CN217404269U - Vortex type water quality online monitoring sensor cleaning system - Google Patents

Abstract

The utility model discloses a vortex formula quality of water on-line monitoring sensor cleaning system solves the easy biological contamination of current water quality monitoring sensor and blocks up with impurity and lead to the unsafe technical problem of detected data. The utility model discloses a floater washs the jar with locating the vortex in the floater, is equipped with the washing chamber in the vortex washs the jar, and the vortex washs jar lateral wall and installs water quality monitoring sensor that the sensing element end is located the washing intracavity, another lateral wall and connect the vortex wiper mechanism corresponding with water quality monitoring sensor, diapire and be connected with the double pump mechanism of intaking, the drainage mechanism that the back connection is used for monitoring out water that is used for monitoring intaking. The utility model has the advantages of simple structure and scientific and reasonable design, convenient to use can regularly carry out the high pressure vortex formula washing one to the sensor, has both guaranteed water quality monitoring data's stability and reliability, has prolonged monitoring facilities life again.

Description

Vortex type water quality online monitoring sensor cleaning system

Technical Field

The utility model belongs to the technical field of water quality testing equipment, concretely relates to vortex formula quality of water on-line monitoring sensor cleaning system.

Background

The traditional fish culture method is to feed grains with single nutrition, such as corn, sweet potatoes, rapeseed meal and the like, according to experience, and because the grain processing technology is backward, the utilization rate is low, and the waste is large, the fish grows slowly, the bait coefficient is also very high, and a kilogram of grain can grow a kilogram of fish. In fact, the water content of the fresh animals is 60-95%, if the water content of the fresh fish is calculated according to 70%, only 3 dry baits are needed for one kilogram of fish, and one pile of the baits is formed by the fish feces, and if beneficial microorganisms are not put in the bait in time for decomposition and cyclic utilization, garbage accumulation and excessive growth of harmful algae can be generated, so that the water quality is deteriorated, the water body is fishy, and the fish can lose natural nutrition and taste.

The ecological fish culture utilizes abundant beneficial microorganisms in water to establish a complete ecological circulation system. In the process, an online water quality monitoring system is required to be used for monitoring indexes such as water quality, dissolved oxygen and the like in real time, analyzing and balancing components (organic matters and inorganic matters) in water and maintaining the balance and stability of four phases among decomposers (bacterial phases), producers (algal phases) and consumers (zooplankton and fish). The method has the advantages that the easily digestible high-quality complete buoyancy bait is fed quantitatively through the system, beneficial bacteria (EM bacteria, bacillus, photosynthetic bacteria and the like), beneficial insects (zooplankton), beneficial algae (diatom, chlorella and the like) and aquatic weeds are regularly put in the bait, so that the water quality is purified, the quality and the yield of the fish are improved, the sustainable development of green water hills is ensured by depending on a natural ecosystem, and the win-win effect is realized.

However, when the on-line water quality monitoring system is used for a long time, the internal sensor and the water intake pipeline are easily polluted by organisms (growing fungi and algae), so that the water flow is gradually reduced due to the breeding of microorganisms in the sensitive element of the sensor or the blockage of the water intake pipeline, and finally, the monitoring data is inaccurate or invalid, which is an industrial problem.

Therefore, the utility model provides a vortex formula quality of water on-line monitoring sensor cleaning system can carry out the high pressure vortex formula that one-to-one is washd to the sensor on line, has both guaranteed the stability and the reliability of water quality monitoring data, has prolonged monitoring facilities life again.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the cleaning system of the vortex type water quality on-line monitoring sensor solves the technical problem that the existing water quality monitoring sensor is easy to be blocked by biological pollution and impurities to cause inaccurate detection data.

In order to achieve the above object, the utility model adopts the following technical scheme:

the vortex type water quality on-line monitoring sensor cleaning system comprises a floating ball and a vortex cleaning tank arranged in the floating ball, wherein a cleaning cavity is arranged in the vortex cleaning tank, a water quality monitoring sensor with a sensitive element end positioned in the cleaning cavity is installed on one side wall of the vortex cleaning tank, the other side wall of the vortex cleaning tank is connected with a vortex cleaning mechanism corresponding to the water quality monitoring sensor, the bottom wall of the vortex cleaning tank is connected with a double-pump water inlet mechanism for monitoring water inlet, and the back of the vortex cleaning tank is connected with a drainage mechanism for monitoring water outlet.

Further, swirl wiper mechanism includes water filter, the filtration that connects out from water filter chamber crosses the water pipe, with cross the high pressure diaphragm pump that the water pipe is connected and the swirl high pressure cleaning head that is connected with the high pressure diaphragm pump of crossing.

Further, the swirl high pressure cleaning head includes at least one washing inlet tube that is connected with the high pressure diaphragm pump outlet pipe, inlays the pipe connection head who adorns in washing inlet tube tip, with pipe connection head threaded connection's shower nozzle connector, locate the one-level shower nozzle on the shower nozzle connector and with one-level shower nozzle threaded connection's second grade shower nozzle, the shower nozzle mounting hole has been seted up to swirl cleaning tank lateral wall, the second grade shower nozzle is installed in the shower nozzle mounting hole.

Furthermore, a circle of water outlet holes are formed in the head of the primary spray head in the circumferential direction, a plurality of water guide grooves are formed in the top surface of the primary spray head, and the water guide grooves are parallel to the circular tangent line of the top surface of the primary spray head; a cavity for generating a vortex is arranged between the secondary spray head and the primary spray head, and a vortex water outlet hole communicated with the cleaning cavity is formed in the top surface of the secondary spray head;

the outer wall of the pipeline connector is provided with a first sealing ring which is in sealing connection with the spray head connector, the outer wall of the primary spray head is provided with an embedded annular groove, and a second sealing ring which is in sealing fit with the inner wall of the secondary spray head is arranged in the embedded annular groove.

Furthermore, the side wall of the vortex cleaning tank is provided with sensor mounting holes communicated with the cleaning cavity, the water quality monitoring sensors are mounted in the sensor mounting holes, the number of the water quality monitoring sensors is at least two, the water quality monitoring sensors comprise dissolved oxygen sensors and pH sensors, and the number and the mounting height of the sensor mounting holes are consistent with those of the spray nozzle mounting holes.

Furthermore, the water quality filter comprises a filter element, a first sleeve and a second sleeve which are respectively sleeved at two ends of the filter element, a sealing pipe cap arranged outside the first sleeve and a connector arranged outside the second sleeve, a rubber piece is embedded in a filter cavity of the filter element, a filtering water outlet pipe sequentially penetrates through the connectors and the rubber piece and extends into the filter cavity of the filter element, and a water-stop plate is arranged on the top surface of the filter element.

Further, the double-pump water inlet mechanism comprises a first water inlet pipe and a second water inlet pipe which are respectively connected with the vortex cleaning tank, a first water pump is arranged on the first water inlet pipe and connected with a first filter screen, a second water pump is arranged on the second water inlet pipe and connected with a second filter screen, the first water inlet pipe and the second water inlet pipe are both copper tubes, and the first water pump and the second water pump are both water pumps made of brass materials;

the bottom of the vortex cleaning tank is provided with a water inlet communicated with the cleaning cavity, the water inlet is provided with a water inlet connector, and the water inlet connector is respectively connected with the first water inlet pipe and the second water inlet pipe through a U-shaped tee.

Furthermore, the side wall of the cleaning cavity, on which the water quality monitoring sensor is arranged, is a plane wall, the rest side walls of the cleaning cavity are arc-shaped walls, an inclined plane is arranged between the plane wall and the arc-shaped walls, the water inlet is arranged on the inclined plane, and the inclination angle of the inclined plane is 45-60 degrees.

Furthermore, the drainage mechanism comprises a drainage pipe and a flowmeter arranged on the drainage pipe, a water outlet communicated with the cleaning cavity is formed in the back of the vortex cleaning tank, and the drainage pipe is connected with the water outlet.

Furthermore, a power supply and a microprocessor connected with the power supply are arranged in the floating ball, and the microprocessor is electrically connected with the water quality monitoring sensor, the vortex cleaning mechanism, the double-pump water inlet mechanism and the drainage mechanism respectively.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model has the advantages of simple structure and scientific and reasonable design, convenient to use solve the easy biological contamination of current water quality monitoring sensor and lead to detecting the unsafe technical problem of data with impurity jam, can regularly carry out one-to-one high pressure vortex formula to the sensor and wash, both guaranteed water quality monitoring data's stability and reliability, prolonged monitoring facilities life again.

The utility model discloses a jar is washd to floater and swirl, and the floater can float clear system whole on the surface of water of breeding because buoyancy, can also be isolated with inside and electrical equipment and water simultaneously. The utility model discloses in going into the vortex cleaning tank with aquaculture water pump, accomplish the real-time detection of each index of aquaculture water by the water quality monitoring sensor in the vortex cleaning tank, provide the breed reference for the raiser.

In natural waters, particularly aquaculture water, various metabolites such as microorganisms and excrement, phytoplankton and corpses, various garbage discharged into water and the like exist, and are inevitably accumulated in a vortex cleaning tank, so that biological mixed pollution and water inlet and outlet blockage on the surface of a sensor are caused, and finally, inaccurate or invalid monitoring data are caused. Therefore, the utility model discloses a swirl wiper mechanism not only can regularly carry out high pressure cleaning to wasing chamber and water quality monitoring sensor regularly at regular time, avoids piling up of jar interior dirt and water quality monitoring sensor sensing element's pollution, and water through swirl wiper mechanism spun is the swirl form, not only has great washing area, can also carry out one-to-one high pressure to water quality monitoring sensor's sensing element and wash. The utility model discloses still adopted the double pump mechanism of intaking, filtered impurity such as fish shrimp, weeds, branch before aquaculture water body gets into the vortex cleaning tank, can prolong monitoring facilities life, effectively reduce maintenance frequency and cost of maintenance. The water inlet mechanism is of a double-pump structure, so that the overwork damage caused by long-time operation of a single pump is avoided, and the integral use stability of the system is ensured.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Figure 2 is the utility model discloses swirl high pressure cleaner structure chart.

Fig. 3 is a connection structure diagram of the first-stage nozzle and the second-stage nozzle of the present invention.

Fig. 4 is a structure diagram of the primary sprinkler of the present invention.

Fig. 5 is a top view of the first-level showerhead of the present invention.

Fig. 6 is a top view of the second-stage nozzle of the present invention.

Fig. 7 is a structural diagram of the water filter of the utility model.

Fig. 8 is a sectional view of the water filter of the present invention.

Figure 9 is the utility model discloses vortex washs jar side view (installation swirl high pressure cleaning head one side).

Figure 10 is the side view of the vortex cleaning tank of the utility model (one side of the water quality monitoring sensor is installed).

Fig. 11 is a connection block diagram of each electrical device of the present invention.

Wherein, the names corresponding to the reference numbers are:

1-a floating ball, 2-a vortex cleaning tank, 3-a cleaning cavity, 4-a water quality monitoring sensor, 5-a water quality filter, 6-a filtering water outlet pipe, 7-a high-pressure diaphragm pump, 8-a cleaning water inlet pipe, 9-a pipe connector, 10-a nozzle connector, 11-a primary nozzle, 12-a secondary nozzle, 13-a cavity, 14-a first water inlet pipe, 15-a second water inlet pipe, 16-a first water pump, 17-a first filter screen, 18-a second water pump, 19-a second filter screen, 20-a water outlet pipe, 21-a nozzle mounting hole, 22-a water inlet, 23-a water inlet connector, 24-a U-shaped tee, 25-a flowmeter, 26-a water outlet, 27-a sensor mounting hole, 28-a power supply, 29-a microprocessor, 31-an inclined plane, 51-a filter element, 52-a first sleeve, 53-a second sleeve, 54-a sealing pipe cap, 55-a connector, 56-a rubber piece, 57-a water stop plate, 91-a first sealing ring, 111-an embedded ring groove, 112-a second sealing ring, 113-a water outlet hole, 114-a water guide groove and 121-a vortex water outlet hole.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings. It is to be understood that the disclosed embodiments are merely exemplary of the invention, and are not intended to limit the invention to the precise embodiments disclosed. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation, and thus, it should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; of course, mechanical connection and electrical connection are also possible; alternatively, they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

As shown in figures 1-11, the utility model provides a pair of vortex formula quality of water on-line monitoring sensor cleaning system solves the easy biological contamination of current water quality monitoring sensor and impurity jam and lead to the unsafe technical problem of data detection, can regularly carry out the high pressure vortex formula of one-to-one to the sensor and wash, has both guaranteed the stability and the reliability of water quality monitoring data, has prolonged monitoring facilities life again.

The utility model discloses a floater 1 and the vortex of locating in the floater 1 wash jar 2, are equipped with in the vortex washs jar 2 and wash chamber 3, and 2 lateral walls of vortex washing jar are installed the sensitive component end and are located the water quality monitoring sensor 4 that wash chamber 3, another lateral wall and are connected and water quality monitoring sensor 4 corresponding vortex wiper mechanism, diapire be connected with be used for the monitoring intake double pump intake mechanism, the back is connected and is used for monitoring the drainage mechanism of going out water. Simple structure and stable operation.

The utility model discloses whole system floats on the surface of water of breeding under the buoyancy effect through floater 1, is not only convenient for avoid the water proof of 1 inside each mechanism especially electrical equipment of floater, still does benefit to whole system in the operation that receive and releases of aquaculture water. The connection between the floating ball 1 and the vortex cleaning tank 2 can adopt a connection structure and a connection method in a patent applied by the applicant in the early period, and the patent application numbers are as follows: 201821213233.X, with a patent name: an on-line monitoring device for water quality of aquaculture. Therefore, the connection between the float ball and the vortex cleaning tank and the like will not be described in detail herein.

The utility model discloses swirl wiper mechanism includes water filter 5, the filtration that connects out from 5 filter chambers of water filter crosses water pipe 6, with cross high pressure diaphragm pump 7 that water pipe 6 is connected and the swirl high pressure cleaning head that is connected with high pressure diaphragm pump 7 of filtration. The utility model discloses adopt aquaculture body as wasing water on the spot, aquaculture body is through the filtration back of water quality filter 5, goes into swirl high-pressure cleaning head through 7 pump pumps of high-pressure diaphragm pump, is used for wasing the washing of chamber 3 and water quality monitoring sensor 4 at last. The vortex high-pressure cleaning head comprises at least one cleaning water inlet pipe 8 connected with a water outlet pipe of the high-pressure diaphragm pump 7, a pipeline connector 9 embedded at the end part of the cleaning water inlet pipe 8, a spray head connector 10 in threaded connection with the pipeline connector 9, a first-stage spray head 11 arranged on the spray head connector 10 and a second-stage spray head 12 in threaded connection with the first-stage spray head 11, a spray head mounting hole 21 is formed in the side wall of the vortex cleaning tank 2, and the second-stage spray head 12 is mounted in the spray head mounting hole 21. A circle of water outlet holes 113 are annularly formed in the head of the primary spray head 11, a plurality of water chutes 114 are formed in the top surface of the primary spray head 11, and the water chutes 114 are parallel to a circular tangent line of the top surface of the primary spray head 11; a cavity 13 for generating vortex is arranged between the secondary spray head 12 and the primary spray head 11, and a vortex water outlet hole 121 communicated with the cleaning cavity 3 is formed in the top surface of the secondary spray head 12.

The utility model discloses wash water and get into cavity 13 between one-level nozzle 11 and the secondary nozzle 12 after deriving by the round apopore 113 of one-level nozzle 11, begin to shunt when reacing with rivers direction vertically guiding gutter 114, and guiding gutter 114 parallels with the 11 top surface circle tangent lines of one-level nozzle and forms helical structure, and the water forms the high-pressure cleaning water that each water conservancy diversion water of this moment concentrates and forms vortex form, gets into by the vortex apopore of secondary nozzle 12 and washs chamber 3. The size of the chamber 13 can be adjusted by the secondary spray head 12 and the primary spray head 11 through threads, and the water spraying amount and the vortex intensity can be further adjusted. The high-pressure diaphragm pump 7 can be connected with a plurality of vortex high-pressure cleaning heads, the water outlet pipe of the high-pressure diaphragm pump 7 is connected with a plurality of cleaning water inlet pipes 8 through connectors such as a tee joint or a cross joint, and each cleaning water inlet pipe 8 is provided with a first-stage spray head 11 and a second-stage spray head 12. The outer wall of the pipeline connector 9 is provided with a first sealing ring 91 which is in sealing connection with the nozzle connector 10, the outer wall of the primary nozzle 11 is provided with an embedded ring groove 111, and a second sealing ring 112 which is in sealing fit with the inner wall of the secondary nozzle 12 is arranged in the embedded ring groove 111.

The utility model discloses 2 lateral walls of vortex cleaning tank offer with wash the sensor mounting hole 27 that chamber 3 is linked together, and water quality monitoring sensor 4 installs in sensor mounting hole 27, and water quality monitoring sensor 4 has two at least, including dissolved oxygen sensor 41 and pH sensor 42. The water quality monitoring sensor 4 may also include, but is not limited to, other water quality monitoring index sensors such as a turbidity sensor, a salinity sensor, an ORP sensor, or a chlorophyll sensor. The number and the installation height of the sensor installation holes 27 are consistent with those of the nozzle installation holes 21, namely, a vortex high-pressure cleaning head is arranged at the opposite position of each water quality monitoring sensor 4 and used for cleaning a pair of positioning parts.

The utility model discloses water quality filter 5 includes water quality filter 5 and includes filter core 51, respectively the suit in first sleeve 52 and the second sleeve 53 of filter core 51 both ends, locate the outer sealed pipe cap 54 of first sleeve 52 and locate the outer connector 55 of second sleeve 53, filter core 51's filter chamber inlays and is equipped with rubber spare 56, crosses filter outlet pipe 6 and passes connector 55, rubber spare 56 in proper order and stretches into to filter core 51's filter chamber, and filter core 51 top surface is equipped with water-stop sheet 57. When the high-pressure diaphragm pump 7 starts, negative pressure can be formed in the filter cavity of the filter element 51, the aquaculture water body can be filtered and infiltrated from the outside of the filter element 51 to obtain cleaning water for removing impurities and the filter cavity, the high-pressure diaphragm pump 7 extracts the cleaning water to remotely clean the water quality monitoring sensor 4 when needed, frequent manual maintenance is avoided, and more stable and more reliable real-time online monitoring data is provided for production and life. Because the filter element 51 is of a cylindrical structure, in order to ensure that filtered water can be stored, the bottom of the filter element is provided with a sealing pipe cap 54, the top of the filter element is provided with a connector 55, and the top of the filter cavity is provided with a rubber part 56, so that the filter cavity forms a relatively sealed cavity. The first sleeve 52 and the second sleeve 53 ensure the connection stability of the sealing cap 54 and the connector 55. Since the required amount of the filtering cleaning water is not large and is not used continuously, the filter element 51 is preferably made of PP polypropylene filter cotton with the length of 250 mm, the inner diameter of 29 mm, the outer diameter of 58 mm and the filter pore diameter of 1 micron, water with the diameter of about 0.4 nm can easily pass through the filter pores with the diameter of 1 micron, the first sleeve 52, the second sleeve 53 and the sealing pipe cap 54 are all preferably made of PVC63, the connector 55 is made of PVC63 to 32 pipes, and the water-stop plate 57 is made of PVC plate.

The utility model discloses double pump mechanism of intaking is equipped with first water pump 16 on the first inlet tube 14 including first inlet tube 14 and the second inlet tube 15 that is connected with vortex cleaning tank 2 respectively, and first water pump 16 is connected with first filter screen 17, is equipped with second water pump 18 on the second inlet tube 15, and second water pump 18 is connected with second filter screen 19. Because the water monitoring of water body aquaculture is incessant continuous monitoring, and used water pump is high strength and long-time operation, very easily causes the damage of water pump, the utility model discloses a double pump structure can avoid the excessive damage of single pump operation, and first water pump 16 and second water pump 18 can alternate operation, have improved the life and the operating stability of system. First inlet tube 14 and second inlet tube 15 are copper pipe, with this substitution traditional plastic tubing, and first water pump 16 and second water pump 18 are a word brass water pump, with this substitution traditional cross plastics water pump, in addition, the utility model discloses used vortex washs jar 2 and washs chamber 3 and also all adopts copper or copper alloy to make, and copper alloy have the function of disinfecting, insecticidal, killing algae, can delay biological pollution to a great extent. The utility model discloses 2 bottoms of vortex cleaning tank offer with wash the water inlet 22 that chamber 3 is linked together, water inlet 22 is equipped with water inlet connector 23, and water inlet connector 23 is connected with first inlet tube 14 and second inlet tube 15 respectively through U type tee bend 24. The dissolved oxygen sensor 41 is located right below the pH sensor 42 and is vertically opposite to the water inlet 22.

The utility model discloses used first filter screen 17 and second filter screen 19 can effective filtration prevent the particle diameter for particulate matter more than 1mm, avoid the particulate matter to harm water quality monitoring sensor 4, influence monitoring data. The first filter 17 and the second filter 19 are identical in structure, and can adopt the structure in a patent applied by the applicant in the earlier period, and the patent application numbers are as follows: 201922223980.2, patent names: an on-line cleaning device for a water quality monitoring sensor. Therefore, the specific structure, filtering principle, etc. of the first filter 17 and the second filter 19 are not described in detail herein.

The utility model discloses wash chamber 3 and remove the lateral wall of installation water quality monitoring sensor 4 and be the arc wall for plane wall, all the other lateral walls to be equipped with inclined plane 31 between plane wall and the arc wall, water inlet 22 is seted up on inclined plane 31, and inclined plane 31 inclination is 45-60. The arc wall has not only avoided wasing the dead angle, still is favorable to monitoring water simultaneously and washs water along arc wall swirl and washes, has reduced high-pressure loss, has greatly improved the cleaning efficiency.

The utility model discloses drainage mechanism includes drain pipe 20 and locates flowmeter 25 on the drain pipe 20, and the delivery port 26 that is linked together with washing chamber 3 is seted up at 2 backs of vortex cleaning tank, and drain pipe 20 is connected with delivery port 26. The utility model discloses online monitoring function can be exerted on the one hand to double pump mechanism of intaking, distinctive washing chamber 3 and drainage mechanism, and the water pump of will growing is gone into in washing chamber 3 and is accomplished the real-time on-line monitoring of relevant index through water quality monitoring sensor 4, and on the other hand can exert swirl cleaning effect, avoids each impurity at the inside deposit in washing chamber 3. The water inlet 22 is the lowest point of the cleaning cavity 3, when the first water pump 16 or the second water pump 18 stops working, the water in the cleaning cavity 3 is quickly and reversely emptied through the water inlet pipe, the water pump and the filter screen, when the water pump is turned on, the inlet water can be sprayed to the water quality monitoring sensor 4 at an oblique angle of 45-60 degrees at the water inlet 22, a vortex rotating clockwise at a high speed is generated along the inner wall of the cleaning cavity 3, the inlet water is horizontally discharged from the water outlet 26 at the center of the vortex, namely the center of the cleaning cavity 3, as far as possible, the rotating surface is parallel to the gravity line of the earth and forms a right angle of 90 degrees with the horizontal drainage, and thus, the vortex is generated, and the surrounding water and other impurities are promoted to converge to the center to be quickly discharged.

The utility model discloses be equipped with power 28 in the floater 1 and the microprocessor 29 that is connected with power 28, microprocessor 29 respectively with water quality monitoring sensor 4, swirl wiper mechanism, the double pump mechanism of intaking and drainage mechanism electric connection, specifically be microprocessor 29 respectively with dissolved oxygen sensor 41, pH sensor 42, high-pressure diaphragm pump 7, first water pump 16, second water pump 18 and flowmeter 25 electric connection. The microprocessor 29 controls the opening and closing and the working frequency of the high-pressure diaphragm pump 7, the first water pump 16 or the second water pump 18, the high-pressure diaphragm pump 7 and the first water pump 16 or the second water pump 18 are opened at intervals to achieve accurate monitoring and effective cleaning, meanwhile, the flow meter 25 is used for monitoring the water outlet flow and feeding the water outlet flow back to the microprocessor 29, and when the microprocessor 29 receives abnormal information, the water flow is too small, the high-pressure diaphragm pump 7 and the first water pump 16 or the second water pump 18 are controlled to stop running, and idling of the high-pressure diaphragm pump 7 and the first water pump 16 or the second water pump 18 is avoided. The microprocessor 29 employs STM32F103V 8.

The utility model discloses used high-pressure diaphragm pump 7, a word brass water pump, dissolved oxygen sensor 41, pH sensor 42, power 28 and flowmeter 25 are current known electrical equipment to all can directly purchase the use on the market, its structure, circuit and control principle are current known technology, consequently, do not redundantly describe here about high-pressure diaphragm pump 7, a word brass water pump, dissolved oxygen sensor 41, pH sensor 42, power 28 and flowmeter 25 structure, circuit and control principle.

The utility model discloses the technique need be in the aquatic environment that uses the sensor except being applied to aquaculture trade, technical field such as environmental protection monitoring, weather forecast and agricultural production can both be suitable for.

Finally, it should be noted that: the above embodiments are only preferred embodiments of the present invention to illustrate the technical solutions of the present invention, but not to limit the technical solutions, and certainly not to limit the scope of the present invention; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention; that is, the technical problems solved by the present invention are still consistent with the present invention, and all the modifications or colors made in the spirit and the idea of the main design of the present invention are included in the protection scope of the present invention; in addition, will the technical scheme of the utility model direct or indirect application is in other relevant technical field, all including on the same reason the utility model discloses an in the patent protection scope.

Claims (10)

1. A vortex type water quality on-line monitoring sensor cleaning system is characterized in that: include floater (1) and locate vortex washing jar (2) in floater (1), be equipped with in the vortex washing jar (2) and wash chamber (3), a vortex washs jar (2) one side wall and installs water quality monitoring sensor (4) that the sensing element end is located washing chamber (3), another lateral wall is connected with the vortex wiper mechanism corresponding with water quality monitoring sensor (4), the diapire is connected with the double pump mechanism of intaking that is used for the monitoring to intake, the drainage mechanism that is used for monitoring out water is connected at the back.

2. The cleaning system of the vortex type water quality online monitoring sensor as claimed in claim 1, wherein: the vortex cleaning mechanism comprises a water quality filter (5), a filtering outlet pipe (6) connected from a filter cavity of the water quality filter (5), a high-pressure diaphragm pump (7) connected with the filtering outlet pipe (6), and a vortex high-pressure cleaning head connected with the high-pressure diaphragm pump (7).

3. The cleaning system of the vortex type water quality online monitoring sensor as claimed in claim 2, wherein: the vortex high-pressure cleaning head comprises at least one cleaning water inlet pipe (8) connected with a water outlet pipe of the high-pressure diaphragm pump (7), a pipeline connector (9) embedded at the end part of the cleaning water inlet pipe (8), a spray head connector (10) in threaded connection with the pipeline connector (9), a first-stage spray head (11) arranged on the spray head connector (10) and a second-stage spray head (12) in threaded connection with the first-stage spray head (11), a spray head mounting hole (21) is formed in the side wall of the vortex cleaning tank (2), and the second-stage spray head (12) is mounted in the spray head mounting hole (21).

4. The vortex type cleaning system for the water quality online monitoring sensor, according to claim 3, is characterized in that: a circle of water outlet holes (113) are formed in the head of the primary spray head (11) in the circumferential direction, a plurality of water guide grooves (114) are formed in the top surface of the primary spray head (11), and the water guide grooves (114) are parallel to the circular tangent line of the top surface of the primary spray head (11); a chamber (13) for generating vortex is arranged between the secondary spray head (12) and the primary spray head (11), and a vortex water outlet hole (121) communicated with the cleaning cavity (3) is formed in the top surface of the secondary spray head (12);

the outer wall of the pipeline connector (9) is provided with a first sealing ring (91) which is in sealing connection with the spray head connector (10), the outer wall of the primary spray head (11) is provided with an embedded ring groove (111), and a second sealing ring (112) which is in sealing fit with the inner wall of the secondary spray head (12) is arranged in the embedded ring groove (111).

5. The vortex type cleaning system for the water quality online monitoring sensor, according to claim 3, is characterized in that: the sensor mounting hole (27) that are linked together with washing chamber (3) are seted up to vortex washing jar (2) lateral wall, and water quality monitoring sensor (4) are installed in sensor mounting hole (27), and water quality monitoring sensor (4) have two at least, including dissolved oxygen sensor (41) and pH sensor (42), and the quantity and the mounting height of sensor mounting hole (27) all are unanimous with shower nozzle mounting hole (21).

6. The vortex type cleaning system for the water quality online monitoring sensor, according to claim 2, is characterized in that: the water quality filter (5) comprises a filter element (51), a first sleeve (52) and a second sleeve (53) which are respectively sleeved at two ends of the filter element (51), a sealing pipe cap (54) arranged outside the first sleeve (52), and a connector (55) arranged outside the second sleeve (53), wherein a rubber part (56) is embedded in a filter cavity of the filter element (51), a filtered water pipe (6) sequentially penetrates through the connector (55) and the rubber part (56) and extends into the filter cavity of the filter element (51), and a water stop plate (57) is arranged on the top surface of the filter element (51).

7. The cleaning system of the vortex type water quality online monitoring sensor as claimed in claim 1, wherein: the double-pump water inlet mechanism comprises a first water inlet pipe (14) and a second water inlet pipe (15) which are respectively connected with the vortex cleaning tank (2), a first water pump (16) is arranged on the first water inlet pipe (14), the first water pump (16) is connected with a first filter screen (17), a second water pump (18) is arranged on the second water inlet pipe (15), the second water pump (18) is connected with a second filter screen (19), the first water inlet pipe (14) and the second water inlet pipe (15) are made of copper tubes, and the first water pump (16) and the second water pump (18) are made of brass materials;

the bottom of the vortex cleaning tank (2) is provided with a water inlet (22) communicated with the cleaning cavity (3), the water inlet (22) is provided with a water inlet connector (23), and the water inlet connector (23) is respectively connected with the first water inlet pipe (14) and the second water inlet pipe (15) through a U-shaped tee joint (24).

8. The cleaning system of the vortex type water quality on-line monitoring sensor according to claim 7, characterized in that: the side wall of the cleaning cavity (3) for installing the water quality monitoring sensor (4) is a plane wall, the rest side walls of the cleaning cavity (3) are arc-shaped walls, an inclined plane (31) is arranged between the plane wall and the arc-shaped walls, the water inlet (22) is arranged on the inclined plane (31), and the inclined angle of the inclined plane (31) is 45-60 degrees.

9. The vortex type cleaning system for the water quality online monitoring sensor, according to claim 1, is characterized in that: the drainage mechanism comprises a drainage pipe (20) and a flowmeter (25) arranged on the drainage pipe (20), the back of the vortex cleaning tank (2) is provided with a water outlet (26) communicated with the cleaning cavity (3), and the drainage pipe (20) is connected with the water outlet (26).

10. The cleaning system of the vortex type water quality online monitoring sensor as claimed in claim 1, wherein: the floating ball (1) is internally provided with a power supply (28) and a microprocessor (29) connected with the power supply (28), and the microprocessor (29) is respectively electrically connected with the water quality monitoring sensor (4), the vortex cleaning mechanism, the double-pump water inlet mechanism and the drainage mechanism.

Images