CN213659498U - Automatic inspection system applied to enterprise production management and control - Google Patents

Abstract

The utility model discloses an automatic system of patrolling and examining for enterprise's production management and control, the utility model discloses a design concept mainly is found out and is used for the automatic system of patrolling and examining framework of production management by first server, user terminal, the first computer of built-in RPA robot, production facility monitoring device, SMS sender and a plurality of carry on the second server that information-based service system constitutes, each information-based service system to the enterprise is realized via each relevant part in this framework to the automatic operating function through the RPA robot, the automation of production facility is patrolled and examined, and send and patrol and examine relevant SMS to staff's user terminal device by SMS sender, when realizing replacing and liberating the low value work of traditional manpower, still can satisfy the staff and to patrolling and examining the effective supervision of the condition. Therefore, the utility model discloses can enough improve production management and control reliability and rate of accuracy, can reduce the human cost again by a wide margin and improve whole production efficiency.

Description

Automatic inspection system applied to enterprise production management and control

Technical Field

The utility model relates to an information-based management field especially relates to an automatic system of patrolling and examining who is applied to enterprise's production management and control.

Background

The inspection and exception handling of various services related to production management and control are always an important work for ensuring normal and efficient operation of enterprises, and are also a difficult problem in enterprise management. With the continuous deepening of enterprise informatization, more and more informatization business systems are widely applied, such as but not limited to production task management systems, plant-level monitoring information systems, production statistical systems, point inspection systems, office systems, and the like, and accordingly, the restrictions on the inspection quality and timeliness of various informatization business systems and production equipment are more and more prominent, which means that the inspection requirements on various production equipment and informatization business systems related to enterprise production are higher and higher.

Therefore, in order to ensure that each information service system and production equipment can normally operate and can timely obtain response when abnormal conditions occur, a worker has to perform a large amount of flow work with high repeatability but low value. At present, the inspection work in enterprise production management and control generally adopts manual operation, and workers gradually start corresponding information service systems and equipment monitoring devices, check the running states, parameter indexes and the like of all relevant equipment and service systems, and then arrange inspection data and manually input the inspection data into a computer.

At present, the inspection mode depends on more artificial factors, so that the reliability is poor, the efficiency is not high, and the higher error rate inevitably generated by manual operation cannot be effectively inhibited. Meanwhile, because the enterprise production is all-weather uninterrupted, corresponding business systems and production equipment can also run for 7 multiplied by 24 hours, so that a large amount of manpower is consumed for routing inspection, and the investment of the labor cost of the enterprise is greatly increased. In addition, repeated and low-value flow work such as routing inspection, meter reading and recording can be processed for a long time, the working enthusiasm of workers can be reduced, and the overall production efficiency of enterprises is further influenced.

SUMMERY OF THE UTILITY MODEL

In view of the above, the utility model aims at providing a be applied to automatic system of patrolling and examining of enterprise's production management and control solves and relies on the manpower to patrol and examine each business and production facility's a great deal of drawback.

The utility model adopts the technical scheme as follows:

the utility model provides an automatic system of patrolling and examining for enterprise's production management and control, wherein include:

a first server and a user terminal device, and electrically connected to the first server respectively: the system comprises a first computer internally provided with an RPA robot, a production equipment monitoring device used for monitoring and acquiring production equipment operation data, a short message sending device and a plurality of second servers carrying informatization service systems;

the first computer acquires patrol information from the production equipment monitoring device and/or the second server via the first server;

and the first computer sends the short message related to the inspection information to the user terminal device through the first server and the short message sending device.

In at least one possible implementation manner, the automatic inspection system further includes: and the data storage device is electrically connected with the first server and is used for storing the routing inspection information.

In at least one possible implementation manner, the automatic inspection system further includes: and the third server is electrically connected with the first server and is used for sending the E-mail related to the routing inspection information.

In at least one possible implementation manner, the automatic inspection system further includes: and the information display device is electrically connected with the first server and used for displaying routing inspection information.

In at least one possible implementation, the information presentation device includes a number of second computers and/or monitors.

In at least one possible implementation manner, the short message sending device includes a short message cat.

In at least one possible implementation, the first server and/or the first computer are centrally located in a central server configured as a single server or server farm.

In at least one possible implementation, the central server and the second server are connected by a bus.

In at least one possible implementation, the first server includes a virtual server.

In at least one possible implementation, the first computer includes a virtual machine.

The utility model discloses a design concept mainly found out by first server, user terminal, the first computer of built-in RPA robot, production facility monitoring device, the automatic system architecture of patrolling and examining that is used for enterprise's production management that SMS sending device and a plurality of carried on information-based service system's second server and constitutes, the automatic operating function through the RPA robot realizes each information-based service system to the enterprise via each relevant part in this framework, production facility's automation is patrolled and examined, and send and patrol and examine relevant SMS to staff's user terminal device by SMS sending device, in the low-value work of realizing replacing and liberating traditional manpower, still can satisfy the staff and to the effective supervision of the condition of patrolling and examining. Therefore, the utility model discloses can enough improve production management and control reliability and rate of accuracy, can reduce the human cost again by a wide margin and improve whole production efficiency.

Drawings

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be further described with reference to the accompanying drawings, in which:

fig. 1 is a schematic diagram of an architecture of an embodiment of an automatic inspection system applied to enterprise production management and control provided by the present invention;

fig. 2 is the utility model provides a be applied to the automatic system of patrolling and examining's of managing and controlling of enterprise production preferred embodiment's architecture schematic diagram.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present invention, and should not be construed as limiting the present invention.

It should be noted that, the main purpose of the present invention is to utilize the RPA robot to automatically inspect the devices and business systems related to enterprise production and notify them in the form of short messages, so as to replace manual operation. As will be appreciated by those skilled in the art, the most central of these is the RPA robot, which is becoming mature and reliable, and the Robot Process Automation (RPA) system, also commonly referred to as a process robot, an intelligent automated process robot, etc., in the art, which is an existing application program that can release low-value human consumption by simulating the manual operation of a user on a computer to replace a tedious manual work process. The RPA robot can be applied to various fields and industries due to the excellent characteristics of intelligence, high efficiency, labor saving and the like.

The utility model discloses just rely on RPA robot technique, use it among specific enterprise production management and control scene, it is well known, business system and supervisory equipment involving to the production management of enterprise are numerous, use the power plant as an example, its current information-based business system just includes but not limited to power plant SIS system, production information system, office system, production statistical system, operation and maintenance management system, production task management system, the system is examined to the point, standardized management system, enterprise resource management system etc. and the equipment that needs to monitor includes and is not limited to combustion apparatus, transportation equipment, safety equipment, power generation facility etc. think of and know, if only patrol and examine above-mentioned business system and equipment through the manpower, will consume huge cost, and the quality and the ageing of patrolling and examining also are difficult to obtain guaranteeing.

Just under this design prerequisite, the utility model discloses consider to utilize RPA robot technology, data processing and communication technology and the information management technique that has matured now, combine the existing information-based service system of enterprise and equipment monitoring scheme, for the required supervision scene of patrolling and examining of enterprise production builds a system architecture, promptly, be applied to the automatic system of patrolling and examining of enterprise production management and control's embodiment as shown in FIG. 1, it can include: a first server 1 and a user terminal device 100, and electrically connected to the first server 1: the system comprises a first computer 2 internally provided with an RPA robot, a production equipment monitoring device 3 used for monitoring and acquiring production equipment operation data, a short message sending device 4 and a plurality of second servers 5 carrying informatization service systems.

Wherein the production equipment monitoring device 3 and the second server 5 both belong to objects to be inspected which can be provided by enterprises themselves, enterprises of different industries may relate to different production equipment monitoring devices 3, and the number of the second servers 5 carried by the informatization business system is different, for example, the aforementioned power plant, aiming at combustion equipment (boiler) and power generation equipment, the production equipment monitoring device 3 may refer to various industrial control instruments, sensors, etc., more preferably, the production equipment monitoring device 3 may be a power plant monitoring platform for collecting data of these instruments and sensors in a centralized manner, in other enterprises, the production equipment monitoring device 3 may further include a signal collection device such as a camera, a microphone, or a central monitoring system for collecting integrated sound images, etc., specifically, the type of the production equipment monitoring device 3 is selected, the utility model is not limited depending on the form that the enterprise can provide; for the second server 5, a plurality of information business systems can be integrated into one server in different enterprises, or the servers can be configured independently for various information business services, so fig. 1 provides only an illustrative reference, not a limitation to the details of the specific implementation, and when a person skilled in the art understands and implements the system architecture provided by the present invention, flexible configuration and adjustment can be performed according to the industry category and the self condition of the enterprise.

Regarding the short message sending device 4 and the user terminal device 100 in the example of fig. 1, the information notification implementation component set up by the inspection system architecture of the present invention is just because the present invention originally intends to replace a lot of manpower work, so that the probability of manual intervention and intervention is relatively small compared to the traditional inspection mode, but in order to ensure that the automatic architecture provided by the present invention does not break away from manual supervision, a corresponding hardware device is designed in the embodiment of fig. 1, so that the RPA robot can send the inspection related information, such as but not limited to, abnormal situations of the service system or the production equipment, to the staff in the form of short messages, the specifically sent inspection content can be set as needed, and therefore the present invention is not limited, and more mature schemes can be referred to the technology of sending information by short messages itself, and the present invention is also not described herein, it should be noted that, in practical operation, the short message sending device 4 may be, but is not limited to, a short message cat or the like, and the user terminal device 100 may be, but is not limited to, a mobile phone, a smart tablet or the like of a relevant person.

Regarding first server 1 and first computer 2 in the example of fig. 1, be the main component parts that realize the utility model provides a system architecture, the main idea of adopting first server 1 lies in can realizing the unified management and control of wireless formula that need not any wiring through the remote mode, can combine the scene in actual operation and need dispose conventional production management program to first server 1, for example but not limited to configuration some basic data information, task scheduling policy and data analysis algorithm etc. the configuration of specific relevant server can be referred to a large amount of high in the clouds backstage technique, this is not the utility model's important point, restitution: the utility model discloses a focus is on providing a system architecture of compriseing each relevant part, specifically how to be required to different enterprises, uses this framework and disposes respectively specific data and algorithm, then is not in the consideration of the utility model discloses the scope. In the foregoing, regarding the first computer 2 running the RPA robot, the first computer 2 can be regarded as a "robot" that can simulate a real person to perform an inspection process operation due to the intelligent RPA application being installed, and the "robot" can acquire inspection information from the production equipment monitoring apparatus 3 and/or the plurality of second servers 5 via the first server 1 to perform an automated inspection process operation, and can also send a short message related to the inspection information to the user terminal apparatus 100 via the first server 1 and the short message sending apparatus 4. It should be noted that, a connection between the first server 1 and the first computer 2 (including other components in the system architecture provided by the present invention) may be considered to be performed through a network communication form, for example, the communication protocol that can be used by the first server 1 and the first computer 2 includes, but is not limited to, WCF or gRPC; secondly, because RPA belongs to ripe current application, how to set for RPA's concrete procedure in actual scene is in order to accomplish different tasks, then equally not in the consideration of the utility model discloses an in the embodiment of this system frame, just as figure 1 shows with the arrow mark, the utility model discloses only indicate to patrol and examine and send the signal flow direction between each parts that the SMS is related to, and to the concrete configuration and the settlement mode of patrolling and examining process and sending SMS itself, the utility model discloses all do not do the restriction, for example as the reference, can set for and begin to patrol and examine the operation etc. according to certain cycle time.

It may be further noted in connection with the example of fig. 2 that the form of the first server 1 and the first computer 2 in actual operation may be various, for example, the first server 1 and/or the first computer 2 may be centrally disposed in the central server 10, and meanwhile, the central server 10 may be configured as a single server or a server cluster. It can be seen that the first server 1 and the first computer 2 can be implemented in physical hardware, respectively, or the first computer 2 can include, but is not limited to, a virtual machine, and the first server 1 can also include, but is not limited to, a virtual host, a virtual server, and in the same way, in connection with fig. 2, the first server 1 and the first computer 2 can be considered as a virtual server and a virtual machine mounted in the central server 10 of the entity, in this case, the first server 1 in the form of a virtual server performs unified task scheduling, etc., the first computer 2 in the form of a virtual machine mounts an RPA robot and performs polling on the second server 5 where each service system is located, and in a better embodiment, the central server 10 and the second server 5 where each service system is located can also be connected by a data communication bus, such as but not limited to a WCF data communications bus or a gPRC data communications bus, etc. Of course, it will be understood by those skilled in the art that the foregoing is merely illustrative of possible implementations and is not a limitation on the practice of the invention.

In addition, in view of the fact that in order to further strengthen the system architecture, in addition to notifying the relevant personnel by short message, the present invention also contemplates notifying the relevant personnel by e.g. mail push, so that in the preferred embodiment shown in fig. 2, the automatic inspection system architecture may further include a third server 6 electrically connected to the first server 1, wherein the third server 6 mainly functions to send e-mails related to inspection information, that is, in actual operation, the third server 6 may be understood as a mail server.

Furthermore, considering that the inspection result needs to be manually recorded into a computer for storage after the traditional inspection, in the example of fig. 2, an example of a data storage device 7 electrically connected to the first server 1 is provided for the automatic inspection system architecture, the data storage device 7 is used for storing inspection information, as an implementation reference, the data storage device 7 may be, but is not limited to, a data storage device, and the aforementioned "robot" may store data such as the inspection result in the data storage device via the first server.

Furthermore, in order to enable the relevant personnel to view the inspection result, monitor abnormal data and the like anytime and anywhere, in the example of fig. 2, the automatic inspection system architecture further includes an information display device 8 electrically connected to the first server 1, the main function of the information display device 8 is to display inspection information, so that the personnel can view the inspection state, the operation state of each service system and the like through the information display device 8, in the specific implementation process, the information display device 8 can specifically consider using a plurality of second computers and/or monitors and the like, where the second computers and monitors are physical display devices limited to entities, but the number of the second computers and/or monitors may not be limited, and it can be further illustrated that the personnel can view the inspection condition through the second computers and/or monitors, the second computer and/or the monitor may also be utilized to configure the polling management via the first server 1, for example, set polling function items of each information service system, the aforementioned polling period, the maximum continuous notification times, the specific contact of the abnormal situation, and the like, which, of course, also belong to the application modes that can be specifically implemented and expanded on the basis of the system architecture, and are not limited and repeated herein. However, it should be added that fig. 2 illustrates that various solutions (such as the central server 10, the third server 6, the data storage device 7, and the information presentation device 8) with optimized architectures are comprehensively presented, but the present invention does not exclude the possibility of independent implementation for any one of the optimized solutions.

To sum up, the utility model discloses a design concept mainly is that the automatic system architecture of patrolling and examining who is used for enterprise production management who constitutes by first server, user terminal, the first computer of built-in RPA robot, production facility monitoring device, SMS sender and a plurality of carry on the second server of information-based service system, the automatic operating function through the RPA robot realizes patrolling and examining each information-based service system, the automation of production facility to the enterprise via each relevant part in this framework to send and patrol and examine relevant SMS to staff's user terminal device by SMS sender, when realizing replacing and liberating the low value work of traditional manpower, still can satisfy the staff and to patrolling and examining the effective supervision of the condition. Therefore, the utility model discloses can enough improve production management and control reliability and rate of accuracy, can reduce the human cost again by a wide margin and improve whole production efficiency.

Further, based on the utility model provides an each embodiment and preferred scheme of system architecture for it is directly perceived clear and intelligent simple and convenient to patrol and examine the process, and the staff can look over in real time the execution conditions of patrolling and examining the task, and supervise and examine the abnormal condition, and production business's each item progress and acceptance check condition are mastered to whole journey, when increasing staff's production enthusiasm, can also make it not omit the production abnormal condition, and from this the prevention occurence of failure or with fault control in minimum range. Correspond different demands of different enterprises, can do the utility model provides a system architecture sets up the execution scheme of differentiation to this implementation production is patrolled and examined standardization, automation, the informationization of work and abnormal conditions management, and then promotes enterprise scientific management level, promotes going on in order of safety in production.

The structure, features and effects of the present invention have been described in detail in the above embodiments shown in the drawings, but the above embodiments are only preferred embodiments of the present invention, and it should be noted that, the technical features related to the above embodiments and their preferred modes can be reasonably combined and assembled into various equivalent schemes by those skilled in the art without departing from or changing the design idea and technical effects of the present invention; therefore, the present invention is not limited to the embodiments shown in the drawings, and all changes made according to the idea of the present invention or equivalent embodiments modified to equivalent changes are within the scope of the present invention without departing from the spirit of the present invention.

Claims (10)

1. The utility model provides an automatic system of patrolling and examining for enterprise's production management and control which characterized in that, includes first server and user terminal device, and respectively with first server electricity signal connection: the system comprises a first computer internally provided with an RPA robot, a production equipment monitoring device used for monitoring and acquiring production equipment operation data, a short message sending device and a plurality of second servers carrying informatization service systems;

the first computer acquires patrol information from the production equipment monitoring device and/or the second server via the first server;

and the first computer sends the short message related to the inspection information to the user terminal device through the first server and the short message sending device.

2. The automatic inspection system applied to enterprise production management and control according to claim 1, further comprising: and the data storage device is electrically connected with the first server and is used for storing the routing inspection information.

3. The automatic inspection system applied to enterprise production management and control according to claim 1, further comprising: and the third server is electrically connected with the first server and is used for sending the E-mail related to the routing inspection information.

4. The automatic inspection system applied to enterprise production management and control according to claim 1, further comprising: and the information display device is electrically connected with the first server and used for displaying routing inspection information.

5. The automated inspection system according to claim 4, wherein the information display device comprises a plurality of second computers and/or monitors.

6. The automatic inspection system applied to enterprise production management and control as claimed in claim 1, wherein the short message sending device comprises a short message cat.

7. The automatic inspection system applied to enterprise production management and control according to any one of claims 1-6, wherein the first server and/or the first computer are/is centrally arranged in a central server, and the central server is configured as a single server or a server cluster.

8. The automated inspection system according to claim 7, wherein the central server is connected to the second server via a bus.

9. The automated inspection system for enterprise production control according to claim 7, wherein the first server comprises a virtual server.

10. The automated inspection system for enterprise production management and control according to claim 7, wherein the first computer comprises a virtual machine.

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