CN101713679B - Device for monitoring quantity and quality of leakage water - Google Patents
Device for monitoring quantity and quality of leakage water Download PDFInfo
- Publication number
- CN101713679B CN101713679B CN2009100732047A CN200910073204A CN101713679B CN 101713679 B CN101713679 B CN 101713679B CN 2009100732047 A CN2009100732047 A CN 2009100732047A CN 200910073204 A CN200910073204 A CN 200910073204A CN 101713679 B CN101713679 B CN 101713679B
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Abstract
The invention discloses a device for monitoring the quantity and the quality of leakage water, relating to the field of leakage water monitoring, solving the problems of low work efficiency and high cost in the traditional device of monitoring the quantity and the quality of the leakage water and comprising a plurality of leakage barrels, a water level sensor, a gas moisture absorber, a plurality of electromagnetic valves, an electric conductance sensor, a water measuring cup, a vacuum pump, a monitor host and a computer. The water measuring cup is provided with four conduits, each conduit is provided with a valve, a water outlet pipe of each leakage barrel is communicated with each electromagnetic valve, water outlet pipes of the plurality of electromagnetic valves are communicated with a water inlet pipe of the water measuring cup, the input end of each electromagnetic valve is communicated with the output end of the monitor host, the gas outlet pipe of the water measuring cup is communicated with the gas moisture absorber, the gas moisture absorber is communicated with the vacuum pump, the water level sensor and the electric conductance sensor are respectively arranged in the water measuring cup, the signal output ends of the water level sensor and the electric conductance sensor are respectively connected with the signal input end of the monitor host, and the signal output end of the monitor host is connected with the signal input end of a computer. The invention is suitable for the field of water monitoring.
Description
Technical field
The present invention relates to percolating water monitoring field.
Background technology
When research environment or the farmland percolating water water yield and water quality, measure work efficiency for improving, need to realize the robotization of monitoring system.The device that prior art adopts is a water sensor, utilizes tipping bucket type water yield counter or weighing apparatus, and when measuring multiple spot percolating water, cost is bigger.When using this device to measure the water yield of percolating water and water quality, each process all needs to finish manually, the process complexity, and its work efficiency is lower.
Summary of the invention
The present invention measures the inefficiency and the high problem of cost of water amount of seepage and monitoring water quality for solving existing monitoring device, and the device of a kind of leakage monitoring water yield and water quality is provided.
The inventive system comprises a plurality of seepage buckets, it also comprises level sensor, the gas moisture absorbing device, a plurality of solenoid valves, conductivity sensor, measuring glass, vacuum pump, monitoring host computer and computing machine, described measuring glass is provided with four conduits, be respectively into tracheae, oral siphon, rising pipe and escape pipe, described each conduit is provided with valve, rising pipe on the described measuring glass is arranged on the bottom of measuring glass, the rising pipe of described each seepage bucket is communicated with an end of a solenoid valve, the other end of described each solenoid valve all is communicated with the oral siphon of measuring glass, the signal input end of described each solenoid valve is connected with a control signal output ends of monitoring host computer respectively, escape pipe on the described measuring glass is communicated with the inlet of gas moisture absorbing device, the outlet of described gas moisture absorbing device is communicated with vacuum pump, described level sensor and conductivity sensor are separately positioned in the measuring glass, the position of described level sensor is lower than the position of escape pipe on the measuring glass, the position of described conductivity sensor is lower than the position of level sensor, the water level signal output terminal of described level sensor, the conductance signal output terminal of conductivity sensor is connected with the signal input part of monitoring host computer respectively, and the data-signal output terminal of described monitoring host computer is connected with the data-signal input end of computing machine.
Principle of the present invention is: device of the present invention moves under the management of computing machine, behind the program start, a solenoid valve 5 is opened, opened vacuum pump 9, the valve of the valve of the escape pipe 4 on the opening water tumbler 7, oral siphon 2 then, the water in the described seepage bucket 6 flow in the measuring glass 7; Electrical conductivity of waters in the conductivity sensor E measuring amount water tumbler 7, and the value of described conductivity is sent to computing machine 11 by monitoring host computer 10; The position that is raised to level sensor A waterborne in the described measuring glass 7, described computing machine 11 sends signal, with the valve of the escape pipe 4 of solenoid valve 5 and measuring glass 7 and the valve closing of oral siphon 2, with the valve of going into tracheae 1 of measuring glass 7, the valve open of rising pipe 3, the water in the described measuring glass 7 is drained then; The described computing machine 11 record water yield and conductivity; With the valve of going into tracheae 1 of measuring glass 7 and the valve closing of rising pipe 3, repeat seepage bucket 6 is drawn water then.
The computing method of the water yield of described percolating water are: the cup number of measuring glass 7 multiply by the volume of measuring glass 7.
The computing method of conductivity are: first glass of value with second glass conductivity that conductivity sensor E records ignored, calculated the 3rd glass of electrical conductivity of water to last glass electrical conductivity of water, get its mean value then; The value of the conductivity that is the seepage bucket that obtains.
Beneficial effect of the present invention: the present invention adopts single level sensor and conductivity sensor to circulate and measures the water yield and the water quality of percolating water, the cost of its device is lower, device of the present invention moves under the management of computing machine, in the process of cycling, obtained the water yield simultaneously and obtained water quality by the conductivity sensor monitoring, work efficiency has had significant raising.
Description of drawings
Fig. 1 is the device syndeton synoptic diagram of the specific embodiment of the present invention one.
Embodiment
Embodiment one: present embodiment is described in conjunction with Fig. 1, present embodiment comprises a plurality of seepage buckets 6, it also comprises level sensor A, gas moisture absorbing device 8, a plurality of solenoid valves 5, conductivity sensor E, measuring glass 7, vacuum pump 9, monitoring host computer 10 and computing machine 11, described measuring glass 7 is provided with four conduits, be respectively into tracheae 1, oral siphon 2, rising pipe 3 and escape pipe 4, described each conduit is provided with valve, rising pipe 3 on the described measuring glass 7 is arranged on the bottom of measuring glass 7, the rising pipe 6-1 of described each seepage bucket 6 is communicated with an end of a solenoid valve 5, the other end of described each solenoid valve 5 all is communicated with the oral siphon 2 of measuring glass 7, the signal input end of described each solenoid valve 5 is connected with a control signal output ends of monitoring host computer 10 respectively, escape pipe 4 on the described measuring glass 7 is communicated with the inlet of gas moisture absorbing device 8, the outlet of described gas moisture absorbing device 8 is communicated with vacuum pump 9, described level sensor A and conductivity sensor E are separately positioned in the measuring glass 7, the position of described level sensor A is lower than the position of escape pipe 4 on the measuring glass 7, the position of described conductivity sensor E is lower than the position of level sensor A, the water level signal output terminal of described level sensor A, the conductance signal output terminal of conductivity sensor E is connected with the signal input part of monitoring host computer 10 respectively, and the data-signal output terminal of described monitoring host computer 10 is connected with the data-signal input end of computing machine 11.
Embodiment two: the difference of present embodiment and embodiment one is that the number of described solenoid valve 5 is identical with the number of seepage bucket 6.
Embodiment three: the difference of present embodiment and embodiment one is, described each solenoid valve 5 adopts the solenoid valve 5 of ZS1DF02V1B05 type, the operating voltage of described each solenoid valve 5 is 24 volts, and the power 14W of each solenoid valve 5, the bore of solenoid valve 5 are 10mm.
Embodiment four: the difference of present embodiment and embodiment one is, described conductivity sensor E adopts DJS-1 type conductivity sensor E, two electrodes of described conductivity sensor E are made of the black platinized platinum of two platinum plating, and the constant scope of the electric conductivity value of described conductivity sensor E is between 0.8-1.2.
Claims (2)
1. the device of the leakage monitoring water yield and water quality, it comprises a plurality of seepage buckets (6), it is characterized in that it also comprises level sensor (A), gas moisture absorbing device (8), a plurality of solenoid valves (5), conductivity sensor (E), measuring glass (7), vacuum pump (9), monitoring host computer (10) and computing machine (11), described measuring glass (7) is provided with four conduits, be respectively into tracheae (1), oral siphon (2), rising pipe (3) and escape pipe (4), described each conduit is provided with valve, rising pipe (3) on the described measuring glass (7) is arranged on the bottom of measuring glass (7), the rising pipe (6-1) of described each seepage bucket (6) is communicated with an end of a solenoid valve (5), the other end of described each solenoid valve (5) all is communicated with the oral siphon of measuring glass (7), the signal input end of described each solenoid valve (5) is connected with a control signal output ends of monitoring host computer (10) respectively, escape pipe (4) on the described measuring glass (7) is communicated with the inlet of gas moisture absorbing device (8), the outlet of described gas moisture absorbing device (8) is communicated with vacuum pump (9), described level sensor (A) and conductivity sensor (E) are separately positioned in the measuring glass (7), the position of described level sensor (A) is lower than the position that measuring glass (7) is gone up escape pipe (4), the position of described conductivity sensor (E) is lower than the position of level sensor (A), the water level signal output terminal of described level sensor (A), the conductance signal output terminal of conductivity sensor (E) is connected with the signal input part of monitoring host computer (10), and the data-signal output terminal of described monitoring host computer (10) is connected with the data-signal input end of computing machine (11).
2. the device of the leakage monitoring water yield according to claim 1 and water quality is characterized in that, the number of described solenoid valve (5) is identical with the number of seepage bucket (6).
Priority Applications (1)
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CN2009100732047A CN101713679B (en) | 2009-11-13 | 2009-11-13 | Device for monitoring quantity and quality of leakage water |
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CN2009100732047A CN101713679B (en) | 2009-11-13 | 2009-11-13 | Device for monitoring quantity and quality of leakage water |
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CN101713679A CN101713679A (en) | 2010-05-26 |
CN101713679B true CN101713679B (en) | 2011-01-26 |
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CN2009100732047A Expired - Fee Related CN101713679B (en) | 2009-11-13 | 2009-11-13 | Device for monitoring quantity and quality of leakage water |
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Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102997428B (en) * | 2012-11-27 | 2015-04-01 | 余姚德诚科技咨询有限公司 | Water heater with water saving system |
CN107064232A (en) * | 2017-01-23 | 2017-08-18 | 北京华科仪科技股份有限公司 | The measuring method and device of a kind of power plant's water degasification hydrogen conductivity |
CN108680308B (en) * | 2018-07-24 | 2021-07-09 | 深圳安吉尔饮水产业集团有限公司 | Low-water-pressure tightness testing method and system for high-water-pressure electromagnetic valve |
CN114136380B (en) * | 2021-11-30 | 2022-10-25 | 华南农业大学 | Measuring equipment capable of intelligently and automatically detecting water leakage amount of civil engineering water conservancy |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN200996946Y (en) * | 2006-12-30 | 2007-12-26 | 梅全亭 | Building leakage inspecter |
CN201209767Y (en) * | 2008-06-05 | 2009-03-18 | 石峥嵘 | Fine leakage detection device for monitoring pipe leakage |
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Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN200996946Y (en) * | 2006-12-30 | 2007-12-26 | 梅全亭 | Building leakage inspecter |
CN201209767Y (en) * | 2008-06-05 | 2009-03-18 | 石峥嵘 | Fine leakage detection device for monitoring pipe leakage |
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