CN110411677A - A kind of valve leaks and cavitation monitoring device and monitoring method based on underwater sound signal - Google Patents

Abstract

The present invention relates to a kind of valve leaks based on underwater sound signal and cavitation monitoring device and monitoring methods, hardware system in monitoring device includes several distributed parallel computing environments, each distributed parallel computing environment include before several valves for being connect with terminal water listen sensor, water listens sensor after valve opening sensor and valve, distributed parallel computing environment stores analysis platform with data respectively by interchanger and terminal is connect, software systems include the data storage analysis system being set in data storage analysis platform, it includes user management module that data, which store analysis system, WEB functional module, database module and background function module, WEB functional module is also provided in terminal.Pass through the functions such as system arrangement, parameter setting, collecting sensor signal, signal processing, comparing and upload, data storage, it realizes and the real-time, interactive of monitoring object and control, valves leakage can effectively be monitored and tiny signal that cavitation is issued, it is safe to ensure that valve uses.

Description

A kind of valve leaks and cavitation monitoring device and monitoring method based on underwater sound signal

Technical field

The present invention relates to valve or pipe-line system equipment monitoring field, especially a kind of valve leaks based on underwater sound signal With cavitation monitoring device and monitoring method.

Background technique

Valve is a kind of control list most commonly seen in Naval Architecture and Ocean Engineering and the various device of petrochemical field and pipeline Member is able to achieve being connected to of fluid mechanism in pipeline, cutting by the opening and closing of valve and adjusting and changes the functions such as flow direction.But simultaneously There is also the valves leakage occurred by reasons such as abrasion, corrosion and sealing element agings or leakages during the use of the valve The phenomenon that, the leakage of general valve can intuitively be found out by valve exterior surface, but the interior leakage of valve is difficult effectively to monitor, and valve If the interior leakage of door is found not in time and processing may result in serious accident (trandfer fluid is lost, cabin intakes etc.).

Furthermore valve in use, with the flowing of fluid and the variation of pressure, the somewhere inside fluid media (medium) Pressure be less than saturated vapor pressure when, vacuole will be generated here；After fluid passes through valve, high compression ring is restored at vacuole Border, vacuole will crumble and fall, and to rupture in generation, this phenomenon is referred to as cavitation.Cavitation will lead to the vibration of valve components with And specific hydrodynamic noise is generated in fluid media (medium), localized hyperthermia's impacting with high pressure that furthermore cavitation is formed can be to valve interior surface It causes cavitation corrosion to injure, influences the service life of valve.

The monitoring mode of traditional valves leakage and cavitation phenomenon is mainly artificial judgment, or using with infrared, super The equipment of audio technology is checked.Currently, application of the acoustic emission in valve monitoring field is also gradually taken seriously, but existing Technology be based primarily upon valves leakage it is larger when cause fluid jet excitation structure to vibrate this principle, by microphone monitoring because vibration The variation of the raw airborne noise of movable property, and monitoring data will be further analyzed to judge the whether interior leakage of valve, this method In the presence of being difficult to monitor minor leakage, the problems such as accidentally monitoring and defect are easy when valve generates cavitation phenomenon.

Summary of the invention

The applicant for the disadvantage in above-mentioned existing production technology, provide a kind of valve leaks based on underwater sound signal and Cavitation monitoring device and monitoring method, the abnormal signal that the monitoring device generates minor leakage is highly sensitive, can apply In the monitoring of valve minor leakage and cavitation condition, produced by matched monitoring method, when can be according to valves leakage and cavitation Raw extraordinary noise judges the working condition of valve, liquid flowing state in adjustment system, avoid valve for a long time inside leakage or It is run under cavitation condition, and the big system based on application scenarios carries out valve large number of in system while monitoring and dividing Analysis, so that the long-time service for valve provides safeguard.

Technical solution used by monitoring device of the invention is as follows:

A kind of valve leaks and cavitation monitoring device based on underwater sound signal, including hardware system and software systems, it is described Hardware system includes several distributed parallel computing environments, and each distributed parallel computing environment includes the valve that several connect with terminal Preceding water listens water after sensor, valve opening sensor and valve to listen sensor, and each distributed parallel computing environment is commonly through interchanger point Analysis platform is not stored with data and several terminals are connect；The software systems include being set to data storage analysis to put down Data in platform store analysis system, and the data storage analysis system includes user management module, WEB functional module, data Library module and background function module, the WEB functional module are also provided in terminal.

Its further technical solution is:

It is that piezoelectric type water listens sensor that water, which listens after sensor and valve that water listens sensor, before valve；

Database module includes database manipulation function, Data Sheet Design function and the data controlled by WEB functional module Library backup and restoring function.

Technical solution used by monitoring method of the invention is as follows:

A kind of valve leaks and cavitation monitoring method based on underwater sound signal, the monitoring method the following steps are included:

Step 1: system configuration；

Step 2: parameter setting；

Step 3: collecting sensor signal；

Step 4: data processing；

Step 5: frequency domain data is uploaded and stores frequency domain data into database；

Step 6: judging whether frequency domain data transfinites value by data storage analysis system, if so, jumping to the 7th He simultaneously Tenth step, if it is not, jumping to the 8th step；

Step 7: time domain data is uploaded and stores time domain data into database；

Whether step 8: by data storage analysis system, to judge frequency domain data variation tendency normal, if so, jumping to the Nine steps, if it is not, then jumping to the 7th and the tenth step simultaneously；

Step 9: terminating this time to monitor；

Step 10: software systems give a warning prompt.

Its further technical solution is:

First step system configuration includes hardware system configuration and software systems configuration；

The content of third step collecting sensor signal is that water listens water after sensor, valve opening sensor and valve before valve Listen the underwater sound signal of sensor；

The object of 4th step data processing is the underwater sound signal collected in third step by sensor.

Beneficial effects of the present invention are as follows:

The present invention monitors valve leakage and cavitation phenomenon by hydrophone sensing technology, has height quick minor anomaly Perception；Apparatus of the present invention can be according to the type of required monitoring valve and the different setting monitoring policies and data of fluid media (medium) Processing method pre-processes test data in test terminal, to remote terminal transmission frequency spectrum point within the appointed interval time Data are analysed, and only record and hop time domain data when underwater sound signal occurs abnormal, there is wide applicability, and effectively Reduce volume of transmitted data and amount of storage；The present invention carries out spectrum analysis, filtering, product to collection in worksite signal using test terminal Equal correlation analyses are divided to calculate, it is micro- to valve internal according to the total grade of signal of the signal spectrum feature and frequency-division section after acquisition process The abnormalities such as small leakage and cavitation carry out timely reliable monitoring and assessment, and upload remote terminal and carry out alarm and exception Processing, while position and corresponding marine acoustics letter in grid figure where valve can be directly viewable in terminal Number quickly positions and makes security response as a result, can precisely judge risk class, and package unit runs efficient stable, is Maintenance valve safe working environment provides powerful guarantee.

Detailed description of the invention

Fig. 1 is hardware system schematic diagram of the invention；

Fig. 2 is software systems schematic diagram of the invention；

Fig. 3 is sensor of the invention schematic view of the mounting position；

Fig. 4 is systematic schematic diagram of the invention.

Wherein: 1, data store analysis platform；2, interchanger；3, distributed parallel computing environment；301, water listens sensor before valve； 302, valve opening sensor；303, water listens sensor after valve；4, terminal；5, data store analysis system；501, it uses Family management module；502, WEB functional module；503, database module；504, background function module.

Specific embodiment

Specific embodiments of the present invention will be described below with reference to the accompanying drawings.

As shown in figures 1-4, the present invention includes hardware system and software systems, and hardware system includes that several distributions are adopted Collecting system 3, water listens sensor 301, valve opening before the valve that each distributed parallel computing environment 3 is connect with terminal comprising several Water listens sensor 303 after sensor 302 and valve, and each distributed parallel computing environment 3 divides with data storage respectively commonly through interchanger 2 It analyses platform 1 and several terminals 4 connects；Software systems include the data storage being set in data storage analysis platform 1 Analysis system 5, it includes user management module 501, WEB functional module 502,503 and of database module that data, which store analysis system 5, Background function module 504, WEB functional module 502 are also provided in terminal 4.

It is that piezoelectric type water listens sensor, database module that water, which listens after sensor 301 and valve that water listens sensor 303, before each valve 503 include database manipulation function, Data Sheet Design function and the database backuping and restoring controlled by WEB functional module 502 Function.

Monitoring method of the invention the following steps are included:

Step 1: system configuration, including hardware system configuration and software systems configuration, this step will be determined using the present invention Big system in need to carry out the valve object of key monitoring, be disposed about test terminal, In in the valve for needing key monitoring Installing water before valve in valve front and rear pipes and valve respectively listens water after sensor 301, valve opening sensor 302 and valve to listen sensing Device 303 adjusts matched software and hardware system, completes the connection of sensor and access network based on ethernet.

It is the temperature of fluid media (medium), close step 2: parameter setting, the latus rectum including valve and pipeline, pipe material and wall thickness The parameters such as degree, the velocity of sound and dynamic viscosity also include the relevant sensitivity of sensor, operating temperature range, range, charge/voltage The parameters such as amplification factor, sample frequency.

Step 3: collecting sensor signal, the content of collecting sensor signal is that water listens sensor 301, valve before valve Water listens the underwater sound signal of sensor 303 after door jaw opening sensor 302 and valve.

Step 4: data processing, the object of data processing is the underwater sound signal collected in third step by sensor, When medium starts flowing or valve generation internal leakage in pipe, i.e., is listened in each water and generate corresponding weak current letter in sensor Number variation, current signal after charge amplifier amplifies, by data collector acquisition and input data processing system, in data Current signal matches corresponding hydrodynamic noise sound pressure level in processing system, and the decibel value of acoustic pressure can by following formula come Be converted to hydrodynamic noise grade:

L_p=20log₁₀(p/p₀) (1)

(1) in formula: L_p- hydrodynamic noise sound pressure level dB；

The hydrodynamic noise acoustic pressure pa that P- is measured；

P₀Hydrodynamic noise acoustic pressure a reference value P₀=10^-6；

Hereafter, for all hydrophone signals, the hydrodynamic force of each measuring point can also be obtained by Fast Fourier Transform (FFT) Noise line spectra, and third-octave is calculated in turn, the hydrodynamic noise grade in each frequency range is obtained, which is and frequency domain phase The data of pass, the frequency range of data processing are 10~20kHz.

Step 5: frequency domain data is uploaded and stores frequency domain data into database.

Step 6: judge whether frequency domain data transfinites value by data storage analysis system 5, the data of remote terminal, which store, divides Analysis system 5 compares and analyzes flow noise measured value and flow noise characteristic spectral line when leakage and cavitation occurs, and just special Determine the limit value when measured value in frequency range is stablized with system to be compared, if when the total grade of the flow noise in special frequency channel and leakage Characteristic spectral line height be overlapped, system will judge in conjunction with pipeline state in which (switch or aperture), if exceeding setting value Then system gives a warning, and test terminal is required to upload time domain data (while jumping to the 7th and the tenth step), if being not above Setting value then jumps to the 8th step, while even if being no more than limit value, system also may require that test terminal within the specific interval time It is spare to upload the storage of frequency domain character data.

Step 7: time domain data is uploaded and stores time domain data into database.

Step 8: whether normal, if so, the 9th step is jumped to, if it is not, then jumping simultaneously if judging frequency domain data variation tendency Go to the 7th and the tenth step.

Step 9: terminating this time to monitor.

Step 10: software systems give a warning prompt.

User can inquire the valve stream that data store in analysis system 5 in special time period by terminal 4 and make an uproar Sound data, can also be with real time inspection field data.

Above description is explanation of the invention, is not intended to limit the invention, and limited range of the present invention is referring to right It is required that within protection scope of the present invention, any type of modification can be made.

Claims (7)

1. a kind of valve leaks and cavitation monitoring device based on underwater sound signal, including hardware system and software systems, feature Be: the hardware system includes several distributed parallel computing environments (3), and each distributed parallel computing environment (3) is comprising several Water listens water after sensor (301), valve opening sensor (302) and valve to listen sensor (303) before a valve connecting with terminal, respectively Distributed parallel computing environment (3) stores analysis platform (1) and several terminals with data respectively commonly through interchanger (2) (4) it connects；

The software systems include data storage analysis system (5) being set in data storage analysis platform (1), the data Storing analysis system (5) includes user management module (501), WEB functional module (502), database module (503) and backstage function Energy module (504), the WEB functional module (502) are also provided in terminal (4).

2. a kind of valve leaks and cavitation monitoring device based on underwater sound signal as described in claim 1, it is characterised in that: each It is that piezoelectric type water listens sensor that water, which listens after sensor (301) and valve that water listens sensor (303), before valve.

3. a kind of valve leaks and cavitation monitoring device based on underwater sound signal as described in claim 1, it is characterised in that: institute Database module (503) is stated to include database manipulation function, Data Sheet Design function and controlled by WEB functional module (502) Database backuping and restoring function.

4. using valve leaks and the method that is monitored of cavitation monitoring device described in claim 1 based on underwater sound signal, It is characterized in that further comprising the steps of:

Step 1: system configuration；

Step 2: parameter setting；

Step 3: collecting sensor signal；

Step 4: data processing；

Step 5: frequency domain data is uploaded and stores frequency domain data into database；

Step 6: judging whether frequency domain data transfinites value by data storage analysis system, if so, jumping to the 7th and the tenth simultaneously Step, if it is not, jumping to the 8th step；

Step 7: time domain data is uploaded and stores time domain data into database；

Step 8: whether normal, if so, jumping to the 9th if judging frequency domain data variation tendency by data storage analysis system Step, if it is not, then jumping to the 7th and the tenth step simultaneously；

Step 9: terminating this time to monitor；

Step 10: software systems give a warning prompt.

5. the method that the valve leaks based on underwater sound signal and cavitation monitoring device are monitored as claimed in claim 4, special Sign is: first step system configuration includes hardware system configuration and software systems configuration.

6. the method that the valve leaks based on underwater sound signal and cavitation monitoring device are monitored as claimed in claim 4, special Sign is: the content of third step collecting sensor signal is that water listens sensor (301), valve opening sensor before valve (302) and after valve water listens the underwater sound signal of sensor (303).

7. the method that the valve leaks based on underwater sound signal and cavitation monitoring device are monitored as claimed in claim 6, special Sign is: the object of the 4th step data processing is the underwater sound signal collected in third step by sensor.