CN209198149U - A kind of Intelligent watercourse pollution sources retrospect monitoring device - Google Patents

Abstract

The utility model relates to water pollution detection technique fields, monitoring device is traced more particularly to a kind of Intelligent watercourse pollution sources, including hull and main control chip, hull bottom offers groove from bottom to top, groove top surface is fixedly connected with telescopic rod, groove top surface is fixedly connected with the first escape pipe, telescopic rod and the first escape pipe bottom end are fixedly connected with sampling tank jointly, the opening communicated with the first escape pipe is offered at the top of sampling tank, Open Side Down is communicated with air intake duct, sampling tank is circumferentially fixed to be communicated with multiple water inlet pipes, and the water inlet of water inlet pipe extends to below sampling tank, first escape pipe is communicated with the second escape pipe to the interior storehouse of hull, second escape pipe middle position is equipped with getter device, the fan blade of getter device is driven by motor.The utility model cooperates getter device to use by extending to the water inlet pipe below sampling tank in the connection of sampling tank outer wall, avoids water sample from splashing out, it is ensured that the accuracy of testing result.

Description

A kind of Intelligent watercourse pollution sources retrospect monitoring device

Technical field

The utility model relates to water pollution detection technique field, in particular to a kind of Intelligent watercourse pollution sources retrospect monitoring is set It is standby.

Background technique

In monitoring water environment field, true, accurate and complete water monitoring data is obtained, it is necessary first to which acquisition has generation The water sample of table.When carrying out water sampling for surface water bodies such as river, lake, reservoir, immediate offshore areas, not only need to adopt Collect the water quality sample of bank sampled point, it is also necessary to acquire the water sample far from bank sampled point.Usual water sample is manually adopted Needing sample collector to take ship during collection goes sampled point to complete acquisition.Manual operation is relatively close from the water surface and climate, water flow Etc. conditions influence, danger coefficient is big；Need to consume personnel's working hour, there are ships to use and the expenses such as fuels and energy, manpower and material resources Consumption is big；Complicated for operation, the unitary sampling time is long, and time-consuming between different sampled points, influences water sample analysis timeliness；Personnel behaviour Because habit difference will lead to the difference of sample acquisition quality in work, it is unfavorable for water analysis and comparison；When sampled point is in narrow Or the depth of water not enough equal extreme terrains when, ordinary ships and personnel are difficult to reach and complete to sample.

Unmanned boat is sampled automatically applied to water quality can substantially reduce staff's danger coefficient, reduce cost, promoted Water quality sampling efficiency and detection timeliness avoid influence of the manual operation to sampling quality, and it is with mobility strong, continuation of the journey Strong, the compact-sized advantage of ability, can reach the sampled point at extreme terrain.

But the water quality sampling of the prior art is acquired using motor decentralization sampling tank, this acquisition method When will cause sampling tank and withdraw upwards, water sample can be easy to splash out, and influence the water quality finally detected as a result, making result not It is enough accurate.

Utility model content

The technical issues of solution

For disadvantages mentioned above present in the prior art, the utility model provides a kind of Intelligent watercourse pollution sources retrospect prison Measurement equipment, the water quality sampling that can efficiently solve the prior art are acquired using motor decentralization sampling tank, this When kind of acquisition method will cause sampling tank and withdraw upwards, water sample can be easy to splash out, influence the water quality finally detected as a result, So that the problem that result is not accurate enough.

Technical solution

In order to achieve the above object, the utility model is achieved by the following technical programs: a kind of Intelligent watercourse pollution sources Monitoring device is traced, including hull and main control chip, the hull bottom offer groove from bottom to top, the groove top surface It is fixedly connected with telescopic rod, the groove top surface is fixedly connected with the first escape pipe, the telescopic rod and the first escape pipe bottom end It is fixedly connected with sampling tank jointly, offers the opening communicated with the first escape pipe at the top of the sampling tank, described Open Side Down It is communicated with air intake duct, the sampling tank is circumferentially fixed to be communicated with multiple water inlet pipes, and the water inlet of water inlet pipe extends to sampling tank Lower section, first escape pipe is communicated with the second escape pipe to the interior storehouse of hull, and the second escape pipe is communicated to ship from bottom to top In vitro, second escape pipe middle position is equipped with getter device, and the getter device includes fan blade, and the fan blade is logical Motor is crossed to drive.

Further, the telescopic rod is electric telescopic rod, and the stroke of the telescopic rod is 950mm.

Further, first escape pipe is made by soft silicon glue material, and the first outlet tube shape is to fold Shape.

Further, the water inlet of the water inlet pipe, which goes out, is connected with taper cover.

Further, the length of the water inlet pipe vertical direction be greater than the water outlet of water inlet pipe to sampling tank bottom away from From.

Further, lid has been stoppered at the gas outlet of second escape pipe, the lid offers multiple outlets Hole.

Beneficial effect

It is had the following beneficial effects: compared with known publicly-owned technology using technical solution provided by the utility model

1, the utility model is by being connected to water inlet pipe in sampling tank outer wall, and water inlet pipe water inlet is at the top of the sampling tank, Fan blade is driven to rotate using motor simultaneously, so that the air in sampling tank is gradually drained, due to the pressure of sampling tank inside and outside It is strong poor, so that water is flowed into sampling tank from water inlet pipe, the water sample spillage when withdrawing sampling tank is avoided, influences finally to detect As a result, improving the precision of detection.

2, the utility model is by the connection expansion link between sampling tank and hull groove, and telescopic rod has main control chip Control, so that it is more stable during decentralization using bucket, it avoids shaking during withdrawing sampling tank since water flow generates It causes water sample to flow out, further improves the precision of water quality detection.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described.It should be evident that the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the outside drawing of the sampling tank of the utility model；

Fig. 3 is the sampling tank the schematic diagram of the section structure of the utility model；

Fig. 4 is the enlarged structure schematic diagram of the A of the utility model Fig. 1；

Fig. 5 is the cap structure schematic diagram of the utility model.

Label in figure respectively represents: 1- hull；101- groove；2- telescopic rod；The first escape pipe of 3-；4- sampling tank； 401- opening；5- air intake duct；6- water inlet pipe；The second escape pipe of 7-；8- getter device；801- fan blade；9- motor；10- cone Shape cover；11- lid；1101- venthole；12- main control chip.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described.Obviously, it is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Based on the implementation in the utility model Example, every other embodiment obtained by those of ordinary skill in the art without making creative efforts belong to The range of the utility model protection.

Below with reference to embodiment, the utility model will be further described.

Embodiment

Referring to Fig.1-5, the utility model provides a kind of new technical solution: a kind of Intelligent watercourse pollution sources retrospect monitoring is set It is standby, including hull 1 and main control chip 12,1 bottom of hull offer groove 101 from bottom to top, 101 top surface of groove is fixedly connected There is telescopic rod 2,101 top surface of groove is fixedly connected with the first escape pipe 3, and fixation connects jointly for telescopic rod 2 and 3 bottom end of the first escape pipe It is connected to sampling tank 4, the opening 401 communicated with the first escape pipe 3 is offered at the top of sampling tank 4, opening 401 is communicated with downwards air-breathing Pipe 5, sampling tank 4 is circumferentially fixed to be communicated with multiple water inlet pipes 6, and the water inlet of water inlet pipe 6 extends to below sampling tank 4, and first Escape pipe 3 is communicated with the second escape pipe 7 to the interior storehouse of hull, and the second escape pipe 7 is communicated to from bottom to top outside hull 1, and second 7 middle position of escape pipe is equipped with getter device 8, and getter device 8 includes fan blade 801, fan blade 801 by motor 9 come Driving.

Wherein, telescopic rod 2 is electric telescopic rod, and the stroke of telescopic rod is 950mm, convenient for adjusting the depth that sampling tank 4 is transferred Degree, the first escape pipe 3 is made by soft silicon glue material, and 3 shape of the first escape pipe is rugosity, so that sampling tank 4 is transferred downwards, The water inlet of water inlet pipe 6 goes out to be connected with taper cover 10, is inhaled into sampling tank 4 convenient for river water, 6 vertical direction of water inlet pipe Length is greater than the water outlet of water inlet pipe 6 and has stoppered lid 11 to the distance of 4 bottom of sampling tank, at the gas outlet of the second escape pipe 7, Lid 11 offers multiple ventholes 1101, and rainy day excessive rainfall is avoided to enter pipeline, influences body work.

We are preset first by terminal to carry out one to unmanned monitoring ship when use, so that unmanned monitoring ship is pressed It is navigated by water according to the course line planned, the unmanned monitoring ship with GPS navigation module can be complete by the GPS point bit sequence being remotely guided The automatic cruising of pairs of all GPS point positions and sampling, when unmanned monitoring ship reaches specified sampled point, the master of unmanned monitoring ship After control chip 12 receives signal, start to control the electric telescopic rod 2 connected at the top of the groove 101 that 1 bottom of hull opens up slowly Slow elongation, so that the sampling tank 4 that will drive the connection of 2 bottom end of telescopic rod starts to transfer at leisure, simultaneously as sampling tank 4 is opened The first escape pipe 3 that mouth is connected to 101 top surface of groove is made of soft silicon glue material, has certain collapsing length, sampling tank 4 Decentralization will drive first escape pipe 3 and be elongated at leisure, when sampling tank 4 transfers to depth required for technical staff, Main control chip 12 issues signal and telescopic rod 2 is stopped operating, while main control chip 12 issues signal control motor 9 and starts to turn It starts building to make, so that the fan blade 801 of getter device 8 be driven to rotate, fan blade 801 is continuous under the high-speed driving of motor 9 Rotation, starts constantly to pass sequentially through the air in sampling tank 4 into air intake duct 5, the first escape pipe 3 and the second escape pipe 7 and is discharged, During air in sampling tank 4 is constantly pumped, due to foring pressure difference inside and outside sampling tank 4, outside is greater than the inside, So water can be entered at leisure in sampling tank 4 by water inlet pipe 6, while the taper cover 10 for bottom of the tube connection of intaking can be more Water is flowed into well, when the water sample of required acquisition is enough, main control chip 12 controls motor 9 and stops operating, and starts simultaneously at back Telescopic rod 2 is received, during rising, since water inlet pipe 6 connects from top to bottom, so water sample will not be splashed out easily, Avoid the data result for influencing to detect.The lid 11 with multiple ventholes 1101 is equipped at the top of the second escape pipe 7 simultaneously, is avoided Rainy day excessive water droplet enters in pipe, influences body work.

After having sampled, modularization water quality monitor analyzes the water sample in sampling tank, while being transmitted by data Module transfer is obtained to data receiver by carrying out serializing Analysis on Concentration Variety Characteristics to the river monitoring data received It obtains and entirely monitors the highest section of regional concentration, be classified as pollution sources emphasis investigation area, realize that the automation of pollution sources chases after It traces back

Above embodiments are only to illustrate the technical solution of the utility model, rather than its limitations；Although referring to aforementioned reality Example is applied the utility model is described in detail, those skilled in the art should understand that: it still can be to preceding Technical solution documented by each embodiment is stated to modify or equivalent replacement of some of the technical features；And these Modify or replace, can't make corresponding technical solution essence be detached from various embodiments of the utility model technical solution spirit and Range.

Claims (6)

1. a kind of Intelligent watercourse pollution sources trace monitoring device, including hull (1) and main control chip (12), it is characterised in that: institute It states hull (1) bottom and offers groove (101) from bottom to top, groove (101) top surface is fixedly connected with telescopic rod (2), Groove (101) top surface is fixedly connected with the first escape pipe (3), and the telescopic rod (2) and the first escape pipe (3) bottom end are common It is fixedly connected with sampling tank (4), offers the opening (401) communicated with the first escape pipe (3), institute at the top of the sampling tank (4) Opening (401) to be stated to be communicated with downwards air intake duct (5), the sampling tank (4) is circumferentially fixed to be communicated with multiple water inlet pipes (6), and into The water inlet of water pipe (6) extends to below sampling tank (4), and first escape pipe (3) is communicated with second to the interior storehouse of hull and goes out Tracheae (7), and the second escape pipe (7) is communicated to hull (1) outside from bottom to top, the second escape pipe (7) middle position installation Have getter device (8), the getter device (8) includes fan blade (801), and the fan blade (801) is driven by motor (9) It is dynamic.

2. a kind of Intelligent watercourse pollution sources according to claim 1 trace monitoring device, it is characterised in that: the telescopic rod It (2) is electric telescopic rod, the stroke of the telescopic rod is 950mm.

3. a kind of Intelligent watercourse pollution sources according to claim 1 trace monitoring device, it is characterised in that: described first goes out Tracheae (3) is made by soft silicon glue material, and the first escape pipe (3) shape is rugosity.

4. a kind of Intelligent watercourse pollution sources according to claim 1 trace monitoring device, it is characterised in that: the water inlet pipe (6) water inlet goes out to be connected with taper cover (10).

5. a kind of Intelligent watercourse pollution sources according to claim 1 trace monitoring device, it is characterised in that: the water inlet pipe (6) length of vertical direction is greater than the water outlet of water inlet pipe (6) to the distance of sampling tank (4) bottom.

6. a kind of Intelligent watercourse pollution sources according to claim 1 trace monitoring device, it is characterised in that: described second goes out It has been stoppered at the gas outlet of tracheae (7) lid (11), the lid (11) offers multiple ventholes (1101).