CN107807214A - A kind of river water quality supervising device - Google Patents

A kind of river water quality supervising device Download PDF

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Publication number
CN107807214A
CN107807214A CN201711067590.XA CN201711067590A CN107807214A CN 107807214 A CN107807214 A CN 107807214A CN 201711067590 A CN201711067590 A CN 201711067590A CN 107807214 A CN107807214 A CN 107807214A
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CN
China
Prior art keywords
water
water quality
sump
floating platform
supervising device
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Application number
CN201711067590.XA
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Chinese (zh)
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CN107807214B (en
Inventor
胡勇
刘金杰
赵春城
吴敏芳
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Shanxi Lidejia Detection Technology Co ltd
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Wuxi Xresearch Product Design and Research Co Ltd
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Publication of CN107807214A publication Critical patent/CN107807214A/en
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N33/00Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
    • G01N33/18Water

Abstract

The invention discloses a kind of river water quality supervising device, including floating platform, the floating platform side is provided with support body, the support body upper end is provided with wireless launcher, surrounding is respectively equipped with cross tube and sheer pole in the middle part of the support body, solar panel is provided between the cross tube and sheer pole, the floating platform is provided with gas-tight silo.Beneficial effect:By setting harvester, motor work drives traveller to stretch into inside water body, entered so as to allow water pump to start to draw water in sump, water quality sensor is detected, then computer terminal is issued by wireless launcher to be analyzed, then the water in sump is released sump by controller control magnetic valve, it greatly reducing the time that water quality sensor contacts with natural water area, and, traveller also greatly shortens with the time that the second water pipe contacts with natural water area, add the use service life of whole device, and, greatly add the authenticity and accuracy of water quality sensor detection data.

Description

A kind of river water quality supervising device
Technical field
The present invention relates to environment monitoring field, it particularly relates to a kind of river water quality supervising device.
Background technology
Villages and small towns river course basin pollution sources mainly based on sanitary sewage, water quality with resident's productive life, Changes in weather and Dynamic change at any time, its blowdown feature is mainly small-scale, random, sudden, mobility and the features such as diffusivity, long-term prison Control is particularly important, and existing technology is mainly distributed monitoring net, matches somebody with somebody water quality monitoring apparatus, water quality prison in major river water area Control device is mostly put into natural water area by water quality sensor, is monitored, then the data of detection by being wirelessly transmitted to Computer terminal.But because water quality sensor immerses under water for a long time, fouling product, algae, microorganism etc. can be surveyed to sensor Fixed accuracy has an impact.
The problem of in correlation technique, effective solution is not yet proposed at present.
The content of the invention
The problem of in correlation technique, the present invention proposes a kind of river water quality supervising device, to overcome existing related skill Above-mentioned technical problem present in art.
The technical proposal of the invention is realized in this way:
A kind of river water quality supervising device, including floating platform, the floating platform side are provided with support body, and the support body upper end is provided with wireless hair Emitter, support body middle part surrounding are respectively equipped with cross tube and sheer pole, solar energy are provided between the cross tube and sheer pole Power generation plate, the floating platform are provided with gas-tight silo, the sealing ring of one week are provided with outside the gas-tight silo, the gas-tight silo passes through described Sealing ring is fixedly connected with the floating platform, and the gas-tight silo is sequentially provided with power supply, wireless senser, water pump, sump and water sample and adopted Acquisition means, the harvester include fixed plate, and the fixed plate internal activity is provided with rotating disk, and the rotating disk middle part, which is provided with, to be connected Bar, the rotating disk are connected by the output end of connecting rod and motor, and the side of the rotating disk away from the connecting rod is provided with the first bumping post, The fixed plate is provided with movable axis, and the fixed plate is movably equipped with connecting plate by the movable axis, divided on the connecting plate The first opening and the second opening are not provided with, are provided with first bumping post in first opening, the fixed plate side is provided with cunning Groove, the chute most recess are provided with groove, and the first water pipe, the input of first water pipe and the water pump are provided with the groove End is connected, and first water pipe, which is located in the groove, is provided with pressure sensor, and traveller, the traveller are provided with the chute Interior to be provided with water channel and the second water pipe, second water pipe is vertically connected at the water channel, and the traveller side is provided with the second bumping post, Second bumping post is in the described second opening, and the output end of the water pump is connected by the 3rd water pipe with the sump, institute State and be provided with water quality sensor inside sump, the sump side is provided with outlet pipe, and the outlet pipe is provided with magnetic valve, the nothing Line transmitter, water quality sensor, water pump, motor, pressure sensor and magnetic valve with the controller be electrically connected with, it is described too It is positive can power generation plate, wireless launcher, water quality sensor, water pump, motor, pressure sensor, magnetic valve and controller and power supply It is electrically connected with.
Further, the floating platform lower end is provided with some connection ends, and the connection end is provided with some connection ropes.
Further, the solar panel and the angle of vertical direction are 45 °.
Further, the support body upper end is provided with flat transverse slat, and the wireless launcher is located on the balance plate.
Further, some balance weights are provided with inside the gas-tight silo.
Further, the pressure sensor is provided with sealing gasket close to the side of second water pipe.
Further, the controller is AT80C51 controllers, and the magnetic valve is 2W025-06 Unidirectional solenoid valves.
Beneficial effects of the present invention:By setting harvester so that when sampling is needed, motor work, which drives, to be slided Post is stretched into inside water body, and pressure sensor passes to controller information, is entered so as to allow water pump to start to draw water in sump, water quality Sensor is detected, and at this moment motor turns round, and allows traveller to rise to original position, then issues computer by wireless launcher Terminal is analyzed, and then the water in sump is released sump by controller control magnetic valve, greatly reducing water quality sensor The time contacted with natural water area, also, traveller also greatly shortens with the time that the second water pipe contacts with natural water area, increase The use service life of whole device, also, greatly add the authenticity and accuracy of water quality sensor detection data.
Brief description of the drawings
In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to institute in embodiment The accompanying drawing needed to use is briefly described, it should be apparent that, drawings in the following description are only some implementations of the present invention Example, for those of ordinary skill in the art, on the premise of not paying creative work, can also be obtained according to these accompanying drawings Obtain other accompanying drawings.
Fig. 1 is the structural representation of river water quality supervising device according to embodiments of the present invention;
Fig. 2 is the enlarged drawing at A in Fig. 1;
Fig. 3 is the enlarged drawing at B in Fig. 1;
Fig. 4 is the structural representation of the first water pipe of river water quality supervising device according to embodiments of the present invention;
Fig. 5 is the structural representation of the sliding block of river water quality supervising device according to embodiments of the present invention;
Fig. 6 is the sectional view of the fixed block of river water quality supervising device according to embodiments of the present invention.
In figure:
1st, floating platform;2nd, support body;3rd, wireless launcher;4th, cross tube;5th, sheer pole;6th, solar panel;7th, gas-tight silo;8th, it is close Seal;9th, water quality sensor;10th, power supply;11st, wireless senser;12nd, water pump;13rd, sump;14th, water sample acquisition device;15th, it is solid Fixed board;16th, rotating disk;17th, connecting rod;18th, motor;19th, the first bumping post;20th, movable axis;21st, connecting plate;22nd, the first opening;23、 Second opening;24th, chute;25th, groove;26th, the first water pipe;27th, pressure sensor;28th, traveller;29th, water channel;30th, the second water Pipe;31st, the second bumping post;32nd, the 3rd water pipe;33rd, outlet pipe;34th, magnetic valve;35th, controller;36th, connection end;37th, flat transverse slat; 38th, balance weight.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, rather than whole embodiments.It is based on Embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained, belong to what the present invention protected Scope.
According to an embodiment of the invention, there is provided a kind of river water quality supervising device.
As shown in figures 1 to 6, a kind of river water quality supervising device according to embodiments of the present invention, including floating platform 1, the floating platform 1 side is provided with support body 2, and the upper end of support body 2 is provided with wireless launcher 3, and the middle part surrounding of support body 2 is respectively equipped with cross tube 4 With sheer pole 5, solar panel 6 is provided between the cross tube 4 and sheer pole 5, the floating platform 1 is provided with gas-tight silo 7, institute The sealing ring 8 that the outside of gas-tight silo 7 is provided with one week is stated, the gas-tight silo 7 is fixedly connected by the sealing ring 8 with the floating platform 1, The gas-tight silo 7 is sequentially provided with power supply 10, wireless senser 11, controller 35, water pump 12, sump 13 and water sample acquisition device 14, the water sample acquisition device 14 includes fixed plate 15, and the internal activity of fixed plate 15 is provided with rotating disk 16, in the rotating disk 16 Portion is provided with connecting rod 17, and the rotating disk 16 is connected by connecting rod 17 with the output end of motor 18, and the rotating disk 16 is away from the connecting rod 17 side is provided with the first bumping post 19, and the fixed plate 15 is provided with movable axis 20, and the fixed plate 15 passes through the movable axis 20 are movably equipped with connecting plate 21, and the first opening 22 and the second opening 23, first opening are had on the connecting plate 21 First bumping post 19 is provided with 22, the side of fixed plate 15 is provided with chute 24, and the most recess of chute 24 is provided with groove 25, The first water pipe 26 is provided with the groove 25, first water pipe 26 is connected with the input of the water pump 12, and described first Water pipe 26, which is located in the groove 25, is provided with pressure sensor 27, is provided with traveller 28 in the chute 24, is set in the traveller 28 There is a water pipe 30 of water channel 29 and second, second water pipe 30 is vertically connected at the water channel 29, and the side of traveller 28 is provided with the Two bumping posts 31, for second bumping post 31 in the described second opening 23, the output end of the water pump 12 passes through the 3rd water pipe 32 It is connected with the sump 13, the inside of sump 13 is provided with water quality sensor 9, and the side of sump 13 is provided with outlet pipe 33, institute State outlet pipe 33 and be provided with magnetic valve 34, the wireless launcher 3, water quality sensor 9, water pump 12, motor 18, pressure sensor 27 and magnetic valve 34 be electrically connected with the controller 35, the solar panel 6, wireless launcher 3, water quality sensor 9th, water pump 12, motor 18, pressure sensor 27, magnetic valve 34 and controller 35 are electrically connected with power supply 10.
, can be by setting water sample acquisition device 14 by the such scheme of the present invention so that when sampling is needed, The work of motor 18 drives traveller 28 to stretch into inside water body, and pressure sensor 27 passes to the information of controller 35, so as to allow water pump 12 Start to draw water and enter in sump 13, water quality sensor 9 is detected, and at this moment motor 18 turns round, and allows traveller 28 to rise to originally Position, computer terminal is then issued by wireless launcher 3 and analyzed, then controller 35 control magnetic valve 34 sump Water in 13 releases sump 13, greatly reducing the time that water quality sensor 9 contacts with natural water area, also, traveller 28 and The time that second water pipe 30 contacts with natural water area also greatly shortens, and adds the use service life of whole device, also, Greatly add the authenticity and accuracy of water quality sensor detection data.
In addition, in one embodiment, for the floating platform 1, the lower end of floating platform 1 is provided with some connection ends 36, The connection end 36 is provided with connection rope.Using the program so that floating platform 1 will not drift with current, so as to allow the energy of floating platform 1 It is fixed on one place monitoring.
In addition, in one embodiment, for solar panel 6, the solar panel 6 and vertical direction Angle be 45 °.Using the program so that solar panel 6 can maximumlly contact sunshine, so as to the efficiency to generate electricity It is best.
In addition, in one embodiment, for support body 2, the upper end of support body 2 is provided with flat transverse slat 37, described wireless Transmitter 3 is located on the balance plate 37.Using the program so that floating platform 1 swims in the water surface plus what support body 2 can be stablized On.
In addition, in one embodiment, for gas-tight silo 7, the inside of gas-tight silo 7 is provided with some balance weights 38. Using the program, the stability of floating platform is greatly added.
In addition, in one embodiment, for pressure sensor 27, the pressure sensor 27 is close to described The side of two water pipes 30 is provided with sealing gasket.Using the program so that pressure sensor 27 will not be because of carrying on the second water pipe 30 Water droplet so as to damage pressure sensor 27, add the service life of pressure sensor 27.
In addition, in one embodiment, for controller 35, the controller 35 is AT80C51 controllers, described Magnetic valve 34 is 2W025-06 Unidirectional solenoid valves.Using the program so that the water outside gas-tight silo 7 will not be entered by outlet pipe 33 Enter sump 13.
In summary, by means of the above-mentioned technical proposal of the present invention, by setting water sample acquisition device 14 so that needing When sampling, the work of motor 18 drives traveller 28 to stretch into inside water body, and pressure sensor 27 passes to the information of controller 35, from And allowing water pump 12 to start to draw water and enter in sump 13, water quality sensor 9 is detected, and at this moment motor 18 turns round, and allows traveller 28 Original position is risen to, computer terminal is then issued by wireless launcher 3 and analyzed, then controller 35 controls electromagnetism Water in sump 13 is released sump 13 by valve 34, greatly reducing the time that water quality sensor 9 contacts with natural water area, and And traveller 28 also greatly shortens with the time that the second water pipe 30 contacts with natural water area, adding the use of whole device makes With the life-span, also, greatly add the authenticity and accuracy of water quality sensor detection data.
The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention God any modification, equivalent substitution and improvements made etc., should be included in the scope of the protection with principle.

Claims (7)

1. a kind of river water quality supervising device, it is characterised in that including floating platform(1), the floating platform(1)Side is provided with support body(2), The support body(2)Upper end is provided with wireless launcher(3), the support body(2)Middle part surrounding is respectively equipped with cross tube(4)And sheer pole (5), the cross tube(4)With sheer pole(5)Between be provided with solar panel(6), the floating platform(1)It is provided with gas-tight silo (7), the gas-tight silo(7)Outside is provided with the sealing ring of one week(8), the gas-tight silo(7)Pass through the sealing ring(8)With it is described Floating platform(1)It is fixedly connected, the gas-tight silo(7)It is sequentially provided with power supply(10), wireless senser(11), controller(35), water pump (12), sump(13)And water sample acquisition device(14), the water sample acquisition device(14)Including fixed plate(15), the fixed plate (15)Internal activity is provided with rotating disk(16), the rotating disk(16)Middle part is provided with connecting rod(17), the rotating disk(16)Pass through connecting rod (17)With motor(18)Output end connection, the rotating disk(16)Away from the connecting rod(17)Side be provided with the first bumping post (19), the fixed plate(15)It is provided with movable axis(20), the fixed plate(15)Pass through the movable axis(20)It is movably equipped with Connecting plate(21), the connecting plate(21)On have the first opening(22)With the second opening(23), first opening (22)It is interior to be provided with first bumping post(19), the fixed plate(15)Side is provided with chute(24), the chute(24)Most recess Provided with groove(25), the groove(25)Inside it is provided with the first water pipe(26), first water pipe(26)With the water pump(12)'s Input is connected, first water pipe(26)Positioned at the groove(25)It is interior to be provided with pressure sensor(27), the chute (24)It is interior to be provided with traveller(28), the traveller(28)It is interior to be provided with water channel(29)With the second water pipe(30), second water pipe(30) It is vertically connected at the water channel(29), the traveller(28)Side is provided with the second bumping post(31), second bumping post(31)It is located at Second opening(23)It is interior, the water pump(12)Output end pass through the 3rd water pipe(32)With the sump(13)Connection, institute State sump(13)Inside is provided with water quality sensor(9), the sump(13)Side is provided with outlet pipe(33), the outlet pipe(33) It is provided with magnetic valve(34), the wireless launcher(3), water quality sensor(9), water pump(12), motor(18), pressure sensor (27)And magnetic valve(34)With the controller(35)It is electrically connected with, the solar panel(6), wireless launcher(3)、 Water quality sensor(9), water pump(12), motor(18), pressure sensor(27), magnetic valve(34)And controller(35)And power supply (10)It is electrically connected with.
2. river water quality supervising device according to claim 1, it is characterised in that the floating platform(1)Lower end is provided with some Connection end(36), the connection end(36)It is provided with connection rope.
3. river water quality supervising device according to claim 1, it is characterised in that the solar panel(6)With hanging down Nogata to angle be 45 °.
4. river water quality supervising device according to claim 1, it is characterised in that the support body(2)Upper end is provided with flat horizontal stroke Plate(37), the wireless launcher(3)It is located at the balance plate(37)On.
5. river water quality supervising device according to claim 1, it is characterised in that the gas-tight silo(7)If inside is provided with Dry balance weight(38).
6. river water quality supervising device according to claim 1, it is characterised in that the pressure sensor(27)Close to institute State the second water pipe(30)Side be provided with sealing gasket.
7. river water quality supervising device according to claim 1, it is characterised in that the controller(35)For AT80C51 Controller, the magnetic valve(34)For 2W025-06 Unidirectional solenoid valves.
CN201711067590.XA 2017-11-03 2017-11-03 River course water quality monitoring device Active CN107807214B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201711067590.XA CN107807214B (en) 2017-11-03 2017-11-03 River course water quality monitoring device

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Application Number Priority Date Filing Date Title
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CN107807214B CN107807214B (en) 2020-06-23

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Cited By (2)

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Publication number Priority date Publication date Assignee Title
CN109178229A (en) * 2018-10-15 2019-01-11 厦门理工学院 The marine floating type platform structure and its detection method for having water sample detection function
CN113277049A (en) * 2021-06-25 2021-08-20 贵州大学明德学院 Multifunctional bionic robot fish for water quality monitoring

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CN113277049A (en) * 2021-06-25 2021-08-20 贵州大学明德学院 Multifunctional bionic robot fish for water quality monitoring

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