CN210244385U

CN210244385U - Safety supervision system based on wearing equipment

Info

Publication number: CN210244385U
Application number: CN201920951577.9U
Authority: CN
Inventors: Wenlong Liang; 梁文隆; Chuanqing Li; 李传勍
Original assignee: Shanghai Yishi Haotong Information Technology Co ltd
Current assignee: Shanghai Yishi Haotong Information Technology Co ltd
Priority date: 2019-06-21
Filing date: 2019-06-21
Publication date: 2020-04-03
Anticipated expiration: 2029-06-21

Abstract

The utility model relates to a wearing equipment technical field discloses a safety supervision system based on wearing equipment, based on cloud ware and with cloud ware data connection's wearing equipment, wearing equipment includes: the video acquisition module, from the verification module, compare processing module, alarm module staff can wear wearing equipment in the course of the work, still can send self position information to cloud server when self verification module acquires wearer's self information, for the staff that has specific dress requirement has or not the exact dress, also perhaps there is the debris of piling up in regulation place, accessible compares processing module with specific characteristic information and preset standard information and compares, reminds the warning to the target object according to the comparison result again, promote the security in the production process.

Description

Safety supervision system based on wearing equipment

Technical Field

The utility model relates to a wearing equipment technical field, more specifically say, it relates to a safety supervision system based on wearing equipment.

Background

At present, with the continuous development and development of companies, enterprises, factories and the like, more production units and service units can use intelligent wearable equipment, and more workers are efficiently and effectively managed.

The application of current intelligent wearing equipment can relate to in hospital's operating table on main sword doctor and nurse's the communication, and main sword doctor can wear intelligent glasses and send first visual angle to the server after and send to other nurses that wear intelligent glasses there, makes things convenient for communication and teaching in the art. The intelligent production system can also be involved in an intelligent factory, and the conditions of the production process are uploaded or transmitted to other workers in real time, so that the orderly operation in the safety production is facilitated.

However, the above-mentioned techniques cannot timely find out the behavior not meeting the standard in the working process and issue related warning, for example, it is difficult to find out whether the worker wears a safety helmet in the production process or whether the worker goes to a dangerous area, whether the doctor and nurse have the standard for wearing the safety helmet, etc., which is not favorable for the safe operation of the production process or the service process.

SUMMERY OF THE UTILITY MODEL

To the problem, an object of the utility model is to provide a safety supervision system based on wearing equipment, it has the convenience and supervises the advantage of reminding to the working process.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a safety supervision system based on wearing equipment is based on cloud server and with wearing equipment of cloud server data connection, wearing equipment includes:

the video acquisition module is used for acquiring video information containing a target object;

the self-verification module is in data connection with the cloud server and is used for sending the self information and the self position information of the wearer to the cloud server;

the comparison processing module is in data connection with the cloud server storing preset standard state information and the video acquisition module, and is used for acquiring specific characteristic information of the target object according to the video information and comparing the specific characteristic information with the preset standard state information;

and the alarm module is used for sending safety warning information to the target object according to the comparison result.

Through the technical scheme, the working personnel can wear the wearable equipment in the working process, the self-verification module can send self position information to the cloud server when acquiring the self information of the wearer, the specific characteristic information and the preset standard information can be compared through the comparison processing module for checking whether the working personnel with specific dressing requirements wear correctly or whether sundries are stacked in a specified place, and then the target object is reminded and warned according to the comparison result, so that the safety in the production process is improved.

The utility model discloses further set up to: the comparison processing module comprises:

and the video processing module is in data connection with the video acquisition module and is used for periodically intercepting single-frame information in the video information and separating the target object in the single-frame information.

Through the technical scheme, loss can be saved by intercepting the single-frame information in the video and processing the single-frame information, and the accuracy of target object separation is improved, so that the accuracy of safety supervision is improved.

The utility model discloses further set up to: the comparison processing module further comprises:

the characteristic identification module is in data connection with the video processing module and is used for acquiring specific characteristic information associated with the target object, and the specific characteristic information comprises a specific outline and a specific color associated with the specific outline;

the characteristic comparison module is in data connection with the characteristic identification module and the cloud server and is used for comparing the specific characteristic information with the preset standard state information;

and the object identification module is in data connection with the alarm module and is used for distinguishing the type of the target object.

The utility model discloses further set up to: the alarm module includes:

the face recognition module is in data connection with the cloud server and used for acquiring and recognizing face information of the staff;

the position area estimation module is in data connection with the cloud server and used for acquiring current direction information and estimating the position range of the staff according to the position information and the current direction information;

and the alarm pushing module is in data connection with the cloud server and used for pushing the safety warning information to the staff through cloud server data.

The utility model discloses further set up to: the wearing apparatus includes:

and the self-alarming unit is used for displaying the map position of the wearer according to the self-position information, informing the danger level of the map position of the wearer according to a preset condition, and simultaneously reminding the wearer to perform self-inspection at an equal period.

Compared with the prior art, the beneficial effects of the utility model are that:

through wearing equipment and cloud ware, make the staff can also can send self positional information to cloud ware when obtaining wearing person's self information through self-verification module in the course of the work, the accessible compares processing module and compares specific characteristic information and preset standard information, checks that the staff who has specific dress requirement has or not the exact dress, also perhaps whether there is the debris of piling up in the regulation place, reminds the warning to the target object according to the comparison result again, promotes the security in the production process.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention;

fig. 2 is a schematic diagram of module connection according to an embodiment of the present invention.

Reference numerals: 1. a cloud server; 2. a wearable device; 21. a video acquisition module; 22. a self-verification module; 23. a comparison processing module; 231. a video processing module; 232. a feature identification module; 233. a feature comparison module; 234. an object identification module; 24. an alarm module; 241. a face recognition module; 242. a location area estimation module; 243. an alarm push module; 25. and a self-alarming unit.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

A safety supervision system based on wearable equipment is shown in figure 1 and is based on a cloud server 1 and wearable equipment 2 in data connection with the cloud server 1. Wearable device 2 may employ a smart eyewear device. As shown in fig. 2, the wearable device 2 includes a video capture module 21, a self-verification module 22, a comparison processing module 23, an alarm module 24, and a self-alarm unit 25.

The cloud server 1 stores preset standard state information; as shown in fig. 2, the video capture module 21 may include a camera for acquiring video information including a target object; the self-verification module 22 is in data connection with the cloud server 1 and can be used for sending the self information and the self position information of the wearer to the cloud server 1; the comparison processing module 23 is in data connection with the cloud server 1 and the video acquisition module 21, and is configured to obtain specific feature information of the target object according to the video information.

The preset standard state information comprises standard wearing standard parameters corresponding to the target object and standard position information. The comparison processing module 23 compares the specific feature information with the preset standard state information. When the target object is a worker, such as a doctor, the standard wearing standard parameters can be embodied as color parameters, and because the doctor needs to wear a white coat or a light blue surgical gown in operation, the specific characteristic information can be the wearing color parameters of the body of the target object, and the wearing condition of the worker can be obtained by comparing the white coat and the light blue surgical gown to determine whether the wearing condition meets the requirements. The alarm module 24 is configured to send safety warning information to a target object that also wears the wearable device 2 according to the comparison result, so as to facilitate supervision.

As shown in fig. 2, the comparison processing module 23 includes a video processing module 231, a feature identification module 232, a feature comparison module 233, and an object identification module 234. The video processing module 231 is in data connection with the video acquisition module 21, and is used for periodically intercepting the single-frame information in the video information and separating the target object in the single-frame information, and the single-frame information in the intercepted video is processed to save loss and improve the accuracy of target object separation, thereby improving the accuracy of safety supervision. The object recognition module 234 is in data connection with the feature recognition module 232, and is configured to distinguish types of the target object according to the video information.

As shown in fig. 2, the feature recognition module 232 is in data connection with the video processing module 231 for obtaining specific feature information associated with the target object. If the target object is an object, such as a scalpel, the specific feature information includes a specific contour representing the contour of the scalpel and a specific color associated with the specific contour, and the standard position information in the preset standard state information should reflect the position where the scalpel should be located. The feature comparison module 233 is in data connection with the feature recognition module 232 and the cloud server 1, and is configured to compare the specific feature information with preset standard state information, so as to determine whether the position of the scalpel is correct.

As shown in fig. 2, the self-alarm unit 25 is in data connection with the cloud server 1, and can display the map position of the wearer through a display screen of the smart eyewear device according to the self-position information, notify the danger level of the map position of the wearer according to a preset condition, and simultaneously remind the wearer of self-checking in an equal period. The module can remind the wearer of the wearable device 2 whether the position is safe or not, and the working safety is improved.

When the target object is a person, and a worker needs to accurately provide alarm information to the worker who is detected to have irregular behavior, the alarm module 24 includes:

the face recognition module 241 is in data connection with the cloud server 1, and is used for acquiring and recognizing face information of a worker and accurately notifying the worker;

and the position area estimation module 242 is in data connection with the cloud server 1, and is configured to acquire current direction information, estimate a position range of a worker according to the position information of the worker and the current direction information, and enable other workers wearing the wearable device 2 to receive the position range. The module is suitable for the situation that the detected target object does not wear the wearable device 2 and cannot be notified through the interaction of the device. The approximate range of the detected target object can be determined according to the position of the worker wearing the wearable device 2 and the video acquisition direction, so that other workers can remind the worker, and mutual detection in the support of the worker is facilitated;

alarm pushing module 243, which is in data connection with cloud server 1, and is used to push safety warning information to the staff through data of cloud server 1, and the administrator at cloud server 1 can directly push warning information to the staff wearing wearable device 2 through cloud server 1.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. 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

1. A wearable device-based safety supervision system is based on a cloud server (1) and a wearable device (2) in data connection with the cloud server (1), and is characterized in that the wearable device (2) comprises:

the video acquisition module (21) is used for acquiring video information containing a target object;

the self-verification module (22) is in data connection with the cloud server (1) and is used for sending the self information and the self position information of the wearer to the cloud server (1);

the comparison processing module (23) is in data connection with the cloud server (1) storing preset standard state information and the video acquisition module (21), and is used for acquiring specific feature information of the target object according to the video information, comparing the specific feature information with the preset standard state information, and sending a comparison result to the cloud server (1);

the alarm module (24) is used for sending safety warning information to the target object according to the comparison result;

the alignment processing module (23) comprises:

and the video processing module (231) is in data connection with the video acquisition module (21) and is used for periodically intercepting single-frame information in the video information and separating the target object in the single-frame information.

2. The wearable device-based safety supervision system according to claim 1, wherein the comparison processing module (23) further comprises:

a feature identification module (232) in data connection with the video processing module (231) for acquiring specific feature information associated with the target object, wherein the specific feature information includes a specific contour and a specific color associated with the specific contour;

the characteristic comparison module (233) is in data connection with the characteristic identification module (232) and the cloud server (1) and is used for comparing the specific characteristic information with the preset standard state information;

and the object identification module (234) is in data connection with the characteristic identification module (232) and is used for distinguishing the type of the target object.

3. The wearable device-based safety supervision system according to claim 2, characterized in that the alarm module (24) comprises:

the face recognition module (241) is in data connection with the cloud server (1) and is used for acquiring and recognizing face information of the staff;

the position area estimation module (242) is in data connection with the cloud server (1) and is used for acquiring current direction information and estimating the position range of the staff according to the position information and the current direction information;

the alarm pushing module (243) is in data connection with the cloud server (1) and used for pushing the safety warning information to the staff through the cloud server (1).

4. The wearable device-based safety supervision system according to claim 3, characterized in that the wearable device (2) comprises:

and the self-alarming unit (25) is in data connection with the cloud server (1), displays the map position of the wearer according to the self-position information, informs the danger level of the map position of the wearer according to preset conditions, and simultaneously reminds the wearer of self-inspection in equal periods.