CN203909029U

CN203909029U - Servo device of on-line automatic water quality safety monitoring system

Info

Publication number: CN203909029U
Application number: CN201420315014.8U
Authority: CN
Inventors: 侯炳江; 郝赤; 张伟; 陈立军; 钱云; 尹福全; 郭欣明; 崔昱章; 赵青松; 梁东旸; 韩北; 张红艳; 王再杨
Original assignee: Jilin Ally's Scientific And Technological Development Ltd
Current assignee: Jilin Ally's Scientific And Technological Development Ltd
Priority date: 2014-06-13
Filing date: 2014-06-13
Publication date: 2014-10-29
Anticipated expiration: 2024-06-13

Abstract

The utility model discloses a servo device of an on-line automatic water quality safety monitoring system. The servo device is characterized by comprising a main water supply pipe, a submersible pump, a sampling cabinet, a main drainage pipe and control device, wherein one end of the main water supply pipe is connected with the submersible pump in a sealed manner, the other end of the main water supply pipe is respectively connected with a settling tank and a five-participation tank in the sampling cabinet in the sealed manner, one end of the main drainage pipe is connected with the main water supply pipe in the sealed manner, the other end of the main drainage pipe is positioned outside the sampling cabinet, and the control device is arranged in the sampling cabinet and fixedly connected with the sampling cabinet; the settling tank, an inner water supply pipe, the five-participation tank and a sampling tank are arranged in the sampling cabinet; the settling tank is arranged in a cabinet body, fixedly connected with the cabinet body and connected with one end of each of the main water supply pipe, the main drainage pipe and the inner water supply pipe in the sealed manner; the sampling tank is arranged in the cabinet body, fixedly connected with the cabinet body and respectively connected with the other end of the inner water supply pipe, the main drainage pipe and an analyzer water supply connector in the sealed manner.

Description

Water quality safety online auto monitoring system servomechanism installation

Technical field

The utility model relates to the corollary apparatus of river, river, the safe online auto monitoring system of lake water quality, it is a kind of water quality safety online auto monitoring system servomechanism installation, be used to water quality safety online auto monitoring system to provide and meet the water sample of analyzing requirement, and guarantee system stable operation.

Background technology

China's water scarcity, and seriously polluted.Water quality safety online auto monitoring system can be realized real-time continuous monitoring and the remote monitoring of water quality, and grasps in time the water quality condition of main river emphasis section water body, is water resources management and protection important foundation.

Water quality safety automatic monitoring system is to take the exact instrument of robotization to be main on-line real time monitoring, the system of automatic analysis, and the exact instrument of robotization is strict to water quality requirement.The most of rivers of China, river, lake water quality turbidity is large, dopant species is many, very easily cause the sensor pollution of online accurate automatic analytical instrument and the obstruction of stream, instrument failure is taken place frequently, not only increased maintenance cost, and affect the serviceable life of detection accuracy and instrument.

Utility model content

Technical problem to be solved in the utility model is: a kind of water quality safety online auto monitoring system servomechanism installation is provided, the online rigorous analysis instrument demand of take is target, find impact easily to pollute, easily stop up the factor of instrument operation stability and measurement accuracy, formation analyzes to providing to meet the complete servomechanism installation that requires water sample from sampling, pre-service, for online rigorous analysis instrument provides the sample of representative, promptness and reliability, to realize the operation reliably continuously of whole online auto monitoring system.

The scheme of the utility model technical solution problem is: a kind of water quality safety online auto monitoring system servomechanism installation, it is characterized in that: it comprises main-supply, submersible pump, sampling cabinet, main drainpipe, sample leaving device, cleaning unit, pulsing jet cleaning unit and control device, one end of described main-supply is positioned at outside sampling cabinet and is tightly connected with submersible pump water delivering orifice, the other end is positioned at sampling cabinet and the settling pit being built-in with sampling cabinet respectively and five ginseng ponds and is tightly connected, the middle water inlet sealing joint by sampling cabinet connects, one end of main drainpipe is positioned at sampling cabinet and is tightly connected by the second electrical ball valve and main-supply, the other end is positioned at outside sampling cabinet, the middle drainage interface by sampling cabinet is tightly connected, sample leaving device, cleaning unit is respectively by the sample connection of sampling cabinet, cleaning interface and sampling cabinet is tightly connected, main-supply outside pulsing jet cleaning unit and sampling cabinet is tightly connected, control device is placed in sampling cabinet and is connected with sampling cabinet.

The structure of described main-supply is: it comprises Trunk Line flowmeter, pressure transducer, the first variable valve, the first electrical ball valve BV ₁, the second variable valve, B flowmeter and A flowmeter, described main-supply one end is positioned at outside sampling cabinet, the other end is positioned at sampling cabinet, the middle water inlet sealing joint by sampling cabinet connects, main-supply is positioned at one end outside sampling cabinet and the water delivering orifice of submersible pump is tightly connected, the one end that is positioned at sampling cabinet is tightly connected with five ginseng ponds and settling pit respectively simultaneously, main-supply is positioned at that pipeline section outside sampling cabinet cleans the mouth of pipe by pulse radiation frequency and pulse radiation frequency cleaning unit is tightly connected, main-supply is interfaced to from the water inlet of sampling cabinet the Trunk Line flowmeter that is tightly connected successively the pipeline between five ginseng ponds, pressure transducer, the first variable valve, the first electrical ball valve BV ₁, the second variable valve and B flowmeter, before the valve of the first variable valve, after valve and before the valve of the second variable valve, set gradually respectively first interface～four interface after valve, A flowmeter is tightly connected between the 3rd interface of main-supply and settling pit.

The structure of described sampling cabinet is: it comprises cabinet, settling pit, main-supply, main drainpipe, interior feed pipe, five ginseng ponds, sampling pond and distribution pipeline, described cabinet front is control panel, fixed frame is connected respectively inside the backboard of cabinet and side plate, cabinet top arranges analysis meter water supply interface, and cabinet bottom arranges respectively water inlet interface, drainage interface and cleaning interface; Described settling pit is placed in cabinet and is connected with the fixed frame of cabinet setting, and settling pit is tightly connected with one end, cleaning unit, the sample leaving device of main-supply, main drainpipe, interior feed pipe respectively; Described five ginseng ponds are placed in cabinet, the back of settling pit being connected with the fixed frame of cabinet setting, and five ginseng ponds are tightly connected with main-supply, main drainpipe, cleaning unit, sample leaving device respectively; Sampling pond is placed in cabinet, the front of settling pit being connected with the fixed frame of cabinet setting, and the other end of described sampling pond and interior feed pipe, main drainpipe, cleaning unit, analysis meter water supply interface are tightly connected; Described distribution pipeline one end by the first interface of the 3rd variable valve and main-supply be tightly connected, the drainage interface of the other end and sampling cabinet is tightly connected, and between distribution pipeline and main drainpipe, is sealedly connected with branch road; Described control module be placed in top in cabinet and with cabinet in the fixed frame that arranges be connected.

The structure of described settling pit is: it comprises pond body, the first outlet, the second entrance, fixed hook, the second outlet, the 3rd outlet, the first entrance and the 4th outlet, the bottom of described pond body arranges the first outlet, top arranges the second entrance, pond body inside top arranges fixed hook, the bottom of pond body arranges the second outlet and the 3rd outlet, top arranges the first entrance and the 4th outlet, the first outlet of described pond body is tightly connected by the 4th electrical ball valve and main drainpipe, the first purge pipe is articulated on the fixed hook at settling pit top, the first purge pipe is connected with second inlet seal at body top, pond, and be connected with the cleaning sealing joint of sampling cabinet by the second solenoid valve, the second outlet is tightly connected with the sample connection of sample leaving device by sampling cabinet, the 3rd outlet is tightly connected with one end of interior feed pipe, the first entrance and main-supply are tightly connected, described the first run-down pipe is placed between the 4th outlet and main drainpipe, one end of the first run-down pipe is connected with the 4th exit seal, the other end and main drainpipe are tightly connected.

The structure of described interior feed pipe is: it comprises sampling pump, filtrator, the 7th solenoid valve, the 4th variable valve and C flowmeter, described interior feed pipe two ends are tightly connected with settling pit and sampling pond respectively, sampling pump, filtrator, the 7th solenoid valve, the 4th variable valve and C flowmeter are successively tightly connected from settling pit to sampling pond, before filtrator He after filtrator, the 5th interface and the 6th interface are set respectively, the 5th interface is tightly connected by the 9th solenoid valve and main drainpipe, and the 6th interface is connected with the cleaning sealing joint of sampling cabinet by the first solenoid valve.

The structure in described five ginseng ponds is: it comprises pond body, dividing plate, the 7th outlet, the 5th outlet, the 4th entrance, the 3rd entrance and the 6th outlet, arrange some dividing plates in the body of described pond pond body be divided into several separate space, and the bottom of pond body arranges the 7th outlet and the 5th outlet, top arranges the 4th entrance, and pond body inside top arranges fixed hook, and the bottom of pond body arranges the 3rd entrance, top arranges the 6th outlet, and the 7th outlet of described pond body is tightly connected by the 3rd electrical ball valve and main drainpipe, the 5th outlet is tightly connected with the sample connection of sample leaving device by sampling cabinet, and the fixed hook at body top, pond articulates the second purge pipe, and the second purge pipe is connected with the 4th inlet seal, and be connected with the cleaning sealing joint of sampling cabinet by the 3rd solenoid valve, the 3rd entrance and the main-supply of pond body are tightly connected, and described the second run-down pipe is placed between the 6th outlet and main drainpipe, and one end of the second run-down pipe is connected with the 6th exit seal, the other end and main drainpipe are tightly connected.

The structure in described sampling pond is: it comprises pond body, the 8th outlet, the 9th outlet, the 5th entrance, the bottom of described pond body arranges the 8th outlet, the inside top of pond body arranges fixed hook, the bottom of pond body arranges the 5th entrance and the tenth outlet, top arranges the 9th outlet and the 6th entrance, the 8th outlet of described pond body is tightly connected by the 8th solenoid valve and main drainpipe, the fixed hook at body top, pond articulates the 3rd purge pipe, the 3rd purge pipe is connected with the 6th inlet seal on body top, pond, and be connected with the cleaning sealing joint of sampling cabinet by the tenth solenoid valve, the 5th entrance and the interior feed pipe of pond body, the tenth outlet is tightly connected with the analysis meter water supply interface of sampling cabinet, described the 3rd run-down pipe is placed between the 9th outlet and main drainpipe, one end of the 3rd run-down pipe is connected with the 9th exit seal, the other end and main drainpipe are tightly connected.

Described the first purge pipe, the second purge pipe and the 3rd purge pipe have identical structure, be outside and be provided with flowing hole, bottom along being provided with the ring pipe that is uniformly distributed spray-hole week, the flowing hole of the first purge pipe is connected with second inlet seal at settling pit top, the flowing hole of the second purge pipe is connected with the 4th inlet seal at five ginseng tops, pond, the flowing hole of the 3rd purge pipe is connected with the 6th inlet seal on sampling top, pond.

The structure of described cleaning unit is: it comprises water purification cleaning device, algae removal device and gas-washing device, five variable valve, supercharge pump and five solenoid valve of described water purification cleaning device for being tightly connected successively by pipeline between the cleaning interface from water source to sampling cabinet; Described algae removal device one end is tightly connected with the pipeline after supercharge pump, the other end is connected with the cleaning sealing joint of sampling cabinet by the 6th solenoid valve; Described gas-washing device is that air compressor machine passes through the pipeline that the 4th solenoid valve is connected with the cleaning sealing joint of sampling cabinet.

The structure of described pulsing jet cleaning unit is: it comprises pulse cleaning machine and solenoid valve, and described pulse cleaning machine cleans sealing joint by solenoid valve with the pulse radiation frequency of main-supply sampling cabinet outer segment setting and is connected.

The structure of described control device is: it comprises operation part and PLC, and the control panel of described operation part and cabinet is connected, and PLC is placed in the top in cabinet and is connected, and PLC is electrically connected to operation part, the signal input part of PLC respectively with Trunk Line flowmeter, A flowmeter, B flowmeter, C flowmeter, pressure transducer and settling pit, five ginseng ponds and the sampling pond built-in liquid level gauge of difference are electrically connected to, the signal output part of PLC respectively with the first solenoid valve～ten solenoid valve, the first electrical ball valve～four electrical ball valve, the first variable valve～five variable valve is electrically connected to, PLC also respectively with submersible pump, sampling pump, sample leaving device, online water analysis instrument, supercharge pump, algae removal device, air compressor machine and pulse cleaning mechatronics, PLC, submersible pump, sampling pump, sample leaving device, online water analysis instrument, supercharge pump, algae removal device, air compressor machine and pulse cleaning machine are electrically connected to power supply respectively.

The utility model water quality safety online auto monitoring system servomechanism installation is pressed power switch, after system initial program finishes, according to button on sampling cabinet control panel, selects manually and automatic any pattern.Under manual mode, the function providing according to control panel can be controlled corresponding flow process and parts; Under automatic mode, PLC, according to the controlled condition output control signal receiving, realizes intended target by Flow driving control device of the present utility model.

The utility model can be integrated in the sampled part originally disperseing in a cabinet, and is provided with a plurality of outer connectors, can require to take corresponding connected mode according to different quality, has integration, standardization and versatility.Device carries out pre-service by related procedure to water sample, can automatically realize desilting, filtration, cleaning, remove algae and automatically keep sample, can effectively prevent detecting pollution, line clogging, algae grows with the function that causes such as deposition etc., has improved the stability of measuring instrument operation.The dividing plate of setting up in five ginseng ponds can prevent phase mutual interference between sensor.

Accompanying drawing explanation

Fig. 1 is the utility model water quality safety online auto monitoring system structural representation;

Fig. 2 is the utility model water quality safety online auto monitoring system servomechanism installation structural representation;

Fig. 3 is the part-structure schematic diagram that comprises main-supply and five ginseng ponds of Fig. 2;

Fig. 4 is the part-structure schematic diagram that comprises settling pit and sampling pond of Fig. 2;

Fig. 5 is the part-structure schematic diagram of the cleaning unit of Fig. 2;

Fig. 6 is that the master of the sampling cabinet of the utility model water quality safety online auto monitoring system servomechanism installation looks schematic diagram;

Fig. 7 is that schematic diagram is looked on a left side of Fig. 6;

Fig. 8 is that schematic diagram is looked on the right side of Fig. 6.

In figure: 1 cabinet, 2 sand basins, 3 sampling ponds, 4 five ginseng ponds, 5 sampling pumps, 6 filtrators, 7 Trunk Line flowmeters, 8 A flowmeters, 9 B flowmeters, 10 pressure transducers, 11 main water inlet tubes, 12 main drainpipes, 13 distribution pipelines, 14 first run-down pipes, 15 second run-down pipes, 16 sample leaving devices, 17 the 3rd run-down pipes, 18 dividing plates, the mouth of pipe is cleaned in 19 pulse radiation frequencies, 20 clean interface, 21 analysis meter water supply interfaces, 22 drainage interfaces, 23 water inlet interfaces, 24 C flowmeters, 25 cleaning units, 26 submersible pumps, 27 online water analysis instrument, 28 water sources, 29 air compressor machines, 30 algae removal devices, 31 supercharge pumps, 32 sampling cabinets, 33 first variable valve, 34 second variable valve, 35 the 3rd variable valve, 36 the 4th variable valve, 37 the 5th variable valve, 40 the tenth outlets, 41 first outlets, 42 second outlets, 43 the 3rd outlets, 44 the 4th outlets, 45 the 5th outlets, 46 the 6th outlets, 47 the 7th outlets, 48 the 8th outlets, 49 the 9th outlets, 51 first entrances, 52 second entrances, 53 the 3rd entrances, 54 the 4th entrances, 55 the 5th entrances, 56 the 6th entrances, 61 first interfaces, 62 second interfaces, 63 the 3rd interfaces, 64 the 4th interfaces, 65 the 5th interfaces, 66 the 6th interfaces, FV1 the first solenoid valve, FV2 the second solenoid valve, FV3 the 3rd solenoid valve, FV4 the 4th solenoid valve, FV5 the 5th solenoid valve, FV6 the 6th solenoid valve, FV7 the 7th solenoid valve, FV8 the 8th solenoid valve, FV9 the 9th solenoid valve, FV10 the tenth solenoid valve, BV1 the first electrical ball valve, BV2 the second electrical ball valve, BV3 the 3rd electrical ball valve, BV4 the 4th electrical ball valve.

Embodiment

Below in conjunction with drawings and Examples, the utility model is further illustrated.

With reference to Fig. 1～Fig. 8, a kind of water quality safety online auto monitoring system of the utility model servomechanism installation, it comprises main-supply 11, submersible pump 26, sampling cabinet 32, main drainpipe 12, sample leaving device 16, cleaning unit 25, pulsing jet cleaning unit and control device, one end of described main-supply 11 is positioned at outside sampling cabinet 32 and is tightly connected with submersible pump 26 water delivering orifices, the other end is positioned at sampling cabinet 32 and the settling pit 2 being built-in with sampling cabinet 32 respectively and five ginseng ponds 4 and is tightly connected, the middle water inlet interface 23 by sampling cabinet 32 is tightly connected, and one end of main drainpipe 12 is positioned at sampling cabinet 32 and is tightly connected by the second electrical ball valve BV2 and main-supply 11, the other end is positioned at outside sampling cabinet 32, the middle drainage interface 22 by sampling cabinet 32 is tightly connected, sample leaving device 16, cleaning unit 25 is respectively by the sample connection of sampling cabinet 32, clean interface 20 and be tightly connected with sampling cabinet 32, the main-supply 11 outside pulsing jet cleaning unit and sampling cabinet 32 is tightly connected, and control device is placed in sampling cabinet 32 and is connected with sampling cabinet 32.The structure of described main-supply 11 is: it comprises Trunk Line flowmeter 7, pressure transducer 10, the first variable valve 33, the first electrical ball valve BV1, the second variable valve 34, B flowmeter 9 and A flowmeter 8, described main-supply 11 one end are positioned at outside sampling cabinet 32, the other end is positioned at sampling cabinet 32, the middle water inlet interface 23 by sampling cabinet 32 is tightly connected, and main-supply 11 is positioned at one end outside sampling cabinet 32 and the water delivering orifice of submersible pump 26 is tightly connected, the one end that is positioned at sampling cabinet 32 is tightly connected with five ginseng ponds 4 and settling pit 2 respectively simultaneously, main-supply 11 is positioned at pipeline section outside sampling cabinet 32 and by pulse radiation frequency, cleans the mouth of pipe 19 and be tightly connected with pulse radiation frequency cleaning unit, and Trunk Line flowmeter 7 is successively tightly connected the pipeline of main-supply 11 between water inlet interface 23 to the five ginseng ponds 4 of sampling cabinet 32, pressure transducer 10, the first variable valve 33, the first electrical ball valve BV1, the second variable valve 34 and B flowmeter 9, before the valve of the first variable valve 33, after valve and before the valve of the second variable valve 34, after valve, set gradually respectively first interface 61, the second interface 62, the 3rd interface 63 and the 4th interface 64, A flowmeter 8 is tightly connected between the 3rd interface 63 of main-supply 11 and settling pit 2.The structure of described sampling cabinet 32 is: it comprises cabinet 1, settling pit 2, main-supply 11, main drainpipe 12, interior feed pipe, five ginseng ponds 4, sampling pond 3 and distribution pipeline 13, described cabinet 1 front is control panel, fixed frame is connected respectively inside the backboard of cabinet 1 and side plate, cabinet 1 top arranges analysis meter water supply interface 21, and cabinet 1 bottom arranges respectively water inlet interface 23, drainage interface 22 and cleans interface 20; Described settling pit 2 is placed in the fixed frame arranging with cabinet 1 in cabinet 1 and is connected, and settling pit 2 is tightly connected with one end, cleaning unit 25, the sample leaving device 16 of main-supply 11, main drainpipe 12, interior feed pipe respectively; Described five ginseng ponds 4 are placed in cabinet 1, the back of settling pit 2 being connected with the fixed frame that cabinet 1 arranges, and five ginseng ponds 4 are tightly connected with main-supply 11, main drainpipe 12, cleaning unit 25, sample leaving device 16 respectively; Sampling pond 3 is placed in cabinet 1, the front of settling pit 2 being connected with the fixed frame that cabinet 1 arranges, and described sampling pond 3 is tightly connected with the other end, main drainpipe 12, cleaning unit 25, the analysis meter water supply interface 21 of interior feed pipe; Described distribution pipeline 13 one end by the 3rd variable valve 35 and the first interface 61 of main-supply 11 be tightly connected, the drainage interface 22 of the other end and sampling cabinet 32 is tightly connected, and between distribution pipeline 13 and main drainpipe 12, is sealedly connected with branch road; Described control module is placed in the top in cabinet 1 and is connected with the fixed frame of cabinet 1 interior setting.The structure of described settling pit 2 is: it comprises pond body, the first outlet 41, the second entrance 52, fixed hook, the second outlet 42, the 3rd outlet 43, the first entrance 51 and the 4th outlet 44, the bottom of described pond body arranges the first outlet 41, top arranges the second entrance 52, pond body inside top arranges fixed hook, the bottom of pond body arranges the second outlet 42 and the 3rd outlet 43, top arranges the first entrance 51 and the 4th outlet 44, the first outlet 41 of described pond body is tightly connected by the 4th electrical ball valve BV4 and main drainpipe 12, the first purge pipe is articulated on the fixed hook at settling pit 2 tops, second entrance 52 at the first purge pipe and body top, pond is tightly connected, and be tightly connected by the cleaning interface 20 of the second solenoid valve FV2 and sampling cabinet 32, the second outlet 42 is tightly connected with the sample connection of sample leaving device 16 by sampling cabinet 32, the 3rd outlet 43 is tightly connected with one end of interior feed pipe, the first entrance 51 is tightly connected with main-supply 11, described the first run-down pipe 14 is placed between the 4th outlet 44 and main drainpipe 12, one end of the first run-down pipe 14 and the 4th outlet 44 are tightly connected, the other end and main drainpipe 12 are tightly connected.The structure of described interior feed pipe is: it comprises sampling pump 5, filtrator 6, the 7th solenoid valve FV7, the 4th variable valve 36 and C flowmeter 24, described interior feed pipe two ends are tightly connected with settling pit 2 and sampling pond 3 respectively, sampling pump 5 is successively tightly connected from settling pit 2 to sampling pond 3, filtrator 6, the 7th solenoid valve FV7, the 4th variable valve 36 and C flowmeter 24, before filtrator 6 and rear the 5th interface 65 and the 6th interface 66 of arranging respectively of filtrator 6, the 5th interface 65 is tightly connected by the 9th solenoid valve FV9 and main drainpipe 12, the 6th interface 66 is tightly connected by the cleaning interface 20 of the first solenoid valve FV1 and sampling cabinet 32.The structure in described five ginseng ponds 4 is: it comprises pond body, dividing plate 18, the 7th outlet 47, the 5th outlet 45, the 4th entrance 54, the 3rd entrance 53 and the 6th outlet 46, in the body of described pond, some dividing plates 18 are set pond body is divided into several separate space, the bottom of pond body arranges the 7th outlet the 47 and the 5th outlet 45, top arranges the 4th entrance 54, pond body inside top arranges fixed hook, the bottom of pond body arranges the 3rd entrance 53, top arranges the 6th outlet 46, the 7th outlet 47 of described pond body is tightly connected by the 3rd electrical ball valve BV3 and main drainpipe 12, the 5th outlet 45 is tightly connected with the sample connection of sample leaving device 16 by sampling cabinet 32, the fixed hook at body top, pond articulates the second purge pipe, the second purge pipe and the 4th entrance 54 are tightly connected, and be tightly connected by the cleaning interface 20 of the 3rd solenoid valve FV3 and sampling cabinet 32, the 3rd entrance 53 of pond body is tightly connected with main-supply 11, described the second run-down pipe 15 is placed between the 6th outlet 46 and main drainpipe 12, one end of the second run-down pipe 15 and the 6th outlet 46 are tightly connected, the other end and main drainpipe 12 are tightly connected.The structure in described sampling pond 3 is: it comprises pond body, the 8th outlet 48, the 9th outlet 49, the 5th entrance 55, the bottom of described pond body arranges the 8th outlet 48, the inside top of pond body arranges fixed hook, the bottom of pond body arranges the 5th entrance 55 and the tenth outlet 40, top arranges the 9th outlet the 49 and the 6th entrance 56, the 8th outlet 48 of described pond body is tightly connected by the 8th solenoid valve FV8 and main drainpipe 12, the fixed hook at body top, pond articulates the 3rd purge pipe, the 6th entrance 56 on the 3rd purge pipe and body top, pond is tightly connected, and be tightly connected by the cleaning interface 20 of the tenth solenoid valve FV10 and sampling cabinet 32, the 5th entrance 55 and interior feed pipe of pond body, the tenth outlet 40 is tightly connected with the analysis meter water supply interface 21 of sampling cabinet 32, described the 3rd run-down pipe 17 is placed between the 9th outlet 49 and main drainpipe 12, one end of the 3rd run-down pipe 17 and the 9th outlet 49 are tightly connected, the other end and main drainpipe 12 are tightly connected.Described the first purge pipe, the second purge pipe and the 3rd purge pipe have identical structure, be outside and be provided with flowing hole, bottom along being provided with the ring pipe that is uniformly distributed spray-hole week, second entrance 52 at the flowing hole of the first purge pipe and settling pit 2 tops is tightly connected, the flowing hole of the second purge pipe is tightly connected with the 4th entrances 54 at five ginseng 4 tops, pond, the flowing hole of the 3rd purge pipe and the 6th entrance 56 that samples 3 tops, pond are tightly connected.The structure of described cleaning unit 25 is: it comprises water purification cleaning device, algae removal device 30 and gas-washing device, five variable valve 37, supercharge pump 31 and the five solenoid valve FV5 of described water purification cleaning device for being tightly connected successively by pipeline between the cleaning interface 20 from water source 28 to sampling cabinet 32; Pipeline after described algae removal device 30 one end and supercharge pump 31 is tightly connected, the other end is tightly connected by the cleaning interface 20 of the 6th solenoid valve FV6 and sampling cabinet 32; The pipeline that the cleaning interface 20 that described gas-washing device is air compressor machine 29 by the 4th solenoid valve FV4 and sampling cabinet 32 is tightly connected; The structure of described pulsing jet cleaning unit is: it comprises pulse cleaning machine and solenoid valve, and described pulse cleaning machine cleans the mouth of pipe 19 by the pulse radiation frequency of solenoid valve and main-supply 11 sampling cabinet 32 outer segment settings and is tightly connected.The structure of described control device is: it comprises operation part and PLC, and the control panel of described operation part and cabinet 1 is connected, and PLC is placed in the top in cabinet 1 and is connected, and PLC is electrically connected to operation part, the signal input part of PLC respectively with Trunk Line flowmeter 7, A flowmeter 8, B flowmeter 9, C flowmeter 24, pressure transducer 10 and settling pit 2, five ginseng ponds 4 and the sampling pond built-in liquid level gauge of 3 difference are electrically connected to, the signal output part of PLC respectively with the first solenoid valve FV1～ten solenoid valve FV10, the first electrical ball valve BV1～four electrical ball valve BV4, the first variable valve 33～five variable valve 37 is electrically connected to, PLC also respectively with submersible pump 26, sampling pump 5, sample leaving device 16, online water analysis instrument 27, supercharge pump 31, algae removal device 30, air compressor machine 29 and pulse cleaning mechatronics, PLC, submersible pump 26, sampling pump 5, sample leaving device 16, online water analysis instrument 27, supercharge pump 31, algae removal device 30, air compressor machine 29 and pulse cleaning machine are electrically connected to power supply respectively.The utility model adopts prior art manufacture, the commercially available prod that described submersible pump 26, flowmeter, pressure transducer 10, variable valve, solenoid valve, electrical ball valve, sampling pump 5, filtrator 6, supercharge pump 31, algae removal device 30, air compressor machine 29 and pulse radiation frequency cleaning machine, online water analysis instrument 27 are prior art.

The course of work of the present embodiment is:

1) be settling pit 2 and five ginseng pond 4 water fillings: by PLC, control and first close the first electrical ball valve BV1, open the second electrical ball valve BV2, close the second solenoid valve FV2 and the 3rd solenoid valve FV3 simultaneously, start submersible pump 26 and rinse main-supply 4 minutes, close the second electrical ball valve BV2, the 3rd electrical ball valve BV3 and the 4th electrical ball valve BV4, open the first electrical ball valve BV1 is settling pit 2 and five ginseng pond 4 water fillings simultaneously again; During water filling, PLC according to Trunk Line flowmeter 7, pressure transducer 10, A flowmeter 8 and B flowmeter 9 and settling pit 2, five ginseng ponds 4 respectively the information of built-in liquid level gauges feedback control the aperture of submersible pump 26 and the first variable valve 33, the second variable valve 34, the 3rd variable valve 35, thereby control injection flow and flow velocity, when settling pit 2, five ginseng ponds 4 reach liquid level requirement, settling pit 2, five ginseng ponds 4 respectively built-in liquid level gauge feed back to PLC by liquid level information, PLC controls submersible pump 26 and the first electrical ball valve BV1 closes, and stops water filling;

2) be sampling pond 3 water fillings: settling pit 2 is filled with after water 5 minutes, by PLC, control and first open sampling pump 5, filtrator 6 and the 7th solenoid valve FV7, close the first solenoid valve FV1 simultaneously, the 8th solenoid valve FV8～ten solenoid valve FV10 is sampling pond 3 water fillings, during water filling, the information that PLC feeds back according to the built-in liquid level gauge of C flowmeter 24 and sampling pond 3 is controlled the aperture of sampling pump 5 and the 4th variable valve 36, thereby control injection flow and the flow velocity in sampling pond 3, when sampling pond 3 reaches liquid level requirement, the built-in liquid level gauge in sampling pond 3 feeds back to PLC by liquid level information, PLC controls sampling pump 5, filtrator 6 and the 7th solenoid valve FV7 close, stop water filling,

3) sampling detects: by PLC, control online Water Test Kits 27 and carry out sampling and analysing, detect completely, close online Water Test Kits 27;

4) cleaning device: clean and comprise except algae, water purification clean, pressurized air cleans and dry up and pulse radiation frequency is cleaned:

A removes algae: by PLC, control supercharge pump 31 water purification at water source 28 is introduced to algae removal device 30 heating, open again the first solenoid valve FV1～three solenoid valve FV3, the 6th solenoid valve FV6 and the tenth solenoid valve FV10, after 4 minutes, open the 3rd electrical ball valve BV3, the 4th electrical ball valve BV4, the 8th solenoid valve FV8 and the 9th solenoid valve FV9 and remove algae, during except algae, PLC controls the aperture of supercharge pump 31 and the 5th variable valve 37, control enters net water flux and the flow velocity of algae removal device 30, complete except algae, close the 6th solenoid valve FV6;

B water purification cleans: by PLC, controlled and first closed the 3rd electrical ball valve BV3, the 4th electrical ball valve BV4, the 8th solenoid valve FV8 and the 9th solenoid valve FV9, open the first solenoid valve FV1～three solenoid valve FV3 simultaneously, the 5th solenoid valve FV5, the tenth solenoid valve FV10, PLC controls supercharge pump 31 water purification at water source 28 is passed through to the first solenoid valve FV1～three solenoid valve FV3, the 5th solenoid valve FV5, feed pipe and settling pit 2 in the tenth solenoid valve FV10 introduces, in five ginseng ponds 4 and sampling pond 3, soak after 5 minutes, open the 3rd electrical ball valve BV3, the 4th electrical ball valve BV4, the 8th solenoid valve FV8 and the 9th solenoid valve FV9 clean, during cleaning, PLC controls the aperture of supercharge pump 31 and the 5th variable valve 37, adjust net water flux and flow velocity while cleaning, clean complete, close the 5th solenoid valve FV5,

C pressurized air cleans and dries up: by PLC, controlled and opened the first solenoid valve FV1～four solenoid valve FV4, the tenth solenoid valve FV10 simultaneously, and the 3rd electrical ball valve BV3, the 4th electrical ball valve BV4, the 8th solenoid valve FV8 and the 9th solenoid valve FV9, clean, restart feed pipe and settling pit 2, five ginseng ponds 4 and sampling pond 3 in 29 pairs of air compressor machines and carry out pressurized air cleaning, then dry up, when pressurized air cleans and dries up, PLC controls air compressor machine 29 and adjusts compressed-air actuated flow and flow velocity, clean completely, close the 4th solenoid valve FV4;

dpulse radiation frequency is cleaned: by PLC, controlled the solenoid valve of opening the first electrical ball valve BV1, the second electrical ball valve BV2 and pulse radiation frequency cleaning unit, starting impulse radio frequency cleaning machine cleans main-supply 11, after cleaning, open the 4th solenoid valve FV4, main-supply 11 is carried out pressurized air cleaning and dried up.

PLC controls and adopts prior art, is the familiar technology of those skilled in the art, and PLC machine is commercially available prod.

Claims

1. a water quality safety online auto monitoring system servomechanism installation, it is characterized in that: it comprises main-supply, submersible pump, sampling cabinet, main drainpipe, sample leaving device, cleaning unit, pulsing jet cleaning unit and control device, one end of described main-supply is positioned at outside sampling cabinet and is tightly connected with submersible pump water delivering orifice, the other end is positioned at sampling cabinet and the settling pit being built-in with sampling cabinet respectively and five ginseng ponds and is tightly connected, the middle water inlet sealing joint by sampling cabinet connects, one end of main drainpipe is positioned at sampling cabinet and is tightly connected by the second electrical ball valve and main-supply, the other end is positioned at outside sampling cabinet, the middle drainage interface by sampling cabinet is tightly connected, sample leaving device, cleaning unit is respectively by the sample connection of sampling cabinet, cleaning interface and sampling cabinet is tightly connected, main-supply outside pulsing jet cleaning unit and sampling cabinet is tightly connected, control device is placed in sampling cabinet and is connected with sampling cabinet.

2. water quality safety online auto monitoring system servomechanism installation as claimed in claim 1, it is characterized in that: it comprises Trunk Line flowmeter described main-supply, pressure transducer, the first variable valve, the first electrical ball valve, the second variable valve, B flowmeter and A flowmeter, described main-supply one end is positioned at outside sampling cabinet, the other end is positioned at sampling cabinet, the middle water inlet sealing joint by sampling cabinet connects, main-supply is positioned at one end outside sampling cabinet and the water delivering orifice of submersible pump is tightly connected, the one end that is positioned at sampling cabinet is tightly connected with five ginseng ponds and settling pit respectively simultaneously, main-supply is positioned at that pipeline section outside sampling cabinet cleans the mouth of pipe by pulse radiation frequency and pulse radiation frequency cleaning unit is tightly connected, main-supply is interfaced to from the water inlet of sampling cabinet the Trunk Line flowmeter that is tightly connected successively the pipeline between five ginseng ponds, pressure transducer, the first variable valve, the first electrical ball valve BV ₁, the second variable valve and B flowmeter, before the valve of the first variable valve, after valve and before the valve of the second variable valve, set gradually respectively first interface～four interface after valve, A flowmeter is tightly connected between the 3rd interface of main-supply and settling pit.

3. water quality safety online auto monitoring system servomechanism installation as claimed in claim 1 or 2, it is characterized in that: the structure of described sampling cabinet is: it comprises cabinet, settling pit, main-supply, main drainpipe, interior feed pipe, five ginseng ponds, sampling pond and distribution pipeline, described cabinet front is control panel, fixed frame is connected respectively inside the backboard of cabinet and side plate, cabinet top arranges analysis meter water supply interface, and cabinet bottom arranges respectively water inlet interface, drainage interface and cleaning interface; Described settling pit is placed in cabinet and is connected with the fixed frame of cabinet setting, and settling pit is tightly connected with one end, cleaning unit, the sample leaving device of main-supply, main drainpipe, interior feed pipe respectively; Described five ginseng ponds are placed in cabinet, the back of settling pit being connected with the fixed frame of cabinet setting, and five ginseng ponds are tightly connected with main-supply, main drainpipe, cleaning unit, sample leaving device respectively; Sampling pond is placed in cabinet, the front of settling pit being connected with the fixed frame of cabinet setting, and the other end of described sampling pond and interior feed pipe, main drainpipe, cleaning unit, analysis meter water supply interface are tightly connected; Described distribution pipeline one end by the first interface of the 3rd variable valve and main-supply be tightly connected, the drainage interface of the other end and sampling cabinet is tightly connected, and between distribution pipeline and main drainpipe, is sealedly connected with branch road; Described control module be placed in top in cabinet and with cabinet in the fixed frame that arranges be connected.

4. water quality safety online auto monitoring system servomechanism installation as claimed in claim 3, it is characterized in that: the structure of described settling pit is: it comprises pond body, the first outlet, the second entrance, fixed hook, the second outlet, the 3rd outlet, the first entrance and the 4th outlet, the bottom of described pond body arranges the first outlet, top arranges the second entrance, pond body inside top arranges fixed hook, the bottom of pond body arranges the second outlet and the 3rd outlet, top arranges the first entrance and the 4th outlet, the first outlet of described pond body is tightly connected by the 4th electrical ball valve and main drainpipe, the first purge pipe is articulated on the fixed hook at settling pit top, the first purge pipe is connected with second inlet seal at body top, pond, and be connected with the cleaning sealing joint of sampling cabinet by the second solenoid valve, the second outlet is tightly connected with the sample connection of sample leaving device by sampling cabinet, the 3rd outlet is tightly connected with one end of interior feed pipe, the first entrance and main-supply are tightly connected, the first run-down pipe is placed between the 4th outlet and main drainpipe, one end of the first run-down pipe is connected with the 4th exit seal, the other end and main drainpipe are tightly connected.

5. water quality safety online auto monitoring system servomechanism installation as claimed in claim 3, it is characterized in that: it comprises sampling pump described interior feed pipe, filtrator, the 7th solenoid valve, the 4th variable valve and C flowmeter, described interior feed pipe two ends are tightly connected with settling pit and sampling pond respectively, sampling pump is successively tightly connected from settling pit to sampling pond, filtrator, the 7th solenoid valve, the 4th variable valve and C flowmeter, before filtrator He after filtrator, the 5th interface and the 6th interface are set respectively, the 5th interface is tightly connected by the 9th solenoid valve and main drainpipe, the 6th interface is connected with the cleaning sealing joint of sampling cabinet by the first solenoid valve.

6. water quality safety online auto monitoring system servomechanism installation as claimed in claim 3, it is characterized in that: it comprises pond body described five ginseng ponds, dividing plate, the 7th outlet, the 5th outlet, the 4th entrance, the 3rd entrance and the 6th outlet, in the body of described pond, some dividing plates are set pond body is divided into several separate space, the bottom of pond body arranges the 7th outlet and the 5th outlet, top arranges the 4th entrance, pond body inside top arranges fixed hook, the bottom of pond body arranges the 3rd entrance, top arranges the 6th outlet, the 7th outlet of described pond body is tightly connected by the 3rd electrical ball valve and main drainpipe, the 5th outlet is tightly connected with the sample connection of sample leaving device by sampling cabinet, the fixed hook at body top, pond articulates the second purge pipe, the second purge pipe is connected with the 4th inlet seal, and be connected with the cleaning sealing joint of sampling cabinet by the 3rd solenoid valve, the 3rd entrance and the main-supply of pond body are tightly connected, the second run-down pipe is placed between the 6th outlet and main drainpipe, one end of the second run-down pipe is connected with the 6th exit seal, the other end and main drainpipe are tightly connected.

7. water quality safety online auto monitoring system servomechanism installation as claimed in claim 3, it is characterized in that: it comprises pond body described sampling pond, the 8th outlet, the 9th outlet, the 5th entrance, the bottom of described pond body arranges the 8th outlet, the inside top of pond body arranges fixed hook, the bottom of pond body arranges the 5th entrance and the tenth outlet, top arranges the 9th outlet and the 6th entrance, the 8th outlet of described pond body is tightly connected by the 8th solenoid valve and main drainpipe, the fixed hook at body top, pond articulates the 3rd purge pipe, the 3rd purge pipe is connected with the 6th inlet seal on body top, pond, and be connected with the cleaning sealing joint of sampling cabinet by the tenth solenoid valve, the 5th entrance and the interior feed pipe of pond body, the tenth outlet is tightly connected with the analysis meter water supply interface of sampling cabinet, the 3rd run-down pipe is placed between the 9th outlet and main drainpipe, one end of the 3rd run-down pipe is connected with the 9th exit seal, the other end and main drainpipe are tightly connected.

8. as the water quality safety online auto monitoring system servomechanism installation of claim 4,6 or 7 as described in arbitrary, it is characterized in that: the first purge pipe, the second purge pipe and the 3rd purge pipe have identical structure, be outside and be provided with flowing hole, bottom along being provided with the ring pipe that is uniformly distributed spray-hole week, the flowing hole of the first purge pipe is connected with second inlet seal at settling pit top, the flowing hole of the second purge pipe is connected with the 4th inlet seal at five ginseng tops, pond, the flowing hole of the 3rd purge pipe is connected with the 6th inlet seal on sampling top, pond.

9. water quality safety online auto monitoring system servomechanism installation as claimed in claim 1, it is characterized in that: the structure of described cleaning unit is: it comprises water purification cleaning device, algae removal device and gas-washing device five variable valve, supercharge pump and five solenoid valve of described water purification cleaning device for being tightly connected successively by pipeline between the cleaning interface from water source to sampling cabinet; Described algae removal device one end is tightly connected with the pipeline after supercharge pump, the other end is connected with the cleaning sealing joint of sampling cabinet by the 6th solenoid valve; Described gas-washing device is that air compressor machine passes through the pipeline that the 4th solenoid valve is connected with the cleaning sealing joint of sampling cabinet.