CN117647285A - Equipment operation monitoring system and method based on industrial Internet of things - Google Patents

Abstract

The invention relates to an equipment operation monitoring system and method based on an industrial Internet of things, which belong to the technical field of electric digital data processing, and a matching scheme among a vibration sensing detection device, a sensor falling detection device, a storage plate bearing detection device, an infrared detection device and a sensor signal detection device is designed, so that real-time monitoring can be performed on a power distribution cabinet with an intact outside and a falling-off internal sensor formed by abnormal vibration, and the state of the sensor after falling-off can be comprehensively positioned and analyzed through each detection device, thereby being convenient for subsequent related management personnel to perform quick processing. By orderly matching actions among the detection devices, most of the detection devices can be prevented from being in an invalid action state for a long time; the state of the sensor can be clearly classified and positioned on the basis that each detection device only acts once, namely, progressive detection is adopted according to the state of the sensor possibly after falling off, so that relevant management staff can know details conveniently.

Description

Equipment operation monitoring system and method based on industrial Internet of things

Technical Field

The invention belongs to the technical field of electric digital data processing, and particularly relates to an equipment operation monitoring system and method based on an industrial Internet of things.

Background

The switch board that current stage was used commonly adopts temperature detector, residual current type electric fire to monitor the detector, smoke detector three kinds of detectors mutually supporting to use and monitor the conflagration, compares to monitor in traditional single one kind of detector that sets up, and the effectual sensitivity that improves its detection is convenient for in time discover the problem, carries out control alarm, has improved the security that the regulator cubicle used, and secondly temperature detector, residual current type electric fire monitor the detector, smoke detector three kinds of detectors all set up inside the regulator cubicle, further improves the sensitivity of control. The power distribution cabinet (CN 216958925U) used at present comprises a cabinet body, a base, a cabinet door, a supporting frame arranged in the cabinet body, a photoelectric sensor, a carbon dioxide sensor, a chemical material box, an electric box and the like, and can monitor fire conditions in the electric cabinet, effectively slow down the flame spreading speed and even extinguish the fire.

However, due to special conditions such as earthquake natural disasters, vibration during transportation and the like, the photoelectric sensor and the carbon dioxide sensor in the power distribution cabinet possibly fall off from the top of the power distribution cabinet, the falling phenomenon is generated in the power distribution cabinet, and related staff are easily confused by the fact that the power distribution cabinet is intact, so that inspection of the inside of the power distribution cabinet is ignored.

Therefore, an equipment operation monitoring system, an equipment operation monitoring method and a storage medium based on the industrial Internet of things are needed to be designed at the present stage to solve the problems.

Disclosure of Invention

The invention aims to provide an equipment operation monitoring system, method and storage medium based on the industrial Internet of things, which are used for solving the technical problems in the prior art, and because special conditions such as earthquake natural disasters, vibration during transportation and the like occur, a photoelectric sensor and a carbon dioxide sensor in a power distribution cabinet possibly fall off from the top of the power distribution cabinet, and the falling-off phenomenon occurs in the power distribution cabinet, related staff are easily confused by the fact that the outside of the power distribution cabinet is intact, so that inspection of the inside of the power distribution cabinet is neglected.

In order to achieve the above purpose, the technical scheme of the invention is as follows:

the equipment operation monitoring system based on the industrial Internet of things comprises a vibration sensing detection device, a sensor falling detection device, an object placing plate bearing detection device, an infrared detection device, a sensor signal detection device and a main control device, wherein the main control device is respectively connected with the vibration sensing detection device, the sensor falling detection device, the object placing plate bearing detection device, the infrared detection device and the sensor signal detection device;

the vibration induction detection device is used for detecting whether the target power distribution cabinet has abnormal vibration or not;

the sensor falling detection device is used for detecting whether a sensor in the target power distribution cabinet falls off or not;

the object placing plate bearing detection device is used for detecting whether a movable object placing plate in the target power distribution cabinet is abnormal in bearing or not;

the infrared detection device is used for detecting whether the sensor is suspended in the target power distribution cabinet or not;

the sensor signal detection device is used for detecting whether each sensor in the target power distribution cabinet supports signal acquisition and transmission;

the main control device is used for controlling the opening and closing of the vibration sensing detection device, the sensor falling detection device, the object placing plate bearing detection device, the infrared detection device and the sensor signal detection device.

Further, the main control device controls the initial state of the vibration sensing detection device to be normally open, and controls the initial states of the sensor falling detection device, the object placing plate bearing detection device, the infrared detection device and the sensor signal detection device to be normally closed;

when the vibration induction detection device detects that the target power distribution cabinet has abnormal vibration, the main control device controls the sensor falling detection device to be started;

when the sensor falling detection device detects that a sensor in the target power distribution cabinet falls off, the main control device controls the object placing plate bearing detection device to be started;

when the object placing plate bearing detection device detects that the bearing of the movable object placing plate in the target power distribution cabinet is abnormal, the main control device controls the infrared detection device to be started;

when the infrared detection device detects that the sensor is suspended in the target power distribution cabinet, the main control device controls the sensor signal detection device to be started;

when the sensor signal detection device detects that each sensor in the target power distribution cabinet supports signal acquisition and transmission, the main control device feeds back to the management terminal.

Further, the vibration sensing detection device comprises a vibration sensor, a first data processor and a first data memory, wherein the first data processor is respectively connected with the vibration sensor, the first data memory and the main control device;

the vibration sensor is used for detecting real-time vibration data of the target power distribution cabinet;

the first data storage is used for storing preset vibration data of the target power distribution cabinet;

when the real-time vibration data meet the preset vibration data, the first data processor feeds back abnormal vibration to the main control device, wherein the abnormal vibration occurs to the target power distribution cabinet.

Further, the sensor falling detection device comprises a displacement sensor, a second data processor and a second data memory, wherein the second data processor is respectively connected with the displacement sensor, the second data memory and the main control device;

the displacement sensor is used for detecting real-time displacement data of a sensor in the target power distribution cabinet;

the second data storage is used for storing preset displacement data of the sensor in the target power distribution cabinet;

when the real-time displacement data meet the preset displacement data, the second data processor feeds back to the main control device that the sensor in the target power distribution cabinet falls off.

Further, the object placing plate bearing detection device comprises a bearing sensor, a third data processor and a third data memory, wherein the third data processor is respectively connected with the bearing sensor, the third data memory and the main control device;

the bearing sensor is used for detecting real-time bearing data on a movable object placing plate in the target power distribution cabinet;

the third data storage is used for storing preset bearing data on a movable object placing plate in the target power distribution cabinet;

when the real-time bearing data meet the preset bearing data, the third data processor feeds back abnormal bearing of the movable object placing plate in the target power distribution cabinet to the main control device.

Further, the system also comprises a wireless communication device, and the main control device is connected with the management terminal through the wireless communication device.

The equipment operation monitoring method based on the industrial Internet of things adopts the equipment operation monitoring system based on the industrial Internet of things to monitor the equipment operation.

A storage medium having stored thereon a computer program which when executed performs an industrial internet of things based device operation monitoring method as described above.

Compared with the prior art, the invention has the following beneficial effects:

one of the beneficial effects of this scheme lies in, design vibrations response detection device, sensor detection device that drops, put thing board bearing detection device, infrared detection device, cooperation scheme between the sensor signal detection device, can carry out real-time supervision to the switch board that "outside is intact, inside sensor drops" that forms because unusual vibrations to, can carry out comprehensive location analysis to the state that the sensor drops after being located through each detection device, be convenient for follow-up relevant managers and carry out quick processing. The vibration sensing detection device, the sensor falling detection device, the object placing plate bearing detection device, the infrared detection device and the sensor signal detection device are orderly matched to act, so that most of the detection devices can be prevented from being in an invalid action state for a long time; the state of the sensor can be clearly classified and positioned on the basis that each detection device only acts once, namely, progressive detection is adopted according to the state of the sensor possibly after falling off, so that relevant management staff can know details conveniently.

Drawings

Fig. 1 is a schematic system configuration diagram of the embodiment.

Fig. 2 is a schematic diagram of the system operation principle of the embodiment.

Detailed Description

For the purpose of making the technical solution and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and examples. It should be understood that the particular embodiments described herein are illustrative only and are not intended to limit the invention, i.e., the embodiments described are merely some, but not all, of the embodiments of the invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by a person skilled in the art without making any inventive effort, are intended to be within the scope of the present invention. It is noted that relational terms such as "first" and "second", and the like, are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element.

As shown in fig. 1, an equipment operation monitoring system based on the industrial internet of things is provided, which comprises a vibration sensing detection device, a sensor falling detection device, an object placing plate bearing detection device, an infrared detection device, a sensor signal detection device and a main control device, wherein the main control device is respectively connected with the vibration sensing detection device, the sensor falling detection device, the object placing plate bearing detection device, the infrared detection device and the sensor signal detection device;

the vibration induction detection device is used for detecting whether the target power distribution cabinet has abnormal vibration or not;

the sensor falling detection device is used for detecting whether a sensor in the target power distribution cabinet falls off or not;

the object placing plate bearing detection device is used for detecting whether a movable object placing plate in the target power distribution cabinet is abnormal in bearing or not;

the infrared detection device is used for detecting whether the sensor is suspended in the target power distribution cabinet or not;

the sensor signal detection device is used for detecting whether each sensor in the target power distribution cabinet supports signal acquisition and transmission;

the main control device is used for controlling the opening and closing of the vibration sensing detection device, the sensor falling detection device, the object placing plate bearing detection device, the infrared detection device and the sensor signal detection device.

In the scheme, the cooperation scheme among the vibration sensing detection device, the sensor falling detection device, the object placing plate bearing detection device, the infrared detection device and the sensor signal detection device is designed, so that real-time monitoring can be carried out on a power distribution cabinet which is formed by abnormal vibration and is complete in the outside and falls off of an internal sensor, and the state of the sensor falling off can be comprehensively positioned and analyzed through each detection device, so that subsequent related management personnel can conveniently and rapidly process the state.

Further, as shown in fig. 2, the main control device controls the initial state of the vibration sensing detection device to be normally open, and controls the initial states of the sensor falling detection device, the object placing plate bearing detection device, the infrared detection device and the sensor signal detection device to be normally closed;

when the vibration induction detection device detects that the target power distribution cabinet has abnormal vibration, the main control device controls the sensor falling detection device to be started;

when the sensor falling detection device detects that a sensor in the target power distribution cabinet falls off, the main control device controls the object placing plate bearing detection device to be started; after the sensor falls off, the sensor can directly fall onto the object placing plate below, or can be hung in the air due to the fact that the lead is pulled, and therefore the object placing plate bearing detection device is required to confirm.

When the object placing plate bearing detection device detects that the bearing of the movable object placing plate in the target power distribution cabinet is abnormal, the main control device controls the infrared detection device to be started; the infrared detection device is matched with the infrared receiving unit through the infrared transmitting unit, and whether the sensor is hung in the air by a wire or not can be judged.

When the infrared detection device detects that the sensor is suspended in the target power distribution cabinet, the main control device controls the sensor signal detection device to be started;

when the sensor signal detection device detects that each sensor in the target power distribution cabinet supports signal acquisition and transmission, the main control device feeds back to the management terminal. When the sensor is suspended in the air by the wire, it may still be able to work properly, and the relevant manager can adaptively schedule the time for investigation without having to deal with it immediately after knowing the current situation.

In the scheme, the vibration sensing detection device, the sensor falling detection device, the object placing plate bearing detection device, the infrared detection device and the sensor signal detection device are orderly matched to act, so that most of the detection devices can be prevented from being in an invalid action state for a long time; the state of the sensor can be clearly classified and positioned on the basis that each detection device only acts once, namely, progressive detection is adopted according to the state of the sensor possibly after falling off, so that relevant management staff can know details conveniently.

Further, the vibration sensing detection device comprises a vibration sensor, a first data processor and a first data memory, wherein the first data processor is respectively connected with the vibration sensor, the first data memory and the main control device;

the vibration sensor is used for detecting real-time vibration data of the target power distribution cabinet;

the first data storage is used for storing preset vibration data of the target power distribution cabinet;

when the real-time vibration data meet the preset vibration data, the first data processor feeds back abnormal vibration to the main control device, wherein the abnormal vibration occurs to the target power distribution cabinet.

Further, the sensor falling detection device comprises a displacement sensor, a second data processor and a second data memory, wherein the second data processor is respectively connected with the displacement sensor, the second data memory and the main control device;

the displacement sensor is used for detecting real-time displacement data of a sensor in the target power distribution cabinet;

the second data storage is used for storing preset displacement data of the sensor in the target power distribution cabinet;

when the real-time displacement data meet the preset displacement data, the second data processor feeds back to the main control device that the sensor in the target power distribution cabinet falls off.

Further, the object placing plate bearing detection device comprises a bearing sensor, a third data processor and a third data memory, wherein the third data processor is respectively connected with the bearing sensor, the third data memory and the main control device;

the bearing sensor is used for detecting real-time bearing data on a movable object placing plate in the target power distribution cabinet;

the third data storage is used for storing preset bearing data on a movable object placing plate in the target power distribution cabinet;

when the real-time bearing data meet the preset bearing data, the third data processor feeds back abnormal bearing of the movable object placing plate in the target power distribution cabinet to the main control device.

Further, the system also comprises a wireless communication device, wherein the main control device is connected with the management terminal through the wireless communication device in a network manner, so that remote data transmission is realized.

The equipment operation monitoring method based on the industrial Internet of things adopts the equipment operation monitoring system based on the industrial Internet of things to monitor the equipment operation.

A storage medium having stored thereon a computer program which when executed performs an industrial internet of things based device operation monitoring method as described above.

The above is a preferred embodiment of the present invention, and all changes made according to the technical solution of the present invention belong to the protection scope of the present invention when the generated functional effects do not exceed the scope of the technical solution of the present invention.

Claims (8)

1. The equipment operation monitoring system based on the industrial Internet of things is characterized by comprising a vibration sensing detection device, a sensor falling detection device, an object placing plate bearing detection device, an infrared detection device, a sensor signal detection device and a main control device, wherein the main control device is respectively connected with the vibration sensing detection device, the sensor falling detection device, the object placing plate bearing detection device, the infrared detection device and the sensor signal detection device;

the vibration induction detection device is used for detecting whether the target power distribution cabinet has abnormal vibration or not;

the sensor falling detection device is used for detecting whether a sensor in the target power distribution cabinet falls off or not;

the object placing plate bearing detection device is used for detecting whether a movable object placing plate in the target power distribution cabinet is abnormal in bearing or not;

the infrared detection device is used for detecting whether the sensor is suspended in the target power distribution cabinet or not;

the sensor signal detection device is used for detecting whether each sensor in the target power distribution cabinet supports signal acquisition and transmission;

the main control device is used for controlling the opening and closing of the vibration sensing detection device, the sensor falling detection device, the object placing plate bearing detection device, the infrared detection device and the sensor signal detection device.

2. The equipment operation monitoring system based on the industrial internet of things according to claim 1, wherein the main control device controls the initial state of the vibration sensing detection device to be normally open, and controls the initial states of the sensor falling detection device, the object placing plate bearing detection device, the infrared detection device and the sensor signal detection device to be normally closed;

when the vibration induction detection device detects that the target power distribution cabinet has abnormal vibration, the main control device controls the sensor falling detection device to be started;

when the sensor falling detection device detects that a sensor in the target power distribution cabinet falls off, the main control device controls the object placing plate bearing detection device to be started;

when the object placing plate bearing detection device detects that the bearing of the movable object placing plate in the target power distribution cabinet is abnormal, the main control device controls the infrared detection device to be started;

when the infrared detection device detects that the sensor is suspended in the target power distribution cabinet, the main control device controls the sensor signal detection device to be started;

when the sensor signal detection device detects that each sensor in the target power distribution cabinet supports signal acquisition and transmission, the main control device feeds back to the management terminal.

3. The equipment operation monitoring system based on the industrial internet of things according to claim 2, wherein the vibration sensing detection device comprises a vibration sensor, a first data processor and a first data memory, and the first data processor is respectively connected with the vibration sensor, the first data memory and the main control device;

the vibration sensor is used for detecting real-time vibration data of the target power distribution cabinet;

the first data storage is used for storing preset vibration data of the target power distribution cabinet;

when the real-time vibration data meet the preset vibration data, the first data processor feeds back abnormal vibration to the main control device, wherein the abnormal vibration occurs to the target power distribution cabinet.

4. The industrial internet of things-based equipment operation monitoring system according to claim 2, wherein the sensor falling detection device comprises a displacement sensor, a second data processor and a second data memory, and the second data processor is respectively connected with the displacement sensor, the second data memory and the main control device;

the displacement sensor is used for detecting real-time displacement data of a sensor in the target power distribution cabinet;

the second data storage is used for storing preset displacement data of the sensor in the target power distribution cabinet;

when the real-time displacement data meet the preset displacement data, the second data processor feeds back to the main control device that the sensor in the target power distribution cabinet falls off.

5. The equipment operation monitoring system based on the industrial internet of things according to claim 2, wherein the object placing plate bearing detection device comprises a bearing sensor, a third data processor and a third data memory, and the third data processor is respectively connected with the bearing sensor, the third data memory and the main control device;

the bearing sensor is used for detecting real-time bearing data on a movable object placing plate in the target power distribution cabinet;

the third data storage is used for storing preset bearing data on a movable object placing plate in the target power distribution cabinet;

when the real-time bearing data meet the preset bearing data, the third data processor feeds back abnormal bearing of the movable object placing plate in the target power distribution cabinet to the main control device.

6. The industrial internet of things-based equipment operation monitoring system of claim 2, further comprising a wireless communication device, wherein the master control device is connected with the management terminal through the wireless communication device.

7. An industrial internet of things-based device operation monitoring method, wherein the industrial internet of things-based device operation monitoring system according to any one of claims 1 to 6 is used for device operation monitoring.

8. A storage medium having stored thereon a computer program which when executed performs the method of industrial internet of things based device operation monitoring of claim 7.