CN2909254Y - Intelligent instrument with automatic liquid storage device - Google Patents

Abstract

The utility model discloses a sulfur determination instrument with an automatic storage device, including a furnace fixed on the bottom board, a control apparatus as well as an electrolytic cell, a drying device, a flowing sensor and a circulating pump linked with each other through the pipeline. The furnace has a combustion tube inside, the electrolytic cell is connected with the terminal of the combustion tube through a pipeline, the inlet end of the furnace has a sample feeding inlet, which is connected with the sample feeding device, and the electrolytic cell is connected with an automatic storage device through a pipeline. The utility model is the sulfur determination instrument with an automatic storage device which automatically transfers electrolyte from the electrolytic cell, separately stores the electrolyte and automatically finishes cleaning the electrolytic cell, avoiding fouling and corrosion to the electrolytic cell, improving the stability and accuracy of test, regulating the use and maintenance of equipment, extending the service time of the overall test equipment, greatly reducing the labor intensity of operator and avoiding the hurt of electrolyte to the human body.

Description

The constant sulphur appliance of band automatic liquid storage device

Technical field

The utility model is mainly concerned with the measuring equipment field of sulfur content in the combustible, refers in particular to a kind of constant sulphur appliance with automatic liquid storage device.

Background technology

Sulphur is topmost oxious component in the coal sample, can generate SO after the contained sulphides burn in the coal sample ₂Deng harmful gas, with and the flying dust that produced can enter atmosphere with flue gas, cause atmospheric pollution and environment dust pollution, therefore the detection to sulfur content in the coal sample is a very important job of coal production, sale, use and environmental administration.In the prior art,, generally adopt constant sulphur appliance as measuring equipment commonly used in order to measure the sulfur content in the combustible accurately and rapidly.In various measuring equipments, as constant sulphur appliance etc., it is at present domestic a kind of method relatively more commonly used that coulomb is surveyed the sulphur method, the electrolytic solution that detects rules regulation detection usefulness must take out from electrolytic cell every day, and deposit with special-purpose vessel, added again in second day and be poured in the electrolytic cell, and clean electrolytic cell 1-2 time with cleaning fluid (as distilled water).If can not deposit electrolytic solution in accordance with regulations and clean electrolytic cell, behind certain access times, test data will be affected, and becomes inaccurate, and because of electrolytic solution has certain corrosivity, a lot of elements in the electrolytic cell will suffer erosion and damage in advance or scrap.For depositing and the cleaning of electrolytic cell of electrolytic solution, the artificial mode of general employing is carried out, but because these work every day must be by manually carrying out, operate more loaded down with trivial details, waste of human resource is serious, and electrolytic solution in operating process all can bring harm to operator ' s health if drop on operating personnel's the skin because of carelessness or contact and breathe the gas with penetrating odor that electrolytic solution comes out for a long time.Simultaneously, this artificial treatment mode has also reduced the automaticity of testing apparatus, has reduced the efficient of whole surveying work, and fails truly realizing unmanned management.

The utility model content

The technical problems to be solved in the utility model just is: at the technical matters of prior art existence, the utility model provides a kind of and can automatically electrolytic solution be shifted from electrolytic cell and separately independently deposit, can finish constant sulphur appliance automatically to the band automatic liquid storage device of the cleaning of electrolytic cell, thereby alleviated the labour intensity of operating personnel in detection greatly, improve efficiency of measurement, prolong the measuring equipment whole service life.

For solving the problems of the technologies described above, the solution that the utility model proposes is: a kind of constant sulphur appliance with automatic liquid storage device, it comprises body of heater, control gear that is fixed on the base plate and electrolytic cell, drying device, flow inductor and the ebullator that links to each other successively by pipeline, be equiped with flame tube in the body of heater, electrolytic cell links to each other with the tail end of flame tube by pipeline, the inlet end of body of heater is provided with the sample presentation mouth, the sample presentation mouth links to each other with sample conveying device, it is characterized in that: described electrolytic cell links to each other with an automatic liquid storage device by pipeline.

Described automatic liquid storage device comprises liquid storage container and elevating mechanism, and the top of liquid storage container is provided with gland bonnet, and the top of liquid storage container links to each other with the bottom with the top of electrolytic cell with catheter by wireway respectively with the bottom; The two ends of wireway are arranged in the more than the high liquid level (HLL) of liquid storage container and electrolytic cell liquid, and the two ends of catheter are arranged in below the liquid level of liquid storage container and electrolytic cell liquid.

Described elevating mechanism comprises hoistable platform, elevating screw, lifting motor and elevator platform, and liquid storage container is fixed on the hoistable platform, and hoistable platform is slidedly arranged on the elevating screw, and elevating screw links to each other with lifting motor on being fixed in elevator platform.

Described automatic liquid storage device comprises liquid storage container, the piston body that cooperates with liquid storage container and piston driver, and liquid storage container was connected with electrolytic cell by communicating pipe; Piston body one end is inserted in the liquid storage container, and the other end links to each other with piston driver.

Described piston driver is the piston elevating mechanism, this piston elevating mechanism comprises piston hoistable platform, piston elevating screw, piston lifting motor and piston elevator platform, piston body is fixed on the piston hoistable platform, the piston hoistable platform is slidedly arranged on the piston elevating screw, and the piston elevating screw links to each other with piston lifting motor on being fixed in the piston elevator platform.

Described automatic liquid storage device comprises liquid storage container and the pump that links to each other with liquid storage container by pipeline, and the top of liquid storage container is provided with gland bonnet, and liquid storage container and electrolytic cell be not on same horizontal line, and liquid storage container is between electrolytic cell and pump; The top of liquid storage container links to each other with electrolytic cell by first communicating pipe and second communicating pipe respectively with the bottom, and second communicating pipe was provided with the first direction operation valve, and the connecting pipeline that liquid storage container links to each other with pump is provided with the second direction operation valve.

Described automatic liquid storage device comprises liquid storage container and the pump that links to each other with liquid storage container by pipeline, and pump is between electrolytic cell and liquid storage container; Liquid storage container links to each other with electrolytic cell by pipeline, and the pipeline between liquid storage container and the pump is provided with the third direction operation valve.

Described electrolytic cell links to each other with an automatic flushing device by pipeline.

Cleaning piston body and cleaning piston drive unit that described automatic flushing device comprises clean container, cooperates with clean container, clean container was connected with electrolytic cell by communicating pipe; Cleaning piston body one end is inserted in the clean container, and the other end links to each other with the cleaning piston drive unit.

Described automatic flushing device comprises clean container and the scavenging pump that links to each other with clean container by pipeline, and clean container or scavenging pump link to each other with electrolytic cell.

Compared with prior art, advantage of the present utility model just is:

The utility model can be finished liquid storage or cleaning fully automatically.The utility model can be transferred to special-purpose liquid storage container stored with electrolytic solution from electrolytic cell automatically when non-experimental state, reduce critical component (as electrode slice, electrolytic cell cylindrical shell etc.) long period of soaking in the electrolytic cell in acid solution and the corrosion that brings, also make simultaneously the electrolytic solution that is stored in the special container be subjected to ectocine little, its chemical constitution is more stable, and service time is longer.When electrolytic solution was removed, the utility model also can clean electrolytic cell automatically, and the Impurity removal on the critical component in the electrolytic cell (as electrode slice, electrolytic cell cylindrical shell etc.) is clean, made its electrolysis effectiveness higher, and experimental data is more stable, more accurate.And these operations all do not need manually to carry out, and thoroughly solve the harm that electrolytic solution might bring human body yet, have alleviated the labour intensity of operating personnel in detection simultaneously greatly yet, improve efficiency of measurement.Can prevent that also operating personnel from not carrying out detection rules (as not putting storage electrolytic solution in accordance with regulations and cleaning electrolytic cell) and bringing the damage to checkout equipment, improve the precision of detection data and the stability of instrument, prolong the tenure of use of equipment.

Description of drawings

Fig. 1 is a plan structure synoptic diagram of the present utility model;

Fig. 2 is the structural representation one of the embodiment 1 of automatic liquid storage device in the utility model;

Fig. 3 is the structural representation two of the embodiment 1 of automatic liquid storage device in the utility model;

Fig. 4 is the structural representation one of automatic liquid storage device embodiment 2;

Fig. 5 is the structural representation two of automatic liquid storage device embodiment 2;

Fig. 6 is the structural representation of automatic liquid storage device embodiment 3;

Fig. 7 is the structural representation of automatic liquid storage device embodiment 4.

Fig. 8 is the structural representation one of automatic flushing device embodiment 1 in the utility model;

Fig. 9 is the structural representation two of automatic flushing device embodiment 1 in the utility model;

Figure 10 is the structural representation one of automatic flushing device embodiment 2;

Figure 11 is the structural representation two of automatic flushing device embodiment 2;

Figure 12 is the structural representation of automatic flushing device embodiment 3;

Figure 13 is the structural representation of automatic flushing device embodiment 4.

Marginal data

1, base plate 2, automatic flushing device

201, clean container 202, cleaning gland bonnet

203, clean wireway 204, cleaning catheter

205, clean hoistable platform 206, cleaning elevating screw

207, clean lifting motor 208, cleaning elevator platform

209, leakage fluid dram 210, cleaning piston body

211, cleaning piston hoistable platform 212, cleaning piston elevating screw

213, cleaning piston lifting motor 214, cleaning piston elevator platform

215, scavenging pump 216, first cleans communicating pipe

217, second clean communicating pipe 218, four directions to operation valve

219, the 6th directional control valve 220, spray bar

221, spray orifice 222, the 5th directional control valve

3, electrolytic cell 301, magnetic stirring apparatus

302, stirrer 4, automatic liquid storage device

401, liquid storage container 402, gland bonnet

403, wireway 404, catheter

405, hoistable platform 406, elevating screw

407, lifting motor 408, elevator platform

409, electrolytic cell leakage fluid dram 410, piston body

411, piston hoistable platform 412, piston elevating screw

413, piston lifting motor 414, piston elevator platform

415, pump 416, first communicating pipe

417, second communicating pipe 418, first direction operation valve

419, second direction operation valve 420, third direction operation valve

5, body of heater 6, sample presentation mouth

7, sample boat platform 8, sample boat

9, sample conveying device 10, control gear

11, ebullator 12, flow inductor

13, drying device 14, flame tube

15, electrolytic solution 16, cleaning fluid

Embodiment

Below with reference to the drawings and specific embodiments the utility model is described in further details.

As shown in Figure 1, the constant sulphur appliance of band automatic liquid storage device of the present utility model, it comprises the body of heater 5 that is fixed on the base plate 1, control gear 10 and the electrolytic cell 3 that links to each other successively by pipeline, drying device 13, flow inductor 12 and ebullator 11, be equiped with flame tube 14 in the body of heater 5, electrolytic cell 3 links to each other by the tail end of pipeline with flame tube 14, the inlet end of body of heater 5 is provided with sample presentation mouth 6, sample presentation mouth 6 links to each other with sample conveying device 9, this sample conveying device 9 is used for the sample boat 8 that splendid attire coal sample to be measured held in the palm in sample presentation mouth 6 is sent into flame tube 14 by sample boat platform 7 and fully burns, the gas of discharging of the having burnt electrolytic cell 3 of flowing through successively, drying device 13, flow inductor 12 and ebullator 11, thereby obtain one group of experimental data, finish surveying work.This sample conveying device 9 can adopt the mechanism of artificial sample presentation, also can adopt the mechanism of automatic sample conveying.Control gear 10 is motion, location and the data acquisitions that are used to control whole instrument; Electrolytic cell 3 is used for analyzing the sulfur content from the air-flow of body of heater 5 extractions; Drying device 13 is used for absorbing the moisture of discharging air-flow; Flow inductor 12 is used to measure and control the size of airshed; Ebullator 11 is used to provide air-flow power.In the constant sulphur appliance of the present utility model, electrolytic cell 3 links to each other with an automatic liquid storage device 4 by pipeline, and this automatic liquid storage device 4 can shift the electrolytic solution in the electrolytic cell 3 15 and independently deposit by pipeline after experiment be finished automatically; When beginning to test, automatic liquid storage device 4 can send back to electrolytic solution 15 in the electrolytic cell 3 by pipeline again automatically.Present embodiment also further comprises automatic flushing device 2 as preferred embodiment, and this automatic flushing device 2 links to each other with electrolytic cell 3 by pipeline, and when beginning to test, automatic flushing device 2 cuts out; Electrolytic solution is removed after experiment finishes, and automatic flushing device 2 is injected into cleaning fluid 16 (as distilled water etc.) in the electrolytic cell 3 electrolytic cell 3 is cleaned.Like this, just no longer need finish the operation of liquid storage or cleaning in artificial mode, not only improved the automaticity of whole test job, also solved the harm that electrolytic solution 15 might bring human body up hill and dale, also alleviated simultaneously the labour intensity of operating personnel in detection greatly, improved efficiency of measurement, can prevent that also operating personnel from not carrying out detection rules (as not putting storage electrolytic solution 15 in accordance with regulations and cleaning electrolytic cell 3) and bringing the damage to checkout equipment, improved and detected the precision of data and the stability of instrument, prolonged the tenure of use of testing apparatus.

Automatic liquid storage device 4 can adopt multiple mode in the utility model, electrolytic solution 15 is flowed realize the mode that shifts or utilize piston to cooperate to produce pressure electrolytic solution 15 to be flowed realize shifting or the like such as utilizing position height to form driving force that 15 gravity flows of pressure official post electrolytic solution realize shifting, utilize pump 415, below with reference to specific embodiment automatic liquid storage device 4 is described in further details, but the utility model is not limited to the mode of following limited several embodiment.

Embodiment 1: as shown in Figures 2 and 3, in the present embodiment, automatic liquid storage device 4 comprises liquid storage container 401 and liquid storage elevating mechanism, liquid storage container 401 is fixed on the liquid storage elevating mechanism, electrolytic cell 3 communicates with outside air, the top of liquid storage container 401 is provided with gland bonnet 402, the top of liquid storage container 401 links to each other with the bottom with the top of electrolytic cell 3 with catheter 404 by wireway 403 respectively with the bottom, the two ends of wireway 403 are arranged in the more than the high liquid level (HLL) of liquid storage container 401 and electrolytic cell 3 liquid, and the two ends of catheter 404 are arranged in below the liquid level of liquid storage container 401 and electrolytic cell 3 liquid.Liquid storage container 401 can be adjusted its place height as required under the drive of liquid storage elevating mechanism, thereby and form pressure differential between the electrolytic cell 3, liquids and gases are flowed between liquid storage container 401 and electrolytic cell 3 by catheter 404 and wireway 403 respectively.This liquid storage elevating mechanism comprises hoistable platform 405, elevating screw 406, lifting motor 407 and elevator platform 408, liquid storage container 401 is fixed on the hoistable platform 405, hoistable platform 405 is fixed and is slidedly arranged on by nut on the elevating screw 406, and elevating screw 406 links to each other with lifting motor 407 on being fixed in elevator platform 408.Lifting motor 407 links to each other with control gear 10 and 10 controls of controlled mechanism.Elevating screw 406 drive hoistable platforms 405 move in vertical direction under the driving of lifting motor 407, thereby adjust the position of liquid storage container 401 on the hoistable platform 405.Principle of work: after experiments of measuring finishes, in the time of electrolytic solution 15 need being taken out from electrolytic cell 3, the liquid storage container 401 that lifting motor 407 drives on elevating screw 406 drive hoistable platforms 405 and the hoistable platform 405 is reduced to extreme lower position, make liquid storage container 401 present positions be lower than electrolytic cell 3, form difference in height, electrolytic cell 3 interior electrolytic solution 15 just can flow in the liquid storage containers 401 by the catheter 404 that the bottom links to each other and store this moment, gas in the confined space of liquid storage container 401 can enter in the electrolytic cell 3 by wireway 403 simultaneously, the automatic transfer storage when having realized off working state.In the time need carrying out experiments of measuring once more, electrolytic solution 15 need shift back the electrolytic cell 3 from liquid storage container 401, the liquid storage container 401 that lifting motor 407 drives on elevating screw 406 drive hoistable platforms 405 and the hoistable platform 405 is raised to the extreme higher position, make liquid storage container 401 present positions be higher than electrolytic cell 3, form difference in height, this moment, liquid storage container 401 interior electrolytic solution 15 just can flow in the electrolytic cells 3 by the catheter 404 that the bottom links to each other, outside air can be filled in liquid storage container 401 confined spaces by wireway 403 simultaneously, finishes leading back automatically of electrolytic solution 15.

Embodiment 2: as shown in Figure 4 and Figure 5, in the present embodiment, automatic liquid storage device 4 comprises liquid storage container 401, the piston body 410 and the piston driver that cooperate with liquid storage container 401, and liquid storage container 401 was connected with electrolytic cell 3 by communicating pipe, and electrolytic cell 3 communicates with outside air; Piston body 410 1 ends are inserted in the liquid storage container 401, and the other end links to each other with piston driver.This piston driver is a piston liquid storage elevating mechanism, this piston liquid storage elevating mechanism comprises piston hoistable platform 411, piston elevating screw 412, piston lifting motor 413 and piston elevator platform 414, piston body 410 is fixed on the piston hoistable platform 411, piston hoistable platform 411 is fixed and is slidedly arranged on by nut on the piston elevating screw 412, and piston elevating screw 412 links to each other with piston lifting motor 413 on being fixed in piston elevator platform 414.Piston lifting motor 413 links to each other with control gear 10 and 10 controls of controlled mechanism.Driving lower piston elevating screw 412 at piston lifting motor 413 drives piston hoistable platform 411 in movement in vertical direction, thereby drives piston body 410 motion in the liquid storage container 401 that cooperates with it on the piston hoistable platform 411.Principle of work: after experiments of measuring finishes, in the time of electrolytic solution 15 need being taken out from electrolytic cell 3, the piston body 410 that piston lifting motor 413 driven plunger elevating screws 412 drive on piston hoistable platform 411 and the piston hoistable platform 411 moves toward the top, thereby make and form negative pressure in the liquid storage container 401, this moment, electrolytic cell 3 interior electrolytic solution 15 just can store the automatic transfer storage when having realized off working state by flowing into communicating pipe in the liquid storage container 401.In the time need carrying out experiments of measuring once more, electrolytic solution 15 need shift back the electrolytic cell 3 from liquid storage container 401, the piston body 410 that piston lifting motor 413 driven plunger elevating screws 412 drive on piston hoistable platform 411 and the piston hoistable platform 411 moves toward the below, thereby the electrolytic solution 15 of liquid storage container 401 stored by being pressed into communicating pipe in the electrolytic cell 3, is finished leading back automatically of electrolytic solution 15.

Embodiment 3: as shown in Figure 6, in the present embodiment, automatic liquid storage device 4 comprises liquid storage container 401 and the pump 415 that links to each other with liquid storage container 401 by pipeline, electrolytic cell 3 communicates with outside air, the top of liquid storage container 401 is provided with gland bonnet 402, liquid storage container 401 and electrolytic cell 3 be not on same horizontal line, and in the present embodiment, the position of liquid storage container 401 is higher than electrolytic cell 3.Liquid storage container 401 is between electrolytic cell 3 and pump 415, the top of liquid storage container 401 links to each other with electrolytic cell 3 by first communicating pipe 416 and second communicating pipe 417 respectively with the bottom, second communicating pipe 417 was provided with first direction operation valve 418, and the connecting pipeline that liquid storage container 401 links to each other with pump 415 is provided with second direction operation valve 419.Principle of work: after experiments of measuring finishes, in the time of electrolytic solution 15 need being taken out from electrolytic cell 3, close first direction operation valve 418 and second direction operation valve 419, start pump 415, electrolytic solution 15 in the electrolytic cell 3 is extracted into storage in the liquid storage container 401 by negative pressure of vacuum, electrolytic solution 15 flowed in the liquid storage container 401 through first communicating pipe 416, the automatic transfer storage when having realized off working state.In the time need carrying out experiments of measuring once more, electrolytic solution 15 need shift back the electrolytic cell 3 from liquid storage container 401, close pump 415, open first direction operation valve 418 and second direction operation valve 419, utilize the liquid storage container 401 and the height official post electrolytic solution 15 of electrolytic cell 3 to flow in the electrolytic cell 3, electrolytic solution 15 flowed in the electrolytic cell 3 through second communicating pipe 417, finished leading back automatically of electrolytic solution 15.

Embodiment 4: as shown in Figure 7, in the present embodiment, automatic liquid storage device 4 comprises liquid storage container 401 and the pump 415 that links to each other with liquid storage container 401 by pipeline, and electrolytic cell 3 and liquid storage container 401 all communicate with outside air, and pump 415 is between electrolytic cell 3 and liquid storage container 401; Liquid storage container 401 links to each other with electrolytic cell 3 by pipeline, and the pipeline between liquid storage container 401 and the pump 415 is provided with third direction operation valve 420.Principle of work: after experiments of measuring finishes, in the time of electrolytic solution 15 need being taken out from electrolytic cell 3, open third direction operation valve 420, start pump 415, electrolytic solution 15 in the electrolytic cell 3 is extracted into storage in the liquid storage container 401 by negative pressure of vacuum, close pump 415 and third direction operation valve 420 again, the automatic transfer storage when having realized off working state.In the time need carrying out experiments of measuring once more, electrolytic solution 15 need shift back the electrolytic cell 3 from liquid storage container 401, opens third direction operation valve 420, starts pump 415, and the electrolytic solution 15 in the liquid storage container 401 is drawn back in the electrolytic cell 3, finishes leading back automatically of electrolytic solution 15.

Automatic flushing device 2 can adopt multiple mode in the utility model, cleaning fluid 16 is flowed realize the mode of cleaning or utilizing piston to cooperate to produce pressure cleaning fluid 16 to be flowed realize cleaning or the like such as utilizing position height to form driving force that 16 gravity flows of pressure official post cleaning fluid realize cleaning, utilize pump, below with reference to specific embodiment automatic flushing device 2 is described in further details, but the utility model is not limited to the mode of following limited several embodiment.

Embodiment 1: as Fig. 8 and shown in Figure 9, in the present embodiment, automatic flushing device 2 comprises clean container 201 and cleans elevating mechanism, clean container 201 is fixed in and cleans on the elevating mechanism, electrolytic cell 3 communicates with outside air, the top of clean container 201 is provided with cleans gland bonnet 202, the top of clean container 201 links to each other with the bottom with the top of electrolytic cell 3 with cleaning catheter 204 by cleaning wireway 203 respectively with the bottom, the two ends of cleaning wireway 203 are arranged in the more than the high liquid level (HLL) of clean container 201 and electrolytic cell 3 liquid, and the two ends of cleaning catheter 204 are arranged in below the liquid level of clean container 201 and electrolytic cell 3 liquid.Clean container 201 can be adjusted its place height as required under the drive of cleaning elevating mechanism, thereby and form pressure differential between the electrolytic cell 3, liquids and gases are flowed between clean container 201 and electrolytic cell 3 by cleaning catheter 204 and cleaning wireway 203 respectively.This cleaning elevating mechanism comprises cleaning hoistable platform 205, cleans elevating screw 206, cleans lifting motor 207 and cleans elevator platform 208, clean container 201 is fixed in and cleans on the hoistable platform 205, clean hoistable platform 205 and fix and be slidedly arranged on by nut on the cleaning elevating screw 206, cleaning elevating screw 206 and the cleaning lifting motor 207 that is fixed on the cleaning elevator platform 208 link to each other.Cleaning lifting motor 207 links to each other with control gear 10 and 10 controls of controlled mechanism.Under the driving of cleaning lifting motor 207, clean elevating screw 206 drive cleaning hoistable platforms 205 and move in vertical direction, thereby adjust the position of cleaning clean container 201 on the hoistable platform 205.Principle of work: after experiments of measuring finishes, in the time of need cleaning electrolytic cell 3, the clean container 201 that cleans lifting motor 207 driving cleaning elevating screws, 206 drive cleaning hoistable platforms 205 and clean on the hoistable platform 205 is raised to the extreme higher position, make clean container 201 present positions be higher than electrolytic cell 3, form difference in height, clean container 201 interior cleaning fluids 16 just can flow in the electrolytic cell 3 by the cleaning catheter 204 that the bottom links to each other electrolytic cell 3 was cleaned this moment, outside air can be packed in clean container 201 confined spaces by cleaning wireway 203 simultaneously, has realized the automatic transfer of cleaning fluid 16.The utility model further utilizes the magnetic stirring apparatus 301 of electrolytic cell 3 bottoms and the stirrer 302 in the electrolytic cell 3, the cleaning fluid 16 that is injected in the electrolytic cell 3 is stirred, thereby electrolytic cell 3 is cleaned completely.After cleaning finishes, cleaning fluid 16 can be discharged from electrolytic cell leakage fluid dram 409.The clean container 201 that perhaps cleans lifting motor 207 driving cleaning elevating screws, 206 drive cleaning hoistable platforms 205 and clean on the hoistable platform 205 drops to extreme lower position, make clean container 201 present positions be lower than electrolytic cell 3, form difference in height, this moment, electrolytic cell 3 interior cleaning fluids 16 just can be back in the clean container 201 by the cleaning catheter 204 that the bottom links to each other, gas in the confined space of clean container 201 can flow in the electrolytic cell 3 by cleaning wireway 203 simultaneously, and cleaning fluid 16 is discharged from the leakage fluid dram 209 of clean container 201.

Embodiment 2: as shown in Figure 10 and Figure 11, in the present embodiment, automatic flushing device 2 comprises clean container 201, the cleaning piston body 210 that cooperates with clean container 201 and cleaning piston drive unit, clean container 201 was connected with electrolytic cell 3 by communicating pipe, and electrolytic cell 3 is connected with outside air; Cleaning piston body 210 1 ends are inserted in the clean container 201, and the other end links to each other with the cleaning piston drive unit.This cleaning piston drive unit is the cleaning piston elevating mechanism, this cleaning piston elevating mechanism comprises cleaning piston hoistable platform 211, cleaning piston elevating screw 212, cleaning piston lifting motor 213 and cleaning piston elevator platform 214, cleaning piston body 210 is fixed on the cleaning piston hoistable platform 211, cleaning piston hoistable platform 211 is fixed and is slidedly arranged on by nut on the cleaning piston elevating screw 212, and cleaning piston elevating screw 212 links to each other with cleaning piston lifting motor 213 on being fixed in piston cleaning piston elevator platform 214.Cleaning piston lifting motor 213 links to each other with control gear 10 and 10 controls of controlled mechanism.Cleaning piston elevating screw 212 drives cleaning piston hoistable platform 211 in movement in vertical direction under the driving of cleaning piston lifting motor 213, thereby drives cleaning piston body 210 motion in the clean container 201 that cooperates with it on the cleaning piston hoistable platform 211.Principle of work: after experiments of measuring finishes, in the time of need cleaning electrolytic cell 3, cleaning piston lifting motor 213 drives cleaning piston elevating screw 212 and drives cleaning piston body 210 past belows motions on cleaning piston hoistable platform 211 and the cleaning piston hoistable platform 211, thereby produce pressure the cleaning fluid 16 in the clean container 201 is flowed in the electrolytic cell 3 by communicating pipe, realized the automatic transfer of cleaning fluid 16.The communicating pipe end that is connected with electrolytic cell 3 at clean container 201, be that the position that is positioned at electrolytic cell 3 communicating pipe is provided with spray bar 220, offer spray orifice 221 on this spray bar 220, when 210 motions of cleaning piston body realize pressurization, cleaning fluid 16 has certain pressure and ejects from spray orifice 221, electrolytic cell 3 is thoroughly cleaned.After cleaning finishes, cleaning fluid 16 can be discharged from electrolytic cell leakage fluid dram 409.Perhaps cleaning piston lifting motor 213 drives cleaning piston elevating screw 212 and drives cleaning piston body 210 past tops motions on cleaning piston hoistable platform 211 and the cleaning piston hoistable platform 211, thereby generation negative pressure, make cleaning fluid 16 in the electrolytic cell 3 by passing back into communicating pipe in the clean container 201, cleaning fluid 16 is discharged from the leakage fluid dram 209 of clean container 201.

Embodiment 3: as shown in figure 12, in the present embodiment, automatic flushing device 2 comprises clean container 201 and the scavenging pump 215 that links to each other with clean container 201 by pipeline, electrolytic cell 3 communicates with outside air, the top of clean container 201 is provided with cleans gland bonnet 202, clean container 201 and electrolytic cell 3 be not on same horizontal line, and in the present embodiment, the position of clean container 201 is higher than electrolytic cell 3.Clean container 201 is between electrolytic cell 3 and scavenging pump 215, the top of clean container 201 is cleaned to clean communicating pipe 216 and second by first respectively with the bottom and is linked to each other with electrolytic cell 3 communicating pipe 217, second cleaning is provided with the four directions to operation valve 218 communicating pipe 217, and the connecting pipeline that clean container 201 links to each other with scavenging pump 215 is provided with the 6th directional control valve 219.Principle of work: after experiments of measuring finishes, in the time of need cleaning electrolytic cell 3, open the four directions to operation valve 218 and the 6th directional control valve 219, utilize the clean container 201 and the height official post cleaning fluid 16 of electrolytic cell 3 to flow in the electrolytic cell 3, cleaning fluid 16 cleans through second and flows in the electrolytic cell 3 communicating pipe 217, the utility model further utilizes the magnetic stirring apparatus 301 of electrolytic cell 3 bottoms and the stirrer 302 in the electrolytic cell 3, the cleaning fluid 16 that is injected in the electrolytic cell 3 is stirred, thereby electrolytic cell 3 is cleaned completely.After cleaning finishes, cleaning fluid 16 can be discharged from electrolytic cell leakage fluid dram 409.Perhaps close the four directions to operation valve 218 and the 6th directional control valve 219, open scavenging pump 215, the cleaning fluid 16 in the electrolytic cell 3 is extracted in the clean container 201 by negative pressure of vacuum, cleaning fluid 16 is discharged from the leakage fluid dram 209 of clean container 201.

Embodiment 4: as shown in figure 13, in the present embodiment, automatic flushing device 2 comprises clean container 201 and the scavenging pump 215 that links to each other with clean container 201 by pipeline, and electrolytic cell 3 and clean container 201 all communicate with outside air, and scavenging pump 215 is between electrolytic cell 3 and clean container 201; Pipeline between clean container 201 and the scavenging pump 215 is provided with the 5th directional control valve 222.Principle of work: after experiments of measuring finishes, in the time of need cleaning electrolytic cell 3, open the 5th directional control valve 222, start scavenging pump 215, cleaning fluid 16 in the clean container 201 is extracted in the electrolytic cell 3, closes the 5th directional control valve 222 and scavenging pump 215 then.The communicating pipe end that is connected with electrolytic cell 3 at clean container 201, be that the position that is positioned at electrolytic cell 3 communicating pipe is provided with spray bar 220, offer spray orifice 221 on this spray bar 220, during scavenging pump 215 pressurizations, cleaning fluid 16 has certain pressure from spray orifice 221 and ejects, and electrolytic cell 3 is thoroughly cleaned.After cleaning finishes, cleaning fluid 16 can be discharged from electrolytic cell leakage fluid dram 409.Perhaps open the 5th directional control valve 222, start scavenging pump 215, the cleaning fluid in the electrolytic cell 3 16 is drawn back in the clean container 201, cleaning fluid 16 is discharged from the leakage fluid dram 209 of clean container 201.

Claims (10)

1, a kind of constant sulphur appliance with automatic liquid storage device, it comprises the body of heater (5) that is fixed on the base plate (1), control gear (10) and the electrolytic cell (3) that links to each other successively by pipeline, drying device (13), flow inductor (12) and ebullator (11), be equiped with flame tube (14) in the body of heater (5), electrolytic cell (3) links to each other by the tail end of pipeline with flame tube (14), the inlet end of body of heater (5) is provided with sample presentation mouth (6), sample presentation mouth (6) links to each other with sample conveying device (9), it is characterized in that: described electrolytic cell (3) links to each other with an automatic liquid storage device (4) by pipeline.

2, the constant sulphur appliance of band automatic liquid storage device according to claim 1, it is characterized in that: described automatic liquid storage device (4) comprises liquid storage container (401) and elevating mechanism, the top of liquid storage container (401) is provided with gland bonnet (402), and the top of liquid storage container (401) links to each other with the bottom with the top of catheter (404) with electrolytic cell (3) by wireway (403) respectively with the bottom; The two ends of wireway (403) are arranged in the more than the high liquid level (HLL) of liquid storage container (401) and electrolytic cell (3) liquid, and the two ends of catheter (404) are arranged in below the liquid level of liquid storage container (401) and electrolytic cell (3) liquid.

3, the constant sulphur appliance of band automatic liquid storage device according to claim 2, it is characterized in that: described elevating mechanism comprises hoistable platform (405), elevating screw (406), lifting motor (407) and elevator platform (408), liquid storage container (401) is fixed on the hoistable platform (405), hoistable platform (405) is slidedly arranged on the elevating screw (406), and elevating screw (406) links to each other with lifting motor (407) on being fixed in elevator platform (408).

4, the constant sulphur appliance of band automatic liquid storage device according to claim 1, it is characterized in that: described automatic liquid storage device (4) comprises liquid storage container (401), the piston body (410) and the piston driver that cooperate with liquid storage container (401), and liquid storage container (401) was connected with electrolytic cell (3) by communicating pipe; Piston body (410) one ends are inserted in the liquid storage container (401), and the other end links to each other with piston driver.

5, the constant sulphur appliance of band automatic liquid storage device according to claim 4, it is characterized in that: described piston driver is the piston elevating mechanism, this piston elevating mechanism comprises piston hoistable platform (411), piston elevating screw (412), piston lifting motor (413) and piston elevator platform (414), piston body (410) is fixed on the piston hoistable platform (411), piston hoistable platform (411) is slidedly arranged on the piston elevating screw (412), and piston elevating screw (412) links to each other with piston lifting motor (413) on being fixed in piston elevator platform (414).

6, the constant sulphur appliance of band automatic liquid storage device according to claim 1, it is characterized in that: described automatic liquid storage device comprises liquid storage container (401) and the pump (415) that links to each other with liquid storage container (401) by pipeline, the top of liquid storage container (401) is provided with gland bonnet (402), liquid storage container (401) and electrolytic cell (3) be not on same horizontal line, and liquid storage container (401) is positioned between electrolytic cell (3) and the pump (415); The top of liquid storage container (401) links to each other with electrolytic cell (3) by first communicating pipe (416) and second communicating pipe (417) respectively with the bottom, second communicating pipe (417) is provided with first direction operation valve (418), and the connecting pipeline that liquid storage container (401) links to each other with pump (415) is provided with second direction operation valve (419).

7, the constant sulphur appliance of band automatic liquid storage device according to claim 1, it is characterized in that: described automatic liquid storage device comprises liquid storage container (401) and the pump (415) that links to each other with liquid storage container (401) by pipeline, and pump (415) is positioned between electrolytic cell (3) and the liquid storage container (401); Liquid storage container (401) links to each other with electrolytic cell (3) by pipeline, and the pipeline between liquid storage container (401) and the pump (415) is provided with third direction operation valve (420).

8, according to claim 1 or 2 or 3 or 4 or 5 or the constant sulphur appliance of 6 or 7 described band automatic liquid storage devices, it is characterized in that: described electrolytic cell links to each other with an automatic flushing device (2) by pipeline.

9, the constant sulphur appliance of band automatic liquid storage device according to claim 8, it is characterized in that: described automatic flushing device (2) comprises clean container (201), the cleaning piston body (210) and the cleaning piston drive unit that cooperate with clean container (201), and clean container (201) was connected with electrolytic cell (3) by communicating pipe; Cleaning piston body (210) one ends are inserted in the clean container (201), and the other end links to each other with the cleaning piston drive unit.

10, the constant sulphur appliance of band automatic liquid storage device according to claim 8, it is characterized in that: described automatic flushing device (2) comprises clean container (201) and the scavenging pump (215) that links to each other with clean container (201) by pipeline, and clean container (201) or scavenging pump (215) link to each other with electrolytic cell (3) by pipeline.

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