CN110930646A - Safety monitoring method, equipment and system - Google Patents

Abstract

The invention provides a safety monitoring method, equipment and a system, wherein image information sent by acquisition equipment is obtained, the image information comprises face image information and chip image information, the face image information is compared with all pre-stored face image information, and whether the chip image information is consistent with the pre-stored chip image information or not is compared, if so, a monitoring request is sent to radar equipment, whether a person or an obstacle exists in a preset safety range or not is monitored through the radar equipment, and if the person or the obstacle is not monitored, an area of the preset safety range is determined to be a safety range. The method comprises the steps of automatically acquiring face image information and chip image information through acquisition equipment, comparing the face image information with the chip image information, and finally determining a safe region through radar equipment, so that the problems that the identity of a student is verified and whether the student wears the safe equipment or not in a manual mode, and whether people or obstacles exist around heavy machinery or not are checked, and the human resources are wasted are solved.

Description

Safety monitoring method, equipment and system

Technical Field

The invention belongs to the technical field of automatic information, and particularly relates to a safety monitoring method, equipment and a system.

Background

Currently, in a scenario of training a trainee to operate a heavy machine, the trainee needs to verify the identity of the trainee and check whether the trainee wears safety equipment and whether there are people or obstacles around the heavy machine by a safety inspector before operating the heavy machine to determine an area around the heavy machine as a safety area. Through the series of safety measures, effective guarantee is provided for the safety of the students.

However, the identity of the trainee is verified and checked whether the trainee wears safety equipment or not in a manual mode, and whether people or obstacles exist around the heavy machinery or not is checked, so that the problem of waste of human resources is brought.

Disclosure of Invention

In view of this, the present invention is to provide a safety monitoring method, device and system, which are used to solve the problem of human resource waste caused by verifying the identity of a trainee in a manual manner, checking whether the trainee wears safety equipment, and checking whether there are people or obstacles around a heavy machine.

In order to achieve the above purpose, the embodiments of the present invention provide the following technical solutions:

a first aspect of an embodiment of the present invention provides a safety monitoring method, where the method includes:

acquiring image information sent by acquisition equipment, wherein the image information comprises face image information and chip image information corresponding to safety equipment;

comparing the facial image information with all pre-stored facial image information, and comparing whether the chip image information is consistent with the pre-stored chip image information;

if the safety ranges are consistent, sending a monitoring request to radar equipment, and monitoring whether people or obstacles exist in a preset safety range through the radar equipment;

and if no person or obstacle is monitored, determining the area of the preset safety range as a safety area.

Preferably, the method further comprises:

and if the face image information is not consistent with any of the pre-stored face image information and the chip image information, performing alarm processing through alarm equipment.

Preferably, the method further comprises:

and if the monitoring shows that people or obstacles exist, alarming by the alarm equipment.

Preferably, after determining that the area of the preset safety range is a safety area, the method further includes:

starting mechanical equipment;

if the mechanical equipment runs, controlling the radar equipment to monitor whether people or obstacles exist in the preset safety range in real time;

and if the people or the obstacles are monitored, controlling the mechanical equipment to stop running.

A second aspect of an embodiment of the present invention provides a safety monitoring device, where the safety monitoring device includes:

the receiving module is used for obtaining image information sent by the acquisition equipment, wherein the image information comprises face image information and chip image information corresponding to the safety equipment;

the first processing module is used for comparing the facial image information with all pre-stored facial image information and comparing whether the chip image information is consistent with the pre-stored chip image information or not;

the sending module is used for sending a monitoring request to the radar equipment if the facial image information is compared with all pre-stored facial image information and the chip image information is compared to be consistent with the pre-stored chip image information, and monitoring whether a person or an obstacle exists in a preset safety range through the radar equipment; and if no person or obstacle is monitored, determining the area of the preset safety range as a safety area.

Preferably, the apparatus further comprises:

and the second processing module is used for performing alarm processing through an alarm device if the face image information is not consistent with any of the pre-stored face image information and the chip image information.

Preferably, the apparatus further comprises:

and the third processing module is used for performing alarm processing through the alarm equipment if people or obstacles are monitored.

Preferably, the apparatus further comprises:

the starting module is used for starting mechanical equipment;

the first control module is used for controlling the radar equipment to monitor whether a person or an obstacle exists in the preset safety range in real time if the mechanical equipment runs;

and the second control module is used for controlling the mechanical equipment to stop running if people or obstacles are monitored.

A third aspect of an embodiment of the present invention provides a safety monitoring system, where the system includes:

acquisition equipment, control equipment, radar equipment and alarm equipment according to any one of claims 5 to 8;

the acquisition equipment is used for acquiring image information, and the image information comprises face image information and chip image information corresponding to the safety equipment;

the control equipment is used for acquiring the image information sent by the acquisition equipment; comparing the facial image information with all pre-stored facial image information, and comparing whether the chip image information is consistent with the pre-stored chip image information; if the facial image information is compared with all pre-stored facial image information, and the chip image information is compared to be consistent with the pre-stored chip image information, sending a monitoring request to radar equipment, and monitoring whether a person or an obstacle exists in a preset safety range through the radar equipment; if no person or obstacle is monitored, determining the area of the preset safety range as a safety area; starting mechanical equipment; if the mechanical equipment runs, controlling the radar equipment to monitor whether people or obstacles exist in the preset safety range in real time; if people or obstacles are monitored, controlling the mechanical equipment to stop running and starting the alarm equipment; if the face image information is not consistent with any of the pre-stored face image information and the chip image information, starting an alarm device;

the radar equipment is used for monitoring whether a person or an obstacle exists in a preset safety range;

the alarm device is used for executing alarm.

Preferably, the collecting device comprises: camera, sensor.

Compared with the prior art, the technical scheme provided by the invention has the following advantages:

the method comprises the steps of obtaining image information sent by acquisition equipment, comparing the face image information with all pre-stored face image information, comparing whether the chip image information is consistent with the pre-stored chip image information or not, sending a monitoring request to radar equipment if the face image information is consistent with all pre-stored face image information, monitoring whether a person or an obstacle exists in a preset safety range through the radar equipment, and determining that an area in the preset safety range is a safety range if the person or the obstacle is not monitored. The method comprises the steps of automatically acquiring face image information and chip image information through acquisition equipment, comparing the face image information and the chip image information through control equipment, and finally determining a safe region through radar equipment, so that the problems that the identity of a student is verified and whether the student wears the safe equipment or not in a manual mode, and whether people or obstacles exist around heavy machinery or not are checked, and human resources are wasted are solved.

Drawings

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

Fig. 1 is a flowchart of a safety monitoring method according to an embodiment of the present invention;

FIG. 2 is a flow chart of another safety monitoring method provided by an embodiment of the invention;

fig. 3 is a schematic structural diagram of a safety monitoring device according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a safety monitoring system according to an embodiment of the present invention.

Detailed Description

The invention provides a safety monitoring method, equipment and a system, which are used for solving the problem of human resource waste caused by the fact that the identity of a student is verified in a manual mode, whether the student wears safety equipment or not is checked, and whether people or barriers exist around heavy machinery or not is checked.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As is apparent from the background art, in the related art, in a scenario in which a trainee is trained to operate a heavy machine, the trainee needs to verify the identity of the trainee and check whether the trainee wears safety equipment and check whether there are any persons or obstacles around the heavy machine before operating the heavy machine by a safety checker to determine that an area around the heavy machine is a safety area, but each time the check is performed by such an artificial manner, there is a problem of wasting human resources.

Therefore, the invention provides a safety monitoring method, equipment and a system, which are used for solving the problem of human resource waste caused by the fact that the identity of a student is verified in a manual mode, whether the student wears safety equipment or not is checked, and whether people or barriers exist around heavy machinery or not is checked.

As shown in fig. 1, a flowchart of a safety monitoring method according to an embodiment of the present invention is provided, where the method includes the following steps:

and S101, obtaining image information sent by the acquisition equipment.

In S101, the image information includes face image information and chip image information corresponding to the security device.

In the process of implementing S101 specifically, the acquisition device acquires face image information in a specific area range, acquires chip image information in the area range, and then sends the face image information and the chip image information acquired in real time to the control device through the acquisition device.

For example, in an application scenario for training a trainee to operate heavy machinery, after the trainee enters a cab of the heavy machinery, in an area range of the cab, the trainee acquires face image information of the trainee in real time through a camera, acquires image information corresponding to chips on a safety suit and a safety helmet worn by the trainee, and then transmits the acquired face image information and the image information corresponding to the chips on the safety suit and the safety helmet to control equipment through acquisition equipment.

It should be noted that the acquired chip image information includes, but is not limited to, chip image information corresponding to a safety suit and a safety helmet.

And S102, comparing the face image information with all pre-stored face image information, and comparing whether the chip image information is consistent with the pre-stored chip image information, if so, executing S103, otherwise, executing S104.

In the process of implementing S102 specifically, the obtained face image information and chip image information are compared with all face image information and chip image information stored in the database in advance, and if the acquired face image information and chip image information are consistent with the face image information and chip image information stored in the database in advance, S103 is executed.

For example, after a student operating the heavy machinery collects face image information of the student and chip image information corresponding to the safety suit and the safety helmet by the camera, the face image information and the chip image information collected by the camera are compared by the database, if the comparison results are consistent, the identity verification of the student is successful, the student is a student operating the heavy machinery to be operated, and the student wears the safety suit and the safety helmet.

And S103, sending a monitoring request to the radar equipment, monitoring whether a person or an obstacle exists in a preset safety range through the radar equipment, if so, executing S104, and if not, executing S105.

In the specific implementation process of S103, if the face image information and the chip image information acquired by the acquisition device are compared to be consistent, a monitoring request is sent to the radar device, and after receiving the monitoring request, the radar device monitors whether a person or an obstacle is in a preset range in real time. Wherein, a preset range refers to an area range which can be monitored by the radar equipment and is set manually. Such as: by taking the radar equipment as a center, the radar equipment can monitor an area range within 5 meters, and the area range within 5 meters is a preset range.

It should be noted that the monitoring request includes, but is not limited to, a distance determination signal, and the radar apparatus is triggered to operate by the distance determination signal.

It should be noted that the radar devices may be installed at four corners of the heavy machinery, and as long as at least one radar device monitors that there is a person or an obstacle within the preset safety range, it is determined that there is a person or an obstacle within the preset safety range, and then S104 is performed.

And S104, performing alarm processing through alarm equipment.

In the process of implementing S104 specifically, when the facial image information is compared with all the pre-stored facial image information, and when any one of the chip image information and the pre-stored chip image information is compared to be inconsistent, an alarm signal is sent to the alarm device, and alarm processing is performed by the alarm device.

Similarly, when monitoring that people or obstacles exist in a preset safety range through the radar equipment, the alarm equipment also sends an alarm signal to the alarm equipment, and alarm processing is carried out through the alarm equipment.

The alarm device performs the alarm processing in a manner including, but not limited to, whistling and lighting.

And S105, determining the area of the preset safety range as a safety area.

In the process of implementing S105 specifically, if it is monitored by the radar device that there is no person or obstacle within the preset safety range, it is determined that the area of the preset safety range is a safety area.

For example, a circle with a radius of 3 meters and a radar device as a center is a preset safety range. Within the circle, if the radar device detects that there is no person or obstacle, the area within the circle is determined to be a safe area.

Whether the area of presetting safe range is safe region through radar equipment monitoring, solved the manual work and gone to inspect whether someone or barrier around the heavy machinery, the extravagant problem of manpower resources that brings.

According to the safety monitoring method disclosed by the embodiment of the invention, the image information sent by the acquisition equipment is obtained, the image information comprises the face image information and the chip image information corresponding to the safety equipment, the face image information is compared with all the pre-stored face image information, and whether the chip image information is consistent with the pre-stored chip image information is compared, if so, a monitoring request is sent to the radar equipment, whether a person or an obstacle exists in a preset safety range is monitored through the radar equipment, and if the person or the obstacle does not exist in the preset safety range, the area of the preset safety range is determined to be a safety area. The method comprises the steps of automatically acquiring face image information and chip image information through acquisition equipment, comparing the face image information and the chip image information through control equipment, and finally determining a safe region through radar equipment, so that the problems that the identity of a student is verified and whether the student wears the safe equipment or not in a manual mode, and whether people or obstacles exist around heavy machinery or not are checked, and human resources are wasted are solved.

As shown in fig. 2, a flow chart of another safety monitoring method provided in the embodiment of the present invention includes the following steps:

s201, obtaining image information sent by the acquisition equipment.

S202, comparing the face image information with all pre-stored face image information, and comparing whether the chip image information is consistent with the pre-stored chip image information, if so, executing S203, otherwise, executing S204.

And S203, sending a monitoring request to the radar equipment, monitoring whether a person or an obstacle exists in a preset safety range through the radar equipment, if so, executing S204, and if not, executing S205.

And S204, performing alarm processing through alarm equipment.

And S205, determining the area of the preset safety range as a safety area.

The execution principle of S201 to S205 is the same as that of S101 to S105, and the description thereof is omitted.

And S206, starting mechanical equipment.

In the process of implementing S206 specifically, if it is determined that the area of the preset safety range is a safety area, the mechanical device is started.

It should be noted that, when there are a plurality of radar devices monitoring an area within the preset safety range, at least one radar device monitors a person or an obstacle within the preset safety range, and the mechanical device cannot be started.

And S207, in the operation process of the mechanical equipment, controlling the radar equipment to monitor whether a person or an obstacle exists in the preset safety range in real time, if so, executing S208, and if not, continuously monitoring whether the person or the obstacle exists in the preset safety range in real time by the radar equipment.

In the specific implementation process of S207, in the operating state of the mechanical device, the radar device is controlled to monitor whether there is a person or an obstacle in the preset safety range in real time, if there is a person or an obstacle, S208 is executed, and if there is no person or an obstacle, the radar device is controlled to continue to monitor whether there is a person or an obstacle in the preset safety range in real time.

And S208, controlling the mechanical equipment to stop running.

In the specific implementation process of S208, if the radar device monitors that there is a person or an obstacle in the area within the preset safety range during the operation of the mechanical device, the radar device controls the mechanical device to stop operating. The problem of accidents occurring in the area of the preset safety range is avoided.

According to the safety monitoring method disclosed by the embodiment of the invention, the image information sent by the acquisition equipment is obtained, the image information comprises the face image information and the chip image information corresponding to the safety equipment, the face image information is compared with all the pre-stored face image information, and whether the chip image information is consistent with the pre-stored chip image information is compared, if so, a monitoring request is sent to the radar equipment, whether a person or an obstacle exists in a preset safety range is monitored through the radar equipment, and if the person or the obstacle does not exist in the preset safety range, the area of the preset safety range is determined to be a safety area. The method comprises the steps of automatically acquiring face image information and chip image information through acquisition equipment, comparing the face image information and the chip image information through control equipment, and finally determining a safe region through radar equipment, so that the problems that the identity of a student is verified and whether the student wears the safe equipment or not in a manual mode, and whether people or obstacles exist around heavy machinery or not are checked, and human resources are wasted are solved.

Based on the safety monitoring method disclosed in the embodiment of the present invention, the embodiment of the present invention further discloses a safety monitoring device correspondingly, as shown in fig. 3, which is a schematic structural diagram of a safety monitoring device provided in the embodiment of the present invention, and the method mainly includes: a receiving module 301, a first processing module 302 and a transmitting module 303.

The receiving module 301 is configured to obtain image information sent by the acquisition device, where the image information includes face image information and chip image information corresponding to the security device.

The first processing module 302 is configured to compare the facial image information with all pre-stored facial image information, and compare whether the chip image information is consistent with the pre-stored chip image information.

The sending module 303 is configured to send a monitoring request to the radar device if the face image information is compared with all pre-stored face image information, and the comparison chip image information is consistent with the pre-stored chip image information, and monitor whether a person or an obstacle exists within a preset safety range through the radar device; and if the people or the obstacles are not monitored, determining the area within the preset safety range as a safety area.

According to the safety monitoring device disclosed by the embodiment of the invention, the image information sent by the acquisition device is obtained, the image information comprises the face image information and the chip image information corresponding to the safety device, the face image information is compared with all pre-stored face image information, and whether the chip image information is consistent with the pre-stored chip image information is compared, if so, a monitoring request is sent to the radar device, whether a person or an obstacle exists in a preset safety range is monitored through the radar device, and if the person or the obstacle does not exist in the preset safety range, the area of the preset safety range is determined to be a safety region. The method comprises the steps of automatically acquiring face image information and chip image information through acquisition equipment, comparing the face image information and the chip image information through control equipment, and finally determining a safe region through radar equipment, so that the problems that the identity of a student is verified and whether the student wears the safe equipment or not in a manual mode, and whether people or obstacles exist around heavy machinery or not are checked, and human resources are wasted are solved.

Based on the safety monitoring device disclosed by the embodiment of the invention, the safety monitoring device further comprises: and a second processing module.

And the second processing module is used for performing alarm processing through the alarm device if the face image information is inconsistent with any one of the pre-stored face image information and the pre-stored chip image information.

Based on the safety monitoring device disclosed by the embodiment of the invention, the safety monitoring device further comprises: and a third processing module.

And the third processing module is used for carrying out alarm processing through alarm equipment if people or obstacles are monitored.

Based on the safety monitoring device disclosed by the embodiment of the invention, the safety monitoring device further comprises: the device comprises a starting module, a first control module and a second control module.

And the starting module is used for starting the mechanical equipment.

And the first control module is used for controlling the radar equipment to monitor whether people or obstacles exist in a preset safety range in real time if the mechanical equipment runs.

And the second control module is used for controlling the mechanical equipment to stop running if people or obstacles are monitored.

According to the safety monitoring device disclosed by the embodiment of the invention, the image information sent by the acquisition device is obtained, the image information comprises the face image information and the chip image information corresponding to the safety device, the face image information is compared with all pre-stored face image information, and whether the chip image information is consistent with the pre-stored chip image information is compared, if so, a monitoring request is sent to the radar device, whether a person or an obstacle exists in a preset safety range is monitored through the radar device, and if the person or the obstacle does not exist in the preset safety range, the area of the preset safety range is determined to be a safety region. The method comprises the steps of automatically acquiring face image information and chip image information through acquisition equipment, comparing the face image information and the chip image information through control equipment, and finally determining a safe region through radar equipment, so that the problems that the identity of a student is verified and whether the student wears the safe equipment or not in a manual mode, and whether people or obstacles exist around heavy machinery or not are checked, and human resources are wasted are solved.

Optionally, an embodiment of the present invention further provides a safety monitoring system, as shown in fig. 4, which is a schematic structural diagram of the safety monitoring system provided in the embodiment of the present invention, and the safety monitoring system includes: acquisition device 401, control device 402, radar device 403, and alarm device 404.

The acquisition device 401 is configured to acquire image information, where the image information includes face image information and chip image information corresponding to the security device.

The control device 402 is used for obtaining the image information sent by the acquisition device 401; comparing the face image information with all pre-stored face image information, and comparing whether the chip image information is consistent with the pre-stored chip image information; if the face image information is compared with all pre-stored face image information, and the comparison chip image information is consistent with the pre-stored chip image information, sending a monitoring request to the radar device 403, and monitoring whether a person or an obstacle exists in a preset safety range through the radar device 403; if no person or obstacle is monitored, determining an area in a preset safety range as a safety area; starting mechanical equipment; if the mechanical equipment is in the operation process, controlling the radar equipment 403 to monitor whether a person or an obstacle exists in a preset safety range in real time; if a person or an obstacle is monitored, controlling the mechanical equipment to stop running, and starting alarm equipment 404; if the face image information is not consistent with any of the pre-stored face image information and the chip image information, the alarm device 404 is activated.

And a radar device 403 for monitoring whether a preset safety range is occupied or not.

An alarm device 404 for performing an alarm.

It should be noted that the acquisition device 401 includes, but is not limited to, a camera and a sensor.

According to the safety monitoring system disclosed by the embodiment of the invention, the image information sent by the acquisition equipment is obtained, the image information comprises the face image information and the chip image information corresponding to the safety equipment, the face image information is compared with all the pre-stored face image information, and whether the chip image information is consistent with the pre-stored chip image information is compared, if so, a monitoring request is sent to the radar equipment, whether a person or an obstacle exists in a preset safety range is monitored through the radar equipment, and if the person or the obstacle does not exist in the preset safety range, the area of the preset safety range is determined to be a safety area. The method comprises the steps of automatically acquiring face image information and chip image information through acquisition equipment, comparing the face image information and the chip image information through control equipment, and finally determining a safe region through radar equipment, so that the problems that the identity of a student is verified and whether the student wears the safe equipment or not in a manual mode, and whether people or obstacles exist around heavy machinery or not are checked, and human resources are wasted are solved.

It should be noted that, in the present specification, the embodiments are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other. For the device-like embodiment, since it is basically similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A security monitoring method, the method comprising:

acquiring image information sent by acquisition equipment, wherein the image information comprises face image information and chip image information corresponding to safety equipment;

comparing the facial image information with all pre-stored facial image information, and comparing whether the chip image information is consistent with the pre-stored chip image information;

if the safety ranges are consistent, sending a monitoring request to radar equipment, and monitoring whether people or obstacles exist in a preset safety range through the radar equipment;

and if no person or obstacle is monitored, determining the area of the preset safety range as a safety area.

2. The method of claim 1, further comprising:

and if the face image information is not consistent with any of the pre-stored face image information and the chip image information, performing alarm processing through alarm equipment.

3. The method of claim 1, further comprising:

and if the monitoring shows that people or obstacles exist, alarming by the alarm equipment.

4. The method according to claim 1, wherein after determining that the area of the preset safety range is a safety area, the method further comprises:

starting mechanical equipment;

if the mechanical equipment runs, controlling the radar equipment to monitor whether people or obstacles exist in the preset safety range in real time;

and if the people or the obstacles are monitored, controlling the mechanical equipment to stop running.

5. A safety monitoring device, characterized in that the device comprises:

the receiving module is used for obtaining image information sent by the acquisition equipment, wherein the image information comprises face image information and chip image information corresponding to the safety equipment;

the first processing module is used for comparing the facial image information with all pre-stored facial image information and comparing whether the chip image information is consistent with the pre-stored chip image information or not;

the sending module is used for sending a monitoring request to the radar equipment if the facial image information is compared with all pre-stored facial image information and the chip image information is compared to be consistent with the pre-stored chip image information, and monitoring whether a person or an obstacle exists in a preset safety range through the radar equipment; and if no person or obstacle is monitored, determining the area of the preset safety range as a safety area.

6. The apparatus of claim 5, further comprising:

and the second processing module is used for performing alarm processing through an alarm device if the face image information is not consistent with any of the pre-stored face image information and the chip image information.

7. The apparatus of claim 5, further comprising:

and the third processing module is used for performing alarm processing through the alarm equipment if people or obstacles are monitored.

8. The apparatus of claim 5, further comprising:

the starting module is used for starting mechanical equipment;

the first control module is used for controlling the radar equipment to monitor whether a person or an obstacle exists in the preset safety range in real time if the mechanical equipment runs;

and the second control module is used for controlling the mechanical equipment to stop running if people or obstacles are monitored.

9. A safety monitoring system, the system comprising:

acquisition equipment, control equipment, radar equipment and alarm equipment according to any one of claims 5 to 8;

the acquisition equipment is used for acquiring image information, and the image information comprises face image information and chip image information corresponding to the safety equipment;

the control equipment is used for acquiring the image information sent by the acquisition equipment; comparing the facial image information with all pre-stored facial image information, and comparing whether the chip image information is consistent with the pre-stored chip image information; if the facial image information is compared with all pre-stored facial image information, and the chip image information is compared to be consistent with the pre-stored chip image information, sending a monitoring request to radar equipment, and monitoring whether a person or an obstacle exists in a preset safety range through the radar equipment; if no person or obstacle is monitored, determining the area of the preset safety range as a safety area; starting mechanical equipment; if the mechanical equipment runs, controlling the radar equipment to monitor whether people or obstacles exist in the preset safety range in real time; if people or obstacles are monitored, controlling the mechanical equipment to stop running and starting the alarm equipment; if the face image information is not consistent with any of the pre-stored face image information and the chip image information, starting an alarm device;

the radar equipment is used for monitoring whether a person or an obstacle exists in a preset safety range;

the alarm device is used for executing alarm.

10. The system of claim 9, wherein the acquisition device comprises: camera, sensor.

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