CN216253136U - Monitoring system based on distributed sensing processing plant - Google Patents

Abstract

The utility model discloses a monitoring system based on a distributed sensing processing plant, which comprises an intelligent processing plant with a plurality of groups of processing workshops, a plurality of groups of workshop monitoring modules and a monitoring control center, wherein the plurality of groups of workshop monitoring modules are arranged in the plurality of groups of processing workshops. The monitoring system comprises a plurality of groups of workshop monitoring modules and a detection control center, a relay network node transmits signals to the workshop monitoring modules and the detection control center, data information is transmitted to a data monitoring module of the monitoring control center, the data monitoring module judges data and transmits the data to a cloud service module in real time, a monitoring manager of a processing plant can also access the data of the cloud service module through a server client, when the data monitored by the data monitoring module is abnormal, an alarm notification module carries out alarm notification on the server client, the alarm notification mode comprises mail notification, telephone notification and short message notification, and therefore the monitoring manager of the processing plant can effectively respond to abnormal data of the processing plant.

Description

Monitoring system based on distributed sensing processing plant

Technical Field

The utility model relates to the technical field of processing plant monitoring systems, in particular to a processing plant monitoring system based on distributed sensing.

Background

The intelligent processing plant is a new stage of information development of the modern processing plant, and information management and service are enhanced by using the technology of the internet of things and the equipment monitoring technology on the basis of a digital processing plant; the production and marketing process is clearly mastered, the controllability of the production process is improved, manual intervention on a production line is reduced, production line data are timely and correctly collected, the production planning and the production progress are reasonable, and a green and intelligent means, an intelligent system and other emerging technologies are integrated to construct a high-efficiency, energy-saving, environment-friendly and environment-friendly humanized factory.

The distributed sensing network is introduced on the basis of an intelligent processing plant, so that the processing plant is managed more efficiently, and particularly, the monitoring work of a plurality of workshops of the processing plant is realized. However, in the prior art, an effective alarm function is not set for a processing plant monitored by a distributed sensing network, and when distributed monitoring is performed on a plurality of groups of processing workshops of an intelligent processing plant, real-time data monitored by a detection module is abnormal, and thus an alarm can not be timely and effectively performed on monitoring management personnel, so that a monitoring system based on the distributed sensing processing plant is required to be provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a monitoring system based on distributed sensing for a processing plant, which aims to solve the problems in the prior art.

In order to achieve the purpose, the utility model provides the following technical scheme: a monitoring system based on a distributed sensing processing plant comprises an intelligent processing plant with a plurality of groups of processing workshops, a plurality of groups of workshop monitoring modules and a monitoring control center, wherein the plurality of groups of workshop monitoring modules are arranged in the plurality of groups of processing workshops, each group of workshop monitoring modules corresponds to each group of processing workshops one by one, and each workshop monitoring module comprises a workshop environment monitoring unit, a workshop equipment monitoring unit and a workshop network monitoring unit;

the system comprises a plurality of groups of workshop network nodes and a plurality of groups of workshop network nodes of the workshop, wherein the workshop network nodes of the workshop are connected to a relay network node together, the workshop network nodes are connected to a monitoring control center through relay network node signals, the monitoring control center comprises a data monitoring module, a cloud service module and an alarm notification module, the data monitoring module is connected to the cloud service module through signals, and the cloud service module is connected to the alarm notification module through signals.

Preferably, the workshop environment monitoring unit is arranged on a processing workshop, the workshop equipment monitoring unit is arranged on workshop equipment of the processing workshop, and the workshop network monitoring unit is arranged on a network signal port of the processing workshop.

Preferably, the workshop environment monitoring unit comprises a temperature and humidity sensor and a power supply sensor, and the workshop equipment monitoring unit comprises a dust sensor, an illumination sensor and a monitoring camera.

Preferably, the monitoring content of the power supply sensor comprises power supply current, power supply voltage and power supply power, and the monitoring camera is a high-definition monitoring camera capable of being adjusted in a rotating mode.

Preferably, the relay network node is provided with a network identity authentication unit, and the external access node is connected to the relay network node through the network identity authentication unit.

Preferably, the cloud service module and the alarm notification module of the monitoring control center are provided with server clients, and the server clients are mobile phone APP clients and WEB clients.

Preferably, the monitoring control center further comprises a CPU, a network module and an input control device, and the monitoring control center is connected to the cloud service module through a network module signal.

Preferably, the alarm notification mode of the alarm notification module includes mail notification, telephone notification and short message notification.

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

the monitoring system comprises a plurality of groups of workshop monitoring modules, a detection control center, a relay network node, a plurality of groups of processing workshops, a plurality of groups of data monitoring modules, a plurality of groups of processing workshops and a plurality of alarm notification modes, wherein the data monitoring modules are used for transmitting data to the data monitoring modules of the monitoring control center, the data monitoring modules are used for judging the data, and transmitting the data to a cloud service module in real time, a processing plant monitoring manager can also access the data of the cloud service module through a server client, when the data monitored by the data monitoring modules are abnormal, the alarm notification module is used for carrying out alarm notification on the server client, the alarm notification modes comprise mail notification, telephone notification and short message notification, and therefore the processing plant monitoring manager can effectively respond to abnormal data of a processing plant.

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

FIG. 1 is a general framework of the present invention;

FIG. 2 is a schematic structural diagram of a workshop monitoring module according to the present invention;

FIG. 3 is a schematic diagram of an alarm notification module according to the present invention.

Detailed Description

The same reference numbers in different drawings identify the same or similar elements; it should be further understood that terms such as "first," "second," "third," "upper," "lower," "front," "back," "inner," "outer," "end," "portion," "section," "width," "thickness," "zone," and the like, as used herein, are merely used for convenience in referring to the figures and to aid in describing the utility model, and are not intended to limit the utility model.

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 only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Referring to fig. 1-3, the present invention provides a technical solution:

a monitoring system based on a distributed sensing processing plant comprises an intelligent processing plant with a plurality of groups of processing workshops, a plurality of groups of workshop monitoring modules and a monitoring control center, wherein the plurality of groups of workshop monitoring modules are arranged in the plurality of groups of processing workshops, each group of workshop monitoring modules corresponds to each group of processing workshops one by one, and each workshop monitoring module comprises a workshop environment monitoring unit, a workshop equipment monitoring unit and a workshop network monitoring unit;

the system comprises a plurality of groups of workshop network nodes and a plurality of groups of workshop network nodes of the workshop, wherein the workshop network nodes of the workshop are connected to a relay network node together, the workshop network nodes are connected to a monitoring control center through relay network node signals, the monitoring control center comprises a data monitoring module, a cloud service module and an alarm notification module, the data monitoring module is connected to the cloud service module through signals, and the cloud service module is connected to the alarm notification module through signals.

The monitoring system comprises a plurality of groups of workshop monitoring modules, a detection control center, a relay network node, a plurality of groups of processing workshops, a plurality of groups of data monitoring modules, a plurality of groups of processing workshops and a plurality of alarm notification modes, wherein the data monitoring modules are used for transmitting data to the data monitoring modules of the monitoring control center, the data monitoring modules are used for judging the data, and transmitting the data to a cloud service module in real time, a processing plant monitoring manager can also access the data of the cloud service module through a server client, when the data monitored by the data monitoring modules are abnormal, the alarm notification module is used for carrying out alarm notification on the server client, the alarm notification modes comprise mail notification, telephone notification and short message notification, and therefore the processing plant monitoring manager can effectively respond to abnormal data of a processing plant.

Specifically, as shown in fig. 2 and 3, the workshop monitoring module respectively monitors a workshop environment, workshop equipment and a workshop network in real time, can monitor the power supply condition and the temperature and humidity of the workshop environment through the power supply sensor and the temperature and humidity sensor, monitors the plug-in equipment through the dust sensor, the illumination sensor and the monitoring camera, and simultaneously monitors a network port of the processing workshop through the workshop network monitoring unit, so that various monitoring equipment can obtain corresponding monitoring data and monitoring information in the monitoring process;

the workshop environment monitoring unit is arranged on the processing workshop, the workshop equipment monitoring unit is arranged on workshop equipment of the processing workshop, and the workshop network monitoring unit is arranged on a network signal port of the processing workshop.

The workshop environment monitoring unit comprises a temperature and humidity sensor and a power supply sensor, and the workshop equipment monitoring unit comprises a dust sensor, an illumination sensor and a monitoring camera; the monitoring content of the power supply sensor comprises power supply current, power supply voltage and power supply power, and the monitoring camera is a high-definition monitoring camera which can be adjusted in a rotating mode; the relay network node is provided with a network identity authentication unit, and the external access node is connected to the relay network node through the network identity authentication unit.

The cloud service module and the alarm notification module of the monitoring control center are provided with server clients, and the server clients are set as mobile phone APP clients and WEB clients; the monitoring control center also comprises a CPU, a network module and input control equipment, and is connected with the cloud service module through a network module signal; the alarm notification mode of the alarm notification module comprises mail notification, telephone notification and short message notification.

Specifically, monitoring equipment can obtain corresponding monitoring data and monitoring information at the in-process of monitoring, and the staff can predetermine the monitoring data of monitoring control center's data monitoring module through input control equipment in advance to definite normal monitoring data scope then transmits to detecting control center at monitoring data and monitoring information, and monitoring data and monitoring information surpass the monitoring data scope, then trigger the alarm and inform the module.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a based on distributed sensing processing factory monitoring system, includes intelligent processing factory, a plurality of groups workshop monitoring module and the monitoring control center that has a plurality of groups workshop, its characterized in that: the workshop monitoring modules are arranged in the workshop groups, each workshop monitoring module group corresponds to each workshop group one by one, and each workshop monitoring module comprises a workshop environment monitoring unit, a workshop equipment monitoring unit and a workshop network monitoring unit;

the system comprises a plurality of groups of workshop network nodes and a plurality of groups of workshop network nodes of the workshop, wherein the workshop network nodes of the workshop are connected to a relay network node together, the workshop network nodes are connected to a monitoring control center through relay network node signals, the monitoring control center comprises a data monitoring module, a cloud service module and an alarm notification module, the data monitoring module is connected to the cloud service module through signals, and the cloud service module is connected to the alarm notification module through signals.

2. The process plant monitoring system based on distributed sensing of claim 1, wherein: the workshop environment monitoring unit is arranged on the processing workshop, the workshop equipment monitoring unit is arranged on workshop equipment of the processing workshop, and the workshop network monitoring unit is arranged on a network signal port of the processing workshop.

3. The process plant monitoring system based on distributed sensing of claim 2, wherein: the workshop environment monitoring unit comprises a temperature and humidity sensor and a power supply sensor, and the workshop equipment monitoring unit comprises a dust sensor, an illumination sensor and a monitoring camera.

4. The process plant monitoring system based on distributed sensing of claim 3, wherein: the monitoring content of the power supply sensor comprises power supply current, power supply voltage and power supply power, and the monitoring camera is a high-definition monitoring camera which can be adjusted in a rotating mode.

5. The process plant monitoring system based on distributed sensing of claim 1, wherein: the relay network node is provided with a network identity authentication unit, and the external access node is connected to the relay network node through the network identity authentication unit.

6. The process plant monitoring system based on distributed sensing of claim 1, wherein: the cloud service module and the alarm notification module of the monitoring control center are provided with server clients, and the server clients are set as mobile phone APP clients and WEB clients.

7. The process plant monitoring system based on distributed sensing of claim 6, wherein: the monitoring control center further comprises a CPU, a network module and an input control device, and the monitoring control center is connected to the cloud service module through a network module signal.

8. The process plant monitoring system based on distributed sensing of claim 7, wherein: the alarm notification mode of the alarm notification module comprises mail notification, telephone notification and short message notification.

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