scene temperature information;

and sending out a temperature early warning signal based on the second early warning control information.

Through adopting above-mentioned technical scheme, when the temperature of external scene is higher than first settlement threshold value or is less than the second settlement threshold value, intelligent safety helmet can send temperature early warning signal to remind the workman external world too hot or too cold, thereby can reduce that the workman from appearing heatstroke and frostbite.

Optionally, the construction safety early warning method further comprises the following steps:

acquiring air solid granularity information in real time;

sending the air solid granularity information to the server;

when the air solid granularity information is higher than a concentration threshold value, third early warning control information which is returned by the server according to the air solid granularity information is received;

and sending out an air solid granularity early warning signal based on the third early warning control information.

Through adopting above-mentioned technical scheme, when the solid granularity concentration in the air is higher than concentration threshold value, intelligent safety helmet can send solid granularity early warning signal to remind the workman impurity more in the air, thereby can reduce the workman and appear respiratory tract damage.

Optionally, the construction safety early warning method further comprises the following steps:

acquiring worker operation site information in real time;

transmitting the worker operation site information to the server;

if the corresponding coordinates in the worker operation site information are not in an authorized area, receiving fourth early warning control information returned by the server according to the worker operation site information, wherein the authorized area is a construction area determined for each worker responsibility;

and sending out an offside early warning signal based on the fourth early warning control information.

By adopting the technical scheme, in engineering construction, the danger of a part of areas is high, and workers should be prevented from moving to the areas with high danger as much as possible. Therefore, the construction area can be determined for the responsibility of the worker, namely, the authorized area is determined, and then when the worker moves to an area outside the authorized area, the intelligent safety helmet can send out an offside early warning signal, so that the worker is reduced from entering into the area with high risk, and the possibility of damage of the worker can be effectively reduced.

Optionally, the construction safety early warning method further comprises the following steps:

detecting the wearing condition information of the safety helmet of a worker in real time;

transmitting the helmet wearing condition information to the server;

if the intelligent safety helmet corresponding to the safety helmet wearing condition information is in an unworn state, fifth early warning control information returned by the server according to the safety helmet wearing condition information is received;

and sending out a safety helmet wearing early warning signal based on the fifth early warning control information.

Through adopting above-mentioned technical scheme, when the workman did not wear intelligent safety helmet correctly, intelligent safety helmet can send the safety helmet and wear early warning signal to remind the workman to wear the safety helmet correctly, and then can effectively guarantee the protection effect of intelligent safety helmet to the workman.

Optionally, the construction safety early warning method further comprises the following steps:

receiving help information through an information receiving module;

acquiring operation place information based on the help seeking information;

the help seeking information is sent to the server, so that the server can acquire operation location information of the intelligent safety helmet and position information of other intelligent safety helmets, and at least one other intelligent safety helmet is determined to serve as a request object based on the position information and the operation location information;

the request object receives a help request instruction sent by the server.

Through adopting above-mentioned technical scheme, when the workman receives the damage or needs help because of other reasons, the workman can make intelligent safety helmet acquire the information of asking for help through information receiving module, later intelligent safety helmet can send the information of asking for help to the server, and the server confirms the position of intelligent safety helmet according to the information of asking for help, acquires the position of other intelligent safety helmets again, can confirm the position of other intelligent safety helmets nearer with intelligent safety helmet to confirm the request object of helping the person of asking for help. Finally, after receiving the help request instruction, the request object can go to the operation site to help the worker sending help.

In a second aspect, the present application provides a construction safety early warning method, which adopts the following technical scheme:

the construction safety early warning method is applied to a server and comprises the following steps:

receiving scene monitoring information, wherein the scene monitoring information is used for confirming whether a preset dangerous source exists in a construction scene, and the preset dangerous source is a preset dangerous source which possibly damages workers;

if the preset dangerous source exists in the scene monitoring information, generating a projection picture according to the scene monitoring information, wherein the projection picture comprises construction safety early warning information correspondingly generated according to the preset dangerous source;

and sending the projection picture to the intelligent safety helmet.

Through adopting above-mentioned technical scheme, at the in-process of carrying out the early warning to the construction scene, after the scene monitoring information is obtained to intelligent safety helmet, the server can analyze scene monitoring information to confirm whether there is the danger source around the workman, if there is then the projection picture is generated and the projection picture is sent to intelligent safety helmet, so that the projection picture is shown for intelligent safety helmet, thereby make the workman can confirm the danger source and avoid the danger source through the projection picture, and then help reducing the workman and receive the damage in the construction scene.

Optionally, the construction safety early warning method further comprises the following steps:

receiving help information;

acquiring operation site information of the intelligent safety helmet based on the help seeking information;

acquiring position information of other intelligent safety helmets;

determining at least one other intelligent safety helmet as a request object based on the help information and the operation place information;

and sending a help request instruction to the request object.

Through adopting above-mentioned technical scheme, the server can receive the information of asking for help that intelligent safety helmet sent, then corresponds the position of affirming intelligent safety helmet according to the information of asking for help. And then, acquiring the position information of other intelligent safety helmets, namely finding out the other intelligent safety helmets nearest to the intelligent safety helmets, thereby determining at least one other intelligent safety helmets as a request object. And then sending a help request instruction to a request object, and enabling a corresponding person to go to an operation place after obtaining the help request instruction through the intelligent safety helmet so as to help the person sending help information.

In a third aspect, the present application provides a construction safety early warning system, which adopts the following technical scheme:

a construction safety precaution system comprising:

the safety helmet comprises a server, a safety helmet body, a first processor, a first memory, a camera module, a wireless transmission module and a projection module, wherein the first processor, the first memory, the camera module, the wireless transmission module and the projection module are arranged on the safety helmet body; the first processor is respectively in communication connection with the first memory, the camera module and the projection module, and the wireless transmission module is in communication connection with the server;

the first memory stores a first computer program executable by the first processor to implement the construction safety pre-warning method according to the first aspect.

Through adopting above-mentioned technical scheme, first processor can realize the control to first memory, camera module, wireless transmission module and projection module, and camera module can realize obtaining scene monitoring information in real time, and wireless transmission module can send scene monitoring information to the server, and projection module can show the projection picture at the entity surface to realize carrying out the effect of early warning to the construction scene.

In a fourth aspect, the present application provides a server, which adopts the following technical scheme:

a server, comprising:

the system comprises a second processor, a second memory and a communication bus, wherein the communication bus is used for realizing communication connection between the second processor and the second memory;

the second memory stores a second computer program executable by the second processor to implement the construction safety pre-warning method according to the second aspect.

By adopting the technical scheme, the server capable of executing the construction safety early warning method according to the second aspect is provided.

In a fifth aspect, the present application further provides a computer readable storage medium, which adopts the following technical scheme:

a computer-readable storage medium, wherein the computer-readable storage medium stores any one of a first computer program and a second computer program; the first computer program is executable by a processor to implement the construction safety precaution method as in the first aspect; the second computer program is executable by the processor to implement the construction safety precaution method as in the second aspect.

By adopting the technical scheme, the carrier of the computer program of the construction safety early warning method is provided.

In summary, the present application at least includes the following beneficial technical effects:

1. in the process of early warning of a construction scene, the intelligent safety helmet can show a projection picture on the entity surface, and workers can confirm a dangerous source through the projection picture, so that the dangerous source can be avoided, and further damage of the workers in the construction scene can be reduced;

2. when the external illumination intensity is too high and the projection picture is difficult to be seen clearly, the intelligent safety helmet can early warn a worker by sending out an early warning signal;

3. when the worker is damaged or other conditions requiring help are met, the help of other workers can be sought through the intelligent safety helmet, so that the safety guarantee of the worker can be improved.

Drawings

FIG. 1 is a block flow diagram of a construction safety pre-warning method in an embodiment of the present application;

FIG. 2 is a flow chart of another method for construction safety pre-warning according to an embodiment of the present application;

FIG. 3 is a flow chart of another method for providing a construction safety warning according to an embodiment of the present application;

fig. 4 is a control schematic block diagram of a construction safety early warning system according to an embodiment of the present application.

Reference numerals:

1. a first processor; 2. a first memory; 3. a camera module; 4. a wireless transmission module; 5. a projection module; 6. a temperature detection module; 7. an illumination intensity detection module; 8. a positioning module; 9. a solid particulate matter detection module; 10. a sheet-type pressure detection module; 11. an early warning module; 12. and an information receiving module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to fig. 1 to 4 and the embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

The embodiment of the application discloses a construction safety early warning method.

Referring to fig. 1, a construction safety pre-warning method includes the following steps:

s102: and acquiring scene monitoring information in real time.

When a worker enters a construction site, the worker needs to wear the intelligent safety helmet and enable the intelligent safety helmet to start working. The first processor 1 on the intelligent safety helmet can control the camera shooting module 3 to start shooting, so that scene monitoring information is obtained, the scene monitoring information comprises scene image conditions around workers, the scene monitoring information is used for confirming whether preset dangerous sources exist in a construction scene or not, the preset dangerous sources are preset dangerous sources, and the dangerous sources possibly damage the workers.

In alternative embodiments of the present application, the hazard source may be a floor pit, floor foreign matter, wall protruding sharps, flammable and explosive items, and the like. The camera module 3 can be a spherical camera, and the spherical camera can perform self-rotation, so that the scene monitoring range can be effectively improved.

S104: and sending the scene monitoring information to a server.

The first processor 1 can control the wireless transmission module 4 to directly send the scene monitoring information to the server, and then the server can receive the scene monitoring information.

It should be appreciated that, when the scene monitoring information is acquired, the first processor 1 can also control the first memory 2 to store the scene monitoring information in the first memory 2, so as to facilitate the tracing and searching at a later stage.

S106: and receiving a projection picture generated by the server according to the scene monitoring information.

After the server receives the scene monitoring information, the scene monitoring information can be identified through the computer network identification technology, and in the embodiment of the application, the scene monitoring information is realized based on OpenCV, and since the dynamic identification based on OpenCV is relatively mature and is of the prior art, the detailed description is omitted in the application document.

After the scene monitoring information is identified, if a preset dangerous source exists in the scene monitoring information, the server generates a projection picture containing construction safety early warning information according to the preset dangerous source, and then the server sends the projection picture to the first memory 2 of the intelligent safety helmet through the wireless transmission module 4.

In an alternative embodiment, after the server recognizes the scene monitoring information, it finds that a nail exists in the screen, and then the server can generate a projected screen of the nail two.

S108: the projected picture is shown on a solid surface.

The projection module 5 directly projects the projection picture on the physical surface to remind workers, so that the workers are reduced from being damaged in the construction scene.

In alternative embodiments, the solid surface may be the ground, a wall, or the surface of another object.

In an alternative embodiment of the present application, referring to fig. 2, a construction safety pre-warning method further includes the following steps:

s202: scene illumination intensity information, scene temperature information, air solid granularity information, worker operation site information and helmet wearing condition information are obtained in real time.

In the working process of the intelligent safety helmet, the illumination intensity detection module 7 can acquire the external illumination intensity, so that scene illumination intensity information is acquired, and the scene illumination intensity information is sent to the server through the wireless transmission module 4. The temperature detection module 6 can acquire the external temperature, so as to acquire scene temperature information, and send the scene temperature information to the server through the wireless transmission module 4. The solid particulate matter detection module 9 can detect solid particulate matters in the air, so that air solid particulate degree information is obtained, and the air solid particulate degree information is sent to the server through the wireless transmission module 4. The positioning module 8 is capable of positioning so as to acquire the worker operation site information, and transmits the worker operation site information to the server through the wireless transmission module 4. The sheet type pressure detection module 10 can perform detection of the helmet wearing condition of the worker, thereby detecting and acquiring helmet wearing condition information of the worker, and transmitting the helmet wearing condition information to the server through the wireless transmission module 4.

It should be understood that after the illumination intensity information, the scene temperature information, the air solid particle size information, the worker's operation site information, and the helmet wearing condition information are acquired, the first processor 1 can store the illumination intensity information, the scene temperature information, the air solid particle size information, the worker's operation site information, and the helmet wearing condition information in the first memory 2.

S204: and sending out corresponding early warning signals according to various information.

Specifically, the corresponding early warning information is sent out according to various types of information and divided into five parts.

Firstly, after the server acquires the scene illumination intensity information, the server can judge whether the corresponding illumination intensity in the scene illumination intensity information exceeds a maximum brightness threshold value, wherein the maximum brightness threshold value is the maximum value of brightness which can be projected by a projection picture. When a dangerous source exists in the scene monitoring information and the illumination intensity exceeds the maximum brightness threshold value, the server can send first early warning control information to the wireless transmission module 4 of the intelligent safety helmet, and the first processor 1 can control the early warning module 11 to send a dangerous source early warning signal according to the first early warning control information, so that the dangerous source reminding is carried out on workers, and the workers are reduced from being damaged in a construction scene.

And secondly, after the server acquires the scene temperature information, the server can judge whether the corresponding temperature in the scene temperature information is higher than a first set threshold value or lower than a second set threshold value. Wherein the first set threshold and the second set threshold may be preset, in an alternative embodiment, the first set threshold may be set to 35 ° and the second set threshold may be set to 0 °. And when the corresponding stability in the scene temperature information is higher than the first set threshold value or lower than the second set threshold value, timing is performed. When the timing time exceeds the preset time (the specific time can be set by oneself), the server can send second early warning control information to the wireless transmission module 4 of the intelligent safety helmet, and the first processor 1 can control the early warning module 11 to send a temperature early warning signal according to the second early warning control information, so that the temperature reminding of workers is realized, and the damage of the workers in a construction scene is reduced.

Thirdly, after the server acquires the air solid granularity information, the server can judge whether the corresponding granularity in the air solid granularity information is higher than a concentration threshold value, and the concentration threshold value can be set by itself. If the concentration threshold value is higher than the concentration threshold value, the server can send out third early warning control information to the wireless transmission module 4 of the intelligent safety helmet, and the first processor 1 can control the early warning module 11 to send out air solid granularity early warning signals according to the third early warning control information, so that air solid granularity reminding is carried out on workers, and damage to the workers in a construction scene is reduced.

Fourth, after the server obtains the information of the operation place of the worker, the server can judge whether the intelligent safety helmet is in the authorized area, namely whether the worker is in the authorized area. The authorized area is set by adopting a GIS technology, wherein the GIS technology is a space measurement technology, and is the prior art, and the description is omitted here. If the corresponding coordinates (namely the position of the intelligent safety helmet, namely the position of the worker) in the worker operation site information are not in the authorized area, the server can send fourth early warning control information to the wireless transmission module 4 of the intelligent safety helmet, and the first processor 1 can control the early warning module 11 to send out an offside early warning signal according to the fourth early warning control information, so that the worker is reminded of the safe position, and damage to the worker in a construction scene is reduced.

Fifthly, after the server obtains the information of the wearing condition of the safety helmet of the worker, the server can judge whether the intelligent safety helmet is worn by the worker or not through the pressure signal of the sheet type pressure detection module 10. If the helmet wearing state information indicates that the intelligent helmet is in an unworn state, the server can send a fifth early warning signal to the wireless transmission module 4 of the intelligent helmet, and the first processor 1 can control the early warning module 11 to send out the helmet wearing early warning signal according to the fifth early warning control information, so that the helmet wearing of workers is reminded, and the workers are reduced from being damaged in a construction scene.

In an alternative embodiment of the present application, referring to fig. 3, a construction safety pre-warning method further includes the following steps:

s302: and receiving help information through an information receiving module.

When a worker wearing the intelligent safety helmet needs to ask for help, the worker can send help information to the intelligent safety helmet through the information receiving module 12. Specifically, the information receiving module 12 may be an electronic button, and the first processor 1 may receive the help information after the worker presses the electronic button.

S304: the server determines at least one other smart helmet as the request object.

After the first processor 1 acquires the help information, the wireless transmission module 4 is controlled to send the help information to a server, and the server can acquire the help information. And then the server can send a position information acquisition instruction to the intelligent safety helmet according to the help information, so that the operation point information of the intelligent safety helmet is acquired through the positioning module 8. The server then directly acquires the position information positioned by the other positioning modules 8 on the other intelligent safety helmets, so that the situation that the other intelligent safety helmets are close to the intelligent safety helmets sending help information can be determined, namely workers at the adjacent positions of the workers are determined, and then at least one other intelligent safety helmet serving as a request object can be determined based on the position information and the operation point information, namely at least one worker helping the workers sending help is determined.

S306: the request object receives a help request instruction sent by the server.

The server sends a help request instruction to the request object, and the corresponding request object can acquire the help request instruction, so that workers know that other workers need to help, mutual help among the workers is realized, and the damage of the workers in a construction scene can be reduced.

Based on the same design concept, the embodiment also discloses a system.

Referring to fig. 4, a system includes a server, a helmet body, a first processor 1, a first memory 2 communicatively connected to the first processor 1, a camera module 3, a wireless transmission module 4, a projection module 5, a temperature detection module 6, an illumination intensity detection module 7, a positioning module 8, a solid particulate matter detection module 9, a sheet type pressure detection module 10, an early warning module 11, and an information receiving module 12. And the wireless transmission module 4 is in wireless communication connection with the server.

The safety helmet comprises a first processor 1, a first memory 2, a camera shooting module 3, a wireless transmission module 4, a projection module 5, a temperature detection module 6, an illumination intensity detection module 7, a positioning module 8, a solid particulate matter detection module 9, an early warning module 11 and an information receiving module 12, which are fixedly connected to the safety helmet body, and a sheet type pressure detection module 10 is embedded in a binding belt of the safety helmet body. And the intelligent safety helmet is also provided with a photovoltaic power module, and the photovoltaic power module is respectively and electrically connected with each module so as to realize power supply to each module.

The first memory 2 stores a first computer program, which is executable by the first processor 1 to implement the steps executed by the intelligent safety helmet in the construction safety pre-warning method.

The various changes and specific examples in the method provided in the above embodiment are also applicable to the intelligent safety helmet of the present embodiment, and by the foregoing detailed description of the construction safety pre-warning method, those skilled in the art can clearly know the implementation method of the intelligent safety helmet of the present embodiment, which is not described in detail herein for brevity of description.

In order to better execute the program of the method, the embodiment of the application also provides a server, which comprises a second processor, a second memory and a communication bus, wherein the communication bus is used for realizing communication connection between the second processor and the second memory.

The second memory stores a second computer program executable by the second processor to implement the steps executed by the server in the construction safety precaution method.

Wherein the memory may be used to store instructions, programs, code, sets of codes, or sets of instructions. The memory may include a stored program area and a stored data area, wherein the stored program area may store instructions for implementing an operating system, instructions for at least one function, instructions for implementing the construction safety precaution method provided by the above embodiments, and the like; the data storage area may store data and the like involved in the construction safety early warning method provided in the above embodiment.

The processor may include one or more processing cores. The processor performs the various functions of the present application and processes the data by executing or executing instructions, programs, code sets, or instruction sets stored in memory, calling data stored in memory. The processor may be at least one of an application specific integrated circuit (Application Specific Integrated Circuit, ASIC), a digital signal processor (Digital Signal Processor, DSP), a digital signal processing device (Digital Signal Processing Device, DSPD), a programmable logic device (Programmable Logic Device, PLD), a field programmable gate array (Field Programmable Gate Array, FPGA), a central processing unit (Central Processing Unit, CPU), a controller, a microcontroller, and a microprocessor. It will be appreciated that the electronic device for implementing the above-mentioned processor function may be other for different apparatuses, and embodiments of the present application are not specifically limited.

Embodiments of the present application provide a computer-readable storage medium, for example, comprising: a U-disk, a removable hard disk, a Read Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a magnetic disk, or an optical disk, or other various media capable of storing program codes. The computer-readable storage medium stores any one of a first computer program and a second computer program that can be loaded by a processor and execute the construction safety warning method of the above embodiment. The first computer program can be executed by the processor to implement the steps executed by the intelligent safety helmet in the construction safety pre-warning method. The second computer program may be executed by a processor to implement the steps performed by the server in the construction safety precaution method as described above.

The foregoing embodiments are only used for describing the technical solution of the present application in detail, but the descriptions of the foregoing embodiments are only used for helping to understand the method and the core idea of the present application, and should not be construed as limiting the present application. Variations or alternatives that are readily contemplated by those skilled in the art within the scope of the present disclosure are intended to be encompassed within the scope of the present disclosure.

Claims (10)

1. The construction safety early warning method is characterized by being applied to an intelligent safety helmet, and comprises the following steps:

acquiring scene monitoring information in real time, wherein the scene monitoring information is used for confirming whether a preset dangerous source exists in a construction scene, and the preset dangerous source is a preset dangerous source which possibly damages workers;

the scene monitoring information is sent to a server;

if the preset dangerous source exists in the scene monitoring information, receiving a projection picture generated by the server according to the scene monitoring information, wherein the projection picture comprises construction safety early warning information correspondingly generated according to the preset dangerous source;

the projected picture is shown on a physical surface.

2. The construction safety pre-warning method according to claim 1, further comprising:

acquiring scene illumination intensity information in real time;

transmitting the scene illumination intensity information to the server;

if the scene illumination intensity information exceeds the maximum brightness threshold value which can be projected by the projection picture, the projection picture is not received any more, and first early warning control information is received;

based on the first early warning control information, sending out a dangerous source early warning signal;

further comprises:

acquiring scene temperature information in real time;

transmitting the scene temperature information to the server;

when the scene temperature information is higher than a first set threshold value or lower than a second set threshold value, receiving second early warning control information generated by the server according to the scene temperature information;

based on the second early warning control information, sending out a temperature early warning signal;

further comprises:

acquiring air solid granularity information in real time;

sending the air solid granularity information to the server;

when the air solid granularity information is higher than a concentration threshold value, third early warning control information which is returned by the server according to the air solid granularity information is received;

and sending out an air solid granularity early warning signal based on the third early warning control information.

3. The construction safety pre-warning method according to claim 1, further comprising:

acquiring worker operation site information in real time;

transmitting the worker operation site information to the server;

if the corresponding coordinates in the worker operation site information are not in an authorized area, receiving fourth early warning control information returned by the server according to the worker operation site information, wherein the authorized area is a construction area determined for each worker responsibility;

and sending out an offside early warning signal based on the fourth early warning control information.

4. The construction safety pre-warning method according to claim 1, further comprising:

detecting the wearing condition information of the safety helmet of a worker in real time;

transmitting the helmet wearing condition information to the server;

if the intelligent safety helmet corresponding to the safety helmet wearing condition information is in an unworn state, fifth early warning control information returned by the server according to the safety helmet wearing condition information is received;

and sending out a safety helmet wearing early warning signal based on the fifth early warning control information.

5. The construction safety pre-warning method according to any one of claims 1 to 4, further comprising:

receiving help information through an information receiving module;

the help seeking information is sent to the server, so that the server can acquire operation location information of the intelligent safety helmet and position information of other intelligent safety helmets, and at least one other intelligent safety helmet is determined to serve as a request object based on the position information and the operation location information;

the request object receives a help request instruction sent by the server.

6. The construction safety early warning method is characterized by being applied to a server, and comprises the following steps:

receiving scene monitoring information, wherein the scene monitoring information is used for confirming whether a preset dangerous source exists in a construction scene, and the preset dangerous source is a preset dangerous source which possibly damages workers;

if the preset dangerous source exists in the scene monitoring information, generating a projection picture according to the scene monitoring information, wherein the projection picture comprises construction safety early warning information correspondingly generated according to the preset dangerous source;

and sending the projection picture to the intelligent safety helmet.

7. The construction safety pre-warning method according to claim 6, further comprising:

receiving help information;

acquiring operation site information of the intelligent safety helmet based on the help seeking information;

acquiring position information of other intelligent safety helmets;

determining at least one other intelligent safety helmet as a request object based on the help information and the operation place information;

and sending a help request instruction to the request object.

8. A construction safety precaution system, comprising:

the safety helmet comprises a server, a safety helmet body, a first processor (1), a first memory (2), a camera module (3), a wireless transmission module (4) and a projection module (5), wherein the first processor is arranged on the safety helmet body; the first processor (1) is respectively in communication connection with the first memory (2), the camera shooting module (3) and the projection module (5), and the wireless transmission module (4) is in communication connection with the server;

the first memory (2) stores a first computer program, and the first computer program is executable by the first processor (1) to implement a construction safety pre-warning method according to any one of claims 1 to 5.

9. A server, comprising:

the system comprises a second processor, a second memory and a communication bus, wherein the communication bus is used for realizing communication connection between the second processor and the second memory;

the second memory stores a second computer program executable by the second processor to implement the construction safety warning method according to any one of claims 6 to 7.

10. A computer-readable storage medium, wherein the computer-readable storage medium stores any one of a first computer program and a second computer program; the first computer program being executable by a processor to implement the construction safety pre-warning method of any one of claims 1 to 5; the second computer program is executable by a processor to implement the construction safety pre-warning method according to any one of claims 6 to 7.