CN112711225A - Big screen monitored control system of wisdom - Google Patents

Abstract

A smart large screen monitoring system relates to the technical field of Internet of things detection and cloud computing, wherein a client is provided with a local server, a production data acquisition module and a remote interaction module, the production data acquisition module is provided with a timing component and a counting component, the timing component is connected with a sensor, the timing component is connected with a real-time database through the sensor, the real-time database is stored in the local server, the local server is connected with a large screen real-time display, the remote interaction module is provided with an interaction display screen, the timing component and the counting component are both connected with the local server, the local server is connected with the interaction display screen, the investment of the Internet of things can be reduced, various enterprise requirements can be met, the operation state of an enterprise can be improved, and the operation cost can be reduced, the whole practicability is strong, and the market promotion value is high.

Description

Big screen monitored control system of wisdom

Technical Field

The invention relates to the technical field of Internet of things detection and cloud computing, in particular to an intelligent large-screen monitoring system.

Background

The internet of things (IOT) is an information carrier based on the internet, traditional telecommunication network, etc. and allows all common physical objects capable of being addressed independently to form an interconnected and intercommunicated network.

With the development of technology, cloud platforms based on the internet of things are gradually popularized and applied in various industries, however, in practice, many small and medium-sized enterprises in traditional production and manufacturing types cannot independently build the cloud platforms of the internet of things due to the shortage of funds and manpower, further, due to the shortage of monitoring of the cloud platforms of the internet of things, a decision layer cannot make a quick decision response according to a real-time production process, equipment maintenance cost is increased due to the shortage of real-time operation conditions of production equipment related to a production link, or pollutants generated in the production process are lack of effective control, so that the environmental control cost of the enterprises is increased, and the like.

Disclosure of Invention

The invention aims to provide an intelligent large-screen monitoring system aiming at the defects and shortcomings of the prior art, so that the problems in the background art are solved, the investment of enterprises can be reduced, the requirements of various enterprise internet of things can be met, the operation state of the enterprises can be improved, the operation cost is reduced, and the intelligent monitoring shared cloud platform for the factory based on the internet of things is strong in overall practicability and has higher market popularization value.

In order to achieve the purpose, the invention adopts the following technical scheme: the system comprises a client 1, a cloud server 2, a local server 3, a production data acquisition module 4, a remote interaction module 5, a timing assembly 6, a piece counting assembly 7, a sensor 8, a real-time database 9, a large-screen real-time display 10, an interaction display screen 11, a central server 12, a central data acquisition module 13 and a data storage module 14, wherein the client 1 is provided with the local server 3, the production data acquisition module 4 and the remote interaction module 5, the production data acquisition module 4 is provided with the timing assembly 6 and the piece counting assembly 7, the timing assembly 6 is connected with the sensor 8, the timing assembly 6 is connected with the real-time database 9 through the sensor 8, the real-time database 9 is stored in the local server 3, the local server 3 is connected with the large-screen real-time display 10, and the remote interaction display screen 11 is arranged on the remote interaction module 5, the timing assembly 6 and the piece counting assembly 7 are connected with the local server 3, the local server 3 is connected with the interactive display screen 11, the cloud server 2 is provided with a central server 12, the central server 12 is provided with a central data acquisition module 13 and a data storage module 14, the central data acquisition module 13 is connected with the data storage module 14, and the central data acquisition module 13 is connected with the real-time database 9 in the local server 3.

An operating button 27 is connected to the gauge member assembly 7.

The central server 12 is connected with an environmental protection monitoring system 15.

The local server 3 is connected with a PLC control system 16.

The PLC control system 16 is connected to a ventilation fan 20 and an air conditioner 25.

The client 1 is provided with a monitoring module 17, an environmental data monitoring module 18 and an environmental protection acquisition module 19, and the monitoring module 17, the environmental data monitoring module 18 and the environmental protection acquisition module 19 are connected with the local server 3.

The monitoring module 17 is connected with a camera 21, and the camera 21 is provided with an SDK 26.

The environmental data monitoring module 18 is connected to a temperature sensor 22, a humidity sensor 23 and a dust particle sensor 24.

The environment-friendly acquisition module 19 is connected with a gas concentration detection assembly 28 and a sewage flow monitoring assembly 29.

The working principle of the invention is as follows: the running time of the equipment is recorded by the timing component 6, the production quantity of the equipment in the running time is recorded by the counting component 7 through the operation button 27, the collected data are fed back to the real-time database 9 by the sensor 8 every second, and are displayed by the large-screen real-time display 10 in real time, the defect quantity can be counted in real time, the temperature sensor 22, the humidity sensor 23 and the dust particle sensor 24 which are connected by the environmental data monitoring module 18 can collect the data information of temperature, humidity and dust particles, an early warning line is reached to trigger an external alarm system, the loss is reduced, the operation cost is reduced, various data transmitted by the local server 3 are received by the central data collecting module 13 and are stored in the data storage module 14, the production data stored in the data storage module 14 are read by the central server 12, the production efficiency of each equipment is analyzed, and the historical production efficiency of the corresponding equipment is determined according, finding out the equipment with the lowest efficiency in the production line, displaying the equipment on an interactive display screen 11 through a local server 3, transmitting video data to the local server 3 in real time through a camera 21, returning the real-time data of the video to a local real-time database 9 through an installed SDK26, returning the real-time data to a large-screen real-time display 10 through the real-time database 9, displaying the real-time production condition of the factory production line, transmitting the video data to the interactive display screen 11 through the local server 3 for displaying or transmitting the video data to a central server 12, monitoring the operation area in the factory through a monitoring module 17, utilizing a shared cloud service end 2, checking the operation in the factory at any time and any place, controlling a ventilation fan 20 and an air conditioner 25 through a PLC control system 16, and then connecting a gas concentration detection component 28 and a flow monitoring component 29 through an environmental protection acquisition module 19, the information of gas concentration and sewage flow can be transmitted to the local server 3 and the central server 12, and the central server 12 reports the received environmental protection data to the environmental protection monitoring system 15.

After the technical scheme is adopted, the invention has the beneficial effects that: the enterprise investment can be reduced, the requirements of multiple enterprise internet of things can be met, the operation state of an enterprise can be improved, the operation cost of the factory intelligent monitoring and sharing cloud platform based on the internet of things is reduced, the overall practicability is high, and the market promotion value is large.

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 described below, and it is obvious that the drawings in the following description are only 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 schematic structural view of the present invention;

fig. 2 is a schematic diagram of the structure of the local server 3 in the present invention.

Description of reference numerals: the system comprises a client 1, a cloud server 2, a local server 3, a production data acquisition module 4, a remote interaction module 5, a timing component 6, a piece counting component 7, a sensor 8, a real-time database 9, a large-screen real-time display 10, an interaction display screen 11, a central server 12, a central data acquisition module 13, a data storage module 14, an environmental protection monitoring system 15, a PLC control system 16, a monitoring module 17, an environmental data monitoring module 18, an environmental protection acquisition module 19, a ventilation fan 20, an air conditioner 25, a camera 21, a temperature sensor 22, a humidity sensor 23, a dust particle sensor 24, an SDK26, an operation button 27, a gas concentration detection component 28 and a sewage flow monitoring component 29.

Detailed Description

Referring to fig. 1 to 2, the technical solution adopted by the present embodiment is: the system comprises a client 1, a cloud server 2, a local server 3, a production data acquisition module 4, a remote interaction module 5, a timing component 6, a piece counting component 7, a sensor 8, a real-time database 9, a large-screen real-time display 10, an interaction display screen 11, a central server 12, a central data acquisition module 13 and a data storage module 14, wherein the client 1 is provided with the local server 3, the production data acquisition module 4 and the remote interaction module 5, the production data acquisition module 4 is provided with the timing component 6 and the piece counting component 7, the running time of equipment is recorded through the timing component 6, the piece counting component 7 records the production quantity of the equipment in the running time through an operation button 27, the timing component 6 is connected with the sensor 8, the timing component 6 is connected with the real-time database 9 through the sensor 8, and the real-time database 9 is stored in the local server 3, the local server 3 is connected with a large-screen real-time display 10, acquired data are fed back to a real-time database 9 every second through a sensor 8 and then displayed in real time through the large-screen real-time display 10, the remote interaction module 5 is provided with an interaction display screen 11, the timing assembly 6 and the piece counting assembly 7 are both connected with the local server 3, the local server 3 is connected with the interaction display screen 11, the cloud service end 2 is provided with a central server 12, the central server 12 is provided with a central data acquisition module 13 and a data storage module 14, the central server 12 is used for reading production data in the data storage module 14 to analyze production efficiency and perform distributed layout, and has large data calculation and processing capacity, the central data acquisition module 13 is connected with the data storage module 14 to receive various data transmitted by the local server 3 through the central data acquisition module 13, and stored in a data storage module 14, and the central data acquisition module 13 is connected with the real-time database 9 in the local server 3.

Further, the counting component 7 is connected with an operation button 27, and is used for acquiring an automatic control program of the equipment or the execution times of the operation button 27, and calculating the production quantity of the equipment in the running time according to the execution times of the single product on the station where the equipment is located.

Further, the central server 12 is connected to an environmental monitoring system 15, and the central server 12 reports the received environmental protection data to the environmental monitoring system 15.

Further, the local server 3 is connected to a PLC control system 16.

Further, the PLC control system 16 is connected to a ventilation fan 20 and an air conditioner 25, and the PLC control system 16 controls the ventilation fan 20 and the air conditioner 25.

Further, the client 1 is provided with a monitoring module 17, an environmental data monitoring module 18 and an environmental protection acquisition module 19, and the monitoring module 17, the environmental data monitoring module 18 and the environmental protection acquisition module 19 are both connected with the local server 3.

Further, the monitoring module 17 is connected with a camera 21, the camera 21 can shoot real-time video pictures in real time, the camera 21 is provided with an SDK26, and real-time data of the video is returned to the local real-time database 9 through an installed SDK 26.

Further, the environmental data monitoring module 18 is connected with a temperature sensor 22, a humidity sensor 23 and a dust particle sensor 24, and the temperature sensor 22, the humidity sensor 23 and the dust particle sensor 24 can collect data information of temperature, humidity and dust particles.

Further, the environmental protection collection module 19 is connected to a gas concentration detection component 28 and a sewage flow rate monitoring component 29, and the gas concentration detection component 28 and the sewage flow rate monitoring component 29 can transmit the information of the gas concentration and the sewage flow rate to the local server 3 and the central server 12.

The working principle of the invention is as follows: the running time of the equipment is recorded by the timing component 6, the production quantity of the equipment in the running time is recorded by the counting component 7 through the operation button 27, the collected data are fed back to the real-time database 9 by the sensor 8 every second, and are displayed by the large-screen real-time display 10 in real time, the defect quantity can be counted in real time, the temperature sensor 22, the humidity sensor 23 and the dust particle sensor 24 which are connected by the environmental data monitoring module 18 can collect the data information of temperature, humidity and dust particles, an early warning line is reached to trigger an external alarm system, the loss is reduced, the operation cost is reduced, various data transmitted by the local server 3 are received by the central data collecting module 13 and are stored in the data storage module 14, the production data stored in the data storage module 14 are read by the central server 12, the production efficiency of each equipment is analyzed, and the historical production efficiency of the corresponding equipment is determined according, finding out the equipment with the lowest efficiency in the production line, displaying the equipment on an interactive display screen 11 through a local server 3, transmitting video data to the local server 3 in real time through a camera 21, returning the real-time data of the video to a local real-time database 9 through an installed SDK26, returning the real-time data to a large-screen real-time display 10 through the real-time database 9, displaying the real-time production condition of the factory production line, transmitting the video data to the interactive display screen 11 through the local server 3 for displaying or transmitting the video data to a central server 12, monitoring the operation area in the factory through a monitoring module 17, utilizing a shared cloud service end 2, checking the operation in the factory at any time and any place, controlling a ventilation fan 20 and an air conditioner 25 through a PLC control system 16, and then connecting a gas concentration detection component 28 and a flow monitoring component 29 through an environmental protection acquisition module 19, the information of gas concentration and sewage flow can be transmitted to the local server 3 and the central server 12, and the central server 12 reports the received environmental protection data to the environmental protection monitoring system 15.

After the technical scheme is adopted, the invention has the beneficial effects that: the enterprise investment can be reduced, the requirements of multiple enterprise internet of things can be met, the operation state of an enterprise can be improved, the operation cost of the factory intelligent monitoring and sharing cloud platform based on the internet of things is reduced, the overall practicability is high, and the market promotion value is large.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent substitutions made by those skilled in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (9)

1. The utility model provides a big screen monitoring system of wisdom which characterized in that: the system comprises a client (1), a cloud server (2), a local server (3), a production data acquisition module (4), a remote interaction module (5), a timing component (6), a piece counting component (7), a sensor (8), a real-time database (9), a large-screen real-time display (10), an interaction display screen (11), a central server (12), a central data acquisition module (13) and a data storage module (14), wherein the client (1) is provided with the local server (3), the production data acquisition module (4) and the remote interaction module (5), the production data acquisition module (4) is provided with the timing component (6) and the piece counting component (7), the timing component (6) is connected with the sensor (8), the timing component (6) is connected with the real-time database (9) through the sensor (8), and the real-time database (9) is stored in the local server (3), the remote interactive system is characterized in that the local server (3) is connected with a large-screen real-time display (10), the remote interactive module (5) is provided with an interactive display screen (11), the timing assembly (6) and the piece counting assembly (7) are connected with the local server (3), the local server (3) is connected with the interactive display screen (11), the cloud server (2) is provided with a central server (12), the central server (12) is provided with a central data acquisition module (13) and a data storage module (14), the central data acquisition module (13) is connected with the data storage module (14), and the central data acquisition module (13) is connected with a real-time database (9) in the local server (3).

2. The intelligent large-screen monitoring system according to claim 1, wherein: the piece counting assembly (7) is connected with an operation button (27).

3. The intelligent large-screen monitoring system according to claim 1, wherein: the central server (12) is connected with an environmental protection supervisory system (15).

4. The intelligent large-screen monitoring system according to claim 1, wherein: the local server (3) is connected with a PLC control system (16).

5. The intelligent large-screen monitoring system according to claim 4, wherein: the PLC control system (16) is connected with a ventilation fan (20) and an air conditioner (25).

6. The intelligent large-screen monitoring system according to claim 1, wherein: the client (1) is provided with a monitoring module (17), an environmental data monitoring module (18) and an environmental protection acquisition module (19), and the monitoring module (17), the environmental data monitoring module (18) and the environmental protection acquisition module (19) are connected with the local server (3).

7. The intelligent large-screen monitoring system according to claim 6, wherein: the monitoring module (17) is connected with a camera (21), and the camera (21) is provided with an SDK (26).

8. The intelligent large-screen monitoring system according to claim 6, wherein: the environmental data monitoring module (18) is connected with a temperature sensor (22), a humidity sensor (23) and a dust particle sensor (24).

9. The intelligent large-screen monitoring system according to claim 6, wherein: the environment-friendly acquisition module (19) is connected with a gas concentration detection assembly (27) and a sewage flow monitoring assembly (28).

Images