CN219287615U - Quality supervision system for oil-gas engineering site - Google Patents

Abstract

The utility model discloses a quality supervision system for oil and gas engineering sites, which comprises: the AR equipment is configured for the on-site quality inspector, wherein the AR equipment at different positions is in communication connection; a background terminal; and the system server is communicated with the AR equipment and is communicated with the background terminal through an internal network and/or an external network. The utility model realizes the two-way interaction of quality monitoring personnel and remote expert audio and video of field operation by exploring the application of AR in the quality monitoring link.

Description

Quality supervision system for oil-gas engineering site

Technical Field

The utility model relates to the technical field of petrochemical engineering quality supervision, in particular to a quality supervision system for an oil-gas engineering site.

Background

The traditional dangerous chemical operation generally adopts modes of realizing on-site communication and rear communication and the like through video monitoring and interphones, and the application of the equipment effectively improves the efficiency of construction operators, but the following problems still exist:

the performance is not intelligent enough, and the information transmission quality and the real-time performance cannot be ensured. The command center cannot acquire clear real-time on-site video conditions in time, so that decision judgment of command personnel is not facilitated; when the traditional communication tool is used on site, the communication with front line operators is difficult to realize by a commander under the interference of noise of the site environment, and effective command cannot be ensured;

and (II) the flexibility and mobility are insufficient, and the complex environment requirements and the remote guidance requirements cannot be met. At present, a monitoring system and the like are used for operation monitoring, and the problems of limited image transmission capability, insufficient flexibility and the like exist. Because the field environment has great complexity, the fixed camera is difficult to provide the operation image information of a special area due to the limit value of the installation position, and the interconnection system can flexibly provide the image transmission;

and thirdly, the camera and the interphone system only can provide audio and video communication service, do not have remote data transmission capability, and operators arriving at the site are difficult to obtain necessary technical data support, cannot obtain timely data of the operators, and do not have timely processing capability of big data. The operator cannot realize timely intercommunication of data and rescue schemes when the operator needs to communicate with an expert to obtain guidance due to unclear field processing schemes; when the closed space works, an expert positioned outside the closed space cannot grasp the situation in the closed space in real time; in addition to the work, when training on-site personnel, it is difficult for an expert to get to the site to conduct guidance at all times.

Disclosure of Invention

The utility model aims to provide a combined power supply mode to meet the actual power consumption requirement of a construction site.

In order to solve the above technical problems, an embodiment of the present utility model provides a quality supervision system for an oil and gas engineering field, including: the AR equipment is configured for the on-site quality inspector, wherein the AR equipment at different positions is in communication connection; a background terminal; and the system server is communicated with the AR equipment and is communicated and connected with the background terminal through an internal network and/or an external network.

Preferably, the background terminal adopts PC equipment or mobile terminal equipment.

Preferably, the background terminal supports a limited network, a WiFi wireless network and a 4G hotspot wireless network.

Preferably, the AR device is a head-mounted AR device.

Preferably, the AR device supports video definition including CIF, VGA,720P, and 1080P options.

Preferably, the system server is in communication connection with a plurality of background terminals through an internal network and/or an external network.

Preferably, one or more of the backend terminals and one or more AR devices in the field are configured as a local communication link.

Preferably, the background terminal sends a graphical instruction, and/or a picture, and/or a document, and/or a flowchart and/or text to the one or more AR devices on site.

Preferably, the AR device is provided with a camera and microphone, wherein live video, voice and pictures are shared in real time over WiFi or other wireless networks.

Preferably, the AR device is further provided with a local memory.

One or more embodiments of the above-described solution may have the following advantages or benefits compared to the prior art:

the utility model provides a quality supervision system for an oil-gas engineering site. According to the utility model, through exploring the application of AR in a quality supervision link, the two-way interaction of quality supervision personnel and remote expert audios and videos of field operation is realized, aiming at complex quality problems, a plurality of professional experts are simultaneously on line, remote consultation is realized, the timeliness of problem solving is improved, the management and control of field supervision can be enhanced, the operation standardized management level is improved, the scientific, standardized and standardized operation of first-line personnel is guided, educated and supervised, the timeliness of solving the complex problems can be improved, and the travel cost is reduced.

Additional features and advantages of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model. The objectives and other advantages of the utility model will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model, and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model, without limitation to the utility model. In the drawings:

FIG. 1 is a schematic diagram of a quality supervision system for an oil and gas engineering site according to an embodiment of the present application.

Detailed Description

The following will describe embodiments of the present utility model in detail with reference to the drawings and examples, thereby solving the technical problems by applying technical means to the present utility model, and realizing the technical effects can be fully understood and implemented accordingly. It should be noted that, as long as no conflict is formed, each embodiment of the present utility model and each feature of each embodiment may be combined with each other, and the formed technical solutions are all within the protection scope of the present utility model.

The traditional dangerous chemical operation generally adopts modes of realizing on-site communication and rear communication and the like through video monitoring and interphones, and the application of the equipment effectively improves the efficiency of construction operators, but the following problems still exist:

the performance is not intelligent enough, and the information transmission quality and the real-time performance cannot be ensured. The command center cannot acquire clear real-time on-site video conditions in time, so that decision judgment of command personnel is not facilitated; when the traditional communication tool is used on site, the communication with front line operators is difficult to realize by a commander under the interference of noise of the site environment, and effective command cannot be ensured;

and (II) the flexibility and mobility are insufficient, and the complex environment requirements and the remote guidance requirements cannot be met. At present, a monitoring system and the like are used for operation monitoring, and the problems of limited image transmission capability, insufficient flexibility and the like exist. Because the field environment has great complexity, the fixed camera is difficult to provide the operation image information of a special area due to the limit value of the installation position, and the interconnection system can flexibly provide the image transmission;

and thirdly, the camera and the interphone system only can provide audio and video communication service, do not have remote data transmission capability, and operators arriving at the site are difficult to obtain necessary technical data support, cannot obtain timely data of the operators, and do not have timely processing capability of big data. The operator cannot realize timely intercommunication of data and rescue schemes when the operator needs to communicate with an expert to obtain guidance due to unclear field processing schemes; when the closed space works, an expert positioned outside the closed space cannot grasp the situation in the closed space in real time; in addition to the work, when training on-site personnel, it is difficult for an expert to get to the site to conduct guidance at all times.

With the development of high technology, new technologies such as intelligent terminals, artificial intelligence, internet of things and big data gradually penetrate into the engineering construction field, face recognition and vehicle recognition are applied in a large area, and thermal imaging recognition, smoke and fire recognition, work clothes safety helmet and the like are also gradually applied and popularized. AR is "augmented reality", through monocular display, provides powerful audio and video data support for the wearer, more is applicable to industrial enterprise workplace. However, most of the new technologies are widely applied in the safety field, commonly called as 'safety eyes', and are urgently needed to explore the application in the quality supervision operation link of the construction site of key engineering projects in order to better improve the quality supervision technology level of the petrochemical engineering quality supervision total station. At present, on-site operators in the oil and gas industry have greatly improved the performance of protective equipment, but as various complex operations are increasingly carried out, the functions and requirements on the protective equipment of the operators are continuously improved.

FIG. 1 is a schematic diagram of a quality supervision system for an oil and gas engineering site according to an embodiment of the present application. As shown in fig. 1, a quality supervision system according to an embodiment of the present utility model includes: the system comprises a plurality of AR devices, a system server in communication connection with the plurality of AR devices on site and a background terminal. Each quality inspection personnel located on the oil and gas engineering site is correspondingly provided with corresponding AR equipment, so that each site personnel can complete the site quality detection task related to the site personnel by utilizing the AR equipment. The background terminal may be one or more. Each background commander and expert configures a corresponding background terminal. Wherein, the AR devices at different positions have communication connection relation. The system server can be in communication connection with the background terminal through an internal network and/or an external network.

Therefore, quality monitoring personnel who utilize the AR technology to realize on-site operation in each supervision project can interact with remote expert audio and video bidirectionally, and the remote monitoring construction quality key link assists quality monitoring personnel to supervise the inspection, long-range discovery quality problem.

Further, the AR device is a head-mounted AR device. The AR device supports video definition including CIF, VGA,720P, and 1080P options. The AR device is provided with a camera and a microphone. Live video, voice and pictures are shared in real time through WiFi or other wireless networks. In addition, the AR device is also provided with a local memory.

Through WiFi or other wireless communication networks, AR equipment can realize that video, voice and pictures are shared in real time, site images and images are shared in a first visual angle mode, site abnormal conditions are transmitted back to a system server in real time, and meanwhile the system server can realize forwarding to an internal network and an external network, so that back-end personnel can timely know site comprehensive information in the company and outside the company, and corresponding processing guidance is made.

The head-mounted AR device may operate on a currently displayed live quality surveillance video, the operating instructions comprising: zoom in or out, focus, turn on or off a flash, switch cameras, etc. The head-mounted AR equipment has a positioning function, and can acquire the geographic information of a first-line person in real time through mutual communication among AR equipment in different positions and communication between the on-site AR equipment and a background terminal, so that the position of the other party can be known. The head-mounted AR equipment also has a video recording function, and records a screen and sound of the whole quality supervision process. Depending on the network and bandwidth conditions, the head-mounted AR device may choose to support CIF, VGA,720P,1080P video sharpness. Under the condition of poor or no network on site, the offline automatic storage and online breakpoint continuous transmission functions can be realized, so that the integrity of all data is ensured.

In addition, the background terminal adopts PC equipment or mobile terminal equipment. The background terminal also supports a limited network, a WiFi wireless network and a 4G hot spot wireless network.

Further, one or more backend terminals can be configured as a local communication link with one or more AR devices in the field. The AR device supports multi-person multi-view real-time wiring of 1 (1 AR device) to 1 (1 background terminal) or at most 1 (1 AR device) to N persons (N background terminals). That is, the quality supervision system is able to perform dedicated tasks by forming temporary local communication links to build temporary groups. When the background terminal is a PC terminal, all videos can be displayed; when the background terminal is a mobile terminal, a paging display mode is used, and at most 4 persons (including AR equipment and other background terminals) in each page can be switched and displayed at any time, so that the other 4 persons can be displayed at any time. In the background remote, when the expert needs to switch and display own video to explain through the background terminal, the corresponding video switching function can be provided (the background equipment). In the remote process, the video is switched through the function.

The background terminal with the highest authority personnel identity can pause the video picture of the field personnel to carry out image identification, and all participants in the same local communication link can see in real time during image identification and can carry out voice communication. And after the identification is finished, the final picture is sent to all the meeting personnel in the group. These pictures are saved in the local memory of all participants. The participants may then view these pictures through the message record. And capturing and marking the currently displayed video.

In the formed local communication link network, the background terminal can send graphical instructions, and/or pictures, and/or documents, and/or flowcharts, and/or text to one or more AR devices in the field. Specifically, in the video process, a rear-end commander can send a graphical instruction to a front-end commander (AR equipment) through a background terminal by utilizing an AR real-time intelligent labeling mode, so that instruction transmission efficiency is improved; the method can select all people sent to the group as local files, and participants can also call the pictures stored locally at any time for viewing; the method can also send the document or the flow chart to all participants, and the participants can open the document at any time for learning or explanation; a text message may also be sent to all participants.

The utility model discloses a quality supervision system for an oil-gas engineering site. According to the utility model, through exploring the application of AR in a quality supervision link, the two-way interaction of quality supervision personnel and remote expert audios and videos of field operation is realized, aiming at complex quality problems, a plurality of professional experts are simultaneously on line, remote consultation is realized, the timeliness of problem solving is improved, the management and control of field supervision can be enhanced, the operation standardized management level is improved, the scientific, standardized and standardized operation of first-line personnel is guided, educated and supervised, the timeliness of solving the complex problems can be improved, and the travel cost is reduced.

The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the scope of the present utility model are intended to be included in the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope of the claims.

It is to be understood that the disclosed embodiments are not limited to the specific structures, process steps, or materials disclosed herein, but are intended to extend to equivalents of these features as would be understood by one of ordinary skill in the relevant arts. It is also to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting.

Reference in the specification to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the utility model. Thus, the appearances of the phrase "one embodiment" or "an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment.

While the embodiments of the present utility model have been described above, the embodiments are presented for the purpose of facilitating understanding of the utility model and are not intended to limit the utility model. Any person skilled in the art can make any modification and variation in form and detail without departing from the spirit and scope of the present disclosure, but the scope of the present disclosure is still subject to the scope of the appended claims.

Claims (9)

1. A quality supervision system for an oil and gas engineering site, comprising:

the AR equipment is configured for the on-site quality inspector, wherein the AR equipment at different positions is in communication connection;

a background terminal;

and the system server is communicated with the AR equipment and is communicated and connected with the background terminal through an internal network and/or an external network.

2. The quality supervision system according to claim 1, wherein the background terminal employs a PC device or a mobile terminal device.

3. The quality supervision system according to claim 1, wherein the background terminal supports a limited network, a WiFi wireless network, and a 4G hotspot wireless network.

4. The quality supervision system according to claim 1, wherein the AR device is a head-mounted AR device.

5. The quality supervision system according to claim 4, wherein the AR device supports video sharpness including CIF, VGA,720P and 1080P options.

6. The quality supervision system according to any one of claims 1 to 5, wherein the system server is in simultaneous communication connection with a plurality of background terminals via an internal network and/or an external network.

7. The quality supervision system according to claim 6, wherein one or more of the background terminals and one or more AR devices in the field are configured as a local communication link.

8. The quality supervision system according to claim 1, wherein the AR device is provided with a camera and a microphone, wherein live video, voice and pictures are shared in real time over a wireless network.

9. The quality supervision system according to claim 7, wherein the AR device is further provided with a local memory.

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