CN213601352U - Equipment state sensing device through physical isolator - Google Patents

Abstract

The utility model discloses a through equipment state perception device of physics isolator. The device comprises a data acquisition module, a physical isolator penetration module, a data processing server, an application server, a physical isolator and a data perception display screen; the data acquisition module is positioned in a production area at one end of the physical isolator, and the data processing server, the application server and the data perception display screen are positioned in an office area at the other end of the physical isolator. The device for sensing the equipment state through the physical isolator in the utility model can transmit the equipment state which needs to be manually checked in a production area to an office area through the data acquisition module by using the physical isolator penetrating module, thereby greatly improving the working efficiency and ensuring the normal operation of the equipment; meanwhile, the alarm can be given to abnormal data in time, so that rapid positioning and response are convenient to carry out, and major accidents are prevented.

Description

Equipment state sensing device through physical isolator

Technical Field

The utility model relates to a perception device field, in particular to equipment state perception device through physical isolator.

Background

In order to meet the social market economic development requirements, the power industry implements a plant and network separation mechanism from a system, namely a power plant production enterprise and a power grid distribution and dispatching enterprise respectively. Through rapid development for many years, equipment state perception is established to play an increasingly important role in improving production efficiency and improving management level. The equipment state perception means that professional technologies and methods are adopted to comprehensively perceive software and hardware environments of information equipment and systems, computer networks, application systems and the like, and the purpose of the method is to ensure normal operation of the systems and the equipment, further improve the operation efficiency of the equipment and the availability of the systems, and further improve the sustainability and the economical efficiency of production.

The physical isolator is a safety product widely used in the power industry and energy, and has the effect of ensuring that the network of a production area is independent, and data can only be transmitted in a single direction. For technicians of the operation and maintenance management of the power equipment, the locations of an office area and a production area are different, and due to the existence of the physical isolator, the daily operation and maintenance work of the technicians is manually operated from the office area to an equipment machine room of the production area, so that the operation is complex, the consumed time is long, the global management is lacked, the operation state and the fault management and control of the whole network are lacked in the first time, the quick positioning and response aiming at the abnormal condition can not be carried out, and the accident is easily caused.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an equipment state perception device through physical isolator.

According to an aspect of the present invention, there is provided an apparatus state sensing device through a physical isolator, comprising a data acquisition module, a physical isolator penetration module, a data processing server, an application server, a physical isolator, and a data sensing display screen;

the data acquisition module is connected with the physical isolator penetration module, the physical isolator penetration module is connected with the data processing server, the data processing server is connected with the application server, and the application server is connected with the data sensing display screen;

the data acquisition module is positioned in a production area at one end of the physical isolator, and the data processing server, the application server and the data perception display screen are positioned in an office area at the other end of the physical isolator.

The device for sensing the equipment state through the physical isolator in the utility model can transmit the equipment state which needs to be manually checked in a production area to an office area through the data acquisition module by using the physical isolator penetrating module, thereby greatly improving the working efficiency and ensuring the normal operation of the equipment; meanwhile, the alarm can be given to abnormal data in time, so that rapid positioning and response are convenient to carry out, and major accidents are prevented.

In some embodiments, the data acquisition module comprises a data acquisition unit and an environmental acquisition unit. Therefore, the classification of the data acquisition module is set, and the two acquisition units are respectively used for acquiring the data and the environmental data of the equipment.

In some embodiments, the data acquisition unit comprises a first acquisition portion, a second acquisition portion, a third acquisition portion, and a fourth acquisition portion; the first collection portion is connected with the interface machine, the second collection portion is connected with the storage device, the third collection portion is connected with the safety device, and the fourth collection portion is connected with the switch. Therefore, the specific content and the connection mode of the data acquisition unit are set, and all the parts are respectively used for acquiring related data of different devices.

In some embodiments, the first, second, third and fourth acquisition portions each have a data acquisition probe. Thus, each acquisition unit acquires data of each device through the data acquisition probe.

In some embodiments, a communication module and a plurality of sensors are disposed on the environment acquisition unit, each of the sensors is connected to the communication module, and the communication module is connected to the physical isolator penetration module. Therefore, the specific content and the connection mode of the environment acquisition unit are set, wherein the sensor is used for detecting the environment condition, and the communication module is used for transmitting data.

In some embodiments, each of the sensors includes a temperature sensor and a humidity sensor. Therefore, the type of the sensor is set, and other suitable types of sensors can be added according to actual conditions.

In some embodiments, the physical isolator penetration module is connected with the physical isolator and is capable of unidirectional data transfer. Therefore, the collected data can be transmitted to equipment in an office area in a one-way mode through the physical isolator penetration module.

In some embodiments, the data-aware display is a large-sized LED liquid crystal display. Therefore, the data perception display screen can visually display the processed data.

In some embodiments, the system further comprises an alarm device, wherein the alarm is connected with the application server. Therefore, the alarm device can alarm the abnormal data condition detected by the application server in time.

In some embodiments, the alarm device is an audible and visual alarm. Thus, the kind of the alarm device is set.

Drawings

Fig. 1 is a schematic structural diagram of an apparatus state sensing device through a physical isolator according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of the data acquisition unit shown in FIG. 1;

fig. 3 is a schematic structural diagram of the environment acquisition unit shown in fig. 1.

Detailed Description

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

Fig. 1 schematically shows a structure of an apparatus state sensing device through a physical isolator according to an embodiment of the present invention. As shown in fig. 1, the device mainly includes a data acquisition module, a physical isolator penetration module, a data processing server, an application server, a physical isolator, a data sensing display screen, and the like. The device is used for sensing and monitoring the operation maintenance pile body of each power device in real time, and each power device mainly comprises an interface machine, various storage devices, various safety devices, a switch and the like; the operation data of each power device needs to be sensed and monitored, and the surrounding environment of each power device needs to be sensed and monitored.

In the device, a data acquisition module is connected with a physical isolator penetration module, the physical isolator penetration module is connected with a data processing server, the data processing server is connected with an application server, and the application server is connected with a data perception display screen. The connection may be made by a physical connector such as a plug and a cable, or may be a connection capable of transmitting electrical signals between two modules and devices.

The physical isolator comprises corresponding isolation equipment, the physical isolator can isolate the region where each module of the device is located into a production region and an office region, the two regions are respectively located at two ends of the physical isolator, the data acquisition module is located in the production region, the data processing server, the application server and the data perception display screen are all located in the office region, the physical isolator penetrates through the module to be connected with the physical isolator, and the production region can be located to transmit data to the office region in a one-way mode.

The data acquisition module mainly comprises a data acquisition unit and an environment acquisition unit, wherein the data acquisition unit is used for acquiring the data of the operation of each device in the production area, and the environment acquisition unit is used for acquiring the data of the relevant environmental parameters in the production area.

Fig. 2 shows the structure of the data acquisition unit in fig. 1. As shown in fig. 2, the data acquisition unit includes at least one first acquisition unit, at least one second acquisition unit, at least one third acquisition unit, and at least one fourth acquisition unit, and the specific number of the first acquisition unit, the second acquisition unit, the third acquisition unit, and the fourth acquisition unit can be selected according to the actual situation. The first acquisition part is connected with the interface machine and is used for acquiring data such as the temperature, the running state and the like of a CPU (central processing unit), a mainboard and a fan of the interface machine; the second acquisition part is connected with the storage equipment and is used for acquiring data of the storage equipment, such as the temperature, the running state and the like of a CPU (central processing unit), a mainboard and a fan; the third acquisition part is connected with the safety equipment and is used for acquiring data such as safety events, running states and the like of the safety equipment; the fourth acquisition part is connected with the switch and is used for acquiring data such as the running state of the switch and the network environment. And each collection portion is connected with the physical isolator penetrating module, and data can be transmitted to equipment in an office area in a one-way mode through the physical isolator penetrating module.

Preferably, the first acquisition part, the second acquisition part, the third acquisition part and the fourth acquisition part are respectively provided with at least one data acquisition probe, and each acquisition part acquires the data of the equipment through the data acquisition probe. Wherein, the type and model of each probe can be selected according to actual need.

Fig. 3 shows the structure of the environment acquisition unit of fig. 1. As shown in fig. 3, the environment acquisition unit is provided with a communication module and a plurality of sensors, each sensor is used for sensing various environment parameters of the production area, and the number, the type and the model of the sensors can be selected according to actual needs, and the sensors generally include a temperature sensor, a humidity sensor and other sensors of appropriate types. Each sensor is connected with the communication module and can send sensing data of the sensor to the communication module, the communication module is connected with the physical isolator penetrating module, and the data can be transmitted to equipment in an office area in a one-way mode through the physical isolator penetrating module.

The physical isolator penetration module can configure the ports of the physical isolator by means of intercepting the TCP connection. The TCP/IP head in the data packet can be stripped from the end where the production area is located, the data collected by the data collection module is converted into a format specified by the physical isolator through protocols such as TCP and the like, and then the data is forwarded to the equipment of the physical isolator; and the office area terminal can receive data from the equipment of the physical isolator and convert the data into a UDP format, so that an upper layer program can penetrate through the physical isolator and be received by the data processing server. Therefore, data can be transmitted from the data acquisition module to the data processing server in a single direction through the single-direction data channel FIFO.

Preferably, the data perception display screen is a large-size LED liquid crystal display screen, processed data can be displayed visually and conveniently, and the data comprises parameter data of some field devices acquired by the data acquisition unit and field actual environment data acquired by the environment acquisition unit.

Correspondingly, the system also comprises an alarm device which is connected with the application server. When the data sensing display screen displays abnormal data, the alarm device can automatically give an alarm.

Further preferably, the alarm device is an audible and visual alarm, and when the alarm device gives an alarm, the alarm is given through sound, and the light flickers red. In addition, the application server can be set to be capable of pushing the alarm to a short message platform or a medium such as WeChat for alarming or the type of WeChat for alarming.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (10)

1. An apparatus for sensing device status through a physical isolator, comprising: the system comprises a data acquisition module, a physical isolator penetration module, a data processing server, an application server, a physical isolator and a data perception display screen;

the data acquisition module is connected with the physical isolator penetration module, the physical isolator penetration module is connected with the data processing server, the data processing server is connected with the application server, and the application server is connected with the data sensing display screen;

the data acquisition module is positioned in a production area at one end of the physical isolator, and the data processing server, the application server and the data perception display screen are positioned in an office area at the other end of the physical isolator.

2. The device state sensing apparatus via a physical isolator as claimed in claim 1, wherein: the data acquisition module comprises a data acquisition unit and an environment acquisition unit.

3. The device state sensing apparatus via a physical isolator according to claim 2, wherein: the data acquisition unit comprises a first acquisition part, a second acquisition part, a third acquisition part and a fourth acquisition part; the first collection portion is connected with the interface machine, the second collection portion is connected with the storage device, the third collection portion is connected with the safety device, and the fourth collection portion is connected with the switch.

4. The device state sensing apparatus via a physical isolator as claimed in claim 3, wherein: the first acquisition part, the second acquisition part, the third acquisition part and the fourth acquisition part are all provided with data acquisition probes.

5. The device state sensing apparatus via a physical isolator according to claim 2, wherein: the environment acquisition unit is provided with a communication module and a plurality of sensors, each sensor is connected with the communication module, and the communication module is connected with the physical isolator penetration module.

6. The device state sensing apparatus via a physical isolator as claimed in claim 5, wherein: each of the sensors includes a temperature sensor and a humidity sensor.

7. The device state sensing apparatus via a physical isolator as claimed in claim 1, wherein: the physical isolator penetration module is connected with the physical isolator and can transmit data in a single direction.

8. The device state sensing apparatus via a physical isolator as claimed in claim 1, wherein: the data perception display screen is a large-size LED liquid crystal display screen.

9. An apparatus state sensing device through a physical isolator according to any one of claims 1-8, wherein: the system also comprises an alarm device, wherein the alarm is connected with the application server.

10. The apparatus of claim 9, wherein the apparatus state sensing device comprises: the alarm device is an audible and visual alarm.

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