CN204556585U - A kind of micro-moisture intelligent test device - Google Patents

Abstract

The utility model relates to a kind of micro-moisture intelligent test device, it comprises main frame, main frame is provided with controller, main frame is connected with titration bottle, titration bottle is provided with feed tube A and dry cup, titration bottle is provided with discharging tube, discharging tube is provided with solenoid valve F, titration bottle is connected with electromagnetic mixing apparatus, feed tube A is provided with gas outlet and solenoid valve B, gas outlet is provided with solenoid valve A, feed tube A is connected with feed tube B, feed tube B is provided with the first liquid level gauge, second liquid level gauge, rubber stopper and drying tube, feed tube B is connected with feed tube C, feed tube C is provided with solenoid valve C, feed tube C is connected with sample bottle, sample bottle is connected with gas piping A, gas piping A is connected with gas piping B and gas piping C, gas piping B arranges solenoid valve D, gas piping C is connected with drying tube, the lower end of drying tube is connected with gas piping, gas piping is provided with solenoid valve E, one end of gas piping is connected with air pump, there is structure simple, easy to use, degree of accuracy is high, cost compare is low, the advantage of high safety.

Description

A kind of micro-moisture intelligent test device

Technical field

The utility model belongs to instrumentation devices technical field, particularly a kind of micro-moisture intelligent test device.

Background technology

Determination of trace water device is the testing tool of society people institute's widespread use in production run process, in China's oil, chemical industry, electric power, quality inspection, R&D institution, institution of higher learning and aviation, the units such as army are widely used, particularly at field of medicaments, some drugs is responsive especially to moisture, the moisture of its injection bottle used must be controlled, at present, relatively more conventional mensuration mode all adopts expense Xiu Shi method to measure, this needs to adopt moisture teller to add that special device realizes the mensuration of inner surface of container moisture, but, in mensuration process, often not in place to the removal of moisture for pipeline, the result measured is made to have deviation, or it is many to measure number of times, lose time and material, simultaneously, most instrument is in sampling process, adopt the mode of negative pressure, this due to gas compressibility strong, cause a deviation larger, in addition, moisture teller adds that special installation cost is high, expensive, process for waste liquid also more to be adopted manually, health of human body is caused serious injury, therefore, find a kind of structure simple, easy to use, degree of accuracy is high, cost compare is low, the micro-moisture intelligent test device of high safety just very meaningful.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, and provides that a kind of structure is simple, easy to use, degree of accuracy is high, cost compare is low, the micro-moisture intelligent test device of high safety.

The technical solution adopted in the utility model is achieved in that a kind of micro-moisture intelligent test device, it comprises main frame, described main frame is provided with controller, the side of main frame is provided with display screen, main frame is connected with titration bottle, the top of described titration bottle is provided with feed tube A and dry cup, the bottom of titration bottle is provided with discharging tube, described discharging tube is provided with solenoid valve F, the bottom of titration bottle is connected with electromagnetic mixing apparatus, the upper end of described feed tube A is provided with gas outlet, described gas outlet is provided with solenoid valve A, the bottom of feed tube A is provided with solenoid valve B, the middle part of described feed tube A is connected with feed tube B, described feed tube B is respectively arranged with the first liquid level gauge and the second liquid level gauge from top to bottom, the upper end of feed tube B is provided with rubber stopper, the top of feed tube B is provided with drying tube, feed tube B is connected with feed tube C, the bottom of described feed tube C is provided with solenoid valve C, feed tube C bottom is connected with sample bottle, described sample bottle is connected with gas piping A, described gas piping A is connected with gas piping B and gas piping C, described gas piping B is provided with solenoid valve D, described gas piping C is connected with drying tube, the lower end of described drying tube is connected with gas piping, described gas piping is provided with solenoid valve E, one end of gas piping is connected with air pump.

Described controller is connected with solenoid valve F with solenoid valve A, solenoid valve B, solenoid valve C, solenoid valve D, solenoid valve E.

Described controller is connected with the second liquid level gauge with the first liquid level gauge.

Described controller is connected with air pump.

Described solenoid valve B is arranged on the bottom of feed tube A and feed tube B intersection.

Described gas piping B is connected with feed tube C, and the downward-sloping setting of gas piping B.

Described solenoid valve D is arranged on the bottom of feed tube C and gas piping B intersection.

The beneficial effects of the utility model: a kind of micro-moisture intelligent test device of the utility model, adopt the mode of titrimetry, measure the water cut of sample, this apparatus structure is simple, degree of accuracy easy to use is high, cost-saving, before the assay, due to can malaria be had in the pipeline of equipment, therefore this part moisture first should be gone out, avoid the result affecting test, improve the precision of test, during cleaning, controller is had to control booster air pump, opens solenoid valve E simultaneously, solenoid valve D and solenoid valve A, shut electromagnetic valve C and solenoid valve B simultaneously, this air being through drying just enters into feed tube C through gas piping B and reaches feed tube B, then discharged from gas outlet by feed tube B, dry process is after 30 seconds, controller is had to control to close air pump, shut electromagnetic valve A, solenoid valve D and solenoid valve E, then start to carry out mensuration moisture, controller controls to open solenoid valve C, open air pump and solenoid valve E simultaneously, this is that air just enters into sample bottle, because liquid is entered into feed tube B through feed tube C by the effect of air pressure, in feed tube B, first liquid arrive the first level sensor, then the second level sensor is arrived, at this moment the second level sensor passes the signal along to controller, controller controls to stop air pump, shut electromagnetic valve E, then solenoid valve B is opened, test liquid just enters into titration bottle through feed tube A, when test liquid drops to the first level sensor, shut electromagnetic valve B, test, and obtain measurement result by after the controller process that is connected with titration bottle, this mode just effectively avoids the mode of the employing gas boosting used at present, measure a certain amount of test liquid, compressibility due to gas causes quantity of sampling quantity to be forbidden, error increases, after mensuration completes, booster air pump again, shut electromagnetic valve C, solenoid valve A, opens solenoid valve D, expense in titration bottle is got rid of by discharging tube by solenoid valve E and solenoid valve F, this mode avoids human contact to poisonous liquid, reduce the injury of personnel, improve experimental situation simultaneously, it is simple that the utility model has structure, easy to use, degree of accuracy is high, cost compare is low, the advantage of high safety.

Accompanying drawing explanation

Fig. 1 is a kind of micro-moisture intelligent test device of the utility model structural representation.

Fig. 2 is a kind of micro-moisture intelligent test device of the utility model control principle drawing.

In figure: 1, main frame 2, controller 3, display screen 4, titration bottle 5, feed tube A 6, dry cup 7, discharging tube 8, solenoid valve F 9, electromagnetic mixing apparatus 10, gas outlet 11, solenoid valve A 12, solenoid valve B 13, feed tube B 14, first liquid level gauge 15, second liquid level gauge 16, rubber stopper 17, drying tube 18, feed tube C 19, solenoid valve C 20, sample bottle 21, gas piping A 22, gas piping B 23, gas piping C 24, solenoid valve D 25, gas piping 26, solenoid valve E 27, air pump.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described further.

Embodiment 1

As depicted in figs. 1 and 2, a kind of micro-moisture intelligent test device, it comprises main frame 1, described main frame 1 is provided with controller 2, the side of main frame 1 is provided with display screen 3, main frame 1 is connected with titration bottle 4, the top of described titration bottle 4 is provided with feed tube A5 and dry cup 6, the bottom of titration bottle 4 is provided with discharging tube 7, described discharging tube 7 is provided with solenoid valve F8, the bottom of titration bottle 4 is connected with electromagnetic mixing apparatus 9, the upper end of described feed tube A5 is provided with gas outlet 10, described gas outlet 10 is provided with solenoid valve A11, the bottom of feed tube A5 is provided with solenoid valve B12, the middle part of described feed tube A5 is connected with feed tube B13, described feed tube B13 is respectively arranged with the first liquid level gauge 14 and the second liquid level gauge 15 from top to bottom, the upper end of feed tube B13 is provided with rubber stopper 16, the top of feed tube B13 is provided with drying tube 17, feed tube B13 is connected with feed tube C18, the bottom of described feed tube C18 is provided with solenoid valve C19, feed tube C18 bottom is connected with sample bottle 20, described sample bottle 20 is connected with gas piping A21, described gas piping A21 is connected with gas piping B22 and gas piping C23, described gas piping B22 is provided with solenoid valve D24, described gas piping C23 is connected with drying tube 17, the lower end of described drying tube 17 is connected with gas piping 25, described gas piping 25 is provided with solenoid valve E26, one end of gas piping 25 is connected with air pump 27.

A kind of micro-moisture intelligent test device of the utility model, adopt the mode of titrimetry, measure the water cut of sample, this apparatus structure is simple, degree of accuracy easy to use is high, cost-saving, before the assay, due to can malaria be had in the pipeline of equipment, therefore this part moisture first should be gone out, avoid the result affecting test, improve the precision of test, during cleaning, controller is had to control booster air pump, opens solenoid valve E simultaneously, solenoid valve D and solenoid valve A, shut electromagnetic valve C and solenoid valve B simultaneously, this air being through drying just enters into feed tube C through gas piping B and reaches feed tube B, then discharged from gas outlet by feed tube B, dry process is after 30 seconds, controller is had to control to close air pump, shut electromagnetic valve A, solenoid valve D and solenoid valve E, then start to carry out mensuration moisture, controller controls to open solenoid valve C, open air pump and solenoid valve E simultaneously, this is that air just enters into sample bottle, because liquid is entered into feed tube B through feed tube C by the effect of air pressure, in feed tube B, first liquid arrive the first level sensor, then the second level sensor is arrived, at this moment the second level sensor passes the signal along to controller, controller controls to stop air pump, shut electromagnetic valve E, then solenoid valve B is opened, test liquid just enters into titration bottle through feed tube A, when test liquid drops to the first level sensor, shut electromagnetic valve B, test, and obtain measurement result by after the controller process that is connected with titration bottle, this mode just effectively avoids the mode of the employing gas boosting used at present, measure a certain amount of test liquid, compressibility due to gas causes quantity of sampling quantity to be forbidden, error increases, after mensuration completes, booster air pump again, shut electromagnetic valve C, solenoid valve A, opens solenoid valve D, expense in titration bottle is got rid of by discharging tube by solenoid valve E and solenoid valve F, this mode avoids human contact to poisonous liquid, reduce the injury of personnel, improve experimental situation simultaneously, it is simple that the utility model has structure, easy to use, degree of accuracy is high, cost compare is low, the advantage of high safety.

Embodiment 2

As depicted in figs. 1 and 2, a kind of micro-moisture intelligent test device, it comprises main frame 1, described main frame 1 is provided with controller 2, the side of main frame 1 is provided with display screen 3, main frame 1 is connected with titration bottle 4, the top of described titration bottle 4 is provided with feed tube A5 and dry cup 6, the bottom of titration bottle 4 is provided with discharging tube 7, described discharging tube 7 is provided with solenoid valve F8, the bottom of titration bottle 4 is connected with electromagnetic mixing apparatus 9, the upper end of described feed tube A5 is provided with gas outlet 10, described gas outlet 10 is provided with solenoid valve A11, the bottom of feed tube A5 is provided with solenoid valve B12, the middle part of described feed tube A5 is connected with feed tube B13, described feed tube B13 is respectively arranged with the first liquid level gauge 14 and the second liquid level gauge 15 from top to bottom, the upper end of feed tube B13 is provided with rubber stopper 16, the top of feed tube B13 is provided with drying tube 17, feed tube B13 is connected with feed tube C18, the bottom of described feed tube C18 is provided with solenoid valve C19, feed tube C18 bottom is connected with sample bottle 20, described sample bottle 20 is connected with gas piping A21, described gas piping A21 is connected with gas piping B22 and gas piping C23, described gas piping B22 is provided with solenoid valve D24, described gas piping C23 is connected with drying tube 17, the lower end of described drying tube 17 is connected with gas piping 25, described gas piping 25 is provided with solenoid valve E26, one end of gas piping 25 is connected with air pump 27, described controller 2 and solenoid valve A11, solenoid valve B12, solenoid valve C19, solenoid valve D24, solenoid valve E26 is connected with solenoid valve F8, described controller 2 is connected with the second liquid level gauge 15 with the first liquid level gauge 14, described controller 2 is connected with air pump 27, described solenoid valve B12 is arranged on the bottom of feed tube A5 and feed tube B13 intersection, described gas piping B22 is connected with feed tube C18, and the downward-sloping setting of gas piping B22, described solenoid valve D24 is arranged on the bottom of feed tube C18 and gas piping B22 intersection.

A kind of micro-moisture intelligent test device of the utility model, adopt the mode of titrimetry, measure the water cut of sample, this apparatus structure is simple, degree of accuracy easy to use is high, cost-saving, before the assay, due to can malaria be had in the pipeline of equipment, therefore this part moisture first should be gone out, avoid the result affecting test, improve the precision of test, during cleaning, controller is had to control booster air pump, opens solenoid valve E simultaneously, solenoid valve D and solenoid valve A, shut electromagnetic valve C and solenoid valve B simultaneously, this air being through drying just enters into feed tube C through gas piping B and reaches feed tube B, then discharged from gas outlet by feed tube B, dry process is after 30 seconds, controller is had to control to close air pump, shut electromagnetic valve A, solenoid valve D and solenoid valve E, then start to carry out mensuration moisture, controller controls to open solenoid valve C, open air pump and solenoid valve E simultaneously, this is that air just enters into sample bottle, because liquid is entered into feed tube B through feed tube C by the effect of air pressure, in feed tube B, first liquid arrive the first level sensor, then the second level sensor is arrived, at this moment the second level sensor passes the signal along to controller, controller controls to stop air pump, shut electromagnetic valve E, then solenoid valve B is opened, test liquid just enters into titration bottle through feed tube A, when test liquid drops to the first level sensor, shut electromagnetic valve B, test, and obtain measurement result by after the controller process that is connected with titration bottle, this mode just effectively avoids the mode of the employing gas boosting used at present, measure a certain amount of test liquid, compressibility due to gas causes quantity of sampling quantity to be forbidden, error increases, after mensuration completes, booster air pump again, shut electromagnetic valve C, solenoid valve A, opens solenoid valve D, expense in titration bottle is got rid of by discharging tube by solenoid valve E and solenoid valve F, this mode avoids human contact to poisonous liquid, reduce the injury of personnel, improve experimental situation simultaneously, it is simple that the utility model has structure, easy to use, degree of accuracy is high, cost compare is low, the advantage of high safety.

Claims (7)

1. a micro-moisture intelligent test device, it comprises main frame, it is characterized in that: described main frame is provided with controller, the side of main frame is provided with display screen, main frame is connected with titration bottle, the top of described titration bottle is provided with feed tube A and dry cup, the bottom of titration bottle is provided with discharging tube, described discharging tube is provided with solenoid valve F, the bottom of titration bottle is connected with electromagnetic mixing apparatus, the upper end of described feed tube A is provided with gas outlet, described gas outlet is provided with solenoid valve A, the bottom of feed tube A is provided with solenoid valve B, the middle part of described feed tube A is connected with feed tube B, described feed tube B is respectively arranged with the first liquid level gauge and the second liquid level gauge from top to bottom, the upper end of feed tube B is provided with rubber stopper, the top of feed tube B is provided with drying tube, feed tube B is connected with feed tube C, the bottom of described feed tube C is provided with solenoid valve C, feed tube C bottom is connected with sample bottle, described sample bottle is connected with gas piping A, described gas piping A is connected with gas piping B and gas piping C, described gas piping B is provided with solenoid valve D, described gas piping C is connected with drying tube, the lower end of described drying tube is connected with gas piping, described gas piping is provided with solenoid valve E, one end of gas piping is connected with air pump.

2. a kind of micro-moisture intelligent test device according to claim 1, is characterized in that: described controller is connected with solenoid valve F with solenoid valve A, solenoid valve B, solenoid valve C, solenoid valve D, solenoid valve E.

3. a kind of micro-moisture intelligent test device according to claim 1, is characterized in that: described controller is connected with the second liquid level gauge with the first liquid level gauge.

4. a kind of micro-moisture intelligent test device according to claim 1, is characterized in that: described controller is connected with air pump.

5. a kind of micro-moisture intelligent test device according to claim 1, is characterized in that: described solenoid valve B is arranged on the bottom of feed tube A and feed tube B intersection.

6. a kind of micro-moisture intelligent test device according to claim 1, is characterized in that: described gas piping B is connected with feed tube C, and the downward-sloping setting of gas piping B.

7. a kind of micro-moisture intelligent test device according to claim 1, is characterized in that: described solenoid valve D is arranged on the bottom of feed tube C and gas piping B intersection.