CN216082500U - Quality of water copper ion on-line monitoring device - Google Patents
Quality of water copper ion on-line monitoring device Download PDFInfo
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- CN216082500U CN216082500U CN202122316094.1U CN202122316094U CN216082500U CN 216082500 U CN216082500 U CN 216082500U CN 202122316094 U CN202122316094 U CN 202122316094U CN 216082500 U CN216082500 U CN 216082500U
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Abstract
The utility model discloses a water quality copper ion online monitoring device which comprises an online detection device main body, wherein one end of the online detection device main body is provided with a sampling system, the sampling system comprises a water inlet end, a particle filter screen, a reservoir, a suction pump and a dosage control valve, one side of the sampling system is provided with a cleaning and disinfecting bottle, the cleaning and disinfecting bottle comprises a corrosion-resistant bottle body, a cleaning disinfectant, a sealing bottle cap and a suction pipe, one side of the cleaning and disinfecting bottle is provided with a reagent storage bottle, one side of the reagent storage bottle is provided with a Gemini detection system, and the Gemini detection system comprises a first blending reaction kettle, an optical detector, a second blending reaction kettle and a wireless electric control system. The online monitoring device for copper ions in water quality has the advantages of high intelligence, automatic automation, no need of manual operation, automatic regular maintenance, accurate and reliable measurement, capability of rapidly obtaining results and the like, and brings better use prospect.
Description
Technical Field
The utility model relates to the technical field of water quality monitoring, in particular to a water quality copper ion online monitoring device.
Background
Copper is one of trace elements necessary for human bodies, but the excessive copper intake easily causes poisoning phenomena such as nausea, vomiting, epigastric pain, acute hemolysis, renal tubule deformation and the like, and seriously endangers life, so that the selective recognition of copper ions, particularly the real-time on-site detection of the copper ions, has important significance for medicine, biology and environmental science.
The existing water quality copper ion detection device has certain defects in installation and use, the existing water quality copper ion monitoring equipment adopts a detection method of a manual experiment, the detection time consumption is long, the operation procedure is complex, the labor cost is high, and certain adverse effects are brought to the use process of people.
SUMMERY OF THE UTILITY MODEL
Solves the technical problem
Aiming at the defects of the prior art, the utility model provides the water quality copper ion online monitoring device which has the advantages of high intelligence, automatic automation, no need of manual operation, automatic regular maintenance, accurate and reliable measurement, capability of rapidly obtaining results and the like, and can effectively solve the problems in the background art.
Technical scheme
In order to achieve the purpose, the utility model adopts the technical scheme that: the utility model provides a quality of water copper ion on-line monitoring device, includes the on-line measuring device main part, the one end of on-line measuring device main part is equipped with sampling system, sampling system is including intaking end, granule filter screen, cistern, suction pump, dosage control valve, one side of sampling system is equipped with clean disinfection bottle, clean disinfection bottle includes corrosion-resistant bottle, clean antiseptic solution, sealed bottle lid, straw, one side of clean disinfection bottle is equipped with the reagent storage bottle, one side of reagent storage bottle is equipped with the Gemini detecting system, the Gemini detecting system includes mediation reation kettle one, optical detection appearance, mediation reation kettle two, wireless electrical control system, one side surface of Gemini detecting system is equipped with the drainage end, Gemini detecting system's upper end is equipped with intelligent transport control valve, the one end of intelligent transport control valve is equipped with the conveyer pipe.
Preferably, the particle filter screen is located the rear end of the end of intaking, the cistern is located the rear end of particle filter screen, the suction pump is located the rear end of cistern, the dose control valve is located the upper end of suction pump.
Preferably, the sealed bottle cap is positioned at the upper end of the corrosion-resistant bottle body, the suction pipe is positioned at the lower end of the sealed bottle cap, and the cleaning disinfectant is positioned at the lower end of the suction pipe.
Preferably, the wireless electric control system is located at the upper end of the optical detector, the first blending reaction kettle is located at one side of the optical detector, and the second blending reaction kettle is located at the other side of the optical detector.
Preferably, be provided with the draw-in groove between granule filter screen and the cistern, the outer wall of granule filter screen passes through the draw-in groove and can dismantle with the inner wall of cistern and be connected.
Preferably, one end of the suction pipe is fixedly connected with the interior of the corrosion-resistant bottle body through a sealing bottle cap.
Preferably, a transparent glass tube is arranged between the first blending reaction kettle and the optical detector, and the outer surface of one side of the first blending reaction kettle is fixedly connected with the outer surface of one side of the optical detector through the transparent glass tube.
Advantageous effects
Compared with the prior art, the utility model provides an online monitoring device for copper ions in water quality, which has the following beneficial effects:
1. this quality of water copper ion on-line monitoring device, through the sampling system who sets up, inside the granule filter screen can effectively completely cut off granule pollutant from conveyer pipe entering equipment, avoid causing troubles such as equipment blocking, the suction pump absorbs sample rivers and gets into equipment detection, equipment only need extract a small amount of water sample and carry out real-time supervision, the inspiratory rivers size of dosage control valve control, it is extravagant to reduce power, effectively promotes equipment operating efficiency.
2. This quality of water copper ion on-line monitoring device, clean disinfection bottle through setting up, the long-time contact sewage of equipment, the inner wall of the lumen of inside circulation piles up polluting impurity easily, breed harmful substance, it is not accurate to cause the detection, arouse the trouble even, clean antiseptic solution has been stored in the clean disinfection bottle, the intelligent regular automatic clean antiseptic solution that absorbs of equipment, maintain the washing through intelligent delivery control valve to the inside lumen of equipment, equipment can independently periodic maintenance, can effectively ensure detection device's measurement stability, and lifting means life.
3. This quality of water copper ion on-line monitoring device, Gemini detecting system through setting up, intelligence delivery control valve absorbs reagent and sends into in the mediation reation kettle, the quick rivers that fuse into of reagent, the change of colour has been produced, the content of aquatic copper ion is differentiateed through the colour to the optical detection appearance, two mediation reation kettle have been adopted, make the equipment detection have contrast data, it is accurate reliable to measure, but wireless electric control system (604) remote control Gemini detecting system (6), can look over equipment operation data in high in the clouds in real time, effective reinforcing is equipped to adapt to and is experienced.
Drawings
FIG. 1 is a schematic view of the overall structure of an online monitoring device for copper ions in water quality.
FIG. 2 is a schematic diagram of a sampling system of the online monitoring device for copper ions in water quality.
FIG. 3 is a schematic view of a cleaning and disinfecting bottle of the online monitoring device for copper ions in water quality.
FIG. 4 is a schematic diagram of a twin detection system of the online monitoring device for copper ions in water quality.
In the figure: 1. an online detection device main body; 2. a sampling system; 201. a water inlet end; 202. a particle filter screen; 203. a reservoir; 204. a suction pump; 205. a dose control valve; 3. cleaning and disinfecting bottles; 301. a corrosion resistant bottle body; 302. cleaning a disinfectant; 303. sealing the bottle cap; 304. a straw; 4. a reagent storage bottle; 5. a drainage end; 6. a gemini detection system; 601. a first blending reaction kettle; 602. an optical detector; 603. a second blending reaction kettle; 604. a wireless electrical control system; 7. an intelligent delivery control valve; 8. a delivery pipe.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.
As shown in fig. 1-4, an online monitoring device for copper ions in water quality comprises an online detection device main body 1, a sampling system 2 is arranged at one end of the online detection device main body 1, the sampling system 2 comprises a water inlet end 201, a particle filter 202, a water storage tank 203, a suction pump 204 and a dosage control valve 205, a cleaning and disinfecting bottle 3 is arranged at one side of the sampling system 2, the cleaning and disinfecting bottle 3 comprises a corrosion-resistant bottle body 301, a cleaning and disinfecting liquid 302, a sealing bottle cap 303 and a suction pipe 304, a reagent storage bottle 4 is arranged at one side of the cleaning and disinfecting bottle 3, a twin detection system 6 is arranged at one side of the reagent storage bottle 4, the twin detection system 6 comprises a first mixing reaction kettle 601, an optical detector 602, a second mixing reaction kettle 603 and a wireless control system 604, a water discharge end 5 is arranged on the outer surface of one side of the twin detection system 6, an intelligent delivery control valve 7 is arranged at the upper end of the twin detection system 6, one end of the intelligent conveying control valve 7 is provided with a conveying pipe 8.
Further, granule filter screen 202 is located the rear end of intaking end 201, and cistern 203 is located the rear end of granule filter screen 202, and suction pump 204 is located the rear end of cistern 203, and dose control valve 205 is located the upper end of suction pump 204, and granule filter screen 202 can effectively completely cut off inside granule pollutant gets into equipment from conveyer pipe 8, avoids causing troubles such as equipment jam.
Further, sealed bottle lid 303 is located the upper end of corrosion-resistant bottle 301, and straw 304 is located the lower extreme of sealed bottle lid 303, and clean antiseptic solution 302 is located the lower extreme of straw 304, and equipment contacts sewage for a long time, and clean disinfection bottle 3 can maintain for the inside lumen of equipment and wash and provide the raw materials, can effectively maintain equipment sanitation and hygiene, lifting means life.
Furthermore, the wireless electric control system 604 is located at the upper end of the optical detector 602, the first mixing reaction kettle 601 is located at one side of the optical detector 602, the second mixing reaction kettle 603 is located at the other side of the optical detector 602, the wireless electric control system 604 can remotely control the twin detection system 6, the device operation data can be checked in real time at the cloud, and the equipment adaptation experience is effectively enhanced.
Further, be provided with the draw-in groove between granule filter screen 202 and the cistern 203, the outer wall of granule filter screen 202 can be dismantled with the inner wall of cistern 203 through the draw-in groove and be connected, and suction pump 204 absorbs sample rivers and gets into equipment and detect, and equipment only need extract a small amount of water sample and carry out real-time supervision, and the inspiratory rivers size of dosage control valve 205 control reduces the power waste, effectively promotes equipment operating efficiency.
Further, the inside fixed connection of sealed bottle lid 303 and corrosion-resistant bottle 301 is passed through to the one end of straw 304, the long-time contact sewage of equipment, the contamination impurity is piled up easily to the lumen inner wall of inside circulation, harmful substance breeds, cause and detect not accurate, arouse the trouble even, clean antiseptic solution 302 has been stored in clean antiseptic bottle 3, the intelligent regular automatic clean antiseptic solution 302 that absorbs of equipment, maintain the washing through intelligent delivery control valve 7 to the inside lumen of equipment, equipment can independently regular maintenance, reduce the trouble, can effectively ensure detection device's measurement stability.
Further, be provided with the transparent glass pipe between harmonious reation kettle 601 and the optical detection appearance 602, the one side surface of harmonious reation kettle 601 passes through the transparent glass pipe and is connected with one side surface fixed connection of optical detection appearance 602, and the quick integration of reagent has produced the change of colour in rivers, and the content of aquatic copper ion is differentiateed through the colour to optical detection appearance 602, has adopted two harmonious reation kettle for equipment detection has contrast data, measures accurately reliably.
Principle of operation
The utility model comprises an online detection device main body 1, a sampling system 2, a water inlet end 201, a particle filter screen 202, a water storage tank 203, a suction pump 204, a dosage control valve 205, a cleaning and disinfecting bottle 3, a corrosion-resistant bottle body 301, a cleaning and disinfecting liquid 302, a sealing bottle cap 303, a suction pipe 304, a reagent storage bottle 4, a water discharge end 5, a twin detection system 6, a first blending reaction kettle 601, an optical detector 602, a second blending reaction kettle 603, a wireless electric control system 604, an intelligent conveying control valve 7 and a conveying pipe 8, when in use, the particle filter screen 202 can effectively isolate particle pollutants from the conveying pipe 8 to enter the device through the arranged sampling system 2, thereby avoiding the faults of device blockage and the like, the suction pump 204 sucks sample water flow to enter the device for detection, the device only needs to extract a small amount of water sample for real-time monitoring, the dosage control valve 205 controls the size of the sucked water flow, thereby reducing the power waste, the operation efficiency of the equipment is effectively improved, the equipment is contacted with sewage for a long time through the arranged cleaning and disinfecting bottle 3, the inner wall of a pipe cavity circulating inside is easy to accumulate pollution impurities, harmful substances are bred, the detection is not accurate, even faults are caused, the cleaning and disinfecting bottle 3 stores the cleaning and disinfecting liquid 302, the equipment intelligently and regularly and automatically absorbs the cleaning and disinfecting liquid 302, the pipe cavity inside the equipment is maintained and cleaned through the intelligent conveying control valve 7, the equipment can be maintained automatically and regularly, the measurement stability of a detection device can be effectively ensured, the service life of the equipment is prolonged, the intelligent conveying control valve 7 absorbs reagents and sends the reagents into a blending reaction kettle through the arranged gemini detection system 6, the reagents are quickly blended into water flow, the color change is generated, the optical detector 602 distinguishes the content of copper ions in the water through the color, two blending reaction kettles are adopted, and the equipment detection has contrast data, the equipment can be maintained autonomously and regularly, and the measurement is accurate and reliable.
It is noted that, herein, relational terms such as first and second (a, b, etc.) and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.
The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed.
Claims (7)
1. The utility model provides a quality of water copper ion on-line monitoring device, includes on-line measuring device main part (1), its characterized in that: one end of the online detection device main body (1) is provided with a sampling system (2), the sampling system (2) comprises a water inlet end (201), a particle filter screen (202), a water storage tank (203), a suction pump (204) and a dosage control valve (205), one side of the sampling system (2) is provided with a cleaning and disinfecting bottle (3), the cleaning and disinfecting bottle (3) comprises a corrosion-resistant bottle body (301), a cleaning and disinfecting liquid (302), a sealing bottle cap (303) and a suction pipe (304), one side of the cleaning and disinfecting bottle (3) is provided with a reagent storage bottle (4), one side of the reagent storage bottle (4) is provided with a twin detection system (6), the twin detection system (6) comprises a first blending reaction kettle (601), an optical detector (602), a second blending reaction kettle (603) and a wireless electric control system (604), and the outer surface of one side of the twin detection system (6) is provided with a water drainage end (5), the upper end of the twin detection system (6) is provided with an intelligent conveying control valve (7), and one end of the intelligent conveying control valve (7) is provided with a conveying pipe (8).
2. The online monitoring device for copper ions in water quality according to claim 1, characterized in that: the particle filter screen (202) is located the rear end of intaking end (201), cistern (203) is located the rear end of particle filter screen (202), suction pump (204) is located the rear end of cistern (203), dose control valve (205) is located the upper end of suction pump (204).
3. The online monitoring device for copper ions in water quality according to claim 1, characterized in that: the sealed bottle cap (303) is positioned at the upper end of the corrosion-resistant bottle body (301), the suction pipe (304) is positioned at the lower end of the sealed bottle cap (303), and the cleaning and disinfecting liquid (302) is positioned at the lower end of the suction pipe (304).
4. The online monitoring device for copper ions in water quality according to claim 1, characterized in that: the wireless electronic control system (604) is located at the upper end of the optical detector (602), the first mixing reaction kettle (601) is located on one side of the optical detector (602), and the second mixing reaction kettle (603) is located on the other side of the optical detector (602).
5. The online monitoring device for copper ions in water quality according to claim 2, characterized in that: be provided with the draw-in groove between granule filter screen (202) and cistern (203), the outer wall of granule filter screen (202) passes through the draw-in groove and can dismantle with the inner wall of cistern (203) and be connected.
6. The water quality copper ion online monitoring device according to claim 3, characterized in that: one end of the suction pipe (304) is fixedly connected with the interior of the corrosion-resistant bottle body (301) through a sealing bottle cap (303).
7. The water quality copper ion online monitoring device according to claim 4, characterized in that: a transparent glass tube is arranged between the first blending reaction kettle (601) and the optical detector (602), and the outer surface of one side of the first blending reaction kettle (601) is fixedly connected with the outer surface of one side of the optical detector (602) through the transparent glass tube.
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CN202122316094.1U CN216082500U (en) | 2021-09-24 | 2021-09-24 | Quality of water copper ion on-line monitoring device |
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CN202122316094.1U CN216082500U (en) | 2021-09-24 | 2021-09-24 | Quality of water copper ion on-line monitoring device |
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CN216082500U true CN216082500U (en) | 2022-03-18 |
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