CN205080146U - Full -automatic sampling analysis system - Google Patents

Abstract

The utility model discloses a full -automatic sampling analysis system, full -automatic sampling analysis system includes sampling analysis system and automatic control system, and the sampling analysis system is including the sampling tube, sample valve, automatic sampling valve, detection room, isolating valve, the isolation ward that communicate in proper order, temperature detection sensor, liquid level detection sensor, pressurization valve and atmospheric valve respectively with detect the room intercommunication, the air supply communicates with the input of regulator, the output of regulator and the input of pressurization valve and pressure sensor intercommunication, analytical sensor switches in detecting between room and the isolation ward through the sensor servo mechanism who connects with it, the sampling analysis system is connected with the automatic control system electricity. The utility model has the advantages of analytical sensor life height, no material loss, production technology environment are good.

Description

Full-automatic sampling analytical system

Technical field

The utility model relates to sampling analytical system, is specifically related to a kind of full-automatic sampling analytical system.

Background technology

The analytic systems such as current on-line period analytic system such as pH value, dissolved oxygen amount, sugared concentration adopt in the direct intercalation reaction equipment of analyte sensors or process pipe mostly, the serviceable life of the direct impact analysis sensors of factor such as temperature, pressure environment and viscous medium in consersion unit or process pipe, easily scale forming matter and Measurement reliability, thus add maintenance and the analyte sensors loss of analytic system.In addition, due in the direct intercalation reaction equipment of analyte sensors or process pipe, must could implement under art production process halted state when analytic system carries out measurement update and maintenance, have impact on normal process and produce.

Also there is work under bad environment in manual sampling analytical system, analysis material consumes greatly, cannot accomplish that real-time determination and analysis result is easily subject to the problems such as human factor impact.

Utility model content

For solving the deficiency of above-mentioned prior art problem, the utility model provides a kind of full-automatic sampling analytical system, to solve in prior art analyte sensors serviceable life short, analyze that material loss is large, the technical matters of work under bad environment.

For achieving the above object, the utility model adopts following technical scheme: a kind of full-automatic sampling analytical system, comprise sampling analytical system and automatic control system, it is characterized in that: described sampling analytical system comprise be communicated with successively stopple coupon, sample valve, automatic sampling valve, sensing chamber, isolation valve, insulated chamber; Described temperature detection sensor, liquid level detecting sensor, pressurizing valve are communicated with sensing chamber respectively with atmospheric valve; Source of the gas is communicated with the input end of regulator, and the output terminal of regulator is communicated with pressure transducer with the input end of pressurizing valve; Analyte sensors switches between sensing chamber and insulated chamber by the sensor servomechanism installation be attached thereto; Sampling analytical system is electrically connected with automatic control system.

Further improvement is: be provided with cleaning device in described insulated chamber, and cleaning device input end is communicated with the second cleaning valve output terminal, and insulated chamber is communicated with the output terminal of blow down valve with bleed valve input end respectively, and the input end of blow down valve is communicated with source of the gas.Described insulated chamber is also communicated with the output terminal of the first calibrate valve with the second calibrate valve respectively.

Further: described sensing chamber is communicated with the output terminal of the first cleaning valve.

Further: described stopple coupon is connected with the input end of sampling pump, sampling delivery side of pump and the pipeline connection between sample valve and automatic sampling valve.

Further: described analyte sensors is pH value analyte sensors or sugared concentration analysis sensor or dissolved oxygen amount analyte sensors, and described analyte sensors includes but not limited to above-mentioned analyte sensors, also can be the analyte sensors analyzing other parameter.

Further: described automatic control system comprises: judge module, whether described judge module reaches requirement for the detected value judging pressure transducer and analyte sensors and send, if do not reach requirement, and output alarm signal; Alarm module, described alarm module points out warning for the alerting signal sent according to judge module; Logging modle, the detected value that described logging modle sends for recording pressure transducer and analyte sensors; Control module, described control module is used for analyzing the detected value that analyte sensors sends, calculating, and transmits control signal and carries out controlling, adjusting; Communication module, described communication module for detecting data, duty, steering order information uploads or downloads; Expansion module, described expansion module is used for the collection of other important parameter of explained hereafter except analytical parameters and control and (such as: the temperature in reactor, pressure, liquid level, participates in the metering of reaction mass and control etc.), the display of dynamic process picture and the adjustment of technological parameter, amendment, record and warning.

The utility model beneficial effect is:

(1) extend analyte sensors serviceable life, by the atmospheric valve is communicated with sensing chamber, when avoiding analyte sensors to detect, detection room pressure is excessive, damages analyte sensors serviceable life; Also have, by sensor servomechanism installation, the complete analyte sensors of detection is switched to the insulated chamber with pressure isolation in process equipment from sensing chamber, analyte sensors is protected, thus extends its serviceable life; In addition also by cleaning analyte sensors after hours with the cleaning device in insulated chamber, extend its serviceable life further;

(2) without material loss, by the source of the gas, regulator, pressure transducer and the pressurizing valve that are communicated with sensing chamber, the sample liquid after analysis in sensing chamber can turn back in explained hereafter;

(3) production technology environment is good, and native system achieves analyzing liquid sample closed circulating, is directly released in working environment without noxious volatile gas;

(4) by the temperature sensor that is communicated with sensing chamber and liquid level sensor, the temperature compensation with sample liquid parameter detecting is put for detecting sampling liquid level;

(5) by the first calibrate valve of being connected with insulated chamber and the second calibrate valve, twice demarcation can be carried out to analyte sensors, meet the calibration of analyte sensors and measure requirement;

(6) the first cleaning valve by being communicated with sensing chamber, cleaning fluid enters sensing chamber by the first cleaning valve and cleans sensing chamber and sampling pipe, avoids sensing chamber's fouling and sampling pipe to block;

(7) by arranging sampling pump, user can sample by the whether pneumatic sampling pump of unrestricted choice as required;

(8) analyte sensors is pH value analyte sensors or sugared concentration analysis sensor or dissolved oxygen amount analyte sensors, by changing different analytical parameters analyte sensors, meets the needs detected different analytical parameters.

Accompanying drawing explanation

Fig. 1 is the structured flowchart of the full-automatic sampling analytical system of the utility model preferred embodiment 1.

Fig. 2 is the structured flowchart of the automatic control system of the utility model preferred embodiment 1.

Fig. 3 is the FB(flow block) of the automatic control system of the utility model preferred embodiment 1.

Embodiment

Below in conjunction with accompanying drawing, the utility model and embodiment thereof are described in further detail.

Fig. 1 is a preferred embodiment of the present utility model.As shown in the figure: a kind of full-automatic sampling analytical system, comprises sampling analytical system and automatic control system, it is characterized in that: described sampling analytical system comprise be communicated with successively stopple coupon, sample valve, automatic sampling valve, sensing chamber, isolation valve, insulated chamber; Described temperature detection sensor, liquid level detecting sensor, pressurizing valve are communicated with sensing chamber respectively with atmospheric valve; Source of the gas is communicated with the input end of regulator, and the output terminal of regulator is communicated with pressure transducer with the input end of pressurizing valve; Analyte sensors switches between sensing chamber and insulated chamber by the sensor servomechanism installation be attached thereto; Sampling analytical system is electrically connected with automatic control system.

The sample liquid taken out from process equipment such as reactor by stopple coupon enters sensing chamber through sample valve and automatic sampling valve, carries out the pH value of sample liquid, sugared concentration or the isoparametric detection of dissolved oxygen amount.Whether liquid level detecting sensor reaches sampling level value for detecting sample liquid, and temperature detection sensor is used for the temperature compensation of sample liquid parameter detecting.Atmospheric valve is used for by the gas emptying in sensing chamber to process tail gas exhaust system, thus realizes detecting room pressure lower than process equipment internal pressure, is more conducive to the serviceable life extending analyte sensors.Analyte sensors switches in sensing chamber under the control of sensor servomechanism installation to be treated sample measuring liquid and carries out parameter detecting, analyte sensors can according to analytical parameters such as: the difference of the analytical parameters such as pH value, sugared concentration, dissolved oxygen amount carries out flexible configuration, specifically can be pH value analyte sensors, sugared concentration analysis sensor or dissolved oxygen amount analyte sensors etc., described analyte sensors includes but not limited to above-mentioned analyte sensors, also can be the analyte sensors analyzing other parameter.Isolation valve is for cutting off being communicated with of sensing chamber and insulated chamber; after analyte sensors detects sample liquid; analyte sensors switches to insulated chamber under the control of sensor servomechanism installation; insulated chamber and isolation valve play simultaneously isolates contacting thus playing a very good protection to analyte sensors of analyte sensors and process equipment internal pressure, and insulated chamber also can be used for for analyte sensors provides cleaning and the space demarcated.The effect of source of the gas, regulator, pressure transducer and pressurizing valve is that maintenance sensing chamber pressure is greater than the pressure in process equipment, thus the sample liquid realized after by detection is back in process equipment.Sensor servomechanism installation realizes, when analytical sampling system is in testing state, analyte sensors is switched to sensing chamber, and after testing, analyte sensors is switched to insulated chamber by sensor servomechanism installation.

Also cleaning device is provided with in described insulated chamber, cleaning device input end is communicated with the second cleaning valve output terminal, after sample liquid testing in sensing chamber, analyte sensors is switched to insulated chamber by sensor servomechanism installation, and cleaning fluid enters cleaning device by the second cleaning valve and cleans the analyte sensors being positioned at insulated chamber.Insulated chamber is communicated with bleed valve input end, and after analyte sensors cleaning, the cleaning fluid in insulated chamber is discharged from bleed valve.Insulated chamber is communicated with blow down valve output terminal, and the input end of blow down valve is communicated with source of the gas, insulated chamber can not discharged clean cleaning fluid purge away by this structure.By its each precision of analysis and reliability can be guaranteed to the cleaning of analyte sensors, the serviceable life of analyte sensors can also be improved in addition.

Insulated chamber is also communicated with the output terminal of the first calibrate valve with the second calibrate valve respectively, demarcate liquid by the first calibrate valve enter insulated chamber to analyte sensors carry out first time demarcate, first time demarcate terminate after open again second calibrate valve demarcate liquid enter insulated chamber to analyte sensors carry out second time demarcation.Can realize calibrating analyte sensors by carrying out twice demarcation to analyte sensors thus meet measurement requirement.

Described sensing chamber is also communicated with the output terminal of the first cleaning valve, and cleaning fluid enters sensing chamber by the first cleaning valve and cleans sensing chamber and sampling pipe, avoids sensing chamber's fouling and sampling pipe to block.

Described sampling analytical system also comprises sampling pump, and the input end of sampling pump is communicated with stopple coupon, sampling delivery side of pump and the pipeline connection between sample valve and automatic sampling valve.When needs by stopple coupon take out from process equipment sample liquid enter sensing chamber carry out parameter detecting time, user selectively install and start sampling pump sampling.When selecting to start sampling pump sampling, first start sampling pump, then open atmospheric valve and automatic sampling valve successively, stopple coupon enters sensing chamber from the sample liquid that process equipment is got and detects.When starting sampling pump sampling if do not need, then only need open atmospheric valve, automatic sampling valve successively, the sample liquid that stopple coupon is got from process equipment enters sensing chamber.

As shown in Figure 2, automatic control system structure comprises human-computer interaction interface, PLC programmable control system and servo circuit, realize the Automated condtrol to sampling analytical system.Human-computer interaction interface realizes equipment operating and controls to show with technique dynamic menu.PLC programmable control system realizes the programmed control of each controlled part of sampling analytical system, automatically gathers, judges, alarm and control to analytic system and parameters of technique process.Servo circuit performs the steering order of PLC programmable control system, completes the automatic control of sampling analytical system and the output of control signal and alerting signal.

As shown in Figure 3, automatic control system functionally comprises judge module, alarm module, logging modle, control module, communication module and expansion module: whether judge module reaches requirement for the detected value judging pressure transducer and analyte sensors and send, if do not reach requirement, output alarm signal; Alarm module points out warning for the alerting signal sent according to judge module; The detected value that logging modle sends for recording pressure transducer and analyte sensors; Control module is used for analyzing the detected value that analyte sensors sends, calculating, and transmits control signal and carries out controlling, adjusting; Communication module is uploaded for detecting the information such as data, duty, steering order or is downloaded; Expansion module, described expansion module is used for the collection of other important parameter of explained hereafter except analytical parameters and control and (such as: the temperature in reactor, pressure, liquid level, participates in the metering of reaction mass and control etc.), the display of dynamic process picture and the adjustment of technological parameter, amendment, record and warning.

The detection method of the full-automatic sampling analytical system described in embodiment 1, described sampling analytical system completes following steps under control of the control system:

(A1) open atmospheric valve, automatic sampling valve successively, the sample liquid that stopple coupon is got from process equipment enters sensing chamber, when the sample liquid of sensing chamber arrives sampling liquid level desired value, closes automatic sampling valve;

(A2) after automatic sampling valve is closed and put in place, open isolation valve, after isolation valve is opened and put in place, analyte sensors is switched to sensing chamber and carries out sample liquid detection analysis by sensor servomechanism installation;

(A3) after sample liquid detects and analyzes, analyte sensors is switched to insulated chamber by sensor servomechanism installation, closes isolation valve;

(A4) after isolation valve cuts out and puts in place, close atmospheric valve, judge that whether pressure is up to standard according to pressure sensor measurements, if pressure is up to standard namely open pressurizing valve and automatic sampling valve successively, sample liquid after detection returns process equipment by stopple coupon, closes sample valve.

Described automatic analytical system improves the second cleaning valve, bleed valve, blow down valve and the equipment demarcated the analyte sensors after cleaning that are in insulated chamber, to add cleaning device and be communicated with insulated chamber further, and thus its detection method can comprise the steps: further

(A1) after sample liquid detects analysis, analyte sensors is switched to insulated chamber by sensor servomechanism installation, then isolation valve is closed, isolation valve cuts out completely, open the second cleaning valve, the cleaning device that cleaning fluid enters in insulated chamber cleans the analyte sensors being positioned at insulated chamber;

(A2) after cleaning, close the second cleaning valve, open bleed valve discharge cleaning fluid, after cleaning fluid discharge, open blow down valve, the cleaning fluid in cleaning device is purged completely totally;

(A3) when analyte sensors needs timing signal, sampling analytical system switches to pause mode, open first calibrate valve demarcate liquid enter insulated chamber to analyte sensors carry out first time demarcate, then open second calibrate valve demarcate liquid enter insulated chamber to analyte sensors carry out second time demarcation;

(A4), after demarcating, sampling system switches to duty.

According to above-mentioned detection method, alternatively, described detection method comprises the steps:, when selecting startup sampling pump to sample from stopple coupon, first to start sampling pump further, then open atmospheric valve and automatic sampling valve successively, the sample liquid that stopple coupon is got from process equipment enters sensing chamber.

Obviously, above-described embodiment is only for the utility model example is clearly described, and is not the restriction to embodiment of the present utility model.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.And these belong to spirit institute's apparent change of extending out of the present utility model or change and are still among protection domain of the present utility model.

Claims (6)

1. a full-automatic sampling analytical system, comprises sampling analytical system and automatic control system, it is characterized in that: described sampling analytical system comprise be communicated with successively stopple coupon, sample valve, automatic sampling valve, sensing chamber, isolation valve, insulated chamber; Described temperature detection sensor, liquid level detecting sensor, pressurizing valve are communicated with sensing chamber respectively with atmospheric valve; Source of the gas is communicated with the input end of regulator, and the output terminal of regulator is communicated with pressure transducer with the input end of pressurizing valve; Analyte sensors switches between sensing chamber and insulated chamber by the sensor servomechanism installation be attached thereto; Sampling analytical system is electrically connected with automatic control system.

2. full-automatic sampling analytical system according to claim 1, it is characterized in that: in described insulated chamber, be provided with cleaning device, cleaning device input end is communicated with the second cleaning valve output terminal, insulated chamber is communicated with bleed valve input end, insulated chamber is communicated with the output terminal of blow down valve with bleed valve input end respectively, and the input end of blow down valve is communicated with source of the gas.

3. full-automatic sampling analytical system according to claim 2, is characterized in that: described insulated chamber is also communicated with the output terminal of the first calibrate valve with the second calibrate valve respectively.

4. full-automatic sampling analytical system according to claim 1, is characterized in that: described sensing chamber is communicated with the output terminal of the first cleaning valve.

5. full-automatic sampling analytical system according to claim 1, it is characterized in that: described sampling analytical system also comprises sampling pump, the input end of sampling pump is communicated with stopple coupon, sampling delivery side of pump and the pipeline connection between sample valve and automatic sampling valve.

6. full-automatic sampling analytical system according to claim 1, is characterized in that: described analyte sensors is pH value analyte sensors or sugared concentration analysis sensor or dissolved oxygen amount analyte sensors.