CN117906937A - Hydrostatic test method, test system and storage medium - Google Patents

Abstract

The application of the invention discloses a hydraulic test method, a test system and a storage medium, which relate to the field of hydraulic tests and comprise an information acquisition module, a constant hydraulic analysis module, a preliminary evaluation module, a dynamic hydraulic analysis module, a comprehensive evaluation processing module and a database.

Description

Hydrostatic test method, test system and storage medium

Technical Field

The invention relates to the field of hydrostatic tests, in particular to a hydrostatic test method, a hydrostatic test system and a storage medium.

Background

Along with development of scientific technology, the informatization and intelligence process is accelerated, intelligent fire control is popularized in a large area, accurate water pressure control is a basis of intelligent fire control, and the following defects still exist in detection of water pressure control precision:

The prior art generally judges the accuracy of the output water pressure of the device according to whether the water flow reaches the target position, reduces the accuracy of the detection of the water pressure, increases the complexity of correcting the output water pressure, possibly causes the waste of water resources due to water pressure errors, and even causes larger disaster due to the fact that the fire disaster cannot be effectively treated.

Disclosure of Invention

The invention aims to provide a hydrostatic test method, a hydrostatic test system and a storage medium, so as to solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: a hydrostatic testing system, comprising:

An information acquisition module: the hydraulic test method is used for carrying out hydraulic test on the target device through a preset hydraulic test method to obtain test information of the hydraulic test of the target device;

constant water pressure analysis module: the hydraulic pressure output accurate coefficient corresponding to the constant hydraulic pressure stage of the target device is obtained by analyzing the test information of the hydraulic pressure test of the target device;

And a preliminary evaluation module: the hydraulic control system is used for analyzing and evaluating the accurate coefficient of the hydraulic output corresponding to the hydraulic constant stage of the target device to obtain a hydraulic analysis result corresponding to the hydraulic constant stage of the target device, and performing hydraulic control treatment on the hydraulic analysis result corresponding to the hydraulic constant stage of the target device according to a preset hydraulic treatment method;

dynamic water pressure analysis module: the hydraulic pressure output accurate coefficient corresponding to the hydraulic pressure dynamic change stage of the target device is obtained by analyzing the test information of the hydraulic pressure test of the target device;

And the comprehensive water pressure analysis module: the comprehensive analysis is used for comprehensively analyzing the water pressure output accurate coefficient corresponding to the water pressure constant stage of the target device and the water pressure output accurate coefficient corresponding to the water pressure dynamic change stage of the target device to obtain the comprehensive water pressure output accurate coefficient of the target device;

and the comprehensive evaluation processing module: the comprehensive hydraulic pressure control system is used for analyzing and evaluating the comprehensive hydraulic pressure output accurate coefficient of the hydraulic pressure test of the target device to obtain a comprehensive hydraulic pressure analysis result of the target device, and performing hydraulic pressure control treatment on the comprehensive hydraulic pressure analysis result of the target device according to a preset hydraulic pressure treatment method;

In the preferred scheme of the scheme, the specific implementation mode of the information acquisition module is as follows:

and carrying out a hydrostatic test on the target device by a preset hydrostatic test method to obtain test information of the hydrostatic test of the target device.

By adopting the scheme, the preset hydrostatic test method keeps the impact of the target device on the reference object under different constant water pressures and different dynamic water pressures under the condition that the preset conditions of the hydrostatic test of the target device are unchanged in a variable control mode. The method can analyze the output water pressure of the target device more accurately, and provides theoretical conditions for subsequent water pressure analysis.

In a preferred scheme of the scheme, the constant water pressure analysis module is specifically implemented as follows:

The test information of the hydraulic test of the target device comprises hydraulic pressure information, reference object information and preset condition information;

dividing a water pressure test of a target device into a water pressure constant stage and a water pressure dynamic change stage;

the water pressure information corresponding to the constant water pressure stage in the water pressure test of the target device comprises constant water pressure Pa and duration time T of the constant water pressure;

The reference object information corresponding to the water pressure constant stage in the water pressure test of the target device comprises real-time density and real-time hardness of a reference object, and a reference object density change curve and a reference object hardness change curve corresponding to the water pressure constant stage in the water pressure test of the target device are respectively drawn according to the real-time density and the real-time hardness of the reference object corresponding to the water pressure constant stage in the water pressure test of the target device;

Establishing a data extraction relation between a constant water pressure analysis module and a database, extracting a standard density change curve and a standard hardness change curve of a reference object corresponding to each standard constant water pressure stored in the database under preset condition information, and screening from the database through constant water pressure Pa and duration time T of the constant water pressure of a water pressure constant stage of a water pressure test of a target device to obtain the standard density change curve and the standard hardness change curve of the reference object corresponding to the water pressure constant stage of the water pressure test of the target device;

Respectively comparing and analyzing a reference object density change curve and a hardness change curve corresponding to a water pressure constant stage in a water pressure test of a target device with a reference object standard density change curve and a standard hardness change curve corresponding to the water pressure constant stage in the water pressure test of the target device to obtain a reference object density change coincidence degree corresponding to the water pressure constant stage in the water pressure test of the target device Obtaining the hardness change coincidence degree/>, corresponding to the constant water pressure stage, of the reference object in the water pressure test of the target device；

The density change coincidence degree of the reference object corresponding to the constant water pressure stage in the water pressure test of the target deviceHardness change coincidence degree/>, corresponding to water pressure constant stage in target device water pressure test, of reference objectCarry-over formulaObtaining the accurate water pressure output coefficient corresponding to the constant water pressure stage in the water pressure test of the target deviceWherein/>Expressed as constant water pressure meets the influencing factor.

Through adopting above-mentioned technical scheme, through carrying out analysis contrast to the density and the hardness of target parameter object, can more effectually detect the judgement to the output water pressure accuracy of target device.

In a preferred scheme of the scheme, the specific implementation mode of the preliminary evaluation module is as follows:

Comparing and analyzing the water pressure output accurate coefficient corresponding to the water pressure constant stage of the target device with the standard water pressure output accurate coefficient corresponding to the preset water pressure constant stage of the target device, if the water pressure output accurate coefficient corresponding to the water pressure constant stage of the target device is larger than the standard water pressure output accurate coefficient corresponding to the preset water pressure constant stage of the target device, determining that the water pressure output corresponding to the water pressure constant stage of the target device is normal, and recording the water pressure output corresponding to the water pressure constant stage of the target device as a water pressure analysis result corresponding to the water pressure constant stage of the target device; if the accurate coefficient of the water pressure output corresponding to the water pressure constant stage of the target device is smaller than or equal to the accurate coefficient of the standard water pressure output corresponding to the preset water pressure constant stage of the target device, determining that the water pressure output corresponding to the water pressure constant stage of the target device is abnormal, and recording the abnormal water pressure output corresponding to the water pressure constant stage of the target device as a water pressure analysis result corresponding to the water pressure constant stage of the target device.

By adopting the technical scheme, the hydraulic control treatment is carried out on the hydraulic analysis result corresponding to the constant hydraulic stage of the target device by a preset hydraulic treatment method;

In the preferred scheme, the dynamic water pressure analysis module is specifically implemented as follows:

the water pressure information corresponding to the water pressure dynamic change stage in the water pressure test of the target device is the initial water pressure Pa' and the water pressure change rate ；

Establishing a data extraction relation between the dynamic water pressure analysis module and the database, extracting a reference object density influence factor and a reference object hardness influence factor which are stored in the database and correspond to each initial water pressure under preset condition information, and obtaining the reference object density influence factor corresponding to the initial water pressure Pa 'in the water pressure dynamic change stage of the target device water pressure test by screening the initial water pressure Pa' corresponding to the water pressure dynamic change stage of the target device water pressure testAnd reference hardness influencing factor/>；

The reference object information corresponding to the dynamic water pressure change stage in the hydrostatic test of the target device comprises the density change rate of the reference objectAnd rate of hardness change of reference/>；

The density influence factor of the reference object corresponding to the initial water pressure Pa' in the water pressure dynamic change stage of the target device water pressure testHardness influence factor of reference substance/>Water pressure change rate/>, corresponding to water pressure dynamic change stage, in target device water pressure testRate of density change/>And rate of hardness change of reference/>Carry-over formulaObtaining the accurate coefficient/>, corresponding to the water pressure output in the dynamic water pressure change stage in the water pressure test of the target deviceWhere α is expressed as a preset density change influence coefficient and β is expressed as a preset hardness change influence coefficient,/>The water pressure output precision coefficient influence factor is expressed as a preset water pressure dynamic change stage.

In the preferred scheme, the specific implementation mode of the comprehensive water pressure analysis module is as follows:

outputting accurate coefficients of water pressure corresponding to the dynamic change stage of the water pressure in the water pressure test of the target device Accurate coefficient/>, corresponding to constant water pressure stage in target device water pressure test, of water pressure outputCarry-over formula/>Obtaining a comprehensive water pressure output accurate coefficient Z of the target device water pressure test, wherein/>The comprehensive influence factor is expressed as a preset comprehensive water pressure output precision coefficient.

In a preferred scheme of the scheme, the specific implementation mode of the comprehensive evaluation processing module is as follows:

Comparing and analyzing the water pressure accurate coefficient of the target device with a preset water pressure accurate coefficient threshold value, if the water pressure accurate coefficient of the target device is larger than the preset water pressure accurate coefficient threshold value, determining that the comprehensive water pressure output of the target device is normal, and recording the comprehensive water pressure output of the target device as a comprehensive water pressure analysis result of the target device; if the water pressure accurate coefficient of the target device is smaller than or equal to the preset water pressure accurate coefficient threshold value, determining that the comprehensive water pressure output of the target device is abnormal, and recording the comprehensive water pressure output abnormality of the target device as a comprehensive water pressure analysis result of the target device.

By adopting the technical scheme, the comprehensive hydraulic analysis result of the target device is subjected to hydraulic control treatment by a preset hydraulic treatment method.

In order to achieve the above purpose, the present invention further provides the following technical solutions: a hydrostatic test method comprising the steps of:

carrying out a hydraulic test on the target device to obtain test information of the hydraulic test of the target device;

analyzing test information of a hydraulic test of the target device to obtain a hydraulic output accurate coefficient corresponding to a constant hydraulic stage of the target device;

Analyzing and evaluating the accurate coefficient of the water pressure output corresponding to the water pressure constant stage of the target device to obtain a water pressure analysis result corresponding to the water pressure constant stage of the target device, and performing water pressure control treatment on the water pressure analysis result corresponding to the water pressure constant stage of the target device according to a preset water pressure treatment method;

Analyzing the test information of the hydraulic test of the target device to obtain a hydraulic output accurate coefficient corresponding to the hydraulic dynamic change stage of the target device;

Comprehensively analyzing the water pressure output accurate coefficient corresponding to the water pressure constant stage of the target device and the water pressure output accurate coefficient corresponding to the water pressure dynamic change stage of the target device to obtain the comprehensive water pressure output accurate coefficient of the target device;

and analyzing and evaluating the comprehensive water pressure output accurate coefficient of the target device to obtain a comprehensive water pressure analysis result of the target device, and performing water pressure control treatment on the comprehensive water pressure analysis result of the target device according to a preset water pressure treatment method.

In order to achieve the above purpose, the present invention further provides the following technical solutions: a hydrostatic test storage medium having stored thereon computer instructions which, when executed, perform any of the steps of the hydrostatic test method described above.

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

According to the invention, the target reference object is impacted under the preset condition by different constant water pressures, the accuracy of the constant water pressure output by the target device is analyzed according to the real-time hardness and the real-time density of the detected target reference object, and the accuracy of the accuracy detection of the water pressure output by the target device is effectively improved;

According to the invention, the target reference object is impacted under the preset condition by different dynamic water pressures, the accuracy of the dynamic water pressure output by the target device is analyzed according to the hardness and density change rate of the detected target reference object, the accuracy of the accuracy detection of the water pressure output by the target device is further improved, comprehensive evaluation treatment is performed, fire water is saved, meanwhile, the fire is effectively treated, and the life and property safety is ensured.

Drawings

The invention will be further described with reference to the accompanying drawings, in which embodiments do not constitute any limitation of the invention, and other drawings can be obtained by one of ordinary skill in the art without inventive effort from the following drawings.

FIG. 1 is a schematic diagram of the module connection of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, the invention provides a hydraulic test system according to a technical scheme, which comprises an information acquisition module, a constant hydraulic pressure analysis module, a preliminary evaluation module, a dynamic hydraulic pressure analysis module, a comprehensive evaluation processing module and a database;

The information acquisition module is connected with the constant water pressure analysis module and the dynamic water pressure analysis module, the constant water pressure analysis module is connected with the preliminary evaluation module, the comprehensive water pressure analysis module and the database, the dynamic water pressure analysis module is connected with the comprehensive water pressure analysis module and the database, and the comprehensive water pressure analysis module is connected with the comprehensive evaluation processing module.

The information acquisition module is used for carrying out a hydraulic test on the target device through a preset hydraulic test method to obtain test information of the hydraulic test of the target device;

Further, the specific implementation manner of the information acquisition module is as follows:

and carrying out a hydrostatic test on the target device by a preset hydrostatic test method to obtain test information of the hydrostatic test of the target device.

It should be noted that; the target reference object is a metal block, the X-ray diffractometer is used for detecting the density change of the metal block, and the hardness tester is used for detecting the hardness change of the metal block.

It should be noted that; the preset condition information of the hydrostatic test of the target device comprises a linear distance L between the target device and a reference object and a cross-sectional area S of a water outlet of the target device.

The constant water pressure analysis module is used for analyzing the test information of the water pressure test of the target device to obtain a water pressure output accurate coefficient corresponding to the constant water pressure stage of the target device;

further, the constant water pressure analysis module is specifically implemented as follows:

the test information of the target device hydrostatic test comprises hydraulic pressure information, reference object information and preset condition information.

Dividing a water pressure test of a target device into a water pressure constant stage and a water pressure dynamic change stage;

the water pressure information corresponding to the constant water pressure stage in the water pressure test of the target device comprises constant water pressure Pa and duration time T of the constant water pressure;

The reference object information corresponding to the water pressure constant stage in the water pressure test of the target device comprises real-time density and real-time hardness of a reference object, and a reference object density change curve and a reference object hardness change curve corresponding to the water pressure constant stage in the water pressure test of the target device are respectively drawn according to the real-time density and the real-time hardness of the reference object corresponding to the water pressure constant stage in the water pressure test of the target device;

Establishing a data extraction relation between a constant water pressure analysis module and a database, extracting a standard density change curve and a standard hardness change curve of a reference object corresponding to each standard constant water pressure stored in the database under preset condition information, and screening from the database through constant water pressure Pa and duration time T of the constant water pressure of a water pressure constant stage of a water pressure test of a target device to obtain the standard density change curve and the standard hardness change curve of the reference object corresponding to the water pressure constant stage of the water pressure test of the target device;

Respectively comparing and analyzing a reference object density change curve and a hardness change curve corresponding to a water pressure constant stage in a water pressure test of a target device with a reference object standard density change curve and a standard hardness change curve corresponding to the water pressure constant stage in the water pressure test of the target device to obtain a reference object density change coincidence degree corresponding to the water pressure constant stage in the water pressure test of the target device Obtaining the hardness change coincidence degree/>, corresponding to the constant water pressure stage, of the reference object in the water pressure test of the target device;

The density change coincidence degree of the reference object corresponding to the constant water pressure stage in the water pressure test of the target deviceHardness change coincidence degree/>, corresponding to water pressure constant stage in target device water pressure test, of reference objectCarry-over formulaObtaining the accurate water pressure output coefficient corresponding to the constant water pressure stage in the water pressure test of the target deviceWherein/>Expressed as constant water pressure meets the influencing factor.

The preliminary evaluation module is used for analyzing and evaluating the accurate water pressure output coefficient corresponding to the water pressure constant stage of the target device to obtain a water pressure analysis result corresponding to the water pressure constant stage of the target device, and performing water pressure control treatment on the water pressure analysis result corresponding to the water pressure constant stage of the target device according to a preset water pressure treatment method;

further, the specific implementation manner of the preliminary evaluation module is as follows:

Comparing and analyzing the water pressure output accurate coefficient corresponding to the water pressure constant stage of the target device with the standard water pressure output accurate coefficient corresponding to the preset water pressure constant stage of the target device, if the water pressure output accurate coefficient corresponding to the water pressure constant stage of the target device is larger than the standard water pressure output accurate coefficient corresponding to the preset water pressure constant stage of the target device, determining that the water pressure output corresponding to the water pressure constant stage of the target device is normal, and recording the water pressure output corresponding to the water pressure constant stage of the target device as a water pressure analysis result corresponding to the water pressure constant stage of the target device; if the accurate coefficient of the water pressure output corresponding to the water pressure constant stage of the target device is smaller than or equal to the accurate coefficient of the standard water pressure output corresponding to the preset water pressure constant stage of the target device, determining that the water pressure output corresponding to the water pressure constant stage of the target device is abnormal, and recording the abnormal water pressure output corresponding to the water pressure constant stage of the target device as a water pressure analysis result corresponding to the water pressure constant stage of the target device.

The dynamic water pressure analysis module is used for analyzing the test information of the water pressure test of the target device to obtain the accurate water pressure output coefficient corresponding to the dynamic change stage of the water pressure of the target device;

Further, the dynamic water pressure analysis module is specifically implemented as follows:

the water pressure information corresponding to the water pressure dynamic change stage in the water pressure test of the target device is the initial water pressure Pa' and the water pressure change rate ；

Establishing a data extraction relation between the dynamic water pressure analysis module and the database, extracting a reference object density influence factor and a reference object hardness influence factor which are stored in the database and correspond to each initial water pressure under preset condition information, and obtaining the reference object density influence factor corresponding to the initial water pressure Pa 'in the water pressure dynamic change stage of the target device water pressure test by screening the initial water pressure Pa' corresponding to the water pressure dynamic change stage of the target device water pressure testAnd reference hardness influencing factor/>；

The reference object information corresponding to the dynamic water pressure change stage in the hydrostatic test of the target device comprises the density change rate of the reference objectAnd rate of hardness change of reference/>；

The density influence factor of the reference object corresponding to the initial water pressure Pa' in the water pressure dynamic change stage of the target device water pressure testHardness influence factor of reference substance/>Water pressure change rate/>, corresponding to water pressure dynamic change stage, in target device water pressure testRate of density change/>And rate of hardness change of reference/>Carry-over formulaObtaining the accurate coefficient/>, corresponding to the water pressure output in the dynamic water pressure change stage in the water pressure test of the target deviceWhere α is expressed as a preset density change influence coefficient and β is expressed as a preset hardness change influence coefficient,/>The water pressure output precision coefficient influence factor is expressed as a preset water pressure dynamic change stage.

It should be noted that; reference object density influence factor corresponding to initial water pressure in dynamic water pressure change stage of target device water pressure test in formulaHardness influence factor of reference substance/>Water pressure change rate/>, of water pressure dynamic change stage of water pressure test of target deviceDensity change rate/>, of target device hydrostatic test hydrostatic dynamic change stageAnd rate of hardness change of reference/>The two parts are not mutually influenced;

Reference object density influence factor corresponding to initial water pressure Pa' in water pressure dynamic change stage of target device water pressure test in formula The water pressure change rate/>, of the water pressure dynamic change stage of the water pressure test of the target deviceThe larger the product of the initial water pressure Pa 'of the hydrostatic test of the target device is, the hardness influence factor/>, corresponding to the initial water pressure Pa' of the hydrostatic test of the target device isHardness change rate/>, of reference object in dynamic change stage of hydrostatic test of target deviceThe larger the product of the water pressure output accurate coefficient/>, of the water pressure dynamic change stage of the water pressure test of the target deviceThe larger.

The comprehensive water pressure analysis module is used for comprehensively analyzing the water pressure output accurate coefficient corresponding to the water pressure constant stage of the target device and the water pressure output accurate coefficient corresponding to the water pressure dynamic change stage of the target device to obtain the comprehensive water pressure output accurate coefficient of the target device;

further, the specific implementation mode of the comprehensive water pressure analysis module is as follows:

outputting accurate coefficients of water pressure corresponding to the dynamic change stage of the water pressure in the water pressure test of the target device Accurate coefficient/>, corresponding to constant water pressure stage in target device water pressure test, of water pressure outputCarry-over formula/>Obtaining a comprehensive water pressure output accurate coefficient Z of the target device water pressure test, wherein/>The comprehensive influence factor is expressed as a preset comprehensive water pressure output precision coefficient.

The comprehensive evaluation processing module is used for analyzing and evaluating the comprehensive water pressure output accurate coefficient of the water pressure test of the target device to obtain a comprehensive water pressure analysis result of the target device, and performing water pressure control processing on the comprehensive water pressure analysis result of the target device according to a preset water pressure processing method;

Further, the specific implementation manner of the comprehensive evaluation processing module is as follows:

Comparing and analyzing the water pressure accurate coefficient of the target device with a preset water pressure accurate coefficient threshold value, if the water pressure accurate coefficient of the target device is larger than the preset water pressure accurate coefficient threshold value, determining that the comprehensive water pressure output of the target device is normal, and recording the comprehensive water pressure output of the target device as a comprehensive water pressure analysis result of the target device; if the water pressure accurate coefficient of the target device is smaller than or equal to the preset water pressure accurate coefficient threshold value, determining that the comprehensive water pressure output of the target device is abnormal, and recording the comprehensive water pressure output abnormality of the target device as a comprehensive water pressure analysis result of the target device.

The database is used for storing a standard density change curve and a standard hardness change curve of a reference object corresponding to each standard constant water pressure under preset condition information and storing a density influence factor and a hardness influence factor of the reference object corresponding to each initial water pressure under the preset condition information.

In order to achieve the above purpose, the present invention further provides the following technical solutions: a hydrostatic test method comprising the steps of:

carrying out a hydraulic test on the target device to obtain test information of the hydraulic test of the target device;

analyzing test information of a hydraulic test of the target device to obtain a hydraulic output accurate coefficient corresponding to a constant hydraulic stage of the target device;

Analyzing and evaluating the accurate coefficient of the water pressure output corresponding to the water pressure constant stage of the target device to obtain a water pressure analysis result corresponding to the water pressure constant stage of the target device, and performing water pressure control treatment on the water pressure analysis result corresponding to the water pressure constant stage of the target device according to a preset water pressure treatment method;

Analyzing the test information of the hydraulic test of the target device to obtain a hydraulic output accurate coefficient corresponding to the hydraulic dynamic change stage of the target device;

Comprehensively analyzing the water pressure output accurate coefficient corresponding to the water pressure constant stage of the target device and the water pressure output accurate coefficient corresponding to the water pressure dynamic change stage of the target device to obtain the comprehensive water pressure output accurate coefficient of the target device;

and analyzing and evaluating the comprehensive water pressure output accurate coefficient of the target device to obtain a comprehensive water pressure analysis result of the target device, and performing water pressure control treatment on the comprehensive water pressure analysis result of the target device according to a preset water pressure treatment method.

In order to achieve the above purpose, the present invention further provides the following technical solutions: a hydrostatic test storage medium having stored thereon computer instructions which, when executed, perform any of the steps of the hydrostatic test method described above.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (9)

1. A hydrostatic test system, characterized by: comprising the following steps:

An information acquisition module: the hydraulic test method is used for carrying out hydraulic test on the target device through a preset hydraulic test method to obtain test information of the hydraulic test of the target device;

constant water pressure analysis module: the hydraulic pressure output accurate coefficient corresponding to the constant hydraulic pressure stage of the target device is obtained by analyzing the test information of the hydraulic pressure test of the target device;

And a preliminary evaluation module: the hydraulic control system is used for analyzing and evaluating the accurate coefficient of the hydraulic output corresponding to the hydraulic constant stage of the target device to obtain a hydraulic analysis result corresponding to the hydraulic constant stage of the target device, and performing hydraulic control treatment on the hydraulic analysis result corresponding to the hydraulic constant stage of the target device according to a preset hydraulic treatment method;

dynamic water pressure analysis module: the hydraulic pressure output accurate coefficient corresponding to the hydraulic pressure dynamic change stage of the target device is obtained by analyzing the test information of the hydraulic pressure test of the target device;

And the comprehensive water pressure analysis module: the comprehensive analysis is used for comprehensively analyzing the water pressure output accurate coefficient corresponding to the water pressure constant stage of the target device and the water pressure output accurate coefficient corresponding to the water pressure dynamic change stage of the target device to obtain the comprehensive water pressure output accurate coefficient of the target device;

and the comprehensive evaluation processing module: the hydraulic control system is used for analyzing and evaluating the comprehensive hydraulic output accurate coefficient of the hydraulic test of the target device to obtain a comprehensive hydraulic analysis result of the target device, and performing hydraulic control treatment on the comprehensive hydraulic analysis result of the target device according to a preset hydraulic treatment method.

2. A hydrostatic testing system according to claim 1, wherein: the specific implementation mode of the information acquisition module is as follows:

the test information of the target device hydrostatic test comprises hydraulic pressure information, reference object information and preset condition information.

3. A hydrostatic testing system according to claim 2, wherein: the constant water pressure analysis module is specifically implemented as follows:

dividing a water pressure test of a target device into a water pressure constant stage and a water pressure dynamic change stage;

the water pressure information corresponding to the constant water pressure stage in the water pressure test of the target device comprises constant water pressure Pa and duration time T of the constant water pressure;

The reference object information corresponding to the water pressure constant stage in the water pressure test of the target device comprises real-time density and real-time hardness of a reference object, and a reference object density change curve and a reference object hardness change curve corresponding to the water pressure constant stage in the water pressure test of the target device are respectively drawn according to the real-time density and the real-time hardness of the reference object corresponding to the water pressure constant stage in the water pressure test of the target device;

Establishing a data extraction relation between a constant water pressure analysis module and a database, extracting a standard density change curve and a standard hardness change curve of a reference object corresponding to each standard constant water pressure stored in the database under preset condition information, and screening from the database through constant water pressure Pa and duration time T of the constant water pressure of a water pressure constant stage of a water pressure test of a target device to obtain the standard density change curve and the standard hardness change curve of the reference object corresponding to the water pressure constant stage of the water pressure test of the target device;

Respectively comparing and analyzing a reference object density change curve and a hardness change curve corresponding to a water pressure constant stage in a water pressure test of a target device with a reference object standard density change curve and a standard hardness change curve corresponding to the water pressure constant stage in the water pressure test of the target device to obtain a reference object density change coincidence degree corresponding to the water pressure constant stage in the water pressure test of the target device Obtaining the hardness change coincidence degree/>, corresponding to the constant water pressure stage, of the reference object in the water pressure test of the target device；

The density change coincidence degree of the reference object corresponding to the constant water pressure stage in the water pressure test of the target deviceHardness change coincidence degree/>, corresponding to water pressure constant stage in target device water pressure test, of reference objectCarry-over formulaObtaining the accurate water pressure output coefficient corresponding to the constant water pressure stage in the water pressure test of the target deviceWherein/>Expressed as constant water pressure meets the influencing factor.

4. A hydrostatic testing system according to claim 1, wherein: the specific implementation mode of the preliminary evaluation module is as follows:

Comparing and analyzing the water pressure output accurate coefficient corresponding to the water pressure constant stage of the target device with the standard water pressure output accurate coefficient corresponding to the preset water pressure constant stage of the target device, if the water pressure output accurate coefficient corresponding to the water pressure constant stage of the target device is larger than the standard water pressure output accurate coefficient corresponding to the preset water pressure constant stage of the target device, determining that the water pressure output corresponding to the water pressure constant stage of the target device is normal, and recording the water pressure output corresponding to the water pressure constant stage of the target device as a water pressure analysis result corresponding to the water pressure constant stage of the target device; if the accurate coefficient of the water pressure output corresponding to the water pressure constant stage of the target device is smaller than or equal to the accurate coefficient of the standard water pressure output corresponding to the preset water pressure constant stage of the target device, determining that the water pressure output corresponding to the water pressure constant stage of the target device is abnormal, and recording the abnormal water pressure output corresponding to the water pressure constant stage of the target device as a water pressure analysis result corresponding to the water pressure constant stage of the target device.

5. A hydrostatic testing system according to claim 1, wherein: the dynamic water pressure analysis module is specifically implemented as follows:

the water pressure information corresponding to the water pressure dynamic change stage in the water pressure test of the target device is the initial water pressure Pa' and the water pressure change rate ;

Establishing a data extraction relation between the dynamic water pressure analysis module and the database, extracting a reference object density influence factor and a reference object hardness influence factor which are stored in the database and correspond to each initial water pressure under preset condition information, and obtaining the reference object density influence factor corresponding to the initial water pressure Pa 'in the water pressure dynamic change stage of the target device water pressure test by screening the initial water pressure Pa' corresponding to the water pressure dynamic change stage of the target device water pressure testAnd reference hardness influencing factor/>；

The reference object information corresponding to the dynamic water pressure change stage in the hydrostatic test of the target device comprises the density change rate of the reference objectAnd rate of hardness change of reference/>；

The density influence factor of the reference object corresponding to the initial water pressure Pa' in the water pressure dynamic change stage of the target device water pressure testHardness influence factor of reference substance/>Water pressure change rate/>, corresponding to water pressure dynamic change stage, in target device water pressure testRate of density change/>And rate of hardness change of reference/>Carry-over formulaObtaining the accurate coefficient/>, corresponding to the water pressure output in the dynamic water pressure change stage in the water pressure test of the target deviceWhere α is expressed as a preset density change influence coefficient and β is expressed as a preset hardness change influence coefficient,/>The water pressure output precision coefficient influence factor is expressed as a preset water pressure dynamic change stage.

6. A hydrostatic testing system according to claim 1, wherein: the specific implementation mode of the comprehensive water pressure analysis module is as follows:

outputting accurate coefficients of water pressure corresponding to the dynamic change stage of the water pressure in the water pressure test of the target device Accurate coefficient/>, corresponding to constant water pressure stage in target device water pressure test, of water pressure outputCarry-over formula/>Obtaining a comprehensive water pressure output accurate coefficient Z of the target device water pressure test, wherein/>The comprehensive influence factor is expressed as a preset comprehensive water pressure output precision coefficient.

7. A hydrostatic testing system according to claim 1, wherein: the specific implementation mode of the comprehensive evaluation processing module is as follows:

Comparing and analyzing the water pressure accurate coefficient of the target device with a preset water pressure accurate coefficient threshold value, if the water pressure accurate coefficient of the target device is larger than the preset water pressure accurate coefficient threshold value, determining that the comprehensive water pressure output of the target device is normal, and recording the comprehensive water pressure output of the target device as a comprehensive water pressure analysis result of the target device; if the water pressure accurate coefficient of the target device is smaller than or equal to the preset water pressure accurate coefficient threshold value, determining that the comprehensive water pressure output of the target device is abnormal, and recording the comprehensive water pressure output abnormality of the target device as a comprehensive water pressure analysis result of the target device.

8. A hydrostatic testing method applied to the hydrostatic testing system according to any one of claims 1 to 7, characterized in that: comprising the following steps:

carrying out a hydraulic test on the target device to obtain test information of the hydraulic test of the target device;

analyzing test information of a hydraulic test of the target device to obtain a hydraulic output accurate coefficient corresponding to a constant hydraulic stage of the target device;

Analyzing and evaluating the accurate coefficient of the water pressure output corresponding to the water pressure constant stage of the target device to obtain a water pressure analysis result corresponding to the water pressure constant stage of the target device, and performing water pressure control treatment on the water pressure analysis result corresponding to the water pressure constant stage of the target device according to a preset water pressure treatment method;

Analyzing the test information of the hydraulic test of the target device to obtain a hydraulic output accurate coefficient corresponding to the hydraulic dynamic change stage of the target device;

Comprehensively analyzing the water pressure output accurate coefficient corresponding to the water pressure constant stage of the target device and the water pressure output accurate coefficient corresponding to the water pressure dynamic change stage of the target device to obtain the comprehensive water pressure output accurate coefficient of the target device;

and analyzing and evaluating the comprehensive water pressure output accurate coefficient of the target device to obtain a comprehensive water pressure analysis result of the target device, and performing water pressure control treatment on the comprehensive water pressure analysis result of the target device according to a preset water pressure treatment method.

9. A hydrostatic test storage medium having stored thereon a computer program, which when executed by a processor, implements the method of claim 8.