CN216253056U - Hydraulic station monitoring system - Google Patents

Abstract

The utility model provides a hydraulic station monitoring system, comprising: the system comprises an image acquisition module, an identification module and an output module, wherein the image acquisition module is used for acquiring images in the hydraulic station, the identification module is used for identifying the acquired images, and the output module is used for outputting identification results; the output end of the image acquisition module is connected with the input end of the image identification module, and the output end of the image identification module is connected with the input end of the output module. This scheme examines control and collection in real time to the condition in the hydraulic pressure station through image acquisition module to send the image of gathering for identification module, carry out image recognition through identification module, with judge the condition in the hydraulic pressure station, and export through output module, need not to patrol and examine the mode that personnel know the condition in the hydraulic pressure station through patrolling and examining, convenient to use and labour saving and time saving.

Description

Hydraulic station monitoring system

Technical Field

The utility model belongs to the field of industrial monitoring management, and particularly relates to a hydraulic station monitoring system.

Background

A large number of hydraulic stations are distributed on a ferrous metallurgy production line, the hydraulic stations are distributed on each production line, and the time spent by a large patrol worker in a related area to patrol once is long. Because the oil leakage of equipment in the hydraulic station cannot be found in time, a large amount of oil is accumulated in the hydraulic station, and the ground cleaning is damaged. At present, a production business mainly depends on a point inspection worker to inspect a hydraulic station, and a place where oil leakage is found informs a maintenance worker to clean in a form of a work order. As the number of the patrol stations is large, the time spent is long, so that the workload of workers is heavy, and the problems of poor ground cleaning of the hydraulic station and the like occur.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned drawbacks of the prior art, it is an object of the present invention to provide a hydraulic station monitoring system for enabling an efficient monitoring of conditions within a hydraulic station.

To achieve the above and other related objects, the present invention provides a hydraulic station monitoring system, comprising: the system comprises an image acquisition module, an identification module, an output module and a verification module, wherein the image acquisition module is used for acquiring images in the hydraulic station, the identification module is used for identifying the acquired images, the output module is used for outputting identification results, and the verification module is used for verifying the accuracy of the identification results of the identification module;

the output end of the image acquisition module is connected with the input end of the identification module, the output end of the identification module is connected with the input end of the output module, and the verification module is connected with the identification module.

Optionally, the image acquisition module includes a ground image acquisition submodule for performing ground image acquisition in the hydraulic station, an equipment image acquisition submodule for performing equipment image acquisition in the hydraulic station, and a pipeline image acquisition submodule for acquiring a pipeline image, the ground image acquisition submodule, the equipment image acquisition submodule, and the pipeline image acquisition submodule are respectively installed at corresponding detection points, and output ends of the ground image acquisition submodule, the equipment image acquisition submodule, and the pipeline image acquisition submodule are all connected to an input end of the identification module.

Optionally, the collecting end of the ground image collecting submodule is installed in alignment with the ground in the hydraulic station, the collecting end of the equipment image collecting submodule is installed in alignment with the monitoring equipment needed by the equipment image collecting submodule, and the collecting end of the pipeline image collecting submodule is installed in alignment with the pipeline in the hydraulic station.

Optionally, the device image acquisition submodule includes a valve stage image acquisition unit, a pump set image acquisition unit, and an energy accumulator image acquisition unit, where an output end of the valve stage image acquisition unit is connected with an input end of the identification module.

Optionally, the ground image acquisition sub-module includes a plurality of ground image acquisition units for respectively acquiring ground images at different detection points; the pipeline image acquisition submodule comprises a plurality of management image acquisition units for respectively acquiring images of different pipeline detection points, and the output ends of the ground image acquisition unit and the pipeline image acquisition unit are connected with the input end of the identification module.

Optionally, the identification module includes a storage sub-module for storing a standard image in the hydraulic station, and a judgment sub-module for comparing and identifying the image acquired by the image acquisition module with the standard image stored in the storage sub-module, the storage sub-module is connected with the judgment sub-module, and an output end of the judgment sub-module is connected with an input end of the output module.

Optionally, the verification module includes an information input sub-module for inputting an inspection result after the inspection personnel check the site according to the output result of the output module, and an identification correction sub-module for performing comparison correction on the site information input by the inspection personnel and the identification result of the identification module; and the identification correction submodule is in data connection with the identification module.

Optionally, the output module includes a display sub-module for displaying the recognition result of the recognition module and an alarm sub-module for giving an alarm when the recognition result is abnormal.

As described above, the hydraulic station monitoring system of the present invention has the following beneficial effects:

according to the scheme, the situation in the hydraulic station is monitored and collected in real time through the image collection module, the collected image is sent to the identification module, image identification is carried out through the identification module, the situation in the hydraulic station is judged, and output is carried out through the output module. And when the judgment result of the identification module is incorrect, the identification module is corrected through the verification module so as to increase the identification accuracy of the identification module. This scheme need not to patrol and examine the interior condition of hydraulic pressure station through the mode of patrolling and examining, convenient to use and labour saving and time saving.

Drawings

Fig. 1 is a block diagram of a hydraulic station monitoring system according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will become apparent to those skilled in the art from the present disclosure.

Examples

As shown in fig. 1, the present embodiment provides a hydraulic station monitoring system, including: the system comprises an image acquisition module, an identification module and an output module, wherein the image acquisition module is used for acquiring images in the hydraulic station, the identification module is used for identifying detection images, and the output module is used for outputting identification results; the output end of the image acquisition module is connected with the input end of the identification module, and the output end of the identification module is connected with the input end of the output module.

The image acquisition module comprises a ground image acquisition submodule for ground image detection, an equipment image acquisition submodule for equipment image acquisition in the hydraulic station and a pipeline image acquisition submodule, wherein the ground image acquisition submodule, the equipment image acquisition submodule and the pipeline image acquisition submodule are respectively arranged at corresponding detection points, and the output ends of the ground image acquisition submodule, the equipment image acquisition submodule and the pipeline image acquisition submodule are all connected with the input end of the identification module. The acquisition end of the ground image acquisition submodule is aligned with the ground in the hydraulic station and is installed, and the equipment image acquisition submodule is aligned with the required monitoring equipment and is installed. The ground image acquisition submodule comprises ground image acquisition units of a plurality of detection stations, and the ground image acquisition units respectively acquire ground images of different areas. The pipeline image acquisition submodule comprises a plurality of pipeline image acquisition units, and the plurality of pipeline image acquisition units are used for respectively acquiring images of different pipeline detection points.

The equipment image acquisition submodule comprises a valve station image acquisition unit, a pump set image acquisition unit, an energy accumulator image acquisition unit, a pipeline image acquisition unit and the like, wherein the output end of the valve station image acquisition unit is connected with the input end of the identification module. In this embodiment, the collection ends of the pipeline image collection unit, the ground image collection unit, the valve station image collection unit, the pump group image collection unit, the energy accumulator image collection unit and the pipeline image collection unit adopt cameras, and image collection and monitoring are performed through the cameras.

The identification module comprises a storage submodule for storing a standard image in the hydraulic station and a judgment submodule for comparing and identifying the image acquired by the image acquisition module with the standard image stored in the storage submodule, the storage submodule is connected with the judgment submodule, and the output end of the judgment submodule is connected with the input end of the output module. In the scheme, the identification module realizes image identification through the existing image identification technology, and the identification process is the prior art and is not repeated herein.

The output module comprises a display submodule for displaying the identification result of the identification module and an alarm submodule for sending out an alarm. The display sub-module comprises an LED display screen, and the identification result is displayed through the LED display screen. When oil stains appear on the ground in the hydraulic station or oil leaks appear in equipment, the alarm submodule gives an alarm. The alarm submodule comprises an alarm indicator light, a buzzer and the like.

In another embodiment, the hydraulic station monitoring system further comprises a checking module for checking the accuracy of the identification result of the identification module, and the checking module is connected with the identification module. The verification module comprises an information input submodule and an identification correction submodule, wherein the information input submodule is used for inputting an inspection result after inspection personnel check the site according to the output result of the output module, and the identification correction submodule is used for comparing and correcting the site information input by the inspection personnel and the identification result of the identification module; and the identification correction submodule is in data connection with the identification module.

During the use, ground, equipment, pipeline are monitored in the hydraulic pressure station to image acquisition is carried out to the image acquisition module to carry out image acquisition in real time, then send the image of gathering to identification module, when appearing unusually (greasy dirt appears in ground or when equipment, pipeline oil leak), identification module shows the output through output module with the recognition result, handles with the warning personnel of patrolling and examining. The inspection personnel inputs the detection result from the information input submodule after carrying out field detection, then the identification correction submodule compares the obtained detection result with the identification result of the identification module, and when the detection result is different from the identification result, the identification module is trained and corrected through the existing convolutional neural network, or maintenance personnel is informed to maintain the identification module.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the utility model. It will be appreciated by those skilled in the art that changes may 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.

Claims (8)

1. A hydraulic station monitoring system, comprising: the system comprises an image acquisition module, an identification module, an output module and a verification module, wherein the image acquisition module is used for acquiring images in the hydraulic station, the identification module is used for identifying the acquired images, the output module is used for outputting identification results, and the verification module is used for verifying the accuracy of the identification results of the identification module;

the output end of the image acquisition module is connected with the input end of the identification module, the output end of the identification module is connected with the input end of the output module, and the verification module is connected with the identification module.

2. The hydraulic station monitoring system according to claim 1, wherein the image acquisition module comprises a ground image acquisition submodule for performing ground image acquisition in the hydraulic station, an equipment image acquisition submodule for performing equipment image acquisition in the hydraulic station, and a pipeline image acquisition submodule for acquiring a pipeline image, the ground image acquisition submodule, the equipment image acquisition submodule, and the pipeline image acquisition submodule are respectively installed at corresponding detection points, and output ends of the ground image acquisition submodule, the equipment image acquisition submodule, and the pipeline image acquisition submodule are all connected with an input end of the identification module.

3. The hydraulic station monitoring system according to claim 2, wherein the acquisition end of the ground image acquisition submodule is aligned with the ground in the hydraulic station, and the acquisition end of the equipment image acquisition submodule is aligned with the acquisition end of the pipeline image acquisition submodule for the monitoring equipment required to be installed, and is aligned with the pipeline in the hydraulic station.

4. The hydraulic station monitoring system of claim 2, wherein the equipment image acquisition submodule comprises a valve stage image acquisition unit, a pump set image acquisition unit and an accumulator image acquisition unit, wherein the output end of the valve stage image acquisition unit is connected with the input end of the identification module.

5. The hydraulic station monitoring system according to claim 2, wherein the ground image acquisition sub-module comprises a plurality of ground image acquisition units for respectively acquiring ground images at different detection points; the pipeline image acquisition submodule comprises a plurality of management image acquisition units for respectively acquiring images of different pipeline detection points, and the output ends of the ground image acquisition unit and the pipeline image acquisition unit are connected with the input end of the identification module.

6. The hydraulic station monitoring system according to claim 1, wherein the identification module comprises a storage submodule for storing a standard image in the hydraulic station, and a judgment submodule for comparing and identifying the image acquired by the image acquisition module with the standard image stored in the storage submodule, the storage submodule is connected with the judgment submodule, and an output end of the judgment submodule is connected with an input end of the output module.

7. The hydraulic station monitoring system according to claim 1, wherein the checking module comprises an information input sub-module for inputting an inspection result after an inspector checks a site according to an output result of the output module, and an identification correction sub-module for performing comparison correction on the site information input by the inspector and an identification result of the identification module; and the identification correction submodule is in data connection with the identification module.

8. The hydraulic station monitoring system according to claim 1, wherein the output module comprises a display sub-module for displaying the identification result of the identification module and an alarm sub-module for giving an alarm when the identification result is abnormal.

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